/* * Generated by gdbus-codegen 2.48.2. DO NOT EDIT. * * The license of this code is the same as for the source it was derived from. */ #ifdef HAVE_CONFIG_H # include "config.h" #endif #include "openbmc_intf.h" #include #ifdef G_OS_UNIX # include #endif typedef struct { GDBusArgInfo parent_struct; gboolean use_gvariant; } _ExtendedGDBusArgInfo; typedef struct { GDBusMethodInfo parent_struct; const gchar *signal_name; gboolean pass_fdlist; } _ExtendedGDBusMethodInfo; typedef struct { GDBusSignalInfo parent_struct; const gchar *signal_name; } _ExtendedGDBusSignalInfo; typedef struct { GDBusPropertyInfo parent_struct; const gchar *hyphen_name; gboolean use_gvariant; } _ExtendedGDBusPropertyInfo; typedef struct { GDBusInterfaceInfo parent_struct; const gchar *hyphen_name; } _ExtendedGDBusInterfaceInfo; typedef struct { const _ExtendedGDBusPropertyInfo *info; guint prop_id; GValue orig_value; /* the value before the change */ } ChangedProperty; static void _changed_property_free (ChangedProperty *data) { g_value_unset (&data->orig_value); g_free (data); } static gboolean _g_strv_equal0 (gchar **a, gchar **b) { gboolean ret = FALSE; guint n; if (a == NULL && b == NULL) { ret = TRUE; goto out; } if (a == NULL || b == NULL) goto out; if (g_strv_length (a) != g_strv_length (b)) goto out; for (n = 0; a[n] != NULL; n++) if (g_strcmp0 (a[n], b[n]) != 0) goto out; ret = TRUE; out: return ret; } static gboolean _g_variant_equal0 (GVariant *a, GVariant *b) { gboolean ret = FALSE; if (a == NULL && b == NULL) { ret = TRUE; goto out; } if (a == NULL || b == NULL) goto out; ret = g_variant_equal (a, b); out: return ret; } G_GNUC_UNUSED static gboolean _g_value_equal (const GValue *a, const GValue *b) { gboolean ret = FALSE; g_assert (G_VALUE_TYPE (a) == G_VALUE_TYPE (b)); switch (G_VALUE_TYPE (a)) { case G_TYPE_BOOLEAN: ret = (g_value_get_boolean (a) == g_value_get_boolean (b)); break; case G_TYPE_UCHAR: ret = (g_value_get_uchar (a) == g_value_get_uchar (b)); break; case G_TYPE_INT: ret = (g_value_get_int (a) == g_value_get_int (b)); break; case G_TYPE_UINT: ret = (g_value_get_uint (a) == g_value_get_uint (b)); break; case G_TYPE_INT64: ret = (g_value_get_int64 (a) == g_value_get_int64 (b)); break; case G_TYPE_UINT64: ret = (g_value_get_uint64 (a) == g_value_get_uint64 (b)); break; case G_TYPE_DOUBLE: { /* Avoid -Wfloat-equal warnings by doing a direct bit compare */ gdouble da = g_value_get_double (a); gdouble db = g_value_get_double (b); ret = memcmp (&da, &db, sizeof (gdouble)) == 0; } break; case G_TYPE_STRING: ret = (g_strcmp0 (g_value_get_string (a), g_value_get_string (b)) == 0); break; case G_TYPE_VARIANT: ret = _g_variant_equal0 (g_value_get_variant (a), g_value_get_variant (b)); break; default: if (G_VALUE_TYPE (a) == G_TYPE_STRV) ret = _g_strv_equal0 (g_value_get_boxed (a), g_value_get_boxed (b)); else g_critical ("_g_value_equal() does not handle type %s", g_type_name (G_VALUE_TYPE (a))); break; } return ret; } /* ------------------------------------------------------------------------ * Code for interface org.openbmc.Hwmon * ------------------------------------------------------------------------ */ /** * SECTION:Hwmon * @title: Hwmon * @short_description: Generated C code for the org.openbmc.Hwmon D-Bus interface * * This section contains code for working with the org.openbmc.Hwmon D-Bus interface in C. */ /* ---- Introspection data for org.openbmc.Hwmon ---- */ static const _ExtendedGDBusPropertyInfo _hwmon_property_info_poll_interval = { { -1, (gchar *) "poll_interval", (gchar *) "i", G_DBUS_PROPERTY_INFO_FLAGS_READABLE, NULL }, "poll-interval", FALSE }; static const _ExtendedGDBusPropertyInfo _hwmon_property_info_sysfs_path = { { -1, (gchar *) "sysfs_path", (gchar *) "s", G_DBUS_PROPERTY_INFO_FLAGS_READABLE, NULL }, "sysfs-path", FALSE }; static const _ExtendedGDBusPropertyInfo _hwmon_property_info_scale = { { -1, (gchar *) "scale", (gchar *) "i", G_DBUS_PROPERTY_INFO_FLAGS_READABLE, NULL }, "scale", FALSE }; static const _ExtendedGDBusPropertyInfo * const _hwmon_property_info_pointers[] = { &_hwmon_property_info_poll_interval, &_hwmon_property_info_sysfs_path, &_hwmon_property_info_scale, NULL }; static const _ExtendedGDBusInterfaceInfo _hwmon_interface_info = { { -1, (gchar *) "org.openbmc.Hwmon", NULL, NULL, (GDBusPropertyInfo **) &_hwmon_property_info_pointers, NULL }, "hwmon", }; /** * hwmon_interface_info: * * Gets a machine-readable description of the org.openbmc.Hwmon D-Bus interface. * * Returns: (transfer none): A #GDBusInterfaceInfo. Do not free. */ GDBusInterfaceInfo * hwmon_interface_info (void) { return (GDBusInterfaceInfo *) &_hwmon_interface_info.parent_struct; } /** * hwmon_override_properties: * @klass: The class structure for a #GObject-derived class. * @property_id_begin: The property id to assign to the first overridden property. * * Overrides all #GObject properties in the #Hwmon interface for a concrete class. * The properties are overridden in the order they are defined. * * Returns: The last property id. */ guint hwmon_override_properties (GObjectClass *klass, guint property_id_begin) { g_object_class_override_property (klass, property_id_begin++, "poll-interval"); g_object_class_override_property (klass, property_id_begin++, "sysfs-path"); g_object_class_override_property (klass, property_id_begin++, "scale"); return property_id_begin - 1; } /** * Hwmon: * * Abstract interface type for the D-Bus interface org.openbmc.Hwmon. */ /** * HwmonIface: * @parent_iface: The parent interface. * @get_poll_interval: Getter for the #Hwmon:poll-interval property. * @get_scale: Getter for the #Hwmon:scale property. * @get_sysfs_path: Getter for the #Hwmon:sysfs-path property. * * Virtual table for the D-Bus interface org.openbmc.Hwmon. */ typedef HwmonIface HwmonInterface; G_DEFINE_INTERFACE (Hwmon, hwmon, G_TYPE_OBJECT); static void hwmon_default_init (HwmonIface *iface) { /* GObject properties for D-Bus properties: */ /** * Hwmon:poll-interval: * * Represents the D-Bus property "poll_interval". * * Since the D-Bus property for this #GObject property is readable but not writable, it is meaningful to read from it on both the client- and service-side. It is only meaningful, however, to write to it on the service-side. */ g_object_interface_install_property (iface, g_param_spec_int ("poll-interval", "poll_interval", "poll_interval", G_MININT32, G_MAXINT32, 0, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS)); /** * Hwmon:sysfs-path: * * Represents the D-Bus property "sysfs_path". * * Since the D-Bus property for this #GObject property is readable but not writable, it is meaningful to read from it on both the client- and service-side. It is only meaningful, however, to write to it on the service-side. */ g_object_interface_install_property (iface, g_param_spec_string ("sysfs-path", "sysfs_path", "sysfs_path", NULL, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS)); /** * Hwmon:scale: * * Represents the D-Bus property "scale". * * Since the D-Bus property for this #GObject property is readable but not writable, it is meaningful to read from it on both the client- and service-side. It is only meaningful, however, to write to it on the service-side. */ g_object_interface_install_property (iface, g_param_spec_int ("scale", "scale", "scale", G_MININT32, G_MAXINT32, 0, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS)); } /** * hwmon_get_poll_interval: (skip) * @object: A #Hwmon. * * Gets the value of the "poll_interval" D-Bus property. * * Since this D-Bus property is readable, it is meaningful to use this function on both the client- and service-side. * * Returns: The property value. */ gint hwmon_get_poll_interval (Hwmon *object) { return HWMON_GET_IFACE (object)->get_poll_interval (object); } /** * hwmon_set_poll_interval: (skip) * @object: A #Hwmon. * @value: The value to set. * * Sets the "poll_interval" D-Bus property to @value. * * Since this D-Bus property is not writable, it is only meaningful to use this function on the service-side. */ void hwmon_set_poll_interval (Hwmon *object, gint value) { g_object_set (G_OBJECT (object), "poll-interval", value, NULL); } /** * hwmon_get_sysfs_path: (skip) * @object: A #Hwmon. * * Gets the value of the "sysfs_path" D-Bus property. * * Since this D-Bus property is readable, it is meaningful to use this function on both the client- and service-side. * * The returned value is only valid until the property changes so on the client-side it is only safe to use this function on the thread where @object was constructed. Use hwmon_dup_sysfs_path() if on another thread. * * Returns: (transfer none): The property value or %NULL if the property is not set. Do not free the returned value, it belongs to @object. */ const gchar * hwmon_get_sysfs_path (Hwmon *object) { return HWMON_GET_IFACE (object)->get_sysfs_path (object); } /** * hwmon_dup_sysfs_path: (skip) * @object: A #Hwmon. * * Gets a copy of the "sysfs_path" D-Bus property. * * Since this D-Bus property is readable, it is meaningful to use this function on both the client- and service-side. * * Returns: (transfer full): The property value or %NULL if the property is not set. The returned value should be freed with g_free(). */ gchar * hwmon_dup_sysfs_path (Hwmon *object) { gchar *value; g_object_get (G_OBJECT (object), "sysfs-path", &value, NULL); return value; } /** * hwmon_set_sysfs_path: (skip) * @object: A #Hwmon. * @value: The value to set. * * Sets the "sysfs_path" D-Bus property to @value. * * Since this D-Bus property is not writable, it is only meaningful to use this function on the service-side. */ void hwmon_set_sysfs_path (Hwmon *object, const gchar *value) { g_object_set (G_OBJECT (object), "sysfs-path", value, NULL); } /** * hwmon_get_scale: (skip) * @object: A #Hwmon. * * Gets the value of the "scale" D-Bus property. * * Since this D-Bus property is readable, it is meaningful to use this function on both the client- and service-side. * * Returns: The property value. */ gint hwmon_get_scale (Hwmon *object) { return HWMON_GET_IFACE (object)->get_scale (object); } /** * hwmon_set_scale: (skip) * @object: A #Hwmon. * @value: The value to set. * * Sets the "scale" D-Bus property to @value. * * Since this D-Bus property is not writable, it is only meaningful to use this function on the service-side. */ void hwmon_set_scale (Hwmon *object, gint value) { g_object_set (G_OBJECT (object), "scale", value, NULL); } /* ------------------------------------------------------------------------ */ /** * HwmonProxy: * * The #HwmonProxy structure contains only private data and should only be accessed using the provided API. */ /** * HwmonProxyClass: * @parent_class: The parent class. * * Class structure for #HwmonProxy. */ struct _HwmonProxyPrivate { GData *qdata; }; static void hwmon_proxy_iface_init (HwmonIface *iface); #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 G_DEFINE_TYPE_WITH_CODE (HwmonProxy, hwmon_proxy, G_TYPE_DBUS_PROXY, G_ADD_PRIVATE (HwmonProxy) G_IMPLEMENT_INTERFACE (TYPE_HWMON, hwmon_proxy_iface_init)); #else G_DEFINE_TYPE_WITH_CODE (HwmonProxy, hwmon_proxy, G_TYPE_DBUS_PROXY, G_IMPLEMENT_INTERFACE (TYPE_HWMON, hwmon_proxy_iface_init)); #endif static void hwmon_proxy_finalize (GObject *object) { HwmonProxy *proxy = HWMON_PROXY (object); g_datalist_clear (&proxy->priv->qdata); G_OBJECT_CLASS (hwmon_proxy_parent_class)->finalize (object); } static void hwmon_proxy_get_property (GObject *object, guint prop_id, GValue *value, GParamSpec *pspec G_GNUC_UNUSED) { const _ExtendedGDBusPropertyInfo *info; GVariant *variant; g_assert (prop_id != 0 && prop_id - 1 < 3); info = _hwmon_property_info_pointers[prop_id - 1]; variant = g_dbus_proxy_get_cached_property (G_DBUS_PROXY (object), info->parent_struct.name); if (info->use_gvariant) { g_value_set_variant (value, variant); } else { if (variant != NULL) g_dbus_gvariant_to_gvalue (variant, value); } if (variant != NULL) g_variant_unref (variant); } static void hwmon_proxy_set_property_cb (GDBusProxy *proxy, GAsyncResult *res, gpointer user_data) { const _ExtendedGDBusPropertyInfo *info = user_data; GError *error; GVariant *_ret; error = NULL; _ret = g_dbus_proxy_call_finish (proxy, res, &error); if (!_ret) { g_warning ("Error setting property '%s' on interface org.openbmc.Hwmon: %s (%s, %d)", info->parent_struct.name, error->message, g_quark_to_string (error->domain), error->code); g_error_free (error); } else { g_variant_unref (_ret); } } static void hwmon_proxy_set_property (GObject *object, guint prop_id, const GValue *value, GParamSpec *pspec G_GNUC_UNUSED) { const _ExtendedGDBusPropertyInfo *info; GVariant *variant; g_assert (prop_id != 0 && prop_id - 1 < 3); info = _hwmon_property_info_pointers[prop_id - 1]; variant = g_dbus_gvalue_to_gvariant (value, G_VARIANT_TYPE (info->parent_struct.signature)); g_dbus_proxy_call (G_DBUS_PROXY (object), "org.freedesktop.DBus.Properties.Set", g_variant_new ("(ssv)", "org.openbmc.Hwmon", info->parent_struct.name, variant), G_DBUS_CALL_FLAGS_NONE, -1, NULL, (GAsyncReadyCallback) hwmon_proxy_set_property_cb, (GDBusPropertyInfo *) &info->parent_struct); g_variant_unref (variant); } static void hwmon_proxy_g_signal (GDBusProxy *proxy, const gchar *sender_name G_GNUC_UNUSED, const gchar *signal_name, GVariant *parameters) { _ExtendedGDBusSignalInfo *info; GVariantIter iter; GVariant *child; GValue *paramv; guint num_params; guint n; guint signal_id; info = (_ExtendedGDBusSignalInfo *) g_dbus_interface_info_lookup_signal ((GDBusInterfaceInfo *) &_hwmon_interface_info.parent_struct, signal_name); if (info == NULL) return; num_params = g_variant_n_children (parameters); paramv = g_new0 (GValue, num_params + 1); g_value_init (¶mv[0], TYPE_HWMON); g_value_set_object (¶mv[0], proxy); g_variant_iter_init (&iter, parameters); n = 1; while ((child = g_variant_iter_next_value (&iter)) != NULL) { _ExtendedGDBusArgInfo *arg_info = (_ExtendedGDBusArgInfo *) info->parent_struct.args[n - 1]; if (arg_info->use_gvariant) { g_value_init (¶mv[n], G_TYPE_VARIANT); g_value_set_variant (¶mv[n], child); n++; } else g_dbus_gvariant_to_gvalue (child, ¶mv[n++]); g_variant_unref (child); } signal_id = g_signal_lookup (info->signal_name, TYPE_HWMON); g_signal_emitv (paramv, signal_id, 0, NULL); for (n = 0; n < num_params + 1; n++) g_value_unset (¶mv[n]); g_free (paramv); } static void hwmon_proxy_g_properties_changed (GDBusProxy *_proxy, GVariant *changed_properties, const gchar *const *invalidated_properties) { HwmonProxy *proxy = HWMON_PROXY (_proxy); guint n; const gchar *key; GVariantIter *iter; _ExtendedGDBusPropertyInfo *info; g_variant_get (changed_properties, "a{sv}", &iter); while (g_variant_iter_next (iter, "{&sv}", &key, NULL)) { info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_hwmon_interface_info.parent_struct, key); g_datalist_remove_data (&proxy->priv->qdata, key); if (info != NULL) g_object_notify (G_OBJECT (proxy), info->hyphen_name); } g_variant_iter_free (iter); for (n = 0; invalidated_properties[n] != NULL; n++) { info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_hwmon_interface_info.parent_struct, invalidated_properties[n]); g_datalist_remove_data (&proxy->priv->qdata, invalidated_properties[n]); if (info != NULL) g_object_notify (G_OBJECT (proxy), info->hyphen_name); } } static gint hwmon_proxy_get_poll_interval (Hwmon *object) { HwmonProxy *proxy = HWMON_PROXY (object); GVariant *variant; gint value = 0; variant = g_dbus_proxy_get_cached_property (G_DBUS_PROXY (proxy), "poll_interval"); if (variant != NULL) { value = g_variant_get_int32 (variant); g_variant_unref (variant); } return value; } static const gchar * hwmon_proxy_get_sysfs_path (Hwmon *object) { HwmonProxy *proxy = HWMON_PROXY (object); GVariant *variant; const gchar *value = NULL; variant = g_dbus_proxy_get_cached_property (G_DBUS_PROXY (proxy), "sysfs_path"); if (variant != NULL) { value = g_variant_get_string (variant, NULL); g_variant_unref (variant); } return value; } static gint hwmon_proxy_get_scale (Hwmon *object) { HwmonProxy *proxy = HWMON_PROXY (object); GVariant *variant; gint value = 0; variant = g_dbus_proxy_get_cached_property (G_DBUS_PROXY (proxy), "scale"); if (variant != NULL) { value = g_variant_get_int32 (variant); g_variant_unref (variant); } return value; } static void hwmon_proxy_init (HwmonProxy *proxy) { #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 proxy->priv = hwmon_proxy_get_instance_private (proxy); #else proxy->priv = G_TYPE_INSTANCE_GET_PRIVATE (proxy, TYPE_HWMON_PROXY, HwmonProxyPrivate); #endif g_dbus_proxy_set_interface_info (G_DBUS_PROXY (proxy), hwmon_interface_info ()); } static void hwmon_proxy_class_init (HwmonProxyClass *klass) { GObjectClass *gobject_class; GDBusProxyClass *proxy_class; gobject_class = G_OBJECT_CLASS (klass); gobject_class->finalize = hwmon_proxy_finalize; gobject_class->get_property = hwmon_proxy_get_property; gobject_class->set_property = hwmon_proxy_set_property; proxy_class = G_DBUS_PROXY_CLASS (klass); proxy_class->g_signal = hwmon_proxy_g_signal; proxy_class->g_properties_changed = hwmon_proxy_g_properties_changed; hwmon_override_properties (gobject_class, 1); #if GLIB_VERSION_MAX_ALLOWED < GLIB_VERSION_2_38 g_type_class_add_private (klass, sizeof (HwmonProxyPrivate)); #endif } static void hwmon_proxy_iface_init (HwmonIface *iface) { iface->get_poll_interval = hwmon_proxy_get_poll_interval; iface->get_sysfs_path = hwmon_proxy_get_sysfs_path; iface->get_scale = hwmon_proxy_get_scale; } /** * hwmon_proxy_new: * @connection: A #GDBusConnection. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: (allow-none): A bus name (well-known or unique) or %NULL if @connection is not a message bus connection. * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied. * @user_data: User data to pass to @callback. * * Asynchronously creates a proxy for the D-Bus interface org.openbmc.Hwmon. See g_dbus_proxy_new() for more details. * * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call hwmon_proxy_new_finish() to get the result of the operation. * * See hwmon_proxy_new_sync() for the synchronous, blocking version of this constructor. */ void hwmon_proxy_new ( GDBusConnection *connection, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_async_initable_new_async (TYPE_HWMON_PROXY, G_PRIORITY_DEFAULT, cancellable, callback, user_data, "g-flags", flags, "g-name", name, "g-connection", connection, "g-object-path", object_path, "g-interface-name", "org.openbmc.Hwmon", NULL); } /** * hwmon_proxy_new_finish: * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to hwmon_proxy_new(). * @error: Return location for error or %NULL * * Finishes an operation started with hwmon_proxy_new(). * * Returns: (transfer full) (type HwmonProxy): The constructed proxy object or %NULL if @error is set. */ Hwmon * hwmon_proxy_new_finish ( GAsyncResult *res, GError **error) { GObject *ret; GObject *source_object; source_object = g_async_result_get_source_object (res); ret = g_async_initable_new_finish (G_ASYNC_INITABLE (source_object), res, error); g_object_unref (source_object); if (ret != NULL) return HWMON (ret); else return NULL; } /** * hwmon_proxy_new_sync: * @connection: A #GDBusConnection. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: (allow-none): A bus name (well-known or unique) or %NULL if @connection is not a message bus connection. * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL * * Synchronously creates a proxy for the D-Bus interface org.openbmc.Hwmon. See g_dbus_proxy_new_sync() for more details. * * The calling thread is blocked until a reply is received. * * See hwmon_proxy_new() for the asynchronous version of this constructor. * * Returns: (transfer full) (type HwmonProxy): The constructed proxy object or %NULL if @error is set. */ Hwmon * hwmon_proxy_new_sync ( GDBusConnection *connection, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GError **error) { GInitable *ret; ret = g_initable_new (TYPE_HWMON_PROXY, cancellable, error, "g-flags", flags, "g-name", name, "g-connection", connection, "g-object-path", object_path, "g-interface-name", "org.openbmc.Hwmon", NULL); if (ret != NULL) return HWMON (ret); else return NULL; } /** * hwmon_proxy_new_for_bus: * @bus_type: A #GBusType. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: A bus name (well-known or unique). * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied. * @user_data: User data to pass to @callback. * * Like hwmon_proxy_new() but takes a #GBusType instead of a #GDBusConnection. * * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call hwmon_proxy_new_for_bus_finish() to get the result of the operation. * * See hwmon_proxy_new_for_bus_sync() for the synchronous, blocking version of this constructor. */ void hwmon_proxy_new_for_bus ( GBusType bus_type, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_async_initable_new_async (TYPE_HWMON_PROXY, G_PRIORITY_DEFAULT, cancellable, callback, user_data, "g-flags", flags, "g-name", name, "g-bus-type", bus_type, "g-object-path", object_path, "g-interface-name", "org.openbmc.Hwmon", NULL); } /** * hwmon_proxy_new_for_bus_finish: * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to hwmon_proxy_new_for_bus(). * @error: Return location for error or %NULL * * Finishes an operation started with hwmon_proxy_new_for_bus(). * * Returns: (transfer full) (type HwmonProxy): The constructed proxy object or %NULL if @error is set. */ Hwmon * hwmon_proxy_new_for_bus_finish ( GAsyncResult *res, GError **error) { GObject *ret; GObject *source_object; source_object = g_async_result_get_source_object (res); ret = g_async_initable_new_finish (G_ASYNC_INITABLE (source_object), res, error); g_object_unref (source_object); if (ret != NULL) return HWMON (ret); else return NULL; } /** * hwmon_proxy_new_for_bus_sync: * @bus_type: A #GBusType. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: A bus name (well-known or unique). * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL * * Like hwmon_proxy_new_sync() but takes a #GBusType instead of a #GDBusConnection. * * The calling thread is blocked until a reply is received. * * See hwmon_proxy_new_for_bus() for the asynchronous version of this constructor. * * Returns: (transfer full) (type HwmonProxy): The constructed proxy object or %NULL if @error is set. */ Hwmon * hwmon_proxy_new_for_bus_sync ( GBusType bus_type, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GError **error) { GInitable *ret; ret = g_initable_new (TYPE_HWMON_PROXY, cancellable, error, "g-flags", flags, "g-name", name, "g-bus-type", bus_type, "g-object-path", object_path, "g-interface-name", "org.openbmc.Hwmon", NULL); if (ret != NULL) return HWMON (ret); else return NULL; } /* ------------------------------------------------------------------------ */ /** * HwmonSkeleton: * * The #HwmonSkeleton structure contains only private data and should only be accessed using the provided API. */ /** * HwmonSkeletonClass: * @parent_class: The parent class. * * Class structure for #HwmonSkeleton. */ struct _HwmonSkeletonPrivate { GValue *properties; GList *changed_properties; GSource *changed_properties_idle_source; GMainContext *context; GMutex lock; }; static void _hwmon_skeleton_handle_method_call ( GDBusConnection *connection G_GNUC_UNUSED, const gchar *sender G_GNUC_UNUSED, const gchar *object_path G_GNUC_UNUSED, const gchar *interface_name, const gchar *method_name, GVariant *parameters, GDBusMethodInvocation *invocation, gpointer user_data) { HwmonSkeleton *skeleton = HWMON_SKELETON (user_data); _ExtendedGDBusMethodInfo *info; GVariantIter iter; GVariant *child; GValue *paramv; guint num_params; guint num_extra; guint n; guint signal_id; GValue return_value = G_VALUE_INIT; info = (_ExtendedGDBusMethodInfo *) g_dbus_method_invocation_get_method_info (invocation); g_assert (info != NULL); num_params = g_variant_n_children (parameters); num_extra = info->pass_fdlist ? 3 : 2; paramv = g_new0 (GValue, num_params + num_extra); n = 0; g_value_init (¶mv[n], TYPE_HWMON); g_value_set_object (¶mv[n++], skeleton); g_value_init (¶mv[n], G_TYPE_DBUS_METHOD_INVOCATION); g_value_set_object (¶mv[n++], invocation); if (info->pass_fdlist) { #ifdef G_OS_UNIX g_value_init (¶mv[n], G_TYPE_UNIX_FD_LIST); g_value_set_object (¶mv[n++], g_dbus_message_get_unix_fd_list (g_dbus_method_invocation_get_message (invocation))); #else g_assert_not_reached (); #endif } g_variant_iter_init (&iter, parameters); while ((child = g_variant_iter_next_value (&iter)) != NULL) { _ExtendedGDBusArgInfo *arg_info = (_ExtendedGDBusArgInfo *) info->parent_struct.in_args[n - num_extra]; if (arg_info->use_gvariant) { g_value_init (¶mv[n], G_TYPE_VARIANT); g_value_set_variant (¶mv[n], child); n++; } else g_dbus_gvariant_to_gvalue (child, ¶mv[n++]); g_variant_unref (child); } signal_id = g_signal_lookup (info->signal_name, TYPE_HWMON); g_value_init (&return_value, G_TYPE_BOOLEAN); g_signal_emitv (paramv, signal_id, 0, &return_value); if (!g_value_get_boolean (&return_value)) g_dbus_method_invocation_return_error (invocation, G_DBUS_ERROR, G_DBUS_ERROR_UNKNOWN_METHOD, "Method %s is not implemented on interface %s", method_name, interface_name); g_value_unset (&return_value); for (n = 0; n < num_params + num_extra; n++) g_value_unset (¶mv[n]); g_free (paramv); } static GVariant * _hwmon_skeleton_handle_get_property ( GDBusConnection *connection G_GNUC_UNUSED, const gchar *sender G_GNUC_UNUSED, const gchar *object_path G_GNUC_UNUSED, const gchar *interface_name G_GNUC_UNUSED, const gchar *property_name, GError **error, gpointer user_data) { HwmonSkeleton *skeleton = HWMON_SKELETON (user_data); GValue value = G_VALUE_INIT; GParamSpec *pspec; _ExtendedGDBusPropertyInfo *info; GVariant *ret; ret = NULL; info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_hwmon_interface_info.parent_struct, property_name); g_assert (info != NULL); pspec = g_object_class_find_property (G_OBJECT_GET_CLASS (skeleton), info->hyphen_name); if (pspec == NULL) { g_set_error (error, G_DBUS_ERROR, G_DBUS_ERROR_INVALID_ARGS, "No property with name %s", property_name); } else { g_value_init (&value, pspec->value_type); g_object_get_property (G_OBJECT (skeleton), info->hyphen_name, &value); ret = g_dbus_gvalue_to_gvariant (&value, G_VARIANT_TYPE (info->parent_struct.signature)); g_value_unset (&value); } return ret; } static gboolean _hwmon_skeleton_handle_set_property ( GDBusConnection *connection G_GNUC_UNUSED, const gchar *sender G_GNUC_UNUSED, const gchar *object_path G_GNUC_UNUSED, const gchar *interface_name G_GNUC_UNUSED, const gchar *property_name, GVariant *variant, GError **error, gpointer user_data) { HwmonSkeleton *skeleton = HWMON_SKELETON (user_data); GValue value = G_VALUE_INIT; GParamSpec *pspec; _ExtendedGDBusPropertyInfo *info; gboolean ret; ret = FALSE; info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_hwmon_interface_info.parent_struct, property_name); g_assert (info != NULL); pspec = g_object_class_find_property (G_OBJECT_GET_CLASS (skeleton), info->hyphen_name); if (pspec == NULL) { g_set_error (error, G_DBUS_ERROR, G_DBUS_ERROR_INVALID_ARGS, "No property with name %s", property_name); } else { if (info->use_gvariant) g_value_set_variant (&value, variant); else g_dbus_gvariant_to_gvalue (variant, &value); g_object_set_property (G_OBJECT (skeleton), info->hyphen_name, &value); g_value_unset (&value); ret = TRUE; } return ret; } static const GDBusInterfaceVTable _hwmon_skeleton_vtable = { _hwmon_skeleton_handle_method_call, _hwmon_skeleton_handle_get_property, _hwmon_skeleton_handle_set_property, {NULL} }; static GDBusInterfaceInfo * hwmon_skeleton_dbus_interface_get_info (GDBusInterfaceSkeleton *skeleton G_GNUC_UNUSED) { return hwmon_interface_info (); } static GDBusInterfaceVTable * hwmon_skeleton_dbus_interface_get_vtable (GDBusInterfaceSkeleton *skeleton G_GNUC_UNUSED) { return (GDBusInterfaceVTable *) &_hwmon_skeleton_vtable; } static GVariant * hwmon_skeleton_dbus_interface_get_properties (GDBusInterfaceSkeleton *_skeleton) { HwmonSkeleton *skeleton = HWMON_SKELETON (_skeleton); GVariantBuilder builder; guint n; g_variant_builder_init (&builder, G_VARIANT_TYPE ("a{sv}")); if (_hwmon_interface_info.parent_struct.properties == NULL) goto out; for (n = 0; _hwmon_interface_info.parent_struct.properties[n] != NULL; n++) { GDBusPropertyInfo *info = _hwmon_interface_info.parent_struct.properties[n]; if (info->flags & G_DBUS_PROPERTY_INFO_FLAGS_READABLE) { GVariant *value; value = _hwmon_skeleton_handle_get_property (g_dbus_interface_skeleton_get_connection (G_DBUS_INTERFACE_SKELETON (skeleton)), NULL, g_dbus_interface_skeleton_get_object_path (G_DBUS_INTERFACE_SKELETON (skeleton)), "org.openbmc.Hwmon", info->name, NULL, skeleton); if (value != NULL) { g_variant_take_ref (value); g_variant_builder_add (&builder, "{sv}", info->name, value); g_variant_unref (value); } } } out: return g_variant_builder_end (&builder); } static gboolean _hwmon_emit_changed (gpointer user_data); static void hwmon_skeleton_dbus_interface_flush (GDBusInterfaceSkeleton *_skeleton) { HwmonSkeleton *skeleton = HWMON_SKELETON (_skeleton); gboolean emit_changed = FALSE; g_mutex_lock (&skeleton->priv->lock); if (skeleton->priv->changed_properties_idle_source != NULL) { g_source_destroy (skeleton->priv->changed_properties_idle_source); skeleton->priv->changed_properties_idle_source = NULL; emit_changed = TRUE; } g_mutex_unlock (&skeleton->priv->lock); if (emit_changed) _hwmon_emit_changed (skeleton); } static void hwmon_skeleton_iface_init (HwmonIface *iface); #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 G_DEFINE_TYPE_WITH_CODE (HwmonSkeleton, hwmon_skeleton, G_TYPE_DBUS_INTERFACE_SKELETON, G_ADD_PRIVATE (HwmonSkeleton) G_IMPLEMENT_INTERFACE (TYPE_HWMON, hwmon_skeleton_iface_init)); #else G_DEFINE_TYPE_WITH_CODE (HwmonSkeleton, hwmon_skeleton, G_TYPE_DBUS_INTERFACE_SKELETON, G_IMPLEMENT_INTERFACE (TYPE_HWMON, hwmon_skeleton_iface_init)); #endif static void hwmon_skeleton_finalize (GObject *object) { HwmonSkeleton *skeleton = HWMON_SKELETON (object); guint n; for (n = 0; n < 3; n++) g_value_unset (&skeleton->priv->properties[n]); g_free (skeleton->priv->properties); g_list_free_full (skeleton->priv->changed_properties, (GDestroyNotify) _changed_property_free); if (skeleton->priv->changed_properties_idle_source != NULL) g_source_destroy (skeleton->priv->changed_properties_idle_source); g_main_context_unref (skeleton->priv->context); g_mutex_clear (&skeleton->priv->lock); G_OBJECT_CLASS (hwmon_skeleton_parent_class)->finalize (object); } static void hwmon_skeleton_get_property (GObject *object, guint prop_id, GValue *value, GParamSpec *pspec G_GNUC_UNUSED) { HwmonSkeleton *skeleton = HWMON_SKELETON (object); g_assert (prop_id != 0 && prop_id - 1 < 3); g_mutex_lock (&skeleton->priv->lock); g_value_copy (&skeleton->priv->properties[prop_id - 1], value); g_mutex_unlock (&skeleton->priv->lock); } static gboolean _hwmon_emit_changed (gpointer user_data) { HwmonSkeleton *skeleton = HWMON_SKELETON (user_data); GList *l; GVariantBuilder builder; GVariantBuilder invalidated_builder; guint num_changes; g_mutex_lock (&skeleton->priv->lock); g_variant_builder_init (&builder, G_VARIANT_TYPE ("a{sv}")); g_variant_builder_init (&invalidated_builder, G_VARIANT_TYPE ("as")); for (l = skeleton->priv->changed_properties, num_changes = 0; l != NULL; l = l->next) { ChangedProperty *cp = l->data; GVariant *variant; const GValue *cur_value; cur_value = &skeleton->priv->properties[cp->prop_id - 1]; if (!_g_value_equal (cur_value, &cp->orig_value)) { variant = g_dbus_gvalue_to_gvariant (cur_value, G_VARIANT_TYPE (cp->info->parent_struct.signature)); g_variant_builder_add (&builder, "{sv}", cp->info->parent_struct.name, variant); g_variant_unref (variant); num_changes++; } } if (num_changes > 0) { GList *connections, *ll; GVariant *signal_variant; signal_variant = g_variant_ref_sink (g_variant_new ("(sa{sv}as)", "org.openbmc.Hwmon", &builder, &invalidated_builder)); connections = g_dbus_interface_skeleton_get_connections (G_DBUS_INTERFACE_SKELETON (skeleton)); for (ll = connections; ll != NULL; ll = ll->next) { GDBusConnection *connection = ll->data; g_dbus_connection_emit_signal (connection, NULL, g_dbus_interface_skeleton_get_object_path (G_DBUS_INTERFACE_SKELETON (skeleton)), "org.freedesktop.DBus.Properties", "PropertiesChanged", signal_variant, NULL); } g_variant_unref (signal_variant); g_list_free_full (connections, g_object_unref); } else { g_variant_builder_clear (&builder); g_variant_builder_clear (&invalidated_builder); } g_list_free_full (skeleton->priv->changed_properties, (GDestroyNotify) _changed_property_free); skeleton->priv->changed_properties = NULL; skeleton->priv->changed_properties_idle_source = NULL; g_mutex_unlock (&skeleton->priv->lock); return FALSE; } static void _hwmon_schedule_emit_changed (HwmonSkeleton *skeleton, const _ExtendedGDBusPropertyInfo *info, guint prop_id, const GValue *orig_value) { ChangedProperty *cp; GList *l; cp = NULL; for (l = skeleton->priv->changed_properties; l != NULL; l = l->next) { ChangedProperty *i_cp = l->data; if (i_cp->info == info) { cp = i_cp; break; } } if (cp == NULL) { cp = g_new0 (ChangedProperty, 1); cp->prop_id = prop_id; cp->info = info; skeleton->priv->changed_properties = g_list_prepend (skeleton->priv->changed_properties, cp); g_value_init (&cp->orig_value, G_VALUE_TYPE (orig_value)); g_value_copy (orig_value, &cp->orig_value); } } static void hwmon_skeleton_notify (GObject *object, GParamSpec *pspec G_GNUC_UNUSED) { HwmonSkeleton *skeleton = HWMON_SKELETON (object); g_mutex_lock (&skeleton->priv->lock); if (skeleton->priv->changed_properties != NULL && skeleton->priv->changed_properties_idle_source == NULL) { skeleton->priv->changed_properties_idle_source = g_idle_source_new (); g_source_set_priority (skeleton->priv->changed_properties_idle_source, G_PRIORITY_DEFAULT); g_source_set_callback (skeleton->priv->changed_properties_idle_source, _hwmon_emit_changed, g_object_ref (skeleton), (GDestroyNotify) g_object_unref); g_source_set_name (skeleton->priv->changed_properties_idle_source, "[generated] _hwmon_emit_changed"); g_source_attach (skeleton->priv->changed_properties_idle_source, skeleton->priv->context); g_source_unref (skeleton->priv->changed_properties_idle_source); } g_mutex_unlock (&skeleton->priv->lock); } static void hwmon_skeleton_set_property (GObject *object, guint prop_id, const GValue *value, GParamSpec *pspec) { HwmonSkeleton *skeleton = HWMON_SKELETON (object); g_assert (prop_id != 0 && prop_id - 1 < 3); g_mutex_lock (&skeleton->priv->lock); g_object_freeze_notify (object); if (!_g_value_equal (value, &skeleton->priv->properties[prop_id - 1])) { if (g_dbus_interface_skeleton_get_connection (G_DBUS_INTERFACE_SKELETON (skeleton)) != NULL) _hwmon_schedule_emit_changed (skeleton, _hwmon_property_info_pointers[prop_id - 1], prop_id, &skeleton->priv->properties[prop_id - 1]); g_value_copy (value, &skeleton->priv->properties[prop_id - 1]); g_object_notify_by_pspec (object, pspec); } g_mutex_unlock (&skeleton->priv->lock); g_object_thaw_notify (object); } static void hwmon_skeleton_init (HwmonSkeleton *skeleton) { #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 skeleton->priv = hwmon_skeleton_get_instance_private (skeleton); #else skeleton->priv = G_TYPE_INSTANCE_GET_PRIVATE (skeleton, TYPE_HWMON_SKELETON, HwmonSkeletonPrivate); #endif g_mutex_init (&skeleton->priv->lock); skeleton->priv->context = g_main_context_ref_thread_default (); skeleton->priv->properties = g_new0 (GValue, 3); g_value_init (&skeleton->priv->properties[0], G_TYPE_INT); g_value_init (&skeleton->priv->properties[1], G_TYPE_STRING); g_value_init (&skeleton->priv->properties[2], G_TYPE_INT); } static gint hwmon_skeleton_get_poll_interval (Hwmon *object) { HwmonSkeleton *skeleton = HWMON_SKELETON (object); gint value; g_mutex_lock (&skeleton->priv->lock); value = g_value_get_int (&(skeleton->priv->properties[0])); g_mutex_unlock (&skeleton->priv->lock); return value; } static const gchar * hwmon_skeleton_get_sysfs_path (Hwmon *object) { HwmonSkeleton *skeleton = HWMON_SKELETON (object); const gchar *value; g_mutex_lock (&skeleton->priv->lock); value = g_value_get_string (&(skeleton->priv->properties[1])); g_mutex_unlock (&skeleton->priv->lock); return value; } static gint hwmon_skeleton_get_scale (Hwmon *object) { HwmonSkeleton *skeleton = HWMON_SKELETON (object); gint value; g_mutex_lock (&skeleton->priv->lock); value = g_value_get_int (&(skeleton->priv->properties[2])); g_mutex_unlock (&skeleton->priv->lock); return value; } static void hwmon_skeleton_class_init (HwmonSkeletonClass *klass) { GObjectClass *gobject_class; GDBusInterfaceSkeletonClass *skeleton_class; gobject_class = G_OBJECT_CLASS (klass); gobject_class->finalize = hwmon_skeleton_finalize; gobject_class->get_property = hwmon_skeleton_get_property; gobject_class->set_property = hwmon_skeleton_set_property; gobject_class->notify = hwmon_skeleton_notify; hwmon_override_properties (gobject_class, 1); skeleton_class = G_DBUS_INTERFACE_SKELETON_CLASS (klass); skeleton_class->get_info = hwmon_skeleton_dbus_interface_get_info; skeleton_class->get_properties = hwmon_skeleton_dbus_interface_get_properties; skeleton_class->flush = hwmon_skeleton_dbus_interface_flush; skeleton_class->get_vtable = hwmon_skeleton_dbus_interface_get_vtable; #if GLIB_VERSION_MAX_ALLOWED < GLIB_VERSION_2_38 g_type_class_add_private (klass, sizeof (HwmonSkeletonPrivate)); #endif } static void hwmon_skeleton_iface_init (HwmonIface *iface) { iface->get_poll_interval = hwmon_skeleton_get_poll_interval; iface->get_sysfs_path = hwmon_skeleton_get_sysfs_path; iface->get_scale = hwmon_skeleton_get_scale; } /** * hwmon_skeleton_new: * * Creates a skeleton object for the D-Bus interface org.openbmc.Hwmon. * * Returns: (transfer full) (type HwmonSkeleton): The skeleton object. */ Hwmon * hwmon_skeleton_new (void) { return HWMON (g_object_new (TYPE_HWMON_SKELETON, NULL)); } /* ------------------------------------------------------------------------ * Code for interface org.openbmc.Fan * ------------------------------------------------------------------------ */ /** * SECTION:Fan * @title: Fan * @short_description: Generated C code for the org.openbmc.Fan D-Bus interface * * This section contains code for working with the org.openbmc.Fan D-Bus interface in C. */ /* ---- Introspection data for org.openbmc.Fan ---- */ static const _ExtendedGDBusArgInfo _fan_method_info_set_cooling_zone_IN_ARG_cooling_zone = { { -1, (gchar *) "cooling_zone", (gchar *) "i", NULL }, FALSE }; static const _ExtendedGDBusArgInfo * const _fan_method_info_set_cooling_zone_IN_ARG_pointers[] = { &_fan_method_info_set_cooling_zone_IN_ARG_cooling_zone, NULL }; static const _ExtendedGDBusMethodInfo _fan_method_info_set_cooling_zone = { { -1, (gchar *) "setCoolingZone", (GDBusArgInfo **) &_fan_method_info_set_cooling_zone_IN_ARG_pointers, NULL, NULL }, "handle-set-cooling-zone", FALSE }; static const _ExtendedGDBusArgInfo _fan_method_info_get_speed_OUT_ARG_speed = { { -1, (gchar *) "speed", (gchar *) "i", NULL }, FALSE }; static const _ExtendedGDBusArgInfo * const _fan_method_info_get_speed_OUT_ARG_pointers[] = { &_fan_method_info_get_speed_OUT_ARG_speed, NULL }; static const _ExtendedGDBusMethodInfo _fan_method_info_get_speed = { { -1, (gchar *) "getSpeed", NULL, (GDBusArgInfo **) &_fan_method_info_get_speed_OUT_ARG_pointers, NULL }, "handle-get-speed", FALSE }; static const _ExtendedGDBusArgInfo _fan_method_info_set_speed_IN_ARG_speed = { { -1, (gchar *) "speed", (gchar *) "i", NULL }, FALSE }; static const _ExtendedGDBusArgInfo * const _fan_method_info_set_speed_IN_ARG_pointers[] = { &_fan_method_info_set_speed_IN_ARG_speed, NULL }; static const _ExtendedGDBusMethodInfo _fan_method_info_set_speed = { { -1, (gchar *) "setSpeed", (GDBusArgInfo **) &_fan_method_info_set_speed_IN_ARG_pointers, NULL, NULL }, "handle-set-speed", FALSE }; static const _ExtendedGDBusMethodInfo * const _fan_method_info_pointers[] = { &_fan_method_info_set_cooling_zone, &_fan_method_info_get_speed, &_fan_method_info_set_speed, NULL }; static const _ExtendedGDBusArgInfo _fan_signal_info_speed_changed_ARG_speed = { { -1, (gchar *) "speed", (gchar *) "i", NULL }, FALSE }; static const _ExtendedGDBusArgInfo * const _fan_signal_info_speed_changed_ARG_pointers[] = { &_fan_signal_info_speed_changed_ARG_speed, NULL }; static const _ExtendedGDBusSignalInfo _fan_signal_info_speed_changed = { { -1, (gchar *) "SpeedChanged", (GDBusArgInfo **) &_fan_signal_info_speed_changed_ARG_pointers, NULL }, "speed-changed" }; static const _ExtendedGDBusSignalInfo _fan_signal_info_tach_error = { { -1, (gchar *) "TachError", NULL, NULL }, "tach-error" }; static const _ExtendedGDBusSignalInfo * const _fan_signal_info_pointers[] = { &_fan_signal_info_speed_changed, &_fan_signal_info_tach_error, NULL }; static const _ExtendedGDBusPropertyInfo _fan_property_info_speed = { { -1, (gchar *) "speed", (gchar *) "i", G_DBUS_PROPERTY_INFO_FLAGS_READABLE | G_DBUS_PROPERTY_INFO_FLAGS_WRITABLE, NULL }, "speed", FALSE }; static const _ExtendedGDBusPropertyInfo _fan_property_info_cooling_zone = { { -1, (gchar *) "cooling_zone", (gchar *) "i", G_DBUS_PROPERTY_INFO_FLAGS_READABLE | G_DBUS_PROPERTY_INFO_FLAGS_WRITABLE, NULL }, "cooling-zone", FALSE }; static const _ExtendedGDBusPropertyInfo _fan_property_info_pwm_num = { { -1, (gchar *) "pwm_num", (gchar *) "i", G_DBUS_PROPERTY_INFO_FLAGS_READABLE | G_DBUS_PROPERTY_INFO_FLAGS_WRITABLE, NULL }, "pwm-num", FALSE }; static const _ExtendedGDBusPropertyInfo * const _fan_property_info_pointers[] = { &_fan_property_info_speed, &_fan_property_info_cooling_zone, &_fan_property_info_pwm_num, NULL }; static const _ExtendedGDBusInterfaceInfo _fan_interface_info = { { -1, (gchar *) "org.openbmc.Fan", (GDBusMethodInfo **) &_fan_method_info_pointers, (GDBusSignalInfo **) &_fan_signal_info_pointers, (GDBusPropertyInfo **) &_fan_property_info_pointers, NULL }, "fan", }; /** * fan_interface_info: * * Gets a machine-readable description of the org.openbmc.Fan D-Bus interface. * * Returns: (transfer none): A #GDBusInterfaceInfo. Do not free. */ GDBusInterfaceInfo * fan_interface_info (void) { return (GDBusInterfaceInfo *) &_fan_interface_info.parent_struct; } /** * fan_override_properties: * @klass: The class structure for a #GObject-derived class. * @property_id_begin: The property id to assign to the first overridden property. * * Overrides all #GObject properties in the #Fan interface for a concrete class. * The properties are overridden in the order they are defined. * * Returns: The last property id. */ guint fan_override_properties (GObjectClass *klass, guint property_id_begin) { g_object_class_override_property (klass, property_id_begin++, "speed"); g_object_class_override_property (klass, property_id_begin++, "cooling-zone"); g_object_class_override_property (klass, property_id_begin++, "pwm-num"); return property_id_begin - 1; } /** * Fan: * * Abstract interface type for the D-Bus interface org.openbmc.Fan. */ /** * FanIface: * @parent_iface: The parent interface. * @handle_get_speed: Handler for the #Fan::handle-get-speed signal. * @handle_set_cooling_zone: Handler for the #Fan::handle-set-cooling-zone signal. * @handle_set_speed: Handler for the #Fan::handle-set-speed signal. * @get_cooling_zone: Getter for the #Fan:cooling-zone property. * @get_pwm_num: Getter for the #Fan:pwm-num property. * @get_speed: Getter for the #Fan:speed property. * @speed_changed: Handler for the #Fan::speed-changed signal. * @tach_error: Handler for the #Fan::tach-error signal. * * Virtual table for the D-Bus interface org.openbmc.Fan. */ typedef FanIface FanInterface; G_DEFINE_INTERFACE (Fan, fan, G_TYPE_OBJECT); static void fan_default_init (FanIface *iface) { /* GObject signals for incoming D-Bus method calls: */ /** * Fan::handle-set-cooling-zone: * @object: A #Fan. * @invocation: A #GDBusMethodInvocation. * @arg_cooling_zone: Argument passed by remote caller. * * Signal emitted when a remote caller is invoking the setCoolingZone() D-Bus method. * * If a signal handler returns %TRUE, it means the signal handler will handle the invocation (e.g. take a reference to @invocation and eventually call fan_complete_set_cooling_zone() or e.g. g_dbus_method_invocation_return_error() on it) and no order signal handlers will run. If no signal handler handles the invocation, the %G_DBUS_ERROR_UNKNOWN_METHOD error is returned. * * Returns: %TRUE if the invocation was handled, %FALSE to let other signal handlers run. */ g_signal_new ("handle-set-cooling-zone", G_TYPE_FROM_INTERFACE (iface), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (FanIface, handle_set_cooling_zone), g_signal_accumulator_true_handled, NULL, g_cclosure_marshal_generic, G_TYPE_BOOLEAN, 2, G_TYPE_DBUS_METHOD_INVOCATION, G_TYPE_INT); /** * Fan::handle-get-speed: * @object: A #Fan. * @invocation: A #GDBusMethodInvocation. * * Signal emitted when a remote caller is invoking the getSpeed() D-Bus method. * * If a signal handler returns %TRUE, it means the signal handler will handle the invocation (e.g. take a reference to @invocation and eventually call fan_complete_get_speed() or e.g. g_dbus_method_invocation_return_error() on it) and no order signal handlers will run. If no signal handler handles the invocation, the %G_DBUS_ERROR_UNKNOWN_METHOD error is returned. * * Returns: %TRUE if the invocation was handled, %FALSE to let other signal handlers run. */ g_signal_new ("handle-get-speed", G_TYPE_FROM_INTERFACE (iface), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (FanIface, handle_get_speed), g_signal_accumulator_true_handled, NULL, g_cclosure_marshal_generic, G_TYPE_BOOLEAN, 1, G_TYPE_DBUS_METHOD_INVOCATION); /** * Fan::handle-set-speed: * @object: A #Fan. * @invocation: A #GDBusMethodInvocation. * @arg_speed: Argument passed by remote caller. * * Signal emitted when a remote caller is invoking the setSpeed() D-Bus method. * * If a signal handler returns %TRUE, it means the signal handler will handle the invocation (e.g. take a reference to @invocation and eventually call fan_complete_set_speed() or e.g. g_dbus_method_invocation_return_error() on it) and no order signal handlers will run. If no signal handler handles the invocation, the %G_DBUS_ERROR_UNKNOWN_METHOD error is returned. * * Returns: %TRUE if the invocation was handled, %FALSE to let other signal handlers run. */ g_signal_new ("handle-set-speed", G_TYPE_FROM_INTERFACE (iface), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (FanIface, handle_set_speed), g_signal_accumulator_true_handled, NULL, g_cclosure_marshal_generic, G_TYPE_BOOLEAN, 2, G_TYPE_DBUS_METHOD_INVOCATION, G_TYPE_INT); /* GObject signals for received D-Bus signals: */ /** * Fan::speed-changed: * @object: A #Fan. * @arg_speed: Argument. * * On the client-side, this signal is emitted whenever the D-Bus signal "SpeedChanged" is received. * * On the service-side, this signal can be used with e.g. g_signal_emit_by_name() to make the object emit the D-Bus signal. */ g_signal_new ("speed-changed", G_TYPE_FROM_INTERFACE (iface), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (FanIface, speed_changed), NULL, NULL, g_cclosure_marshal_generic, G_TYPE_NONE, 1, G_TYPE_INT); /** * Fan::tach-error: * @object: A #Fan. * * On the client-side, this signal is emitted whenever the D-Bus signal "TachError" is received. * * On the service-side, this signal can be used with e.g. g_signal_emit_by_name() to make the object emit the D-Bus signal. */ g_signal_new ("tach-error", G_TYPE_FROM_INTERFACE (iface), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (FanIface, tach_error), NULL, NULL, g_cclosure_marshal_generic, G_TYPE_NONE, 0); /* GObject properties for D-Bus properties: */ /** * Fan:speed: * * Represents the D-Bus property "speed". * * Since the D-Bus property for this #GObject property is both readable and writable, it is meaningful to both read from it and write to it on both the service- and client-side. */ g_object_interface_install_property (iface, g_param_spec_int ("speed", "speed", "speed", G_MININT32, G_MAXINT32, 0, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS)); /** * Fan:cooling-zone: * * Represents the D-Bus property "cooling_zone". * * Since the D-Bus property for this #GObject property is both readable and writable, it is meaningful to both read from it and write to it on both the service- and client-side. */ g_object_interface_install_property (iface, g_param_spec_int ("cooling-zone", "cooling_zone", "cooling_zone", G_MININT32, G_MAXINT32, 0, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS)); /** * Fan:pwm-num: * * Represents the D-Bus property "pwm_num". * * Since the D-Bus property for this #GObject property is both readable and writable, it is meaningful to both read from it and write to it on both the service- and client-side. */ g_object_interface_install_property (iface, g_param_spec_int ("pwm-num", "pwm_num", "pwm_num", G_MININT32, G_MAXINT32, 0, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS)); } /** * fan_get_speed: (skip) * @object: A #Fan. * * Gets the value of the "speed" D-Bus property. * * Since this D-Bus property is both readable and writable, it is meaningful to use this function on both the client- and service-side. * * Returns: The property value. */ gint fan_get_speed (Fan *object) { return FAN_GET_IFACE (object)->get_speed (object); } /** * fan_set_speed: (skip) * @object: A #Fan. * @value: The value to set. * * Sets the "speed" D-Bus property to @value. * * Since this D-Bus property is both readable and writable, it is meaningful to use this function on both the client- and service-side. */ void fan_set_speed (Fan *object, gint value) { g_object_set (G_OBJECT (object), "speed", value, NULL); } /** * fan_get_cooling_zone: (skip) * @object: A #Fan. * * Gets the value of the "cooling_zone" D-Bus property. * * Since this D-Bus property is both readable and writable, it is meaningful to use this function on both the client- and service-side. * * Returns: The property value. */ gint fan_get_cooling_zone (Fan *object) { return FAN_GET_IFACE (object)->get_cooling_zone (object); } /** * fan_set_cooling_zone: (skip) * @object: A #Fan. * @value: The value to set. * * Sets the "cooling_zone" D-Bus property to @value. * * Since this D-Bus property is both readable and writable, it is meaningful to use this function on both the client- and service-side. */ void fan_set_cooling_zone (Fan *object, gint value) { g_object_set (G_OBJECT (object), "cooling-zone", value, NULL); } /** * fan_get_pwm_num: (skip) * @object: A #Fan. * * Gets the value of the "pwm_num" D-Bus property. * * Since this D-Bus property is both readable and writable, it is meaningful to use this function on both the client- and service-side. * * Returns: The property value. */ gint fan_get_pwm_num (Fan *object) { return FAN_GET_IFACE (object)->get_pwm_num (object); } /** * fan_set_pwm_num: (skip) * @object: A #Fan. * @value: The value to set. * * Sets the "pwm_num" D-Bus property to @value. * * Since this D-Bus property is both readable and writable, it is meaningful to use this function on both the client- and service-side. */ void fan_set_pwm_num (Fan *object, gint value) { g_object_set (G_OBJECT (object), "pwm-num", value, NULL); } /** * fan_emit_speed_changed: * @object: A #Fan. * @arg_speed: Argument to pass with the signal. * * Emits the "SpeedChanged" D-Bus signal. */ void fan_emit_speed_changed ( Fan *object, gint arg_speed) { g_signal_emit_by_name (object, "speed-changed", arg_speed); } /** * fan_emit_tach_error: * @object: A #Fan. * * Emits the "TachError" D-Bus signal. */ void fan_emit_tach_error ( Fan *object) { g_signal_emit_by_name (object, "tach-error"); } /** * fan_call_set_cooling_zone: * @proxy: A #FanProxy. * @arg_cooling_zone: Argument to pass with the method invocation. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied or %NULL. * @user_data: User data to pass to @callback. * * Asynchronously invokes the setCoolingZone() D-Bus method on @proxy. * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call fan_call_set_cooling_zone_finish() to get the result of the operation. * * See fan_call_set_cooling_zone_sync() for the synchronous, blocking version of this method. */ void fan_call_set_cooling_zone ( Fan *proxy, gint arg_cooling_zone, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_dbus_proxy_call (G_DBUS_PROXY (proxy), "setCoolingZone", g_variant_new ("(i)", arg_cooling_zone), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, callback, user_data); } /** * fan_call_set_cooling_zone_finish: * @proxy: A #FanProxy. * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to fan_call_set_cooling_zone(). * @error: Return location for error or %NULL. * * Finishes an operation started with fan_call_set_cooling_zone(). * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean fan_call_set_cooling_zone_finish ( Fan *proxy, GAsyncResult *res, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_finish (G_DBUS_PROXY (proxy), res, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "()"); g_variant_unref (_ret); _out: return _ret != NULL; } /** * fan_call_set_cooling_zone_sync: * @proxy: A #FanProxy. * @arg_cooling_zone: Argument to pass with the method invocation. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL. * * Synchronously invokes the setCoolingZone() D-Bus method on @proxy. The calling thread is blocked until a reply is received. * * See fan_call_set_cooling_zone() for the asynchronous version of this method. * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean fan_call_set_cooling_zone_sync ( Fan *proxy, gint arg_cooling_zone, GCancellable *cancellable, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_sync (G_DBUS_PROXY (proxy), "setCoolingZone", g_variant_new ("(i)", arg_cooling_zone), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "()"); g_variant_unref (_ret); _out: return _ret != NULL; } /** * fan_call_get_speed: * @proxy: A #FanProxy. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied or %NULL. * @user_data: User data to pass to @callback. * * Asynchronously invokes the getSpeed() D-Bus method on @proxy. * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call fan_call_get_speed_finish() to get the result of the operation. * * See fan_call_get_speed_sync() for the synchronous, blocking version of this method. */ void fan_call_get_speed ( Fan *proxy, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_dbus_proxy_call (G_DBUS_PROXY (proxy), "getSpeed", g_variant_new ("()"), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, callback, user_data); } /** * fan_call_get_speed_finish: * @proxy: A #FanProxy. * @out_speed: (out): Return location for return parameter or %NULL to ignore. * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to fan_call_get_speed(). * @error: Return location for error or %NULL. * * Finishes an operation started with fan_call_get_speed(). * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean fan_call_get_speed_finish ( Fan *proxy, gint *out_speed, GAsyncResult *res, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_finish (G_DBUS_PROXY (proxy), res, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "(i)", out_speed); g_variant_unref (_ret); _out: return _ret != NULL; } /** * fan_call_get_speed_sync: * @proxy: A #FanProxy. * @out_speed: (out): Return location for return parameter or %NULL to ignore. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL. * * Synchronously invokes the getSpeed() D-Bus method on @proxy. The calling thread is blocked until a reply is received. * * See fan_call_get_speed() for the asynchronous version of this method. * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean fan_call_get_speed_sync ( Fan *proxy, gint *out_speed, GCancellable *cancellable, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_sync (G_DBUS_PROXY (proxy), "getSpeed", g_variant_new ("()"), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "(i)", out_speed); g_variant_unref (_ret); _out: return _ret != NULL; } /** * fan_call_set_speed: * @proxy: A #FanProxy. * @arg_speed: Argument to pass with the method invocation. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied or %NULL. * @user_data: User data to pass to @callback. * * Asynchronously invokes the setSpeed() D-Bus method on @proxy. * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call fan_call_set_speed_finish() to get the result of the operation. * * See fan_call_set_speed_sync() for the synchronous, blocking version of this method. */ void fan_call_set_speed ( Fan *proxy, gint arg_speed, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_dbus_proxy_call (G_DBUS_PROXY (proxy), "setSpeed", g_variant_new ("(i)", arg_speed), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, callback, user_data); } /** * fan_call_set_speed_finish: * @proxy: A #FanProxy. * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to fan_call_set_speed(). * @error: Return location for error or %NULL. * * Finishes an operation started with fan_call_set_speed(). * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean fan_call_set_speed_finish ( Fan *proxy, GAsyncResult *res, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_finish (G_DBUS_PROXY (proxy), res, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "()"); g_variant_unref (_ret); _out: return _ret != NULL; } /** * fan_call_set_speed_sync: * @proxy: A #FanProxy. * @arg_speed: Argument to pass with the method invocation. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL. * * Synchronously invokes the setSpeed() D-Bus method on @proxy. The calling thread is blocked until a reply is received. * * See fan_call_set_speed() for the asynchronous version of this method. * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean fan_call_set_speed_sync ( Fan *proxy, gint arg_speed, GCancellable *cancellable, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_sync (G_DBUS_PROXY (proxy), "setSpeed", g_variant_new ("(i)", arg_speed), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "()"); g_variant_unref (_ret); _out: return _ret != NULL; } /** * fan_complete_set_cooling_zone: * @object: A #Fan. * @invocation: (transfer full): A #GDBusMethodInvocation. * * Helper function used in service implementations to finish handling invocations of the setCoolingZone() D-Bus method. If you instead want to finish handling an invocation by returning an error, use g_dbus_method_invocation_return_error() or similar. * * This method will free @invocation, you cannot use it afterwards. */ void fan_complete_set_cooling_zone ( Fan *object, GDBusMethodInvocation *invocation) { g_dbus_method_invocation_return_value (invocation, g_variant_new ("()")); } /** * fan_complete_get_speed: * @object: A #Fan. * @invocation: (transfer full): A #GDBusMethodInvocation. * @speed: Parameter to return. * * Helper function used in service implementations to finish handling invocations of the getSpeed() D-Bus method. If you instead want to finish handling an invocation by returning an error, use g_dbus_method_invocation_return_error() or similar. * * This method will free @invocation, you cannot use it afterwards. */ void fan_complete_get_speed ( Fan *object, GDBusMethodInvocation *invocation, gint speed) { g_dbus_method_invocation_return_value (invocation, g_variant_new ("(i)", speed)); } /** * fan_complete_set_speed: * @object: A #Fan. * @invocation: (transfer full): A #GDBusMethodInvocation. * * Helper function used in service implementations to finish handling invocations of the setSpeed() D-Bus method. If you instead want to finish handling an invocation by returning an error, use g_dbus_method_invocation_return_error() or similar. * * This method will free @invocation, you cannot use it afterwards. */ void fan_complete_set_speed ( Fan *object, GDBusMethodInvocation *invocation) { g_dbus_method_invocation_return_value (invocation, g_variant_new ("()")); } /* ------------------------------------------------------------------------ */ /** * FanProxy: * * The #FanProxy structure contains only private data and should only be accessed using the provided API. */ /** * FanProxyClass: * @parent_class: The parent class. * * Class structure for #FanProxy. */ struct _FanProxyPrivate { GData *qdata; }; static void fan_proxy_iface_init (FanIface *iface); #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 G_DEFINE_TYPE_WITH_CODE (FanProxy, fan_proxy, G_TYPE_DBUS_PROXY, G_ADD_PRIVATE (FanProxy) G_IMPLEMENT_INTERFACE (TYPE_FAN, fan_proxy_iface_init)); #else G_DEFINE_TYPE_WITH_CODE (FanProxy, fan_proxy, G_TYPE_DBUS_PROXY, G_IMPLEMENT_INTERFACE (TYPE_FAN, fan_proxy_iface_init)); #endif static void fan_proxy_finalize (GObject *object) { FanProxy *proxy = FAN_PROXY (object); g_datalist_clear (&proxy->priv->qdata); G_OBJECT_CLASS (fan_proxy_parent_class)->finalize (object); } static void fan_proxy_get_property (GObject *object, guint prop_id, GValue *value, GParamSpec *pspec G_GNUC_UNUSED) { const _ExtendedGDBusPropertyInfo *info; GVariant *variant; g_assert (prop_id != 0 && prop_id - 1 < 3); info = _fan_property_info_pointers[prop_id - 1]; variant = g_dbus_proxy_get_cached_property (G_DBUS_PROXY (object), info->parent_struct.name); if (info->use_gvariant) { g_value_set_variant (value, variant); } else { if (variant != NULL) g_dbus_gvariant_to_gvalue (variant, value); } if (variant != NULL) g_variant_unref (variant); } static void fan_proxy_set_property_cb (GDBusProxy *proxy, GAsyncResult *res, gpointer user_data) { const _ExtendedGDBusPropertyInfo *info = user_data; GError *error; GVariant *_ret; error = NULL; _ret = g_dbus_proxy_call_finish (proxy, res, &error); if (!_ret) { g_warning ("Error setting property '%s' on interface org.openbmc.Fan: %s (%s, %d)", info->parent_struct.name, error->message, g_quark_to_string (error->domain), error->code); g_error_free (error); } else { g_variant_unref (_ret); } } static void fan_proxy_set_property (GObject *object, guint prop_id, const GValue *value, GParamSpec *pspec G_GNUC_UNUSED) { const _ExtendedGDBusPropertyInfo *info; GVariant *variant; g_assert (prop_id != 0 && prop_id - 1 < 3); info = _fan_property_info_pointers[prop_id - 1]; variant = g_dbus_gvalue_to_gvariant (value, G_VARIANT_TYPE (info->parent_struct.signature)); g_dbus_proxy_call (G_DBUS_PROXY (object), "org.freedesktop.DBus.Properties.Set", g_variant_new ("(ssv)", "org.openbmc.Fan", info->parent_struct.name, variant), G_DBUS_CALL_FLAGS_NONE, -1, NULL, (GAsyncReadyCallback) fan_proxy_set_property_cb, (GDBusPropertyInfo *) &info->parent_struct); g_variant_unref (variant); } static void fan_proxy_g_signal (GDBusProxy *proxy, const gchar *sender_name G_GNUC_UNUSED, const gchar *signal_name, GVariant *parameters) { _ExtendedGDBusSignalInfo *info; GVariantIter iter; GVariant *child; GValue *paramv; guint num_params; guint n; guint signal_id; info = (_ExtendedGDBusSignalInfo *) g_dbus_interface_info_lookup_signal ((GDBusInterfaceInfo *) &_fan_interface_info.parent_struct, signal_name); if (info == NULL) return; num_params = g_variant_n_children (parameters); paramv = g_new0 (GValue, num_params + 1); g_value_init (¶mv[0], TYPE_FAN); g_value_set_object (¶mv[0], proxy); g_variant_iter_init (&iter, parameters); n = 1; while ((child = g_variant_iter_next_value (&iter)) != NULL) { _ExtendedGDBusArgInfo *arg_info = (_ExtendedGDBusArgInfo *) info->parent_struct.args[n - 1]; if (arg_info->use_gvariant) { g_value_init (¶mv[n], G_TYPE_VARIANT); g_value_set_variant (¶mv[n], child); n++; } else g_dbus_gvariant_to_gvalue (child, ¶mv[n++]); g_variant_unref (child); } signal_id = g_signal_lookup (info->signal_name, TYPE_FAN); g_signal_emitv (paramv, signal_id, 0, NULL); for (n = 0; n < num_params + 1; n++) g_value_unset (¶mv[n]); g_free (paramv); } static void fan_proxy_g_properties_changed (GDBusProxy *_proxy, GVariant *changed_properties, const gchar *const *invalidated_properties) { FanProxy *proxy = FAN_PROXY (_proxy); guint n; const gchar *key; GVariantIter *iter; _ExtendedGDBusPropertyInfo *info; g_variant_get (changed_properties, "a{sv}", &iter); while (g_variant_iter_next (iter, "{&sv}", &key, NULL)) { info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_fan_interface_info.parent_struct, key); g_datalist_remove_data (&proxy->priv->qdata, key); if (info != NULL) g_object_notify (G_OBJECT (proxy), info->hyphen_name); } g_variant_iter_free (iter); for (n = 0; invalidated_properties[n] != NULL; n++) { info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_fan_interface_info.parent_struct, invalidated_properties[n]); g_datalist_remove_data (&proxy->priv->qdata, invalidated_properties[n]); if (info != NULL) g_object_notify (G_OBJECT (proxy), info->hyphen_name); } } static gint fan_proxy_get_speed (Fan *object) { FanProxy *proxy = FAN_PROXY (object); GVariant *variant; gint value = 0; variant = g_dbus_proxy_get_cached_property (G_DBUS_PROXY (proxy), "speed"); if (variant != NULL) { value = g_variant_get_int32 (variant); g_variant_unref (variant); } return value; } static gint fan_proxy_get_cooling_zone (Fan *object) { FanProxy *proxy = FAN_PROXY (object); GVariant *variant; gint value = 0; variant = g_dbus_proxy_get_cached_property (G_DBUS_PROXY (proxy), "cooling_zone"); if (variant != NULL) { value = g_variant_get_int32 (variant); g_variant_unref (variant); } return value; } static gint fan_proxy_get_pwm_num (Fan *object) { FanProxy *proxy = FAN_PROXY (object); GVariant *variant; gint value = 0; variant = g_dbus_proxy_get_cached_property (G_DBUS_PROXY (proxy), "pwm_num"); if (variant != NULL) { value = g_variant_get_int32 (variant); g_variant_unref (variant); } return value; } static void fan_proxy_init (FanProxy *proxy) { #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 proxy->priv = fan_proxy_get_instance_private (proxy); #else proxy->priv = G_TYPE_INSTANCE_GET_PRIVATE (proxy, TYPE_FAN_PROXY, FanProxyPrivate); #endif g_dbus_proxy_set_interface_info (G_DBUS_PROXY (proxy), fan_interface_info ()); } static void fan_proxy_class_init (FanProxyClass *klass) { GObjectClass *gobject_class; GDBusProxyClass *proxy_class; gobject_class = G_OBJECT_CLASS (klass); gobject_class->finalize = fan_proxy_finalize; gobject_class->get_property = fan_proxy_get_property; gobject_class->set_property = fan_proxy_set_property; proxy_class = G_DBUS_PROXY_CLASS (klass); proxy_class->g_signal = fan_proxy_g_signal; proxy_class->g_properties_changed = fan_proxy_g_properties_changed; fan_override_properties (gobject_class, 1); #if GLIB_VERSION_MAX_ALLOWED < GLIB_VERSION_2_38 g_type_class_add_private (klass, sizeof (FanProxyPrivate)); #endif } static void fan_proxy_iface_init (FanIface *iface) { iface->get_speed = fan_proxy_get_speed; iface->get_cooling_zone = fan_proxy_get_cooling_zone; iface->get_pwm_num = fan_proxy_get_pwm_num; } /** * fan_proxy_new: * @connection: A #GDBusConnection. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: (allow-none): A bus name (well-known or unique) or %NULL if @connection is not a message bus connection. * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied. * @user_data: User data to pass to @callback. * * Asynchronously creates a proxy for the D-Bus interface org.openbmc.Fan. See g_dbus_proxy_new() for more details. * * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call fan_proxy_new_finish() to get the result of the operation. * * See fan_proxy_new_sync() for the synchronous, blocking version of this constructor. */ void fan_proxy_new ( GDBusConnection *connection, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_async_initable_new_async (TYPE_FAN_PROXY, G_PRIORITY_DEFAULT, cancellable, callback, user_data, "g-flags", flags, "g-name", name, "g-connection", connection, "g-object-path", object_path, "g-interface-name", "org.openbmc.Fan", NULL); } /** * fan_proxy_new_finish: * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to fan_proxy_new(). * @error: Return location for error or %NULL * * Finishes an operation started with fan_proxy_new(). * * Returns: (transfer full) (type FanProxy): The constructed proxy object or %NULL if @error is set. */ Fan * fan_proxy_new_finish ( GAsyncResult *res, GError **error) { GObject *ret; GObject *source_object; source_object = g_async_result_get_source_object (res); ret = g_async_initable_new_finish (G_ASYNC_INITABLE (source_object), res, error); g_object_unref (source_object); if (ret != NULL) return FAN (ret); else return NULL; } /** * fan_proxy_new_sync: * @connection: A #GDBusConnection. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: (allow-none): A bus name (well-known or unique) or %NULL if @connection is not a message bus connection. * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL * * Synchronously creates a proxy for the D-Bus interface org.openbmc.Fan. See g_dbus_proxy_new_sync() for more details. * * The calling thread is blocked until a reply is received. * * See fan_proxy_new() for the asynchronous version of this constructor. * * Returns: (transfer full) (type FanProxy): The constructed proxy object or %NULL if @error is set. */ Fan * fan_proxy_new_sync ( GDBusConnection *connection, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GError **error) { GInitable *ret; ret = g_initable_new (TYPE_FAN_PROXY, cancellable, error, "g-flags", flags, "g-name", name, "g-connection", connection, "g-object-path", object_path, "g-interface-name", "org.openbmc.Fan", NULL); if (ret != NULL) return FAN (ret); else return NULL; } /** * fan_proxy_new_for_bus: * @bus_type: A #GBusType. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: A bus name (well-known or unique). * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied. * @user_data: User data to pass to @callback. * * Like fan_proxy_new() but takes a #GBusType instead of a #GDBusConnection. * * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call fan_proxy_new_for_bus_finish() to get the result of the operation. * * See fan_proxy_new_for_bus_sync() for the synchronous, blocking version of this constructor. */ void fan_proxy_new_for_bus ( GBusType bus_type, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_async_initable_new_async (TYPE_FAN_PROXY, G_PRIORITY_DEFAULT, cancellable, callback, user_data, "g-flags", flags, "g-name", name, "g-bus-type", bus_type, "g-object-path", object_path, "g-interface-name", "org.openbmc.Fan", NULL); } /** * fan_proxy_new_for_bus_finish: * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to fan_proxy_new_for_bus(). * @error: Return location for error or %NULL * * Finishes an operation started with fan_proxy_new_for_bus(). * * Returns: (transfer full) (type FanProxy): The constructed proxy object or %NULL if @error is set. */ Fan * fan_proxy_new_for_bus_finish ( GAsyncResult *res, GError **error) { GObject *ret; GObject *source_object; source_object = g_async_result_get_source_object (res); ret = g_async_initable_new_finish (G_ASYNC_INITABLE (source_object), res, error); g_object_unref (source_object); if (ret != NULL) return FAN (ret); else return NULL; } /** * fan_proxy_new_for_bus_sync: * @bus_type: A #GBusType. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: A bus name (well-known or unique). * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL * * Like fan_proxy_new_sync() but takes a #GBusType instead of a #GDBusConnection. * * The calling thread is blocked until a reply is received. * * See fan_proxy_new_for_bus() for the asynchronous version of this constructor. * * Returns: (transfer full) (type FanProxy): The constructed proxy object or %NULL if @error is set. */ Fan * fan_proxy_new_for_bus_sync ( GBusType bus_type, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GError **error) { GInitable *ret; ret = g_initable_new (TYPE_FAN_PROXY, cancellable, error, "g-flags", flags, "g-name", name, "g-bus-type", bus_type, "g-object-path", object_path, "g-interface-name", "org.openbmc.Fan", NULL); if (ret != NULL) return FAN (ret); else return NULL; } /* ------------------------------------------------------------------------ */ /** * FanSkeleton: * * The #FanSkeleton structure contains only private data and should only be accessed using the provided API. */ /** * FanSkeletonClass: * @parent_class: The parent class. * * Class structure for #FanSkeleton. */ struct _FanSkeletonPrivate { GValue *properties; GList *changed_properties; GSource *changed_properties_idle_source; GMainContext *context; GMutex lock; }; static void _fan_skeleton_handle_method_call ( GDBusConnection *connection G_GNUC_UNUSED, const gchar *sender G_GNUC_UNUSED, const gchar *object_path G_GNUC_UNUSED, const gchar *interface_name, const gchar *method_name, GVariant *parameters, GDBusMethodInvocation *invocation, gpointer user_data) { FanSkeleton *skeleton = FAN_SKELETON (user_data); _ExtendedGDBusMethodInfo *info; GVariantIter iter; GVariant *child; GValue *paramv; guint num_params; guint num_extra; guint n; guint signal_id; GValue return_value = G_VALUE_INIT; info = (_ExtendedGDBusMethodInfo *) g_dbus_method_invocation_get_method_info (invocation); g_assert (info != NULL); num_params = g_variant_n_children (parameters); num_extra = info->pass_fdlist ? 3 : 2; paramv = g_new0 (GValue, num_params + num_extra); n = 0; g_value_init (¶mv[n], TYPE_FAN); g_value_set_object (¶mv[n++], skeleton); g_value_init (¶mv[n], G_TYPE_DBUS_METHOD_INVOCATION); g_value_set_object (¶mv[n++], invocation); if (info->pass_fdlist) { #ifdef G_OS_UNIX g_value_init (¶mv[n], G_TYPE_UNIX_FD_LIST); g_value_set_object (¶mv[n++], g_dbus_message_get_unix_fd_list (g_dbus_method_invocation_get_message (invocation))); #else g_assert_not_reached (); #endif } g_variant_iter_init (&iter, parameters); while ((child = g_variant_iter_next_value (&iter)) != NULL) { _ExtendedGDBusArgInfo *arg_info = (_ExtendedGDBusArgInfo *) info->parent_struct.in_args[n - num_extra]; if (arg_info->use_gvariant) { g_value_init (¶mv[n], G_TYPE_VARIANT); g_value_set_variant (¶mv[n], child); n++; } else g_dbus_gvariant_to_gvalue (child, ¶mv[n++]); g_variant_unref (child); } signal_id = g_signal_lookup (info->signal_name, TYPE_FAN); g_value_init (&return_value, G_TYPE_BOOLEAN); g_signal_emitv (paramv, signal_id, 0, &return_value); if (!g_value_get_boolean (&return_value)) g_dbus_method_invocation_return_error (invocation, G_DBUS_ERROR, G_DBUS_ERROR_UNKNOWN_METHOD, "Method %s is not implemented on interface %s", method_name, interface_name); g_value_unset (&return_value); for (n = 0; n < num_params + num_extra; n++) g_value_unset (¶mv[n]); g_free (paramv); } static GVariant * _fan_skeleton_handle_get_property ( GDBusConnection *connection G_GNUC_UNUSED, const gchar *sender G_GNUC_UNUSED, const gchar *object_path G_GNUC_UNUSED, const gchar *interface_name G_GNUC_UNUSED, const gchar *property_name, GError **error, gpointer user_data) { FanSkeleton *skeleton = FAN_SKELETON (user_data); GValue value = G_VALUE_INIT; GParamSpec *pspec; _ExtendedGDBusPropertyInfo *info; GVariant *ret; ret = NULL; info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_fan_interface_info.parent_struct, property_name); g_assert (info != NULL); pspec = g_object_class_find_property (G_OBJECT_GET_CLASS (skeleton), info->hyphen_name); if (pspec == NULL) { g_set_error (error, G_DBUS_ERROR, G_DBUS_ERROR_INVALID_ARGS, "No property with name %s", property_name); } else { g_value_init (&value, pspec->value_type); g_object_get_property (G_OBJECT (skeleton), info->hyphen_name, &value); ret = g_dbus_gvalue_to_gvariant (&value, G_VARIANT_TYPE (info->parent_struct.signature)); g_value_unset (&value); } return ret; } static gboolean _fan_skeleton_handle_set_property ( GDBusConnection *connection G_GNUC_UNUSED, const gchar *sender G_GNUC_UNUSED, const gchar *object_path G_GNUC_UNUSED, const gchar *interface_name G_GNUC_UNUSED, const gchar *property_name, GVariant *variant, GError **error, gpointer user_data) { FanSkeleton *skeleton = FAN_SKELETON (user_data); GValue value = G_VALUE_INIT; GParamSpec *pspec; _ExtendedGDBusPropertyInfo *info; gboolean ret; ret = FALSE; info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_fan_interface_info.parent_struct, property_name); g_assert (info != NULL); pspec = g_object_class_find_property (G_OBJECT_GET_CLASS (skeleton), info->hyphen_name); if (pspec == NULL) { g_set_error (error, G_DBUS_ERROR, G_DBUS_ERROR_INVALID_ARGS, "No property with name %s", property_name); } else { if (info->use_gvariant) g_value_set_variant (&value, variant); else g_dbus_gvariant_to_gvalue (variant, &value); g_object_set_property (G_OBJECT (skeleton), info->hyphen_name, &value); g_value_unset (&value); ret = TRUE; } return ret; } static const GDBusInterfaceVTable _fan_skeleton_vtable = { _fan_skeleton_handle_method_call, _fan_skeleton_handle_get_property, _fan_skeleton_handle_set_property, {NULL} }; static GDBusInterfaceInfo * fan_skeleton_dbus_interface_get_info (GDBusInterfaceSkeleton *skeleton G_GNUC_UNUSED) { return fan_interface_info (); } static GDBusInterfaceVTable * fan_skeleton_dbus_interface_get_vtable (GDBusInterfaceSkeleton *skeleton G_GNUC_UNUSED) { return (GDBusInterfaceVTable *) &_fan_skeleton_vtable; } static GVariant * fan_skeleton_dbus_interface_get_properties (GDBusInterfaceSkeleton *_skeleton) { FanSkeleton *skeleton = FAN_SKELETON (_skeleton); GVariantBuilder builder; guint n; g_variant_builder_init (&builder, G_VARIANT_TYPE ("a{sv}")); if (_fan_interface_info.parent_struct.properties == NULL) goto out; for (n = 0; _fan_interface_info.parent_struct.properties[n] != NULL; n++) { GDBusPropertyInfo *info = _fan_interface_info.parent_struct.properties[n]; if (info->flags & G_DBUS_PROPERTY_INFO_FLAGS_READABLE) { GVariant *value; value = _fan_skeleton_handle_get_property (g_dbus_interface_skeleton_get_connection (G_DBUS_INTERFACE_SKELETON (skeleton)), NULL, g_dbus_interface_skeleton_get_object_path (G_DBUS_INTERFACE_SKELETON (skeleton)), "org.openbmc.Fan", info->name, NULL, skeleton); if (value != NULL) { g_variant_take_ref (value); g_variant_builder_add (&builder, "{sv}", info->name, value); g_variant_unref (value); } } } out: return g_variant_builder_end (&builder); } static gboolean _fan_emit_changed (gpointer user_data); static void fan_skeleton_dbus_interface_flush (GDBusInterfaceSkeleton *_skeleton) { FanSkeleton *skeleton = FAN_SKELETON (_skeleton); gboolean emit_changed = FALSE; g_mutex_lock (&skeleton->priv->lock); if (skeleton->priv->changed_properties_idle_source != NULL) { g_source_destroy (skeleton->priv->changed_properties_idle_source); skeleton->priv->changed_properties_idle_source = NULL; emit_changed = TRUE; } g_mutex_unlock (&skeleton->priv->lock); if (emit_changed) _fan_emit_changed (skeleton); } static void _fan_on_signal_speed_changed ( Fan *object, gint arg_speed) { FanSkeleton *skeleton = FAN_SKELETON (object); GList *connections, *l; GVariant *signal_variant; connections = g_dbus_interface_skeleton_get_connections (G_DBUS_INTERFACE_SKELETON (skeleton)); signal_variant = g_variant_ref_sink (g_variant_new ("(i)", arg_speed)); for (l = connections; l != NULL; l = l->next) { GDBusConnection *connection = l->data; g_dbus_connection_emit_signal (connection, NULL, g_dbus_interface_skeleton_get_object_path (G_DBUS_INTERFACE_SKELETON (skeleton)), "org.openbmc.Fan", "SpeedChanged", signal_variant, NULL); } g_variant_unref (signal_variant); g_list_free_full (connections, g_object_unref); } static void _fan_on_signal_tach_error ( Fan *object) { FanSkeleton *skeleton = FAN_SKELETON (object); GList *connections, *l; GVariant *signal_variant; connections = g_dbus_interface_skeleton_get_connections (G_DBUS_INTERFACE_SKELETON (skeleton)); signal_variant = g_variant_ref_sink (g_variant_new ("()")); for (l = connections; l != NULL; l = l->next) { GDBusConnection *connection = l->data; g_dbus_connection_emit_signal (connection, NULL, g_dbus_interface_skeleton_get_object_path (G_DBUS_INTERFACE_SKELETON (skeleton)), "org.openbmc.Fan", "TachError", signal_variant, NULL); } g_variant_unref (signal_variant); g_list_free_full (connections, g_object_unref); } static void fan_skeleton_iface_init (FanIface *iface); #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 G_DEFINE_TYPE_WITH_CODE (FanSkeleton, fan_skeleton, G_TYPE_DBUS_INTERFACE_SKELETON, G_ADD_PRIVATE (FanSkeleton) G_IMPLEMENT_INTERFACE (TYPE_FAN, fan_skeleton_iface_init)); #else G_DEFINE_TYPE_WITH_CODE (FanSkeleton, fan_skeleton, G_TYPE_DBUS_INTERFACE_SKELETON, G_IMPLEMENT_INTERFACE (TYPE_FAN, fan_skeleton_iface_init)); #endif static void fan_skeleton_finalize (GObject *object) { FanSkeleton *skeleton = FAN_SKELETON (object); guint n; for (n = 0; n < 3; n++) g_value_unset (&skeleton->priv->properties[n]); g_free (skeleton->priv->properties); g_list_free_full (skeleton->priv->changed_properties, (GDestroyNotify) _changed_property_free); if (skeleton->priv->changed_properties_idle_source != NULL) g_source_destroy (skeleton->priv->changed_properties_idle_source); g_main_context_unref (skeleton->priv->context); g_mutex_clear (&skeleton->priv->lock); G_OBJECT_CLASS (fan_skeleton_parent_class)->finalize (object); } static void fan_skeleton_get_property (GObject *object, guint prop_id, GValue *value, GParamSpec *pspec G_GNUC_UNUSED) { FanSkeleton *skeleton = FAN_SKELETON (object); g_assert (prop_id != 0 && prop_id - 1 < 3); g_mutex_lock (&skeleton->priv->lock); g_value_copy (&skeleton->priv->properties[prop_id - 1], value); g_mutex_unlock (&skeleton->priv->lock); } static gboolean _fan_emit_changed (gpointer user_data) { FanSkeleton *skeleton = FAN_SKELETON (user_data); GList *l; GVariantBuilder builder; GVariantBuilder invalidated_builder; guint num_changes; g_mutex_lock (&skeleton->priv->lock); g_variant_builder_init (&builder, G_VARIANT_TYPE ("a{sv}")); g_variant_builder_init (&invalidated_builder, G_VARIANT_TYPE ("as")); for (l = skeleton->priv->changed_properties, num_changes = 0; l != NULL; l = l->next) { ChangedProperty *cp = l->data; GVariant *variant; const GValue *cur_value; cur_value = &skeleton->priv->properties[cp->prop_id - 1]; if (!_g_value_equal (cur_value, &cp->orig_value)) { variant = g_dbus_gvalue_to_gvariant (cur_value, G_VARIANT_TYPE (cp->info->parent_struct.signature)); g_variant_builder_add (&builder, "{sv}", cp->info->parent_struct.name, variant); g_variant_unref (variant); num_changes++; } } if (num_changes > 0) { GList *connections, *ll; GVariant *signal_variant; signal_variant = g_variant_ref_sink (g_variant_new ("(sa{sv}as)", "org.openbmc.Fan", &builder, &invalidated_builder)); connections = g_dbus_interface_skeleton_get_connections (G_DBUS_INTERFACE_SKELETON (skeleton)); for (ll = connections; ll != NULL; ll = ll->next) { GDBusConnection *connection = ll->data; g_dbus_connection_emit_signal (connection, NULL, g_dbus_interface_skeleton_get_object_path (G_DBUS_INTERFACE_SKELETON (skeleton)), "org.freedesktop.DBus.Properties", "PropertiesChanged", signal_variant, NULL); } g_variant_unref (signal_variant); g_list_free_full (connections, g_object_unref); } else { g_variant_builder_clear (&builder); g_variant_builder_clear (&invalidated_builder); } g_list_free_full (skeleton->priv->changed_properties, (GDestroyNotify) _changed_property_free); skeleton->priv->changed_properties = NULL; skeleton->priv->changed_properties_idle_source = NULL; g_mutex_unlock (&skeleton->priv->lock); return FALSE; } static void _fan_schedule_emit_changed (FanSkeleton *skeleton, const _ExtendedGDBusPropertyInfo *info, guint prop_id, const GValue *orig_value) { ChangedProperty *cp; GList *l; cp = NULL; for (l = skeleton->priv->changed_properties; l != NULL; l = l->next) { ChangedProperty *i_cp = l->data; if (i_cp->info == info) { cp = i_cp; break; } } if (cp == NULL) { cp = g_new0 (ChangedProperty, 1); cp->prop_id = prop_id; cp->info = info; skeleton->priv->changed_properties = g_list_prepend (skeleton->priv->changed_properties, cp); g_value_init (&cp->orig_value, G_VALUE_TYPE (orig_value)); g_value_copy (orig_value, &cp->orig_value); } } static void fan_skeleton_notify (GObject *object, GParamSpec *pspec G_GNUC_UNUSED) { FanSkeleton *skeleton = FAN_SKELETON (object); g_mutex_lock (&skeleton->priv->lock); if (skeleton->priv->changed_properties != NULL && skeleton->priv->changed_properties_idle_source == NULL) { skeleton->priv->changed_properties_idle_source = g_idle_source_new (); g_source_set_priority (skeleton->priv->changed_properties_idle_source, G_PRIORITY_DEFAULT); g_source_set_callback (skeleton->priv->changed_properties_idle_source, _fan_emit_changed, g_object_ref (skeleton), (GDestroyNotify) g_object_unref); g_source_set_name (skeleton->priv->changed_properties_idle_source, "[generated] _fan_emit_changed"); g_source_attach (skeleton->priv->changed_properties_idle_source, skeleton->priv->context); g_source_unref (skeleton->priv->changed_properties_idle_source); } g_mutex_unlock (&skeleton->priv->lock); } static void fan_skeleton_set_property (GObject *object, guint prop_id, const GValue *value, GParamSpec *pspec) { FanSkeleton *skeleton = FAN_SKELETON (object); g_assert (prop_id != 0 && prop_id - 1 < 3); g_mutex_lock (&skeleton->priv->lock); g_object_freeze_notify (object); if (!_g_value_equal (value, &skeleton->priv->properties[prop_id - 1])) { if (g_dbus_interface_skeleton_get_connection (G_DBUS_INTERFACE_SKELETON (skeleton)) != NULL) _fan_schedule_emit_changed (skeleton, _fan_property_info_pointers[prop_id - 1], prop_id, &skeleton->priv->properties[prop_id - 1]); g_value_copy (value, &skeleton->priv->properties[prop_id - 1]); g_object_notify_by_pspec (object, pspec); } g_mutex_unlock (&skeleton->priv->lock); g_object_thaw_notify (object); } static void fan_skeleton_init (FanSkeleton *skeleton) { #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 skeleton->priv = fan_skeleton_get_instance_private (skeleton); #else skeleton->priv = G_TYPE_INSTANCE_GET_PRIVATE (skeleton, TYPE_FAN_SKELETON, FanSkeletonPrivate); #endif g_mutex_init (&skeleton->priv->lock); skeleton->priv->context = g_main_context_ref_thread_default (); skeleton->priv->properties = g_new0 (GValue, 3); g_value_init (&skeleton->priv->properties[0], G_TYPE_INT); g_value_init (&skeleton->priv->properties[1], G_TYPE_INT); g_value_init (&skeleton->priv->properties[2], G_TYPE_INT); } static gint fan_skeleton_get_speed (Fan *object) { FanSkeleton *skeleton = FAN_SKELETON (object); gint value; g_mutex_lock (&skeleton->priv->lock); value = g_value_get_int (&(skeleton->priv->properties[0])); g_mutex_unlock (&skeleton->priv->lock); return value; } static gint fan_skeleton_get_cooling_zone (Fan *object) { FanSkeleton *skeleton = FAN_SKELETON (object); gint value; g_mutex_lock (&skeleton->priv->lock); value = g_value_get_int (&(skeleton->priv->properties[1])); g_mutex_unlock (&skeleton->priv->lock); return value; } static gint fan_skeleton_get_pwm_num (Fan *object) { FanSkeleton *skeleton = FAN_SKELETON (object); gint value; g_mutex_lock (&skeleton->priv->lock); value = g_value_get_int (&(skeleton->priv->properties[2])); g_mutex_unlock (&skeleton->priv->lock); return value; } static void fan_skeleton_class_init (FanSkeletonClass *klass) { GObjectClass *gobject_class; GDBusInterfaceSkeletonClass *skeleton_class; gobject_class = G_OBJECT_CLASS (klass); gobject_class->finalize = fan_skeleton_finalize; gobject_class->get_property = fan_skeleton_get_property; gobject_class->set_property = fan_skeleton_set_property; gobject_class->notify = fan_skeleton_notify; fan_override_properties (gobject_class, 1); skeleton_class = G_DBUS_INTERFACE_SKELETON_CLASS (klass); skeleton_class->get_info = fan_skeleton_dbus_interface_get_info; skeleton_class->get_properties = fan_skeleton_dbus_interface_get_properties; skeleton_class->flush = fan_skeleton_dbus_interface_flush; skeleton_class->get_vtable = fan_skeleton_dbus_interface_get_vtable; #if GLIB_VERSION_MAX_ALLOWED < GLIB_VERSION_2_38 g_type_class_add_private (klass, sizeof (FanSkeletonPrivate)); #endif } static void fan_skeleton_iface_init (FanIface *iface) { iface->speed_changed = _fan_on_signal_speed_changed; iface->tach_error = _fan_on_signal_tach_error; iface->get_speed = fan_skeleton_get_speed; iface->get_cooling_zone = fan_skeleton_get_cooling_zone; iface->get_pwm_num = fan_skeleton_get_pwm_num; } /** * fan_skeleton_new: * * Creates a skeleton object for the D-Bus interface org.openbmc.Fan. * * Returns: (transfer full) (type FanSkeleton): The skeleton object. */ Fan * fan_skeleton_new (void) { return FAN (g_object_new (TYPE_FAN_SKELETON, NULL)); } /* ------------------------------------------------------------------------ * Code for interface org.openbmc.SensorValue * ------------------------------------------------------------------------ */ /** * SECTION:SensorValue * @title: SensorValue * @short_description: Generated C code for the org.openbmc.SensorValue D-Bus interface * * This section contains code for working with the org.openbmc.SensorValue D-Bus interface in C. */ /* ---- Introspection data for org.openbmc.SensorValue ---- */ static const _ExtendedGDBusMethodInfo _sensor_value_method_info_init = { { -1, (gchar *) "init", NULL, NULL, NULL }, "handle-init", FALSE }; static const _ExtendedGDBusArgInfo _sensor_value_method_info_get_value_OUT_ARG_value = { { -1, (gchar *) "value", (gchar *) "v", NULL }, FALSE }; static const _ExtendedGDBusArgInfo * const _sensor_value_method_info_get_value_OUT_ARG_pointers[] = { &_sensor_value_method_info_get_value_OUT_ARG_value, NULL }; static const _ExtendedGDBusMethodInfo _sensor_value_method_info_get_value = { { -1, (gchar *) "getValue", NULL, (GDBusArgInfo **) &_sensor_value_method_info_get_value_OUT_ARG_pointers, NULL }, "handle-get-value", FALSE }; static const _ExtendedGDBusArgInfo _sensor_value_method_info_set_value_IN_ARG_value = { { -1, (gchar *) "value", (gchar *) "v", NULL }, FALSE }; static const _ExtendedGDBusArgInfo * const _sensor_value_method_info_set_value_IN_ARG_pointers[] = { &_sensor_value_method_info_set_value_IN_ARG_value, NULL }; static const _ExtendedGDBusMethodInfo _sensor_value_method_info_set_value = { { -1, (gchar *) "setValue", (GDBusArgInfo **) &_sensor_value_method_info_set_value_IN_ARG_pointers, NULL, NULL }, "handle-set-value", FALSE }; static const _ExtendedGDBusMethodInfo * const _sensor_value_method_info_pointers[] = { &_sensor_value_method_info_init, &_sensor_value_method_info_get_value, &_sensor_value_method_info_set_value, NULL }; static const _ExtendedGDBusArgInfo _sensor_value_signal_info_changed_ARG_value = { { -1, (gchar *) "value", (gchar *) "v", NULL }, FALSE }; static const _ExtendedGDBusArgInfo _sensor_value_signal_info_changed_ARG_units = { { -1, (gchar *) "units", (gchar *) "s", NULL }, FALSE }; static const _ExtendedGDBusArgInfo * const _sensor_value_signal_info_changed_ARG_pointers[] = { &_sensor_value_signal_info_changed_ARG_value, &_sensor_value_signal_info_changed_ARG_units, NULL }; static const _ExtendedGDBusSignalInfo _sensor_value_signal_info_changed = { { -1, (gchar *) "Changed", (GDBusArgInfo **) &_sensor_value_signal_info_changed_ARG_pointers, NULL }, "changed" }; static const _ExtendedGDBusSignalInfo _sensor_value_signal_info_error = { { -1, (gchar *) "Error", NULL, NULL }, "error" }; static const _ExtendedGDBusArgInfo _sensor_value_signal_info_heartbeat_ARG_bus_name = { { -1, (gchar *) "bus_name", (gchar *) "s", NULL }, FALSE }; static const _ExtendedGDBusArgInfo * const _sensor_value_signal_info_heartbeat_ARG_pointers[] = { &_sensor_value_signal_info_heartbeat_ARG_bus_name, NULL }; static const _ExtendedGDBusSignalInfo _sensor_value_signal_info_heartbeat = { { -1, (gchar *) "Heartbeat", (GDBusArgInfo **) &_sensor_value_signal_info_heartbeat_ARG_pointers, NULL }, "heartbeat" }; static const _ExtendedGDBusSignalInfo * const _sensor_value_signal_info_pointers[] = { &_sensor_value_signal_info_changed, &_sensor_value_signal_info_error, &_sensor_value_signal_info_heartbeat, NULL }; static const _ExtendedGDBusPropertyInfo _sensor_value_property_info_value = { { -1, (gchar *) "value", (gchar *) "v", G_DBUS_PROPERTY_INFO_FLAGS_READABLE, NULL }, "value", FALSE }; static const _ExtendedGDBusPropertyInfo _sensor_value_property_info_units = { { -1, (gchar *) "units", (gchar *) "s", G_DBUS_PROPERTY_INFO_FLAGS_READABLE, NULL }, "units", FALSE }; static const _ExtendedGDBusPropertyInfo _sensor_value_property_info_poll_interval = { { -1, (gchar *) "poll_interval", (gchar *) "i", G_DBUS_PROPERTY_INFO_FLAGS_READABLE | G_DBUS_PROPERTY_INFO_FLAGS_WRITABLE, NULL }, "poll-interval", FALSE }; static const _ExtendedGDBusPropertyInfo _sensor_value_property_info_heatbeat = { { -1, (gchar *) "heatbeat", (gchar *) "i", G_DBUS_PROPERTY_INFO_FLAGS_READABLE, NULL }, "heatbeat", FALSE }; static const _ExtendedGDBusPropertyInfo _sensor_value_property_info_settable = { { -1, (gchar *) "settable", (gchar *) "b", G_DBUS_PROPERTY_INFO_FLAGS_READABLE, NULL }, "settable", FALSE }; static const _ExtendedGDBusPropertyInfo * const _sensor_value_property_info_pointers[] = { &_sensor_value_property_info_value, &_sensor_value_property_info_units, &_sensor_value_property_info_poll_interval, &_sensor_value_property_info_heatbeat, &_sensor_value_property_info_settable, NULL }; static const _ExtendedGDBusInterfaceInfo _sensor_value_interface_info = { { -1, (gchar *) "org.openbmc.SensorValue", (GDBusMethodInfo **) &_sensor_value_method_info_pointers, (GDBusSignalInfo **) &_sensor_value_signal_info_pointers, (GDBusPropertyInfo **) &_sensor_value_property_info_pointers, NULL }, "sensor-value", }; /** * sensor_value_interface_info: * * Gets a machine-readable description of the org.openbmc.SensorValue D-Bus interface. * * Returns: (transfer none): A #GDBusInterfaceInfo. Do not free. */ GDBusInterfaceInfo * sensor_value_interface_info (void) { return (GDBusInterfaceInfo *) &_sensor_value_interface_info.parent_struct; } /** * sensor_value_override_properties: * @klass: The class structure for a #GObject-derived class. * @property_id_begin: The property id to assign to the first overridden property. * * Overrides all #GObject properties in the #SensorValue interface for a concrete class. * The properties are overridden in the order they are defined. * * Returns: The last property id. */ guint sensor_value_override_properties (GObjectClass *klass, guint property_id_begin) { g_object_class_override_property (klass, property_id_begin++, "value"); g_object_class_override_property (klass, property_id_begin++, "units"); g_object_class_override_property (klass, property_id_begin++, "poll-interval"); g_object_class_override_property (klass, property_id_begin++, "heatbeat"); g_object_class_override_property (klass, property_id_begin++, "settable"); return property_id_begin - 1; } /** * SensorValue: * * Abstract interface type for the D-Bus interface org.openbmc.SensorValue. */ /** * SensorValueIface: * @parent_iface: The parent interface. * @handle_get_value: Handler for the #SensorValue::handle-get-value signal. * @handle_init: Handler for the #SensorValue::handle-init signal. * @handle_set_value: Handler for the #SensorValue::handle-set-value signal. * @get_heatbeat: Getter for the #SensorValue:heatbeat property. * @get_poll_interval: Getter for the #SensorValue:poll-interval property. * @get_settable: Getter for the #SensorValue:settable property. * @get_units: Getter for the #SensorValue:units property. * @get_value: Getter for the #SensorValue:value property. * @changed: Handler for the #SensorValue::changed signal. * @error: Handler for the #SensorValue::error signal. * @heartbeat: Handler for the #SensorValue::heartbeat signal. * * Virtual table for the D-Bus interface org.openbmc.SensorValue. */ typedef SensorValueIface SensorValueInterface; G_DEFINE_INTERFACE (SensorValue, sensor_value, G_TYPE_OBJECT); static void sensor_value_default_init (SensorValueIface *iface) { /* GObject signals for incoming D-Bus method calls: */ /** * SensorValue::handle-init: * @object: A #SensorValue. * @invocation: A #GDBusMethodInvocation. * * Signal emitted when a remote caller is invoking the init() D-Bus method. * * If a signal handler returns %TRUE, it means the signal handler will handle the invocation (e.g. take a reference to @invocation and eventually call sensor_value_complete_init() or e.g. g_dbus_method_invocation_return_error() on it) and no order signal handlers will run. If no signal handler handles the invocation, the %G_DBUS_ERROR_UNKNOWN_METHOD error is returned. * * Returns: %TRUE if the invocation was handled, %FALSE to let other signal handlers run. */ g_signal_new ("handle-init", G_TYPE_FROM_INTERFACE (iface), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (SensorValueIface, handle_init), g_signal_accumulator_true_handled, NULL, g_cclosure_marshal_generic, G_TYPE_BOOLEAN, 1, G_TYPE_DBUS_METHOD_INVOCATION); /** * SensorValue::handle-get-value: * @object: A #SensorValue. * @invocation: A #GDBusMethodInvocation. * * Signal emitted when a remote caller is invoking the getValue() D-Bus method. * * If a signal handler returns %TRUE, it means the signal handler will handle the invocation (e.g. take a reference to @invocation and eventually call sensor_value_complete_get_value() or e.g. g_dbus_method_invocation_return_error() on it) and no order signal handlers will run. If no signal handler handles the invocation, the %G_DBUS_ERROR_UNKNOWN_METHOD error is returned. * * Returns: %TRUE if the invocation was handled, %FALSE to let other signal handlers run. */ g_signal_new ("handle-get-value", G_TYPE_FROM_INTERFACE (iface), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (SensorValueIface, handle_get_value), g_signal_accumulator_true_handled, NULL, g_cclosure_marshal_generic, G_TYPE_BOOLEAN, 1, G_TYPE_DBUS_METHOD_INVOCATION); /** * SensorValue::handle-set-value: * @object: A #SensorValue. * @invocation: A #GDBusMethodInvocation. * @arg_value: Argument passed by remote caller. * * Signal emitted when a remote caller is invoking the setValue() D-Bus method. * * If a signal handler returns %TRUE, it means the signal handler will handle the invocation (e.g. take a reference to @invocation and eventually call sensor_value_complete_set_value() or e.g. g_dbus_method_invocation_return_error() on it) and no order signal handlers will run. If no signal handler handles the invocation, the %G_DBUS_ERROR_UNKNOWN_METHOD error is returned. * * Returns: %TRUE if the invocation was handled, %FALSE to let other signal handlers run. */ g_signal_new ("handle-set-value", G_TYPE_FROM_INTERFACE (iface), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (SensorValueIface, handle_set_value), g_signal_accumulator_true_handled, NULL, g_cclosure_marshal_generic, G_TYPE_BOOLEAN, 2, G_TYPE_DBUS_METHOD_INVOCATION, G_TYPE_VARIANT); /* GObject signals for received D-Bus signals: */ /** * SensorValue::changed: * @object: A #SensorValue. * @arg_value: Argument. * @arg_units: Argument. * * On the client-side, this signal is emitted whenever the D-Bus signal "Changed" is received. * * On the service-side, this signal can be used with e.g. g_signal_emit_by_name() to make the object emit the D-Bus signal. */ g_signal_new ("changed", G_TYPE_FROM_INTERFACE (iface), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (SensorValueIface, changed), NULL, NULL, g_cclosure_marshal_generic, G_TYPE_NONE, 2, G_TYPE_VARIANT, G_TYPE_STRING); /** * SensorValue::error: * @object: A #SensorValue. * * On the client-side, this signal is emitted whenever the D-Bus signal "Error" is received. * * On the service-side, this signal can be used with e.g. g_signal_emit_by_name() to make the object emit the D-Bus signal. */ g_signal_new ("error", G_TYPE_FROM_INTERFACE (iface), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (SensorValueIface, error), NULL, NULL, g_cclosure_marshal_generic, G_TYPE_NONE, 0); /** * SensorValue::heartbeat: * @object: A #SensorValue. * @arg_bus_name: Argument. * * On the client-side, this signal is emitted whenever the D-Bus signal "Heartbeat" is received. * * On the service-side, this signal can be used with e.g. g_signal_emit_by_name() to make the object emit the D-Bus signal. */ g_signal_new ("heartbeat", G_TYPE_FROM_INTERFACE (iface), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (SensorValueIface, heartbeat), NULL, NULL, g_cclosure_marshal_generic, G_TYPE_NONE, 1, G_TYPE_STRING); /* GObject properties for D-Bus properties: */ /** * SensorValue:value: * * Represents the D-Bus property "value". * * Since the D-Bus property for this #GObject property is readable but not writable, it is meaningful to read from it on both the client- and service-side. It is only meaningful, however, to write to it on the service-side. */ g_object_interface_install_property (iface, g_param_spec_variant ("value", "value", "value", G_VARIANT_TYPE ("v"), NULL, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS)); /** * SensorValue:units: * * Represents the D-Bus property "units". * * Since the D-Bus property for this #GObject property is readable but not writable, it is meaningful to read from it on both the client- and service-side. It is only meaningful, however, to write to it on the service-side. */ g_object_interface_install_property (iface, g_param_spec_string ("units", "units", "units", NULL, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS)); /** * SensorValue:poll-interval: * * Represents the D-Bus property "poll_interval". * * Since the D-Bus property for this #GObject property is both readable and writable, it is meaningful to both read from it and write to it on both the service- and client-side. */ g_object_interface_install_property (iface, g_param_spec_int ("poll-interval", "poll_interval", "poll_interval", G_MININT32, G_MAXINT32, 0, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS)); /** * SensorValue:heatbeat: * * Represents the D-Bus property "heatbeat". * * Since the D-Bus property for this #GObject property is readable but not writable, it is meaningful to read from it on both the client- and service-side. It is only meaningful, however, to write to it on the service-side. */ g_object_interface_install_property (iface, g_param_spec_int ("heatbeat", "heatbeat", "heatbeat", G_MININT32, G_MAXINT32, 0, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS)); /** * SensorValue:settable: * * Represents the D-Bus property "settable". * * Since the D-Bus property for this #GObject property is readable but not writable, it is meaningful to read from it on both the client- and service-side. It is only meaningful, however, to write to it on the service-side. */ g_object_interface_install_property (iface, g_param_spec_boolean ("settable", "settable", "settable", FALSE, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS)); } /** * sensor_value_get_value: (skip) * @object: A #SensorValue. * * Gets the value of the "value" D-Bus property. * * Since this D-Bus property is readable, it is meaningful to use this function on both the client- and service-side. * * The returned value is only valid until the property changes so on the client-side it is only safe to use this function on the thread where @object was constructed. Use sensor_value_dup_value() if on another thread. * * Returns: (transfer none): The property value or %NULL if the property is not set. Do not free the returned value, it belongs to @object. */ GVariant * sensor_value_get_value (SensorValue *object) { return SENSOR_VALUE_GET_IFACE (object)->get_value (object); } /** * sensor_value_dup_value: (skip) * @object: A #SensorValue. * * Gets a copy of the "value" D-Bus property. * * Since this D-Bus property is readable, it is meaningful to use this function on both the client- and service-side. * * Returns: (transfer full): The property value or %NULL if the property is not set. The returned value should be freed with g_variant_unref(). */ GVariant * sensor_value_dup_value (SensorValue *object) { GVariant *value; g_object_get (G_OBJECT (object), "value", &value, NULL); return value; } /** * sensor_value_set_value: (skip) * @object: A #SensorValue. * @value: The value to set. * * Sets the "value" D-Bus property to @value. * * Since this D-Bus property is not writable, it is only meaningful to use this function on the service-side. */ void sensor_value_set_value (SensorValue *object, GVariant *value) { g_object_set (G_OBJECT (object), "value", value, NULL); } /** * sensor_value_get_units: (skip) * @object: A #SensorValue. * * Gets the value of the "units" D-Bus property. * * Since this D-Bus property is readable, it is meaningful to use this function on both the client- and service-side. * * The returned value is only valid until the property changes so on the client-side it is only safe to use this function on the thread where @object was constructed. Use sensor_value_dup_units() if on another thread. * * Returns: (transfer none): The property value or %NULL if the property is not set. Do not free the returned value, it belongs to @object. */ const gchar * sensor_value_get_units (SensorValue *object) { return SENSOR_VALUE_GET_IFACE (object)->get_units (object); } /** * sensor_value_dup_units: (skip) * @object: A #SensorValue. * * Gets a copy of the "units" D-Bus property. * * Since this D-Bus property is readable, it is meaningful to use this function on both the client- and service-side. * * Returns: (transfer full): The property value or %NULL if the property is not set. The returned value should be freed with g_free(). */ gchar * sensor_value_dup_units (SensorValue *object) { gchar *value; g_object_get (G_OBJECT (object), "units", &value, NULL); return value; } /** * sensor_value_set_units: (skip) * @object: A #SensorValue. * @value: The value to set. * * Sets the "units" D-Bus property to @value. * * Since this D-Bus property is not writable, it is only meaningful to use this function on the service-side. */ void sensor_value_set_units (SensorValue *object, const gchar *value) { g_object_set (G_OBJECT (object), "units", value, NULL); } /** * sensor_value_get_poll_interval: (skip) * @object: A #SensorValue. * * Gets the value of the "poll_interval" D-Bus property. * * Since this D-Bus property is both readable and writable, it is meaningful to use this function on both the client- and service-side. * * Returns: The property value. */ gint sensor_value_get_poll_interval (SensorValue *object) { return SENSOR_VALUE_GET_IFACE (object)->get_poll_interval (object); } /** * sensor_value_set_poll_interval: (skip) * @object: A #SensorValue. * @value: The value to set. * * Sets the "poll_interval" D-Bus property to @value. * * Since this D-Bus property is both readable and writable, it is meaningful to use this function on both the client- and service-side. */ void sensor_value_set_poll_interval (SensorValue *object, gint value) { g_object_set (G_OBJECT (object), "poll-interval", value, NULL); } /** * sensor_value_get_heatbeat: (skip) * @object: A #SensorValue. * * Gets the value of the "heatbeat" D-Bus property. * * Since this D-Bus property is readable, it is meaningful to use this function on both the client- and service-side. * * Returns: The property value. */ gint sensor_value_get_heatbeat (SensorValue *object) { return SENSOR_VALUE_GET_IFACE (object)->get_heatbeat (object); } /** * sensor_value_set_heatbeat: (skip) * @object: A #SensorValue. * @value: The value to set. * * Sets the "heatbeat" D-Bus property to @value. * * Since this D-Bus property is not writable, it is only meaningful to use this function on the service-side. */ void sensor_value_set_heatbeat (SensorValue *object, gint value) { g_object_set (G_OBJECT (object), "heatbeat", value, NULL); } /** * sensor_value_get_settable: (skip) * @object: A #SensorValue. * * Gets the value of the "settable" D-Bus property. * * Since this D-Bus property is readable, it is meaningful to use this function on both the client- and service-side. * * Returns: The property value. */ gboolean sensor_value_get_settable (SensorValue *object) { return SENSOR_VALUE_GET_IFACE (object)->get_settable (object); } /** * sensor_value_set_settable: (skip) * @object: A #SensorValue. * @value: The value to set. * * Sets the "settable" D-Bus property to @value. * * Since this D-Bus property is not writable, it is only meaningful to use this function on the service-side. */ void sensor_value_set_settable (SensorValue *object, gboolean value) { g_object_set (G_OBJECT (object), "settable", value, NULL); } /** * sensor_value_emit_changed: * @object: A #SensorValue. * @arg_value: Argument to pass with the signal. * @arg_units: Argument to pass with the signal. * * Emits the "Changed" D-Bus signal. */ void sensor_value_emit_changed ( SensorValue *object, GVariant *arg_value, const gchar *arg_units) { g_signal_emit_by_name (object, "changed", arg_value, arg_units); } /** * sensor_value_emit_error: * @object: A #SensorValue. * * Emits the "Error" D-Bus signal. */ void sensor_value_emit_error ( SensorValue *object) { g_signal_emit_by_name (object, "error"); } /** * sensor_value_emit_heartbeat: * @object: A #SensorValue. * @arg_bus_name: Argument to pass with the signal. * * Emits the "Heartbeat" D-Bus signal. */ void sensor_value_emit_heartbeat ( SensorValue *object, const gchar *arg_bus_name) { g_signal_emit_by_name (object, "heartbeat", arg_bus_name); } /** * sensor_value_call_init: * @proxy: A #SensorValueProxy. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied or %NULL. * @user_data: User data to pass to @callback. * * Asynchronously invokes the init() D-Bus method on @proxy. * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call sensor_value_call_init_finish() to get the result of the operation. * * See sensor_value_call_init_sync() for the synchronous, blocking version of this method. */ void sensor_value_call_init ( SensorValue *proxy, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_dbus_proxy_call (G_DBUS_PROXY (proxy), "init", g_variant_new ("()"), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, callback, user_data); } /** * sensor_value_call_init_finish: * @proxy: A #SensorValueProxy. * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to sensor_value_call_init(). * @error: Return location for error or %NULL. * * Finishes an operation started with sensor_value_call_init(). * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean sensor_value_call_init_finish ( SensorValue *proxy, GAsyncResult *res, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_finish (G_DBUS_PROXY (proxy), res, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "()"); g_variant_unref (_ret); _out: return _ret != NULL; } /** * sensor_value_call_init_sync: * @proxy: A #SensorValueProxy. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL. * * Synchronously invokes the init() D-Bus method on @proxy. The calling thread is blocked until a reply is received. * * See sensor_value_call_init() for the asynchronous version of this method. * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean sensor_value_call_init_sync ( SensorValue *proxy, GCancellable *cancellable, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_sync (G_DBUS_PROXY (proxy), "init", g_variant_new ("()"), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "()"); g_variant_unref (_ret); _out: return _ret != NULL; } /** * sensor_value_call_get_value: * @proxy: A #SensorValueProxy. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied or %NULL. * @user_data: User data to pass to @callback. * * Asynchronously invokes the getValue() D-Bus method on @proxy. * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call sensor_value_call_get_value_finish() to get the result of the operation. * * See sensor_value_call_get_value_sync() for the synchronous, blocking version of this method. */ void sensor_value_call_get_value ( SensorValue *proxy, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_dbus_proxy_call (G_DBUS_PROXY (proxy), "getValue", g_variant_new ("()"), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, callback, user_data); } /** * sensor_value_call_get_value_finish: * @proxy: A #SensorValueProxy. * @out_value: (out): Return location for return parameter or %NULL to ignore. * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to sensor_value_call_get_value(). * @error: Return location for error or %NULL. * * Finishes an operation started with sensor_value_call_get_value(). * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean sensor_value_call_get_value_finish ( SensorValue *proxy, GVariant **out_value, GAsyncResult *res, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_finish (G_DBUS_PROXY (proxy), res, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "(@v)", out_value); g_variant_unref (_ret); _out: return _ret != NULL; } /** * sensor_value_call_get_value_sync: * @proxy: A #SensorValueProxy. * @out_value: (out): Return location for return parameter or %NULL to ignore. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL. * * Synchronously invokes the getValue() D-Bus method on @proxy. The calling thread is blocked until a reply is received. * * See sensor_value_call_get_value() for the asynchronous version of this method. * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean sensor_value_call_get_value_sync ( SensorValue *proxy, GVariant **out_value, GCancellable *cancellable, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_sync (G_DBUS_PROXY (proxy), "getValue", g_variant_new ("()"), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "(@v)", out_value); g_variant_unref (_ret); _out: return _ret != NULL; } /** * sensor_value_call_set_value: * @proxy: A #SensorValueProxy. * @arg_value: Argument to pass with the method invocation. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied or %NULL. * @user_data: User data to pass to @callback. * * Asynchronously invokes the setValue() D-Bus method on @proxy. * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call sensor_value_call_set_value_finish() to get the result of the operation. * * See sensor_value_call_set_value_sync() for the synchronous, blocking version of this method. */ void sensor_value_call_set_value ( SensorValue *proxy, GVariant *arg_value, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_dbus_proxy_call (G_DBUS_PROXY (proxy), "setValue", g_variant_new ("(@v)", arg_value), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, callback, user_data); } /** * sensor_value_call_set_value_finish: * @proxy: A #SensorValueProxy. * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to sensor_value_call_set_value(). * @error: Return location for error or %NULL. * * Finishes an operation started with sensor_value_call_set_value(). * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean sensor_value_call_set_value_finish ( SensorValue *proxy, GAsyncResult *res, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_finish (G_DBUS_PROXY (proxy), res, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "()"); g_variant_unref (_ret); _out: return _ret != NULL; } /** * sensor_value_call_set_value_sync: * @proxy: A #SensorValueProxy. * @arg_value: Argument to pass with the method invocation. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL. * * Synchronously invokes the setValue() D-Bus method on @proxy. The calling thread is blocked until a reply is received. * * See sensor_value_call_set_value() for the asynchronous version of this method. * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean sensor_value_call_set_value_sync ( SensorValue *proxy, GVariant *arg_value, GCancellable *cancellable, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_sync (G_DBUS_PROXY (proxy), "setValue", g_variant_new ("(@v)", arg_value), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "()"); g_variant_unref (_ret); _out: return _ret != NULL; } /** * sensor_value_complete_init: * @object: A #SensorValue. * @invocation: (transfer full): A #GDBusMethodInvocation. * * Helper function used in service implementations to finish handling invocations of the init() D-Bus method. If you instead want to finish handling an invocation by returning an error, use g_dbus_method_invocation_return_error() or similar. * * This method will free @invocation, you cannot use it afterwards. */ void sensor_value_complete_init ( SensorValue *object, GDBusMethodInvocation *invocation) { g_dbus_method_invocation_return_value (invocation, g_variant_new ("()")); } /** * sensor_value_complete_get_value: * @object: A #SensorValue. * @invocation: (transfer full): A #GDBusMethodInvocation. * @value: Parameter to return. * * Helper function used in service implementations to finish handling invocations of the getValue() D-Bus method. If you instead want to finish handling an invocation by returning an error, use g_dbus_method_invocation_return_error() or similar. * * This method will free @invocation, you cannot use it afterwards. */ void sensor_value_complete_get_value ( SensorValue *object, GDBusMethodInvocation *invocation, GVariant *value) { g_dbus_method_invocation_return_value (invocation, g_variant_new ("(@v)", value)); } /** * sensor_value_complete_set_value: * @object: A #SensorValue. * @invocation: (transfer full): A #GDBusMethodInvocation. * * Helper function used in service implementations to finish handling invocations of the setValue() D-Bus method. If you instead want to finish handling an invocation by returning an error, use g_dbus_method_invocation_return_error() or similar. * * This method will free @invocation, you cannot use it afterwards. */ void sensor_value_complete_set_value ( SensorValue *object, GDBusMethodInvocation *invocation) { g_dbus_method_invocation_return_value (invocation, g_variant_new ("()")); } /* ------------------------------------------------------------------------ */ /** * SensorValueProxy: * * The #SensorValueProxy structure contains only private data and should only be accessed using the provided API. */ /** * SensorValueProxyClass: * @parent_class: The parent class. * * Class structure for #SensorValueProxy. */ struct _SensorValueProxyPrivate { GData *qdata; }; static void sensor_value_proxy_iface_init (SensorValueIface *iface); #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 G_DEFINE_TYPE_WITH_CODE (SensorValueProxy, sensor_value_proxy, G_TYPE_DBUS_PROXY, G_ADD_PRIVATE (SensorValueProxy) G_IMPLEMENT_INTERFACE (TYPE_SENSOR_VALUE, sensor_value_proxy_iface_init)); #else G_DEFINE_TYPE_WITH_CODE (SensorValueProxy, sensor_value_proxy, G_TYPE_DBUS_PROXY, G_IMPLEMENT_INTERFACE (TYPE_SENSOR_VALUE, sensor_value_proxy_iface_init)); #endif static void sensor_value_proxy_finalize (GObject *object) { SensorValueProxy *proxy = SENSOR_VALUE_PROXY (object); g_datalist_clear (&proxy->priv->qdata); G_OBJECT_CLASS (sensor_value_proxy_parent_class)->finalize (object); } static void sensor_value_proxy_get_property (GObject *object, guint prop_id, GValue *value, GParamSpec *pspec G_GNUC_UNUSED) { const _ExtendedGDBusPropertyInfo *info; GVariant *variant; g_assert (prop_id != 0 && prop_id - 1 < 5); info = _sensor_value_property_info_pointers[prop_id - 1]; variant = g_dbus_proxy_get_cached_property (G_DBUS_PROXY (object), info->parent_struct.name); if (info->use_gvariant) { g_value_set_variant (value, variant); } else { if (variant != NULL) g_dbus_gvariant_to_gvalue (variant, value); } if (variant != NULL) g_variant_unref (variant); } static void sensor_value_proxy_set_property_cb (GDBusProxy *proxy, GAsyncResult *res, gpointer user_data) { const _ExtendedGDBusPropertyInfo *info = user_data; GError *error; GVariant *_ret; error = NULL; _ret = g_dbus_proxy_call_finish (proxy, res, &error); if (!_ret) { g_warning ("Error setting property '%s' on interface org.openbmc.SensorValue: %s (%s, %d)", info->parent_struct.name, error->message, g_quark_to_string (error->domain), error->code); g_error_free (error); } else { g_variant_unref (_ret); } } static void sensor_value_proxy_set_property (GObject *object, guint prop_id, const GValue *value, GParamSpec *pspec G_GNUC_UNUSED) { const _ExtendedGDBusPropertyInfo *info; GVariant *variant; g_assert (prop_id != 0 && prop_id - 1 < 5); info = _sensor_value_property_info_pointers[prop_id - 1]; variant = g_dbus_gvalue_to_gvariant (value, G_VARIANT_TYPE (info->parent_struct.signature)); g_dbus_proxy_call (G_DBUS_PROXY (object), "org.freedesktop.DBus.Properties.Set", g_variant_new ("(ssv)", "org.openbmc.SensorValue", info->parent_struct.name, variant), G_DBUS_CALL_FLAGS_NONE, -1, NULL, (GAsyncReadyCallback) sensor_value_proxy_set_property_cb, (GDBusPropertyInfo *) &info->parent_struct); g_variant_unref (variant); } static void sensor_value_proxy_g_signal (GDBusProxy *proxy, const gchar *sender_name G_GNUC_UNUSED, const gchar *signal_name, GVariant *parameters) { _ExtendedGDBusSignalInfo *info; GVariantIter iter; GVariant *child; GValue *paramv; guint num_params; guint n; guint signal_id; info = (_ExtendedGDBusSignalInfo *) g_dbus_interface_info_lookup_signal ((GDBusInterfaceInfo *) &_sensor_value_interface_info.parent_struct, signal_name); if (info == NULL) return; num_params = g_variant_n_children (parameters); paramv = g_new0 (GValue, num_params + 1); g_value_init (¶mv[0], TYPE_SENSOR_VALUE); g_value_set_object (¶mv[0], proxy); g_variant_iter_init (&iter, parameters); n = 1; while ((child = g_variant_iter_next_value (&iter)) != NULL) { _ExtendedGDBusArgInfo *arg_info = (_ExtendedGDBusArgInfo *) info->parent_struct.args[n - 1]; if (arg_info->use_gvariant) { g_value_init (¶mv[n], G_TYPE_VARIANT); g_value_set_variant (¶mv[n], child); n++; } else g_dbus_gvariant_to_gvalue (child, ¶mv[n++]); g_variant_unref (child); } signal_id = g_signal_lookup (info->signal_name, TYPE_SENSOR_VALUE); g_signal_emitv (paramv, signal_id, 0, NULL); for (n = 0; n < num_params + 1; n++) g_value_unset (¶mv[n]); g_free (paramv); } static void sensor_value_proxy_g_properties_changed (GDBusProxy *_proxy, GVariant *changed_properties, const gchar *const *invalidated_properties) { SensorValueProxy *proxy = SENSOR_VALUE_PROXY (_proxy); guint n; const gchar *key; GVariantIter *iter; _ExtendedGDBusPropertyInfo *info; g_variant_get (changed_properties, "a{sv}", &iter); while (g_variant_iter_next (iter, "{&sv}", &key, NULL)) { info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_sensor_value_interface_info.parent_struct, key); g_datalist_remove_data (&proxy->priv->qdata, key); if (info != NULL) g_object_notify (G_OBJECT (proxy), info->hyphen_name); } g_variant_iter_free (iter); for (n = 0; invalidated_properties[n] != NULL; n++) { info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_sensor_value_interface_info.parent_struct, invalidated_properties[n]); g_datalist_remove_data (&proxy->priv->qdata, invalidated_properties[n]); if (info != NULL) g_object_notify (G_OBJECT (proxy), info->hyphen_name); } } static GVariant * sensor_value_proxy_get_value (SensorValue *object) { SensorValueProxy *proxy = SENSOR_VALUE_PROXY (object); GVariant *variant; GVariant *value = NULL; variant = g_dbus_proxy_get_cached_property (G_DBUS_PROXY (proxy), "value"); value = variant; if (variant != NULL) g_variant_unref (variant); return value; } static const gchar * sensor_value_proxy_get_units (SensorValue *object) { SensorValueProxy *proxy = SENSOR_VALUE_PROXY (object); GVariant *variant; const gchar *value = NULL; variant = g_dbus_proxy_get_cached_property (G_DBUS_PROXY (proxy), "units"); if (variant != NULL) { value = g_variant_get_string (variant, NULL); g_variant_unref (variant); } return value; } static gint sensor_value_proxy_get_poll_interval (SensorValue *object) { SensorValueProxy *proxy = SENSOR_VALUE_PROXY (object); GVariant *variant; gint value = 0; variant = g_dbus_proxy_get_cached_property (G_DBUS_PROXY (proxy), "poll_interval"); if (variant != NULL) { value = g_variant_get_int32 (variant); g_variant_unref (variant); } return value; } static gint sensor_value_proxy_get_heatbeat (SensorValue *object) { SensorValueProxy *proxy = SENSOR_VALUE_PROXY (object); GVariant *variant; gint value = 0; variant = g_dbus_proxy_get_cached_property (G_DBUS_PROXY (proxy), "heatbeat"); if (variant != NULL) { value = g_variant_get_int32 (variant); g_variant_unref (variant); } return value; } static gboolean sensor_value_proxy_get_settable (SensorValue *object) { SensorValueProxy *proxy = SENSOR_VALUE_PROXY (object); GVariant *variant; gboolean value = 0; variant = g_dbus_proxy_get_cached_property (G_DBUS_PROXY (proxy), "settable"); if (variant != NULL) { value = g_variant_get_boolean (variant); g_variant_unref (variant); } return value; } static void sensor_value_proxy_init (SensorValueProxy *proxy) { #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 proxy->priv = sensor_value_proxy_get_instance_private (proxy); #else proxy->priv = G_TYPE_INSTANCE_GET_PRIVATE (proxy, TYPE_SENSOR_VALUE_PROXY, SensorValueProxyPrivate); #endif g_dbus_proxy_set_interface_info (G_DBUS_PROXY (proxy), sensor_value_interface_info ()); } static void sensor_value_proxy_class_init (SensorValueProxyClass *klass) { GObjectClass *gobject_class; GDBusProxyClass *proxy_class; gobject_class = G_OBJECT_CLASS (klass); gobject_class->finalize = sensor_value_proxy_finalize; gobject_class->get_property = sensor_value_proxy_get_property; gobject_class->set_property = sensor_value_proxy_set_property; proxy_class = G_DBUS_PROXY_CLASS (klass); proxy_class->g_signal = sensor_value_proxy_g_signal; proxy_class->g_properties_changed = sensor_value_proxy_g_properties_changed; sensor_value_override_properties (gobject_class, 1); #if GLIB_VERSION_MAX_ALLOWED < GLIB_VERSION_2_38 g_type_class_add_private (klass, sizeof (SensorValueProxyPrivate)); #endif } static void sensor_value_proxy_iface_init (SensorValueIface *iface) { iface->get_value = sensor_value_proxy_get_value; iface->get_units = sensor_value_proxy_get_units; iface->get_poll_interval = sensor_value_proxy_get_poll_interval; iface->get_heatbeat = sensor_value_proxy_get_heatbeat; iface->get_settable = sensor_value_proxy_get_settable; } /** * sensor_value_proxy_new: * @connection: A #GDBusConnection. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: (allow-none): A bus name (well-known or unique) or %NULL if @connection is not a message bus connection. * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied. * @user_data: User data to pass to @callback. * * Asynchronously creates a proxy for the D-Bus interface org.openbmc.SensorValue. See g_dbus_proxy_new() for more details. * * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call sensor_value_proxy_new_finish() to get the result of the operation. * * See sensor_value_proxy_new_sync() for the synchronous, blocking version of this constructor. */ void sensor_value_proxy_new ( GDBusConnection *connection, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_async_initable_new_async (TYPE_SENSOR_VALUE_PROXY, G_PRIORITY_DEFAULT, cancellable, callback, user_data, "g-flags", flags, "g-name", name, "g-connection", connection, "g-object-path", object_path, "g-interface-name", "org.openbmc.SensorValue", NULL); } /** * sensor_value_proxy_new_finish: * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to sensor_value_proxy_new(). * @error: Return location for error or %NULL * * Finishes an operation started with sensor_value_proxy_new(). * * Returns: (transfer full) (type SensorValueProxy): The constructed proxy object or %NULL if @error is set. */ SensorValue * sensor_value_proxy_new_finish ( GAsyncResult *res, GError **error) { GObject *ret; GObject *source_object; source_object = g_async_result_get_source_object (res); ret = g_async_initable_new_finish (G_ASYNC_INITABLE (source_object), res, error); g_object_unref (source_object); if (ret != NULL) return SENSOR_VALUE (ret); else return NULL; } /** * sensor_value_proxy_new_sync: * @connection: A #GDBusConnection. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: (allow-none): A bus name (well-known or unique) or %NULL if @connection is not a message bus connection. * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL * * Synchronously creates a proxy for the D-Bus interface org.openbmc.SensorValue. See g_dbus_proxy_new_sync() for more details. * * The calling thread is blocked until a reply is received. * * See sensor_value_proxy_new() for the asynchronous version of this constructor. * * Returns: (transfer full) (type SensorValueProxy): The constructed proxy object or %NULL if @error is set. */ SensorValue * sensor_value_proxy_new_sync ( GDBusConnection *connection, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GError **error) { GInitable *ret; ret = g_initable_new (TYPE_SENSOR_VALUE_PROXY, cancellable, error, "g-flags", flags, "g-name", name, "g-connection", connection, "g-object-path", object_path, "g-interface-name", "org.openbmc.SensorValue", NULL); if (ret != NULL) return SENSOR_VALUE (ret); else return NULL; } /** * sensor_value_proxy_new_for_bus: * @bus_type: A #GBusType. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: A bus name (well-known or unique). * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied. * @user_data: User data to pass to @callback. * * Like sensor_value_proxy_new() but takes a #GBusType instead of a #GDBusConnection. * * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call sensor_value_proxy_new_for_bus_finish() to get the result of the operation. * * See sensor_value_proxy_new_for_bus_sync() for the synchronous, blocking version of this constructor. */ void sensor_value_proxy_new_for_bus ( GBusType bus_type, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_async_initable_new_async (TYPE_SENSOR_VALUE_PROXY, G_PRIORITY_DEFAULT, cancellable, callback, user_data, "g-flags", flags, "g-name", name, "g-bus-type", bus_type, "g-object-path", object_path, "g-interface-name", "org.openbmc.SensorValue", NULL); } /** * sensor_value_proxy_new_for_bus_finish: * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to sensor_value_proxy_new_for_bus(). * @error: Return location for error or %NULL * * Finishes an operation started with sensor_value_proxy_new_for_bus(). * * Returns: (transfer full) (type SensorValueProxy): The constructed proxy object or %NULL if @error is set. */ SensorValue * sensor_value_proxy_new_for_bus_finish ( GAsyncResult *res, GError **error) { GObject *ret; GObject *source_object; source_object = g_async_result_get_source_object (res); ret = g_async_initable_new_finish (G_ASYNC_INITABLE (source_object), res, error); g_object_unref (source_object); if (ret != NULL) return SENSOR_VALUE (ret); else return NULL; } /** * sensor_value_proxy_new_for_bus_sync: * @bus_type: A #GBusType. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: A bus name (well-known or unique). * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL * * Like sensor_value_proxy_new_sync() but takes a #GBusType instead of a #GDBusConnection. * * The calling thread is blocked until a reply is received. * * See sensor_value_proxy_new_for_bus() for the asynchronous version of this constructor. * * Returns: (transfer full) (type SensorValueProxy): The constructed proxy object or %NULL if @error is set. */ SensorValue * sensor_value_proxy_new_for_bus_sync ( GBusType bus_type, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GError **error) { GInitable *ret; ret = g_initable_new (TYPE_SENSOR_VALUE_PROXY, cancellable, error, "g-flags", flags, "g-name", name, "g-bus-type", bus_type, "g-object-path", object_path, "g-interface-name", "org.openbmc.SensorValue", NULL); if (ret != NULL) return SENSOR_VALUE (ret); else return NULL; } /* ------------------------------------------------------------------------ */ /** * SensorValueSkeleton: * * The #SensorValueSkeleton structure contains only private data and should only be accessed using the provided API. */ /** * SensorValueSkeletonClass: * @parent_class: The parent class. * * Class structure for #SensorValueSkeleton. */ struct _SensorValueSkeletonPrivate { GValue *properties; GList *changed_properties; GSource *changed_properties_idle_source; GMainContext *context; GMutex lock; }; static void _sensor_value_skeleton_handle_method_call ( GDBusConnection *connection G_GNUC_UNUSED, const gchar *sender G_GNUC_UNUSED, const gchar *object_path G_GNUC_UNUSED, const gchar *interface_name, const gchar *method_name, GVariant *parameters, GDBusMethodInvocation *invocation, gpointer user_data) { SensorValueSkeleton *skeleton = SENSOR_VALUE_SKELETON (user_data); _ExtendedGDBusMethodInfo *info; GVariantIter iter; GVariant *child; GValue *paramv; guint num_params; guint num_extra; guint n; guint signal_id; GValue return_value = G_VALUE_INIT; info = (_ExtendedGDBusMethodInfo *) g_dbus_method_invocation_get_method_info (invocation); g_assert (info != NULL); num_params = g_variant_n_children (parameters); num_extra = info->pass_fdlist ? 3 : 2; paramv = g_new0 (GValue, num_params + num_extra); n = 0; g_value_init (¶mv[n], TYPE_SENSOR_VALUE); g_value_set_object (¶mv[n++], skeleton); g_value_init (¶mv[n], G_TYPE_DBUS_METHOD_INVOCATION); g_value_set_object (¶mv[n++], invocation); if (info->pass_fdlist) { #ifdef G_OS_UNIX g_value_init (¶mv[n], G_TYPE_UNIX_FD_LIST); g_value_set_object (¶mv[n++], g_dbus_message_get_unix_fd_list (g_dbus_method_invocation_get_message (invocation))); #else g_assert_not_reached (); #endif } g_variant_iter_init (&iter, parameters); while ((child = g_variant_iter_next_value (&iter)) != NULL) { _ExtendedGDBusArgInfo *arg_info = (_ExtendedGDBusArgInfo *) info->parent_struct.in_args[n - num_extra]; if (arg_info->use_gvariant) { g_value_init (¶mv[n], G_TYPE_VARIANT); g_value_set_variant (¶mv[n], child); n++; } else g_dbus_gvariant_to_gvalue (child, ¶mv[n++]); g_variant_unref (child); } signal_id = g_signal_lookup (info->signal_name, TYPE_SENSOR_VALUE); g_value_init (&return_value, G_TYPE_BOOLEAN); g_signal_emitv (paramv, signal_id, 0, &return_value); if (!g_value_get_boolean (&return_value)) g_dbus_method_invocation_return_error (invocation, G_DBUS_ERROR, G_DBUS_ERROR_UNKNOWN_METHOD, "Method %s is not implemented on interface %s", method_name, interface_name); g_value_unset (&return_value); for (n = 0; n < num_params + num_extra; n++) g_value_unset (¶mv[n]); g_free (paramv); } static GVariant * _sensor_value_skeleton_handle_get_property ( GDBusConnection *connection G_GNUC_UNUSED, const gchar *sender G_GNUC_UNUSED, const gchar *object_path G_GNUC_UNUSED, const gchar *interface_name G_GNUC_UNUSED, const gchar *property_name, GError **error, gpointer user_data) { SensorValueSkeleton *skeleton = SENSOR_VALUE_SKELETON (user_data); GValue value = G_VALUE_INIT; GParamSpec *pspec; _ExtendedGDBusPropertyInfo *info; GVariant *ret; ret = NULL; info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_sensor_value_interface_info.parent_struct, property_name); g_assert (info != NULL); pspec = g_object_class_find_property (G_OBJECT_GET_CLASS (skeleton), info->hyphen_name); if (pspec == NULL) { g_set_error (error, G_DBUS_ERROR, G_DBUS_ERROR_INVALID_ARGS, "No property with name %s", property_name); } else { g_value_init (&value, pspec->value_type); g_object_get_property (G_OBJECT (skeleton), info->hyphen_name, &value); ret = g_dbus_gvalue_to_gvariant (&value, G_VARIANT_TYPE (info->parent_struct.signature)); g_value_unset (&value); } return ret; } static gboolean _sensor_value_skeleton_handle_set_property ( GDBusConnection *connection G_GNUC_UNUSED, const gchar *sender G_GNUC_UNUSED, const gchar *object_path G_GNUC_UNUSED, const gchar *interface_name G_GNUC_UNUSED, const gchar *property_name, GVariant *variant, GError **error, gpointer user_data) { SensorValueSkeleton *skeleton = SENSOR_VALUE_SKELETON (user_data); GValue value = G_VALUE_INIT; GParamSpec *pspec; _ExtendedGDBusPropertyInfo *info; gboolean ret; ret = FALSE; info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_sensor_value_interface_info.parent_struct, property_name); g_assert (info != NULL); pspec = g_object_class_find_property (G_OBJECT_GET_CLASS (skeleton), info->hyphen_name); if (pspec == NULL) { g_set_error (error, G_DBUS_ERROR, G_DBUS_ERROR_INVALID_ARGS, "No property with name %s", property_name); } else { if (info->use_gvariant) g_value_set_variant (&value, variant); else g_dbus_gvariant_to_gvalue (variant, &value); g_object_set_property (G_OBJECT (skeleton), info->hyphen_name, &value); g_value_unset (&value); ret = TRUE; } return ret; } static const GDBusInterfaceVTable _sensor_value_skeleton_vtable = { _sensor_value_skeleton_handle_method_call, _sensor_value_skeleton_handle_get_property, _sensor_value_skeleton_handle_set_property, {NULL} }; static GDBusInterfaceInfo * sensor_value_skeleton_dbus_interface_get_info (GDBusInterfaceSkeleton *skeleton G_GNUC_UNUSED) { return sensor_value_interface_info (); } static GDBusInterfaceVTable * sensor_value_skeleton_dbus_interface_get_vtable (GDBusInterfaceSkeleton *skeleton G_GNUC_UNUSED) { return (GDBusInterfaceVTable *) &_sensor_value_skeleton_vtable; } static GVariant * sensor_value_skeleton_dbus_interface_get_properties (GDBusInterfaceSkeleton *_skeleton) { SensorValueSkeleton *skeleton = SENSOR_VALUE_SKELETON (_skeleton); GVariantBuilder builder; guint n; g_variant_builder_init (&builder, G_VARIANT_TYPE ("a{sv}")); if (_sensor_value_interface_info.parent_struct.properties == NULL) goto out; for (n = 0; _sensor_value_interface_info.parent_struct.properties[n] != NULL; n++) { GDBusPropertyInfo *info = _sensor_value_interface_info.parent_struct.properties[n]; if (info->flags & G_DBUS_PROPERTY_INFO_FLAGS_READABLE) { GVariant *value; value = _sensor_value_skeleton_handle_get_property (g_dbus_interface_skeleton_get_connection (G_DBUS_INTERFACE_SKELETON (skeleton)), NULL, g_dbus_interface_skeleton_get_object_path (G_DBUS_INTERFACE_SKELETON (skeleton)), "org.openbmc.SensorValue", info->name, NULL, skeleton); if (value != NULL) { g_variant_take_ref (value); g_variant_builder_add (&builder, "{sv}", info->name, value); g_variant_unref (value); } } } out: return g_variant_builder_end (&builder); } static gboolean _sensor_value_emit_changed (gpointer user_data); static void sensor_value_skeleton_dbus_interface_flush (GDBusInterfaceSkeleton *_skeleton) { SensorValueSkeleton *skeleton = SENSOR_VALUE_SKELETON (_skeleton); gboolean emit_changed = FALSE; g_mutex_lock (&skeleton->priv->lock); if (skeleton->priv->changed_properties_idle_source != NULL) { g_source_destroy (skeleton->priv->changed_properties_idle_source); skeleton->priv->changed_properties_idle_source = NULL; emit_changed = TRUE; } g_mutex_unlock (&skeleton->priv->lock); if (emit_changed) _sensor_value_emit_changed (skeleton); } static void _sensor_value_on_signal_changed ( SensorValue *object, GVariant *arg_value, const gchar *arg_units) { SensorValueSkeleton *skeleton = SENSOR_VALUE_SKELETON (object); GList *connections, *l; GVariant *signal_variant; connections = g_dbus_interface_skeleton_get_connections (G_DBUS_INTERFACE_SKELETON (skeleton)); signal_variant = g_variant_ref_sink (g_variant_new ("(@vs)", arg_value, arg_units)); for (l = connections; l != NULL; l = l->next) { GDBusConnection *connection = l->data; g_dbus_connection_emit_signal (connection, NULL, g_dbus_interface_skeleton_get_object_path (G_DBUS_INTERFACE_SKELETON (skeleton)), "org.openbmc.SensorValue", "Changed", signal_variant, NULL); } g_variant_unref (signal_variant); g_list_free_full (connections, g_object_unref); } static void _sensor_value_on_signal_error ( SensorValue *object) { SensorValueSkeleton *skeleton = SENSOR_VALUE_SKELETON (object); GList *connections, *l; GVariant *signal_variant; connections = g_dbus_interface_skeleton_get_connections (G_DBUS_INTERFACE_SKELETON (skeleton)); signal_variant = g_variant_ref_sink (g_variant_new ("()")); for (l = connections; l != NULL; l = l->next) { GDBusConnection *connection = l->data; g_dbus_connection_emit_signal (connection, NULL, g_dbus_interface_skeleton_get_object_path (G_DBUS_INTERFACE_SKELETON (skeleton)), "org.openbmc.SensorValue", "Error", signal_variant, NULL); } g_variant_unref (signal_variant); g_list_free_full (connections, g_object_unref); } static void _sensor_value_on_signal_heartbeat ( SensorValue *object, const gchar *arg_bus_name) { SensorValueSkeleton *skeleton = SENSOR_VALUE_SKELETON (object); GList *connections, *l; GVariant *signal_variant; connections = g_dbus_interface_skeleton_get_connections (G_DBUS_INTERFACE_SKELETON (skeleton)); signal_variant = g_variant_ref_sink (g_variant_new ("(s)", arg_bus_name)); for (l = connections; l != NULL; l = l->next) { GDBusConnection *connection = l->data; g_dbus_connection_emit_signal (connection, NULL, g_dbus_interface_skeleton_get_object_path (G_DBUS_INTERFACE_SKELETON (skeleton)), "org.openbmc.SensorValue", "Heartbeat", signal_variant, NULL); } g_variant_unref (signal_variant); g_list_free_full (connections, g_object_unref); } static void sensor_value_skeleton_iface_init (SensorValueIface *iface); #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 G_DEFINE_TYPE_WITH_CODE (SensorValueSkeleton, sensor_value_skeleton, G_TYPE_DBUS_INTERFACE_SKELETON, G_ADD_PRIVATE (SensorValueSkeleton) G_IMPLEMENT_INTERFACE (TYPE_SENSOR_VALUE, sensor_value_skeleton_iface_init)); #else G_DEFINE_TYPE_WITH_CODE (SensorValueSkeleton, sensor_value_skeleton, G_TYPE_DBUS_INTERFACE_SKELETON, G_IMPLEMENT_INTERFACE (TYPE_SENSOR_VALUE, sensor_value_skeleton_iface_init)); #endif static void sensor_value_skeleton_finalize (GObject *object) { SensorValueSkeleton *skeleton = SENSOR_VALUE_SKELETON (object); guint n; for (n = 0; n < 5; n++) g_value_unset (&skeleton->priv->properties[n]); g_free (skeleton->priv->properties); g_list_free_full (skeleton->priv->changed_properties, (GDestroyNotify) _changed_property_free); if (skeleton->priv->changed_properties_idle_source != NULL) g_source_destroy (skeleton->priv->changed_properties_idle_source); g_main_context_unref (skeleton->priv->context); g_mutex_clear (&skeleton->priv->lock); G_OBJECT_CLASS (sensor_value_skeleton_parent_class)->finalize (object); } static void sensor_value_skeleton_get_property (GObject *object, guint prop_id, GValue *value, GParamSpec *pspec G_GNUC_UNUSED) { SensorValueSkeleton *skeleton = SENSOR_VALUE_SKELETON (object); g_assert (prop_id != 0 && prop_id - 1 < 5); g_mutex_lock (&skeleton->priv->lock); g_value_copy (&skeleton->priv->properties[prop_id - 1], value); g_mutex_unlock (&skeleton->priv->lock); } static gboolean _sensor_value_emit_changed (gpointer user_data) { SensorValueSkeleton *skeleton = SENSOR_VALUE_SKELETON (user_data); GList *l; GVariantBuilder builder; GVariantBuilder invalidated_builder; guint num_changes; g_mutex_lock (&skeleton->priv->lock); g_variant_builder_init (&builder, G_VARIANT_TYPE ("a{sv}")); g_variant_builder_init (&invalidated_builder, G_VARIANT_TYPE ("as")); for (l = skeleton->priv->changed_properties, num_changes = 0; l != NULL; l = l->next) { ChangedProperty *cp = l->data; GVariant *variant; const GValue *cur_value; cur_value = &skeleton->priv->properties[cp->prop_id - 1]; if (!_g_value_equal (cur_value, &cp->orig_value)) { variant = g_dbus_gvalue_to_gvariant (cur_value, G_VARIANT_TYPE (cp->info->parent_struct.signature)); g_variant_builder_add (&builder, "{sv}", cp->info->parent_struct.name, variant); g_variant_unref (variant); num_changes++; } } if (num_changes > 0) { GList *connections, *ll; GVariant *signal_variant; signal_variant = g_variant_ref_sink (g_variant_new ("(sa{sv}as)", "org.openbmc.SensorValue", &builder, &invalidated_builder)); connections = g_dbus_interface_skeleton_get_connections (G_DBUS_INTERFACE_SKELETON (skeleton)); for (ll = connections; ll != NULL; ll = ll->next) { GDBusConnection *connection = ll->data; g_dbus_connection_emit_signal (connection, NULL, g_dbus_interface_skeleton_get_object_path (G_DBUS_INTERFACE_SKELETON (skeleton)), "org.freedesktop.DBus.Properties", "PropertiesChanged", signal_variant, NULL); } g_variant_unref (signal_variant); g_list_free_full (connections, g_object_unref); } else { g_variant_builder_clear (&builder); g_variant_builder_clear (&invalidated_builder); } g_list_free_full (skeleton->priv->changed_properties, (GDestroyNotify) _changed_property_free); skeleton->priv->changed_properties = NULL; skeleton->priv->changed_properties_idle_source = NULL; g_mutex_unlock (&skeleton->priv->lock); return FALSE; } static void _sensor_value_schedule_emit_changed (SensorValueSkeleton *skeleton, const _ExtendedGDBusPropertyInfo *info, guint prop_id, const GValue *orig_value) { ChangedProperty *cp; GList *l; cp = NULL; for (l = skeleton->priv->changed_properties; l != NULL; l = l->next) { ChangedProperty *i_cp = l->data; if (i_cp->info == info) { cp = i_cp; break; } } if (cp == NULL) { cp = g_new0 (ChangedProperty, 1); cp->prop_id = prop_id; cp->info = info; skeleton->priv->changed_properties = g_list_prepend (skeleton->priv->changed_properties, cp); g_value_init (&cp->orig_value, G_VALUE_TYPE (orig_value)); g_value_copy (orig_value, &cp->orig_value); } } static void sensor_value_skeleton_notify (GObject *object, GParamSpec *pspec G_GNUC_UNUSED) { SensorValueSkeleton *skeleton = SENSOR_VALUE_SKELETON (object); g_mutex_lock (&skeleton->priv->lock); if (skeleton->priv->changed_properties != NULL && skeleton->priv->changed_properties_idle_source == NULL) { skeleton->priv->changed_properties_idle_source = g_idle_source_new (); g_source_set_priority (skeleton->priv->changed_properties_idle_source, G_PRIORITY_DEFAULT); g_source_set_callback (skeleton->priv->changed_properties_idle_source, _sensor_value_emit_changed, g_object_ref (skeleton), (GDestroyNotify) g_object_unref); g_source_set_name (skeleton->priv->changed_properties_idle_source, "[generated] _sensor_value_emit_changed"); g_source_attach (skeleton->priv->changed_properties_idle_source, skeleton->priv->context); g_source_unref (skeleton->priv->changed_properties_idle_source); } g_mutex_unlock (&skeleton->priv->lock); } static void sensor_value_skeleton_set_property (GObject *object, guint prop_id, const GValue *value, GParamSpec *pspec) { SensorValueSkeleton *skeleton = SENSOR_VALUE_SKELETON (object); g_assert (prop_id != 0 && prop_id - 1 < 5); g_mutex_lock (&skeleton->priv->lock); g_object_freeze_notify (object); if (!_g_value_equal (value, &skeleton->priv->properties[prop_id - 1])) { if (g_dbus_interface_skeleton_get_connection (G_DBUS_INTERFACE_SKELETON (skeleton)) != NULL) _sensor_value_schedule_emit_changed (skeleton, _sensor_value_property_info_pointers[prop_id - 1], prop_id, &skeleton->priv->properties[prop_id - 1]); g_value_copy (value, &skeleton->priv->properties[prop_id - 1]); g_object_notify_by_pspec (object, pspec); } g_mutex_unlock (&skeleton->priv->lock); g_object_thaw_notify (object); } static void sensor_value_skeleton_init (SensorValueSkeleton *skeleton) { #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 skeleton->priv = sensor_value_skeleton_get_instance_private (skeleton); #else skeleton->priv = G_TYPE_INSTANCE_GET_PRIVATE (skeleton, TYPE_SENSOR_VALUE_SKELETON, SensorValueSkeletonPrivate); #endif g_mutex_init (&skeleton->priv->lock); skeleton->priv->context = g_main_context_ref_thread_default (); skeleton->priv->properties = g_new0 (GValue, 5); g_value_init (&skeleton->priv->properties[0], G_TYPE_VARIANT); g_value_init (&skeleton->priv->properties[1], G_TYPE_STRING); g_value_init (&skeleton->priv->properties[2], G_TYPE_INT); g_value_init (&skeleton->priv->properties[3], G_TYPE_INT); g_value_init (&skeleton->priv->properties[4], G_TYPE_BOOLEAN); } static GVariant * sensor_value_skeleton_get_value (SensorValue *object) { SensorValueSkeleton *skeleton = SENSOR_VALUE_SKELETON (object); GVariant *value; g_mutex_lock (&skeleton->priv->lock); value = g_value_get_variant (&(skeleton->priv->properties[0])); g_mutex_unlock (&skeleton->priv->lock); return value; } static const gchar * sensor_value_skeleton_get_units (SensorValue *object) { SensorValueSkeleton *skeleton = SENSOR_VALUE_SKELETON (object); const gchar *value; g_mutex_lock (&skeleton->priv->lock); value = g_value_get_string (&(skeleton->priv->properties[1])); g_mutex_unlock (&skeleton->priv->lock); return value; } static gint sensor_value_skeleton_get_poll_interval (SensorValue *object) { SensorValueSkeleton *skeleton = SENSOR_VALUE_SKELETON (object); gint value; g_mutex_lock (&skeleton->priv->lock); value = g_value_get_int (&(skeleton->priv->properties[2])); g_mutex_unlock (&skeleton->priv->lock); return value; } static gint sensor_value_skeleton_get_heatbeat (SensorValue *object) { SensorValueSkeleton *skeleton = SENSOR_VALUE_SKELETON (object); gint value; g_mutex_lock (&skeleton->priv->lock); value = g_value_get_int (&(skeleton->priv->properties[3])); g_mutex_unlock (&skeleton->priv->lock); return value; } static gboolean sensor_value_skeleton_get_settable (SensorValue *object) { SensorValueSkeleton *skeleton = SENSOR_VALUE_SKELETON (object); gboolean value; g_mutex_lock (&skeleton->priv->lock); value = g_value_get_boolean (&(skeleton->priv->properties[4])); g_mutex_unlock (&skeleton->priv->lock); return value; } static void sensor_value_skeleton_class_init (SensorValueSkeletonClass *klass) { GObjectClass *gobject_class; GDBusInterfaceSkeletonClass *skeleton_class; gobject_class = G_OBJECT_CLASS (klass); gobject_class->finalize = sensor_value_skeleton_finalize; gobject_class->get_property = sensor_value_skeleton_get_property; gobject_class->set_property = sensor_value_skeleton_set_property; gobject_class->notify = sensor_value_skeleton_notify; sensor_value_override_properties (gobject_class, 1); skeleton_class = G_DBUS_INTERFACE_SKELETON_CLASS (klass); skeleton_class->get_info = sensor_value_skeleton_dbus_interface_get_info; skeleton_class->get_properties = sensor_value_skeleton_dbus_interface_get_properties; skeleton_class->flush = sensor_value_skeleton_dbus_interface_flush; skeleton_class->get_vtable = sensor_value_skeleton_dbus_interface_get_vtable; #if GLIB_VERSION_MAX_ALLOWED < GLIB_VERSION_2_38 g_type_class_add_private (klass, sizeof (SensorValueSkeletonPrivate)); #endif } static void sensor_value_skeleton_iface_init (SensorValueIface *iface) { iface->changed = _sensor_value_on_signal_changed; iface->error = _sensor_value_on_signal_error; iface->heartbeat = _sensor_value_on_signal_heartbeat; iface->get_value = sensor_value_skeleton_get_value; iface->get_units = sensor_value_skeleton_get_units; iface->get_poll_interval = sensor_value_skeleton_get_poll_interval; iface->get_heatbeat = sensor_value_skeleton_get_heatbeat; iface->get_settable = sensor_value_skeleton_get_settable; } /** * sensor_value_skeleton_new: * * Creates a skeleton object for the D-Bus interface org.openbmc.SensorValue. * * Returns: (transfer full) (type SensorValueSkeleton): The skeleton object. */ SensorValue * sensor_value_skeleton_new (void) { return SENSOR_VALUE (g_object_new (TYPE_SENSOR_VALUE_SKELETON, NULL)); } /* ------------------------------------------------------------------------ * Code for interface org.openbmc.SensorThreshold * ------------------------------------------------------------------------ */ /** * SECTION:SensorThreshold * @title: SensorThreshold * @short_description: Generated C code for the org.openbmc.SensorThreshold D-Bus interface * * This section contains code for working with the org.openbmc.SensorThreshold D-Bus interface in C. */ /* ---- Introspection data for org.openbmc.SensorThreshold ---- */ static const _ExtendedGDBusArgInfo _sensor_threshold_method_info_get_state_OUT_ARG_state = { { -1, (gchar *) "state", (gchar *) "y", NULL }, FALSE }; static const _ExtendedGDBusArgInfo * const _sensor_threshold_method_info_get_state_OUT_ARG_pointers[] = { &_sensor_threshold_method_info_get_state_OUT_ARG_state, NULL }; static const _ExtendedGDBusMethodInfo _sensor_threshold_method_info_get_state = { { -1, (gchar *) "getState", NULL, (GDBusArgInfo **) &_sensor_threshold_method_info_get_state_OUT_ARG_pointers, NULL }, "handle-get-state", FALSE }; static const _ExtendedGDBusMethodInfo * const _sensor_threshold_method_info_pointers[] = { &_sensor_threshold_method_info_get_state, NULL }; static const _ExtendedGDBusSignalInfo _sensor_threshold_signal_info_warning = { { -1, (gchar *) "Warning", NULL, NULL }, "warning" }; static const _ExtendedGDBusSignalInfo _sensor_threshold_signal_info_critical = { { -1, (gchar *) "Critical", NULL, NULL }, "critical" }; static const _ExtendedGDBusSignalInfo _sensor_threshold_signal_info_normal = { { -1, (gchar *) "Normal", NULL, NULL }, "normal" }; static const _ExtendedGDBusSignalInfo * const _sensor_threshold_signal_info_pointers[] = { &_sensor_threshold_signal_info_warning, &_sensor_threshold_signal_info_critical, &_sensor_threshold_signal_info_normal, NULL }; static const _ExtendedGDBusPropertyInfo _sensor_threshold_property_info_lower_critical = { { -1, (gchar *) "lower_critical", (gchar *) "v", G_DBUS_PROPERTY_INFO_FLAGS_READABLE | G_DBUS_PROPERTY_INFO_FLAGS_WRITABLE, NULL }, "lower-critical", FALSE }; static const _ExtendedGDBusPropertyInfo _sensor_threshold_property_info_lower_warning = { { -1, (gchar *) "lower_warning", (gchar *) "v", G_DBUS_PROPERTY_INFO_FLAGS_READABLE | G_DBUS_PROPERTY_INFO_FLAGS_WRITABLE, NULL }, "lower-warning", FALSE }; static const _ExtendedGDBusPropertyInfo _sensor_threshold_property_info_upper_warning = { { -1, (gchar *) "upper_warning", (gchar *) "v", G_DBUS_PROPERTY_INFO_FLAGS_READABLE | G_DBUS_PROPERTY_INFO_FLAGS_WRITABLE, NULL }, "upper-warning", FALSE }; static const _ExtendedGDBusPropertyInfo _sensor_threshold_property_info_upper_critical = { { -1, (gchar *) "upper_critical", (gchar *) "v", G_DBUS_PROPERTY_INFO_FLAGS_READABLE | G_DBUS_PROPERTY_INFO_FLAGS_WRITABLE, NULL }, "upper-critical", FALSE }; static const _ExtendedGDBusPropertyInfo _sensor_threshold_property_info_state = { { -1, (gchar *) "state", (gchar *) "y", G_DBUS_PROPERTY_INFO_FLAGS_READABLE, NULL }, "state", FALSE }; static const _ExtendedGDBusPropertyInfo * const _sensor_threshold_property_info_pointers[] = { &_sensor_threshold_property_info_lower_critical, &_sensor_threshold_property_info_lower_warning, &_sensor_threshold_property_info_upper_warning, &_sensor_threshold_property_info_upper_critical, &_sensor_threshold_property_info_state, NULL }; static const _ExtendedGDBusInterfaceInfo _sensor_threshold_interface_info = { { -1, (gchar *) "org.openbmc.SensorThreshold", (GDBusMethodInfo **) &_sensor_threshold_method_info_pointers, (GDBusSignalInfo **) &_sensor_threshold_signal_info_pointers, (GDBusPropertyInfo **) &_sensor_threshold_property_info_pointers, NULL }, "sensor-threshold", }; /** * sensor_threshold_interface_info: * * Gets a machine-readable description of the org.openbmc.SensorThreshold D-Bus interface. * * Returns: (transfer none): A #GDBusInterfaceInfo. Do not free. */ GDBusInterfaceInfo * sensor_threshold_interface_info (void) { return (GDBusInterfaceInfo *) &_sensor_threshold_interface_info.parent_struct; } /** * sensor_threshold_override_properties: * @klass: The class structure for a #GObject-derived class. * @property_id_begin: The property id to assign to the first overridden property. * * Overrides all #GObject properties in the #SensorThreshold interface for a concrete class. * The properties are overridden in the order they are defined. * * Returns: The last property id. */ guint sensor_threshold_override_properties (GObjectClass *klass, guint property_id_begin) { g_object_class_override_property (klass, property_id_begin++, "lower-critical"); g_object_class_override_property (klass, property_id_begin++, "lower-warning"); g_object_class_override_property (klass, property_id_begin++, "upper-warning"); g_object_class_override_property (klass, property_id_begin++, "upper-critical"); g_object_class_override_property (klass, property_id_begin++, "state"); return property_id_begin - 1; } /** * SensorThreshold: * * Abstract interface type for the D-Bus interface org.openbmc.SensorThreshold. */ /** * SensorThresholdIface: * @parent_iface: The parent interface. * @handle_get_state: Handler for the #SensorThreshold::handle-get-state signal. * @get_lower_critical: Getter for the #SensorThreshold:lower-critical property. * @get_lower_warning: Getter for the #SensorThreshold:lower-warning property. * @get_state: Getter for the #SensorThreshold:state property. * @get_upper_critical: Getter for the #SensorThreshold:upper-critical property. * @get_upper_warning: Getter for the #SensorThreshold:upper-warning property. * @critical: Handler for the #SensorThreshold::critical signal. * @normal: Handler for the #SensorThreshold::normal signal. * @warning: Handler for the #SensorThreshold::warning signal. * * Virtual table for the D-Bus interface org.openbmc.SensorThreshold. */ typedef SensorThresholdIface SensorThresholdInterface; G_DEFINE_INTERFACE (SensorThreshold, sensor_threshold, G_TYPE_OBJECT); static void sensor_threshold_default_init (SensorThresholdIface *iface) { /* GObject signals for incoming D-Bus method calls: */ /** * SensorThreshold::handle-get-state: * @object: A #SensorThreshold. * @invocation: A #GDBusMethodInvocation. * * Signal emitted when a remote caller is invoking the getState() D-Bus method. * * If a signal handler returns %TRUE, it means the signal handler will handle the invocation (e.g. take a reference to @invocation and eventually call sensor_threshold_complete_get_state() or e.g. g_dbus_method_invocation_return_error() on it) and no order signal handlers will run. If no signal handler handles the invocation, the %G_DBUS_ERROR_UNKNOWN_METHOD error is returned. * * Returns: %TRUE if the invocation was handled, %FALSE to let other signal handlers run. */ g_signal_new ("handle-get-state", G_TYPE_FROM_INTERFACE (iface), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (SensorThresholdIface, handle_get_state), g_signal_accumulator_true_handled, NULL, g_cclosure_marshal_generic, G_TYPE_BOOLEAN, 1, G_TYPE_DBUS_METHOD_INVOCATION); /* GObject signals for received D-Bus signals: */ /** * SensorThreshold::warning: * @object: A #SensorThreshold. * * On the client-side, this signal is emitted whenever the D-Bus signal "Warning" is received. * * On the service-side, this signal can be used with e.g. g_signal_emit_by_name() to make the object emit the D-Bus signal. */ g_signal_new ("warning", G_TYPE_FROM_INTERFACE (iface), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (SensorThresholdIface, warning), NULL, NULL, g_cclosure_marshal_generic, G_TYPE_NONE, 0); /** * SensorThreshold::critical: * @object: A #SensorThreshold. * * On the client-side, this signal is emitted whenever the D-Bus signal "Critical" is received. * * On the service-side, this signal can be used with e.g. g_signal_emit_by_name() to make the object emit the D-Bus signal. */ g_signal_new ("critical", G_TYPE_FROM_INTERFACE (iface), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (SensorThresholdIface, critical), NULL, NULL, g_cclosure_marshal_generic, G_TYPE_NONE, 0); /** * SensorThreshold::normal: * @object: A #SensorThreshold. * * On the client-side, this signal is emitted whenever the D-Bus signal "Normal" is received. * * On the service-side, this signal can be used with e.g. g_signal_emit_by_name() to make the object emit the D-Bus signal. */ g_signal_new ("normal", G_TYPE_FROM_INTERFACE (iface), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (SensorThresholdIface, normal), NULL, NULL, g_cclosure_marshal_generic, G_TYPE_NONE, 0); /* GObject properties for D-Bus properties: */ /** * SensorThreshold:lower-critical: * * Represents the D-Bus property "lower_critical". * * Since the D-Bus property for this #GObject property is both readable and writable, it is meaningful to both read from it and write to it on both the service- and client-side. */ g_object_interface_install_property (iface, g_param_spec_variant ("lower-critical", "lower_critical", "lower_critical", G_VARIANT_TYPE ("v"), NULL, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS)); /** * SensorThreshold:lower-warning: * * Represents the D-Bus property "lower_warning". * * Since the D-Bus property for this #GObject property is both readable and writable, it is meaningful to both read from it and write to it on both the service- and client-side. */ g_object_interface_install_property (iface, g_param_spec_variant ("lower-warning", "lower_warning", "lower_warning", G_VARIANT_TYPE ("v"), NULL, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS)); /** * SensorThreshold:upper-warning: * * Represents the D-Bus property "upper_warning". * * Since the D-Bus property for this #GObject property is both readable and writable, it is meaningful to both read from it and write to it on both the service- and client-side. */ g_object_interface_install_property (iface, g_param_spec_variant ("upper-warning", "upper_warning", "upper_warning", G_VARIANT_TYPE ("v"), NULL, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS)); /** * SensorThreshold:upper-critical: * * Represents the D-Bus property "upper_critical". * * Since the D-Bus property for this #GObject property is both readable and writable, it is meaningful to both read from it and write to it on both the service- and client-side. */ g_object_interface_install_property (iface, g_param_spec_variant ("upper-critical", "upper_critical", "upper_critical", G_VARIANT_TYPE ("v"), NULL, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS)); /** * SensorThreshold:state: * * Represents the D-Bus property "state". * * Since the D-Bus property for this #GObject property is readable but not writable, it is meaningful to read from it on both the client- and service-side. It is only meaningful, however, to write to it on the service-side. */ g_object_interface_install_property (iface, g_param_spec_uchar ("state", "state", "state", 0, 255, 0, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS)); } /** * sensor_threshold_get_lower_critical: (skip) * @object: A #SensorThreshold. * * Gets the value of the "lower_critical" D-Bus property. * * Since this D-Bus property is both readable and writable, it is meaningful to use this function on both the client- and service-side. * * The returned value is only valid until the property changes so on the client-side it is only safe to use this function on the thread where @object was constructed. Use sensor_threshold_dup_lower_critical() if on another thread. * * Returns: (transfer none): The property value or %NULL if the property is not set. Do not free the returned value, it belongs to @object. */ GVariant * sensor_threshold_get_lower_critical (SensorThreshold *object) { return SENSOR_THRESHOLD_GET_IFACE (object)->get_lower_critical (object); } /** * sensor_threshold_dup_lower_critical: (skip) * @object: A #SensorThreshold. * * Gets a copy of the "lower_critical" D-Bus property. * * Since this D-Bus property is both readable and writable, it is meaningful to use this function on both the client- and service-side. * * Returns: (transfer full): The property value or %NULL if the property is not set. The returned value should be freed with g_variant_unref(). */ GVariant * sensor_threshold_dup_lower_critical (SensorThreshold *object) { GVariant *value; g_object_get (G_OBJECT (object), "lower-critical", &value, NULL); return value; } /** * sensor_threshold_set_lower_critical: (skip) * @object: A #SensorThreshold. * @value: The value to set. * * Sets the "lower_critical" D-Bus property to @value. * * Since this D-Bus property is both readable and writable, it is meaningful to use this function on both the client- and service-side. */ void sensor_threshold_set_lower_critical (SensorThreshold *object, GVariant *value) { g_object_set (G_OBJECT (object), "lower-critical", value, NULL); } /** * sensor_threshold_get_lower_warning: (skip) * @object: A #SensorThreshold. * * Gets the value of the "lower_warning" D-Bus property. * * Since this D-Bus property is both readable and writable, it is meaningful to use this function on both the client- and service-side. * * The returned value is only valid until the property changes so on the client-side it is only safe to use this function on the thread where @object was constructed. Use sensor_threshold_dup_lower_warning() if on another thread. * * Returns: (transfer none): The property value or %NULL if the property is not set. Do not free the returned value, it belongs to @object. */ GVariant * sensor_threshold_get_lower_warning (SensorThreshold *object) { return SENSOR_THRESHOLD_GET_IFACE (object)->get_lower_warning (object); } /** * sensor_threshold_dup_lower_warning: (skip) * @object: A #SensorThreshold. * * Gets a copy of the "lower_warning" D-Bus property. * * Since this D-Bus property is both readable and writable, it is meaningful to use this function on both the client- and service-side. * * Returns: (transfer full): The property value or %NULL if the property is not set. The returned value should be freed with g_variant_unref(). */ GVariant * sensor_threshold_dup_lower_warning (SensorThreshold *object) { GVariant *value; g_object_get (G_OBJECT (object), "lower-warning", &value, NULL); return value; } /** * sensor_threshold_set_lower_warning: (skip) * @object: A #SensorThreshold. * @value: The value to set. * * Sets the "lower_warning" D-Bus property to @value. * * Since this D-Bus property is both readable and writable, it is meaningful to use this function on both the client- and service-side. */ void sensor_threshold_set_lower_warning (SensorThreshold *object, GVariant *value) { g_object_set (G_OBJECT (object), "lower-warning", value, NULL); } /** * sensor_threshold_get_upper_warning: (skip) * @object: A #SensorThreshold. * * Gets the value of the "upper_warning" D-Bus property. * * Since this D-Bus property is both readable and writable, it is meaningful to use this function on both the client- and service-side. * * The returned value is only valid until the property changes so on the client-side it is only safe to use this function on the thread where @object was constructed. Use sensor_threshold_dup_upper_warning() if on another thread. * * Returns: (transfer none): The property value or %NULL if the property is not set. Do not free the returned value, it belongs to @object. */ GVariant * sensor_threshold_get_upper_warning (SensorThreshold *object) { return SENSOR_THRESHOLD_GET_IFACE (object)->get_upper_warning (object); } /** * sensor_threshold_dup_upper_warning: (skip) * @object: A #SensorThreshold. * * Gets a copy of the "upper_warning" D-Bus property. * * Since this D-Bus property is both readable and writable, it is meaningful to use this function on both the client- and service-side. * * Returns: (transfer full): The property value or %NULL if the property is not set. The returned value should be freed with g_variant_unref(). */ GVariant * sensor_threshold_dup_upper_warning (SensorThreshold *object) { GVariant *value; g_object_get (G_OBJECT (object), "upper-warning", &value, NULL); return value; } /** * sensor_threshold_set_upper_warning: (skip) * @object: A #SensorThreshold. * @value: The value to set. * * Sets the "upper_warning" D-Bus property to @value. * * Since this D-Bus property is both readable and writable, it is meaningful to use this function on both the client- and service-side. */ void sensor_threshold_set_upper_warning (SensorThreshold *object, GVariant *value) { g_object_set (G_OBJECT (object), "upper-warning", value, NULL); } /** * sensor_threshold_get_upper_critical: (skip) * @object: A #SensorThreshold. * * Gets the value of the "upper_critical" D-Bus property. * * Since this D-Bus property is both readable and writable, it is meaningful to use this function on both the client- and service-side. * * The returned value is only valid until the property changes so on the client-side it is only safe to use this function on the thread where @object was constructed. Use sensor_threshold_dup_upper_critical() if on another thread. * * Returns: (transfer none): The property value or %NULL if the property is not set. Do not free the returned value, it belongs to @object. */ GVariant * sensor_threshold_get_upper_critical (SensorThreshold *object) { return SENSOR_THRESHOLD_GET_IFACE (object)->get_upper_critical (object); } /** * sensor_threshold_dup_upper_critical: (skip) * @object: A #SensorThreshold. * * Gets a copy of the "upper_critical" D-Bus property. * * Since this D-Bus property is both readable and writable, it is meaningful to use this function on both the client- and service-side. * * Returns: (transfer full): The property value or %NULL if the property is not set. The returned value should be freed with g_variant_unref(). */ GVariant * sensor_threshold_dup_upper_critical (SensorThreshold *object) { GVariant *value; g_object_get (G_OBJECT (object), "upper-critical", &value, NULL); return value; } /** * sensor_threshold_set_upper_critical: (skip) * @object: A #SensorThreshold. * @value: The value to set. * * Sets the "upper_critical" D-Bus property to @value. * * Since this D-Bus property is both readable and writable, it is meaningful to use this function on both the client- and service-side. */ void sensor_threshold_set_upper_critical (SensorThreshold *object, GVariant *value) { g_object_set (G_OBJECT (object), "upper-critical", value, NULL); } /** * sensor_threshold_get_state: (skip) * @object: A #SensorThreshold. * * Gets the value of the "state" D-Bus property. * * Since this D-Bus property is readable, it is meaningful to use this function on both the client- and service-side. * * Returns: The property value. */ guchar sensor_threshold_get_state (SensorThreshold *object) { return SENSOR_THRESHOLD_GET_IFACE (object)->get_state (object); } /** * sensor_threshold_set_state: (skip) * @object: A #SensorThreshold. * @value: The value to set. * * Sets the "state" D-Bus property to @value. * * Since this D-Bus property is not writable, it is only meaningful to use this function on the service-side. */ void sensor_threshold_set_state (SensorThreshold *object, guchar value) { g_object_set (G_OBJECT (object), "state", value, NULL); } /** * sensor_threshold_emit_warning: * @object: A #SensorThreshold. * * Emits the "Warning" D-Bus signal. */ void sensor_threshold_emit_warning ( SensorThreshold *object) { g_signal_emit_by_name (object, "warning"); } /** * sensor_threshold_emit_critical: * @object: A #SensorThreshold. * * Emits the "Critical" D-Bus signal. */ void sensor_threshold_emit_critical ( SensorThreshold *object) { g_signal_emit_by_name (object, "critical"); } /** * sensor_threshold_emit_normal: * @object: A #SensorThreshold. * * Emits the "Normal" D-Bus signal. */ void sensor_threshold_emit_normal ( SensorThreshold *object) { g_signal_emit_by_name (object, "normal"); } /** * sensor_threshold_call_get_state: * @proxy: A #SensorThresholdProxy. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied or %NULL. * @user_data: User data to pass to @callback. * * Asynchronously invokes the getState() D-Bus method on @proxy. * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call sensor_threshold_call_get_state_finish() to get the result of the operation. * * See sensor_threshold_call_get_state_sync() for the synchronous, blocking version of this method. */ void sensor_threshold_call_get_state ( SensorThreshold *proxy, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_dbus_proxy_call (G_DBUS_PROXY (proxy), "getState", g_variant_new ("()"), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, callback, user_data); } /** * sensor_threshold_call_get_state_finish: * @proxy: A #SensorThresholdProxy. * @out_state: (out): Return location for return parameter or %NULL to ignore. * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to sensor_threshold_call_get_state(). * @error: Return location for error or %NULL. * * Finishes an operation started with sensor_threshold_call_get_state(). * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean sensor_threshold_call_get_state_finish ( SensorThreshold *proxy, guchar *out_state, GAsyncResult *res, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_finish (G_DBUS_PROXY (proxy), res, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "(y)", out_state); g_variant_unref (_ret); _out: return _ret != NULL; } /** * sensor_threshold_call_get_state_sync: * @proxy: A #SensorThresholdProxy. * @out_state: (out): Return location for return parameter or %NULL to ignore. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL. * * Synchronously invokes the getState() D-Bus method on @proxy. The calling thread is blocked until a reply is received. * * See sensor_threshold_call_get_state() for the asynchronous version of this method. * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean sensor_threshold_call_get_state_sync ( SensorThreshold *proxy, guchar *out_state, GCancellable *cancellable, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_sync (G_DBUS_PROXY (proxy), "getState", g_variant_new ("()"), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "(y)", out_state); g_variant_unref (_ret); _out: return _ret != NULL; } /** * sensor_threshold_complete_get_state: * @object: A #SensorThreshold. * @invocation: (transfer full): A #GDBusMethodInvocation. * @state: Parameter to return. * * Helper function used in service implementations to finish handling invocations of the getState() D-Bus method. If you instead want to finish handling an invocation by returning an error, use g_dbus_method_invocation_return_error() or similar. * * This method will free @invocation, you cannot use it afterwards. */ void sensor_threshold_complete_get_state ( SensorThreshold *object, GDBusMethodInvocation *invocation, guchar state) { g_dbus_method_invocation_return_value (invocation, g_variant_new ("(y)", state)); } /* ------------------------------------------------------------------------ */ /** * SensorThresholdProxy: * * The #SensorThresholdProxy structure contains only private data and should only be accessed using the provided API. */ /** * SensorThresholdProxyClass: * @parent_class: The parent class. * * Class structure for #SensorThresholdProxy. */ struct _SensorThresholdProxyPrivate { GData *qdata; }; static void sensor_threshold_proxy_iface_init (SensorThresholdIface *iface); #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 G_DEFINE_TYPE_WITH_CODE (SensorThresholdProxy, sensor_threshold_proxy, G_TYPE_DBUS_PROXY, G_ADD_PRIVATE (SensorThresholdProxy) G_IMPLEMENT_INTERFACE (TYPE_SENSOR_THRESHOLD, sensor_threshold_proxy_iface_init)); #else G_DEFINE_TYPE_WITH_CODE (SensorThresholdProxy, sensor_threshold_proxy, G_TYPE_DBUS_PROXY, G_IMPLEMENT_INTERFACE (TYPE_SENSOR_THRESHOLD, sensor_threshold_proxy_iface_init)); #endif static void sensor_threshold_proxy_finalize (GObject *object) { SensorThresholdProxy *proxy = SENSOR_THRESHOLD_PROXY (object); g_datalist_clear (&proxy->priv->qdata); G_OBJECT_CLASS (sensor_threshold_proxy_parent_class)->finalize (object); } static void sensor_threshold_proxy_get_property (GObject *object, guint prop_id, GValue *value, GParamSpec *pspec G_GNUC_UNUSED) { const _ExtendedGDBusPropertyInfo *info; GVariant *variant; g_assert (prop_id != 0 && prop_id - 1 < 5); info = _sensor_threshold_property_info_pointers[prop_id - 1]; variant = g_dbus_proxy_get_cached_property (G_DBUS_PROXY (object), info->parent_struct.name); if (info->use_gvariant) { g_value_set_variant (value, variant); } else { if (variant != NULL) g_dbus_gvariant_to_gvalue (variant, value); } if (variant != NULL) g_variant_unref (variant); } static void sensor_threshold_proxy_set_property_cb (GDBusProxy *proxy, GAsyncResult *res, gpointer user_data) { const _ExtendedGDBusPropertyInfo *info = user_data; GError *error; GVariant *_ret; error = NULL; _ret = g_dbus_proxy_call_finish (proxy, res, &error); if (!_ret) { g_warning ("Error setting property '%s' on interface org.openbmc.SensorThreshold: %s (%s, %d)", info->parent_struct.name, error->message, g_quark_to_string (error->domain), error->code); g_error_free (error); } else { g_variant_unref (_ret); } } static void sensor_threshold_proxy_set_property (GObject *object, guint prop_id, const GValue *value, GParamSpec *pspec G_GNUC_UNUSED) { const _ExtendedGDBusPropertyInfo *info; GVariant *variant; g_assert (prop_id != 0 && prop_id - 1 < 5); info = _sensor_threshold_property_info_pointers[prop_id - 1]; variant = g_dbus_gvalue_to_gvariant (value, G_VARIANT_TYPE (info->parent_struct.signature)); g_dbus_proxy_call (G_DBUS_PROXY (object), "org.freedesktop.DBus.Properties.Set", g_variant_new ("(ssv)", "org.openbmc.SensorThreshold", info->parent_struct.name, variant), G_DBUS_CALL_FLAGS_NONE, -1, NULL, (GAsyncReadyCallback) sensor_threshold_proxy_set_property_cb, (GDBusPropertyInfo *) &info->parent_struct); g_variant_unref (variant); } static void sensor_threshold_proxy_g_signal (GDBusProxy *proxy, const gchar *sender_name G_GNUC_UNUSED, const gchar *signal_name, GVariant *parameters) { _ExtendedGDBusSignalInfo *info; GVariantIter iter; GVariant *child; GValue *paramv; guint num_params; guint n; guint signal_id; info = (_ExtendedGDBusSignalInfo *) g_dbus_interface_info_lookup_signal ((GDBusInterfaceInfo *) &_sensor_threshold_interface_info.parent_struct, signal_name); if (info == NULL) return; num_params = g_variant_n_children (parameters); paramv = g_new0 (GValue, num_params + 1); g_value_init (¶mv[0], TYPE_SENSOR_THRESHOLD); g_value_set_object (¶mv[0], proxy); g_variant_iter_init (&iter, parameters); n = 1; while ((child = g_variant_iter_next_value (&iter)) != NULL) { _ExtendedGDBusArgInfo *arg_info = (_ExtendedGDBusArgInfo *) info->parent_struct.args[n - 1]; if (arg_info->use_gvariant) { g_value_init (¶mv[n], G_TYPE_VARIANT); g_value_set_variant (¶mv[n], child); n++; } else g_dbus_gvariant_to_gvalue (child, ¶mv[n++]); g_variant_unref (child); } signal_id = g_signal_lookup (info->signal_name, TYPE_SENSOR_THRESHOLD); g_signal_emitv (paramv, signal_id, 0, NULL); for (n = 0; n < num_params + 1; n++) g_value_unset (¶mv[n]); g_free (paramv); } static void sensor_threshold_proxy_g_properties_changed (GDBusProxy *_proxy, GVariant *changed_properties, const gchar *const *invalidated_properties) { SensorThresholdProxy *proxy = SENSOR_THRESHOLD_PROXY (_proxy); guint n; const gchar *key; GVariantIter *iter; _ExtendedGDBusPropertyInfo *info; g_variant_get (changed_properties, "a{sv}", &iter); while (g_variant_iter_next (iter, "{&sv}", &key, NULL)) { info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_sensor_threshold_interface_info.parent_struct, key); g_datalist_remove_data (&proxy->priv->qdata, key); if (info != NULL) g_object_notify (G_OBJECT (proxy), info->hyphen_name); } g_variant_iter_free (iter); for (n = 0; invalidated_properties[n] != NULL; n++) { info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_sensor_threshold_interface_info.parent_struct, invalidated_properties[n]); g_datalist_remove_data (&proxy->priv->qdata, invalidated_properties[n]); if (info != NULL) g_object_notify (G_OBJECT (proxy), info->hyphen_name); } } static GVariant * sensor_threshold_proxy_get_lower_critical (SensorThreshold *object) { SensorThresholdProxy *proxy = SENSOR_THRESHOLD_PROXY (object); GVariant *variant; GVariant *value = NULL; variant = g_dbus_proxy_get_cached_property (G_DBUS_PROXY (proxy), "lower_critical"); value = variant; if (variant != NULL) g_variant_unref (variant); return value; } static GVariant * sensor_threshold_proxy_get_lower_warning (SensorThreshold *object) { SensorThresholdProxy *proxy = SENSOR_THRESHOLD_PROXY (object); GVariant *variant; GVariant *value = NULL; variant = g_dbus_proxy_get_cached_property (G_DBUS_PROXY (proxy), "lower_warning"); value = variant; if (variant != NULL) g_variant_unref (variant); return value; } static GVariant * sensor_threshold_proxy_get_upper_warning (SensorThreshold *object) { SensorThresholdProxy *proxy = SENSOR_THRESHOLD_PROXY (object); GVariant *variant; GVariant *value = NULL; variant = g_dbus_proxy_get_cached_property (G_DBUS_PROXY (proxy), "upper_warning"); value = variant; if (variant != NULL) g_variant_unref (variant); return value; } static GVariant * sensor_threshold_proxy_get_upper_critical (SensorThreshold *object) { SensorThresholdProxy *proxy = SENSOR_THRESHOLD_PROXY (object); GVariant *variant; GVariant *value = NULL; variant = g_dbus_proxy_get_cached_property (G_DBUS_PROXY (proxy), "upper_critical"); value = variant; if (variant != NULL) g_variant_unref (variant); return value; } static guchar sensor_threshold_proxy_get_state (SensorThreshold *object) { SensorThresholdProxy *proxy = SENSOR_THRESHOLD_PROXY (object); GVariant *variant; guchar value = 0; variant = g_dbus_proxy_get_cached_property (G_DBUS_PROXY (proxy), "state"); if (variant != NULL) { value = g_variant_get_byte (variant); g_variant_unref (variant); } return value; } static void sensor_threshold_proxy_init (SensorThresholdProxy *proxy) { #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 proxy->priv = sensor_threshold_proxy_get_instance_private (proxy); #else proxy->priv = G_TYPE_INSTANCE_GET_PRIVATE (proxy, TYPE_SENSOR_THRESHOLD_PROXY, SensorThresholdProxyPrivate); #endif g_dbus_proxy_set_interface_info (G_DBUS_PROXY (proxy), sensor_threshold_interface_info ()); } static void sensor_threshold_proxy_class_init (SensorThresholdProxyClass *klass) { GObjectClass *gobject_class; GDBusProxyClass *proxy_class; gobject_class = G_OBJECT_CLASS (klass); gobject_class->finalize = sensor_threshold_proxy_finalize; gobject_class->get_property = sensor_threshold_proxy_get_property; gobject_class->set_property = sensor_threshold_proxy_set_property; proxy_class = G_DBUS_PROXY_CLASS (klass); proxy_class->g_signal = sensor_threshold_proxy_g_signal; proxy_class->g_properties_changed = sensor_threshold_proxy_g_properties_changed; sensor_threshold_override_properties (gobject_class, 1); #if GLIB_VERSION_MAX_ALLOWED < GLIB_VERSION_2_38 g_type_class_add_private (klass, sizeof (SensorThresholdProxyPrivate)); #endif } static void sensor_threshold_proxy_iface_init (SensorThresholdIface *iface) { iface->get_lower_critical = sensor_threshold_proxy_get_lower_critical; iface->get_lower_warning = sensor_threshold_proxy_get_lower_warning; iface->get_upper_warning = sensor_threshold_proxy_get_upper_warning; iface->get_upper_critical = sensor_threshold_proxy_get_upper_critical; iface->get_state = sensor_threshold_proxy_get_state; } /** * sensor_threshold_proxy_new: * @connection: A #GDBusConnection. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: (allow-none): A bus name (well-known or unique) or %NULL if @connection is not a message bus connection. * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied. * @user_data: User data to pass to @callback. * * Asynchronously creates a proxy for the D-Bus interface org.openbmc.SensorThreshold. See g_dbus_proxy_new() for more details. * * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call sensor_threshold_proxy_new_finish() to get the result of the operation. * * See sensor_threshold_proxy_new_sync() for the synchronous, blocking version of this constructor. */ void sensor_threshold_proxy_new ( GDBusConnection *connection, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_async_initable_new_async (TYPE_SENSOR_THRESHOLD_PROXY, G_PRIORITY_DEFAULT, cancellable, callback, user_data, "g-flags", flags, "g-name", name, "g-connection", connection, "g-object-path", object_path, "g-interface-name", "org.openbmc.SensorThreshold", NULL); } /** * sensor_threshold_proxy_new_finish: * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to sensor_threshold_proxy_new(). * @error: Return location for error or %NULL * * Finishes an operation started with sensor_threshold_proxy_new(). * * Returns: (transfer full) (type SensorThresholdProxy): The constructed proxy object or %NULL if @error is set. */ SensorThreshold * sensor_threshold_proxy_new_finish ( GAsyncResult *res, GError **error) { GObject *ret; GObject *source_object; source_object = g_async_result_get_source_object (res); ret = g_async_initable_new_finish (G_ASYNC_INITABLE (source_object), res, error); g_object_unref (source_object); if (ret != NULL) return SENSOR_THRESHOLD (ret); else return NULL; } /** * sensor_threshold_proxy_new_sync: * @connection: A #GDBusConnection. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: (allow-none): A bus name (well-known or unique) or %NULL if @connection is not a message bus connection. * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL * * Synchronously creates a proxy for the D-Bus interface org.openbmc.SensorThreshold. See g_dbus_proxy_new_sync() for more details. * * The calling thread is blocked until a reply is received. * * See sensor_threshold_proxy_new() for the asynchronous version of this constructor. * * Returns: (transfer full) (type SensorThresholdProxy): The constructed proxy object or %NULL if @error is set. */ SensorThreshold * sensor_threshold_proxy_new_sync ( GDBusConnection *connection, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GError **error) { GInitable *ret; ret = g_initable_new (TYPE_SENSOR_THRESHOLD_PROXY, cancellable, error, "g-flags", flags, "g-name", name, "g-connection", connection, "g-object-path", object_path, "g-interface-name", "org.openbmc.SensorThreshold", NULL); if (ret != NULL) return SENSOR_THRESHOLD (ret); else return NULL; } /** * sensor_threshold_proxy_new_for_bus: * @bus_type: A #GBusType. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: A bus name (well-known or unique). * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied. * @user_data: User data to pass to @callback. * * Like sensor_threshold_proxy_new() but takes a #GBusType instead of a #GDBusConnection. * * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call sensor_threshold_proxy_new_for_bus_finish() to get the result of the operation. * * See sensor_threshold_proxy_new_for_bus_sync() for the synchronous, blocking version of this constructor. */ void sensor_threshold_proxy_new_for_bus ( GBusType bus_type, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_async_initable_new_async (TYPE_SENSOR_THRESHOLD_PROXY, G_PRIORITY_DEFAULT, cancellable, callback, user_data, "g-flags", flags, "g-name", name, "g-bus-type", bus_type, "g-object-path", object_path, "g-interface-name", "org.openbmc.SensorThreshold", NULL); } /** * sensor_threshold_proxy_new_for_bus_finish: * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to sensor_threshold_proxy_new_for_bus(). * @error: Return location for error or %NULL * * Finishes an operation started with sensor_threshold_proxy_new_for_bus(). * * Returns: (transfer full) (type SensorThresholdProxy): The constructed proxy object or %NULL if @error is set. */ SensorThreshold * sensor_threshold_proxy_new_for_bus_finish ( GAsyncResult *res, GError **error) { GObject *ret; GObject *source_object; source_object = g_async_result_get_source_object (res); ret = g_async_initable_new_finish (G_ASYNC_INITABLE (source_object), res, error); g_object_unref (source_object); if (ret != NULL) return SENSOR_THRESHOLD (ret); else return NULL; } /** * sensor_threshold_proxy_new_for_bus_sync: * @bus_type: A #GBusType. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: A bus name (well-known or unique). * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL * * Like sensor_threshold_proxy_new_sync() but takes a #GBusType instead of a #GDBusConnection. * * The calling thread is blocked until a reply is received. * * See sensor_threshold_proxy_new_for_bus() for the asynchronous version of this constructor. * * Returns: (transfer full) (type SensorThresholdProxy): The constructed proxy object or %NULL if @error is set. */ SensorThreshold * sensor_threshold_proxy_new_for_bus_sync ( GBusType bus_type, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GError **error) { GInitable *ret; ret = g_initable_new (TYPE_SENSOR_THRESHOLD_PROXY, cancellable, error, "g-flags", flags, "g-name", name, "g-bus-type", bus_type, "g-object-path", object_path, "g-interface-name", "org.openbmc.SensorThreshold", NULL); if (ret != NULL) return SENSOR_THRESHOLD (ret); else return NULL; } /* ------------------------------------------------------------------------ */ /** * SensorThresholdSkeleton: * * The #SensorThresholdSkeleton structure contains only private data and should only be accessed using the provided API. */ /** * SensorThresholdSkeletonClass: * @parent_class: The parent class. * * Class structure for #SensorThresholdSkeleton. */ struct _SensorThresholdSkeletonPrivate { GValue *properties; GList *changed_properties; GSource *changed_properties_idle_source; GMainContext *context; GMutex lock; }; static void _sensor_threshold_skeleton_handle_method_call ( GDBusConnection *connection G_GNUC_UNUSED, const gchar *sender G_GNUC_UNUSED, const gchar *object_path G_GNUC_UNUSED, const gchar *interface_name, const gchar *method_name, GVariant *parameters, GDBusMethodInvocation *invocation, gpointer user_data) { SensorThresholdSkeleton *skeleton = SENSOR_THRESHOLD_SKELETON (user_data); _ExtendedGDBusMethodInfo *info; GVariantIter iter; GVariant *child; GValue *paramv; guint num_params; guint num_extra; guint n; guint signal_id; GValue return_value = G_VALUE_INIT; info = (_ExtendedGDBusMethodInfo *) g_dbus_method_invocation_get_method_info (invocation); g_assert (info != NULL); num_params = g_variant_n_children (parameters); num_extra = info->pass_fdlist ? 3 : 2; paramv = g_new0 (GValue, num_params + num_extra); n = 0; g_value_init (¶mv[n], TYPE_SENSOR_THRESHOLD); g_value_set_object (¶mv[n++], skeleton); g_value_init (¶mv[n], G_TYPE_DBUS_METHOD_INVOCATION); g_value_set_object (¶mv[n++], invocation); if (info->pass_fdlist) { #ifdef G_OS_UNIX g_value_init (¶mv[n], G_TYPE_UNIX_FD_LIST); g_value_set_object (¶mv[n++], g_dbus_message_get_unix_fd_list (g_dbus_method_invocation_get_message (invocation))); #else g_assert_not_reached (); #endif } g_variant_iter_init (&iter, parameters); while ((child = g_variant_iter_next_value (&iter)) != NULL) { _ExtendedGDBusArgInfo *arg_info = (_ExtendedGDBusArgInfo *) info->parent_struct.in_args[n - num_extra]; if (arg_info->use_gvariant) { g_value_init (¶mv[n], G_TYPE_VARIANT); g_value_set_variant (¶mv[n], child); n++; } else g_dbus_gvariant_to_gvalue (child, ¶mv[n++]); g_variant_unref (child); } signal_id = g_signal_lookup (info->signal_name, TYPE_SENSOR_THRESHOLD); g_value_init (&return_value, G_TYPE_BOOLEAN); g_signal_emitv (paramv, signal_id, 0, &return_value); if (!g_value_get_boolean (&return_value)) g_dbus_method_invocation_return_error (invocation, G_DBUS_ERROR, G_DBUS_ERROR_UNKNOWN_METHOD, "Method %s is not implemented on interface %s", method_name, interface_name); g_value_unset (&return_value); for (n = 0; n < num_params + num_extra; n++) g_value_unset (¶mv[n]); g_free (paramv); } static GVariant * _sensor_threshold_skeleton_handle_get_property ( GDBusConnection *connection G_GNUC_UNUSED, const gchar *sender G_GNUC_UNUSED, const gchar *object_path G_GNUC_UNUSED, const gchar *interface_name G_GNUC_UNUSED, const gchar *property_name, GError **error, gpointer user_data) { SensorThresholdSkeleton *skeleton = SENSOR_THRESHOLD_SKELETON (user_data); GValue value = G_VALUE_INIT; GParamSpec *pspec; _ExtendedGDBusPropertyInfo *info; GVariant *ret; ret = NULL; info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_sensor_threshold_interface_info.parent_struct, property_name); g_assert (info != NULL); pspec = g_object_class_find_property (G_OBJECT_GET_CLASS (skeleton), info->hyphen_name); if (pspec == NULL) { g_set_error (error, G_DBUS_ERROR, G_DBUS_ERROR_INVALID_ARGS, "No property with name %s", property_name); } else { g_value_init (&value, pspec->value_type); g_object_get_property (G_OBJECT (skeleton), info->hyphen_name, &value); ret = g_dbus_gvalue_to_gvariant (&value, G_VARIANT_TYPE (info->parent_struct.signature)); g_value_unset (&value); } return ret; } static gboolean _sensor_threshold_skeleton_handle_set_property ( GDBusConnection *connection G_GNUC_UNUSED, const gchar *sender G_GNUC_UNUSED, const gchar *object_path G_GNUC_UNUSED, const gchar *interface_name G_GNUC_UNUSED, const gchar *property_name, GVariant *variant, GError **error, gpointer user_data) { SensorThresholdSkeleton *skeleton = SENSOR_THRESHOLD_SKELETON (user_data); GValue value = G_VALUE_INIT; GParamSpec *pspec; _ExtendedGDBusPropertyInfo *info; gboolean ret; ret = FALSE; info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_sensor_threshold_interface_info.parent_struct, property_name); g_assert (info != NULL); pspec = g_object_class_find_property (G_OBJECT_GET_CLASS (skeleton), info->hyphen_name); if (pspec == NULL) { g_set_error (error, G_DBUS_ERROR, G_DBUS_ERROR_INVALID_ARGS, "No property with name %s", property_name); } else { if (info->use_gvariant) g_value_set_variant (&value, variant); else g_dbus_gvariant_to_gvalue (variant, &value); g_object_set_property (G_OBJECT (skeleton), info->hyphen_name, &value); g_value_unset (&value); ret = TRUE; } return ret; } static const GDBusInterfaceVTable _sensor_threshold_skeleton_vtable = { _sensor_threshold_skeleton_handle_method_call, _sensor_threshold_skeleton_handle_get_property, _sensor_threshold_skeleton_handle_set_property, {NULL} }; static GDBusInterfaceInfo * sensor_threshold_skeleton_dbus_interface_get_info (GDBusInterfaceSkeleton *skeleton G_GNUC_UNUSED) { return sensor_threshold_interface_info (); } static GDBusInterfaceVTable * sensor_threshold_skeleton_dbus_interface_get_vtable (GDBusInterfaceSkeleton *skeleton G_GNUC_UNUSED) { return (GDBusInterfaceVTable *) &_sensor_threshold_skeleton_vtable; } static GVariant * sensor_threshold_skeleton_dbus_interface_get_properties (GDBusInterfaceSkeleton *_skeleton) { SensorThresholdSkeleton *skeleton = SENSOR_THRESHOLD_SKELETON (_skeleton); GVariantBuilder builder; guint n; g_variant_builder_init (&builder, G_VARIANT_TYPE ("a{sv}")); if (_sensor_threshold_interface_info.parent_struct.properties == NULL) goto out; for (n = 0; _sensor_threshold_interface_info.parent_struct.properties[n] != NULL; n++) { GDBusPropertyInfo *info = _sensor_threshold_interface_info.parent_struct.properties[n]; if (info->flags & G_DBUS_PROPERTY_INFO_FLAGS_READABLE) { GVariant *value; value = _sensor_threshold_skeleton_handle_get_property (g_dbus_interface_skeleton_get_connection (G_DBUS_INTERFACE_SKELETON (skeleton)), NULL, g_dbus_interface_skeleton_get_object_path (G_DBUS_INTERFACE_SKELETON (skeleton)), "org.openbmc.SensorThreshold", info->name, NULL, skeleton); if (value != NULL) { g_variant_take_ref (value); g_variant_builder_add (&builder, "{sv}", info->name, value); g_variant_unref (value); } } } out: return g_variant_builder_end (&builder); } static gboolean _sensor_threshold_emit_changed (gpointer user_data); static void sensor_threshold_skeleton_dbus_interface_flush (GDBusInterfaceSkeleton *_skeleton) { SensorThresholdSkeleton *skeleton = SENSOR_THRESHOLD_SKELETON (_skeleton); gboolean emit_changed = FALSE; g_mutex_lock (&skeleton->priv->lock); if (skeleton->priv->changed_properties_idle_source != NULL) { g_source_destroy (skeleton->priv->changed_properties_idle_source); skeleton->priv->changed_properties_idle_source = NULL; emit_changed = TRUE; } g_mutex_unlock (&skeleton->priv->lock); if (emit_changed) _sensor_threshold_emit_changed (skeleton); } static void _sensor_threshold_on_signal_warning ( SensorThreshold *object) { SensorThresholdSkeleton *skeleton = SENSOR_THRESHOLD_SKELETON (object); GList *connections, *l; GVariant *signal_variant; connections = g_dbus_interface_skeleton_get_connections (G_DBUS_INTERFACE_SKELETON (skeleton)); signal_variant = g_variant_ref_sink (g_variant_new ("()")); for (l = connections; l != NULL; l = l->next) { GDBusConnection *connection = l->data; g_dbus_connection_emit_signal (connection, NULL, g_dbus_interface_skeleton_get_object_path (G_DBUS_INTERFACE_SKELETON (skeleton)), "org.openbmc.SensorThreshold", "Warning", signal_variant, NULL); } g_variant_unref (signal_variant); g_list_free_full (connections, g_object_unref); } static void _sensor_threshold_on_signal_critical ( SensorThreshold *object) { SensorThresholdSkeleton *skeleton = SENSOR_THRESHOLD_SKELETON (object); GList *connections, *l; GVariant *signal_variant; connections = g_dbus_interface_skeleton_get_connections (G_DBUS_INTERFACE_SKELETON (skeleton)); signal_variant = g_variant_ref_sink (g_variant_new ("()")); for (l = connections; l != NULL; l = l->next) { GDBusConnection *connection = l->data; g_dbus_connection_emit_signal (connection, NULL, g_dbus_interface_skeleton_get_object_path (G_DBUS_INTERFACE_SKELETON (skeleton)), "org.openbmc.SensorThreshold", "Critical", signal_variant, NULL); } g_variant_unref (signal_variant); g_list_free_full (connections, g_object_unref); } static void _sensor_threshold_on_signal_normal ( SensorThreshold *object) { SensorThresholdSkeleton *skeleton = SENSOR_THRESHOLD_SKELETON (object); GList *connections, *l; GVariant *signal_variant; connections = g_dbus_interface_skeleton_get_connections (G_DBUS_INTERFACE_SKELETON (skeleton)); signal_variant = g_variant_ref_sink (g_variant_new ("()")); for (l = connections; l != NULL; l = l->next) { GDBusConnection *connection = l->data; g_dbus_connection_emit_signal (connection, NULL, g_dbus_interface_skeleton_get_object_path (G_DBUS_INTERFACE_SKELETON (skeleton)), "org.openbmc.SensorThreshold", "Normal", signal_variant, NULL); } g_variant_unref (signal_variant); g_list_free_full (connections, g_object_unref); } static void sensor_threshold_skeleton_iface_init (SensorThresholdIface *iface); #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 G_DEFINE_TYPE_WITH_CODE (SensorThresholdSkeleton, sensor_threshold_skeleton, G_TYPE_DBUS_INTERFACE_SKELETON, G_ADD_PRIVATE (SensorThresholdSkeleton) G_IMPLEMENT_INTERFACE (TYPE_SENSOR_THRESHOLD, sensor_threshold_skeleton_iface_init)); #else G_DEFINE_TYPE_WITH_CODE (SensorThresholdSkeleton, sensor_threshold_skeleton, G_TYPE_DBUS_INTERFACE_SKELETON, G_IMPLEMENT_INTERFACE (TYPE_SENSOR_THRESHOLD, sensor_threshold_skeleton_iface_init)); #endif static void sensor_threshold_skeleton_finalize (GObject *object) { SensorThresholdSkeleton *skeleton = SENSOR_THRESHOLD_SKELETON (object); guint n; for (n = 0; n < 5; n++) g_value_unset (&skeleton->priv->properties[n]); g_free (skeleton->priv->properties); g_list_free_full (skeleton->priv->changed_properties, (GDestroyNotify) _changed_property_free); if (skeleton->priv->changed_properties_idle_source != NULL) g_source_destroy (skeleton->priv->changed_properties_idle_source); g_main_context_unref (skeleton->priv->context); g_mutex_clear (&skeleton->priv->lock); G_OBJECT_CLASS (sensor_threshold_skeleton_parent_class)->finalize (object); } static void sensor_threshold_skeleton_get_property (GObject *object, guint prop_id, GValue *value, GParamSpec *pspec G_GNUC_UNUSED) { SensorThresholdSkeleton *skeleton = SENSOR_THRESHOLD_SKELETON (object); g_assert (prop_id != 0 && prop_id - 1 < 5); g_mutex_lock (&skeleton->priv->lock); g_value_copy (&skeleton->priv->properties[prop_id - 1], value); g_mutex_unlock (&skeleton->priv->lock); } static gboolean _sensor_threshold_emit_changed (gpointer user_data) { SensorThresholdSkeleton *skeleton = SENSOR_THRESHOLD_SKELETON (user_data); GList *l; GVariantBuilder builder; GVariantBuilder invalidated_builder; guint num_changes; g_mutex_lock (&skeleton->priv->lock); g_variant_builder_init (&builder, G_VARIANT_TYPE ("a{sv}")); g_variant_builder_init (&invalidated_builder, G_VARIANT_TYPE ("as")); for (l = skeleton->priv->changed_properties, num_changes = 0; l != NULL; l = l->next) { ChangedProperty *cp = l->data; GVariant *variant; const GValue *cur_value; cur_value = &skeleton->priv->properties[cp->prop_id - 1]; if (!_g_value_equal (cur_value, &cp->orig_value)) { variant = g_dbus_gvalue_to_gvariant (cur_value, G_VARIANT_TYPE (cp->info->parent_struct.signature)); g_variant_builder_add (&builder, "{sv}", cp->info->parent_struct.name, variant); g_variant_unref (variant); num_changes++; } } if (num_changes > 0) { GList *connections, *ll; GVariant *signal_variant; signal_variant = g_variant_ref_sink (g_variant_new ("(sa{sv}as)", "org.openbmc.SensorThreshold", &builder, &invalidated_builder)); connections = g_dbus_interface_skeleton_get_connections (G_DBUS_INTERFACE_SKELETON (skeleton)); for (ll = connections; ll != NULL; ll = ll->next) { GDBusConnection *connection = ll->data; g_dbus_connection_emit_signal (connection, NULL, g_dbus_interface_skeleton_get_object_path (G_DBUS_INTERFACE_SKELETON (skeleton)), "org.freedesktop.DBus.Properties", "PropertiesChanged", signal_variant, NULL); } g_variant_unref (signal_variant); g_list_free_full (connections, g_object_unref); } else { g_variant_builder_clear (&builder); g_variant_builder_clear (&invalidated_builder); } g_list_free_full (skeleton->priv->changed_properties, (GDestroyNotify) _changed_property_free); skeleton->priv->changed_properties = NULL; skeleton->priv->changed_properties_idle_source = NULL; g_mutex_unlock (&skeleton->priv->lock); return FALSE; } static void _sensor_threshold_schedule_emit_changed (SensorThresholdSkeleton *skeleton, const _ExtendedGDBusPropertyInfo *info, guint prop_id, const GValue *orig_value) { ChangedProperty *cp; GList *l; cp = NULL; for (l = skeleton->priv->changed_properties; l != NULL; l = l->next) { ChangedProperty *i_cp = l->data; if (i_cp->info == info) { cp = i_cp; break; } } if (cp == NULL) { cp = g_new0 (ChangedProperty, 1); cp->prop_id = prop_id; cp->info = info; skeleton->priv->changed_properties = g_list_prepend (skeleton->priv->changed_properties, cp); g_value_init (&cp->orig_value, G_VALUE_TYPE (orig_value)); g_value_copy (orig_value, &cp->orig_value); } } static void sensor_threshold_skeleton_notify (GObject *object, GParamSpec *pspec G_GNUC_UNUSED) { SensorThresholdSkeleton *skeleton = SENSOR_THRESHOLD_SKELETON (object); g_mutex_lock (&skeleton->priv->lock); if (skeleton->priv->changed_properties != NULL && skeleton->priv->changed_properties_idle_source == NULL) { skeleton->priv->changed_properties_idle_source = g_idle_source_new (); g_source_set_priority (skeleton->priv->changed_properties_idle_source, G_PRIORITY_DEFAULT); g_source_set_callback (skeleton->priv->changed_properties_idle_source, _sensor_threshold_emit_changed, g_object_ref (skeleton), (GDestroyNotify) g_object_unref); g_source_set_name (skeleton->priv->changed_properties_idle_source, "[generated] _sensor_threshold_emit_changed"); g_source_attach (skeleton->priv->changed_properties_idle_source, skeleton->priv->context); g_source_unref (skeleton->priv->changed_properties_idle_source); } g_mutex_unlock (&skeleton->priv->lock); } static void sensor_threshold_skeleton_set_property (GObject *object, guint prop_id, const GValue *value, GParamSpec *pspec) { SensorThresholdSkeleton *skeleton = SENSOR_THRESHOLD_SKELETON (object); g_assert (prop_id != 0 && prop_id - 1 < 5); g_mutex_lock (&skeleton->priv->lock); g_object_freeze_notify (object); if (!_g_value_equal (value, &skeleton->priv->properties[prop_id - 1])) { if (g_dbus_interface_skeleton_get_connection (G_DBUS_INTERFACE_SKELETON (skeleton)) != NULL) _sensor_threshold_schedule_emit_changed (skeleton, _sensor_threshold_property_info_pointers[prop_id - 1], prop_id, &skeleton->priv->properties[prop_id - 1]); g_value_copy (value, &skeleton->priv->properties[prop_id - 1]); g_object_notify_by_pspec (object, pspec); } g_mutex_unlock (&skeleton->priv->lock); g_object_thaw_notify (object); } static void sensor_threshold_skeleton_init (SensorThresholdSkeleton *skeleton) { #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 skeleton->priv = sensor_threshold_skeleton_get_instance_private (skeleton); #else skeleton->priv = G_TYPE_INSTANCE_GET_PRIVATE (skeleton, TYPE_SENSOR_THRESHOLD_SKELETON, SensorThresholdSkeletonPrivate); #endif g_mutex_init (&skeleton->priv->lock); skeleton->priv->context = g_main_context_ref_thread_default (); skeleton->priv->properties = g_new0 (GValue, 5); g_value_init (&skeleton->priv->properties[0], G_TYPE_VARIANT); g_value_init (&skeleton->priv->properties[1], G_TYPE_VARIANT); g_value_init (&skeleton->priv->properties[2], G_TYPE_VARIANT); g_value_init (&skeleton->priv->properties[3], G_TYPE_VARIANT); g_value_init (&skeleton->priv->properties[4], G_TYPE_UCHAR); } static GVariant * sensor_threshold_skeleton_get_lower_critical (SensorThreshold *object) { SensorThresholdSkeleton *skeleton = SENSOR_THRESHOLD_SKELETON (object); GVariant *value; g_mutex_lock (&skeleton->priv->lock); value = g_value_get_variant (&(skeleton->priv->properties[0])); g_mutex_unlock (&skeleton->priv->lock); return value; } static GVariant * sensor_threshold_skeleton_get_lower_warning (SensorThreshold *object) { SensorThresholdSkeleton *skeleton = SENSOR_THRESHOLD_SKELETON (object); GVariant *value; g_mutex_lock (&skeleton->priv->lock); value = g_value_get_variant (&(skeleton->priv->properties[1])); g_mutex_unlock (&skeleton->priv->lock); return value; } static GVariant * sensor_threshold_skeleton_get_upper_warning (SensorThreshold *object) { SensorThresholdSkeleton *skeleton = SENSOR_THRESHOLD_SKELETON (object); GVariant *value; g_mutex_lock (&skeleton->priv->lock); value = g_value_get_variant (&(skeleton->priv->properties[2])); g_mutex_unlock (&skeleton->priv->lock); return value; } static GVariant * sensor_threshold_skeleton_get_upper_critical (SensorThreshold *object) { SensorThresholdSkeleton *skeleton = SENSOR_THRESHOLD_SKELETON (object); GVariant *value; g_mutex_lock (&skeleton->priv->lock); value = g_value_get_variant (&(skeleton->priv->properties[3])); g_mutex_unlock (&skeleton->priv->lock); return value; } static guchar sensor_threshold_skeleton_get_state (SensorThreshold *object) { SensorThresholdSkeleton *skeleton = SENSOR_THRESHOLD_SKELETON (object); guchar value; g_mutex_lock (&skeleton->priv->lock); value = g_value_get_uchar (&(skeleton->priv->properties[4])); g_mutex_unlock (&skeleton->priv->lock); return value; } static void sensor_threshold_skeleton_class_init (SensorThresholdSkeletonClass *klass) { GObjectClass *gobject_class; GDBusInterfaceSkeletonClass *skeleton_class; gobject_class = G_OBJECT_CLASS (klass); gobject_class->finalize = sensor_threshold_skeleton_finalize; gobject_class->get_property = sensor_threshold_skeleton_get_property; gobject_class->set_property = sensor_threshold_skeleton_set_property; gobject_class->notify = sensor_threshold_skeleton_notify; sensor_threshold_override_properties (gobject_class, 1); skeleton_class = G_DBUS_INTERFACE_SKELETON_CLASS (klass); skeleton_class->get_info = sensor_threshold_skeleton_dbus_interface_get_info; skeleton_class->get_properties = sensor_threshold_skeleton_dbus_interface_get_properties; skeleton_class->flush = sensor_threshold_skeleton_dbus_interface_flush; skeleton_class->get_vtable = sensor_threshold_skeleton_dbus_interface_get_vtable; #if GLIB_VERSION_MAX_ALLOWED < GLIB_VERSION_2_38 g_type_class_add_private (klass, sizeof (SensorThresholdSkeletonPrivate)); #endif } static void sensor_threshold_skeleton_iface_init (SensorThresholdIface *iface) { iface->warning = _sensor_threshold_on_signal_warning; iface->critical = _sensor_threshold_on_signal_critical; iface->normal = _sensor_threshold_on_signal_normal; iface->get_lower_critical = sensor_threshold_skeleton_get_lower_critical; iface->get_lower_warning = sensor_threshold_skeleton_get_lower_warning; iface->get_upper_warning = sensor_threshold_skeleton_get_upper_warning; iface->get_upper_critical = sensor_threshold_skeleton_get_upper_critical; iface->get_state = sensor_threshold_skeleton_get_state; } /** * sensor_threshold_skeleton_new: * * Creates a skeleton object for the D-Bus interface org.openbmc.SensorThreshold. * * Returns: (transfer full) (type SensorThresholdSkeleton): The skeleton object. */ SensorThreshold * sensor_threshold_skeleton_new (void) { return SENSOR_THRESHOLD (g_object_new (TYPE_SENSOR_THRESHOLD_SKELETON, NULL)); } /* ------------------------------------------------------------------------ * Code for interface org.openbmc.SensorI2c * ------------------------------------------------------------------------ */ /** * SECTION:SensorI2c * @title: SensorI2c * @short_description: Generated C code for the org.openbmc.SensorI2c D-Bus interface * * This section contains code for working with the org.openbmc.SensorI2c D-Bus interface in C. */ /* ---- Introspection data for org.openbmc.SensorI2c ---- */ static const _ExtendedGDBusPropertyInfo _sensor_i2c_property_info_dev_path = { { -1, (gchar *) "dev_path", (gchar *) "s", G_DBUS_PROPERTY_INFO_FLAGS_READABLE | G_DBUS_PROPERTY_INFO_FLAGS_WRITABLE, NULL }, "dev-path", FALSE }; static const _ExtendedGDBusPropertyInfo _sensor_i2c_property_info_address = { { -1, (gchar *) "address", (gchar *) "s", G_DBUS_PROPERTY_INFO_FLAGS_READABLE | G_DBUS_PROPERTY_INFO_FLAGS_WRITABLE, NULL }, "address", FALSE }; static const _ExtendedGDBusPropertyInfo * const _sensor_i2c_property_info_pointers[] = { &_sensor_i2c_property_info_dev_path, &_sensor_i2c_property_info_address, NULL }; static const _ExtendedGDBusInterfaceInfo _sensor_i2c_interface_info = { { -1, (gchar *) "org.openbmc.SensorI2c", NULL, NULL, (GDBusPropertyInfo **) &_sensor_i2c_property_info_pointers, NULL }, "sensor-i2c", }; /** * sensor_i2c_interface_info: * * Gets a machine-readable description of the org.openbmc.SensorI2c D-Bus interface. * * Returns: (transfer none): A #GDBusInterfaceInfo. Do not free. */ GDBusInterfaceInfo * sensor_i2c_interface_info (void) { return (GDBusInterfaceInfo *) &_sensor_i2c_interface_info.parent_struct; } /** * sensor_i2c_override_properties: * @klass: The class structure for a #GObject-derived class. * @property_id_begin: The property id to assign to the first overridden property. * * Overrides all #GObject properties in the #SensorI2c interface for a concrete class. * The properties are overridden in the order they are defined. * * Returns: The last property id. */ guint sensor_i2c_override_properties (GObjectClass *klass, guint property_id_begin) { g_object_class_override_property (klass, property_id_begin++, "dev-path"); g_object_class_override_property (klass, property_id_begin++, "address"); return property_id_begin - 1; } /** * SensorI2c: * * Abstract interface type for the D-Bus interface org.openbmc.SensorI2c. */ /** * SensorI2cIface: * @parent_iface: The parent interface. * @get_address: Getter for the #SensorI2c:address property. * @get_dev_path: Getter for the #SensorI2c:dev-path property. * * Virtual table for the D-Bus interface org.openbmc.SensorI2c. */ typedef SensorI2cIface SensorI2cInterface; G_DEFINE_INTERFACE (SensorI2c, sensor_i2c, G_TYPE_OBJECT); static void sensor_i2c_default_init (SensorI2cIface *iface) { /* GObject properties for D-Bus properties: */ /** * SensorI2c:dev-path: * * Represents the D-Bus property "dev_path". * * Since the D-Bus property for this #GObject property is both readable and writable, it is meaningful to both read from it and write to it on both the service- and client-side. */ g_object_interface_install_property (iface, g_param_spec_string ("dev-path", "dev_path", "dev_path", NULL, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS)); /** * SensorI2c:address: * * Represents the D-Bus property "address". * * Since the D-Bus property for this #GObject property is both readable and writable, it is meaningful to both read from it and write to it on both the service- and client-side. */ g_object_interface_install_property (iface, g_param_spec_string ("address", "address", "address", NULL, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS)); } /** * sensor_i2c_get_dev_path: (skip) * @object: A #SensorI2c. * * Gets the value of the "dev_path" D-Bus property. * * Since this D-Bus property is both readable and writable, it is meaningful to use this function on both the client- and service-side. * * The returned value is only valid until the property changes so on the client-side it is only safe to use this function on the thread where @object was constructed. Use sensor_i2c_dup_dev_path() if on another thread. * * Returns: (transfer none): The property value or %NULL if the property is not set. Do not free the returned value, it belongs to @object. */ const gchar * sensor_i2c_get_dev_path (SensorI2c *object) { return SENSOR_I2C_GET_IFACE (object)->get_dev_path (object); } /** * sensor_i2c_dup_dev_path: (skip) * @object: A #SensorI2c. * * Gets a copy of the "dev_path" D-Bus property. * * Since this D-Bus property is both readable and writable, it is meaningful to use this function on both the client- and service-side. * * Returns: (transfer full): The property value or %NULL if the property is not set. The returned value should be freed with g_free(). */ gchar * sensor_i2c_dup_dev_path (SensorI2c *object) { gchar *value; g_object_get (G_OBJECT (object), "dev-path", &value, NULL); return value; } /** * sensor_i2c_set_dev_path: (skip) * @object: A #SensorI2c. * @value: The value to set. * * Sets the "dev_path" D-Bus property to @value. * * Since this D-Bus property is both readable and writable, it is meaningful to use this function on both the client- and service-side. */ void sensor_i2c_set_dev_path (SensorI2c *object, const gchar *value) { g_object_set (G_OBJECT (object), "dev-path", value, NULL); } /** * sensor_i2c_get_address: (skip) * @object: A #SensorI2c. * * Gets the value of the "address" D-Bus property. * * Since this D-Bus property is both readable and writable, it is meaningful to use this function on both the client- and service-side. * * The returned value is only valid until the property changes so on the client-side it is only safe to use this function on the thread where @object was constructed. Use sensor_i2c_dup_address() if on another thread. * * Returns: (transfer none): The property value or %NULL if the property is not set. Do not free the returned value, it belongs to @object. */ const gchar * sensor_i2c_get_address (SensorI2c *object) { return SENSOR_I2C_GET_IFACE (object)->get_address (object); } /** * sensor_i2c_dup_address: (skip) * @object: A #SensorI2c. * * Gets a copy of the "address" D-Bus property. * * Since this D-Bus property is both readable and writable, it is meaningful to use this function on both the client- and service-side. * * Returns: (transfer full): The property value or %NULL if the property is not set. The returned value should be freed with g_free(). */ gchar * sensor_i2c_dup_address (SensorI2c *object) { gchar *value; g_object_get (G_OBJECT (object), "address", &value, NULL); return value; } /** * sensor_i2c_set_address: (skip) * @object: A #SensorI2c. * @value: The value to set. * * Sets the "address" D-Bus property to @value. * * Since this D-Bus property is both readable and writable, it is meaningful to use this function on both the client- and service-side. */ void sensor_i2c_set_address (SensorI2c *object, const gchar *value) { g_object_set (G_OBJECT (object), "address", value, NULL); } /* ------------------------------------------------------------------------ */ /** * SensorI2cProxy: * * The #SensorI2cProxy structure contains only private data and should only be accessed using the provided API. */ /** * SensorI2cProxyClass: * @parent_class: The parent class. * * Class structure for #SensorI2cProxy. */ struct _SensorI2cProxyPrivate { GData *qdata; }; static void sensor_i2c_proxy_iface_init (SensorI2cIface *iface); #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 G_DEFINE_TYPE_WITH_CODE (SensorI2cProxy, sensor_i2c_proxy, G_TYPE_DBUS_PROXY, G_ADD_PRIVATE (SensorI2cProxy) G_IMPLEMENT_INTERFACE (TYPE_SENSOR_I2C, sensor_i2c_proxy_iface_init)); #else G_DEFINE_TYPE_WITH_CODE (SensorI2cProxy, sensor_i2c_proxy, G_TYPE_DBUS_PROXY, G_IMPLEMENT_INTERFACE (TYPE_SENSOR_I2C, sensor_i2c_proxy_iface_init)); #endif static void sensor_i2c_proxy_finalize (GObject *object) { SensorI2cProxy *proxy = SENSOR_I2C_PROXY (object); g_datalist_clear (&proxy->priv->qdata); G_OBJECT_CLASS (sensor_i2c_proxy_parent_class)->finalize (object); } static void sensor_i2c_proxy_get_property (GObject *object, guint prop_id, GValue *value, GParamSpec *pspec G_GNUC_UNUSED) { const _ExtendedGDBusPropertyInfo *info; GVariant *variant; g_assert (prop_id != 0 && prop_id - 1 < 2); info = _sensor_i2c_property_info_pointers[prop_id - 1]; variant = g_dbus_proxy_get_cached_property (G_DBUS_PROXY (object), info->parent_struct.name); if (info->use_gvariant) { g_value_set_variant (value, variant); } else { if (variant != NULL) g_dbus_gvariant_to_gvalue (variant, value); } if (variant != NULL) g_variant_unref (variant); } static void sensor_i2c_proxy_set_property_cb (GDBusProxy *proxy, GAsyncResult *res, gpointer user_data) { const _ExtendedGDBusPropertyInfo *info = user_data; GError *error; GVariant *_ret; error = NULL; _ret = g_dbus_proxy_call_finish (proxy, res, &error); if (!_ret) { g_warning ("Error setting property '%s' on interface org.openbmc.SensorI2c: %s (%s, %d)", info->parent_struct.name, error->message, g_quark_to_string (error->domain), error->code); g_error_free (error); } else { g_variant_unref (_ret); } } static void sensor_i2c_proxy_set_property (GObject *object, guint prop_id, const GValue *value, GParamSpec *pspec G_GNUC_UNUSED) { const _ExtendedGDBusPropertyInfo *info; GVariant *variant; g_assert (prop_id != 0 && prop_id - 1 < 2); info = _sensor_i2c_property_info_pointers[prop_id - 1]; variant = g_dbus_gvalue_to_gvariant (value, G_VARIANT_TYPE (info->parent_struct.signature)); g_dbus_proxy_call (G_DBUS_PROXY (object), "org.freedesktop.DBus.Properties.Set", g_variant_new ("(ssv)", "org.openbmc.SensorI2c", info->parent_struct.name, variant), G_DBUS_CALL_FLAGS_NONE, -1, NULL, (GAsyncReadyCallback) sensor_i2c_proxy_set_property_cb, (GDBusPropertyInfo *) &info->parent_struct); g_variant_unref (variant); } static void sensor_i2c_proxy_g_signal (GDBusProxy *proxy, const gchar *sender_name G_GNUC_UNUSED, const gchar *signal_name, GVariant *parameters) { _ExtendedGDBusSignalInfo *info; GVariantIter iter; GVariant *child; GValue *paramv; guint num_params; guint n; guint signal_id; info = (_ExtendedGDBusSignalInfo *) g_dbus_interface_info_lookup_signal ((GDBusInterfaceInfo *) &_sensor_i2c_interface_info.parent_struct, signal_name); if (info == NULL) return; num_params = g_variant_n_children (parameters); paramv = g_new0 (GValue, num_params + 1); g_value_init (¶mv[0], TYPE_SENSOR_I2C); g_value_set_object (¶mv[0], proxy); g_variant_iter_init (&iter, parameters); n = 1; while ((child = g_variant_iter_next_value (&iter)) != NULL) { _ExtendedGDBusArgInfo *arg_info = (_ExtendedGDBusArgInfo *) info->parent_struct.args[n - 1]; if (arg_info->use_gvariant) { g_value_init (¶mv[n], G_TYPE_VARIANT); g_value_set_variant (¶mv[n], child); n++; } else g_dbus_gvariant_to_gvalue (child, ¶mv[n++]); g_variant_unref (child); } signal_id = g_signal_lookup (info->signal_name, TYPE_SENSOR_I2C); g_signal_emitv (paramv, signal_id, 0, NULL); for (n = 0; n < num_params + 1; n++) g_value_unset (¶mv[n]); g_free (paramv); } static void sensor_i2c_proxy_g_properties_changed (GDBusProxy *_proxy, GVariant *changed_properties, const gchar *const *invalidated_properties) { SensorI2cProxy *proxy = SENSOR_I2C_PROXY (_proxy); guint n; const gchar *key; GVariantIter *iter; _ExtendedGDBusPropertyInfo *info; g_variant_get (changed_properties, "a{sv}", &iter); while (g_variant_iter_next (iter, "{&sv}", &key, NULL)) { info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_sensor_i2c_interface_info.parent_struct, key); g_datalist_remove_data (&proxy->priv->qdata, key); if (info != NULL) g_object_notify (G_OBJECT (proxy), info->hyphen_name); } g_variant_iter_free (iter); for (n = 0; invalidated_properties[n] != NULL; n++) { info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_sensor_i2c_interface_info.parent_struct, invalidated_properties[n]); g_datalist_remove_data (&proxy->priv->qdata, invalidated_properties[n]); if (info != NULL) g_object_notify (G_OBJECT (proxy), info->hyphen_name); } } static const gchar * sensor_i2c_proxy_get_dev_path (SensorI2c *object) { SensorI2cProxy *proxy = SENSOR_I2C_PROXY (object); GVariant *variant; const gchar *value = NULL; variant = g_dbus_proxy_get_cached_property (G_DBUS_PROXY (proxy), "dev_path"); if (variant != NULL) { value = g_variant_get_string (variant, NULL); g_variant_unref (variant); } return value; } static const gchar * sensor_i2c_proxy_get_address (SensorI2c *object) { SensorI2cProxy *proxy = SENSOR_I2C_PROXY (object); GVariant *variant; const gchar *value = NULL; variant = g_dbus_proxy_get_cached_property (G_DBUS_PROXY (proxy), "address"); if (variant != NULL) { value = g_variant_get_string (variant, NULL); g_variant_unref (variant); } return value; } static void sensor_i2c_proxy_init (SensorI2cProxy *proxy) { #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 proxy->priv = sensor_i2c_proxy_get_instance_private (proxy); #else proxy->priv = G_TYPE_INSTANCE_GET_PRIVATE (proxy, TYPE_SENSOR_I2C_PROXY, SensorI2cProxyPrivate); #endif g_dbus_proxy_set_interface_info (G_DBUS_PROXY (proxy), sensor_i2c_interface_info ()); } static void sensor_i2c_proxy_class_init (SensorI2cProxyClass *klass) { GObjectClass *gobject_class; GDBusProxyClass *proxy_class; gobject_class = G_OBJECT_CLASS (klass); gobject_class->finalize = sensor_i2c_proxy_finalize; gobject_class->get_property = sensor_i2c_proxy_get_property; gobject_class->set_property = sensor_i2c_proxy_set_property; proxy_class = G_DBUS_PROXY_CLASS (klass); proxy_class->g_signal = sensor_i2c_proxy_g_signal; proxy_class->g_properties_changed = sensor_i2c_proxy_g_properties_changed; sensor_i2c_override_properties (gobject_class, 1); #if GLIB_VERSION_MAX_ALLOWED < GLIB_VERSION_2_38 g_type_class_add_private (klass, sizeof (SensorI2cProxyPrivate)); #endif } static void sensor_i2c_proxy_iface_init (SensorI2cIface *iface) { iface->get_dev_path = sensor_i2c_proxy_get_dev_path; iface->get_address = sensor_i2c_proxy_get_address; } /** * sensor_i2c_proxy_new: * @connection: A #GDBusConnection. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: (allow-none): A bus name (well-known or unique) or %NULL if @connection is not a message bus connection. * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied. * @user_data: User data to pass to @callback. * * Asynchronously creates a proxy for the D-Bus interface org.openbmc.SensorI2c. See g_dbus_proxy_new() for more details. * * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call sensor_i2c_proxy_new_finish() to get the result of the operation. * * See sensor_i2c_proxy_new_sync() for the synchronous, blocking version of this constructor. */ void sensor_i2c_proxy_new ( GDBusConnection *connection, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_async_initable_new_async (TYPE_SENSOR_I2C_PROXY, G_PRIORITY_DEFAULT, cancellable, callback, user_data, "g-flags", flags, "g-name", name, "g-connection", connection, "g-object-path", object_path, "g-interface-name", "org.openbmc.SensorI2c", NULL); } /** * sensor_i2c_proxy_new_finish: * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to sensor_i2c_proxy_new(). * @error: Return location for error or %NULL * * Finishes an operation started with sensor_i2c_proxy_new(). * * Returns: (transfer full) (type SensorI2cProxy): The constructed proxy object or %NULL if @error is set. */ SensorI2c * sensor_i2c_proxy_new_finish ( GAsyncResult *res, GError **error) { GObject *ret; GObject *source_object; source_object = g_async_result_get_source_object (res); ret = g_async_initable_new_finish (G_ASYNC_INITABLE (source_object), res, error); g_object_unref (source_object); if (ret != NULL) return SENSOR_I2C (ret); else return NULL; } /** * sensor_i2c_proxy_new_sync: * @connection: A #GDBusConnection. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: (allow-none): A bus name (well-known or unique) or %NULL if @connection is not a message bus connection. * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL * * Synchronously creates a proxy for the D-Bus interface org.openbmc.SensorI2c. See g_dbus_proxy_new_sync() for more details. * * The calling thread is blocked until a reply is received. * * See sensor_i2c_proxy_new() for the asynchronous version of this constructor. * * Returns: (transfer full) (type SensorI2cProxy): The constructed proxy object or %NULL if @error is set. */ SensorI2c * sensor_i2c_proxy_new_sync ( GDBusConnection *connection, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GError **error) { GInitable *ret; ret = g_initable_new (TYPE_SENSOR_I2C_PROXY, cancellable, error, "g-flags", flags, "g-name", name, "g-connection", connection, "g-object-path", object_path, "g-interface-name", "org.openbmc.SensorI2c", NULL); if (ret != NULL) return SENSOR_I2C (ret); else return NULL; } /** * sensor_i2c_proxy_new_for_bus: * @bus_type: A #GBusType. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: A bus name (well-known or unique). * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied. * @user_data: User data to pass to @callback. * * Like sensor_i2c_proxy_new() but takes a #GBusType instead of a #GDBusConnection. * * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call sensor_i2c_proxy_new_for_bus_finish() to get the result of the operation. * * See sensor_i2c_proxy_new_for_bus_sync() for the synchronous, blocking version of this constructor. */ void sensor_i2c_proxy_new_for_bus ( GBusType bus_type, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_async_initable_new_async (TYPE_SENSOR_I2C_PROXY, G_PRIORITY_DEFAULT, cancellable, callback, user_data, "g-flags", flags, "g-name", name, "g-bus-type", bus_type, "g-object-path", object_path, "g-interface-name", "org.openbmc.SensorI2c", NULL); } /** * sensor_i2c_proxy_new_for_bus_finish: * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to sensor_i2c_proxy_new_for_bus(). * @error: Return location for error or %NULL * * Finishes an operation started with sensor_i2c_proxy_new_for_bus(). * * Returns: (transfer full) (type SensorI2cProxy): The constructed proxy object or %NULL if @error is set. */ SensorI2c * sensor_i2c_proxy_new_for_bus_finish ( GAsyncResult *res, GError **error) { GObject *ret; GObject *source_object; source_object = g_async_result_get_source_object (res); ret = g_async_initable_new_finish (G_ASYNC_INITABLE (source_object), res, error); g_object_unref (source_object); if (ret != NULL) return SENSOR_I2C (ret); else return NULL; } /** * sensor_i2c_proxy_new_for_bus_sync: * @bus_type: A #GBusType. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: A bus name (well-known or unique). * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL * * Like sensor_i2c_proxy_new_sync() but takes a #GBusType instead of a #GDBusConnection. * * The calling thread is blocked until a reply is received. * * See sensor_i2c_proxy_new_for_bus() for the asynchronous version of this constructor. * * Returns: (transfer full) (type SensorI2cProxy): The constructed proxy object or %NULL if @error is set. */ SensorI2c * sensor_i2c_proxy_new_for_bus_sync ( GBusType bus_type, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GError **error) { GInitable *ret; ret = g_initable_new (TYPE_SENSOR_I2C_PROXY, cancellable, error, "g-flags", flags, "g-name", name, "g-bus-type", bus_type, "g-object-path", object_path, "g-interface-name", "org.openbmc.SensorI2c", NULL); if (ret != NULL) return SENSOR_I2C (ret); else return NULL; } /* ------------------------------------------------------------------------ */ /** * SensorI2cSkeleton: * * The #SensorI2cSkeleton structure contains only private data and should only be accessed using the provided API. */ /** * SensorI2cSkeletonClass: * @parent_class: The parent class. * * Class structure for #SensorI2cSkeleton. */ struct _SensorI2cSkeletonPrivate { GValue *properties; GList *changed_properties; GSource *changed_properties_idle_source; GMainContext *context; GMutex lock; }; static void _sensor_i2c_skeleton_handle_method_call ( GDBusConnection *connection G_GNUC_UNUSED, const gchar *sender G_GNUC_UNUSED, const gchar *object_path G_GNUC_UNUSED, const gchar *interface_name, const gchar *method_name, GVariant *parameters, GDBusMethodInvocation *invocation, gpointer user_data) { SensorI2cSkeleton *skeleton = SENSOR_I2C_SKELETON (user_data); _ExtendedGDBusMethodInfo *info; GVariantIter iter; GVariant *child; GValue *paramv; guint num_params; guint num_extra; guint n; guint signal_id; GValue return_value = G_VALUE_INIT; info = (_ExtendedGDBusMethodInfo *) g_dbus_method_invocation_get_method_info (invocation); g_assert (info != NULL); num_params = g_variant_n_children (parameters); num_extra = info->pass_fdlist ? 3 : 2; paramv = g_new0 (GValue, num_params + num_extra); n = 0; g_value_init (¶mv[n], TYPE_SENSOR_I2C); g_value_set_object (¶mv[n++], skeleton); g_value_init (¶mv[n], G_TYPE_DBUS_METHOD_INVOCATION); g_value_set_object (¶mv[n++], invocation); if (info->pass_fdlist) { #ifdef G_OS_UNIX g_value_init (¶mv[n], G_TYPE_UNIX_FD_LIST); g_value_set_object (¶mv[n++], g_dbus_message_get_unix_fd_list (g_dbus_method_invocation_get_message (invocation))); #else g_assert_not_reached (); #endif } g_variant_iter_init (&iter, parameters); while ((child = g_variant_iter_next_value (&iter)) != NULL) { _ExtendedGDBusArgInfo *arg_info = (_ExtendedGDBusArgInfo *) info->parent_struct.in_args[n - num_extra]; if (arg_info->use_gvariant) { g_value_init (¶mv[n], G_TYPE_VARIANT); g_value_set_variant (¶mv[n], child); n++; } else g_dbus_gvariant_to_gvalue (child, ¶mv[n++]); g_variant_unref (child); } signal_id = g_signal_lookup (info->signal_name, TYPE_SENSOR_I2C); g_value_init (&return_value, G_TYPE_BOOLEAN); g_signal_emitv (paramv, signal_id, 0, &return_value); if (!g_value_get_boolean (&return_value)) g_dbus_method_invocation_return_error (invocation, G_DBUS_ERROR, G_DBUS_ERROR_UNKNOWN_METHOD, "Method %s is not implemented on interface %s", method_name, interface_name); g_value_unset (&return_value); for (n = 0; n < num_params + num_extra; n++) g_value_unset (¶mv[n]); g_free (paramv); } static GVariant * _sensor_i2c_skeleton_handle_get_property ( GDBusConnection *connection G_GNUC_UNUSED, const gchar *sender G_GNUC_UNUSED, const gchar *object_path G_GNUC_UNUSED, const gchar *interface_name G_GNUC_UNUSED, const gchar *property_name, GError **error, gpointer user_data) { SensorI2cSkeleton *skeleton = SENSOR_I2C_SKELETON (user_data); GValue value = G_VALUE_INIT; GParamSpec *pspec; _ExtendedGDBusPropertyInfo *info; GVariant *ret; ret = NULL; info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_sensor_i2c_interface_info.parent_struct, property_name); g_assert (info != NULL); pspec = g_object_class_find_property (G_OBJECT_GET_CLASS (skeleton), info->hyphen_name); if (pspec == NULL) { g_set_error (error, G_DBUS_ERROR, G_DBUS_ERROR_INVALID_ARGS, "No property with name %s", property_name); } else { g_value_init (&value, pspec->value_type); g_object_get_property (G_OBJECT (skeleton), info->hyphen_name, &value); ret = g_dbus_gvalue_to_gvariant (&value, G_VARIANT_TYPE (info->parent_struct.signature)); g_value_unset (&value); } return ret; } static gboolean _sensor_i2c_skeleton_handle_set_property ( GDBusConnection *connection G_GNUC_UNUSED, const gchar *sender G_GNUC_UNUSED, const gchar *object_path G_GNUC_UNUSED, const gchar *interface_name G_GNUC_UNUSED, const gchar *property_name, GVariant *variant, GError **error, gpointer user_data) { SensorI2cSkeleton *skeleton = SENSOR_I2C_SKELETON (user_data); GValue value = G_VALUE_INIT; GParamSpec *pspec; _ExtendedGDBusPropertyInfo *info; gboolean ret; ret = FALSE; info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_sensor_i2c_interface_info.parent_struct, property_name); g_assert (info != NULL); pspec = g_object_class_find_property (G_OBJECT_GET_CLASS (skeleton), info->hyphen_name); if (pspec == NULL) { g_set_error (error, G_DBUS_ERROR, G_DBUS_ERROR_INVALID_ARGS, "No property with name %s", property_name); } else { if (info->use_gvariant) g_value_set_variant (&value, variant); else g_dbus_gvariant_to_gvalue (variant, &value); g_object_set_property (G_OBJECT (skeleton), info->hyphen_name, &value); g_value_unset (&value); ret = TRUE; } return ret; } static const GDBusInterfaceVTable _sensor_i2c_skeleton_vtable = { _sensor_i2c_skeleton_handle_method_call, _sensor_i2c_skeleton_handle_get_property, _sensor_i2c_skeleton_handle_set_property, {NULL} }; static GDBusInterfaceInfo * sensor_i2c_skeleton_dbus_interface_get_info (GDBusInterfaceSkeleton *skeleton G_GNUC_UNUSED) { return sensor_i2c_interface_info (); } static GDBusInterfaceVTable * sensor_i2c_skeleton_dbus_interface_get_vtable (GDBusInterfaceSkeleton *skeleton G_GNUC_UNUSED) { return (GDBusInterfaceVTable *) &_sensor_i2c_skeleton_vtable; } static GVariant * sensor_i2c_skeleton_dbus_interface_get_properties (GDBusInterfaceSkeleton *_skeleton) { SensorI2cSkeleton *skeleton = SENSOR_I2C_SKELETON (_skeleton); GVariantBuilder builder; guint n; g_variant_builder_init (&builder, G_VARIANT_TYPE ("a{sv}")); if (_sensor_i2c_interface_info.parent_struct.properties == NULL) goto out; for (n = 0; _sensor_i2c_interface_info.parent_struct.properties[n] != NULL; n++) { GDBusPropertyInfo *info = _sensor_i2c_interface_info.parent_struct.properties[n]; if (info->flags & G_DBUS_PROPERTY_INFO_FLAGS_READABLE) { GVariant *value; value = _sensor_i2c_skeleton_handle_get_property (g_dbus_interface_skeleton_get_connection (G_DBUS_INTERFACE_SKELETON (skeleton)), NULL, g_dbus_interface_skeleton_get_object_path (G_DBUS_INTERFACE_SKELETON (skeleton)), "org.openbmc.SensorI2c", info->name, NULL, skeleton); if (value != NULL) { g_variant_take_ref (value); g_variant_builder_add (&builder, "{sv}", info->name, value); g_variant_unref (value); } } } out: return g_variant_builder_end (&builder); } static gboolean _sensor_i2c_emit_changed (gpointer user_data); static void sensor_i2c_skeleton_dbus_interface_flush (GDBusInterfaceSkeleton *_skeleton) { SensorI2cSkeleton *skeleton = SENSOR_I2C_SKELETON (_skeleton); gboolean emit_changed = FALSE; g_mutex_lock (&skeleton->priv->lock); if (skeleton->priv->changed_properties_idle_source != NULL) { g_source_destroy (skeleton->priv->changed_properties_idle_source); skeleton->priv->changed_properties_idle_source = NULL; emit_changed = TRUE; } g_mutex_unlock (&skeleton->priv->lock); if (emit_changed) _sensor_i2c_emit_changed (skeleton); } static void sensor_i2c_skeleton_iface_init (SensorI2cIface *iface); #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 G_DEFINE_TYPE_WITH_CODE (SensorI2cSkeleton, sensor_i2c_skeleton, G_TYPE_DBUS_INTERFACE_SKELETON, G_ADD_PRIVATE (SensorI2cSkeleton) G_IMPLEMENT_INTERFACE (TYPE_SENSOR_I2C, sensor_i2c_skeleton_iface_init)); #else G_DEFINE_TYPE_WITH_CODE (SensorI2cSkeleton, sensor_i2c_skeleton, G_TYPE_DBUS_INTERFACE_SKELETON, G_IMPLEMENT_INTERFACE (TYPE_SENSOR_I2C, sensor_i2c_skeleton_iface_init)); #endif static void sensor_i2c_skeleton_finalize (GObject *object) { SensorI2cSkeleton *skeleton = SENSOR_I2C_SKELETON (object); guint n; for (n = 0; n < 2; n++) g_value_unset (&skeleton->priv->properties[n]); g_free (skeleton->priv->properties); g_list_free_full (skeleton->priv->changed_properties, (GDestroyNotify) _changed_property_free); if (skeleton->priv->changed_properties_idle_source != NULL) g_source_destroy (skeleton->priv->changed_properties_idle_source); g_main_context_unref (skeleton->priv->context); g_mutex_clear (&skeleton->priv->lock); G_OBJECT_CLASS (sensor_i2c_skeleton_parent_class)->finalize (object); } static void sensor_i2c_skeleton_get_property (GObject *object, guint prop_id, GValue *value, GParamSpec *pspec G_GNUC_UNUSED) { SensorI2cSkeleton *skeleton = SENSOR_I2C_SKELETON (object); g_assert (prop_id != 0 && prop_id - 1 < 2); g_mutex_lock (&skeleton->priv->lock); g_value_copy (&skeleton->priv->properties[prop_id - 1], value); g_mutex_unlock (&skeleton->priv->lock); } static gboolean _sensor_i2c_emit_changed (gpointer user_data) { SensorI2cSkeleton *skeleton = SENSOR_I2C_SKELETON (user_data); GList *l; GVariantBuilder builder; GVariantBuilder invalidated_builder; guint num_changes; g_mutex_lock (&skeleton->priv->lock); g_variant_builder_init (&builder, G_VARIANT_TYPE ("a{sv}")); g_variant_builder_init (&invalidated_builder, G_VARIANT_TYPE ("as")); for (l = skeleton->priv->changed_properties, num_changes = 0; l != NULL; l = l->next) { ChangedProperty *cp = l->data; GVariant *variant; const GValue *cur_value; cur_value = &skeleton->priv->properties[cp->prop_id - 1]; if (!_g_value_equal (cur_value, &cp->orig_value)) { variant = g_dbus_gvalue_to_gvariant (cur_value, G_VARIANT_TYPE (cp->info->parent_struct.signature)); g_variant_builder_add (&builder, "{sv}", cp->info->parent_struct.name, variant); g_variant_unref (variant); num_changes++; } } if (num_changes > 0) { GList *connections, *ll; GVariant *signal_variant; signal_variant = g_variant_ref_sink (g_variant_new ("(sa{sv}as)", "org.openbmc.SensorI2c", &builder, &invalidated_builder)); connections = g_dbus_interface_skeleton_get_connections (G_DBUS_INTERFACE_SKELETON (skeleton)); for (ll = connections; ll != NULL; ll = ll->next) { GDBusConnection *connection = ll->data; g_dbus_connection_emit_signal (connection, NULL, g_dbus_interface_skeleton_get_object_path (G_DBUS_INTERFACE_SKELETON (skeleton)), "org.freedesktop.DBus.Properties", "PropertiesChanged", signal_variant, NULL); } g_variant_unref (signal_variant); g_list_free_full (connections, g_object_unref); } else { g_variant_builder_clear (&builder); g_variant_builder_clear (&invalidated_builder); } g_list_free_full (skeleton->priv->changed_properties, (GDestroyNotify) _changed_property_free); skeleton->priv->changed_properties = NULL; skeleton->priv->changed_properties_idle_source = NULL; g_mutex_unlock (&skeleton->priv->lock); return FALSE; } static void _sensor_i2c_schedule_emit_changed (SensorI2cSkeleton *skeleton, const _ExtendedGDBusPropertyInfo *info, guint prop_id, const GValue *orig_value) { ChangedProperty *cp; GList *l; cp = NULL; for (l = skeleton->priv->changed_properties; l != NULL; l = l->next) { ChangedProperty *i_cp = l->data; if (i_cp->info == info) { cp = i_cp; break; } } if (cp == NULL) { cp = g_new0 (ChangedProperty, 1); cp->prop_id = prop_id; cp->info = info; skeleton->priv->changed_properties = g_list_prepend (skeleton->priv->changed_properties, cp); g_value_init (&cp->orig_value, G_VALUE_TYPE (orig_value)); g_value_copy (orig_value, &cp->orig_value); } } static void sensor_i2c_skeleton_notify (GObject *object, GParamSpec *pspec G_GNUC_UNUSED) { SensorI2cSkeleton *skeleton = SENSOR_I2C_SKELETON (object); g_mutex_lock (&skeleton->priv->lock); if (skeleton->priv->changed_properties != NULL && skeleton->priv->changed_properties_idle_source == NULL) { skeleton->priv->changed_properties_idle_source = g_idle_source_new (); g_source_set_priority (skeleton->priv->changed_properties_idle_source, G_PRIORITY_DEFAULT); g_source_set_callback (skeleton->priv->changed_properties_idle_source, _sensor_i2c_emit_changed, g_object_ref (skeleton), (GDestroyNotify) g_object_unref); g_source_set_name (skeleton->priv->changed_properties_idle_source, "[generated] _sensor_i2c_emit_changed"); g_source_attach (skeleton->priv->changed_properties_idle_source, skeleton->priv->context); g_source_unref (skeleton->priv->changed_properties_idle_source); } g_mutex_unlock (&skeleton->priv->lock); } static void sensor_i2c_skeleton_set_property (GObject *object, guint prop_id, const GValue *value, GParamSpec *pspec) { SensorI2cSkeleton *skeleton = SENSOR_I2C_SKELETON (object); g_assert (prop_id != 0 && prop_id - 1 < 2); g_mutex_lock (&skeleton->priv->lock); g_object_freeze_notify (object); if (!_g_value_equal (value, &skeleton->priv->properties[prop_id - 1])) { if (g_dbus_interface_skeleton_get_connection (G_DBUS_INTERFACE_SKELETON (skeleton)) != NULL) _sensor_i2c_schedule_emit_changed (skeleton, _sensor_i2c_property_info_pointers[prop_id - 1], prop_id, &skeleton->priv->properties[prop_id - 1]); g_value_copy (value, &skeleton->priv->properties[prop_id - 1]); g_object_notify_by_pspec (object, pspec); } g_mutex_unlock (&skeleton->priv->lock); g_object_thaw_notify (object); } static void sensor_i2c_skeleton_init (SensorI2cSkeleton *skeleton) { #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 skeleton->priv = sensor_i2c_skeleton_get_instance_private (skeleton); #else skeleton->priv = G_TYPE_INSTANCE_GET_PRIVATE (skeleton, TYPE_SENSOR_I2C_SKELETON, SensorI2cSkeletonPrivate); #endif g_mutex_init (&skeleton->priv->lock); skeleton->priv->context = g_main_context_ref_thread_default (); skeleton->priv->properties = g_new0 (GValue, 2); g_value_init (&skeleton->priv->properties[0], G_TYPE_STRING); g_value_init (&skeleton->priv->properties[1], G_TYPE_STRING); } static const gchar * sensor_i2c_skeleton_get_dev_path (SensorI2c *object) { SensorI2cSkeleton *skeleton = SENSOR_I2C_SKELETON (object); const gchar *value; g_mutex_lock (&skeleton->priv->lock); value = g_value_get_string (&(skeleton->priv->properties[0])); g_mutex_unlock (&skeleton->priv->lock); return value; } static const gchar * sensor_i2c_skeleton_get_address (SensorI2c *object) { SensorI2cSkeleton *skeleton = SENSOR_I2C_SKELETON (object); const gchar *value; g_mutex_lock (&skeleton->priv->lock); value = g_value_get_string (&(skeleton->priv->properties[1])); g_mutex_unlock (&skeleton->priv->lock); return value; } static void sensor_i2c_skeleton_class_init (SensorI2cSkeletonClass *klass) { GObjectClass *gobject_class; GDBusInterfaceSkeletonClass *skeleton_class; gobject_class = G_OBJECT_CLASS (klass); gobject_class->finalize = sensor_i2c_skeleton_finalize; gobject_class->get_property = sensor_i2c_skeleton_get_property; gobject_class->set_property = sensor_i2c_skeleton_set_property; gobject_class->notify = sensor_i2c_skeleton_notify; sensor_i2c_override_properties (gobject_class, 1); skeleton_class = G_DBUS_INTERFACE_SKELETON_CLASS (klass); skeleton_class->get_info = sensor_i2c_skeleton_dbus_interface_get_info; skeleton_class->get_properties = sensor_i2c_skeleton_dbus_interface_get_properties; skeleton_class->flush = sensor_i2c_skeleton_dbus_interface_flush; skeleton_class->get_vtable = sensor_i2c_skeleton_dbus_interface_get_vtable; #if GLIB_VERSION_MAX_ALLOWED < GLIB_VERSION_2_38 g_type_class_add_private (klass, sizeof (SensorI2cSkeletonPrivate)); #endif } static void sensor_i2c_skeleton_iface_init (SensorI2cIface *iface) { iface->get_dev_path = sensor_i2c_skeleton_get_dev_path; iface->get_address = sensor_i2c_skeleton_get_address; } /** * sensor_i2c_skeleton_new: * * Creates a skeleton object for the D-Bus interface org.openbmc.SensorI2c. * * Returns: (transfer full) (type SensorI2cSkeleton): The skeleton object. */ SensorI2c * sensor_i2c_skeleton_new (void) { return SENSOR_I2C (g_object_new (TYPE_SENSOR_I2C_SKELETON, NULL)); } /* ------------------------------------------------------------------------ * Code for interface org.openbmc.SensorMatch * ------------------------------------------------------------------------ */ /** * SECTION:SensorMatch * @title: SensorMatch * @short_description: Generated C code for the org.openbmc.SensorMatch D-Bus interface * * This section contains code for working with the org.openbmc.SensorMatch D-Bus interface in C. */ /* ---- Introspection data for org.openbmc.SensorMatch ---- */ static const _ExtendedGDBusArgInfo _sensor_match_signal_info_sensor_match_ARG_state = { { -1, (gchar *) "state", (gchar *) "y", NULL }, FALSE }; static const _ExtendedGDBusArgInfo * const _sensor_match_signal_info_sensor_match_ARG_pointers[] = { &_sensor_match_signal_info_sensor_match_ARG_state, NULL }; static const _ExtendedGDBusSignalInfo _sensor_match_signal_info_sensor_match = { { -1, (gchar *) "SensorMatch", (GDBusArgInfo **) &_sensor_match_signal_info_sensor_match_ARG_pointers, NULL }, "sensor-match" }; static const _ExtendedGDBusSignalInfo * const _sensor_match_signal_info_pointers[] = { &_sensor_match_signal_info_sensor_match, NULL }; static const _ExtendedGDBusPropertyInfo _sensor_match_property_info_match_value = { { -1, (gchar *) "match_value", (gchar *) "v", G_DBUS_PROPERTY_INFO_FLAGS_READABLE, NULL }, "match-value", FALSE }; static const _ExtendedGDBusPropertyInfo _sensor_match_property_info_state = { { -1, (gchar *) "state", (gchar *) "y", G_DBUS_PROPERTY_INFO_FLAGS_READABLE, NULL }, "state", FALSE }; static const _ExtendedGDBusPropertyInfo * const _sensor_match_property_info_pointers[] = { &_sensor_match_property_info_match_value, &_sensor_match_property_info_state, NULL }; static const _ExtendedGDBusInterfaceInfo _sensor_match_interface_info = { { -1, (gchar *) "org.openbmc.SensorMatch", NULL, (GDBusSignalInfo **) &_sensor_match_signal_info_pointers, (GDBusPropertyInfo **) &_sensor_match_property_info_pointers, NULL }, "sensor-match", }; /** * sensor_match_interface_info: * * Gets a machine-readable description of the org.openbmc.SensorMatch D-Bus interface. * * Returns: (transfer none): A #GDBusInterfaceInfo. Do not free. */ GDBusInterfaceInfo * sensor_match_interface_info (void) { return (GDBusInterfaceInfo *) &_sensor_match_interface_info.parent_struct; } /** * sensor_match_override_properties: * @klass: The class structure for a #GObject-derived class. * @property_id_begin: The property id to assign to the first overridden property. * * Overrides all #GObject properties in the #SensorMatch interface for a concrete class. * The properties are overridden in the order they are defined. * * Returns: The last property id. */ guint sensor_match_override_properties (GObjectClass *klass, guint property_id_begin) { g_object_class_override_property (klass, property_id_begin++, "match-value"); g_object_class_override_property (klass, property_id_begin++, "state"); return property_id_begin - 1; } /** * SensorMatch: * * Abstract interface type for the D-Bus interface org.openbmc.SensorMatch. */ /** * SensorMatchIface: * @parent_iface: The parent interface. * @get_match_value: Getter for the #SensorMatch:match-value property. * @get_state: Getter for the #SensorMatch:state property. * @sensor_match: Handler for the #SensorMatch::sensor-match signal. * * Virtual table for the D-Bus interface org.openbmc.SensorMatch. */ typedef SensorMatchIface SensorMatchInterface; G_DEFINE_INTERFACE (SensorMatch, sensor_match, G_TYPE_OBJECT); static void sensor_match_default_init (SensorMatchIface *iface) { /* GObject signals for received D-Bus signals: */ /** * SensorMatch::sensor-match: * @object: A #SensorMatch. * @arg_state: Argument. * * On the client-side, this signal is emitted whenever the D-Bus signal "SensorMatch" is received. * * On the service-side, this signal can be used with e.g. g_signal_emit_by_name() to make the object emit the D-Bus signal. */ g_signal_new ("sensor-match", G_TYPE_FROM_INTERFACE (iface), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (SensorMatchIface, sensor_match), NULL, NULL, g_cclosure_marshal_generic, G_TYPE_NONE, 1, G_TYPE_UCHAR); /* GObject properties for D-Bus properties: */ /** * SensorMatch:match-value: * * Represents the D-Bus property "match_value". * * Since the D-Bus property for this #GObject property is readable but not writable, it is meaningful to read from it on both the client- and service-side. It is only meaningful, however, to write to it on the service-side. */ g_object_interface_install_property (iface, g_param_spec_variant ("match-value", "match_value", "match_value", G_VARIANT_TYPE ("v"), NULL, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS)); /** * SensorMatch:state: * * Represents the D-Bus property "state". * * Since the D-Bus property for this #GObject property is readable but not writable, it is meaningful to read from it on both the client- and service-side. It is only meaningful, however, to write to it on the service-side. */ g_object_interface_install_property (iface, g_param_spec_uchar ("state", "state", "state", 0, 255, 0, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS)); } /** * sensor_match_get_match_value: (skip) * @object: A #SensorMatch. * * Gets the value of the "match_value" D-Bus property. * * Since this D-Bus property is readable, it is meaningful to use this function on both the client- and service-side. * * The returned value is only valid until the property changes so on the client-side it is only safe to use this function on the thread where @object was constructed. Use sensor_match_dup_match_value() if on another thread. * * Returns: (transfer none): The property value or %NULL if the property is not set. Do not free the returned value, it belongs to @object. */ GVariant * sensor_match_get_match_value (SensorMatch *object) { return SENSOR_MATCH_GET_IFACE (object)->get_match_value (object); } /** * sensor_match_dup_match_value: (skip) * @object: A #SensorMatch. * * Gets a copy of the "match_value" D-Bus property. * * Since this D-Bus property is readable, it is meaningful to use this function on both the client- and service-side. * * Returns: (transfer full): The property value or %NULL if the property is not set. The returned value should be freed with g_variant_unref(). */ GVariant * sensor_match_dup_match_value (SensorMatch *object) { GVariant *value; g_object_get (G_OBJECT (object), "match-value", &value, NULL); return value; } /** * sensor_match_set_match_value: (skip) * @object: A #SensorMatch. * @value: The value to set. * * Sets the "match_value" D-Bus property to @value. * * Since this D-Bus property is not writable, it is only meaningful to use this function on the service-side. */ void sensor_match_set_match_value (SensorMatch *object, GVariant *value) { g_object_set (G_OBJECT (object), "match-value", value, NULL); } /** * sensor_match_get_state: (skip) * @object: A #SensorMatch. * * Gets the value of the "state" D-Bus property. * * Since this D-Bus property is readable, it is meaningful to use this function on both the client- and service-side. * * Returns: The property value. */ guchar sensor_match_get_state (SensorMatch *object) { return SENSOR_MATCH_GET_IFACE (object)->get_state (object); } /** * sensor_match_set_state: (skip) * @object: A #SensorMatch. * @value: The value to set. * * Sets the "state" D-Bus property to @value. * * Since this D-Bus property is not writable, it is only meaningful to use this function on the service-side. */ void sensor_match_set_state (SensorMatch *object, guchar value) { g_object_set (G_OBJECT (object), "state", value, NULL); } /** * sensor_match_emit_sensor_match: * @object: A #SensorMatch. * @arg_state: Argument to pass with the signal. * * Emits the "SensorMatch" D-Bus signal. */ void sensor_match_emit_sensor_match ( SensorMatch *object, guchar arg_state) { g_signal_emit_by_name (object, "sensor-match", arg_state); } /* ------------------------------------------------------------------------ */ /** * SensorMatchProxy: * * The #SensorMatchProxy structure contains only private data and should only be accessed using the provided API. */ /** * SensorMatchProxyClass: * @parent_class: The parent class. * * Class structure for #SensorMatchProxy. */ struct _SensorMatchProxyPrivate { GData *qdata; }; static void sensor_match_proxy_iface_init (SensorMatchIface *iface); #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 G_DEFINE_TYPE_WITH_CODE (SensorMatchProxy, sensor_match_proxy, G_TYPE_DBUS_PROXY, G_ADD_PRIVATE (SensorMatchProxy) G_IMPLEMENT_INTERFACE (TYPE_SENSOR_MATCH, sensor_match_proxy_iface_init)); #else G_DEFINE_TYPE_WITH_CODE (SensorMatchProxy, sensor_match_proxy, G_TYPE_DBUS_PROXY, G_IMPLEMENT_INTERFACE (TYPE_SENSOR_MATCH, sensor_match_proxy_iface_init)); #endif static void sensor_match_proxy_finalize (GObject *object) { SensorMatchProxy *proxy = SENSOR_MATCH_PROXY (object); g_datalist_clear (&proxy->priv->qdata); G_OBJECT_CLASS (sensor_match_proxy_parent_class)->finalize (object); } static void sensor_match_proxy_get_property (GObject *object, guint prop_id, GValue *value, GParamSpec *pspec G_GNUC_UNUSED) { const _ExtendedGDBusPropertyInfo *info; GVariant *variant; g_assert (prop_id != 0 && prop_id - 1 < 2); info = _sensor_match_property_info_pointers[prop_id - 1]; variant = g_dbus_proxy_get_cached_property (G_DBUS_PROXY (object), info->parent_struct.name); if (info->use_gvariant) { g_value_set_variant (value, variant); } else { if (variant != NULL) g_dbus_gvariant_to_gvalue (variant, value); } if (variant != NULL) g_variant_unref (variant); } static void sensor_match_proxy_set_property_cb (GDBusProxy *proxy, GAsyncResult *res, gpointer user_data) { const _ExtendedGDBusPropertyInfo *info = user_data; GError *error; GVariant *_ret; error = NULL; _ret = g_dbus_proxy_call_finish (proxy, res, &error); if (!_ret) { g_warning ("Error setting property '%s' on interface org.openbmc.SensorMatch: %s (%s, %d)", info->parent_struct.name, error->message, g_quark_to_string (error->domain), error->code); g_error_free (error); } else { g_variant_unref (_ret); } } static void sensor_match_proxy_set_property (GObject *object, guint prop_id, const GValue *value, GParamSpec *pspec G_GNUC_UNUSED) { const _ExtendedGDBusPropertyInfo *info; GVariant *variant; g_assert (prop_id != 0 && prop_id - 1 < 2); info = _sensor_match_property_info_pointers[prop_id - 1]; variant = g_dbus_gvalue_to_gvariant (value, G_VARIANT_TYPE (info->parent_struct.signature)); g_dbus_proxy_call (G_DBUS_PROXY (object), "org.freedesktop.DBus.Properties.Set", g_variant_new ("(ssv)", "org.openbmc.SensorMatch", info->parent_struct.name, variant), G_DBUS_CALL_FLAGS_NONE, -1, NULL, (GAsyncReadyCallback) sensor_match_proxy_set_property_cb, (GDBusPropertyInfo *) &info->parent_struct); g_variant_unref (variant); } static void sensor_match_proxy_g_signal (GDBusProxy *proxy, const gchar *sender_name G_GNUC_UNUSED, const gchar *signal_name, GVariant *parameters) { _ExtendedGDBusSignalInfo *info; GVariantIter iter; GVariant *child; GValue *paramv; guint num_params; guint n; guint signal_id; info = (_ExtendedGDBusSignalInfo *) g_dbus_interface_info_lookup_signal ((GDBusInterfaceInfo *) &_sensor_match_interface_info.parent_struct, signal_name); if (info == NULL) return; num_params = g_variant_n_children (parameters); paramv = g_new0 (GValue, num_params + 1); g_value_init (¶mv[0], TYPE_SENSOR_MATCH); g_value_set_object (¶mv[0], proxy); g_variant_iter_init (&iter, parameters); n = 1; while ((child = g_variant_iter_next_value (&iter)) != NULL) { _ExtendedGDBusArgInfo *arg_info = (_ExtendedGDBusArgInfo *) info->parent_struct.args[n - 1]; if (arg_info->use_gvariant) { g_value_init (¶mv[n], G_TYPE_VARIANT); g_value_set_variant (¶mv[n], child); n++; } else g_dbus_gvariant_to_gvalue (child, ¶mv[n++]); g_variant_unref (child); } signal_id = g_signal_lookup (info->signal_name, TYPE_SENSOR_MATCH); g_signal_emitv (paramv, signal_id, 0, NULL); for (n = 0; n < num_params + 1; n++) g_value_unset (¶mv[n]); g_free (paramv); } static void sensor_match_proxy_g_properties_changed (GDBusProxy *_proxy, GVariant *changed_properties, const gchar *const *invalidated_properties) { SensorMatchProxy *proxy = SENSOR_MATCH_PROXY (_proxy); guint n; const gchar *key; GVariantIter *iter; _ExtendedGDBusPropertyInfo *info; g_variant_get (changed_properties, "a{sv}", &iter); while (g_variant_iter_next (iter, "{&sv}", &key, NULL)) { info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_sensor_match_interface_info.parent_struct, key); g_datalist_remove_data (&proxy->priv->qdata, key); if (info != NULL) g_object_notify (G_OBJECT (proxy), info->hyphen_name); } g_variant_iter_free (iter); for (n = 0; invalidated_properties[n] != NULL; n++) { info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_sensor_match_interface_info.parent_struct, invalidated_properties[n]); g_datalist_remove_data (&proxy->priv->qdata, invalidated_properties[n]); if (info != NULL) g_object_notify (G_OBJECT (proxy), info->hyphen_name); } } static GVariant * sensor_match_proxy_get_match_value (SensorMatch *object) { SensorMatchProxy *proxy = SENSOR_MATCH_PROXY (object); GVariant *variant; GVariant *value = NULL; variant = g_dbus_proxy_get_cached_property (G_DBUS_PROXY (proxy), "match_value"); value = variant; if (variant != NULL) g_variant_unref (variant); return value; } static guchar sensor_match_proxy_get_state (SensorMatch *object) { SensorMatchProxy *proxy = SENSOR_MATCH_PROXY (object); GVariant *variant; guchar value = 0; variant = g_dbus_proxy_get_cached_property (G_DBUS_PROXY (proxy), "state"); if (variant != NULL) { value = g_variant_get_byte (variant); g_variant_unref (variant); } return value; } static void sensor_match_proxy_init (SensorMatchProxy *proxy) { #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 proxy->priv = sensor_match_proxy_get_instance_private (proxy); #else proxy->priv = G_TYPE_INSTANCE_GET_PRIVATE (proxy, TYPE_SENSOR_MATCH_PROXY, SensorMatchProxyPrivate); #endif g_dbus_proxy_set_interface_info (G_DBUS_PROXY (proxy), sensor_match_interface_info ()); } static void sensor_match_proxy_class_init (SensorMatchProxyClass *klass) { GObjectClass *gobject_class; GDBusProxyClass *proxy_class; gobject_class = G_OBJECT_CLASS (klass); gobject_class->finalize = sensor_match_proxy_finalize; gobject_class->get_property = sensor_match_proxy_get_property; gobject_class->set_property = sensor_match_proxy_set_property; proxy_class = G_DBUS_PROXY_CLASS (klass); proxy_class->g_signal = sensor_match_proxy_g_signal; proxy_class->g_properties_changed = sensor_match_proxy_g_properties_changed; sensor_match_override_properties (gobject_class, 1); #if GLIB_VERSION_MAX_ALLOWED < GLIB_VERSION_2_38 g_type_class_add_private (klass, sizeof (SensorMatchProxyPrivate)); #endif } static void sensor_match_proxy_iface_init (SensorMatchIface *iface) { iface->get_match_value = sensor_match_proxy_get_match_value; iface->get_state = sensor_match_proxy_get_state; } /** * sensor_match_proxy_new: * @connection: A #GDBusConnection. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: (allow-none): A bus name (well-known or unique) or %NULL if @connection is not a message bus connection. * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied. * @user_data: User data to pass to @callback. * * Asynchronously creates a proxy for the D-Bus interface org.openbmc.SensorMatch. See g_dbus_proxy_new() for more details. * * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call sensor_match_proxy_new_finish() to get the result of the operation. * * See sensor_match_proxy_new_sync() for the synchronous, blocking version of this constructor. */ void sensor_match_proxy_new ( GDBusConnection *connection, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_async_initable_new_async (TYPE_SENSOR_MATCH_PROXY, G_PRIORITY_DEFAULT, cancellable, callback, user_data, "g-flags", flags, "g-name", name, "g-connection", connection, "g-object-path", object_path, "g-interface-name", "org.openbmc.SensorMatch", NULL); } /** * sensor_match_proxy_new_finish: * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to sensor_match_proxy_new(). * @error: Return location for error or %NULL * * Finishes an operation started with sensor_match_proxy_new(). * * Returns: (transfer full) (type SensorMatchProxy): The constructed proxy object or %NULL if @error is set. */ SensorMatch * sensor_match_proxy_new_finish ( GAsyncResult *res, GError **error) { GObject *ret; GObject *source_object; source_object = g_async_result_get_source_object (res); ret = g_async_initable_new_finish (G_ASYNC_INITABLE (source_object), res, error); g_object_unref (source_object); if (ret != NULL) return SENSOR_MATCH (ret); else return NULL; } /** * sensor_match_proxy_new_sync: * @connection: A #GDBusConnection. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: (allow-none): A bus name (well-known or unique) or %NULL if @connection is not a message bus connection. * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL * * Synchronously creates a proxy for the D-Bus interface org.openbmc.SensorMatch. See g_dbus_proxy_new_sync() for more details. * * The calling thread is blocked until a reply is received. * * See sensor_match_proxy_new() for the asynchronous version of this constructor. * * Returns: (transfer full) (type SensorMatchProxy): The constructed proxy object or %NULL if @error is set. */ SensorMatch * sensor_match_proxy_new_sync ( GDBusConnection *connection, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GError **error) { GInitable *ret; ret = g_initable_new (TYPE_SENSOR_MATCH_PROXY, cancellable, error, "g-flags", flags, "g-name", name, "g-connection", connection, "g-object-path", object_path, "g-interface-name", "org.openbmc.SensorMatch", NULL); if (ret != NULL) return SENSOR_MATCH (ret); else return NULL; } /** * sensor_match_proxy_new_for_bus: * @bus_type: A #GBusType. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: A bus name (well-known or unique). * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied. * @user_data: User data to pass to @callback. * * Like sensor_match_proxy_new() but takes a #GBusType instead of a #GDBusConnection. * * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call sensor_match_proxy_new_for_bus_finish() to get the result of the operation. * * See sensor_match_proxy_new_for_bus_sync() for the synchronous, blocking version of this constructor. */ void sensor_match_proxy_new_for_bus ( GBusType bus_type, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_async_initable_new_async (TYPE_SENSOR_MATCH_PROXY, G_PRIORITY_DEFAULT, cancellable, callback, user_data, "g-flags", flags, "g-name", name, "g-bus-type", bus_type, "g-object-path", object_path, "g-interface-name", "org.openbmc.SensorMatch", NULL); } /** * sensor_match_proxy_new_for_bus_finish: * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to sensor_match_proxy_new_for_bus(). * @error: Return location for error or %NULL * * Finishes an operation started with sensor_match_proxy_new_for_bus(). * * Returns: (transfer full) (type SensorMatchProxy): The constructed proxy object or %NULL if @error is set. */ SensorMatch * sensor_match_proxy_new_for_bus_finish ( GAsyncResult *res, GError **error) { GObject *ret; GObject *source_object; source_object = g_async_result_get_source_object (res); ret = g_async_initable_new_finish (G_ASYNC_INITABLE (source_object), res, error); g_object_unref (source_object); if (ret != NULL) return SENSOR_MATCH (ret); else return NULL; } /** * sensor_match_proxy_new_for_bus_sync: * @bus_type: A #GBusType. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: A bus name (well-known or unique). * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL * * Like sensor_match_proxy_new_sync() but takes a #GBusType instead of a #GDBusConnection. * * The calling thread is blocked until a reply is received. * * See sensor_match_proxy_new_for_bus() for the asynchronous version of this constructor. * * Returns: (transfer full) (type SensorMatchProxy): The constructed proxy object or %NULL if @error is set. */ SensorMatch * sensor_match_proxy_new_for_bus_sync ( GBusType bus_type, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GError **error) { GInitable *ret; ret = g_initable_new (TYPE_SENSOR_MATCH_PROXY, cancellable, error, "g-flags", flags, "g-name", name, "g-bus-type", bus_type, "g-object-path", object_path, "g-interface-name", "org.openbmc.SensorMatch", NULL); if (ret != NULL) return SENSOR_MATCH (ret); else return NULL; } /* ------------------------------------------------------------------------ */ /** * SensorMatchSkeleton: * * The #SensorMatchSkeleton structure contains only private data and should only be accessed using the provided API. */ /** * SensorMatchSkeletonClass: * @parent_class: The parent class. * * Class structure for #SensorMatchSkeleton. */ struct _SensorMatchSkeletonPrivate { GValue *properties; GList *changed_properties; GSource *changed_properties_idle_source; GMainContext *context; GMutex lock; }; static void _sensor_match_skeleton_handle_method_call ( GDBusConnection *connection G_GNUC_UNUSED, const gchar *sender G_GNUC_UNUSED, const gchar *object_path G_GNUC_UNUSED, const gchar *interface_name, const gchar *method_name, GVariant *parameters, GDBusMethodInvocation *invocation, gpointer user_data) { SensorMatchSkeleton *skeleton = SENSOR_MATCH_SKELETON (user_data); _ExtendedGDBusMethodInfo *info; GVariantIter iter; GVariant *child; GValue *paramv; guint num_params; guint num_extra; guint n; guint signal_id; GValue return_value = G_VALUE_INIT; info = (_ExtendedGDBusMethodInfo *) g_dbus_method_invocation_get_method_info (invocation); g_assert (info != NULL); num_params = g_variant_n_children (parameters); num_extra = info->pass_fdlist ? 3 : 2; paramv = g_new0 (GValue, num_params + num_extra); n = 0; g_value_init (¶mv[n], TYPE_SENSOR_MATCH); g_value_set_object (¶mv[n++], skeleton); g_value_init (¶mv[n], G_TYPE_DBUS_METHOD_INVOCATION); g_value_set_object (¶mv[n++], invocation); if (info->pass_fdlist) { #ifdef G_OS_UNIX g_value_init (¶mv[n], G_TYPE_UNIX_FD_LIST); g_value_set_object (¶mv[n++], g_dbus_message_get_unix_fd_list (g_dbus_method_invocation_get_message (invocation))); #else g_assert_not_reached (); #endif } g_variant_iter_init (&iter, parameters); while ((child = g_variant_iter_next_value (&iter)) != NULL) { _ExtendedGDBusArgInfo *arg_info = (_ExtendedGDBusArgInfo *) info->parent_struct.in_args[n - num_extra]; if (arg_info->use_gvariant) { g_value_init (¶mv[n], G_TYPE_VARIANT); g_value_set_variant (¶mv[n], child); n++; } else g_dbus_gvariant_to_gvalue (child, ¶mv[n++]); g_variant_unref (child); } signal_id = g_signal_lookup (info->signal_name, TYPE_SENSOR_MATCH); g_value_init (&return_value, G_TYPE_BOOLEAN); g_signal_emitv (paramv, signal_id, 0, &return_value); if (!g_value_get_boolean (&return_value)) g_dbus_method_invocation_return_error (invocation, G_DBUS_ERROR, G_DBUS_ERROR_UNKNOWN_METHOD, "Method %s is not implemented on interface %s", method_name, interface_name); g_value_unset (&return_value); for (n = 0; n < num_params + num_extra; n++) g_value_unset (¶mv[n]); g_free (paramv); } static GVariant * _sensor_match_skeleton_handle_get_property ( GDBusConnection *connection G_GNUC_UNUSED, const gchar *sender G_GNUC_UNUSED, const gchar *object_path G_GNUC_UNUSED, const gchar *interface_name G_GNUC_UNUSED, const gchar *property_name, GError **error, gpointer user_data) { SensorMatchSkeleton *skeleton = SENSOR_MATCH_SKELETON (user_data); GValue value = G_VALUE_INIT; GParamSpec *pspec; _ExtendedGDBusPropertyInfo *info; GVariant *ret; ret = NULL; info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_sensor_match_interface_info.parent_struct, property_name); g_assert (info != NULL); pspec = g_object_class_find_property (G_OBJECT_GET_CLASS (skeleton), info->hyphen_name); if (pspec == NULL) { g_set_error (error, G_DBUS_ERROR, G_DBUS_ERROR_INVALID_ARGS, "No property with name %s", property_name); } else { g_value_init (&value, pspec->value_type); g_object_get_property (G_OBJECT (skeleton), info->hyphen_name, &value); ret = g_dbus_gvalue_to_gvariant (&value, G_VARIANT_TYPE (info->parent_struct.signature)); g_value_unset (&value); } return ret; } static gboolean _sensor_match_skeleton_handle_set_property ( GDBusConnection *connection G_GNUC_UNUSED, const gchar *sender G_GNUC_UNUSED, const gchar *object_path G_GNUC_UNUSED, const gchar *interface_name G_GNUC_UNUSED, const gchar *property_name, GVariant *variant, GError **error, gpointer user_data) { SensorMatchSkeleton *skeleton = SENSOR_MATCH_SKELETON (user_data); GValue value = G_VALUE_INIT; GParamSpec *pspec; _ExtendedGDBusPropertyInfo *info; gboolean ret; ret = FALSE; info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_sensor_match_interface_info.parent_struct, property_name); g_assert (info != NULL); pspec = g_object_class_find_property (G_OBJECT_GET_CLASS (skeleton), info->hyphen_name); if (pspec == NULL) { g_set_error (error, G_DBUS_ERROR, G_DBUS_ERROR_INVALID_ARGS, "No property with name %s", property_name); } else { if (info->use_gvariant) g_value_set_variant (&value, variant); else g_dbus_gvariant_to_gvalue (variant, &value); g_object_set_property (G_OBJECT (skeleton), info->hyphen_name, &value); g_value_unset (&value); ret = TRUE; } return ret; } static const GDBusInterfaceVTable _sensor_match_skeleton_vtable = { _sensor_match_skeleton_handle_method_call, _sensor_match_skeleton_handle_get_property, _sensor_match_skeleton_handle_set_property, {NULL} }; static GDBusInterfaceInfo * sensor_match_skeleton_dbus_interface_get_info (GDBusInterfaceSkeleton *skeleton G_GNUC_UNUSED) { return sensor_match_interface_info (); } static GDBusInterfaceVTable * sensor_match_skeleton_dbus_interface_get_vtable (GDBusInterfaceSkeleton *skeleton G_GNUC_UNUSED) { return (GDBusInterfaceVTable *) &_sensor_match_skeleton_vtable; } static GVariant * sensor_match_skeleton_dbus_interface_get_properties (GDBusInterfaceSkeleton *_skeleton) { SensorMatchSkeleton *skeleton = SENSOR_MATCH_SKELETON (_skeleton); GVariantBuilder builder; guint n; g_variant_builder_init (&builder, G_VARIANT_TYPE ("a{sv}")); if (_sensor_match_interface_info.parent_struct.properties == NULL) goto out; for (n = 0; _sensor_match_interface_info.parent_struct.properties[n] != NULL; n++) { GDBusPropertyInfo *info = _sensor_match_interface_info.parent_struct.properties[n]; if (info->flags & G_DBUS_PROPERTY_INFO_FLAGS_READABLE) { GVariant *value; value = _sensor_match_skeleton_handle_get_property (g_dbus_interface_skeleton_get_connection (G_DBUS_INTERFACE_SKELETON (skeleton)), NULL, g_dbus_interface_skeleton_get_object_path (G_DBUS_INTERFACE_SKELETON (skeleton)), "org.openbmc.SensorMatch", info->name, NULL, skeleton); if (value != NULL) { g_variant_take_ref (value); g_variant_builder_add (&builder, "{sv}", info->name, value); g_variant_unref (value); } } } out: return g_variant_builder_end (&builder); } static gboolean _sensor_match_emit_changed (gpointer user_data); static void sensor_match_skeleton_dbus_interface_flush (GDBusInterfaceSkeleton *_skeleton) { SensorMatchSkeleton *skeleton = SENSOR_MATCH_SKELETON (_skeleton); gboolean emit_changed = FALSE; g_mutex_lock (&skeleton->priv->lock); if (skeleton->priv->changed_properties_idle_source != NULL) { g_source_destroy (skeleton->priv->changed_properties_idle_source); skeleton->priv->changed_properties_idle_source = NULL; emit_changed = TRUE; } g_mutex_unlock (&skeleton->priv->lock); if (emit_changed) _sensor_match_emit_changed (skeleton); } static void _sensor_match_on_signal_sensor_match ( SensorMatch *object, guchar arg_state) { SensorMatchSkeleton *skeleton = SENSOR_MATCH_SKELETON (object); GList *connections, *l; GVariant *signal_variant; connections = g_dbus_interface_skeleton_get_connections (G_DBUS_INTERFACE_SKELETON (skeleton)); signal_variant = g_variant_ref_sink (g_variant_new ("(y)", arg_state)); for (l = connections; l != NULL; l = l->next) { GDBusConnection *connection = l->data; g_dbus_connection_emit_signal (connection, NULL, g_dbus_interface_skeleton_get_object_path (G_DBUS_INTERFACE_SKELETON (skeleton)), "org.openbmc.SensorMatch", "SensorMatch", signal_variant, NULL); } g_variant_unref (signal_variant); g_list_free_full (connections, g_object_unref); } static void sensor_match_skeleton_iface_init (SensorMatchIface *iface); #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 G_DEFINE_TYPE_WITH_CODE (SensorMatchSkeleton, sensor_match_skeleton, G_TYPE_DBUS_INTERFACE_SKELETON, G_ADD_PRIVATE (SensorMatchSkeleton) G_IMPLEMENT_INTERFACE (TYPE_SENSOR_MATCH, sensor_match_skeleton_iface_init)); #else G_DEFINE_TYPE_WITH_CODE (SensorMatchSkeleton, sensor_match_skeleton, G_TYPE_DBUS_INTERFACE_SKELETON, G_IMPLEMENT_INTERFACE (TYPE_SENSOR_MATCH, sensor_match_skeleton_iface_init)); #endif static void sensor_match_skeleton_finalize (GObject *object) { SensorMatchSkeleton *skeleton = SENSOR_MATCH_SKELETON (object); guint n; for (n = 0; n < 2; n++) g_value_unset (&skeleton->priv->properties[n]); g_free (skeleton->priv->properties); g_list_free_full (skeleton->priv->changed_properties, (GDestroyNotify) _changed_property_free); if (skeleton->priv->changed_properties_idle_source != NULL) g_source_destroy (skeleton->priv->changed_properties_idle_source); g_main_context_unref (skeleton->priv->context); g_mutex_clear (&skeleton->priv->lock); G_OBJECT_CLASS (sensor_match_skeleton_parent_class)->finalize (object); } static void sensor_match_skeleton_get_property (GObject *object, guint prop_id, GValue *value, GParamSpec *pspec G_GNUC_UNUSED) { SensorMatchSkeleton *skeleton = SENSOR_MATCH_SKELETON (object); g_assert (prop_id != 0 && prop_id - 1 < 2); g_mutex_lock (&skeleton->priv->lock); g_value_copy (&skeleton->priv->properties[prop_id - 1], value); g_mutex_unlock (&skeleton->priv->lock); } static gboolean _sensor_match_emit_changed (gpointer user_data) { SensorMatchSkeleton *skeleton = SENSOR_MATCH_SKELETON (user_data); GList *l; GVariantBuilder builder; GVariantBuilder invalidated_builder; guint num_changes; g_mutex_lock (&skeleton->priv->lock); g_variant_builder_init (&builder, G_VARIANT_TYPE ("a{sv}")); g_variant_builder_init (&invalidated_builder, G_VARIANT_TYPE ("as")); for (l = skeleton->priv->changed_properties, num_changes = 0; l != NULL; l = l->next) { ChangedProperty *cp = l->data; GVariant *variant; const GValue *cur_value; cur_value = &skeleton->priv->properties[cp->prop_id - 1]; if (!_g_value_equal (cur_value, &cp->orig_value)) { variant = g_dbus_gvalue_to_gvariant (cur_value, G_VARIANT_TYPE (cp->info->parent_struct.signature)); g_variant_builder_add (&builder, "{sv}", cp->info->parent_struct.name, variant); g_variant_unref (variant); num_changes++; } } if (num_changes > 0) { GList *connections, *ll; GVariant *signal_variant; signal_variant = g_variant_ref_sink (g_variant_new ("(sa{sv}as)", "org.openbmc.SensorMatch", &builder, &invalidated_builder)); connections = g_dbus_interface_skeleton_get_connections (G_DBUS_INTERFACE_SKELETON (skeleton)); for (ll = connections; ll != NULL; ll = ll->next) { GDBusConnection *connection = ll->data; g_dbus_connection_emit_signal (connection, NULL, g_dbus_interface_skeleton_get_object_path (G_DBUS_INTERFACE_SKELETON (skeleton)), "org.freedesktop.DBus.Properties", "PropertiesChanged", signal_variant, NULL); } g_variant_unref (signal_variant); g_list_free_full (connections, g_object_unref); } else { g_variant_builder_clear (&builder); g_variant_builder_clear (&invalidated_builder); } g_list_free_full (skeleton->priv->changed_properties, (GDestroyNotify) _changed_property_free); skeleton->priv->changed_properties = NULL; skeleton->priv->changed_properties_idle_source = NULL; g_mutex_unlock (&skeleton->priv->lock); return FALSE; } static void _sensor_match_schedule_emit_changed (SensorMatchSkeleton *skeleton, const _ExtendedGDBusPropertyInfo *info, guint prop_id, const GValue *orig_value) { ChangedProperty *cp; GList *l; cp = NULL; for (l = skeleton->priv->changed_properties; l != NULL; l = l->next) { ChangedProperty *i_cp = l->data; if (i_cp->info == info) { cp = i_cp; break; } } if (cp == NULL) { cp = g_new0 (ChangedProperty, 1); cp->prop_id = prop_id; cp->info = info; skeleton->priv->changed_properties = g_list_prepend (skeleton->priv->changed_properties, cp); g_value_init (&cp->orig_value, G_VALUE_TYPE (orig_value)); g_value_copy (orig_value, &cp->orig_value); } } static void sensor_match_skeleton_notify (GObject *object, GParamSpec *pspec G_GNUC_UNUSED) { SensorMatchSkeleton *skeleton = SENSOR_MATCH_SKELETON (object); g_mutex_lock (&skeleton->priv->lock); if (skeleton->priv->changed_properties != NULL && skeleton->priv->changed_properties_idle_source == NULL) { skeleton->priv->changed_properties_idle_source = g_idle_source_new (); g_source_set_priority (skeleton->priv->changed_properties_idle_source, G_PRIORITY_DEFAULT); g_source_set_callback (skeleton->priv->changed_properties_idle_source, _sensor_match_emit_changed, g_object_ref (skeleton), (GDestroyNotify) g_object_unref); g_source_set_name (skeleton->priv->changed_properties_idle_source, "[generated] _sensor_match_emit_changed"); g_source_attach (skeleton->priv->changed_properties_idle_source, skeleton->priv->context); g_source_unref (skeleton->priv->changed_properties_idle_source); } g_mutex_unlock (&skeleton->priv->lock); } static void sensor_match_skeleton_set_property (GObject *object, guint prop_id, const GValue *value, GParamSpec *pspec) { SensorMatchSkeleton *skeleton = SENSOR_MATCH_SKELETON (object); g_assert (prop_id != 0 && prop_id - 1 < 2); g_mutex_lock (&skeleton->priv->lock); g_object_freeze_notify (object); if (!_g_value_equal (value, &skeleton->priv->properties[prop_id - 1])) { if (g_dbus_interface_skeleton_get_connection (G_DBUS_INTERFACE_SKELETON (skeleton)) != NULL) _sensor_match_schedule_emit_changed (skeleton, _sensor_match_property_info_pointers[prop_id - 1], prop_id, &skeleton->priv->properties[prop_id - 1]); g_value_copy (value, &skeleton->priv->properties[prop_id - 1]); g_object_notify_by_pspec (object, pspec); } g_mutex_unlock (&skeleton->priv->lock); g_object_thaw_notify (object); } static void sensor_match_skeleton_init (SensorMatchSkeleton *skeleton) { #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 skeleton->priv = sensor_match_skeleton_get_instance_private (skeleton); #else skeleton->priv = G_TYPE_INSTANCE_GET_PRIVATE (skeleton, TYPE_SENSOR_MATCH_SKELETON, SensorMatchSkeletonPrivate); #endif g_mutex_init (&skeleton->priv->lock); skeleton->priv->context = g_main_context_ref_thread_default (); skeleton->priv->properties = g_new0 (GValue, 2); g_value_init (&skeleton->priv->properties[0], G_TYPE_VARIANT); g_value_init (&skeleton->priv->properties[1], G_TYPE_UCHAR); } static GVariant * sensor_match_skeleton_get_match_value (SensorMatch *object) { SensorMatchSkeleton *skeleton = SENSOR_MATCH_SKELETON (object); GVariant *value; g_mutex_lock (&skeleton->priv->lock); value = g_value_get_variant (&(skeleton->priv->properties[0])); g_mutex_unlock (&skeleton->priv->lock); return value; } static guchar sensor_match_skeleton_get_state (SensorMatch *object) { SensorMatchSkeleton *skeleton = SENSOR_MATCH_SKELETON (object); guchar value; g_mutex_lock (&skeleton->priv->lock); value = g_value_get_uchar (&(skeleton->priv->properties[1])); g_mutex_unlock (&skeleton->priv->lock); return value; } static void sensor_match_skeleton_class_init (SensorMatchSkeletonClass *klass) { GObjectClass *gobject_class; GDBusInterfaceSkeletonClass *skeleton_class; gobject_class = G_OBJECT_CLASS (klass); gobject_class->finalize = sensor_match_skeleton_finalize; gobject_class->get_property = sensor_match_skeleton_get_property; gobject_class->set_property = sensor_match_skeleton_set_property; gobject_class->notify = sensor_match_skeleton_notify; sensor_match_override_properties (gobject_class, 1); skeleton_class = G_DBUS_INTERFACE_SKELETON_CLASS (klass); skeleton_class->get_info = sensor_match_skeleton_dbus_interface_get_info; skeleton_class->get_properties = sensor_match_skeleton_dbus_interface_get_properties; skeleton_class->flush = sensor_match_skeleton_dbus_interface_flush; skeleton_class->get_vtable = sensor_match_skeleton_dbus_interface_get_vtable; #if GLIB_VERSION_MAX_ALLOWED < GLIB_VERSION_2_38 g_type_class_add_private (klass, sizeof (SensorMatchSkeletonPrivate)); #endif } static void sensor_match_skeleton_iface_init (SensorMatchIface *iface) { iface->sensor_match = _sensor_match_on_signal_sensor_match; iface->get_match_value = sensor_match_skeleton_get_match_value; iface->get_state = sensor_match_skeleton_get_state; } /** * sensor_match_skeleton_new: * * Creates a skeleton object for the D-Bus interface org.openbmc.SensorMatch. * * Returns: (transfer full) (type SensorMatchSkeleton): The skeleton object. */ SensorMatch * sensor_match_skeleton_new (void) { return SENSOR_MATCH (g_object_new (TYPE_SENSOR_MATCH_SKELETON, NULL)); } /* ------------------------------------------------------------------------ * Code for interface org.openbmc.Process * ------------------------------------------------------------------------ */ /** * SECTION:Process * @title: Process * @short_description: Generated C code for the org.openbmc.Process D-Bus interface * * This section contains code for working with the org.openbmc.Process D-Bus interface in C. */ /* ---- Introspection data for org.openbmc.Process ---- */ static const _ExtendedGDBusMethodInfo _process_method_info_stop = { { -1, (gchar *) "stop", NULL, NULL, NULL }, "handle-stop", FALSE }; static const _ExtendedGDBusMethodInfo * const _process_method_info_pointers[] = { &_process_method_info_stop, NULL }; static const _ExtendedGDBusInterfaceInfo _process_interface_info = { { -1, (gchar *) "org.openbmc.Process", (GDBusMethodInfo **) &_process_method_info_pointers, NULL, NULL, NULL }, "process", }; /** * process_interface_info: * * Gets a machine-readable description of the org.openbmc.Process D-Bus interface. * * Returns: (transfer none): A #GDBusInterfaceInfo. Do not free. */ GDBusInterfaceInfo * process_interface_info (void) { return (GDBusInterfaceInfo *) &_process_interface_info.parent_struct; } /** * process_override_properties: * @klass: The class structure for a #GObject-derived class. * @property_id_begin: The property id to assign to the first overridden property. * * Overrides all #GObject properties in the #Process interface for a concrete class. * The properties are overridden in the order they are defined. * * Returns: The last property id. */ guint process_override_properties (GObjectClass *klass, guint property_id_begin) { return property_id_begin - 1; } /** * Process: * * Abstract interface type for the D-Bus interface org.openbmc.Process. */ /** * ProcessIface: * @parent_iface: The parent interface. * @handle_stop: Handler for the #Process::handle-stop signal. * * Virtual table for the D-Bus interface org.openbmc.Process. */ typedef ProcessIface ProcessInterface; G_DEFINE_INTERFACE (Process, process, G_TYPE_OBJECT); static void process_default_init (ProcessIface *iface) { /* GObject signals for incoming D-Bus method calls: */ /** * Process::handle-stop: * @object: A #Process. * @invocation: A #GDBusMethodInvocation. * * Signal emitted when a remote caller is invoking the stop() D-Bus method. * * If a signal handler returns %TRUE, it means the signal handler will handle the invocation (e.g. take a reference to @invocation and eventually call process_complete_stop() or e.g. g_dbus_method_invocation_return_error() on it) and no order signal handlers will run. If no signal handler handles the invocation, the %G_DBUS_ERROR_UNKNOWN_METHOD error is returned. * * Returns: %TRUE if the invocation was handled, %FALSE to let other signal handlers run. */ g_signal_new ("handle-stop", G_TYPE_FROM_INTERFACE (iface), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (ProcessIface, handle_stop), g_signal_accumulator_true_handled, NULL, g_cclosure_marshal_generic, G_TYPE_BOOLEAN, 1, G_TYPE_DBUS_METHOD_INVOCATION); } /** * process_call_stop: * @proxy: A #ProcessProxy. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied or %NULL. * @user_data: User data to pass to @callback. * * Asynchronously invokes the stop() D-Bus method on @proxy. * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call process_call_stop_finish() to get the result of the operation. * * See process_call_stop_sync() for the synchronous, blocking version of this method. */ void process_call_stop ( Process *proxy, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_dbus_proxy_call (G_DBUS_PROXY (proxy), "stop", g_variant_new ("()"), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, callback, user_data); } /** * process_call_stop_finish: * @proxy: A #ProcessProxy. * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to process_call_stop(). * @error: Return location for error or %NULL. * * Finishes an operation started with process_call_stop(). * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean process_call_stop_finish ( Process *proxy, GAsyncResult *res, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_finish (G_DBUS_PROXY (proxy), res, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "()"); g_variant_unref (_ret); _out: return _ret != NULL; } /** * process_call_stop_sync: * @proxy: A #ProcessProxy. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL. * * Synchronously invokes the stop() D-Bus method on @proxy. The calling thread is blocked until a reply is received. * * See process_call_stop() for the asynchronous version of this method. * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean process_call_stop_sync ( Process *proxy, GCancellable *cancellable, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_sync (G_DBUS_PROXY (proxy), "stop", g_variant_new ("()"), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "()"); g_variant_unref (_ret); _out: return _ret != NULL; } /** * process_complete_stop: * @object: A #Process. * @invocation: (transfer full): A #GDBusMethodInvocation. * * Helper function used in service implementations to finish handling invocations of the stop() D-Bus method. If you instead want to finish handling an invocation by returning an error, use g_dbus_method_invocation_return_error() or similar. * * This method will free @invocation, you cannot use it afterwards. */ void process_complete_stop ( Process *object, GDBusMethodInvocation *invocation) { g_dbus_method_invocation_return_value (invocation, g_variant_new ("()")); } /* ------------------------------------------------------------------------ */ /** * ProcessProxy: * * The #ProcessProxy structure contains only private data and should only be accessed using the provided API. */ /** * ProcessProxyClass: * @parent_class: The parent class. * * Class structure for #ProcessProxy. */ struct _ProcessProxyPrivate { GData *qdata; }; static void process_proxy_iface_init (ProcessIface *iface); #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 G_DEFINE_TYPE_WITH_CODE (ProcessProxy, process_proxy, G_TYPE_DBUS_PROXY, G_ADD_PRIVATE (ProcessProxy) G_IMPLEMENT_INTERFACE (TYPE_PROCESS, process_proxy_iface_init)); #else G_DEFINE_TYPE_WITH_CODE (ProcessProxy, process_proxy, G_TYPE_DBUS_PROXY, G_IMPLEMENT_INTERFACE (TYPE_PROCESS, process_proxy_iface_init)); #endif static void process_proxy_finalize (GObject *object) { ProcessProxy *proxy = PROCESS_PROXY (object); g_datalist_clear (&proxy->priv->qdata); G_OBJECT_CLASS (process_proxy_parent_class)->finalize (object); } static void process_proxy_get_property (GObject *object, guint prop_id, GValue *value, GParamSpec *pspec G_GNUC_UNUSED) { } static void process_proxy_set_property (GObject *object, guint prop_id, const GValue *value, GParamSpec *pspec G_GNUC_UNUSED) { } static void process_proxy_g_signal (GDBusProxy *proxy, const gchar *sender_name G_GNUC_UNUSED, const gchar *signal_name, GVariant *parameters) { _ExtendedGDBusSignalInfo *info; GVariantIter iter; GVariant *child; GValue *paramv; guint num_params; guint n; guint signal_id; info = (_ExtendedGDBusSignalInfo *) g_dbus_interface_info_lookup_signal ((GDBusInterfaceInfo *) &_process_interface_info.parent_struct, signal_name); if (info == NULL) return; num_params = g_variant_n_children (parameters); paramv = g_new0 (GValue, num_params + 1); g_value_init (¶mv[0], TYPE_PROCESS); g_value_set_object (¶mv[0], proxy); g_variant_iter_init (&iter, parameters); n = 1; while ((child = g_variant_iter_next_value (&iter)) != NULL) { _ExtendedGDBusArgInfo *arg_info = (_ExtendedGDBusArgInfo *) info->parent_struct.args[n - 1]; if (arg_info->use_gvariant) { g_value_init (¶mv[n], G_TYPE_VARIANT); g_value_set_variant (¶mv[n], child); n++; } else g_dbus_gvariant_to_gvalue (child, ¶mv[n++]); g_variant_unref (child); } signal_id = g_signal_lookup (info->signal_name, TYPE_PROCESS); g_signal_emitv (paramv, signal_id, 0, NULL); for (n = 0; n < num_params + 1; n++) g_value_unset (¶mv[n]); g_free (paramv); } static void process_proxy_g_properties_changed (GDBusProxy *_proxy, GVariant *changed_properties, const gchar *const *invalidated_properties) { ProcessProxy *proxy = PROCESS_PROXY (_proxy); guint n; const gchar *key; GVariantIter *iter; _ExtendedGDBusPropertyInfo *info; g_variant_get (changed_properties, "a{sv}", &iter); while (g_variant_iter_next (iter, "{&sv}", &key, NULL)) { info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_process_interface_info.parent_struct, key); g_datalist_remove_data (&proxy->priv->qdata, key); if (info != NULL) g_object_notify (G_OBJECT (proxy), info->hyphen_name); } g_variant_iter_free (iter); for (n = 0; invalidated_properties[n] != NULL; n++) { info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_process_interface_info.parent_struct, invalidated_properties[n]); g_datalist_remove_data (&proxy->priv->qdata, invalidated_properties[n]); if (info != NULL) g_object_notify (G_OBJECT (proxy), info->hyphen_name); } } static void process_proxy_init (ProcessProxy *proxy) { #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 proxy->priv = process_proxy_get_instance_private (proxy); #else proxy->priv = G_TYPE_INSTANCE_GET_PRIVATE (proxy, TYPE_PROCESS_PROXY, ProcessProxyPrivate); #endif g_dbus_proxy_set_interface_info (G_DBUS_PROXY (proxy), process_interface_info ()); } static void process_proxy_class_init (ProcessProxyClass *klass) { GObjectClass *gobject_class; GDBusProxyClass *proxy_class; gobject_class = G_OBJECT_CLASS (klass); gobject_class->finalize = process_proxy_finalize; gobject_class->get_property = process_proxy_get_property; gobject_class->set_property = process_proxy_set_property; proxy_class = G_DBUS_PROXY_CLASS (klass); proxy_class->g_signal = process_proxy_g_signal; proxy_class->g_properties_changed = process_proxy_g_properties_changed; #if GLIB_VERSION_MAX_ALLOWED < GLIB_VERSION_2_38 g_type_class_add_private (klass, sizeof (ProcessProxyPrivate)); #endif } static void process_proxy_iface_init (ProcessIface *iface) { } /** * process_proxy_new: * @connection: A #GDBusConnection. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: (allow-none): A bus name (well-known or unique) or %NULL if @connection is not a message bus connection. * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied. * @user_data: User data to pass to @callback. * * Asynchronously creates a proxy for the D-Bus interface org.openbmc.Process. See g_dbus_proxy_new() for more details. * * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call process_proxy_new_finish() to get the result of the operation. * * See process_proxy_new_sync() for the synchronous, blocking version of this constructor. */ void process_proxy_new ( GDBusConnection *connection, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_async_initable_new_async (TYPE_PROCESS_PROXY, G_PRIORITY_DEFAULT, cancellable, callback, user_data, "g-flags", flags, "g-name", name, "g-connection", connection, "g-object-path", object_path, "g-interface-name", "org.openbmc.Process", NULL); } /** * process_proxy_new_finish: * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to process_proxy_new(). * @error: Return location for error or %NULL * * Finishes an operation started with process_proxy_new(). * * Returns: (transfer full) (type ProcessProxy): The constructed proxy object or %NULL if @error is set. */ Process * process_proxy_new_finish ( GAsyncResult *res, GError **error) { GObject *ret; GObject *source_object; source_object = g_async_result_get_source_object (res); ret = g_async_initable_new_finish (G_ASYNC_INITABLE (source_object), res, error); g_object_unref (source_object); if (ret != NULL) return PROCESS (ret); else return NULL; } /** * process_proxy_new_sync: * @connection: A #GDBusConnection. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: (allow-none): A bus name (well-known or unique) or %NULL if @connection is not a message bus connection. * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL * * Synchronously creates a proxy for the D-Bus interface org.openbmc.Process. See g_dbus_proxy_new_sync() for more details. * * The calling thread is blocked until a reply is received. * * See process_proxy_new() for the asynchronous version of this constructor. * * Returns: (transfer full) (type ProcessProxy): The constructed proxy object or %NULL if @error is set. */ Process * process_proxy_new_sync ( GDBusConnection *connection, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GError **error) { GInitable *ret; ret = g_initable_new (TYPE_PROCESS_PROXY, cancellable, error, "g-flags", flags, "g-name", name, "g-connection", connection, "g-object-path", object_path, "g-interface-name", "org.openbmc.Process", NULL); if (ret != NULL) return PROCESS (ret); else return NULL; } /** * process_proxy_new_for_bus: * @bus_type: A #GBusType. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: A bus name (well-known or unique). * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied. * @user_data: User data to pass to @callback. * * Like process_proxy_new() but takes a #GBusType instead of a #GDBusConnection. * * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call process_proxy_new_for_bus_finish() to get the result of the operation. * * See process_proxy_new_for_bus_sync() for the synchronous, blocking version of this constructor. */ void process_proxy_new_for_bus ( GBusType bus_type, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_async_initable_new_async (TYPE_PROCESS_PROXY, G_PRIORITY_DEFAULT, cancellable, callback, user_data, "g-flags", flags, "g-name", name, "g-bus-type", bus_type, "g-object-path", object_path, "g-interface-name", "org.openbmc.Process", NULL); } /** * process_proxy_new_for_bus_finish: * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to process_proxy_new_for_bus(). * @error: Return location for error or %NULL * * Finishes an operation started with process_proxy_new_for_bus(). * * Returns: (transfer full) (type ProcessProxy): The constructed proxy object or %NULL if @error is set. */ Process * process_proxy_new_for_bus_finish ( GAsyncResult *res, GError **error) { GObject *ret; GObject *source_object; source_object = g_async_result_get_source_object (res); ret = g_async_initable_new_finish (G_ASYNC_INITABLE (source_object), res, error); g_object_unref (source_object); if (ret != NULL) return PROCESS (ret); else return NULL; } /** * process_proxy_new_for_bus_sync: * @bus_type: A #GBusType. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: A bus name (well-known or unique). * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL * * Like process_proxy_new_sync() but takes a #GBusType instead of a #GDBusConnection. * * The calling thread is blocked until a reply is received. * * See process_proxy_new_for_bus() for the asynchronous version of this constructor. * * Returns: (transfer full) (type ProcessProxy): The constructed proxy object or %NULL if @error is set. */ Process * process_proxy_new_for_bus_sync ( GBusType bus_type, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GError **error) { GInitable *ret; ret = g_initable_new (TYPE_PROCESS_PROXY, cancellable, error, "g-flags", flags, "g-name", name, "g-bus-type", bus_type, "g-object-path", object_path, "g-interface-name", "org.openbmc.Process", NULL); if (ret != NULL) return PROCESS (ret); else return NULL; } /* ------------------------------------------------------------------------ */ /** * ProcessSkeleton: * * The #ProcessSkeleton structure contains only private data and should only be accessed using the provided API. */ /** * ProcessSkeletonClass: * @parent_class: The parent class. * * Class structure for #ProcessSkeleton. */ struct _ProcessSkeletonPrivate { GValue *properties; GList *changed_properties; GSource *changed_properties_idle_source; GMainContext *context; GMutex lock; }; static void _process_skeleton_handle_method_call ( GDBusConnection *connection G_GNUC_UNUSED, const gchar *sender G_GNUC_UNUSED, const gchar *object_path G_GNUC_UNUSED, const gchar *interface_name, const gchar *method_name, GVariant *parameters, GDBusMethodInvocation *invocation, gpointer user_data) { ProcessSkeleton *skeleton = PROCESS_SKELETON (user_data); _ExtendedGDBusMethodInfo *info; GVariantIter iter; GVariant *child; GValue *paramv; guint num_params; guint num_extra; guint n; guint signal_id; GValue return_value = G_VALUE_INIT; info = (_ExtendedGDBusMethodInfo *) g_dbus_method_invocation_get_method_info (invocation); g_assert (info != NULL); num_params = g_variant_n_children (parameters); num_extra = info->pass_fdlist ? 3 : 2; paramv = g_new0 (GValue, num_params + num_extra); n = 0; g_value_init (¶mv[n], TYPE_PROCESS); g_value_set_object (¶mv[n++], skeleton); g_value_init (¶mv[n], G_TYPE_DBUS_METHOD_INVOCATION); g_value_set_object (¶mv[n++], invocation); if (info->pass_fdlist) { #ifdef G_OS_UNIX g_value_init (¶mv[n], G_TYPE_UNIX_FD_LIST); g_value_set_object (¶mv[n++], g_dbus_message_get_unix_fd_list (g_dbus_method_invocation_get_message (invocation))); #else g_assert_not_reached (); #endif } g_variant_iter_init (&iter, parameters); while ((child = g_variant_iter_next_value (&iter)) != NULL) { _ExtendedGDBusArgInfo *arg_info = (_ExtendedGDBusArgInfo *) info->parent_struct.in_args[n - num_extra]; if (arg_info->use_gvariant) { g_value_init (¶mv[n], G_TYPE_VARIANT); g_value_set_variant (¶mv[n], child); n++; } else g_dbus_gvariant_to_gvalue (child, ¶mv[n++]); g_variant_unref (child); } signal_id = g_signal_lookup (info->signal_name, TYPE_PROCESS); g_value_init (&return_value, G_TYPE_BOOLEAN); g_signal_emitv (paramv, signal_id, 0, &return_value); if (!g_value_get_boolean (&return_value)) g_dbus_method_invocation_return_error (invocation, G_DBUS_ERROR, G_DBUS_ERROR_UNKNOWN_METHOD, "Method %s is not implemented on interface %s", method_name, interface_name); g_value_unset (&return_value); for (n = 0; n < num_params + num_extra; n++) g_value_unset (¶mv[n]); g_free (paramv); } static GVariant * _process_skeleton_handle_get_property ( GDBusConnection *connection G_GNUC_UNUSED, const gchar *sender G_GNUC_UNUSED, const gchar *object_path G_GNUC_UNUSED, const gchar *interface_name G_GNUC_UNUSED, const gchar *property_name, GError **error, gpointer user_data) { ProcessSkeleton *skeleton = PROCESS_SKELETON (user_data); GValue value = G_VALUE_INIT; GParamSpec *pspec; _ExtendedGDBusPropertyInfo *info; GVariant *ret; ret = NULL; info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_process_interface_info.parent_struct, property_name); g_assert (info != NULL); pspec = g_object_class_find_property (G_OBJECT_GET_CLASS (skeleton), info->hyphen_name); if (pspec == NULL) { g_set_error (error, G_DBUS_ERROR, G_DBUS_ERROR_INVALID_ARGS, "No property with name %s", property_name); } else { g_value_init (&value, pspec->value_type); g_object_get_property (G_OBJECT (skeleton), info->hyphen_name, &value); ret = g_dbus_gvalue_to_gvariant (&value, G_VARIANT_TYPE (info->parent_struct.signature)); g_value_unset (&value); } return ret; } static gboolean _process_skeleton_handle_set_property ( GDBusConnection *connection G_GNUC_UNUSED, const gchar *sender G_GNUC_UNUSED, const gchar *object_path G_GNUC_UNUSED, const gchar *interface_name G_GNUC_UNUSED, const gchar *property_name, GVariant *variant, GError **error, gpointer user_data) { ProcessSkeleton *skeleton = PROCESS_SKELETON (user_data); GValue value = G_VALUE_INIT; GParamSpec *pspec; _ExtendedGDBusPropertyInfo *info; gboolean ret; ret = FALSE; info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_process_interface_info.parent_struct, property_name); g_assert (info != NULL); pspec = g_object_class_find_property (G_OBJECT_GET_CLASS (skeleton), info->hyphen_name); if (pspec == NULL) { g_set_error (error, G_DBUS_ERROR, G_DBUS_ERROR_INVALID_ARGS, "No property with name %s", property_name); } else { if (info->use_gvariant) g_value_set_variant (&value, variant); else g_dbus_gvariant_to_gvalue (variant, &value); g_object_set_property (G_OBJECT (skeleton), info->hyphen_name, &value); g_value_unset (&value); ret = TRUE; } return ret; } static const GDBusInterfaceVTable _process_skeleton_vtable = { _process_skeleton_handle_method_call, _process_skeleton_handle_get_property, _process_skeleton_handle_set_property, {NULL} }; static GDBusInterfaceInfo * process_skeleton_dbus_interface_get_info (GDBusInterfaceSkeleton *skeleton G_GNUC_UNUSED) { return process_interface_info (); } static GDBusInterfaceVTable * process_skeleton_dbus_interface_get_vtable (GDBusInterfaceSkeleton *skeleton G_GNUC_UNUSED) { return (GDBusInterfaceVTable *) &_process_skeleton_vtable; } static GVariant * process_skeleton_dbus_interface_get_properties (GDBusInterfaceSkeleton *_skeleton) { ProcessSkeleton *skeleton = PROCESS_SKELETON (_skeleton); GVariantBuilder builder; guint n; g_variant_builder_init (&builder, G_VARIANT_TYPE ("a{sv}")); if (_process_interface_info.parent_struct.properties == NULL) goto out; for (n = 0; _process_interface_info.parent_struct.properties[n] != NULL; n++) { GDBusPropertyInfo *info = _process_interface_info.parent_struct.properties[n]; if (info->flags & G_DBUS_PROPERTY_INFO_FLAGS_READABLE) { GVariant *value; value = _process_skeleton_handle_get_property (g_dbus_interface_skeleton_get_connection (G_DBUS_INTERFACE_SKELETON (skeleton)), NULL, g_dbus_interface_skeleton_get_object_path (G_DBUS_INTERFACE_SKELETON (skeleton)), "org.openbmc.Process", info->name, NULL, skeleton); if (value != NULL) { g_variant_take_ref (value); g_variant_builder_add (&builder, "{sv}", info->name, value); g_variant_unref (value); } } } out: return g_variant_builder_end (&builder); } static void process_skeleton_dbus_interface_flush (GDBusInterfaceSkeleton *_skeleton) { } static void process_skeleton_iface_init (ProcessIface *iface); #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 G_DEFINE_TYPE_WITH_CODE (ProcessSkeleton, process_skeleton, G_TYPE_DBUS_INTERFACE_SKELETON, G_ADD_PRIVATE (ProcessSkeleton) G_IMPLEMENT_INTERFACE (TYPE_PROCESS, process_skeleton_iface_init)); #else G_DEFINE_TYPE_WITH_CODE (ProcessSkeleton, process_skeleton, G_TYPE_DBUS_INTERFACE_SKELETON, G_IMPLEMENT_INTERFACE (TYPE_PROCESS, process_skeleton_iface_init)); #endif static void process_skeleton_finalize (GObject *object) { ProcessSkeleton *skeleton = PROCESS_SKELETON (object); g_list_free_full (skeleton->priv->changed_properties, (GDestroyNotify) _changed_property_free); if (skeleton->priv->changed_properties_idle_source != NULL) g_source_destroy (skeleton->priv->changed_properties_idle_source); g_main_context_unref (skeleton->priv->context); g_mutex_clear (&skeleton->priv->lock); G_OBJECT_CLASS (process_skeleton_parent_class)->finalize (object); } static void process_skeleton_init (ProcessSkeleton *skeleton) { #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 skeleton->priv = process_skeleton_get_instance_private (skeleton); #else skeleton->priv = G_TYPE_INSTANCE_GET_PRIVATE (skeleton, TYPE_PROCESS_SKELETON, ProcessSkeletonPrivate); #endif g_mutex_init (&skeleton->priv->lock); skeleton->priv->context = g_main_context_ref_thread_default (); } static void process_skeleton_class_init (ProcessSkeletonClass *klass) { GObjectClass *gobject_class; GDBusInterfaceSkeletonClass *skeleton_class; gobject_class = G_OBJECT_CLASS (klass); gobject_class->finalize = process_skeleton_finalize; skeleton_class = G_DBUS_INTERFACE_SKELETON_CLASS (klass); skeleton_class->get_info = process_skeleton_dbus_interface_get_info; skeleton_class->get_properties = process_skeleton_dbus_interface_get_properties; skeleton_class->flush = process_skeleton_dbus_interface_flush; skeleton_class->get_vtable = process_skeleton_dbus_interface_get_vtable; #if GLIB_VERSION_MAX_ALLOWED < GLIB_VERSION_2_38 g_type_class_add_private (klass, sizeof (ProcessSkeletonPrivate)); #endif } static void process_skeleton_iface_init (ProcessIface *iface) { } /** * process_skeleton_new: * * Creates a skeleton object for the D-Bus interface org.openbmc.Process. * * Returns: (transfer full) (type ProcessSkeleton): The skeleton object. */ Process * process_skeleton_new (void) { return PROCESS (g_object_new (TYPE_PROCESS_SKELETON, NULL)); } /* ------------------------------------------------------------------------ * Code for interface org.openbmc.SharedResource * ------------------------------------------------------------------------ */ /** * SECTION:SharedResource * @title: SharedResource * @short_description: Generated C code for the org.openbmc.SharedResource D-Bus interface * * This section contains code for working with the org.openbmc.SharedResource D-Bus interface in C. */ /* ---- Introspection data for org.openbmc.SharedResource ---- */ static const _ExtendedGDBusArgInfo _shared_resource_method_info_lock_IN_ARG_name = { { -1, (gchar *) "name", (gchar *) "s", NULL }, FALSE }; static const _ExtendedGDBusArgInfo * const _shared_resource_method_info_lock_IN_ARG_pointers[] = { &_shared_resource_method_info_lock_IN_ARG_name, NULL }; static const _ExtendedGDBusMethodInfo _shared_resource_method_info_lock = { { -1, (gchar *) "lock", (GDBusArgInfo **) &_shared_resource_method_info_lock_IN_ARG_pointers, NULL, NULL }, "handle-lock", FALSE }; static const _ExtendedGDBusMethodInfo _shared_resource_method_info_unlock = { { -1, (gchar *) "unlock", NULL, NULL, NULL }, "handle-unlock", FALSE }; static const _ExtendedGDBusArgInfo _shared_resource_method_info_is_locked_OUT_ARG_lock = { { -1, (gchar *) "lock", (gchar *) "b", NULL }, FALSE }; static const _ExtendedGDBusArgInfo _shared_resource_method_info_is_locked_OUT_ARG_name = { { -1, (gchar *) "name", (gchar *) "s", NULL }, FALSE }; static const _ExtendedGDBusArgInfo * const _shared_resource_method_info_is_locked_OUT_ARG_pointers[] = { &_shared_resource_method_info_is_locked_OUT_ARG_lock, &_shared_resource_method_info_is_locked_OUT_ARG_name, NULL }; static const _ExtendedGDBusMethodInfo _shared_resource_method_info_is_locked = { { -1, (gchar *) "isLocked", NULL, (GDBusArgInfo **) &_shared_resource_method_info_is_locked_OUT_ARG_pointers, NULL }, "handle-is-locked", FALSE }; static const _ExtendedGDBusMethodInfo * const _shared_resource_method_info_pointers[] = { &_shared_resource_method_info_lock, &_shared_resource_method_info_unlock, &_shared_resource_method_info_is_locked, NULL }; static const _ExtendedGDBusPropertyInfo _shared_resource_property_info_lock = { { -1, (gchar *) "lock", (gchar *) "b", G_DBUS_PROPERTY_INFO_FLAGS_READABLE, NULL }, "lock", FALSE }; static const _ExtendedGDBusPropertyInfo _shared_resource_property_info_name = { { -1, (gchar *) "name", (gchar *) "s", G_DBUS_PROPERTY_INFO_FLAGS_READABLE, NULL }, "name", FALSE }; static const _ExtendedGDBusPropertyInfo * const _shared_resource_property_info_pointers[] = { &_shared_resource_property_info_lock, &_shared_resource_property_info_name, NULL }; static const _ExtendedGDBusInterfaceInfo _shared_resource_interface_info = { { -1, (gchar *) "org.openbmc.SharedResource", (GDBusMethodInfo **) &_shared_resource_method_info_pointers, NULL, (GDBusPropertyInfo **) &_shared_resource_property_info_pointers, NULL }, "shared-resource", }; /** * shared_resource_interface_info: * * Gets a machine-readable description of the org.openbmc.SharedResource D-Bus interface. * * Returns: (transfer none): A #GDBusInterfaceInfo. Do not free. */ GDBusInterfaceInfo * shared_resource_interface_info (void) { return (GDBusInterfaceInfo *) &_shared_resource_interface_info.parent_struct; } /** * shared_resource_override_properties: * @klass: The class structure for a #GObject-derived class. * @property_id_begin: The property id to assign to the first overridden property. * * Overrides all #GObject properties in the #SharedResource interface for a concrete class. * The properties are overridden in the order they are defined. * * Returns: The last property id. */ guint shared_resource_override_properties (GObjectClass *klass, guint property_id_begin) { g_object_class_override_property (klass, property_id_begin++, "lock"); g_object_class_override_property (klass, property_id_begin++, "name"); return property_id_begin - 1; } /** * SharedResource: * * Abstract interface type for the D-Bus interface org.openbmc.SharedResource. */ /** * SharedResourceIface: * @parent_iface: The parent interface. * @handle_is_locked: Handler for the #SharedResource::handle-is-locked signal. * @handle_lock: Handler for the #SharedResource::handle-lock signal. * @handle_unlock: Handler for the #SharedResource::handle-unlock signal. * @get_lock: Getter for the #SharedResource:lock property. * @get_name: Getter for the #SharedResource:name property. * * Virtual table for the D-Bus interface org.openbmc.SharedResource. */ typedef SharedResourceIface SharedResourceInterface; G_DEFINE_INTERFACE (SharedResource, shared_resource, G_TYPE_OBJECT); static void shared_resource_default_init (SharedResourceIface *iface) { /* GObject signals for incoming D-Bus method calls: */ /** * SharedResource::handle-lock: * @object: A #SharedResource. * @invocation: A #GDBusMethodInvocation. * @arg_name: Argument passed by remote caller. * * Signal emitted when a remote caller is invoking the lock() D-Bus method. * * If a signal handler returns %TRUE, it means the signal handler will handle the invocation (e.g. take a reference to @invocation and eventually call shared_resource_complete_lock() or e.g. g_dbus_method_invocation_return_error() on it) and no order signal handlers will run. If no signal handler handles the invocation, the %G_DBUS_ERROR_UNKNOWN_METHOD error is returned. * * Returns: %TRUE if the invocation was handled, %FALSE to let other signal handlers run. */ g_signal_new ("handle-lock", G_TYPE_FROM_INTERFACE (iface), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (SharedResourceIface, handle_lock), g_signal_accumulator_true_handled, NULL, g_cclosure_marshal_generic, G_TYPE_BOOLEAN, 2, G_TYPE_DBUS_METHOD_INVOCATION, G_TYPE_STRING); /** * SharedResource::handle-unlock: * @object: A #SharedResource. * @invocation: A #GDBusMethodInvocation. * * Signal emitted when a remote caller is invoking the unlock() D-Bus method. * * If a signal handler returns %TRUE, it means the signal handler will handle the invocation (e.g. take a reference to @invocation and eventually call shared_resource_complete_unlock() or e.g. g_dbus_method_invocation_return_error() on it) and no order signal handlers will run. If no signal handler handles the invocation, the %G_DBUS_ERROR_UNKNOWN_METHOD error is returned. * * Returns: %TRUE if the invocation was handled, %FALSE to let other signal handlers run. */ g_signal_new ("handle-unlock", G_TYPE_FROM_INTERFACE (iface), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (SharedResourceIface, handle_unlock), g_signal_accumulator_true_handled, NULL, g_cclosure_marshal_generic, G_TYPE_BOOLEAN, 1, G_TYPE_DBUS_METHOD_INVOCATION); /** * SharedResource::handle-is-locked: * @object: A #SharedResource. * @invocation: A #GDBusMethodInvocation. * * Signal emitted when a remote caller is invoking the isLocked() D-Bus method. * * If a signal handler returns %TRUE, it means the signal handler will handle the invocation (e.g. take a reference to @invocation and eventually call shared_resource_complete_is_locked() or e.g. g_dbus_method_invocation_return_error() on it) and no order signal handlers will run. If no signal handler handles the invocation, the %G_DBUS_ERROR_UNKNOWN_METHOD error is returned. * * Returns: %TRUE if the invocation was handled, %FALSE to let other signal handlers run. */ g_signal_new ("handle-is-locked", G_TYPE_FROM_INTERFACE (iface), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (SharedResourceIface, handle_is_locked), g_signal_accumulator_true_handled, NULL, g_cclosure_marshal_generic, G_TYPE_BOOLEAN, 1, G_TYPE_DBUS_METHOD_INVOCATION); /* GObject properties for D-Bus properties: */ /** * SharedResource:lock: * * Represents the D-Bus property "lock". * * Since the D-Bus property for this #GObject property is readable but not writable, it is meaningful to read from it on both the client- and service-side. It is only meaningful, however, to write to it on the service-side. */ g_object_interface_install_property (iface, g_param_spec_boolean ("lock", "lock", "lock", FALSE, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS)); /** * SharedResource:name: * * Represents the D-Bus property "name". * * Since the D-Bus property for this #GObject property is readable but not writable, it is meaningful to read from it on both the client- and service-side. It is only meaningful, however, to write to it on the service-side. */ g_object_interface_install_property (iface, g_param_spec_string ("name", "name", "name", NULL, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS)); } /** * shared_resource_get_lock: (skip) * @object: A #SharedResource. * * Gets the value of the "lock" D-Bus property. * * Since this D-Bus property is readable, it is meaningful to use this function on both the client- and service-side. * * Returns: The property value. */ gboolean shared_resource_get_lock (SharedResource *object) { return SHARED_RESOURCE_GET_IFACE (object)->get_lock (object); } /** * shared_resource_set_lock: (skip) * @object: A #SharedResource. * @value: The value to set. * * Sets the "lock" D-Bus property to @value. * * Since this D-Bus property is not writable, it is only meaningful to use this function on the service-side. */ void shared_resource_set_lock (SharedResource *object, gboolean value) { g_object_set (G_OBJECT (object), "lock", value, NULL); } /** * shared_resource_get_name: (skip) * @object: A #SharedResource. * * Gets the value of the "name" D-Bus property. * * Since this D-Bus property is readable, it is meaningful to use this function on both the client- and service-side. * * The returned value is only valid until the property changes so on the client-side it is only safe to use this function on the thread where @object was constructed. Use shared_resource_dup_name() if on another thread. * * Returns: (transfer none): The property value or %NULL if the property is not set. Do not free the returned value, it belongs to @object. */ const gchar * shared_resource_get_name (SharedResource *object) { return SHARED_RESOURCE_GET_IFACE (object)->get_name (object); } /** * shared_resource_dup_name: (skip) * @object: A #SharedResource. * * Gets a copy of the "name" D-Bus property. * * Since this D-Bus property is readable, it is meaningful to use this function on both the client- and service-side. * * Returns: (transfer full): The property value or %NULL if the property is not set. The returned value should be freed with g_free(). */ gchar * shared_resource_dup_name (SharedResource *object) { gchar *value; g_object_get (G_OBJECT (object), "name", &value, NULL); return value; } /** * shared_resource_set_name: (skip) * @object: A #SharedResource. * @value: The value to set. * * Sets the "name" D-Bus property to @value. * * Since this D-Bus property is not writable, it is only meaningful to use this function on the service-side. */ void shared_resource_set_name (SharedResource *object, const gchar *value) { g_object_set (G_OBJECT (object), "name", value, NULL); } /** * shared_resource_call_lock: * @proxy: A #SharedResourceProxy. * @arg_name: Argument to pass with the method invocation. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied or %NULL. * @user_data: User data to pass to @callback. * * Asynchronously invokes the lock() D-Bus method on @proxy. * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call shared_resource_call_lock_finish() to get the result of the operation. * * See shared_resource_call_lock_sync() for the synchronous, blocking version of this method. */ void shared_resource_call_lock ( SharedResource *proxy, const gchar *arg_name, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_dbus_proxy_call (G_DBUS_PROXY (proxy), "lock", g_variant_new ("(s)", arg_name), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, callback, user_data); } /** * shared_resource_call_lock_finish: * @proxy: A #SharedResourceProxy. * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to shared_resource_call_lock(). * @error: Return location for error or %NULL. * * Finishes an operation started with shared_resource_call_lock(). * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean shared_resource_call_lock_finish ( SharedResource *proxy, GAsyncResult *res, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_finish (G_DBUS_PROXY (proxy), res, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "()"); g_variant_unref (_ret); _out: return _ret != NULL; } /** * shared_resource_call_lock_sync: * @proxy: A #SharedResourceProxy. * @arg_name: Argument to pass with the method invocation. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL. * * Synchronously invokes the lock() D-Bus method on @proxy. The calling thread is blocked until a reply is received. * * See shared_resource_call_lock() for the asynchronous version of this method. * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean shared_resource_call_lock_sync ( SharedResource *proxy, const gchar *arg_name, GCancellable *cancellable, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_sync (G_DBUS_PROXY (proxy), "lock", g_variant_new ("(s)", arg_name), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "()"); g_variant_unref (_ret); _out: return _ret != NULL; } /** * shared_resource_call_unlock: * @proxy: A #SharedResourceProxy. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied or %NULL. * @user_data: User data to pass to @callback. * * Asynchronously invokes the unlock() D-Bus method on @proxy. * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call shared_resource_call_unlock_finish() to get the result of the operation. * * See shared_resource_call_unlock_sync() for the synchronous, blocking version of this method. */ void shared_resource_call_unlock ( SharedResource *proxy, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_dbus_proxy_call (G_DBUS_PROXY (proxy), "unlock", g_variant_new ("()"), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, callback, user_data); } /** * shared_resource_call_unlock_finish: * @proxy: A #SharedResourceProxy. * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to shared_resource_call_unlock(). * @error: Return location for error or %NULL. * * Finishes an operation started with shared_resource_call_unlock(). * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean shared_resource_call_unlock_finish ( SharedResource *proxy, GAsyncResult *res, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_finish (G_DBUS_PROXY (proxy), res, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "()"); g_variant_unref (_ret); _out: return _ret != NULL; } /** * shared_resource_call_unlock_sync: * @proxy: A #SharedResourceProxy. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL. * * Synchronously invokes the unlock() D-Bus method on @proxy. The calling thread is blocked until a reply is received. * * See shared_resource_call_unlock() for the asynchronous version of this method. * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean shared_resource_call_unlock_sync ( SharedResource *proxy, GCancellable *cancellable, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_sync (G_DBUS_PROXY (proxy), "unlock", g_variant_new ("()"), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "()"); g_variant_unref (_ret); _out: return _ret != NULL; } /** * shared_resource_call_is_locked: * @proxy: A #SharedResourceProxy. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied or %NULL. * @user_data: User data to pass to @callback. * * Asynchronously invokes the isLocked() D-Bus method on @proxy. * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call shared_resource_call_is_locked_finish() to get the result of the operation. * * See shared_resource_call_is_locked_sync() for the synchronous, blocking version of this method. */ void shared_resource_call_is_locked ( SharedResource *proxy, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_dbus_proxy_call (G_DBUS_PROXY (proxy), "isLocked", g_variant_new ("()"), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, callback, user_data); } /** * shared_resource_call_is_locked_finish: * @proxy: A #SharedResourceProxy. * @out_lock: (out): Return location for return parameter or %NULL to ignore. * @out_name: (out): Return location for return parameter or %NULL to ignore. * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to shared_resource_call_is_locked(). * @error: Return location for error or %NULL. * * Finishes an operation started with shared_resource_call_is_locked(). * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean shared_resource_call_is_locked_finish ( SharedResource *proxy, gboolean *out_lock, gchar **out_name, GAsyncResult *res, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_finish (G_DBUS_PROXY (proxy), res, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "(bs)", out_lock, out_name); g_variant_unref (_ret); _out: return _ret != NULL; } /** * shared_resource_call_is_locked_sync: * @proxy: A #SharedResourceProxy. * @out_lock: (out): Return location for return parameter or %NULL to ignore. * @out_name: (out): Return location for return parameter or %NULL to ignore. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL. * * Synchronously invokes the isLocked() D-Bus method on @proxy. The calling thread is blocked until a reply is received. * * See shared_resource_call_is_locked() for the asynchronous version of this method. * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean shared_resource_call_is_locked_sync ( SharedResource *proxy, gboolean *out_lock, gchar **out_name, GCancellable *cancellable, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_sync (G_DBUS_PROXY (proxy), "isLocked", g_variant_new ("()"), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "(bs)", out_lock, out_name); g_variant_unref (_ret); _out: return _ret != NULL; } /** * shared_resource_complete_lock: * @object: A #SharedResource. * @invocation: (transfer full): A #GDBusMethodInvocation. * * Helper function used in service implementations to finish handling invocations of the lock() D-Bus method. If you instead want to finish handling an invocation by returning an error, use g_dbus_method_invocation_return_error() or similar. * * This method will free @invocation, you cannot use it afterwards. */ void shared_resource_complete_lock ( SharedResource *object, GDBusMethodInvocation *invocation) { g_dbus_method_invocation_return_value (invocation, g_variant_new ("()")); } /** * shared_resource_complete_unlock: * @object: A #SharedResource. * @invocation: (transfer full): A #GDBusMethodInvocation. * * Helper function used in service implementations to finish handling invocations of the unlock() D-Bus method. If you instead want to finish handling an invocation by returning an error, use g_dbus_method_invocation_return_error() or similar. * * This method will free @invocation, you cannot use it afterwards. */ void shared_resource_complete_unlock ( SharedResource *object, GDBusMethodInvocation *invocation) { g_dbus_method_invocation_return_value (invocation, g_variant_new ("()")); } /** * shared_resource_complete_is_locked: * @object: A #SharedResource. * @invocation: (transfer full): A #GDBusMethodInvocation. * @lock: Parameter to return. * @name: Parameter to return. * * Helper function used in service implementations to finish handling invocations of the isLocked() D-Bus method. If you instead want to finish handling an invocation by returning an error, use g_dbus_method_invocation_return_error() or similar. * * This method will free @invocation, you cannot use it afterwards. */ void shared_resource_complete_is_locked ( SharedResource *object, GDBusMethodInvocation *invocation, gboolean lock, const gchar *name) { g_dbus_method_invocation_return_value (invocation, g_variant_new ("(bs)", lock, name)); } /* ------------------------------------------------------------------------ */ /** * SharedResourceProxy: * * The #SharedResourceProxy structure contains only private data and should only be accessed using the provided API. */ /** * SharedResourceProxyClass: * @parent_class: The parent class. * * Class structure for #SharedResourceProxy. */ struct _SharedResourceProxyPrivate { GData *qdata; }; static void shared_resource_proxy_iface_init (SharedResourceIface *iface); #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 G_DEFINE_TYPE_WITH_CODE (SharedResourceProxy, shared_resource_proxy, G_TYPE_DBUS_PROXY, G_ADD_PRIVATE (SharedResourceProxy) G_IMPLEMENT_INTERFACE (TYPE_SHARED_RESOURCE, shared_resource_proxy_iface_init)); #else G_DEFINE_TYPE_WITH_CODE (SharedResourceProxy, shared_resource_proxy, G_TYPE_DBUS_PROXY, G_IMPLEMENT_INTERFACE (TYPE_SHARED_RESOURCE, shared_resource_proxy_iface_init)); #endif static void shared_resource_proxy_finalize (GObject *object) { SharedResourceProxy *proxy = SHARED_RESOURCE_PROXY (object); g_datalist_clear (&proxy->priv->qdata); G_OBJECT_CLASS (shared_resource_proxy_parent_class)->finalize (object); } static void shared_resource_proxy_get_property (GObject *object, guint prop_id, GValue *value, GParamSpec *pspec G_GNUC_UNUSED) { const _ExtendedGDBusPropertyInfo *info; GVariant *variant; g_assert (prop_id != 0 && prop_id - 1 < 2); info = _shared_resource_property_info_pointers[prop_id - 1]; variant = g_dbus_proxy_get_cached_property (G_DBUS_PROXY (object), info->parent_struct.name); if (info->use_gvariant) { g_value_set_variant (value, variant); } else { if (variant != NULL) g_dbus_gvariant_to_gvalue (variant, value); } if (variant != NULL) g_variant_unref (variant); } static void shared_resource_proxy_set_property_cb (GDBusProxy *proxy, GAsyncResult *res, gpointer user_data) { const _ExtendedGDBusPropertyInfo *info = user_data; GError *error; GVariant *_ret; error = NULL; _ret = g_dbus_proxy_call_finish (proxy, res, &error); if (!_ret) { g_warning ("Error setting property '%s' on interface org.openbmc.SharedResource: %s (%s, %d)", info->parent_struct.name, error->message, g_quark_to_string (error->domain), error->code); g_error_free (error); } else { g_variant_unref (_ret); } } static void shared_resource_proxy_set_property (GObject *object, guint prop_id, const GValue *value, GParamSpec *pspec G_GNUC_UNUSED) { const _ExtendedGDBusPropertyInfo *info; GVariant *variant; g_assert (prop_id != 0 && prop_id - 1 < 2); info = _shared_resource_property_info_pointers[prop_id - 1]; variant = g_dbus_gvalue_to_gvariant (value, G_VARIANT_TYPE (info->parent_struct.signature)); g_dbus_proxy_call (G_DBUS_PROXY (object), "org.freedesktop.DBus.Properties.Set", g_variant_new ("(ssv)", "org.openbmc.SharedResource", info->parent_struct.name, variant), G_DBUS_CALL_FLAGS_NONE, -1, NULL, (GAsyncReadyCallback) shared_resource_proxy_set_property_cb, (GDBusPropertyInfo *) &info->parent_struct); g_variant_unref (variant); } static void shared_resource_proxy_g_signal (GDBusProxy *proxy, const gchar *sender_name G_GNUC_UNUSED, const gchar *signal_name, GVariant *parameters) { _ExtendedGDBusSignalInfo *info; GVariantIter iter; GVariant *child; GValue *paramv; guint num_params; guint n; guint signal_id; info = (_ExtendedGDBusSignalInfo *) g_dbus_interface_info_lookup_signal ((GDBusInterfaceInfo *) &_shared_resource_interface_info.parent_struct, signal_name); if (info == NULL) return; num_params = g_variant_n_children (parameters); paramv = g_new0 (GValue, num_params + 1); g_value_init (¶mv[0], TYPE_SHARED_RESOURCE); g_value_set_object (¶mv[0], proxy); g_variant_iter_init (&iter, parameters); n = 1; while ((child = g_variant_iter_next_value (&iter)) != NULL) { _ExtendedGDBusArgInfo *arg_info = (_ExtendedGDBusArgInfo *) info->parent_struct.args[n - 1]; if (arg_info->use_gvariant) { g_value_init (¶mv[n], G_TYPE_VARIANT); g_value_set_variant (¶mv[n], child); n++; } else g_dbus_gvariant_to_gvalue (child, ¶mv[n++]); g_variant_unref (child); } signal_id = g_signal_lookup (info->signal_name, TYPE_SHARED_RESOURCE); g_signal_emitv (paramv, signal_id, 0, NULL); for (n = 0; n < num_params + 1; n++) g_value_unset (¶mv[n]); g_free (paramv); } static void shared_resource_proxy_g_properties_changed (GDBusProxy *_proxy, GVariant *changed_properties, const gchar *const *invalidated_properties) { SharedResourceProxy *proxy = SHARED_RESOURCE_PROXY (_proxy); guint n; const gchar *key; GVariantIter *iter; _ExtendedGDBusPropertyInfo *info; g_variant_get (changed_properties, "a{sv}", &iter); while (g_variant_iter_next (iter, "{&sv}", &key, NULL)) { info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_shared_resource_interface_info.parent_struct, key); g_datalist_remove_data (&proxy->priv->qdata, key); if (info != NULL) g_object_notify (G_OBJECT (proxy), info->hyphen_name); } g_variant_iter_free (iter); for (n = 0; invalidated_properties[n] != NULL; n++) { info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_shared_resource_interface_info.parent_struct, invalidated_properties[n]); g_datalist_remove_data (&proxy->priv->qdata, invalidated_properties[n]); if (info != NULL) g_object_notify (G_OBJECT (proxy), info->hyphen_name); } } static gboolean shared_resource_proxy_get_lock (SharedResource *object) { SharedResourceProxy *proxy = SHARED_RESOURCE_PROXY (object); GVariant *variant; gboolean value = 0; variant = g_dbus_proxy_get_cached_property (G_DBUS_PROXY (proxy), "lock"); if (variant != NULL) { value = g_variant_get_boolean (variant); g_variant_unref (variant); } return value; } static const gchar * shared_resource_proxy_get_name (SharedResource *object) { SharedResourceProxy *proxy = SHARED_RESOURCE_PROXY (object); GVariant *variant; const gchar *value = NULL; variant = g_dbus_proxy_get_cached_property (G_DBUS_PROXY (proxy), "name"); if (variant != NULL) { value = g_variant_get_string (variant, NULL); g_variant_unref (variant); } return value; } static void shared_resource_proxy_init (SharedResourceProxy *proxy) { #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 proxy->priv = shared_resource_proxy_get_instance_private (proxy); #else proxy->priv = G_TYPE_INSTANCE_GET_PRIVATE (proxy, TYPE_SHARED_RESOURCE_PROXY, SharedResourceProxyPrivate); #endif g_dbus_proxy_set_interface_info (G_DBUS_PROXY (proxy), shared_resource_interface_info ()); } static void shared_resource_proxy_class_init (SharedResourceProxyClass *klass) { GObjectClass *gobject_class; GDBusProxyClass *proxy_class; gobject_class = G_OBJECT_CLASS (klass); gobject_class->finalize = shared_resource_proxy_finalize; gobject_class->get_property = shared_resource_proxy_get_property; gobject_class->set_property = shared_resource_proxy_set_property; proxy_class = G_DBUS_PROXY_CLASS (klass); proxy_class->g_signal = shared_resource_proxy_g_signal; proxy_class->g_properties_changed = shared_resource_proxy_g_properties_changed; shared_resource_override_properties (gobject_class, 1); #if GLIB_VERSION_MAX_ALLOWED < GLIB_VERSION_2_38 g_type_class_add_private (klass, sizeof (SharedResourceProxyPrivate)); #endif } static void shared_resource_proxy_iface_init (SharedResourceIface *iface) { iface->get_lock = shared_resource_proxy_get_lock; iface->get_name = shared_resource_proxy_get_name; } /** * shared_resource_proxy_new: * @connection: A #GDBusConnection. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: (allow-none): A bus name (well-known or unique) or %NULL if @connection is not a message bus connection. * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied. * @user_data: User data to pass to @callback. * * Asynchronously creates a proxy for the D-Bus interface org.openbmc.SharedResource. See g_dbus_proxy_new() for more details. * * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call shared_resource_proxy_new_finish() to get the result of the operation. * * See shared_resource_proxy_new_sync() for the synchronous, blocking version of this constructor. */ void shared_resource_proxy_new ( GDBusConnection *connection, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_async_initable_new_async (TYPE_SHARED_RESOURCE_PROXY, G_PRIORITY_DEFAULT, cancellable, callback, user_data, "g-flags", flags, "g-name", name, "g-connection", connection, "g-object-path", object_path, "g-interface-name", "org.openbmc.SharedResource", NULL); } /** * shared_resource_proxy_new_finish: * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to shared_resource_proxy_new(). * @error: Return location for error or %NULL * * Finishes an operation started with shared_resource_proxy_new(). * * Returns: (transfer full) (type SharedResourceProxy): The constructed proxy object or %NULL if @error is set. */ SharedResource * shared_resource_proxy_new_finish ( GAsyncResult *res, GError **error) { GObject *ret; GObject *source_object; source_object = g_async_result_get_source_object (res); ret = g_async_initable_new_finish (G_ASYNC_INITABLE (source_object), res, error); g_object_unref (source_object); if (ret != NULL) return SHARED_RESOURCE (ret); else return NULL; } /** * shared_resource_proxy_new_sync: * @connection: A #GDBusConnection. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: (allow-none): A bus name (well-known or unique) or %NULL if @connection is not a message bus connection. * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL * * Synchronously creates a proxy for the D-Bus interface org.openbmc.SharedResource. See g_dbus_proxy_new_sync() for more details. * * The calling thread is blocked until a reply is received. * * See shared_resource_proxy_new() for the asynchronous version of this constructor. * * Returns: (transfer full) (type SharedResourceProxy): The constructed proxy object or %NULL if @error is set. */ SharedResource * shared_resource_proxy_new_sync ( GDBusConnection *connection, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GError **error) { GInitable *ret; ret = g_initable_new (TYPE_SHARED_RESOURCE_PROXY, cancellable, error, "g-flags", flags, "g-name", name, "g-connection", connection, "g-object-path", object_path, "g-interface-name", "org.openbmc.SharedResource", NULL); if (ret != NULL) return SHARED_RESOURCE (ret); else return NULL; } /** * shared_resource_proxy_new_for_bus: * @bus_type: A #GBusType. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: A bus name (well-known or unique). * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied. * @user_data: User data to pass to @callback. * * Like shared_resource_proxy_new() but takes a #GBusType instead of a #GDBusConnection. * * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call shared_resource_proxy_new_for_bus_finish() to get the result of the operation. * * See shared_resource_proxy_new_for_bus_sync() for the synchronous, blocking version of this constructor. */ void shared_resource_proxy_new_for_bus ( GBusType bus_type, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_async_initable_new_async (TYPE_SHARED_RESOURCE_PROXY, G_PRIORITY_DEFAULT, cancellable, callback, user_data, "g-flags", flags, "g-name", name, "g-bus-type", bus_type, "g-object-path", object_path, "g-interface-name", "org.openbmc.SharedResource", NULL); } /** * shared_resource_proxy_new_for_bus_finish: * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to shared_resource_proxy_new_for_bus(). * @error: Return location for error or %NULL * * Finishes an operation started with shared_resource_proxy_new_for_bus(). * * Returns: (transfer full) (type SharedResourceProxy): The constructed proxy object or %NULL if @error is set. */ SharedResource * shared_resource_proxy_new_for_bus_finish ( GAsyncResult *res, GError **error) { GObject *ret; GObject *source_object; source_object = g_async_result_get_source_object (res); ret = g_async_initable_new_finish (G_ASYNC_INITABLE (source_object), res, error); g_object_unref (source_object); if (ret != NULL) return SHARED_RESOURCE (ret); else return NULL; } /** * shared_resource_proxy_new_for_bus_sync: * @bus_type: A #GBusType. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: A bus name (well-known or unique). * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL * * Like shared_resource_proxy_new_sync() but takes a #GBusType instead of a #GDBusConnection. * * The calling thread is blocked until a reply is received. * * See shared_resource_proxy_new_for_bus() for the asynchronous version of this constructor. * * Returns: (transfer full) (type SharedResourceProxy): The constructed proxy object or %NULL if @error is set. */ SharedResource * shared_resource_proxy_new_for_bus_sync ( GBusType bus_type, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GError **error) { GInitable *ret; ret = g_initable_new (TYPE_SHARED_RESOURCE_PROXY, cancellable, error, "g-flags", flags, "g-name", name, "g-bus-type", bus_type, "g-object-path", object_path, "g-interface-name", "org.openbmc.SharedResource", NULL); if (ret != NULL) return SHARED_RESOURCE (ret); else return NULL; } /* ------------------------------------------------------------------------ */ /** * SharedResourceSkeleton: * * The #SharedResourceSkeleton structure contains only private data and should only be accessed using the provided API. */ /** * SharedResourceSkeletonClass: * @parent_class: The parent class. * * Class structure for #SharedResourceSkeleton. */ struct _SharedResourceSkeletonPrivate { GValue *properties; GList *changed_properties; GSource *changed_properties_idle_source; GMainContext *context; GMutex lock; }; static void _shared_resource_skeleton_handle_method_call ( GDBusConnection *connection G_GNUC_UNUSED, const gchar *sender G_GNUC_UNUSED, const gchar *object_path G_GNUC_UNUSED, const gchar *interface_name, const gchar *method_name, GVariant *parameters, GDBusMethodInvocation *invocation, gpointer user_data) { SharedResourceSkeleton *skeleton = SHARED_RESOURCE_SKELETON (user_data); _ExtendedGDBusMethodInfo *info; GVariantIter iter; GVariant *child; GValue *paramv; guint num_params; guint num_extra; guint n; guint signal_id; GValue return_value = G_VALUE_INIT; info = (_ExtendedGDBusMethodInfo *) g_dbus_method_invocation_get_method_info (invocation); g_assert (info != NULL); num_params = g_variant_n_children (parameters); num_extra = info->pass_fdlist ? 3 : 2; paramv = g_new0 (GValue, num_params + num_extra); n = 0; g_value_init (¶mv[n], TYPE_SHARED_RESOURCE); g_value_set_object (¶mv[n++], skeleton); g_value_init (¶mv[n], G_TYPE_DBUS_METHOD_INVOCATION); g_value_set_object (¶mv[n++], invocation); if (info->pass_fdlist) { #ifdef G_OS_UNIX g_value_init (¶mv[n], G_TYPE_UNIX_FD_LIST); g_value_set_object (¶mv[n++], g_dbus_message_get_unix_fd_list (g_dbus_method_invocation_get_message (invocation))); #else g_assert_not_reached (); #endif } g_variant_iter_init (&iter, parameters); while ((child = g_variant_iter_next_value (&iter)) != NULL) { _ExtendedGDBusArgInfo *arg_info = (_ExtendedGDBusArgInfo *) info->parent_struct.in_args[n - num_extra]; if (arg_info->use_gvariant) { g_value_init (¶mv[n], G_TYPE_VARIANT); g_value_set_variant (¶mv[n], child); n++; } else g_dbus_gvariant_to_gvalue (child, ¶mv[n++]); g_variant_unref (child); } signal_id = g_signal_lookup (info->signal_name, TYPE_SHARED_RESOURCE); g_value_init (&return_value, G_TYPE_BOOLEAN); g_signal_emitv (paramv, signal_id, 0, &return_value); if (!g_value_get_boolean (&return_value)) g_dbus_method_invocation_return_error (invocation, G_DBUS_ERROR, G_DBUS_ERROR_UNKNOWN_METHOD, "Method %s is not implemented on interface %s", method_name, interface_name); g_value_unset (&return_value); for (n = 0; n < num_params + num_extra; n++) g_value_unset (¶mv[n]); g_free (paramv); } static GVariant * _shared_resource_skeleton_handle_get_property ( GDBusConnection *connection G_GNUC_UNUSED, const gchar *sender G_GNUC_UNUSED, const gchar *object_path G_GNUC_UNUSED, const gchar *interface_name G_GNUC_UNUSED, const gchar *property_name, GError **error, gpointer user_data) { SharedResourceSkeleton *skeleton = SHARED_RESOURCE_SKELETON (user_data); GValue value = G_VALUE_INIT; GParamSpec *pspec; _ExtendedGDBusPropertyInfo *info; GVariant *ret; ret = NULL; info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_shared_resource_interface_info.parent_struct, property_name); g_assert (info != NULL); pspec = g_object_class_find_property (G_OBJECT_GET_CLASS (skeleton), info->hyphen_name); if (pspec == NULL) { g_set_error (error, G_DBUS_ERROR, G_DBUS_ERROR_INVALID_ARGS, "No property with name %s", property_name); } else { g_value_init (&value, pspec->value_type); g_object_get_property (G_OBJECT (skeleton), info->hyphen_name, &value); ret = g_dbus_gvalue_to_gvariant (&value, G_VARIANT_TYPE (info->parent_struct.signature)); g_value_unset (&value); } return ret; } static gboolean _shared_resource_skeleton_handle_set_property ( GDBusConnection *connection G_GNUC_UNUSED, const gchar *sender G_GNUC_UNUSED, const gchar *object_path G_GNUC_UNUSED, const gchar *interface_name G_GNUC_UNUSED, const gchar *property_name, GVariant *variant, GError **error, gpointer user_data) { SharedResourceSkeleton *skeleton = SHARED_RESOURCE_SKELETON (user_data); GValue value = G_VALUE_INIT; GParamSpec *pspec; _ExtendedGDBusPropertyInfo *info; gboolean ret; ret = FALSE; info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_shared_resource_interface_info.parent_struct, property_name); g_assert (info != NULL); pspec = g_object_class_find_property (G_OBJECT_GET_CLASS (skeleton), info->hyphen_name); if (pspec == NULL) { g_set_error (error, G_DBUS_ERROR, G_DBUS_ERROR_INVALID_ARGS, "No property with name %s", property_name); } else { if (info->use_gvariant) g_value_set_variant (&value, variant); else g_dbus_gvariant_to_gvalue (variant, &value); g_object_set_property (G_OBJECT (skeleton), info->hyphen_name, &value); g_value_unset (&value); ret = TRUE; } return ret; } static const GDBusInterfaceVTable _shared_resource_skeleton_vtable = { _shared_resource_skeleton_handle_method_call, _shared_resource_skeleton_handle_get_property, _shared_resource_skeleton_handle_set_property, {NULL} }; static GDBusInterfaceInfo * shared_resource_skeleton_dbus_interface_get_info (GDBusInterfaceSkeleton *skeleton G_GNUC_UNUSED) { return shared_resource_interface_info (); } static GDBusInterfaceVTable * shared_resource_skeleton_dbus_interface_get_vtable (GDBusInterfaceSkeleton *skeleton G_GNUC_UNUSED) { return (GDBusInterfaceVTable *) &_shared_resource_skeleton_vtable; } static GVariant * shared_resource_skeleton_dbus_interface_get_properties (GDBusInterfaceSkeleton *_skeleton) { SharedResourceSkeleton *skeleton = SHARED_RESOURCE_SKELETON (_skeleton); GVariantBuilder builder; guint n; g_variant_builder_init (&builder, G_VARIANT_TYPE ("a{sv}")); if (_shared_resource_interface_info.parent_struct.properties == NULL) goto out; for (n = 0; _shared_resource_interface_info.parent_struct.properties[n] != NULL; n++) { GDBusPropertyInfo *info = _shared_resource_interface_info.parent_struct.properties[n]; if (info->flags & G_DBUS_PROPERTY_INFO_FLAGS_READABLE) { GVariant *value; value = _shared_resource_skeleton_handle_get_property (g_dbus_interface_skeleton_get_connection (G_DBUS_INTERFACE_SKELETON (skeleton)), NULL, g_dbus_interface_skeleton_get_object_path (G_DBUS_INTERFACE_SKELETON (skeleton)), "org.openbmc.SharedResource", info->name, NULL, skeleton); if (value != NULL) { g_variant_take_ref (value); g_variant_builder_add (&builder, "{sv}", info->name, value); g_variant_unref (value); } } } out: return g_variant_builder_end (&builder); } static gboolean _shared_resource_emit_changed (gpointer user_data); static void shared_resource_skeleton_dbus_interface_flush (GDBusInterfaceSkeleton *_skeleton) { SharedResourceSkeleton *skeleton = SHARED_RESOURCE_SKELETON (_skeleton); gboolean emit_changed = FALSE; g_mutex_lock (&skeleton->priv->lock); if (skeleton->priv->changed_properties_idle_source != NULL) { g_source_destroy (skeleton->priv->changed_properties_idle_source); skeleton->priv->changed_properties_idle_source = NULL; emit_changed = TRUE; } g_mutex_unlock (&skeleton->priv->lock); if (emit_changed) _shared_resource_emit_changed (skeleton); } static void shared_resource_skeleton_iface_init (SharedResourceIface *iface); #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 G_DEFINE_TYPE_WITH_CODE (SharedResourceSkeleton, shared_resource_skeleton, G_TYPE_DBUS_INTERFACE_SKELETON, G_ADD_PRIVATE (SharedResourceSkeleton) G_IMPLEMENT_INTERFACE (TYPE_SHARED_RESOURCE, shared_resource_skeleton_iface_init)); #else G_DEFINE_TYPE_WITH_CODE (SharedResourceSkeleton, shared_resource_skeleton, G_TYPE_DBUS_INTERFACE_SKELETON, G_IMPLEMENT_INTERFACE (TYPE_SHARED_RESOURCE, shared_resource_skeleton_iface_init)); #endif static void shared_resource_skeleton_finalize (GObject *object) { SharedResourceSkeleton *skeleton = SHARED_RESOURCE_SKELETON (object); guint n; for (n = 0; n < 2; n++) g_value_unset (&skeleton->priv->properties[n]); g_free (skeleton->priv->properties); g_list_free_full (skeleton->priv->changed_properties, (GDestroyNotify) _changed_property_free); if (skeleton->priv->changed_properties_idle_source != NULL) g_source_destroy (skeleton->priv->changed_properties_idle_source); g_main_context_unref (skeleton->priv->context); g_mutex_clear (&skeleton->priv->lock); G_OBJECT_CLASS (shared_resource_skeleton_parent_class)->finalize (object); } static void shared_resource_skeleton_get_property (GObject *object, guint prop_id, GValue *value, GParamSpec *pspec G_GNUC_UNUSED) { SharedResourceSkeleton *skeleton = SHARED_RESOURCE_SKELETON (object); g_assert (prop_id != 0 && prop_id - 1 < 2); g_mutex_lock (&skeleton->priv->lock); g_value_copy (&skeleton->priv->properties[prop_id - 1], value); g_mutex_unlock (&skeleton->priv->lock); } static gboolean _shared_resource_emit_changed (gpointer user_data) { SharedResourceSkeleton *skeleton = SHARED_RESOURCE_SKELETON (user_data); GList *l; GVariantBuilder builder; GVariantBuilder invalidated_builder; guint num_changes; g_mutex_lock (&skeleton->priv->lock); g_variant_builder_init (&builder, G_VARIANT_TYPE ("a{sv}")); g_variant_builder_init (&invalidated_builder, G_VARIANT_TYPE ("as")); for (l = skeleton->priv->changed_properties, num_changes = 0; l != NULL; l = l->next) { ChangedProperty *cp = l->data; GVariant *variant; const GValue *cur_value; cur_value = &skeleton->priv->properties[cp->prop_id - 1]; if (!_g_value_equal (cur_value, &cp->orig_value)) { variant = g_dbus_gvalue_to_gvariant (cur_value, G_VARIANT_TYPE (cp->info->parent_struct.signature)); g_variant_builder_add (&builder, "{sv}", cp->info->parent_struct.name, variant); g_variant_unref (variant); num_changes++; } } if (num_changes > 0) { GList *connections, *ll; GVariant *signal_variant; signal_variant = g_variant_ref_sink (g_variant_new ("(sa{sv}as)", "org.openbmc.SharedResource", &builder, &invalidated_builder)); connections = g_dbus_interface_skeleton_get_connections (G_DBUS_INTERFACE_SKELETON (skeleton)); for (ll = connections; ll != NULL; ll = ll->next) { GDBusConnection *connection = ll->data; g_dbus_connection_emit_signal (connection, NULL, g_dbus_interface_skeleton_get_object_path (G_DBUS_INTERFACE_SKELETON (skeleton)), "org.freedesktop.DBus.Properties", "PropertiesChanged", signal_variant, NULL); } g_variant_unref (signal_variant); g_list_free_full (connections, g_object_unref); } else { g_variant_builder_clear (&builder); g_variant_builder_clear (&invalidated_builder); } g_list_free_full (skeleton->priv->changed_properties, (GDestroyNotify) _changed_property_free); skeleton->priv->changed_properties = NULL; skeleton->priv->changed_properties_idle_source = NULL; g_mutex_unlock (&skeleton->priv->lock); return FALSE; } static void _shared_resource_schedule_emit_changed (SharedResourceSkeleton *skeleton, const _ExtendedGDBusPropertyInfo *info, guint prop_id, const GValue *orig_value) { ChangedProperty *cp; GList *l; cp = NULL; for (l = skeleton->priv->changed_properties; l != NULL; l = l->next) { ChangedProperty *i_cp = l->data; if (i_cp->info == info) { cp = i_cp; break; } } if (cp == NULL) { cp = g_new0 (ChangedProperty, 1); cp->prop_id = prop_id; cp->info = info; skeleton->priv->changed_properties = g_list_prepend (skeleton->priv->changed_properties, cp); g_value_init (&cp->orig_value, G_VALUE_TYPE (orig_value)); g_value_copy (orig_value, &cp->orig_value); } } static void shared_resource_skeleton_notify (GObject *object, GParamSpec *pspec G_GNUC_UNUSED) { SharedResourceSkeleton *skeleton = SHARED_RESOURCE_SKELETON (object); g_mutex_lock (&skeleton->priv->lock); if (skeleton->priv->changed_properties != NULL && skeleton->priv->changed_properties_idle_source == NULL) { skeleton->priv->changed_properties_idle_source = g_idle_source_new (); g_source_set_priority (skeleton->priv->changed_properties_idle_source, G_PRIORITY_DEFAULT); g_source_set_callback (skeleton->priv->changed_properties_idle_source, _shared_resource_emit_changed, g_object_ref (skeleton), (GDestroyNotify) g_object_unref); g_source_set_name (skeleton->priv->changed_properties_idle_source, "[generated] _shared_resource_emit_changed"); g_source_attach (skeleton->priv->changed_properties_idle_source, skeleton->priv->context); g_source_unref (skeleton->priv->changed_properties_idle_source); } g_mutex_unlock (&skeleton->priv->lock); } static void shared_resource_skeleton_set_property (GObject *object, guint prop_id, const GValue *value, GParamSpec *pspec) { SharedResourceSkeleton *skeleton = SHARED_RESOURCE_SKELETON (object); g_assert (prop_id != 0 && prop_id - 1 < 2); g_mutex_lock (&skeleton->priv->lock); g_object_freeze_notify (object); if (!_g_value_equal (value, &skeleton->priv->properties[prop_id - 1])) { if (g_dbus_interface_skeleton_get_connection (G_DBUS_INTERFACE_SKELETON (skeleton)) != NULL) _shared_resource_schedule_emit_changed (skeleton, _shared_resource_property_info_pointers[prop_id - 1], prop_id, &skeleton->priv->properties[prop_id - 1]); g_value_copy (value, &skeleton->priv->properties[prop_id - 1]); g_object_notify_by_pspec (object, pspec); } g_mutex_unlock (&skeleton->priv->lock); g_object_thaw_notify (object); } static void shared_resource_skeleton_init (SharedResourceSkeleton *skeleton) { #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 skeleton->priv = shared_resource_skeleton_get_instance_private (skeleton); #else skeleton->priv = G_TYPE_INSTANCE_GET_PRIVATE (skeleton, TYPE_SHARED_RESOURCE_SKELETON, SharedResourceSkeletonPrivate); #endif g_mutex_init (&skeleton->priv->lock); skeleton->priv->context = g_main_context_ref_thread_default (); skeleton->priv->properties = g_new0 (GValue, 2); g_value_init (&skeleton->priv->properties[0], G_TYPE_BOOLEAN); g_value_init (&skeleton->priv->properties[1], G_TYPE_STRING); } static gboolean shared_resource_skeleton_get_lock (SharedResource *object) { SharedResourceSkeleton *skeleton = SHARED_RESOURCE_SKELETON (object); gboolean value; g_mutex_lock (&skeleton->priv->lock); value = g_value_get_boolean (&(skeleton->priv->properties[0])); g_mutex_unlock (&skeleton->priv->lock); return value; } static const gchar * shared_resource_skeleton_get_name (SharedResource *object) { SharedResourceSkeleton *skeleton = SHARED_RESOURCE_SKELETON (object); const gchar *value; g_mutex_lock (&skeleton->priv->lock); value = g_value_get_string (&(skeleton->priv->properties[1])); g_mutex_unlock (&skeleton->priv->lock); return value; } static void shared_resource_skeleton_class_init (SharedResourceSkeletonClass *klass) { GObjectClass *gobject_class; GDBusInterfaceSkeletonClass *skeleton_class; gobject_class = G_OBJECT_CLASS (klass); gobject_class->finalize = shared_resource_skeleton_finalize; gobject_class->get_property = shared_resource_skeleton_get_property; gobject_class->set_property = shared_resource_skeleton_set_property; gobject_class->notify = shared_resource_skeleton_notify; shared_resource_override_properties (gobject_class, 1); skeleton_class = G_DBUS_INTERFACE_SKELETON_CLASS (klass); skeleton_class->get_info = shared_resource_skeleton_dbus_interface_get_info; skeleton_class->get_properties = shared_resource_skeleton_dbus_interface_get_properties; skeleton_class->flush = shared_resource_skeleton_dbus_interface_flush; skeleton_class->get_vtable = shared_resource_skeleton_dbus_interface_get_vtable; #if GLIB_VERSION_MAX_ALLOWED < GLIB_VERSION_2_38 g_type_class_add_private (klass, sizeof (SharedResourceSkeletonPrivate)); #endif } static void shared_resource_skeleton_iface_init (SharedResourceIface *iface) { iface->get_lock = shared_resource_skeleton_get_lock; iface->get_name = shared_resource_skeleton_get_name; } /** * shared_resource_skeleton_new: * * Creates a skeleton object for the D-Bus interface org.openbmc.SharedResource. * * Returns: (transfer full) (type SharedResourceSkeleton): The skeleton object. */ SharedResource * shared_resource_skeleton_new (void) { return SHARED_RESOURCE (g_object_new (TYPE_SHARED_RESOURCE_SKELETON, NULL)); } /* ------------------------------------------------------------------------ * Code for interface org.openbmc.Control * ------------------------------------------------------------------------ */ /** * SECTION:Control * @title: Control * @short_description: Generated C code for the org.openbmc.Control D-Bus interface * * This section contains code for working with the org.openbmc.Control D-Bus interface in C. */ /* ---- Introspection data for org.openbmc.Control ---- */ static const _ExtendedGDBusMethodInfo _control_method_info_init = { { -1, (gchar *) "init", NULL, NULL, NULL }, "handle-init", FALSE }; static const _ExtendedGDBusMethodInfo * const _control_method_info_pointers[] = { &_control_method_info_init, NULL }; static const _ExtendedGDBusArgInfo _control_signal_info_heartbeat_ARG_bus_name = { { -1, (gchar *) "bus_name", (gchar *) "s", NULL }, FALSE }; static const _ExtendedGDBusArgInfo * const _control_signal_info_heartbeat_ARG_pointers[] = { &_control_signal_info_heartbeat_ARG_bus_name, NULL }; static const _ExtendedGDBusSignalInfo _control_signal_info_heartbeat = { { -1, (gchar *) "Heartbeat", (GDBusArgInfo **) &_control_signal_info_heartbeat_ARG_pointers, NULL }, "heartbeat" }; static const _ExtendedGDBusSignalInfo _control_signal_info_started = { { -1, (gchar *) "Started", NULL, NULL }, "started" }; static const _ExtendedGDBusSignalInfo * const _control_signal_info_pointers[] = { &_control_signal_info_heartbeat, &_control_signal_info_started, NULL }; static const _ExtendedGDBusPropertyInfo _control_property_info_poll_interval = { { -1, (gchar *) "poll_interval", (gchar *) "i", G_DBUS_PROPERTY_INFO_FLAGS_READABLE | G_DBUS_PROPERTY_INFO_FLAGS_WRITABLE, NULL }, "poll-interval", FALSE }; static const _ExtendedGDBusPropertyInfo _control_property_info_heatbeat = { { -1, (gchar *) "heatbeat", (gchar *) "i", G_DBUS_PROPERTY_INFO_FLAGS_READABLE, NULL }, "heatbeat", FALSE }; static const _ExtendedGDBusPropertyInfo * const _control_property_info_pointers[] = { &_control_property_info_poll_interval, &_control_property_info_heatbeat, NULL }; static const _ExtendedGDBusInterfaceInfo _control_interface_info = { { -1, (gchar *) "org.openbmc.Control", (GDBusMethodInfo **) &_control_method_info_pointers, (GDBusSignalInfo **) &_control_signal_info_pointers, (GDBusPropertyInfo **) &_control_property_info_pointers, NULL }, "control", }; /** * control_interface_info: * * Gets a machine-readable description of the org.openbmc.Control D-Bus interface. * * Returns: (transfer none): A #GDBusInterfaceInfo. Do not free. */ GDBusInterfaceInfo * control_interface_info (void) { return (GDBusInterfaceInfo *) &_control_interface_info.parent_struct; } /** * control_override_properties: * @klass: The class structure for a #GObject-derived class. * @property_id_begin: The property id to assign to the first overridden property. * * Overrides all #GObject properties in the #Control interface for a concrete class. * The properties are overridden in the order they are defined. * * Returns: The last property id. */ guint control_override_properties (GObjectClass *klass, guint property_id_begin) { g_object_class_override_property (klass, property_id_begin++, "poll-interval"); g_object_class_override_property (klass, property_id_begin++, "heatbeat"); return property_id_begin - 1; } /** * Control: * * Abstract interface type for the D-Bus interface org.openbmc.Control. */ /** * ControlIface: * @parent_iface: The parent interface. * @handle_init: Handler for the #Control::handle-init signal. * @get_heatbeat: Getter for the #Control:heatbeat property. * @get_poll_interval: Getter for the #Control:poll-interval property. * @heartbeat: Handler for the #Control::heartbeat signal. * @started: Handler for the #Control::started signal. * * Virtual table for the D-Bus interface org.openbmc.Control. */ typedef ControlIface ControlInterface; G_DEFINE_INTERFACE (Control, control, G_TYPE_OBJECT); static void control_default_init (ControlIface *iface) { /* GObject signals for incoming D-Bus method calls: */ /** * Control::handle-init: * @object: A #Control. * @invocation: A #GDBusMethodInvocation. * * Signal emitted when a remote caller is invoking the init() D-Bus method. * * If a signal handler returns %TRUE, it means the signal handler will handle the invocation (e.g. take a reference to @invocation and eventually call control_complete_init() or e.g. g_dbus_method_invocation_return_error() on it) and no order signal handlers will run. If no signal handler handles the invocation, the %G_DBUS_ERROR_UNKNOWN_METHOD error is returned. * * Returns: %TRUE if the invocation was handled, %FALSE to let other signal handlers run. */ g_signal_new ("handle-init", G_TYPE_FROM_INTERFACE (iface), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (ControlIface, handle_init), g_signal_accumulator_true_handled, NULL, g_cclosure_marshal_generic, G_TYPE_BOOLEAN, 1, G_TYPE_DBUS_METHOD_INVOCATION); /* GObject signals for received D-Bus signals: */ /** * Control::heartbeat: * @object: A #Control. * @arg_bus_name: Argument. * * On the client-side, this signal is emitted whenever the D-Bus signal "Heartbeat" is received. * * On the service-side, this signal can be used with e.g. g_signal_emit_by_name() to make the object emit the D-Bus signal. */ g_signal_new ("heartbeat", G_TYPE_FROM_INTERFACE (iface), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (ControlIface, heartbeat), NULL, NULL, g_cclosure_marshal_generic, G_TYPE_NONE, 1, G_TYPE_STRING); /** * Control::started: * @object: A #Control. * * On the client-side, this signal is emitted whenever the D-Bus signal "Started" is received. * * On the service-side, this signal can be used with e.g. g_signal_emit_by_name() to make the object emit the D-Bus signal. */ g_signal_new ("started", G_TYPE_FROM_INTERFACE (iface), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (ControlIface, started), NULL, NULL, g_cclosure_marshal_generic, G_TYPE_NONE, 0); /* GObject properties for D-Bus properties: */ /** * Control:poll-interval: * * Represents the D-Bus property "poll_interval". * * Since the D-Bus property for this #GObject property is both readable and writable, it is meaningful to both read from it and write to it on both the service- and client-side. */ g_object_interface_install_property (iface, g_param_spec_int ("poll-interval", "poll_interval", "poll_interval", G_MININT32, G_MAXINT32, 0, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS)); /** * Control:heatbeat: * * Represents the D-Bus property "heatbeat". * * Since the D-Bus property for this #GObject property is readable but not writable, it is meaningful to read from it on both the client- and service-side. It is only meaningful, however, to write to it on the service-side. */ g_object_interface_install_property (iface, g_param_spec_int ("heatbeat", "heatbeat", "heatbeat", G_MININT32, G_MAXINT32, 0, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS)); } /** * control_get_poll_interval: (skip) * @object: A #Control. * * Gets the value of the "poll_interval" D-Bus property. * * Since this D-Bus property is both readable and writable, it is meaningful to use this function on both the client- and service-side. * * Returns: The property value. */ gint control_get_poll_interval (Control *object) { return CONTROL_GET_IFACE (object)->get_poll_interval (object); } /** * control_set_poll_interval: (skip) * @object: A #Control. * @value: The value to set. * * Sets the "poll_interval" D-Bus property to @value. * * Since this D-Bus property is both readable and writable, it is meaningful to use this function on both the client- and service-side. */ void control_set_poll_interval (Control *object, gint value) { g_object_set (G_OBJECT (object), "poll-interval", value, NULL); } /** * control_get_heatbeat: (skip) * @object: A #Control. * * Gets the value of the "heatbeat" D-Bus property. * * Since this D-Bus property is readable, it is meaningful to use this function on both the client- and service-side. * * Returns: The property value. */ gint control_get_heatbeat (Control *object) { return CONTROL_GET_IFACE (object)->get_heatbeat (object); } /** * control_set_heatbeat: (skip) * @object: A #Control. * @value: The value to set. * * Sets the "heatbeat" D-Bus property to @value. * * Since this D-Bus property is not writable, it is only meaningful to use this function on the service-side. */ void control_set_heatbeat (Control *object, gint value) { g_object_set (G_OBJECT (object), "heatbeat", value, NULL); } /** * control_emit_heartbeat: * @object: A #Control. * @arg_bus_name: Argument to pass with the signal. * * Emits the "Heartbeat" D-Bus signal. */ void control_emit_heartbeat ( Control *object, const gchar *arg_bus_name) { g_signal_emit_by_name (object, "heartbeat", arg_bus_name); } /** * control_emit_started: * @object: A #Control. * * Emits the "Started" D-Bus signal. */ void control_emit_started ( Control *object) { g_signal_emit_by_name (object, "started"); } /** * control_call_init: * @proxy: A #ControlProxy. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied or %NULL. * @user_data: User data to pass to @callback. * * Asynchronously invokes the init() D-Bus method on @proxy. * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call control_call_init_finish() to get the result of the operation. * * See control_call_init_sync() for the synchronous, blocking version of this method. */ void control_call_init ( Control *proxy, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_dbus_proxy_call (G_DBUS_PROXY (proxy), "init", g_variant_new ("()"), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, callback, user_data); } /** * control_call_init_finish: * @proxy: A #ControlProxy. * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to control_call_init(). * @error: Return location for error or %NULL. * * Finishes an operation started with control_call_init(). * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean control_call_init_finish ( Control *proxy, GAsyncResult *res, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_finish (G_DBUS_PROXY (proxy), res, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "()"); g_variant_unref (_ret); _out: return _ret != NULL; } /** * control_call_init_sync: * @proxy: A #ControlProxy. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL. * * Synchronously invokes the init() D-Bus method on @proxy. The calling thread is blocked until a reply is received. * * See control_call_init() for the asynchronous version of this method. * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean control_call_init_sync ( Control *proxy, GCancellable *cancellable, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_sync (G_DBUS_PROXY (proxy), "init", g_variant_new ("()"), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "()"); g_variant_unref (_ret); _out: return _ret != NULL; } /** * control_complete_init: * @object: A #Control. * @invocation: (transfer full): A #GDBusMethodInvocation. * * Helper function used in service implementations to finish handling invocations of the init() D-Bus method. If you instead want to finish handling an invocation by returning an error, use g_dbus_method_invocation_return_error() or similar. * * This method will free @invocation, you cannot use it afterwards. */ void control_complete_init ( Control *object, GDBusMethodInvocation *invocation) { g_dbus_method_invocation_return_value (invocation, g_variant_new ("()")); } /* ------------------------------------------------------------------------ */ /** * ControlProxy: * * The #ControlProxy structure contains only private data and should only be accessed using the provided API. */ /** * ControlProxyClass: * @parent_class: The parent class. * * Class structure for #ControlProxy. */ struct _ControlProxyPrivate { GData *qdata; }; static void control_proxy_iface_init (ControlIface *iface); #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 G_DEFINE_TYPE_WITH_CODE (ControlProxy, control_proxy, G_TYPE_DBUS_PROXY, G_ADD_PRIVATE (ControlProxy) G_IMPLEMENT_INTERFACE (TYPE_CONTROL, control_proxy_iface_init)); #else G_DEFINE_TYPE_WITH_CODE (ControlProxy, control_proxy, G_TYPE_DBUS_PROXY, G_IMPLEMENT_INTERFACE (TYPE_CONTROL, control_proxy_iface_init)); #endif static void control_proxy_finalize (GObject *object) { ControlProxy *proxy = CONTROL_PROXY (object); g_datalist_clear (&proxy->priv->qdata); G_OBJECT_CLASS (control_proxy_parent_class)->finalize (object); } static void control_proxy_get_property (GObject *object, guint prop_id, GValue *value, GParamSpec *pspec G_GNUC_UNUSED) { const _ExtendedGDBusPropertyInfo *info; GVariant *variant; g_assert (prop_id != 0 && prop_id - 1 < 2); info = _control_property_info_pointers[prop_id - 1]; variant = g_dbus_proxy_get_cached_property (G_DBUS_PROXY (object), info->parent_struct.name); if (info->use_gvariant) { g_value_set_variant (value, variant); } else { if (variant != NULL) g_dbus_gvariant_to_gvalue (variant, value); } if (variant != NULL) g_variant_unref (variant); } static void control_proxy_set_property_cb (GDBusProxy *proxy, GAsyncResult *res, gpointer user_data) { const _ExtendedGDBusPropertyInfo *info = user_data; GError *error; GVariant *_ret; error = NULL; _ret = g_dbus_proxy_call_finish (proxy, res, &error); if (!_ret) { g_warning ("Error setting property '%s' on interface org.openbmc.Control: %s (%s, %d)", info->parent_struct.name, error->message, g_quark_to_string (error->domain), error->code); g_error_free (error); } else { g_variant_unref (_ret); } } static void control_proxy_set_property (GObject *object, guint prop_id, const GValue *value, GParamSpec *pspec G_GNUC_UNUSED) { const _ExtendedGDBusPropertyInfo *info; GVariant *variant; g_assert (prop_id != 0 && prop_id - 1 < 2); info = _control_property_info_pointers[prop_id - 1]; variant = g_dbus_gvalue_to_gvariant (value, G_VARIANT_TYPE (info->parent_struct.signature)); g_dbus_proxy_call (G_DBUS_PROXY (object), "org.freedesktop.DBus.Properties.Set", g_variant_new ("(ssv)", "org.openbmc.Control", info->parent_struct.name, variant), G_DBUS_CALL_FLAGS_NONE, -1, NULL, (GAsyncReadyCallback) control_proxy_set_property_cb, (GDBusPropertyInfo *) &info->parent_struct); g_variant_unref (variant); } static void control_proxy_g_signal (GDBusProxy *proxy, const gchar *sender_name G_GNUC_UNUSED, const gchar *signal_name, GVariant *parameters) { _ExtendedGDBusSignalInfo *info; GVariantIter iter; GVariant *child; GValue *paramv; guint num_params; guint n; guint signal_id; info = (_ExtendedGDBusSignalInfo *) g_dbus_interface_info_lookup_signal ((GDBusInterfaceInfo *) &_control_interface_info.parent_struct, signal_name); if (info == NULL) return; num_params = g_variant_n_children (parameters); paramv = g_new0 (GValue, num_params + 1); g_value_init (¶mv[0], TYPE_CONTROL); g_value_set_object (¶mv[0], proxy); g_variant_iter_init (&iter, parameters); n = 1; while ((child = g_variant_iter_next_value (&iter)) != NULL) { _ExtendedGDBusArgInfo *arg_info = (_ExtendedGDBusArgInfo *) info->parent_struct.args[n - 1]; if (arg_info->use_gvariant) { g_value_init (¶mv[n], G_TYPE_VARIANT); g_value_set_variant (¶mv[n], child); n++; } else g_dbus_gvariant_to_gvalue (child, ¶mv[n++]); g_variant_unref (child); } signal_id = g_signal_lookup (info->signal_name, TYPE_CONTROL); g_signal_emitv (paramv, signal_id, 0, NULL); for (n = 0; n < num_params + 1; n++) g_value_unset (¶mv[n]); g_free (paramv); } static void control_proxy_g_properties_changed (GDBusProxy *_proxy, GVariant *changed_properties, const gchar *const *invalidated_properties) { ControlProxy *proxy = CONTROL_PROXY (_proxy); guint n; const gchar *key; GVariantIter *iter; _ExtendedGDBusPropertyInfo *info; g_variant_get (changed_properties, "a{sv}", &iter); while (g_variant_iter_next (iter, "{&sv}", &key, NULL)) { info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_control_interface_info.parent_struct, key); g_datalist_remove_data (&proxy->priv->qdata, key); if (info != NULL) g_object_notify (G_OBJECT (proxy), info->hyphen_name); } g_variant_iter_free (iter); for (n = 0; invalidated_properties[n] != NULL; n++) { info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_control_interface_info.parent_struct, invalidated_properties[n]); g_datalist_remove_data (&proxy->priv->qdata, invalidated_properties[n]); if (info != NULL) g_object_notify (G_OBJECT (proxy), info->hyphen_name); } } static gint control_proxy_get_poll_interval (Control *object) { ControlProxy *proxy = CONTROL_PROXY (object); GVariant *variant; gint value = 0; variant = g_dbus_proxy_get_cached_property (G_DBUS_PROXY (proxy), "poll_interval"); if (variant != NULL) { value = g_variant_get_int32 (variant); g_variant_unref (variant); } return value; } static gint control_proxy_get_heatbeat (Control *object) { ControlProxy *proxy = CONTROL_PROXY (object); GVariant *variant; gint value = 0; variant = g_dbus_proxy_get_cached_property (G_DBUS_PROXY (proxy), "heatbeat"); if (variant != NULL) { value = g_variant_get_int32 (variant); g_variant_unref (variant); } return value; } static void control_proxy_init (ControlProxy *proxy) { #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 proxy->priv = control_proxy_get_instance_private (proxy); #else proxy->priv = G_TYPE_INSTANCE_GET_PRIVATE (proxy, TYPE_CONTROL_PROXY, ControlProxyPrivate); #endif g_dbus_proxy_set_interface_info (G_DBUS_PROXY (proxy), control_interface_info ()); } static void control_proxy_class_init (ControlProxyClass *klass) { GObjectClass *gobject_class; GDBusProxyClass *proxy_class; gobject_class = G_OBJECT_CLASS (klass); gobject_class->finalize = control_proxy_finalize; gobject_class->get_property = control_proxy_get_property; gobject_class->set_property = control_proxy_set_property; proxy_class = G_DBUS_PROXY_CLASS (klass); proxy_class->g_signal = control_proxy_g_signal; proxy_class->g_properties_changed = control_proxy_g_properties_changed; control_override_properties (gobject_class, 1); #if GLIB_VERSION_MAX_ALLOWED < GLIB_VERSION_2_38 g_type_class_add_private (klass, sizeof (ControlProxyPrivate)); #endif } static void control_proxy_iface_init (ControlIface *iface) { iface->get_poll_interval = control_proxy_get_poll_interval; iface->get_heatbeat = control_proxy_get_heatbeat; } /** * control_proxy_new: * @connection: A #GDBusConnection. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: (allow-none): A bus name (well-known or unique) or %NULL if @connection is not a message bus connection. * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied. * @user_data: User data to pass to @callback. * * Asynchronously creates a proxy for the D-Bus interface org.openbmc.Control. See g_dbus_proxy_new() for more details. * * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call control_proxy_new_finish() to get the result of the operation. * * See control_proxy_new_sync() for the synchronous, blocking version of this constructor. */ void control_proxy_new ( GDBusConnection *connection, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_async_initable_new_async (TYPE_CONTROL_PROXY, G_PRIORITY_DEFAULT, cancellable, callback, user_data, "g-flags", flags, "g-name", name, "g-connection", connection, "g-object-path", object_path, "g-interface-name", "org.openbmc.Control", NULL); } /** * control_proxy_new_finish: * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to control_proxy_new(). * @error: Return location for error or %NULL * * Finishes an operation started with control_proxy_new(). * * Returns: (transfer full) (type ControlProxy): The constructed proxy object or %NULL if @error is set. */ Control * control_proxy_new_finish ( GAsyncResult *res, GError **error) { GObject *ret; GObject *source_object; source_object = g_async_result_get_source_object (res); ret = g_async_initable_new_finish (G_ASYNC_INITABLE (source_object), res, error); g_object_unref (source_object); if (ret != NULL) return CONTROL (ret); else return NULL; } /** * control_proxy_new_sync: * @connection: A #GDBusConnection. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: (allow-none): A bus name (well-known or unique) or %NULL if @connection is not a message bus connection. * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL * * Synchronously creates a proxy for the D-Bus interface org.openbmc.Control. See g_dbus_proxy_new_sync() for more details. * * The calling thread is blocked until a reply is received. * * See control_proxy_new() for the asynchronous version of this constructor. * * Returns: (transfer full) (type ControlProxy): The constructed proxy object or %NULL if @error is set. */ Control * control_proxy_new_sync ( GDBusConnection *connection, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GError **error) { GInitable *ret; ret = g_initable_new (TYPE_CONTROL_PROXY, cancellable, error, "g-flags", flags, "g-name", name, "g-connection", connection, "g-object-path", object_path, "g-interface-name", "org.openbmc.Control", NULL); if (ret != NULL) return CONTROL (ret); else return NULL; } /** * control_proxy_new_for_bus: * @bus_type: A #GBusType. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: A bus name (well-known or unique). * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied. * @user_data: User data to pass to @callback. * * Like control_proxy_new() but takes a #GBusType instead of a #GDBusConnection. * * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call control_proxy_new_for_bus_finish() to get the result of the operation. * * See control_proxy_new_for_bus_sync() for the synchronous, blocking version of this constructor. */ void control_proxy_new_for_bus ( GBusType bus_type, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_async_initable_new_async (TYPE_CONTROL_PROXY, G_PRIORITY_DEFAULT, cancellable, callback, user_data, "g-flags", flags, "g-name", name, "g-bus-type", bus_type, "g-object-path", object_path, "g-interface-name", "org.openbmc.Control", NULL); } /** * control_proxy_new_for_bus_finish: * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to control_proxy_new_for_bus(). * @error: Return location for error or %NULL * * Finishes an operation started with control_proxy_new_for_bus(). * * Returns: (transfer full) (type ControlProxy): The constructed proxy object or %NULL if @error is set. */ Control * control_proxy_new_for_bus_finish ( GAsyncResult *res, GError **error) { GObject *ret; GObject *source_object; source_object = g_async_result_get_source_object (res); ret = g_async_initable_new_finish (G_ASYNC_INITABLE (source_object), res, error); g_object_unref (source_object); if (ret != NULL) return CONTROL (ret); else return NULL; } /** * control_proxy_new_for_bus_sync: * @bus_type: A #GBusType. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: A bus name (well-known or unique). * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL * * Like control_proxy_new_sync() but takes a #GBusType instead of a #GDBusConnection. * * The calling thread is blocked until a reply is received. * * See control_proxy_new_for_bus() for the asynchronous version of this constructor. * * Returns: (transfer full) (type ControlProxy): The constructed proxy object or %NULL if @error is set. */ Control * control_proxy_new_for_bus_sync ( GBusType bus_type, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GError **error) { GInitable *ret; ret = g_initable_new (TYPE_CONTROL_PROXY, cancellable, error, "g-flags", flags, "g-name", name, "g-bus-type", bus_type, "g-object-path", object_path, "g-interface-name", "org.openbmc.Control", NULL); if (ret != NULL) return CONTROL (ret); else return NULL; } /* ------------------------------------------------------------------------ */ /** * ControlSkeleton: * * The #ControlSkeleton structure contains only private data and should only be accessed using the provided API. */ /** * ControlSkeletonClass: * @parent_class: The parent class. * * Class structure for #ControlSkeleton. */ struct _ControlSkeletonPrivate { GValue *properties; GList *changed_properties; GSource *changed_properties_idle_source; GMainContext *context; GMutex lock; }; static void _control_skeleton_handle_method_call ( GDBusConnection *connection G_GNUC_UNUSED, const gchar *sender G_GNUC_UNUSED, const gchar *object_path G_GNUC_UNUSED, const gchar *interface_name, const gchar *method_name, GVariant *parameters, GDBusMethodInvocation *invocation, gpointer user_data) { ControlSkeleton *skeleton = CONTROL_SKELETON (user_data); _ExtendedGDBusMethodInfo *info; GVariantIter iter; GVariant *child; GValue *paramv; guint num_params; guint num_extra; guint n; guint signal_id; GValue return_value = G_VALUE_INIT; info = (_ExtendedGDBusMethodInfo *) g_dbus_method_invocation_get_method_info (invocation); g_assert (info != NULL); num_params = g_variant_n_children (parameters); num_extra = info->pass_fdlist ? 3 : 2; paramv = g_new0 (GValue, num_params + num_extra); n = 0; g_value_init (¶mv[n], TYPE_CONTROL); g_value_set_object (¶mv[n++], skeleton); g_value_init (¶mv[n], G_TYPE_DBUS_METHOD_INVOCATION); g_value_set_object (¶mv[n++], invocation); if (info->pass_fdlist) { #ifdef G_OS_UNIX g_value_init (¶mv[n], G_TYPE_UNIX_FD_LIST); g_value_set_object (¶mv[n++], g_dbus_message_get_unix_fd_list (g_dbus_method_invocation_get_message (invocation))); #else g_assert_not_reached (); #endif } g_variant_iter_init (&iter, parameters); while ((child = g_variant_iter_next_value (&iter)) != NULL) { _ExtendedGDBusArgInfo *arg_info = (_ExtendedGDBusArgInfo *) info->parent_struct.in_args[n - num_extra]; if (arg_info->use_gvariant) { g_value_init (¶mv[n], G_TYPE_VARIANT); g_value_set_variant (¶mv[n], child); n++; } else g_dbus_gvariant_to_gvalue (child, ¶mv[n++]); g_variant_unref (child); } signal_id = g_signal_lookup (info->signal_name, TYPE_CONTROL); g_value_init (&return_value, G_TYPE_BOOLEAN); g_signal_emitv (paramv, signal_id, 0, &return_value); if (!g_value_get_boolean (&return_value)) g_dbus_method_invocation_return_error (invocation, G_DBUS_ERROR, G_DBUS_ERROR_UNKNOWN_METHOD, "Method %s is not implemented on interface %s", method_name, interface_name); g_value_unset (&return_value); for (n = 0; n < num_params + num_extra; n++) g_value_unset (¶mv[n]); g_free (paramv); } static GVariant * _control_skeleton_handle_get_property ( GDBusConnection *connection G_GNUC_UNUSED, const gchar *sender G_GNUC_UNUSED, const gchar *object_path G_GNUC_UNUSED, const gchar *interface_name G_GNUC_UNUSED, const gchar *property_name, GError **error, gpointer user_data) { ControlSkeleton *skeleton = CONTROL_SKELETON (user_data); GValue value = G_VALUE_INIT; GParamSpec *pspec; _ExtendedGDBusPropertyInfo *info; GVariant *ret; ret = NULL; info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_control_interface_info.parent_struct, property_name); g_assert (info != NULL); pspec = g_object_class_find_property (G_OBJECT_GET_CLASS (skeleton), info->hyphen_name); if (pspec == NULL) { g_set_error (error, G_DBUS_ERROR, G_DBUS_ERROR_INVALID_ARGS, "No property with name %s", property_name); } else { g_value_init (&value, pspec->value_type); g_object_get_property (G_OBJECT (skeleton), info->hyphen_name, &value); ret = g_dbus_gvalue_to_gvariant (&value, G_VARIANT_TYPE (info->parent_struct.signature)); g_value_unset (&value); } return ret; } static gboolean _control_skeleton_handle_set_property ( GDBusConnection *connection G_GNUC_UNUSED, const gchar *sender G_GNUC_UNUSED, const gchar *object_path G_GNUC_UNUSED, const gchar *interface_name G_GNUC_UNUSED, const gchar *property_name, GVariant *variant, GError **error, gpointer user_data) { ControlSkeleton *skeleton = CONTROL_SKELETON (user_data); GValue value = G_VALUE_INIT; GParamSpec *pspec; _ExtendedGDBusPropertyInfo *info; gboolean ret; ret = FALSE; info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_control_interface_info.parent_struct, property_name); g_assert (info != NULL); pspec = g_object_class_find_property (G_OBJECT_GET_CLASS (skeleton), info->hyphen_name); if (pspec == NULL) { g_set_error (error, G_DBUS_ERROR, G_DBUS_ERROR_INVALID_ARGS, "No property with name %s", property_name); } else { if (info->use_gvariant) g_value_set_variant (&value, variant); else g_dbus_gvariant_to_gvalue (variant, &value); g_object_set_property (G_OBJECT (skeleton), info->hyphen_name, &value); g_value_unset (&value); ret = TRUE; } return ret; } static const GDBusInterfaceVTable _control_skeleton_vtable = { _control_skeleton_handle_method_call, _control_skeleton_handle_get_property, _control_skeleton_handle_set_property, {NULL} }; static GDBusInterfaceInfo * control_skeleton_dbus_interface_get_info (GDBusInterfaceSkeleton *skeleton G_GNUC_UNUSED) { return control_interface_info (); } static GDBusInterfaceVTable * control_skeleton_dbus_interface_get_vtable (GDBusInterfaceSkeleton *skeleton G_GNUC_UNUSED) { return (GDBusInterfaceVTable *) &_control_skeleton_vtable; } static GVariant * control_skeleton_dbus_interface_get_properties (GDBusInterfaceSkeleton *_skeleton) { ControlSkeleton *skeleton = CONTROL_SKELETON (_skeleton); GVariantBuilder builder; guint n; g_variant_builder_init (&builder, G_VARIANT_TYPE ("a{sv}")); if (_control_interface_info.parent_struct.properties == NULL) goto out; for (n = 0; _control_interface_info.parent_struct.properties[n] != NULL; n++) { GDBusPropertyInfo *info = _control_interface_info.parent_struct.properties[n]; if (info->flags & G_DBUS_PROPERTY_INFO_FLAGS_READABLE) { GVariant *value; value = _control_skeleton_handle_get_property (g_dbus_interface_skeleton_get_connection (G_DBUS_INTERFACE_SKELETON (skeleton)), NULL, g_dbus_interface_skeleton_get_object_path (G_DBUS_INTERFACE_SKELETON (skeleton)), "org.openbmc.Control", info->name, NULL, skeleton); if (value != NULL) { g_variant_take_ref (value); g_variant_builder_add (&builder, "{sv}", info->name, value); g_variant_unref (value); } } } out: return g_variant_builder_end (&builder); } static gboolean _control_emit_changed (gpointer user_data); static void control_skeleton_dbus_interface_flush (GDBusInterfaceSkeleton *_skeleton) { ControlSkeleton *skeleton = CONTROL_SKELETON (_skeleton); gboolean emit_changed = FALSE; g_mutex_lock (&skeleton->priv->lock); if (skeleton->priv->changed_properties_idle_source != NULL) { g_source_destroy (skeleton->priv->changed_properties_idle_source); skeleton->priv->changed_properties_idle_source = NULL; emit_changed = TRUE; } g_mutex_unlock (&skeleton->priv->lock); if (emit_changed) _control_emit_changed (skeleton); } static void _control_on_signal_heartbeat ( Control *object, const gchar *arg_bus_name) { ControlSkeleton *skeleton = CONTROL_SKELETON (object); GList *connections, *l; GVariant *signal_variant; connections = g_dbus_interface_skeleton_get_connections (G_DBUS_INTERFACE_SKELETON (skeleton)); signal_variant = g_variant_ref_sink (g_variant_new ("(s)", arg_bus_name)); for (l = connections; l != NULL; l = l->next) { GDBusConnection *connection = l->data; g_dbus_connection_emit_signal (connection, NULL, g_dbus_interface_skeleton_get_object_path (G_DBUS_INTERFACE_SKELETON (skeleton)), "org.openbmc.Control", "Heartbeat", signal_variant, NULL); } g_variant_unref (signal_variant); g_list_free_full (connections, g_object_unref); } static void _control_on_signal_started ( Control *object) { ControlSkeleton *skeleton = CONTROL_SKELETON (object); GList *connections, *l; GVariant *signal_variant; connections = g_dbus_interface_skeleton_get_connections (G_DBUS_INTERFACE_SKELETON (skeleton)); signal_variant = g_variant_ref_sink (g_variant_new ("()")); for (l = connections; l != NULL; l = l->next) { GDBusConnection *connection = l->data; g_dbus_connection_emit_signal (connection, NULL, g_dbus_interface_skeleton_get_object_path (G_DBUS_INTERFACE_SKELETON (skeleton)), "org.openbmc.Control", "Started", signal_variant, NULL); } g_variant_unref (signal_variant); g_list_free_full (connections, g_object_unref); } static void control_skeleton_iface_init (ControlIface *iface); #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 G_DEFINE_TYPE_WITH_CODE (ControlSkeleton, control_skeleton, G_TYPE_DBUS_INTERFACE_SKELETON, G_ADD_PRIVATE (ControlSkeleton) G_IMPLEMENT_INTERFACE (TYPE_CONTROL, control_skeleton_iface_init)); #else G_DEFINE_TYPE_WITH_CODE (ControlSkeleton, control_skeleton, G_TYPE_DBUS_INTERFACE_SKELETON, G_IMPLEMENT_INTERFACE (TYPE_CONTROL, control_skeleton_iface_init)); #endif static void control_skeleton_finalize (GObject *object) { ControlSkeleton *skeleton = CONTROL_SKELETON (object); guint n; for (n = 0; n < 2; n++) g_value_unset (&skeleton->priv->properties[n]); g_free (skeleton->priv->properties); g_list_free_full (skeleton->priv->changed_properties, (GDestroyNotify) _changed_property_free); if (skeleton->priv->changed_properties_idle_source != NULL) g_source_destroy (skeleton->priv->changed_properties_idle_source); g_main_context_unref (skeleton->priv->context); g_mutex_clear (&skeleton->priv->lock); G_OBJECT_CLASS (control_skeleton_parent_class)->finalize (object); } static void control_skeleton_get_property (GObject *object, guint prop_id, GValue *value, GParamSpec *pspec G_GNUC_UNUSED) { ControlSkeleton *skeleton = CONTROL_SKELETON (object); g_assert (prop_id != 0 && prop_id - 1 < 2); g_mutex_lock (&skeleton->priv->lock); g_value_copy (&skeleton->priv->properties[prop_id - 1], value); g_mutex_unlock (&skeleton->priv->lock); } static gboolean _control_emit_changed (gpointer user_data) { ControlSkeleton *skeleton = CONTROL_SKELETON (user_data); GList *l; GVariantBuilder builder; GVariantBuilder invalidated_builder; guint num_changes; g_mutex_lock (&skeleton->priv->lock); g_variant_builder_init (&builder, G_VARIANT_TYPE ("a{sv}")); g_variant_builder_init (&invalidated_builder, G_VARIANT_TYPE ("as")); for (l = skeleton->priv->changed_properties, num_changes = 0; l != NULL; l = l->next) { ChangedProperty *cp = l->data; GVariant *variant; const GValue *cur_value; cur_value = &skeleton->priv->properties[cp->prop_id - 1]; if (!_g_value_equal (cur_value, &cp->orig_value)) { variant = g_dbus_gvalue_to_gvariant (cur_value, G_VARIANT_TYPE (cp->info->parent_struct.signature)); g_variant_builder_add (&builder, "{sv}", cp->info->parent_struct.name, variant); g_variant_unref (variant); num_changes++; } } if (num_changes > 0) { GList *connections, *ll; GVariant *signal_variant; signal_variant = g_variant_ref_sink (g_variant_new ("(sa{sv}as)", "org.openbmc.Control", &builder, &invalidated_builder)); connections = g_dbus_interface_skeleton_get_connections (G_DBUS_INTERFACE_SKELETON (skeleton)); for (ll = connections; ll != NULL; ll = ll->next) { GDBusConnection *connection = ll->data; g_dbus_connection_emit_signal (connection, NULL, g_dbus_interface_skeleton_get_object_path (G_DBUS_INTERFACE_SKELETON (skeleton)), "org.freedesktop.DBus.Properties", "PropertiesChanged", signal_variant, NULL); } g_variant_unref (signal_variant); g_list_free_full (connections, g_object_unref); } else { g_variant_builder_clear (&builder); g_variant_builder_clear (&invalidated_builder); } g_list_free_full (skeleton->priv->changed_properties, (GDestroyNotify) _changed_property_free); skeleton->priv->changed_properties = NULL; skeleton->priv->changed_properties_idle_source = NULL; g_mutex_unlock (&skeleton->priv->lock); return FALSE; } static void _control_schedule_emit_changed (ControlSkeleton *skeleton, const _ExtendedGDBusPropertyInfo *info, guint prop_id, const GValue *orig_value) { ChangedProperty *cp; GList *l; cp = NULL; for (l = skeleton->priv->changed_properties; l != NULL; l = l->next) { ChangedProperty *i_cp = l->data; if (i_cp->info == info) { cp = i_cp; break; } } if (cp == NULL) { cp = g_new0 (ChangedProperty, 1); cp->prop_id = prop_id; cp->info = info; skeleton->priv->changed_properties = g_list_prepend (skeleton->priv->changed_properties, cp); g_value_init (&cp->orig_value, G_VALUE_TYPE (orig_value)); g_value_copy (orig_value, &cp->orig_value); } } static void control_skeleton_notify (GObject *object, GParamSpec *pspec G_GNUC_UNUSED) { ControlSkeleton *skeleton = CONTROL_SKELETON (object); g_mutex_lock (&skeleton->priv->lock); if (skeleton->priv->changed_properties != NULL && skeleton->priv->changed_properties_idle_source == NULL) { skeleton->priv->changed_properties_idle_source = g_idle_source_new (); g_source_set_priority (skeleton->priv->changed_properties_idle_source, G_PRIORITY_DEFAULT); g_source_set_callback (skeleton->priv->changed_properties_idle_source, _control_emit_changed, g_object_ref (skeleton), (GDestroyNotify) g_object_unref); g_source_set_name (skeleton->priv->changed_properties_idle_source, "[generated] _control_emit_changed"); g_source_attach (skeleton->priv->changed_properties_idle_source, skeleton->priv->context); g_source_unref (skeleton->priv->changed_properties_idle_source); } g_mutex_unlock (&skeleton->priv->lock); } static void control_skeleton_set_property (GObject *object, guint prop_id, const GValue *value, GParamSpec *pspec) { ControlSkeleton *skeleton = CONTROL_SKELETON (object); g_assert (prop_id != 0 && prop_id - 1 < 2); g_mutex_lock (&skeleton->priv->lock); g_object_freeze_notify (object); if (!_g_value_equal (value, &skeleton->priv->properties[prop_id - 1])) { if (g_dbus_interface_skeleton_get_connection (G_DBUS_INTERFACE_SKELETON (skeleton)) != NULL) _control_schedule_emit_changed (skeleton, _control_property_info_pointers[prop_id - 1], prop_id, &skeleton->priv->properties[prop_id - 1]); g_value_copy (value, &skeleton->priv->properties[prop_id - 1]); g_object_notify_by_pspec (object, pspec); } g_mutex_unlock (&skeleton->priv->lock); g_object_thaw_notify (object); } static void control_skeleton_init (ControlSkeleton *skeleton) { #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 skeleton->priv = control_skeleton_get_instance_private (skeleton); #else skeleton->priv = G_TYPE_INSTANCE_GET_PRIVATE (skeleton, TYPE_CONTROL_SKELETON, ControlSkeletonPrivate); #endif g_mutex_init (&skeleton->priv->lock); skeleton->priv->context = g_main_context_ref_thread_default (); skeleton->priv->properties = g_new0 (GValue, 2); g_value_init (&skeleton->priv->properties[0], G_TYPE_INT); g_value_init (&skeleton->priv->properties[1], G_TYPE_INT); } static gint control_skeleton_get_poll_interval (Control *object) { ControlSkeleton *skeleton = CONTROL_SKELETON (object); gint value; g_mutex_lock (&skeleton->priv->lock); value = g_value_get_int (&(skeleton->priv->properties[0])); g_mutex_unlock (&skeleton->priv->lock); return value; } static gint control_skeleton_get_heatbeat (Control *object) { ControlSkeleton *skeleton = CONTROL_SKELETON (object); gint value; g_mutex_lock (&skeleton->priv->lock); value = g_value_get_int (&(skeleton->priv->properties[1])); g_mutex_unlock (&skeleton->priv->lock); return value; } static void control_skeleton_class_init (ControlSkeletonClass *klass) { GObjectClass *gobject_class; GDBusInterfaceSkeletonClass *skeleton_class; gobject_class = G_OBJECT_CLASS (klass); gobject_class->finalize = control_skeleton_finalize; gobject_class->get_property = control_skeleton_get_property; gobject_class->set_property = control_skeleton_set_property; gobject_class->notify = control_skeleton_notify; control_override_properties (gobject_class, 1); skeleton_class = G_DBUS_INTERFACE_SKELETON_CLASS (klass); skeleton_class->get_info = control_skeleton_dbus_interface_get_info; skeleton_class->get_properties = control_skeleton_dbus_interface_get_properties; skeleton_class->flush = control_skeleton_dbus_interface_flush; skeleton_class->get_vtable = control_skeleton_dbus_interface_get_vtable; #if GLIB_VERSION_MAX_ALLOWED < GLIB_VERSION_2_38 g_type_class_add_private (klass, sizeof (ControlSkeletonPrivate)); #endif } static void control_skeleton_iface_init (ControlIface *iface) { iface->heartbeat = _control_on_signal_heartbeat; iface->started = _control_on_signal_started; iface->get_poll_interval = control_skeleton_get_poll_interval; iface->get_heatbeat = control_skeleton_get_heatbeat; } /** * control_skeleton_new: * * Creates a skeleton object for the D-Bus interface org.openbmc.Control. * * Returns: (transfer full) (type ControlSkeleton): The skeleton object. */ Control * control_skeleton_new (void) { return CONTROL (g_object_new (TYPE_CONTROL_SKELETON, NULL)); } /* ------------------------------------------------------------------------ * Code for interface org.openbmc.control.Bmc * ------------------------------------------------------------------------ */ /** * SECTION:ControlBmc * @title: ControlBmc * @short_description: Generated C code for the org.openbmc.control.Bmc D-Bus interface * * This section contains code for working with the org.openbmc.control.Bmc D-Bus interface in C. */ /* ---- Introspection data for org.openbmc.control.Bmc ---- */ static const _ExtendedGDBusMethodInfo _control_bmc_method_info_cold_reset = { { -1, (gchar *) "coldReset", NULL, NULL, NULL }, "handle-cold-reset", FALSE }; static const _ExtendedGDBusMethodInfo _control_bmc_method_info_warm_reset = { { -1, (gchar *) "warmReset", NULL, NULL, NULL }, "handle-warm-reset", FALSE }; static const _ExtendedGDBusMethodInfo * const _control_bmc_method_info_pointers[] = { &_control_bmc_method_info_cold_reset, &_control_bmc_method_info_warm_reset, NULL }; static const _ExtendedGDBusInterfaceInfo _control_bmc_interface_info = { { -1, (gchar *) "org.openbmc.control.Bmc", (GDBusMethodInfo **) &_control_bmc_method_info_pointers, NULL, NULL, NULL }, "control-bmc", }; /** * control_bmc_interface_info: * * Gets a machine-readable description of the org.openbmc.control.Bmc D-Bus interface. * * Returns: (transfer none): A #GDBusInterfaceInfo. Do not free. */ GDBusInterfaceInfo * control_bmc_interface_info (void) { return (GDBusInterfaceInfo *) &_control_bmc_interface_info.parent_struct; } /** * control_bmc_override_properties: * @klass: The class structure for a #GObject-derived class. * @property_id_begin: The property id to assign to the first overridden property. * * Overrides all #GObject properties in the #ControlBmc interface for a concrete class. * The properties are overridden in the order they are defined. * * Returns: The last property id. */ guint control_bmc_override_properties (GObjectClass *klass, guint property_id_begin) { return property_id_begin - 1; } /** * ControlBmc: * * Abstract interface type for the D-Bus interface org.openbmc.control.Bmc. */ /** * ControlBmcIface: * @parent_iface: The parent interface. * @handle_cold_reset: Handler for the #ControlBmc::handle-cold-reset signal. * @handle_warm_reset: Handler for the #ControlBmc::handle-warm-reset signal. * * Virtual table for the D-Bus interface org.openbmc.control.Bmc. */ typedef ControlBmcIface ControlBmcInterface; G_DEFINE_INTERFACE (ControlBmc, control_bmc, G_TYPE_OBJECT); static void control_bmc_default_init (ControlBmcIface *iface) { /* GObject signals for incoming D-Bus method calls: */ /** * ControlBmc::handle-cold-reset: * @object: A #ControlBmc. * @invocation: A #GDBusMethodInvocation. * * Signal emitted when a remote caller is invoking the coldReset() D-Bus method. * * If a signal handler returns %TRUE, it means the signal handler will handle the invocation (e.g. take a reference to @invocation and eventually call control_bmc_complete_cold_reset() or e.g. g_dbus_method_invocation_return_error() on it) and no order signal handlers will run. If no signal handler handles the invocation, the %G_DBUS_ERROR_UNKNOWN_METHOD error is returned. * * Returns: %TRUE if the invocation was handled, %FALSE to let other signal handlers run. */ g_signal_new ("handle-cold-reset", G_TYPE_FROM_INTERFACE (iface), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (ControlBmcIface, handle_cold_reset), g_signal_accumulator_true_handled, NULL, g_cclosure_marshal_generic, G_TYPE_BOOLEAN, 1, G_TYPE_DBUS_METHOD_INVOCATION); /** * ControlBmc::handle-warm-reset: * @object: A #ControlBmc. * @invocation: A #GDBusMethodInvocation. * * Signal emitted when a remote caller is invoking the warmReset() D-Bus method. * * If a signal handler returns %TRUE, it means the signal handler will handle the invocation (e.g. take a reference to @invocation and eventually call control_bmc_complete_warm_reset() or e.g. g_dbus_method_invocation_return_error() on it) and no order signal handlers will run. If no signal handler handles the invocation, the %G_DBUS_ERROR_UNKNOWN_METHOD error is returned. * * Returns: %TRUE if the invocation was handled, %FALSE to let other signal handlers run. */ g_signal_new ("handle-warm-reset", G_TYPE_FROM_INTERFACE (iface), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (ControlBmcIface, handle_warm_reset), g_signal_accumulator_true_handled, NULL, g_cclosure_marshal_generic, G_TYPE_BOOLEAN, 1, G_TYPE_DBUS_METHOD_INVOCATION); } /** * control_bmc_call_cold_reset: * @proxy: A #ControlBmcProxy. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied or %NULL. * @user_data: User data to pass to @callback. * * Asynchronously invokes the coldReset() D-Bus method on @proxy. * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call control_bmc_call_cold_reset_finish() to get the result of the operation. * * See control_bmc_call_cold_reset_sync() for the synchronous, blocking version of this method. */ void control_bmc_call_cold_reset ( ControlBmc *proxy, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_dbus_proxy_call (G_DBUS_PROXY (proxy), "coldReset", g_variant_new ("()"), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, callback, user_data); } /** * control_bmc_call_cold_reset_finish: * @proxy: A #ControlBmcProxy. * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to control_bmc_call_cold_reset(). * @error: Return location for error or %NULL. * * Finishes an operation started with control_bmc_call_cold_reset(). * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean control_bmc_call_cold_reset_finish ( ControlBmc *proxy, GAsyncResult *res, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_finish (G_DBUS_PROXY (proxy), res, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "()"); g_variant_unref (_ret); _out: return _ret != NULL; } /** * control_bmc_call_cold_reset_sync: * @proxy: A #ControlBmcProxy. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL. * * Synchronously invokes the coldReset() D-Bus method on @proxy. The calling thread is blocked until a reply is received. * * See control_bmc_call_cold_reset() for the asynchronous version of this method. * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean control_bmc_call_cold_reset_sync ( ControlBmc *proxy, GCancellable *cancellable, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_sync (G_DBUS_PROXY (proxy), "coldReset", g_variant_new ("()"), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "()"); g_variant_unref (_ret); _out: return _ret != NULL; } /** * control_bmc_call_warm_reset: * @proxy: A #ControlBmcProxy. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied or %NULL. * @user_data: User data to pass to @callback. * * Asynchronously invokes the warmReset() D-Bus method on @proxy. * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call control_bmc_call_warm_reset_finish() to get the result of the operation. * * See control_bmc_call_warm_reset_sync() for the synchronous, blocking version of this method. */ void control_bmc_call_warm_reset ( ControlBmc *proxy, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_dbus_proxy_call (G_DBUS_PROXY (proxy), "warmReset", g_variant_new ("()"), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, callback, user_data); } /** * control_bmc_call_warm_reset_finish: * @proxy: A #ControlBmcProxy. * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to control_bmc_call_warm_reset(). * @error: Return location for error or %NULL. * * Finishes an operation started with control_bmc_call_warm_reset(). * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean control_bmc_call_warm_reset_finish ( ControlBmc *proxy, GAsyncResult *res, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_finish (G_DBUS_PROXY (proxy), res, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "()"); g_variant_unref (_ret); _out: return _ret != NULL; } /** * control_bmc_call_warm_reset_sync: * @proxy: A #ControlBmcProxy. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL. * * Synchronously invokes the warmReset() D-Bus method on @proxy. The calling thread is blocked until a reply is received. * * See control_bmc_call_warm_reset() for the asynchronous version of this method. * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean control_bmc_call_warm_reset_sync ( ControlBmc *proxy, GCancellable *cancellable, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_sync (G_DBUS_PROXY (proxy), "warmReset", g_variant_new ("()"), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "()"); g_variant_unref (_ret); _out: return _ret != NULL; } /** * control_bmc_complete_cold_reset: * @object: A #ControlBmc. * @invocation: (transfer full): A #GDBusMethodInvocation. * * Helper function used in service implementations to finish handling invocations of the coldReset() D-Bus method. If you instead want to finish handling an invocation by returning an error, use g_dbus_method_invocation_return_error() or similar. * * This method will free @invocation, you cannot use it afterwards. */ void control_bmc_complete_cold_reset ( ControlBmc *object, GDBusMethodInvocation *invocation) { g_dbus_method_invocation_return_value (invocation, g_variant_new ("()")); } /** * control_bmc_complete_warm_reset: * @object: A #ControlBmc. * @invocation: (transfer full): A #GDBusMethodInvocation. * * Helper function used in service implementations to finish handling invocations of the warmReset() D-Bus method. If you instead want to finish handling an invocation by returning an error, use g_dbus_method_invocation_return_error() or similar. * * This method will free @invocation, you cannot use it afterwards. */ void control_bmc_complete_warm_reset ( ControlBmc *object, GDBusMethodInvocation *invocation) { g_dbus_method_invocation_return_value (invocation, g_variant_new ("()")); } /* ------------------------------------------------------------------------ */ /** * ControlBmcProxy: * * The #ControlBmcProxy structure contains only private data and should only be accessed using the provided API. */ /** * ControlBmcProxyClass: * @parent_class: The parent class. * * Class structure for #ControlBmcProxy. */ struct _ControlBmcProxyPrivate { GData *qdata; }; static void control_bmc_proxy_iface_init (ControlBmcIface *iface); #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 G_DEFINE_TYPE_WITH_CODE (ControlBmcProxy, control_bmc_proxy, G_TYPE_DBUS_PROXY, G_ADD_PRIVATE (ControlBmcProxy) G_IMPLEMENT_INTERFACE (TYPE_CONTROL_BMC, control_bmc_proxy_iface_init)); #else G_DEFINE_TYPE_WITH_CODE (ControlBmcProxy, control_bmc_proxy, G_TYPE_DBUS_PROXY, G_IMPLEMENT_INTERFACE (TYPE_CONTROL_BMC, control_bmc_proxy_iface_init)); #endif static void control_bmc_proxy_finalize (GObject *object) { ControlBmcProxy *proxy = CONTROL_BMC_PROXY (object); g_datalist_clear (&proxy->priv->qdata); G_OBJECT_CLASS (control_bmc_proxy_parent_class)->finalize (object); } static void control_bmc_proxy_get_property (GObject *object, guint prop_id, GValue *value, GParamSpec *pspec G_GNUC_UNUSED) { } static void control_bmc_proxy_set_property (GObject *object, guint prop_id, const GValue *value, GParamSpec *pspec G_GNUC_UNUSED) { } static void control_bmc_proxy_g_signal (GDBusProxy *proxy, const gchar *sender_name G_GNUC_UNUSED, const gchar *signal_name, GVariant *parameters) { _ExtendedGDBusSignalInfo *info; GVariantIter iter; GVariant *child; GValue *paramv; guint num_params; guint n; guint signal_id; info = (_ExtendedGDBusSignalInfo *) g_dbus_interface_info_lookup_signal ((GDBusInterfaceInfo *) &_control_bmc_interface_info.parent_struct, signal_name); if (info == NULL) return; num_params = g_variant_n_children (parameters); paramv = g_new0 (GValue, num_params + 1); g_value_init (¶mv[0], TYPE_CONTROL_BMC); g_value_set_object (¶mv[0], proxy); g_variant_iter_init (&iter, parameters); n = 1; while ((child = g_variant_iter_next_value (&iter)) != NULL) { _ExtendedGDBusArgInfo *arg_info = (_ExtendedGDBusArgInfo *) info->parent_struct.args[n - 1]; if (arg_info->use_gvariant) { g_value_init (¶mv[n], G_TYPE_VARIANT); g_value_set_variant (¶mv[n], child); n++; } else g_dbus_gvariant_to_gvalue (child, ¶mv[n++]); g_variant_unref (child); } signal_id = g_signal_lookup (info->signal_name, TYPE_CONTROL_BMC); g_signal_emitv (paramv, signal_id, 0, NULL); for (n = 0; n < num_params + 1; n++) g_value_unset (¶mv[n]); g_free (paramv); } static void control_bmc_proxy_g_properties_changed (GDBusProxy *_proxy, GVariant *changed_properties, const gchar *const *invalidated_properties) { ControlBmcProxy *proxy = CONTROL_BMC_PROXY (_proxy); guint n; const gchar *key; GVariantIter *iter; _ExtendedGDBusPropertyInfo *info; g_variant_get (changed_properties, "a{sv}", &iter); while (g_variant_iter_next (iter, "{&sv}", &key, NULL)) { info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_control_bmc_interface_info.parent_struct, key); g_datalist_remove_data (&proxy->priv->qdata, key); if (info != NULL) g_object_notify (G_OBJECT (proxy), info->hyphen_name); } g_variant_iter_free (iter); for (n = 0; invalidated_properties[n] != NULL; n++) { info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_control_bmc_interface_info.parent_struct, invalidated_properties[n]); g_datalist_remove_data (&proxy->priv->qdata, invalidated_properties[n]); if (info != NULL) g_object_notify (G_OBJECT (proxy), info->hyphen_name); } } static void control_bmc_proxy_init (ControlBmcProxy *proxy) { #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 proxy->priv = control_bmc_proxy_get_instance_private (proxy); #else proxy->priv = G_TYPE_INSTANCE_GET_PRIVATE (proxy, TYPE_CONTROL_BMC_PROXY, ControlBmcProxyPrivate); #endif g_dbus_proxy_set_interface_info (G_DBUS_PROXY (proxy), control_bmc_interface_info ()); } static void control_bmc_proxy_class_init (ControlBmcProxyClass *klass) { GObjectClass *gobject_class; GDBusProxyClass *proxy_class; gobject_class = G_OBJECT_CLASS (klass); gobject_class->finalize = control_bmc_proxy_finalize; gobject_class->get_property = control_bmc_proxy_get_property; gobject_class->set_property = control_bmc_proxy_set_property; proxy_class = G_DBUS_PROXY_CLASS (klass); proxy_class->g_signal = control_bmc_proxy_g_signal; proxy_class->g_properties_changed = control_bmc_proxy_g_properties_changed; #if GLIB_VERSION_MAX_ALLOWED < GLIB_VERSION_2_38 g_type_class_add_private (klass, sizeof (ControlBmcProxyPrivate)); #endif } static void control_bmc_proxy_iface_init (ControlBmcIface *iface) { } /** * control_bmc_proxy_new: * @connection: A #GDBusConnection. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: (allow-none): A bus name (well-known or unique) or %NULL if @connection is not a message bus connection. * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied. * @user_data: User data to pass to @callback. * * Asynchronously creates a proxy for the D-Bus interface org.openbmc.control.Bmc. See g_dbus_proxy_new() for more details. * * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call control_bmc_proxy_new_finish() to get the result of the operation. * * See control_bmc_proxy_new_sync() for the synchronous, blocking version of this constructor. */ void control_bmc_proxy_new ( GDBusConnection *connection, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_async_initable_new_async (TYPE_CONTROL_BMC_PROXY, G_PRIORITY_DEFAULT, cancellable, callback, user_data, "g-flags", flags, "g-name", name, "g-connection", connection, "g-object-path", object_path, "g-interface-name", "org.openbmc.control.Bmc", NULL); } /** * control_bmc_proxy_new_finish: * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to control_bmc_proxy_new(). * @error: Return location for error or %NULL * * Finishes an operation started with control_bmc_proxy_new(). * * Returns: (transfer full) (type ControlBmcProxy): The constructed proxy object or %NULL if @error is set. */ ControlBmc * control_bmc_proxy_new_finish ( GAsyncResult *res, GError **error) { GObject *ret; GObject *source_object; source_object = g_async_result_get_source_object (res); ret = g_async_initable_new_finish (G_ASYNC_INITABLE (source_object), res, error); g_object_unref (source_object); if (ret != NULL) return CONTROL_BMC (ret); else return NULL; } /** * control_bmc_proxy_new_sync: * @connection: A #GDBusConnection. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: (allow-none): A bus name (well-known or unique) or %NULL if @connection is not a message bus connection. * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL * * Synchronously creates a proxy for the D-Bus interface org.openbmc.control.Bmc. See g_dbus_proxy_new_sync() for more details. * * The calling thread is blocked until a reply is received. * * See control_bmc_proxy_new() for the asynchronous version of this constructor. * * Returns: (transfer full) (type ControlBmcProxy): The constructed proxy object or %NULL if @error is set. */ ControlBmc * control_bmc_proxy_new_sync ( GDBusConnection *connection, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GError **error) { GInitable *ret; ret = g_initable_new (TYPE_CONTROL_BMC_PROXY, cancellable, error, "g-flags", flags, "g-name", name, "g-connection", connection, "g-object-path", object_path, "g-interface-name", "org.openbmc.control.Bmc", NULL); if (ret != NULL) return CONTROL_BMC (ret); else return NULL; } /** * control_bmc_proxy_new_for_bus: * @bus_type: A #GBusType. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: A bus name (well-known or unique). * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied. * @user_data: User data to pass to @callback. * * Like control_bmc_proxy_new() but takes a #GBusType instead of a #GDBusConnection. * * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call control_bmc_proxy_new_for_bus_finish() to get the result of the operation. * * See control_bmc_proxy_new_for_bus_sync() for the synchronous, blocking version of this constructor. */ void control_bmc_proxy_new_for_bus ( GBusType bus_type, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_async_initable_new_async (TYPE_CONTROL_BMC_PROXY, G_PRIORITY_DEFAULT, cancellable, callback, user_data, "g-flags", flags, "g-name", name, "g-bus-type", bus_type, "g-object-path", object_path, "g-interface-name", "org.openbmc.control.Bmc", NULL); } /** * control_bmc_proxy_new_for_bus_finish: * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to control_bmc_proxy_new_for_bus(). * @error: Return location for error or %NULL * * Finishes an operation started with control_bmc_proxy_new_for_bus(). * * Returns: (transfer full) (type ControlBmcProxy): The constructed proxy object or %NULL if @error is set. */ ControlBmc * control_bmc_proxy_new_for_bus_finish ( GAsyncResult *res, GError **error) { GObject *ret; GObject *source_object; source_object = g_async_result_get_source_object (res); ret = g_async_initable_new_finish (G_ASYNC_INITABLE (source_object), res, error); g_object_unref (source_object); if (ret != NULL) return CONTROL_BMC (ret); else return NULL; } /** * control_bmc_proxy_new_for_bus_sync: * @bus_type: A #GBusType. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: A bus name (well-known or unique). * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL * * Like control_bmc_proxy_new_sync() but takes a #GBusType instead of a #GDBusConnection. * * The calling thread is blocked until a reply is received. * * See control_bmc_proxy_new_for_bus() for the asynchronous version of this constructor. * * Returns: (transfer full) (type ControlBmcProxy): The constructed proxy object or %NULL if @error is set. */ ControlBmc * control_bmc_proxy_new_for_bus_sync ( GBusType bus_type, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GError **error) { GInitable *ret; ret = g_initable_new (TYPE_CONTROL_BMC_PROXY, cancellable, error, "g-flags", flags, "g-name", name, "g-bus-type", bus_type, "g-object-path", object_path, "g-interface-name", "org.openbmc.control.Bmc", NULL); if (ret != NULL) return CONTROL_BMC (ret); else return NULL; } /* ------------------------------------------------------------------------ */ /** * ControlBmcSkeleton: * * The #ControlBmcSkeleton structure contains only private data and should only be accessed using the provided API. */ /** * ControlBmcSkeletonClass: * @parent_class: The parent class. * * Class structure for #ControlBmcSkeleton. */ struct _ControlBmcSkeletonPrivate { GValue *properties; GList *changed_properties; GSource *changed_properties_idle_source; GMainContext *context; GMutex lock; }; static void _control_bmc_skeleton_handle_method_call ( GDBusConnection *connection G_GNUC_UNUSED, const gchar *sender G_GNUC_UNUSED, const gchar *object_path G_GNUC_UNUSED, const gchar *interface_name, const gchar *method_name, GVariant *parameters, GDBusMethodInvocation *invocation, gpointer user_data) { ControlBmcSkeleton *skeleton = CONTROL_BMC_SKELETON (user_data); _ExtendedGDBusMethodInfo *info; GVariantIter iter; GVariant *child; GValue *paramv; guint num_params; guint num_extra; guint n; guint signal_id; GValue return_value = G_VALUE_INIT; info = (_ExtendedGDBusMethodInfo *) g_dbus_method_invocation_get_method_info (invocation); g_assert (info != NULL); num_params = g_variant_n_children (parameters); num_extra = info->pass_fdlist ? 3 : 2; paramv = g_new0 (GValue, num_params + num_extra); n = 0; g_value_init (¶mv[n], TYPE_CONTROL_BMC); g_value_set_object (¶mv[n++], skeleton); g_value_init (¶mv[n], G_TYPE_DBUS_METHOD_INVOCATION); g_value_set_object (¶mv[n++], invocation); if (info->pass_fdlist) { #ifdef G_OS_UNIX g_value_init (¶mv[n], G_TYPE_UNIX_FD_LIST); g_value_set_object (¶mv[n++], g_dbus_message_get_unix_fd_list (g_dbus_method_invocation_get_message (invocation))); #else g_assert_not_reached (); #endif } g_variant_iter_init (&iter, parameters); while ((child = g_variant_iter_next_value (&iter)) != NULL) { _ExtendedGDBusArgInfo *arg_info = (_ExtendedGDBusArgInfo *) info->parent_struct.in_args[n - num_extra]; if (arg_info->use_gvariant) { g_value_init (¶mv[n], G_TYPE_VARIANT); g_value_set_variant (¶mv[n], child); n++; } else g_dbus_gvariant_to_gvalue (child, ¶mv[n++]); g_variant_unref (child); } signal_id = g_signal_lookup (info->signal_name, TYPE_CONTROL_BMC); g_value_init (&return_value, G_TYPE_BOOLEAN); g_signal_emitv (paramv, signal_id, 0, &return_value); if (!g_value_get_boolean (&return_value)) g_dbus_method_invocation_return_error (invocation, G_DBUS_ERROR, G_DBUS_ERROR_UNKNOWN_METHOD, "Method %s is not implemented on interface %s", method_name, interface_name); g_value_unset (&return_value); for (n = 0; n < num_params + num_extra; n++) g_value_unset (¶mv[n]); g_free (paramv); } static GVariant * _control_bmc_skeleton_handle_get_property ( GDBusConnection *connection G_GNUC_UNUSED, const gchar *sender G_GNUC_UNUSED, const gchar *object_path G_GNUC_UNUSED, const gchar *interface_name G_GNUC_UNUSED, const gchar *property_name, GError **error, gpointer user_data) { ControlBmcSkeleton *skeleton = CONTROL_BMC_SKELETON (user_data); GValue value = G_VALUE_INIT; GParamSpec *pspec; _ExtendedGDBusPropertyInfo *info; GVariant *ret; ret = NULL; info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_control_bmc_interface_info.parent_struct, property_name); g_assert (info != NULL); pspec = g_object_class_find_property (G_OBJECT_GET_CLASS (skeleton), info->hyphen_name); if (pspec == NULL) { g_set_error (error, G_DBUS_ERROR, G_DBUS_ERROR_INVALID_ARGS, "No property with name %s", property_name); } else { g_value_init (&value, pspec->value_type); g_object_get_property (G_OBJECT (skeleton), info->hyphen_name, &value); ret = g_dbus_gvalue_to_gvariant (&value, G_VARIANT_TYPE (info->parent_struct.signature)); g_value_unset (&value); } return ret; } static gboolean _control_bmc_skeleton_handle_set_property ( GDBusConnection *connection G_GNUC_UNUSED, const gchar *sender G_GNUC_UNUSED, const gchar *object_path G_GNUC_UNUSED, const gchar *interface_name G_GNUC_UNUSED, const gchar *property_name, GVariant *variant, GError **error, gpointer user_data) { ControlBmcSkeleton *skeleton = CONTROL_BMC_SKELETON (user_data); GValue value = G_VALUE_INIT; GParamSpec *pspec; _ExtendedGDBusPropertyInfo *info; gboolean ret; ret = FALSE; info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_control_bmc_interface_info.parent_struct, property_name); g_assert (info != NULL); pspec = g_object_class_find_property (G_OBJECT_GET_CLASS (skeleton), info->hyphen_name); if (pspec == NULL) { g_set_error (error, G_DBUS_ERROR, G_DBUS_ERROR_INVALID_ARGS, "No property with name %s", property_name); } else { if (info->use_gvariant) g_value_set_variant (&value, variant); else g_dbus_gvariant_to_gvalue (variant, &value); g_object_set_property (G_OBJECT (skeleton), info->hyphen_name, &value); g_value_unset (&value); ret = TRUE; } return ret; } static const GDBusInterfaceVTable _control_bmc_skeleton_vtable = { _control_bmc_skeleton_handle_method_call, _control_bmc_skeleton_handle_get_property, _control_bmc_skeleton_handle_set_property, {NULL} }; static GDBusInterfaceInfo * control_bmc_skeleton_dbus_interface_get_info (GDBusInterfaceSkeleton *skeleton G_GNUC_UNUSED) { return control_bmc_interface_info (); } static GDBusInterfaceVTable * control_bmc_skeleton_dbus_interface_get_vtable (GDBusInterfaceSkeleton *skeleton G_GNUC_UNUSED) { return (GDBusInterfaceVTable *) &_control_bmc_skeleton_vtable; } static GVariant * control_bmc_skeleton_dbus_interface_get_properties (GDBusInterfaceSkeleton *_skeleton) { ControlBmcSkeleton *skeleton = CONTROL_BMC_SKELETON (_skeleton); GVariantBuilder builder; guint n; g_variant_builder_init (&builder, G_VARIANT_TYPE ("a{sv}")); if (_control_bmc_interface_info.parent_struct.properties == NULL) goto out; for (n = 0; _control_bmc_interface_info.parent_struct.properties[n] != NULL; n++) { GDBusPropertyInfo *info = _control_bmc_interface_info.parent_struct.properties[n]; if (info->flags & G_DBUS_PROPERTY_INFO_FLAGS_READABLE) { GVariant *value; value = _control_bmc_skeleton_handle_get_property (g_dbus_interface_skeleton_get_connection (G_DBUS_INTERFACE_SKELETON (skeleton)), NULL, g_dbus_interface_skeleton_get_object_path (G_DBUS_INTERFACE_SKELETON (skeleton)), "org.openbmc.control.Bmc", info->name, NULL, skeleton); if (value != NULL) { g_variant_take_ref (value); g_variant_builder_add (&builder, "{sv}", info->name, value); g_variant_unref (value); } } } out: return g_variant_builder_end (&builder); } static void control_bmc_skeleton_dbus_interface_flush (GDBusInterfaceSkeleton *_skeleton) { } static void control_bmc_skeleton_iface_init (ControlBmcIface *iface); #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 G_DEFINE_TYPE_WITH_CODE (ControlBmcSkeleton, control_bmc_skeleton, G_TYPE_DBUS_INTERFACE_SKELETON, G_ADD_PRIVATE (ControlBmcSkeleton) G_IMPLEMENT_INTERFACE (TYPE_CONTROL_BMC, control_bmc_skeleton_iface_init)); #else G_DEFINE_TYPE_WITH_CODE (ControlBmcSkeleton, control_bmc_skeleton, G_TYPE_DBUS_INTERFACE_SKELETON, G_IMPLEMENT_INTERFACE (TYPE_CONTROL_BMC, control_bmc_skeleton_iface_init)); #endif static void control_bmc_skeleton_finalize (GObject *object) { ControlBmcSkeleton *skeleton = CONTROL_BMC_SKELETON (object); g_list_free_full (skeleton->priv->changed_properties, (GDestroyNotify) _changed_property_free); if (skeleton->priv->changed_properties_idle_source != NULL) g_source_destroy (skeleton->priv->changed_properties_idle_source); g_main_context_unref (skeleton->priv->context); g_mutex_clear (&skeleton->priv->lock); G_OBJECT_CLASS (control_bmc_skeleton_parent_class)->finalize (object); } static void control_bmc_skeleton_init (ControlBmcSkeleton *skeleton) { #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 skeleton->priv = control_bmc_skeleton_get_instance_private (skeleton); #else skeleton->priv = G_TYPE_INSTANCE_GET_PRIVATE (skeleton, TYPE_CONTROL_BMC_SKELETON, ControlBmcSkeletonPrivate); #endif g_mutex_init (&skeleton->priv->lock); skeleton->priv->context = g_main_context_ref_thread_default (); } static void control_bmc_skeleton_class_init (ControlBmcSkeletonClass *klass) { GObjectClass *gobject_class; GDBusInterfaceSkeletonClass *skeleton_class; gobject_class = G_OBJECT_CLASS (klass); gobject_class->finalize = control_bmc_skeleton_finalize; skeleton_class = G_DBUS_INTERFACE_SKELETON_CLASS (klass); skeleton_class->get_info = control_bmc_skeleton_dbus_interface_get_info; skeleton_class->get_properties = control_bmc_skeleton_dbus_interface_get_properties; skeleton_class->flush = control_bmc_skeleton_dbus_interface_flush; skeleton_class->get_vtable = control_bmc_skeleton_dbus_interface_get_vtable; #if GLIB_VERSION_MAX_ALLOWED < GLIB_VERSION_2_38 g_type_class_add_private (klass, sizeof (ControlBmcSkeletonPrivate)); #endif } static void control_bmc_skeleton_iface_init (ControlBmcIface *iface) { } /** * control_bmc_skeleton_new: * * Creates a skeleton object for the D-Bus interface org.openbmc.control.Bmc. * * Returns: (transfer full) (type ControlBmcSkeleton): The skeleton object. */ ControlBmc * control_bmc_skeleton_new (void) { return CONTROL_BMC (g_object_new (TYPE_CONTROL_BMC_SKELETON, NULL)); } /* ------------------------------------------------------------------------ * Code for interface org.openbmc.control.Host * ------------------------------------------------------------------------ */ /** * SECTION:ControlHost * @title: ControlHost * @short_description: Generated C code for the org.openbmc.control.Host D-Bus interface * * This section contains code for working with the org.openbmc.control.Host D-Bus interface in C. */ /* ---- Introspection data for org.openbmc.control.Host ---- */ static const _ExtendedGDBusMethodInfo _control_host_method_info_boot = { { -1, (gchar *) "boot", NULL, NULL, NULL }, "handle-boot", FALSE }; static const _ExtendedGDBusMethodInfo _control_host_method_info_shutdown = { { -1, (gchar *) "shutdown", NULL, NULL, NULL }, "handle-shutdown", FALSE }; static const _ExtendedGDBusMethodInfo _control_host_method_info_reboot = { { -1, (gchar *) "reboot", NULL, NULL, NULL }, "handle-reboot", FALSE }; static const _ExtendedGDBusMethodInfo * const _control_host_method_info_pointers[] = { &_control_host_method_info_boot, &_control_host_method_info_shutdown, &_control_host_method_info_reboot, NULL }; static const _ExtendedGDBusSignalInfo _control_host_signal_info_booted = { { -1, (gchar *) "Booted", NULL, NULL }, "booted" }; static const _ExtendedGDBusSignalInfo * const _control_host_signal_info_pointers[] = { &_control_host_signal_info_booted, NULL }; static const _ExtendedGDBusPropertyInfo _control_host_property_info_debug_mode = { { -1, (gchar *) "debug_mode", (gchar *) "i", G_DBUS_PROPERTY_INFO_FLAGS_READABLE | G_DBUS_PROPERTY_INFO_FLAGS_WRITABLE, NULL }, "debug-mode", FALSE }; static const _ExtendedGDBusPropertyInfo _control_host_property_info_flash_side = { { -1, (gchar *) "flash_side", (gchar *) "s", G_DBUS_PROPERTY_INFO_FLAGS_READABLE | G_DBUS_PROPERTY_INFO_FLAGS_WRITABLE, NULL }, "flash-side", FALSE }; static const _ExtendedGDBusPropertyInfo * const _control_host_property_info_pointers[] = { &_control_host_property_info_debug_mode, &_control_host_property_info_flash_side, NULL }; static const _ExtendedGDBusInterfaceInfo _control_host_interface_info = { { -1, (gchar *) "org.openbmc.control.Host", (GDBusMethodInfo **) &_control_host_method_info_pointers, (GDBusSignalInfo **) &_control_host_signal_info_pointers, (GDBusPropertyInfo **) &_control_host_property_info_pointers, NULL }, "control-host", }; /** * control_host_interface_info: * * Gets a machine-readable description of the org.openbmc.control.Host D-Bus interface. * * Returns: (transfer none): A #GDBusInterfaceInfo. Do not free. */ GDBusInterfaceInfo * control_host_interface_info (void) { return (GDBusInterfaceInfo *) &_control_host_interface_info.parent_struct; } /** * control_host_override_properties: * @klass: The class structure for a #GObject-derived class. * @property_id_begin: The property id to assign to the first overridden property. * * Overrides all #GObject properties in the #ControlHost interface for a concrete class. * The properties are overridden in the order they are defined. * * Returns: The last property id. */ guint control_host_override_properties (GObjectClass *klass, guint property_id_begin) { g_object_class_override_property (klass, property_id_begin++, "debug-mode"); g_object_class_override_property (klass, property_id_begin++, "flash-side"); return property_id_begin - 1; } /** * ControlHost: * * Abstract interface type for the D-Bus interface org.openbmc.control.Host. */ /** * ControlHostIface: * @parent_iface: The parent interface. * @handle_boot: Handler for the #ControlHost::handle-boot signal. * @handle_reboot: Handler for the #ControlHost::handle-reboot signal. * @handle_shutdown: Handler for the #ControlHost::handle-shutdown signal. * @get_debug_mode: Getter for the #ControlHost:debug-mode property. * @get_flash_side: Getter for the #ControlHost:flash-side property. * @booted: Handler for the #ControlHost::booted signal. * * Virtual table for the D-Bus interface org.openbmc.control.Host. */ typedef ControlHostIface ControlHostInterface; G_DEFINE_INTERFACE (ControlHost, control_host, G_TYPE_OBJECT); static void control_host_default_init (ControlHostIface *iface) { /* GObject signals for incoming D-Bus method calls: */ /** * ControlHost::handle-boot: * @object: A #ControlHost. * @invocation: A #GDBusMethodInvocation. * * Signal emitted when a remote caller is invoking the boot() D-Bus method. * * If a signal handler returns %TRUE, it means the signal handler will handle the invocation (e.g. take a reference to @invocation and eventually call control_host_complete_boot() or e.g. g_dbus_method_invocation_return_error() on it) and no order signal handlers will run. If no signal handler handles the invocation, the %G_DBUS_ERROR_UNKNOWN_METHOD error is returned. * * Returns: %TRUE if the invocation was handled, %FALSE to let other signal handlers run. */ g_signal_new ("handle-boot", G_TYPE_FROM_INTERFACE (iface), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (ControlHostIface, handle_boot), g_signal_accumulator_true_handled, NULL, g_cclosure_marshal_generic, G_TYPE_BOOLEAN, 1, G_TYPE_DBUS_METHOD_INVOCATION); /** * ControlHost::handle-shutdown: * @object: A #ControlHost. * @invocation: A #GDBusMethodInvocation. * * Signal emitted when a remote caller is invoking the shutdown() D-Bus method. * * If a signal handler returns %TRUE, it means the signal handler will handle the invocation (e.g. take a reference to @invocation and eventually call control_host_complete_shutdown() or e.g. g_dbus_method_invocation_return_error() on it) and no order signal handlers will run. If no signal handler handles the invocation, the %G_DBUS_ERROR_UNKNOWN_METHOD error is returned. * * Returns: %TRUE if the invocation was handled, %FALSE to let other signal handlers run. */ g_signal_new ("handle-shutdown", G_TYPE_FROM_INTERFACE (iface), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (ControlHostIface, handle_shutdown), g_signal_accumulator_true_handled, NULL, g_cclosure_marshal_generic, G_TYPE_BOOLEAN, 1, G_TYPE_DBUS_METHOD_INVOCATION); /** * ControlHost::handle-reboot: * @object: A #ControlHost. * @invocation: A #GDBusMethodInvocation. * * Signal emitted when a remote caller is invoking the reboot() D-Bus method. * * If a signal handler returns %TRUE, it means the signal handler will handle the invocation (e.g. take a reference to @invocation and eventually call control_host_complete_reboot() or e.g. g_dbus_method_invocation_return_error() on it) and no order signal handlers will run. If no signal handler handles the invocation, the %G_DBUS_ERROR_UNKNOWN_METHOD error is returned. * * Returns: %TRUE if the invocation was handled, %FALSE to let other signal handlers run. */ g_signal_new ("handle-reboot", G_TYPE_FROM_INTERFACE (iface), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (ControlHostIface, handle_reboot), g_signal_accumulator_true_handled, NULL, g_cclosure_marshal_generic, G_TYPE_BOOLEAN, 1, G_TYPE_DBUS_METHOD_INVOCATION); /* GObject signals for received D-Bus signals: */ /** * ControlHost::booted: * @object: A #ControlHost. * * On the client-side, this signal is emitted whenever the D-Bus signal "Booted" is received. * * On the service-side, this signal can be used with e.g. g_signal_emit_by_name() to make the object emit the D-Bus signal. */ g_signal_new ("booted", G_TYPE_FROM_INTERFACE (iface), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (ControlHostIface, booted), NULL, NULL, g_cclosure_marshal_generic, G_TYPE_NONE, 0); /* GObject properties for D-Bus properties: */ /** * ControlHost:debug-mode: * * Represents the D-Bus property "debug_mode". * * Since the D-Bus property for this #GObject property is both readable and writable, it is meaningful to both read from it and write to it on both the service- and client-side. */ g_object_interface_install_property (iface, g_param_spec_int ("debug-mode", "debug_mode", "debug_mode", G_MININT32, G_MAXINT32, 0, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS)); /** * ControlHost:flash-side: * * Represents the D-Bus property "flash_side". * * Since the D-Bus property for this #GObject property is both readable and writable, it is meaningful to both read from it and write to it on both the service- and client-side. */ g_object_interface_install_property (iface, g_param_spec_string ("flash-side", "flash_side", "flash_side", NULL, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS)); } /** * control_host_get_debug_mode: (skip) * @object: A #ControlHost. * * Gets the value of the "debug_mode" D-Bus property. * * Since this D-Bus property is both readable and writable, it is meaningful to use this function on both the client- and service-side. * * Returns: The property value. */ gint control_host_get_debug_mode (ControlHost *object) { return CONTROL_HOST_GET_IFACE (object)->get_debug_mode (object); } /** * control_host_set_debug_mode: (skip) * @object: A #ControlHost. * @value: The value to set. * * Sets the "debug_mode" D-Bus property to @value. * * Since this D-Bus property is both readable and writable, it is meaningful to use this function on both the client- and service-side. */ void control_host_set_debug_mode (ControlHost *object, gint value) { g_object_set (G_OBJECT (object), "debug-mode", value, NULL); } /** * control_host_get_flash_side: (skip) * @object: A #ControlHost. * * Gets the value of the "flash_side" D-Bus property. * * Since this D-Bus property is both readable and writable, it is meaningful to use this function on both the client- and service-side. * * The returned value is only valid until the property changes so on the client-side it is only safe to use this function on the thread where @object was constructed. Use control_host_dup_flash_side() if on another thread. * * Returns: (transfer none): The property value or %NULL if the property is not set. Do not free the returned value, it belongs to @object. */ const gchar * control_host_get_flash_side (ControlHost *object) { return CONTROL_HOST_GET_IFACE (object)->get_flash_side (object); } /** * control_host_dup_flash_side: (skip) * @object: A #ControlHost. * * Gets a copy of the "flash_side" D-Bus property. * * Since this D-Bus property is both readable and writable, it is meaningful to use this function on both the client- and service-side. * * Returns: (transfer full): The property value or %NULL if the property is not set. The returned value should be freed with g_free(). */ gchar * control_host_dup_flash_side (ControlHost *object) { gchar *value; g_object_get (G_OBJECT (object), "flash-side", &value, NULL); return value; } /** * control_host_set_flash_side: (skip) * @object: A #ControlHost. * @value: The value to set. * * Sets the "flash_side" D-Bus property to @value. * * Since this D-Bus property is both readable and writable, it is meaningful to use this function on both the client- and service-side. */ void control_host_set_flash_side (ControlHost *object, const gchar *value) { g_object_set (G_OBJECT (object), "flash-side", value, NULL); } /** * control_host_emit_booted: * @object: A #ControlHost. * * Emits the "Booted" D-Bus signal. */ void control_host_emit_booted ( ControlHost *object) { g_signal_emit_by_name (object, "booted"); } /** * control_host_call_boot: * @proxy: A #ControlHostProxy. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied or %NULL. * @user_data: User data to pass to @callback. * * Asynchronously invokes the boot() D-Bus method on @proxy. * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call control_host_call_boot_finish() to get the result of the operation. * * See control_host_call_boot_sync() for the synchronous, blocking version of this method. */ void control_host_call_boot ( ControlHost *proxy, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_dbus_proxy_call (G_DBUS_PROXY (proxy), "boot", g_variant_new ("()"), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, callback, user_data); } /** * control_host_call_boot_finish: * @proxy: A #ControlHostProxy. * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to control_host_call_boot(). * @error: Return location for error or %NULL. * * Finishes an operation started with control_host_call_boot(). * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean control_host_call_boot_finish ( ControlHost *proxy, GAsyncResult *res, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_finish (G_DBUS_PROXY (proxy), res, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "()"); g_variant_unref (_ret); _out: return _ret != NULL; } /** * control_host_call_boot_sync: * @proxy: A #ControlHostProxy. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL. * * Synchronously invokes the boot() D-Bus method on @proxy. The calling thread is blocked until a reply is received. * * See control_host_call_boot() for the asynchronous version of this method. * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean control_host_call_boot_sync ( ControlHost *proxy, GCancellable *cancellable, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_sync (G_DBUS_PROXY (proxy), "boot", g_variant_new ("()"), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "()"); g_variant_unref (_ret); _out: return _ret != NULL; } /** * control_host_call_shutdown: * @proxy: A #ControlHostProxy. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied or %NULL. * @user_data: User data to pass to @callback. * * Asynchronously invokes the shutdown() D-Bus method on @proxy. * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call control_host_call_shutdown_finish() to get the result of the operation. * * See control_host_call_shutdown_sync() for the synchronous, blocking version of this method. */ void control_host_call_shutdown ( ControlHost *proxy, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_dbus_proxy_call (G_DBUS_PROXY (proxy), "shutdown", g_variant_new ("()"), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, callback, user_data); } /** * control_host_call_shutdown_finish: * @proxy: A #ControlHostProxy. * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to control_host_call_shutdown(). * @error: Return location for error or %NULL. * * Finishes an operation started with control_host_call_shutdown(). * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean control_host_call_shutdown_finish ( ControlHost *proxy, GAsyncResult *res, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_finish (G_DBUS_PROXY (proxy), res, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "()"); g_variant_unref (_ret); _out: return _ret != NULL; } /** * control_host_call_shutdown_sync: * @proxy: A #ControlHostProxy. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL. * * Synchronously invokes the shutdown() D-Bus method on @proxy. The calling thread is blocked until a reply is received. * * See control_host_call_shutdown() for the asynchronous version of this method. * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean control_host_call_shutdown_sync ( ControlHost *proxy, GCancellable *cancellable, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_sync (G_DBUS_PROXY (proxy), "shutdown", g_variant_new ("()"), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "()"); g_variant_unref (_ret); _out: return _ret != NULL; } /** * control_host_call_reboot: * @proxy: A #ControlHostProxy. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied or %NULL. * @user_data: User data to pass to @callback. * * Asynchronously invokes the reboot() D-Bus method on @proxy. * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call control_host_call_reboot_finish() to get the result of the operation. * * See control_host_call_reboot_sync() for the synchronous, blocking version of this method. */ void control_host_call_reboot ( ControlHost *proxy, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_dbus_proxy_call (G_DBUS_PROXY (proxy), "reboot", g_variant_new ("()"), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, callback, user_data); } /** * control_host_call_reboot_finish: * @proxy: A #ControlHostProxy. * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to control_host_call_reboot(). * @error: Return location for error or %NULL. * * Finishes an operation started with control_host_call_reboot(). * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean control_host_call_reboot_finish ( ControlHost *proxy, GAsyncResult *res, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_finish (G_DBUS_PROXY (proxy), res, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "()"); g_variant_unref (_ret); _out: return _ret != NULL; } /** * control_host_call_reboot_sync: * @proxy: A #ControlHostProxy. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL. * * Synchronously invokes the reboot() D-Bus method on @proxy. The calling thread is blocked until a reply is received. * * See control_host_call_reboot() for the asynchronous version of this method. * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean control_host_call_reboot_sync ( ControlHost *proxy, GCancellable *cancellable, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_sync (G_DBUS_PROXY (proxy), "reboot", g_variant_new ("()"), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "()"); g_variant_unref (_ret); _out: return _ret != NULL; } /** * control_host_complete_boot: * @object: A #ControlHost. * @invocation: (transfer full): A #GDBusMethodInvocation. * * Helper function used in service implementations to finish handling invocations of the boot() D-Bus method. If you instead want to finish handling an invocation by returning an error, use g_dbus_method_invocation_return_error() or similar. * * This method will free @invocation, you cannot use it afterwards. */ void control_host_complete_boot ( ControlHost *object, GDBusMethodInvocation *invocation) { g_dbus_method_invocation_return_value (invocation, g_variant_new ("()")); } /** * control_host_complete_shutdown: * @object: A #ControlHost. * @invocation: (transfer full): A #GDBusMethodInvocation. * * Helper function used in service implementations to finish handling invocations of the shutdown() D-Bus method. If you instead want to finish handling an invocation by returning an error, use g_dbus_method_invocation_return_error() or similar. * * This method will free @invocation, you cannot use it afterwards. */ void control_host_complete_shutdown ( ControlHost *object, GDBusMethodInvocation *invocation) { g_dbus_method_invocation_return_value (invocation, g_variant_new ("()")); } /** * control_host_complete_reboot: * @object: A #ControlHost. * @invocation: (transfer full): A #GDBusMethodInvocation. * * Helper function used in service implementations to finish handling invocations of the reboot() D-Bus method. If you instead want to finish handling an invocation by returning an error, use g_dbus_method_invocation_return_error() or similar. * * This method will free @invocation, you cannot use it afterwards. */ void control_host_complete_reboot ( ControlHost *object, GDBusMethodInvocation *invocation) { g_dbus_method_invocation_return_value (invocation, g_variant_new ("()")); } /* ------------------------------------------------------------------------ */ /** * ControlHostProxy: * * The #ControlHostProxy structure contains only private data and should only be accessed using the provided API. */ /** * ControlHostProxyClass: * @parent_class: The parent class. * * Class structure for #ControlHostProxy. */ struct _ControlHostProxyPrivate { GData *qdata; }; static void control_host_proxy_iface_init (ControlHostIface *iface); #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 G_DEFINE_TYPE_WITH_CODE (ControlHostProxy, control_host_proxy, G_TYPE_DBUS_PROXY, G_ADD_PRIVATE (ControlHostProxy) G_IMPLEMENT_INTERFACE (TYPE_CONTROL_HOST, control_host_proxy_iface_init)); #else G_DEFINE_TYPE_WITH_CODE (ControlHostProxy, control_host_proxy, G_TYPE_DBUS_PROXY, G_IMPLEMENT_INTERFACE (TYPE_CONTROL_HOST, control_host_proxy_iface_init)); #endif static void control_host_proxy_finalize (GObject *object) { ControlHostProxy *proxy = CONTROL_HOST_PROXY (object); g_datalist_clear (&proxy->priv->qdata); G_OBJECT_CLASS (control_host_proxy_parent_class)->finalize (object); } static void control_host_proxy_get_property (GObject *object, guint prop_id, GValue *value, GParamSpec *pspec G_GNUC_UNUSED) { const _ExtendedGDBusPropertyInfo *info; GVariant *variant; g_assert (prop_id != 0 && prop_id - 1 < 2); info = _control_host_property_info_pointers[prop_id - 1]; variant = g_dbus_proxy_get_cached_property (G_DBUS_PROXY (object), info->parent_struct.name); if (info->use_gvariant) { g_value_set_variant (value, variant); } else { if (variant != NULL) g_dbus_gvariant_to_gvalue (variant, value); } if (variant != NULL) g_variant_unref (variant); } static void control_host_proxy_set_property_cb (GDBusProxy *proxy, GAsyncResult *res, gpointer user_data) { const _ExtendedGDBusPropertyInfo *info = user_data; GError *error; GVariant *_ret; error = NULL; _ret = g_dbus_proxy_call_finish (proxy, res, &error); if (!_ret) { g_warning ("Error setting property '%s' on interface org.openbmc.control.Host: %s (%s, %d)", info->parent_struct.name, error->message, g_quark_to_string (error->domain), error->code); g_error_free (error); } else { g_variant_unref (_ret); } } static void control_host_proxy_set_property (GObject *object, guint prop_id, const GValue *value, GParamSpec *pspec G_GNUC_UNUSED) { const _ExtendedGDBusPropertyInfo *info; GVariant *variant; g_assert (prop_id != 0 && prop_id - 1 < 2); info = _control_host_property_info_pointers[prop_id - 1]; variant = g_dbus_gvalue_to_gvariant (value, G_VARIANT_TYPE (info->parent_struct.signature)); g_dbus_proxy_call (G_DBUS_PROXY (object), "org.freedesktop.DBus.Properties.Set", g_variant_new ("(ssv)", "org.openbmc.control.Host", info->parent_struct.name, variant), G_DBUS_CALL_FLAGS_NONE, -1, NULL, (GAsyncReadyCallback) control_host_proxy_set_property_cb, (GDBusPropertyInfo *) &info->parent_struct); g_variant_unref (variant); } static void control_host_proxy_g_signal (GDBusProxy *proxy, const gchar *sender_name G_GNUC_UNUSED, const gchar *signal_name, GVariant *parameters) { _ExtendedGDBusSignalInfo *info; GVariantIter iter; GVariant *child; GValue *paramv; guint num_params; guint n; guint signal_id; info = (_ExtendedGDBusSignalInfo *) g_dbus_interface_info_lookup_signal ((GDBusInterfaceInfo *) &_control_host_interface_info.parent_struct, signal_name); if (info == NULL) return; num_params = g_variant_n_children (parameters); paramv = g_new0 (GValue, num_params + 1); g_value_init (¶mv[0], TYPE_CONTROL_HOST); g_value_set_object (¶mv[0], proxy); g_variant_iter_init (&iter, parameters); n = 1; while ((child = g_variant_iter_next_value (&iter)) != NULL) { _ExtendedGDBusArgInfo *arg_info = (_ExtendedGDBusArgInfo *) info->parent_struct.args[n - 1]; if (arg_info->use_gvariant) { g_value_init (¶mv[n], G_TYPE_VARIANT); g_value_set_variant (¶mv[n], child); n++; } else g_dbus_gvariant_to_gvalue (child, ¶mv[n++]); g_variant_unref (child); } signal_id = g_signal_lookup (info->signal_name, TYPE_CONTROL_HOST); g_signal_emitv (paramv, signal_id, 0, NULL); for (n = 0; n < num_params + 1; n++) g_value_unset (¶mv[n]); g_free (paramv); } static void control_host_proxy_g_properties_changed (GDBusProxy *_proxy, GVariant *changed_properties, const gchar *const *invalidated_properties) { ControlHostProxy *proxy = CONTROL_HOST_PROXY (_proxy); guint n; const gchar *key; GVariantIter *iter; _ExtendedGDBusPropertyInfo *info; g_variant_get (changed_properties, "a{sv}", &iter); while (g_variant_iter_next (iter, "{&sv}", &key, NULL)) { info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_control_host_interface_info.parent_struct, key); g_datalist_remove_data (&proxy->priv->qdata, key); if (info != NULL) g_object_notify (G_OBJECT (proxy), info->hyphen_name); } g_variant_iter_free (iter); for (n = 0; invalidated_properties[n] != NULL; n++) { info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_control_host_interface_info.parent_struct, invalidated_properties[n]); g_datalist_remove_data (&proxy->priv->qdata, invalidated_properties[n]); if (info != NULL) g_object_notify (G_OBJECT (proxy), info->hyphen_name); } } static gint control_host_proxy_get_debug_mode (ControlHost *object) { ControlHostProxy *proxy = CONTROL_HOST_PROXY (object); GVariant *variant; gint value = 0; variant = g_dbus_proxy_get_cached_property (G_DBUS_PROXY (proxy), "debug_mode"); if (variant != NULL) { value = g_variant_get_int32 (variant); g_variant_unref (variant); } return value; } static const gchar * control_host_proxy_get_flash_side (ControlHost *object) { ControlHostProxy *proxy = CONTROL_HOST_PROXY (object); GVariant *variant; const gchar *value = NULL; variant = g_dbus_proxy_get_cached_property (G_DBUS_PROXY (proxy), "flash_side"); if (variant != NULL) { value = g_variant_get_string (variant, NULL); g_variant_unref (variant); } return value; } static void control_host_proxy_init (ControlHostProxy *proxy) { #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 proxy->priv = control_host_proxy_get_instance_private (proxy); #else proxy->priv = G_TYPE_INSTANCE_GET_PRIVATE (proxy, TYPE_CONTROL_HOST_PROXY, ControlHostProxyPrivate); #endif g_dbus_proxy_set_interface_info (G_DBUS_PROXY (proxy), control_host_interface_info ()); } static void control_host_proxy_class_init (ControlHostProxyClass *klass) { GObjectClass *gobject_class; GDBusProxyClass *proxy_class; gobject_class = G_OBJECT_CLASS (klass); gobject_class->finalize = control_host_proxy_finalize; gobject_class->get_property = control_host_proxy_get_property; gobject_class->set_property = control_host_proxy_set_property; proxy_class = G_DBUS_PROXY_CLASS (klass); proxy_class->g_signal = control_host_proxy_g_signal; proxy_class->g_properties_changed = control_host_proxy_g_properties_changed; control_host_override_properties (gobject_class, 1); #if GLIB_VERSION_MAX_ALLOWED < GLIB_VERSION_2_38 g_type_class_add_private (klass, sizeof (ControlHostProxyPrivate)); #endif } static void control_host_proxy_iface_init (ControlHostIface *iface) { iface->get_debug_mode = control_host_proxy_get_debug_mode; iface->get_flash_side = control_host_proxy_get_flash_side; } /** * control_host_proxy_new: * @connection: A #GDBusConnection. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: (allow-none): A bus name (well-known or unique) or %NULL if @connection is not a message bus connection. * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied. * @user_data: User data to pass to @callback. * * Asynchronously creates a proxy for the D-Bus interface org.openbmc.control.Host. See g_dbus_proxy_new() for more details. * * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call control_host_proxy_new_finish() to get the result of the operation. * * See control_host_proxy_new_sync() for the synchronous, blocking version of this constructor. */ void control_host_proxy_new ( GDBusConnection *connection, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_async_initable_new_async (TYPE_CONTROL_HOST_PROXY, G_PRIORITY_DEFAULT, cancellable, callback, user_data, "g-flags", flags, "g-name", name, "g-connection", connection, "g-object-path", object_path, "g-interface-name", "org.openbmc.control.Host", NULL); } /** * control_host_proxy_new_finish: * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to control_host_proxy_new(). * @error: Return location for error or %NULL * * Finishes an operation started with control_host_proxy_new(). * * Returns: (transfer full) (type ControlHostProxy): The constructed proxy object or %NULL if @error is set. */ ControlHost * control_host_proxy_new_finish ( GAsyncResult *res, GError **error) { GObject *ret; GObject *source_object; source_object = g_async_result_get_source_object (res); ret = g_async_initable_new_finish (G_ASYNC_INITABLE (source_object), res, error); g_object_unref (source_object); if (ret != NULL) return CONTROL_HOST (ret); else return NULL; } /** * control_host_proxy_new_sync: * @connection: A #GDBusConnection. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: (allow-none): A bus name (well-known or unique) or %NULL if @connection is not a message bus connection. * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL * * Synchronously creates a proxy for the D-Bus interface org.openbmc.control.Host. See g_dbus_proxy_new_sync() for more details. * * The calling thread is blocked until a reply is received. * * See control_host_proxy_new() for the asynchronous version of this constructor. * * Returns: (transfer full) (type ControlHostProxy): The constructed proxy object or %NULL if @error is set. */ ControlHost * control_host_proxy_new_sync ( GDBusConnection *connection, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GError **error) { GInitable *ret; ret = g_initable_new (TYPE_CONTROL_HOST_PROXY, cancellable, error, "g-flags", flags, "g-name", name, "g-connection", connection, "g-object-path", object_path, "g-interface-name", "org.openbmc.control.Host", NULL); if (ret != NULL) return CONTROL_HOST (ret); else return NULL; } /** * control_host_proxy_new_for_bus: * @bus_type: A #GBusType. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: A bus name (well-known or unique). * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied. * @user_data: User data to pass to @callback. * * Like control_host_proxy_new() but takes a #GBusType instead of a #GDBusConnection. * * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call control_host_proxy_new_for_bus_finish() to get the result of the operation. * * See control_host_proxy_new_for_bus_sync() for the synchronous, blocking version of this constructor. */ void control_host_proxy_new_for_bus ( GBusType bus_type, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_async_initable_new_async (TYPE_CONTROL_HOST_PROXY, G_PRIORITY_DEFAULT, cancellable, callback, user_data, "g-flags", flags, "g-name", name, "g-bus-type", bus_type, "g-object-path", object_path, "g-interface-name", "org.openbmc.control.Host", NULL); } /** * control_host_proxy_new_for_bus_finish: * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to control_host_proxy_new_for_bus(). * @error: Return location for error or %NULL * * Finishes an operation started with control_host_proxy_new_for_bus(). * * Returns: (transfer full) (type ControlHostProxy): The constructed proxy object or %NULL if @error is set. */ ControlHost * control_host_proxy_new_for_bus_finish ( GAsyncResult *res, GError **error) { GObject *ret; GObject *source_object; source_object = g_async_result_get_source_object (res); ret = g_async_initable_new_finish (G_ASYNC_INITABLE (source_object), res, error); g_object_unref (source_object); if (ret != NULL) return CONTROL_HOST (ret); else return NULL; } /** * control_host_proxy_new_for_bus_sync: * @bus_type: A #GBusType. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: A bus name (well-known or unique). * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL * * Like control_host_proxy_new_sync() but takes a #GBusType instead of a #GDBusConnection. * * The calling thread is blocked until a reply is received. * * See control_host_proxy_new_for_bus() for the asynchronous version of this constructor. * * Returns: (transfer full) (type ControlHostProxy): The constructed proxy object or %NULL if @error is set. */ ControlHost * control_host_proxy_new_for_bus_sync ( GBusType bus_type, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GError **error) { GInitable *ret; ret = g_initable_new (TYPE_CONTROL_HOST_PROXY, cancellable, error, "g-flags", flags, "g-name", name, "g-bus-type", bus_type, "g-object-path", object_path, "g-interface-name", "org.openbmc.control.Host", NULL); if (ret != NULL) return CONTROL_HOST (ret); else return NULL; } /* ------------------------------------------------------------------------ */ /** * ControlHostSkeleton: * * The #ControlHostSkeleton structure contains only private data and should only be accessed using the provided API. */ /** * ControlHostSkeletonClass: * @parent_class: The parent class. * * Class structure for #ControlHostSkeleton. */ struct _ControlHostSkeletonPrivate { GValue *properties; GList *changed_properties; GSource *changed_properties_idle_source; GMainContext *context; GMutex lock; }; static void _control_host_skeleton_handle_method_call ( GDBusConnection *connection G_GNUC_UNUSED, const gchar *sender G_GNUC_UNUSED, const gchar *object_path G_GNUC_UNUSED, const gchar *interface_name, const gchar *method_name, GVariant *parameters, GDBusMethodInvocation *invocation, gpointer user_data) { ControlHostSkeleton *skeleton = CONTROL_HOST_SKELETON (user_data); _ExtendedGDBusMethodInfo *info; GVariantIter iter; GVariant *child; GValue *paramv; guint num_params; guint num_extra; guint n; guint signal_id; GValue return_value = G_VALUE_INIT; info = (_ExtendedGDBusMethodInfo *) g_dbus_method_invocation_get_method_info (invocation); g_assert (info != NULL); num_params = g_variant_n_children (parameters); num_extra = info->pass_fdlist ? 3 : 2; paramv = g_new0 (GValue, num_params + num_extra); n = 0; g_value_init (¶mv[n], TYPE_CONTROL_HOST); g_value_set_object (¶mv[n++], skeleton); g_value_init (¶mv[n], G_TYPE_DBUS_METHOD_INVOCATION); g_value_set_object (¶mv[n++], invocation); if (info->pass_fdlist) { #ifdef G_OS_UNIX g_value_init (¶mv[n], G_TYPE_UNIX_FD_LIST); g_value_set_object (¶mv[n++], g_dbus_message_get_unix_fd_list (g_dbus_method_invocation_get_message (invocation))); #else g_assert_not_reached (); #endif } g_variant_iter_init (&iter, parameters); while ((child = g_variant_iter_next_value (&iter)) != NULL) { _ExtendedGDBusArgInfo *arg_info = (_ExtendedGDBusArgInfo *) info->parent_struct.in_args[n - num_extra]; if (arg_info->use_gvariant) { g_value_init (¶mv[n], G_TYPE_VARIANT); g_value_set_variant (¶mv[n], child); n++; } else g_dbus_gvariant_to_gvalue (child, ¶mv[n++]); g_variant_unref (child); } signal_id = g_signal_lookup (info->signal_name, TYPE_CONTROL_HOST); g_value_init (&return_value, G_TYPE_BOOLEAN); g_signal_emitv (paramv, signal_id, 0, &return_value); if (!g_value_get_boolean (&return_value)) g_dbus_method_invocation_return_error (invocation, G_DBUS_ERROR, G_DBUS_ERROR_UNKNOWN_METHOD, "Method %s is not implemented on interface %s", method_name, interface_name); g_value_unset (&return_value); for (n = 0; n < num_params + num_extra; n++) g_value_unset (¶mv[n]); g_free (paramv); } static GVariant * _control_host_skeleton_handle_get_property ( GDBusConnection *connection G_GNUC_UNUSED, const gchar *sender G_GNUC_UNUSED, const gchar *object_path G_GNUC_UNUSED, const gchar *interface_name G_GNUC_UNUSED, const gchar *property_name, GError **error, gpointer user_data) { ControlHostSkeleton *skeleton = CONTROL_HOST_SKELETON (user_data); GValue value = G_VALUE_INIT; GParamSpec *pspec; _ExtendedGDBusPropertyInfo *info; GVariant *ret; ret = NULL; info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_control_host_interface_info.parent_struct, property_name); g_assert (info != NULL); pspec = g_object_class_find_property (G_OBJECT_GET_CLASS (skeleton), info->hyphen_name); if (pspec == NULL) { g_set_error (error, G_DBUS_ERROR, G_DBUS_ERROR_INVALID_ARGS, "No property with name %s", property_name); } else { g_value_init (&value, pspec->value_type); g_object_get_property (G_OBJECT (skeleton), info->hyphen_name, &value); ret = g_dbus_gvalue_to_gvariant (&value, G_VARIANT_TYPE (info->parent_struct.signature)); g_value_unset (&value); } return ret; } static gboolean _control_host_skeleton_handle_set_property ( GDBusConnection *connection G_GNUC_UNUSED, const gchar *sender G_GNUC_UNUSED, const gchar *object_path G_GNUC_UNUSED, const gchar *interface_name G_GNUC_UNUSED, const gchar *property_name, GVariant *variant, GError **error, gpointer user_data) { ControlHostSkeleton *skeleton = CONTROL_HOST_SKELETON (user_data); GValue value = G_VALUE_INIT; GParamSpec *pspec; _ExtendedGDBusPropertyInfo *info; gboolean ret; ret = FALSE; info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_control_host_interface_info.parent_struct, property_name); g_assert (info != NULL); pspec = g_object_class_find_property (G_OBJECT_GET_CLASS (skeleton), info->hyphen_name); if (pspec == NULL) { g_set_error (error, G_DBUS_ERROR, G_DBUS_ERROR_INVALID_ARGS, "No property with name %s", property_name); } else { if (info->use_gvariant) g_value_set_variant (&value, variant); else g_dbus_gvariant_to_gvalue (variant, &value); g_object_set_property (G_OBJECT (skeleton), info->hyphen_name, &value); g_value_unset (&value); ret = TRUE; } return ret; } static const GDBusInterfaceVTable _control_host_skeleton_vtable = { _control_host_skeleton_handle_method_call, _control_host_skeleton_handle_get_property, _control_host_skeleton_handle_set_property, {NULL} }; static GDBusInterfaceInfo * control_host_skeleton_dbus_interface_get_info (GDBusInterfaceSkeleton *skeleton G_GNUC_UNUSED) { return control_host_interface_info (); } static GDBusInterfaceVTable * control_host_skeleton_dbus_interface_get_vtable (GDBusInterfaceSkeleton *skeleton G_GNUC_UNUSED) { return (GDBusInterfaceVTable *) &_control_host_skeleton_vtable; } static GVariant * control_host_skeleton_dbus_interface_get_properties (GDBusInterfaceSkeleton *_skeleton) { ControlHostSkeleton *skeleton = CONTROL_HOST_SKELETON (_skeleton); GVariantBuilder builder; guint n; g_variant_builder_init (&builder, G_VARIANT_TYPE ("a{sv}")); if (_control_host_interface_info.parent_struct.properties == NULL) goto out; for (n = 0; _control_host_interface_info.parent_struct.properties[n] != NULL; n++) { GDBusPropertyInfo *info = _control_host_interface_info.parent_struct.properties[n]; if (info->flags & G_DBUS_PROPERTY_INFO_FLAGS_READABLE) { GVariant *value; value = _control_host_skeleton_handle_get_property (g_dbus_interface_skeleton_get_connection (G_DBUS_INTERFACE_SKELETON (skeleton)), NULL, g_dbus_interface_skeleton_get_object_path (G_DBUS_INTERFACE_SKELETON (skeleton)), "org.openbmc.control.Host", info->name, NULL, skeleton); if (value != NULL) { g_variant_take_ref (value); g_variant_builder_add (&builder, "{sv}", info->name, value); g_variant_unref (value); } } } out: return g_variant_builder_end (&builder); } static gboolean _control_host_emit_changed (gpointer user_data); static void control_host_skeleton_dbus_interface_flush (GDBusInterfaceSkeleton *_skeleton) { ControlHostSkeleton *skeleton = CONTROL_HOST_SKELETON (_skeleton); gboolean emit_changed = FALSE; g_mutex_lock (&skeleton->priv->lock); if (skeleton->priv->changed_properties_idle_source != NULL) { g_source_destroy (skeleton->priv->changed_properties_idle_source); skeleton->priv->changed_properties_idle_source = NULL; emit_changed = TRUE; } g_mutex_unlock (&skeleton->priv->lock); if (emit_changed) _control_host_emit_changed (skeleton); } static void _control_host_on_signal_booted ( ControlHost *object) { ControlHostSkeleton *skeleton = CONTROL_HOST_SKELETON (object); GList *connections, *l; GVariant *signal_variant; connections = g_dbus_interface_skeleton_get_connections (G_DBUS_INTERFACE_SKELETON (skeleton)); signal_variant = g_variant_ref_sink (g_variant_new ("()")); for (l = connections; l != NULL; l = l->next) { GDBusConnection *connection = l->data; g_dbus_connection_emit_signal (connection, NULL, g_dbus_interface_skeleton_get_object_path (G_DBUS_INTERFACE_SKELETON (skeleton)), "org.openbmc.control.Host", "Booted", signal_variant, NULL); } g_variant_unref (signal_variant); g_list_free_full (connections, g_object_unref); } static void control_host_skeleton_iface_init (ControlHostIface *iface); #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 G_DEFINE_TYPE_WITH_CODE (ControlHostSkeleton, control_host_skeleton, G_TYPE_DBUS_INTERFACE_SKELETON, G_ADD_PRIVATE (ControlHostSkeleton) G_IMPLEMENT_INTERFACE (TYPE_CONTROL_HOST, control_host_skeleton_iface_init)); #else G_DEFINE_TYPE_WITH_CODE (ControlHostSkeleton, control_host_skeleton, G_TYPE_DBUS_INTERFACE_SKELETON, G_IMPLEMENT_INTERFACE (TYPE_CONTROL_HOST, control_host_skeleton_iface_init)); #endif static void control_host_skeleton_finalize (GObject *object) { ControlHostSkeleton *skeleton = CONTROL_HOST_SKELETON (object); guint n; for (n = 0; n < 2; n++) g_value_unset (&skeleton->priv->properties[n]); g_free (skeleton->priv->properties); g_list_free_full (skeleton->priv->changed_properties, (GDestroyNotify) _changed_property_free); if (skeleton->priv->changed_properties_idle_source != NULL) g_source_destroy (skeleton->priv->changed_properties_idle_source); g_main_context_unref (skeleton->priv->context); g_mutex_clear (&skeleton->priv->lock); G_OBJECT_CLASS (control_host_skeleton_parent_class)->finalize (object); } static void control_host_skeleton_get_property (GObject *object, guint prop_id, GValue *value, GParamSpec *pspec G_GNUC_UNUSED) { ControlHostSkeleton *skeleton = CONTROL_HOST_SKELETON (object); g_assert (prop_id != 0 && prop_id - 1 < 2); g_mutex_lock (&skeleton->priv->lock); g_value_copy (&skeleton->priv->properties[prop_id - 1], value); g_mutex_unlock (&skeleton->priv->lock); } static gboolean _control_host_emit_changed (gpointer user_data) { ControlHostSkeleton *skeleton = CONTROL_HOST_SKELETON (user_data); GList *l; GVariantBuilder builder; GVariantBuilder invalidated_builder; guint num_changes; g_mutex_lock (&skeleton->priv->lock); g_variant_builder_init (&builder, G_VARIANT_TYPE ("a{sv}")); g_variant_builder_init (&invalidated_builder, G_VARIANT_TYPE ("as")); for (l = skeleton->priv->changed_properties, num_changes = 0; l != NULL; l = l->next) { ChangedProperty *cp = l->data; GVariant *variant; const GValue *cur_value; cur_value = &skeleton->priv->properties[cp->prop_id - 1]; if (!_g_value_equal (cur_value, &cp->orig_value)) { variant = g_dbus_gvalue_to_gvariant (cur_value, G_VARIANT_TYPE (cp->info->parent_struct.signature)); g_variant_builder_add (&builder, "{sv}", cp->info->parent_struct.name, variant); g_variant_unref (variant); num_changes++; } } if (num_changes > 0) { GList *connections, *ll; GVariant *signal_variant; signal_variant = g_variant_ref_sink (g_variant_new ("(sa{sv}as)", "org.openbmc.control.Host", &builder, &invalidated_builder)); connections = g_dbus_interface_skeleton_get_connections (G_DBUS_INTERFACE_SKELETON (skeleton)); for (ll = connections; ll != NULL; ll = ll->next) { GDBusConnection *connection = ll->data; g_dbus_connection_emit_signal (connection, NULL, g_dbus_interface_skeleton_get_object_path (G_DBUS_INTERFACE_SKELETON (skeleton)), "org.freedesktop.DBus.Properties", "PropertiesChanged", signal_variant, NULL); } g_variant_unref (signal_variant); g_list_free_full (connections, g_object_unref); } else { g_variant_builder_clear (&builder); g_variant_builder_clear (&invalidated_builder); } g_list_free_full (skeleton->priv->changed_properties, (GDestroyNotify) _changed_property_free); skeleton->priv->changed_properties = NULL; skeleton->priv->changed_properties_idle_source = NULL; g_mutex_unlock (&skeleton->priv->lock); return FALSE; } static void _control_host_schedule_emit_changed (ControlHostSkeleton *skeleton, const _ExtendedGDBusPropertyInfo *info, guint prop_id, const GValue *orig_value) { ChangedProperty *cp; GList *l; cp = NULL; for (l = skeleton->priv->changed_properties; l != NULL; l = l->next) { ChangedProperty *i_cp = l->data; if (i_cp->info == info) { cp = i_cp; break; } } if (cp == NULL) { cp = g_new0 (ChangedProperty, 1); cp->prop_id = prop_id; cp->info = info; skeleton->priv->changed_properties = g_list_prepend (skeleton->priv->changed_properties, cp); g_value_init (&cp->orig_value, G_VALUE_TYPE (orig_value)); g_value_copy (orig_value, &cp->orig_value); } } static void control_host_skeleton_notify (GObject *object, GParamSpec *pspec G_GNUC_UNUSED) { ControlHostSkeleton *skeleton = CONTROL_HOST_SKELETON (object); g_mutex_lock (&skeleton->priv->lock); if (skeleton->priv->changed_properties != NULL && skeleton->priv->changed_properties_idle_source == NULL) { skeleton->priv->changed_properties_idle_source = g_idle_source_new (); g_source_set_priority (skeleton->priv->changed_properties_idle_source, G_PRIORITY_DEFAULT); g_source_set_callback (skeleton->priv->changed_properties_idle_source, _control_host_emit_changed, g_object_ref (skeleton), (GDestroyNotify) g_object_unref); g_source_set_name (skeleton->priv->changed_properties_idle_source, "[generated] _control_host_emit_changed"); g_source_attach (skeleton->priv->changed_properties_idle_source, skeleton->priv->context); g_source_unref (skeleton->priv->changed_properties_idle_source); } g_mutex_unlock (&skeleton->priv->lock); } static void control_host_skeleton_set_property (GObject *object, guint prop_id, const GValue *value, GParamSpec *pspec) { ControlHostSkeleton *skeleton = CONTROL_HOST_SKELETON (object); g_assert (prop_id != 0 && prop_id - 1 < 2); g_mutex_lock (&skeleton->priv->lock); g_object_freeze_notify (object); if (!_g_value_equal (value, &skeleton->priv->properties[prop_id - 1])) { if (g_dbus_interface_skeleton_get_connection (G_DBUS_INTERFACE_SKELETON (skeleton)) != NULL) _control_host_schedule_emit_changed (skeleton, _control_host_property_info_pointers[prop_id - 1], prop_id, &skeleton->priv->properties[prop_id - 1]); g_value_copy (value, &skeleton->priv->properties[prop_id - 1]); g_object_notify_by_pspec (object, pspec); } g_mutex_unlock (&skeleton->priv->lock); g_object_thaw_notify (object); } static void control_host_skeleton_init (ControlHostSkeleton *skeleton) { #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 skeleton->priv = control_host_skeleton_get_instance_private (skeleton); #else skeleton->priv = G_TYPE_INSTANCE_GET_PRIVATE (skeleton, TYPE_CONTROL_HOST_SKELETON, ControlHostSkeletonPrivate); #endif g_mutex_init (&skeleton->priv->lock); skeleton->priv->context = g_main_context_ref_thread_default (); skeleton->priv->properties = g_new0 (GValue, 2); g_value_init (&skeleton->priv->properties[0], G_TYPE_INT); g_value_init (&skeleton->priv->properties[1], G_TYPE_STRING); } static gint control_host_skeleton_get_debug_mode (ControlHost *object) { ControlHostSkeleton *skeleton = CONTROL_HOST_SKELETON (object); gint value; g_mutex_lock (&skeleton->priv->lock); value = g_value_get_int (&(skeleton->priv->properties[0])); g_mutex_unlock (&skeleton->priv->lock); return value; } static const gchar * control_host_skeleton_get_flash_side (ControlHost *object) { ControlHostSkeleton *skeleton = CONTROL_HOST_SKELETON (object); const gchar *value; g_mutex_lock (&skeleton->priv->lock); value = g_value_get_string (&(skeleton->priv->properties[1])); g_mutex_unlock (&skeleton->priv->lock); return value; } static void control_host_skeleton_class_init (ControlHostSkeletonClass *klass) { GObjectClass *gobject_class; GDBusInterfaceSkeletonClass *skeleton_class; gobject_class = G_OBJECT_CLASS (klass); gobject_class->finalize = control_host_skeleton_finalize; gobject_class->get_property = control_host_skeleton_get_property; gobject_class->set_property = control_host_skeleton_set_property; gobject_class->notify = control_host_skeleton_notify; control_host_override_properties (gobject_class, 1); skeleton_class = G_DBUS_INTERFACE_SKELETON_CLASS (klass); skeleton_class->get_info = control_host_skeleton_dbus_interface_get_info; skeleton_class->get_properties = control_host_skeleton_dbus_interface_get_properties; skeleton_class->flush = control_host_skeleton_dbus_interface_flush; skeleton_class->get_vtable = control_host_skeleton_dbus_interface_get_vtable; #if GLIB_VERSION_MAX_ALLOWED < GLIB_VERSION_2_38 g_type_class_add_private (klass, sizeof (ControlHostSkeletonPrivate)); #endif } static void control_host_skeleton_iface_init (ControlHostIface *iface) { iface->booted = _control_host_on_signal_booted; iface->get_debug_mode = control_host_skeleton_get_debug_mode; iface->get_flash_side = control_host_skeleton_get_flash_side; } /** * control_host_skeleton_new: * * Creates a skeleton object for the D-Bus interface org.openbmc.control.Host. * * Returns: (transfer full) (type ControlHostSkeleton): The skeleton object. */ ControlHost * control_host_skeleton_new (void) { return CONTROL_HOST (g_object_new (TYPE_CONTROL_HOST_SKELETON, NULL)); } /* ------------------------------------------------------------------------ * Code for interface org.openbmc.control.Power * ------------------------------------------------------------------------ */ /** * SECTION:ControlPower * @title: ControlPower * @short_description: Generated C code for the org.openbmc.control.Power D-Bus interface * * This section contains code for working with the org.openbmc.control.Power D-Bus interface in C. */ /* ---- Introspection data for org.openbmc.control.Power ---- */ static const _ExtendedGDBusArgInfo _control_power_method_info_set_power_state_IN_ARG_state = { { -1, (gchar *) "state", (gchar *) "i", NULL }, FALSE }; static const _ExtendedGDBusArgInfo * const _control_power_method_info_set_power_state_IN_ARG_pointers[] = { &_control_power_method_info_set_power_state_IN_ARG_state, NULL }; static const _ExtendedGDBusMethodInfo _control_power_method_info_set_power_state = { { -1, (gchar *) "setPowerState", (GDBusArgInfo **) &_control_power_method_info_set_power_state_IN_ARG_pointers, NULL, NULL }, "handle-set-power-state", FALSE }; static const _ExtendedGDBusArgInfo _control_power_method_info_get_power_state_OUT_ARG_state = { { -1, (gchar *) "state", (gchar *) "i", NULL }, FALSE }; static const _ExtendedGDBusArgInfo * const _control_power_method_info_get_power_state_OUT_ARG_pointers[] = { &_control_power_method_info_get_power_state_OUT_ARG_state, NULL }; static const _ExtendedGDBusMethodInfo _control_power_method_info_get_power_state = { { -1, (gchar *) "getPowerState", NULL, (GDBusArgInfo **) &_control_power_method_info_get_power_state_OUT_ARG_pointers, NULL }, "handle-get-power-state", FALSE }; static const _ExtendedGDBusMethodInfo * const _control_power_method_info_pointers[] = { &_control_power_method_info_set_power_state, &_control_power_method_info_get_power_state, NULL }; static const _ExtendedGDBusSignalInfo _control_power_signal_info_power_good = { { -1, (gchar *) "PowerGood", NULL, NULL }, "power-good" }; static const _ExtendedGDBusSignalInfo _control_power_signal_info_power_lost = { { -1, (gchar *) "PowerLost", NULL, NULL }, "power-lost" }; static const _ExtendedGDBusSignalInfo * const _control_power_signal_info_pointers[] = { &_control_power_signal_info_power_good, &_control_power_signal_info_power_lost, NULL }; static const _ExtendedGDBusPropertyInfo _control_power_property_info_pgood = { { -1, (gchar *) "pgood", (gchar *) "i", G_DBUS_PROPERTY_INFO_FLAGS_READABLE, NULL }, "pgood", FALSE }; static const _ExtendedGDBusPropertyInfo _control_power_property_info_state = { { -1, (gchar *) "state", (gchar *) "i", G_DBUS_PROPERTY_INFO_FLAGS_READABLE, NULL }, "state", FALSE }; static const _ExtendedGDBusPropertyInfo _control_power_property_info_pgood_timeout = { { -1, (gchar *) "pgood_timeout", (gchar *) "i", G_DBUS_PROPERTY_INFO_FLAGS_READABLE | G_DBUS_PROPERTY_INFO_FLAGS_WRITABLE, NULL }, "pgood-timeout", FALSE }; static const _ExtendedGDBusPropertyInfo * const _control_power_property_info_pointers[] = { &_control_power_property_info_pgood, &_control_power_property_info_state, &_control_power_property_info_pgood_timeout, NULL }; static const _ExtendedGDBusInterfaceInfo _control_power_interface_info = { { -1, (gchar *) "org.openbmc.control.Power", (GDBusMethodInfo **) &_control_power_method_info_pointers, (GDBusSignalInfo **) &_control_power_signal_info_pointers, (GDBusPropertyInfo **) &_control_power_property_info_pointers, NULL }, "control-power", }; /** * control_power_interface_info: * * Gets a machine-readable description of the org.openbmc.control.Power D-Bus interface. * * Returns: (transfer none): A #GDBusInterfaceInfo. Do not free. */ GDBusInterfaceInfo * control_power_interface_info (void) { return (GDBusInterfaceInfo *) &_control_power_interface_info.parent_struct; } /** * control_power_override_properties: * @klass: The class structure for a #GObject-derived class. * @property_id_begin: The property id to assign to the first overridden property. * * Overrides all #GObject properties in the #ControlPower interface for a concrete class. * The properties are overridden in the order they are defined. * * Returns: The last property id. */ guint control_power_override_properties (GObjectClass *klass, guint property_id_begin) { g_object_class_override_property (klass, property_id_begin++, "pgood"); g_object_class_override_property (klass, property_id_begin++, "state"); g_object_class_override_property (klass, property_id_begin++, "pgood-timeout"); return property_id_begin - 1; } /** * ControlPower: * * Abstract interface type for the D-Bus interface org.openbmc.control.Power. */ /** * ControlPowerIface: * @parent_iface: The parent interface. * @handle_get_power_state: Handler for the #ControlPower::handle-get-power-state signal. * @handle_set_power_state: Handler for the #ControlPower::handle-set-power-state signal. * @get_pgood: Getter for the #ControlPower:pgood property. * @get_pgood_timeout: Getter for the #ControlPower:pgood-timeout property. * @get_state: Getter for the #ControlPower:state property. * @power_good: Handler for the #ControlPower::power-good signal. * @power_lost: Handler for the #ControlPower::power-lost signal. * * Virtual table for the D-Bus interface org.openbmc.control.Power. */ typedef ControlPowerIface ControlPowerInterface; G_DEFINE_INTERFACE (ControlPower, control_power, G_TYPE_OBJECT); static void control_power_default_init (ControlPowerIface *iface) { /* GObject signals for incoming D-Bus method calls: */ /** * ControlPower::handle-set-power-state: * @object: A #ControlPower. * @invocation: A #GDBusMethodInvocation. * @arg_state: Argument passed by remote caller. * * Signal emitted when a remote caller is invoking the setPowerState() D-Bus method. * * If a signal handler returns %TRUE, it means the signal handler will handle the invocation (e.g. take a reference to @invocation and eventually call control_power_complete_set_power_state() or e.g. g_dbus_method_invocation_return_error() on it) and no order signal handlers will run. If no signal handler handles the invocation, the %G_DBUS_ERROR_UNKNOWN_METHOD error is returned. * * Returns: %TRUE if the invocation was handled, %FALSE to let other signal handlers run. */ g_signal_new ("handle-set-power-state", G_TYPE_FROM_INTERFACE (iface), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (ControlPowerIface, handle_set_power_state), g_signal_accumulator_true_handled, NULL, g_cclosure_marshal_generic, G_TYPE_BOOLEAN, 2, G_TYPE_DBUS_METHOD_INVOCATION, G_TYPE_INT); /** * ControlPower::handle-get-power-state: * @object: A #ControlPower. * @invocation: A #GDBusMethodInvocation. * * Signal emitted when a remote caller is invoking the getPowerState() D-Bus method. * * If a signal handler returns %TRUE, it means the signal handler will handle the invocation (e.g. take a reference to @invocation and eventually call control_power_complete_get_power_state() or e.g. g_dbus_method_invocation_return_error() on it) and no order signal handlers will run. If no signal handler handles the invocation, the %G_DBUS_ERROR_UNKNOWN_METHOD error is returned. * * Returns: %TRUE if the invocation was handled, %FALSE to let other signal handlers run. */ g_signal_new ("handle-get-power-state", G_TYPE_FROM_INTERFACE (iface), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (ControlPowerIface, handle_get_power_state), g_signal_accumulator_true_handled, NULL, g_cclosure_marshal_generic, G_TYPE_BOOLEAN, 1, G_TYPE_DBUS_METHOD_INVOCATION); /* GObject signals for received D-Bus signals: */ /** * ControlPower::power-good: * @object: A #ControlPower. * * On the client-side, this signal is emitted whenever the D-Bus signal "PowerGood" is received. * * On the service-side, this signal can be used with e.g. g_signal_emit_by_name() to make the object emit the D-Bus signal. */ g_signal_new ("power-good", G_TYPE_FROM_INTERFACE (iface), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (ControlPowerIface, power_good), NULL, NULL, g_cclosure_marshal_generic, G_TYPE_NONE, 0); /** * ControlPower::power-lost: * @object: A #ControlPower. * * On the client-side, this signal is emitted whenever the D-Bus signal "PowerLost" is received. * * On the service-side, this signal can be used with e.g. g_signal_emit_by_name() to make the object emit the D-Bus signal. */ g_signal_new ("power-lost", G_TYPE_FROM_INTERFACE (iface), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (ControlPowerIface, power_lost), NULL, NULL, g_cclosure_marshal_generic, G_TYPE_NONE, 0); /* GObject properties for D-Bus properties: */ /** * ControlPower:pgood: * * Represents the D-Bus property "pgood". * * Since the D-Bus property for this #GObject property is readable but not writable, it is meaningful to read from it on both the client- and service-side. It is only meaningful, however, to write to it on the service-side. */ g_object_interface_install_property (iface, g_param_spec_int ("pgood", "pgood", "pgood", G_MININT32, G_MAXINT32, 0, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS)); /** * ControlPower:state: * * Represents the D-Bus property "state". * * Since the D-Bus property for this #GObject property is readable but not writable, it is meaningful to read from it on both the client- and service-side. It is only meaningful, however, to write to it on the service-side. */ g_object_interface_install_property (iface, g_param_spec_int ("state", "state", "state", G_MININT32, G_MAXINT32, 0, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS)); /** * ControlPower:pgood-timeout: * * Represents the D-Bus property "pgood_timeout". * * Since the D-Bus property for this #GObject property is both readable and writable, it is meaningful to both read from it and write to it on both the service- and client-side. */ g_object_interface_install_property (iface, g_param_spec_int ("pgood-timeout", "pgood_timeout", "pgood_timeout", G_MININT32, G_MAXINT32, 0, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS)); } /** * control_power_get_pgood: (skip) * @object: A #ControlPower. * * Gets the value of the "pgood" D-Bus property. * * Since this D-Bus property is readable, it is meaningful to use this function on both the client- and service-side. * * Returns: The property value. */ gint control_power_get_pgood (ControlPower *object) { return CONTROL_POWER_GET_IFACE (object)->get_pgood (object); } /** * control_power_set_pgood: (skip) * @object: A #ControlPower. * @value: The value to set. * * Sets the "pgood" D-Bus property to @value. * * Since this D-Bus property is not writable, it is only meaningful to use this function on the service-side. */ void control_power_set_pgood (ControlPower *object, gint value) { g_object_set (G_OBJECT (object), "pgood", value, NULL); } /** * control_power_get_state: (skip) * @object: A #ControlPower. * * Gets the value of the "state" D-Bus property. * * Since this D-Bus property is readable, it is meaningful to use this function on both the client- and service-side. * * Returns: The property value. */ gint control_power_get_state (ControlPower *object) { return CONTROL_POWER_GET_IFACE (object)->get_state (object); } /** * control_power_set_state: (skip) * @object: A #ControlPower. * @value: The value to set. * * Sets the "state" D-Bus property to @value. * * Since this D-Bus property is not writable, it is only meaningful to use this function on the service-side. */ void control_power_set_state (ControlPower *object, gint value) { g_object_set (G_OBJECT (object), "state", value, NULL); } /** * control_power_get_pgood_timeout: (skip) * @object: A #ControlPower. * * Gets the value of the "pgood_timeout" D-Bus property. * * Since this D-Bus property is both readable and writable, it is meaningful to use this function on both the client- and service-side. * * Returns: The property value. */ gint control_power_get_pgood_timeout (ControlPower *object) { return CONTROL_POWER_GET_IFACE (object)->get_pgood_timeout (object); } /** * control_power_set_pgood_timeout: (skip) * @object: A #ControlPower. * @value: The value to set. * * Sets the "pgood_timeout" D-Bus property to @value. * * Since this D-Bus property is both readable and writable, it is meaningful to use this function on both the client- and service-side. */ void control_power_set_pgood_timeout (ControlPower *object, gint value) { g_object_set (G_OBJECT (object), "pgood-timeout", value, NULL); } /** * control_power_emit_power_good: * @object: A #ControlPower. * * Emits the "PowerGood" D-Bus signal. */ void control_power_emit_power_good ( ControlPower *object) { g_signal_emit_by_name (object, "power-good"); } /** * control_power_emit_power_lost: * @object: A #ControlPower. * * Emits the "PowerLost" D-Bus signal. */ void control_power_emit_power_lost ( ControlPower *object) { g_signal_emit_by_name (object, "power-lost"); } /** * control_power_call_set_power_state: * @proxy: A #ControlPowerProxy. * @arg_state: Argument to pass with the method invocation. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied or %NULL. * @user_data: User data to pass to @callback. * * Asynchronously invokes the setPowerState() D-Bus method on @proxy. * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call control_power_call_set_power_state_finish() to get the result of the operation. * * See control_power_call_set_power_state_sync() for the synchronous, blocking version of this method. */ void control_power_call_set_power_state ( ControlPower *proxy, gint arg_state, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_dbus_proxy_call (G_DBUS_PROXY (proxy), "setPowerState", g_variant_new ("(i)", arg_state), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, callback, user_data); } /** * control_power_call_set_power_state_finish: * @proxy: A #ControlPowerProxy. * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to control_power_call_set_power_state(). * @error: Return location for error or %NULL. * * Finishes an operation started with control_power_call_set_power_state(). * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean control_power_call_set_power_state_finish ( ControlPower *proxy, GAsyncResult *res, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_finish (G_DBUS_PROXY (proxy), res, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "()"); g_variant_unref (_ret); _out: return _ret != NULL; } /** * control_power_call_set_power_state_sync: * @proxy: A #ControlPowerProxy. * @arg_state: Argument to pass with the method invocation. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL. * * Synchronously invokes the setPowerState() D-Bus method on @proxy. The calling thread is blocked until a reply is received. * * See control_power_call_set_power_state() for the asynchronous version of this method. * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean control_power_call_set_power_state_sync ( ControlPower *proxy, gint arg_state, GCancellable *cancellable, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_sync (G_DBUS_PROXY (proxy), "setPowerState", g_variant_new ("(i)", arg_state), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "()"); g_variant_unref (_ret); _out: return _ret != NULL; } /** * control_power_call_get_power_state: * @proxy: A #ControlPowerProxy. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied or %NULL. * @user_data: User data to pass to @callback. * * Asynchronously invokes the getPowerState() D-Bus method on @proxy. * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call control_power_call_get_power_state_finish() to get the result of the operation. * * See control_power_call_get_power_state_sync() for the synchronous, blocking version of this method. */ void control_power_call_get_power_state ( ControlPower *proxy, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_dbus_proxy_call (G_DBUS_PROXY (proxy), "getPowerState", g_variant_new ("()"), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, callback, user_data); } /** * control_power_call_get_power_state_finish: * @proxy: A #ControlPowerProxy. * @out_state: (out): Return location for return parameter or %NULL to ignore. * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to control_power_call_get_power_state(). * @error: Return location for error or %NULL. * * Finishes an operation started with control_power_call_get_power_state(). * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean control_power_call_get_power_state_finish ( ControlPower *proxy, gint *out_state, GAsyncResult *res, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_finish (G_DBUS_PROXY (proxy), res, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "(i)", out_state); g_variant_unref (_ret); _out: return _ret != NULL; } /** * control_power_call_get_power_state_sync: * @proxy: A #ControlPowerProxy. * @out_state: (out): Return location for return parameter or %NULL to ignore. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL. * * Synchronously invokes the getPowerState() D-Bus method on @proxy. The calling thread is blocked until a reply is received. * * See control_power_call_get_power_state() for the asynchronous version of this method. * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean control_power_call_get_power_state_sync ( ControlPower *proxy, gint *out_state, GCancellable *cancellable, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_sync (G_DBUS_PROXY (proxy), "getPowerState", g_variant_new ("()"), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "(i)", out_state); g_variant_unref (_ret); _out: return _ret != NULL; } /** * control_power_complete_set_power_state: * @object: A #ControlPower. * @invocation: (transfer full): A #GDBusMethodInvocation. * * Helper function used in service implementations to finish handling invocations of the setPowerState() D-Bus method. If you instead want to finish handling an invocation by returning an error, use g_dbus_method_invocation_return_error() or similar. * * This method will free @invocation, you cannot use it afterwards. */ void control_power_complete_set_power_state ( ControlPower *object, GDBusMethodInvocation *invocation) { g_dbus_method_invocation_return_value (invocation, g_variant_new ("()")); } /** * control_power_complete_get_power_state: * @object: A #ControlPower. * @invocation: (transfer full): A #GDBusMethodInvocation. * @state: Parameter to return. * * Helper function used in service implementations to finish handling invocations of the getPowerState() D-Bus method. If you instead want to finish handling an invocation by returning an error, use g_dbus_method_invocation_return_error() or similar. * * This method will free @invocation, you cannot use it afterwards. */ void control_power_complete_get_power_state ( ControlPower *object, GDBusMethodInvocation *invocation, gint state) { g_dbus_method_invocation_return_value (invocation, g_variant_new ("(i)", state)); } /* ------------------------------------------------------------------------ */ /** * ControlPowerProxy: * * The #ControlPowerProxy structure contains only private data and should only be accessed using the provided API. */ /** * ControlPowerProxyClass: * @parent_class: The parent class. * * Class structure for #ControlPowerProxy. */ struct _ControlPowerProxyPrivate { GData *qdata; }; static void control_power_proxy_iface_init (ControlPowerIface *iface); #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 G_DEFINE_TYPE_WITH_CODE (ControlPowerProxy, control_power_proxy, G_TYPE_DBUS_PROXY, G_ADD_PRIVATE (ControlPowerProxy) G_IMPLEMENT_INTERFACE (TYPE_CONTROL_POWER, control_power_proxy_iface_init)); #else G_DEFINE_TYPE_WITH_CODE (ControlPowerProxy, control_power_proxy, G_TYPE_DBUS_PROXY, G_IMPLEMENT_INTERFACE (TYPE_CONTROL_POWER, control_power_proxy_iface_init)); #endif static void control_power_proxy_finalize (GObject *object) { ControlPowerProxy *proxy = CONTROL_POWER_PROXY (object); g_datalist_clear (&proxy->priv->qdata); G_OBJECT_CLASS (control_power_proxy_parent_class)->finalize (object); } static void control_power_proxy_get_property (GObject *object, guint prop_id, GValue *value, GParamSpec *pspec G_GNUC_UNUSED) { const _ExtendedGDBusPropertyInfo *info; GVariant *variant; g_assert (prop_id != 0 && prop_id - 1 < 3); info = _control_power_property_info_pointers[prop_id - 1]; variant = g_dbus_proxy_get_cached_property (G_DBUS_PROXY (object), info->parent_struct.name); if (info->use_gvariant) { g_value_set_variant (value, variant); } else { if (variant != NULL) g_dbus_gvariant_to_gvalue (variant, value); } if (variant != NULL) g_variant_unref (variant); } static void control_power_proxy_set_property_cb (GDBusProxy *proxy, GAsyncResult *res, gpointer user_data) { const _ExtendedGDBusPropertyInfo *info = user_data; GError *error; GVariant *_ret; error = NULL; _ret = g_dbus_proxy_call_finish (proxy, res, &error); if (!_ret) { g_warning ("Error setting property '%s' on interface org.openbmc.control.Power: %s (%s, %d)", info->parent_struct.name, error->message, g_quark_to_string (error->domain), error->code); g_error_free (error); } else { g_variant_unref (_ret); } } static void control_power_proxy_set_property (GObject *object, guint prop_id, const GValue *value, GParamSpec *pspec G_GNUC_UNUSED) { const _ExtendedGDBusPropertyInfo *info; GVariant *variant; g_assert (prop_id != 0 && prop_id - 1 < 3); info = _control_power_property_info_pointers[prop_id - 1]; variant = g_dbus_gvalue_to_gvariant (value, G_VARIANT_TYPE (info->parent_struct.signature)); g_dbus_proxy_call (G_DBUS_PROXY (object), "org.freedesktop.DBus.Properties.Set", g_variant_new ("(ssv)", "org.openbmc.control.Power", info->parent_struct.name, variant), G_DBUS_CALL_FLAGS_NONE, -1, NULL, (GAsyncReadyCallback) control_power_proxy_set_property_cb, (GDBusPropertyInfo *) &info->parent_struct); g_variant_unref (variant); } static void control_power_proxy_g_signal (GDBusProxy *proxy, const gchar *sender_name G_GNUC_UNUSED, const gchar *signal_name, GVariant *parameters) { _ExtendedGDBusSignalInfo *info; GVariantIter iter; GVariant *child; GValue *paramv; guint num_params; guint n; guint signal_id; info = (_ExtendedGDBusSignalInfo *) g_dbus_interface_info_lookup_signal ((GDBusInterfaceInfo *) &_control_power_interface_info.parent_struct, signal_name); if (info == NULL) return; num_params = g_variant_n_children (parameters); paramv = g_new0 (GValue, num_params + 1); g_value_init (¶mv[0], TYPE_CONTROL_POWER); g_value_set_object (¶mv[0], proxy); g_variant_iter_init (&iter, parameters); n = 1; while ((child = g_variant_iter_next_value (&iter)) != NULL) { _ExtendedGDBusArgInfo *arg_info = (_ExtendedGDBusArgInfo *) info->parent_struct.args[n - 1]; if (arg_info->use_gvariant) { g_value_init (¶mv[n], G_TYPE_VARIANT); g_value_set_variant (¶mv[n], child); n++; } else g_dbus_gvariant_to_gvalue (child, ¶mv[n++]); g_variant_unref (child); } signal_id = g_signal_lookup (info->signal_name, TYPE_CONTROL_POWER); g_signal_emitv (paramv, signal_id, 0, NULL); for (n = 0; n < num_params + 1; n++) g_value_unset (¶mv[n]); g_free (paramv); } static void control_power_proxy_g_properties_changed (GDBusProxy *_proxy, GVariant *changed_properties, const gchar *const *invalidated_properties) { ControlPowerProxy *proxy = CONTROL_POWER_PROXY (_proxy); guint n; const gchar *key; GVariantIter *iter; _ExtendedGDBusPropertyInfo *info; g_variant_get (changed_properties, "a{sv}", &iter); while (g_variant_iter_next (iter, "{&sv}", &key, NULL)) { info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_control_power_interface_info.parent_struct, key); g_datalist_remove_data (&proxy->priv->qdata, key); if (info != NULL) g_object_notify (G_OBJECT (proxy), info->hyphen_name); } g_variant_iter_free (iter); for (n = 0; invalidated_properties[n] != NULL; n++) { info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_control_power_interface_info.parent_struct, invalidated_properties[n]); g_datalist_remove_data (&proxy->priv->qdata, invalidated_properties[n]); if (info != NULL) g_object_notify (G_OBJECT (proxy), info->hyphen_name); } } static gint control_power_proxy_get_pgood (ControlPower *object) { ControlPowerProxy *proxy = CONTROL_POWER_PROXY (object); GVariant *variant; gint value = 0; variant = g_dbus_proxy_get_cached_property (G_DBUS_PROXY (proxy), "pgood"); if (variant != NULL) { value = g_variant_get_int32 (variant); g_variant_unref (variant); } return value; } static gint control_power_proxy_get_state (ControlPower *object) { ControlPowerProxy *proxy = CONTROL_POWER_PROXY (object); GVariant *variant; gint value = 0; variant = g_dbus_proxy_get_cached_property (G_DBUS_PROXY (proxy), "state"); if (variant != NULL) { value = g_variant_get_int32 (variant); g_variant_unref (variant); } return value; } static gint control_power_proxy_get_pgood_timeout (ControlPower *object) { ControlPowerProxy *proxy = CONTROL_POWER_PROXY (object); GVariant *variant; gint value = 0; variant = g_dbus_proxy_get_cached_property (G_DBUS_PROXY (proxy), "pgood_timeout"); if (variant != NULL) { value = g_variant_get_int32 (variant); g_variant_unref (variant); } return value; } static void control_power_proxy_init (ControlPowerProxy *proxy) { #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 proxy->priv = control_power_proxy_get_instance_private (proxy); #else proxy->priv = G_TYPE_INSTANCE_GET_PRIVATE (proxy, TYPE_CONTROL_POWER_PROXY, ControlPowerProxyPrivate); #endif g_dbus_proxy_set_interface_info (G_DBUS_PROXY (proxy), control_power_interface_info ()); } static void control_power_proxy_class_init (ControlPowerProxyClass *klass) { GObjectClass *gobject_class; GDBusProxyClass *proxy_class; gobject_class = G_OBJECT_CLASS (klass); gobject_class->finalize = control_power_proxy_finalize; gobject_class->get_property = control_power_proxy_get_property; gobject_class->set_property = control_power_proxy_set_property; proxy_class = G_DBUS_PROXY_CLASS (klass); proxy_class->g_signal = control_power_proxy_g_signal; proxy_class->g_properties_changed = control_power_proxy_g_properties_changed; control_power_override_properties (gobject_class, 1); #if GLIB_VERSION_MAX_ALLOWED < GLIB_VERSION_2_38 g_type_class_add_private (klass, sizeof (ControlPowerProxyPrivate)); #endif } static void control_power_proxy_iface_init (ControlPowerIface *iface) { iface->get_pgood = control_power_proxy_get_pgood; iface->get_state = control_power_proxy_get_state; iface->get_pgood_timeout = control_power_proxy_get_pgood_timeout; } /** * control_power_proxy_new: * @connection: A #GDBusConnection. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: (allow-none): A bus name (well-known or unique) or %NULL if @connection is not a message bus connection. * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied. * @user_data: User data to pass to @callback. * * Asynchronously creates a proxy for the D-Bus interface org.openbmc.control.Power. See g_dbus_proxy_new() for more details. * * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call control_power_proxy_new_finish() to get the result of the operation. * * See control_power_proxy_new_sync() for the synchronous, blocking version of this constructor. */ void control_power_proxy_new ( GDBusConnection *connection, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_async_initable_new_async (TYPE_CONTROL_POWER_PROXY, G_PRIORITY_DEFAULT, cancellable, callback, user_data, "g-flags", flags, "g-name", name, "g-connection", connection, "g-object-path", object_path, "g-interface-name", "org.openbmc.control.Power", NULL); } /** * control_power_proxy_new_finish: * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to control_power_proxy_new(). * @error: Return location for error or %NULL * * Finishes an operation started with control_power_proxy_new(). * * Returns: (transfer full) (type ControlPowerProxy): The constructed proxy object or %NULL if @error is set. */ ControlPower * control_power_proxy_new_finish ( GAsyncResult *res, GError **error) { GObject *ret; GObject *source_object; source_object = g_async_result_get_source_object (res); ret = g_async_initable_new_finish (G_ASYNC_INITABLE (source_object), res, error); g_object_unref (source_object); if (ret != NULL) return CONTROL_POWER (ret); else return NULL; } /** * control_power_proxy_new_sync: * @connection: A #GDBusConnection. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: (allow-none): A bus name (well-known or unique) or %NULL if @connection is not a message bus connection. * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL * * Synchronously creates a proxy for the D-Bus interface org.openbmc.control.Power. See g_dbus_proxy_new_sync() for more details. * * The calling thread is blocked until a reply is received. * * See control_power_proxy_new() for the asynchronous version of this constructor. * * Returns: (transfer full) (type ControlPowerProxy): The constructed proxy object or %NULL if @error is set. */ ControlPower * control_power_proxy_new_sync ( GDBusConnection *connection, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GError **error) { GInitable *ret; ret = g_initable_new (TYPE_CONTROL_POWER_PROXY, cancellable, error, "g-flags", flags, "g-name", name, "g-connection", connection, "g-object-path", object_path, "g-interface-name", "org.openbmc.control.Power", NULL); if (ret != NULL) return CONTROL_POWER (ret); else return NULL; } /** * control_power_proxy_new_for_bus: * @bus_type: A #GBusType. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: A bus name (well-known or unique). * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied. * @user_data: User data to pass to @callback. * * Like control_power_proxy_new() but takes a #GBusType instead of a #GDBusConnection. * * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call control_power_proxy_new_for_bus_finish() to get the result of the operation. * * See control_power_proxy_new_for_bus_sync() for the synchronous, blocking version of this constructor. */ void control_power_proxy_new_for_bus ( GBusType bus_type, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_async_initable_new_async (TYPE_CONTROL_POWER_PROXY, G_PRIORITY_DEFAULT, cancellable, callback, user_data, "g-flags", flags, "g-name", name, "g-bus-type", bus_type, "g-object-path", object_path, "g-interface-name", "org.openbmc.control.Power", NULL); } /** * control_power_proxy_new_for_bus_finish: * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to control_power_proxy_new_for_bus(). * @error: Return location for error or %NULL * * Finishes an operation started with control_power_proxy_new_for_bus(). * * Returns: (transfer full) (type ControlPowerProxy): The constructed proxy object or %NULL if @error is set. */ ControlPower * control_power_proxy_new_for_bus_finish ( GAsyncResult *res, GError **error) { GObject *ret; GObject *source_object; source_object = g_async_result_get_source_object (res); ret = g_async_initable_new_finish (G_ASYNC_INITABLE (source_object), res, error); g_object_unref (source_object); if (ret != NULL) return CONTROL_POWER (ret); else return NULL; } /** * control_power_proxy_new_for_bus_sync: * @bus_type: A #GBusType. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: A bus name (well-known or unique). * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL * * Like control_power_proxy_new_sync() but takes a #GBusType instead of a #GDBusConnection. * * The calling thread is blocked until a reply is received. * * See control_power_proxy_new_for_bus() for the asynchronous version of this constructor. * * Returns: (transfer full) (type ControlPowerProxy): The constructed proxy object or %NULL if @error is set. */ ControlPower * control_power_proxy_new_for_bus_sync ( GBusType bus_type, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GError **error) { GInitable *ret; ret = g_initable_new (TYPE_CONTROL_POWER_PROXY, cancellable, error, "g-flags", flags, "g-name", name, "g-bus-type", bus_type, "g-object-path", object_path, "g-interface-name", "org.openbmc.control.Power", NULL); if (ret != NULL) return CONTROL_POWER (ret); else return NULL; } /* ------------------------------------------------------------------------ */ /** * ControlPowerSkeleton: * * The #ControlPowerSkeleton structure contains only private data and should only be accessed using the provided API. */ /** * ControlPowerSkeletonClass: * @parent_class: The parent class. * * Class structure for #ControlPowerSkeleton. */ struct _ControlPowerSkeletonPrivate { GValue *properties; GList *changed_properties; GSource *changed_properties_idle_source; GMainContext *context; GMutex lock; }; static void _control_power_skeleton_handle_method_call ( GDBusConnection *connection G_GNUC_UNUSED, const gchar *sender G_GNUC_UNUSED, const gchar *object_path G_GNUC_UNUSED, const gchar *interface_name, const gchar *method_name, GVariant *parameters, GDBusMethodInvocation *invocation, gpointer user_data) { ControlPowerSkeleton *skeleton = CONTROL_POWER_SKELETON (user_data); _ExtendedGDBusMethodInfo *info; GVariantIter iter; GVariant *child; GValue *paramv; guint num_params; guint num_extra; guint n; guint signal_id; GValue return_value = G_VALUE_INIT; info = (_ExtendedGDBusMethodInfo *) g_dbus_method_invocation_get_method_info (invocation); g_assert (info != NULL); num_params = g_variant_n_children (parameters); num_extra = info->pass_fdlist ? 3 : 2; paramv = g_new0 (GValue, num_params + num_extra); n = 0; g_value_init (¶mv[n], TYPE_CONTROL_POWER); g_value_set_object (¶mv[n++], skeleton); g_value_init (¶mv[n], G_TYPE_DBUS_METHOD_INVOCATION); g_value_set_object (¶mv[n++], invocation); if (info->pass_fdlist) { #ifdef G_OS_UNIX g_value_init (¶mv[n], G_TYPE_UNIX_FD_LIST); g_value_set_object (¶mv[n++], g_dbus_message_get_unix_fd_list (g_dbus_method_invocation_get_message (invocation))); #else g_assert_not_reached (); #endif } g_variant_iter_init (&iter, parameters); while ((child = g_variant_iter_next_value (&iter)) != NULL) { _ExtendedGDBusArgInfo *arg_info = (_ExtendedGDBusArgInfo *) info->parent_struct.in_args[n - num_extra]; if (arg_info->use_gvariant) { g_value_init (¶mv[n], G_TYPE_VARIANT); g_value_set_variant (¶mv[n], child); n++; } else g_dbus_gvariant_to_gvalue (child, ¶mv[n++]); g_variant_unref (child); } signal_id = g_signal_lookup (info->signal_name, TYPE_CONTROL_POWER); g_value_init (&return_value, G_TYPE_BOOLEAN); g_signal_emitv (paramv, signal_id, 0, &return_value); if (!g_value_get_boolean (&return_value)) g_dbus_method_invocation_return_error (invocation, G_DBUS_ERROR, G_DBUS_ERROR_UNKNOWN_METHOD, "Method %s is not implemented on interface %s", method_name, interface_name); g_value_unset (&return_value); for (n = 0; n < num_params + num_extra; n++) g_value_unset (¶mv[n]); g_free (paramv); } static GVariant * _control_power_skeleton_handle_get_property ( GDBusConnection *connection G_GNUC_UNUSED, const gchar *sender G_GNUC_UNUSED, const gchar *object_path G_GNUC_UNUSED, const gchar *interface_name G_GNUC_UNUSED, const gchar *property_name, GError **error, gpointer user_data) { ControlPowerSkeleton *skeleton = CONTROL_POWER_SKELETON (user_data); GValue value = G_VALUE_INIT; GParamSpec *pspec; _ExtendedGDBusPropertyInfo *info; GVariant *ret; ret = NULL; info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_control_power_interface_info.parent_struct, property_name); g_assert (info != NULL); pspec = g_object_class_find_property (G_OBJECT_GET_CLASS (skeleton), info->hyphen_name); if (pspec == NULL) { g_set_error (error, G_DBUS_ERROR, G_DBUS_ERROR_INVALID_ARGS, "No property with name %s", property_name); } else { g_value_init (&value, pspec->value_type); g_object_get_property (G_OBJECT (skeleton), info->hyphen_name, &value); ret = g_dbus_gvalue_to_gvariant (&value, G_VARIANT_TYPE (info->parent_struct.signature)); g_value_unset (&value); } return ret; } static gboolean _control_power_skeleton_handle_set_property ( GDBusConnection *connection G_GNUC_UNUSED, const gchar *sender G_GNUC_UNUSED, const gchar *object_path G_GNUC_UNUSED, const gchar *interface_name G_GNUC_UNUSED, const gchar *property_name, GVariant *variant, GError **error, gpointer user_data) { ControlPowerSkeleton *skeleton = CONTROL_POWER_SKELETON (user_data); GValue value = G_VALUE_INIT; GParamSpec *pspec; _ExtendedGDBusPropertyInfo *info; gboolean ret; ret = FALSE; info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_control_power_interface_info.parent_struct, property_name); g_assert (info != NULL); pspec = g_object_class_find_property (G_OBJECT_GET_CLASS (skeleton), info->hyphen_name); if (pspec == NULL) { g_set_error (error, G_DBUS_ERROR, G_DBUS_ERROR_INVALID_ARGS, "No property with name %s", property_name); } else { if (info->use_gvariant) g_value_set_variant (&value, variant); else g_dbus_gvariant_to_gvalue (variant, &value); g_object_set_property (G_OBJECT (skeleton), info->hyphen_name, &value); g_value_unset (&value); ret = TRUE; } return ret; } static const GDBusInterfaceVTable _control_power_skeleton_vtable = { _control_power_skeleton_handle_method_call, _control_power_skeleton_handle_get_property, _control_power_skeleton_handle_set_property, {NULL} }; static GDBusInterfaceInfo * control_power_skeleton_dbus_interface_get_info (GDBusInterfaceSkeleton *skeleton G_GNUC_UNUSED) { return control_power_interface_info (); } static GDBusInterfaceVTable * control_power_skeleton_dbus_interface_get_vtable (GDBusInterfaceSkeleton *skeleton G_GNUC_UNUSED) { return (GDBusInterfaceVTable *) &_control_power_skeleton_vtable; } static GVariant * control_power_skeleton_dbus_interface_get_properties (GDBusInterfaceSkeleton *_skeleton) { ControlPowerSkeleton *skeleton = CONTROL_POWER_SKELETON (_skeleton); GVariantBuilder builder; guint n; g_variant_builder_init (&builder, G_VARIANT_TYPE ("a{sv}")); if (_control_power_interface_info.parent_struct.properties == NULL) goto out; for (n = 0; _control_power_interface_info.parent_struct.properties[n] != NULL; n++) { GDBusPropertyInfo *info = _control_power_interface_info.parent_struct.properties[n]; if (info->flags & G_DBUS_PROPERTY_INFO_FLAGS_READABLE) { GVariant *value; value = _control_power_skeleton_handle_get_property (g_dbus_interface_skeleton_get_connection (G_DBUS_INTERFACE_SKELETON (skeleton)), NULL, g_dbus_interface_skeleton_get_object_path (G_DBUS_INTERFACE_SKELETON (skeleton)), "org.openbmc.control.Power", info->name, NULL, skeleton); if (value != NULL) { g_variant_take_ref (value); g_variant_builder_add (&builder, "{sv}", info->name, value); g_variant_unref (value); } } } out: return g_variant_builder_end (&builder); } static gboolean _control_power_emit_changed (gpointer user_data); static void control_power_skeleton_dbus_interface_flush (GDBusInterfaceSkeleton *_skeleton) { ControlPowerSkeleton *skeleton = CONTROL_POWER_SKELETON (_skeleton); gboolean emit_changed = FALSE; g_mutex_lock (&skeleton->priv->lock); if (skeleton->priv->changed_properties_idle_source != NULL) { g_source_destroy (skeleton->priv->changed_properties_idle_source); skeleton->priv->changed_properties_idle_source = NULL; emit_changed = TRUE; } g_mutex_unlock (&skeleton->priv->lock); if (emit_changed) _control_power_emit_changed (skeleton); } static void _control_power_on_signal_power_good ( ControlPower *object) { ControlPowerSkeleton *skeleton = CONTROL_POWER_SKELETON (object); GList *connections, *l; GVariant *signal_variant; connections = g_dbus_interface_skeleton_get_connections (G_DBUS_INTERFACE_SKELETON (skeleton)); signal_variant = g_variant_ref_sink (g_variant_new ("()")); for (l = connections; l != NULL; l = l->next) { GDBusConnection *connection = l->data; g_dbus_connection_emit_signal (connection, NULL, g_dbus_interface_skeleton_get_object_path (G_DBUS_INTERFACE_SKELETON (skeleton)), "org.openbmc.control.Power", "PowerGood", signal_variant, NULL); } g_variant_unref (signal_variant); g_list_free_full (connections, g_object_unref); } static void _control_power_on_signal_power_lost ( ControlPower *object) { ControlPowerSkeleton *skeleton = CONTROL_POWER_SKELETON (object); GList *connections, *l; GVariant *signal_variant; connections = g_dbus_interface_skeleton_get_connections (G_DBUS_INTERFACE_SKELETON (skeleton)); signal_variant = g_variant_ref_sink (g_variant_new ("()")); for (l = connections; l != NULL; l = l->next) { GDBusConnection *connection = l->data; g_dbus_connection_emit_signal (connection, NULL, g_dbus_interface_skeleton_get_object_path (G_DBUS_INTERFACE_SKELETON (skeleton)), "org.openbmc.control.Power", "PowerLost", signal_variant, NULL); } g_variant_unref (signal_variant); g_list_free_full (connections, g_object_unref); } static void control_power_skeleton_iface_init (ControlPowerIface *iface); #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 G_DEFINE_TYPE_WITH_CODE (ControlPowerSkeleton, control_power_skeleton, G_TYPE_DBUS_INTERFACE_SKELETON, G_ADD_PRIVATE (ControlPowerSkeleton) G_IMPLEMENT_INTERFACE (TYPE_CONTROL_POWER, control_power_skeleton_iface_init)); #else G_DEFINE_TYPE_WITH_CODE (ControlPowerSkeleton, control_power_skeleton, G_TYPE_DBUS_INTERFACE_SKELETON, G_IMPLEMENT_INTERFACE (TYPE_CONTROL_POWER, control_power_skeleton_iface_init)); #endif static void control_power_skeleton_finalize (GObject *object) { ControlPowerSkeleton *skeleton = CONTROL_POWER_SKELETON (object); guint n; for (n = 0; n < 3; n++) g_value_unset (&skeleton->priv->properties[n]); g_free (skeleton->priv->properties); g_list_free_full (skeleton->priv->changed_properties, (GDestroyNotify) _changed_property_free); if (skeleton->priv->changed_properties_idle_source != NULL) g_source_destroy (skeleton->priv->changed_properties_idle_source); g_main_context_unref (skeleton->priv->context); g_mutex_clear (&skeleton->priv->lock); G_OBJECT_CLASS (control_power_skeleton_parent_class)->finalize (object); } static void control_power_skeleton_get_property (GObject *object, guint prop_id, GValue *value, GParamSpec *pspec G_GNUC_UNUSED) { ControlPowerSkeleton *skeleton = CONTROL_POWER_SKELETON (object); g_assert (prop_id != 0 && prop_id - 1 < 3); g_mutex_lock (&skeleton->priv->lock); g_value_copy (&skeleton->priv->properties[prop_id - 1], value); g_mutex_unlock (&skeleton->priv->lock); } static gboolean _control_power_emit_changed (gpointer user_data) { ControlPowerSkeleton *skeleton = CONTROL_POWER_SKELETON (user_data); GList *l; GVariantBuilder builder; GVariantBuilder invalidated_builder; guint num_changes; g_mutex_lock (&skeleton->priv->lock); g_variant_builder_init (&builder, G_VARIANT_TYPE ("a{sv}")); g_variant_builder_init (&invalidated_builder, G_VARIANT_TYPE ("as")); for (l = skeleton->priv->changed_properties, num_changes = 0; l != NULL; l = l->next) { ChangedProperty *cp = l->data; GVariant *variant; const GValue *cur_value; cur_value = &skeleton->priv->properties[cp->prop_id - 1]; if (!_g_value_equal (cur_value, &cp->orig_value)) { variant = g_dbus_gvalue_to_gvariant (cur_value, G_VARIANT_TYPE (cp->info->parent_struct.signature)); g_variant_builder_add (&builder, "{sv}", cp->info->parent_struct.name, variant); g_variant_unref (variant); num_changes++; } } if (num_changes > 0) { GList *connections, *ll; GVariant *signal_variant; signal_variant = g_variant_ref_sink (g_variant_new ("(sa{sv}as)", "org.openbmc.control.Power", &builder, &invalidated_builder)); connections = g_dbus_interface_skeleton_get_connections (G_DBUS_INTERFACE_SKELETON (skeleton)); for (ll = connections; ll != NULL; ll = ll->next) { GDBusConnection *connection = ll->data; g_dbus_connection_emit_signal (connection, NULL, g_dbus_interface_skeleton_get_object_path (G_DBUS_INTERFACE_SKELETON (skeleton)), "org.freedesktop.DBus.Properties", "PropertiesChanged", signal_variant, NULL); } g_variant_unref (signal_variant); g_list_free_full (connections, g_object_unref); } else { g_variant_builder_clear (&builder); g_variant_builder_clear (&invalidated_builder); } g_list_free_full (skeleton->priv->changed_properties, (GDestroyNotify) _changed_property_free); skeleton->priv->changed_properties = NULL; skeleton->priv->changed_properties_idle_source = NULL; g_mutex_unlock (&skeleton->priv->lock); return FALSE; } static void _control_power_schedule_emit_changed (ControlPowerSkeleton *skeleton, const _ExtendedGDBusPropertyInfo *info, guint prop_id, const GValue *orig_value) { ChangedProperty *cp; GList *l; cp = NULL; for (l = skeleton->priv->changed_properties; l != NULL; l = l->next) { ChangedProperty *i_cp = l->data; if (i_cp->info == info) { cp = i_cp; break; } } if (cp == NULL) { cp = g_new0 (ChangedProperty, 1); cp->prop_id = prop_id; cp->info = info; skeleton->priv->changed_properties = g_list_prepend (skeleton->priv->changed_properties, cp); g_value_init (&cp->orig_value, G_VALUE_TYPE (orig_value)); g_value_copy (orig_value, &cp->orig_value); } } static void control_power_skeleton_notify (GObject *object, GParamSpec *pspec G_GNUC_UNUSED) { ControlPowerSkeleton *skeleton = CONTROL_POWER_SKELETON (object); g_mutex_lock (&skeleton->priv->lock); if (skeleton->priv->changed_properties != NULL && skeleton->priv->changed_properties_idle_source == NULL) { skeleton->priv->changed_properties_idle_source = g_idle_source_new (); g_source_set_priority (skeleton->priv->changed_properties_idle_source, G_PRIORITY_DEFAULT); g_source_set_callback (skeleton->priv->changed_properties_idle_source, _control_power_emit_changed, g_object_ref (skeleton), (GDestroyNotify) g_object_unref); g_source_set_name (skeleton->priv->changed_properties_idle_source, "[generated] _control_power_emit_changed"); g_source_attach (skeleton->priv->changed_properties_idle_source, skeleton->priv->context); g_source_unref (skeleton->priv->changed_properties_idle_source); } g_mutex_unlock (&skeleton->priv->lock); } static void control_power_skeleton_set_property (GObject *object, guint prop_id, const GValue *value, GParamSpec *pspec) { ControlPowerSkeleton *skeleton = CONTROL_POWER_SKELETON (object); g_assert (prop_id != 0 && prop_id - 1 < 3); g_mutex_lock (&skeleton->priv->lock); g_object_freeze_notify (object); if (!_g_value_equal (value, &skeleton->priv->properties[prop_id - 1])) { if (g_dbus_interface_skeleton_get_connection (G_DBUS_INTERFACE_SKELETON (skeleton)) != NULL) _control_power_schedule_emit_changed (skeleton, _control_power_property_info_pointers[prop_id - 1], prop_id, &skeleton->priv->properties[prop_id - 1]); g_value_copy (value, &skeleton->priv->properties[prop_id - 1]); g_object_notify_by_pspec (object, pspec); } g_mutex_unlock (&skeleton->priv->lock); g_object_thaw_notify (object); } static void control_power_skeleton_init (ControlPowerSkeleton *skeleton) { #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 skeleton->priv = control_power_skeleton_get_instance_private (skeleton); #else skeleton->priv = G_TYPE_INSTANCE_GET_PRIVATE (skeleton, TYPE_CONTROL_POWER_SKELETON, ControlPowerSkeletonPrivate); #endif g_mutex_init (&skeleton->priv->lock); skeleton->priv->context = g_main_context_ref_thread_default (); skeleton->priv->properties = g_new0 (GValue, 3); g_value_init (&skeleton->priv->properties[0], G_TYPE_INT); g_value_init (&skeleton->priv->properties[1], G_TYPE_INT); g_value_init (&skeleton->priv->properties[2], G_TYPE_INT); } static gint control_power_skeleton_get_pgood (ControlPower *object) { ControlPowerSkeleton *skeleton = CONTROL_POWER_SKELETON (object); gint value; g_mutex_lock (&skeleton->priv->lock); value = g_value_get_int (&(skeleton->priv->properties[0])); g_mutex_unlock (&skeleton->priv->lock); return value; } static gint control_power_skeleton_get_state (ControlPower *object) { ControlPowerSkeleton *skeleton = CONTROL_POWER_SKELETON (object); gint value; g_mutex_lock (&skeleton->priv->lock); value = g_value_get_int (&(skeleton->priv->properties[1])); g_mutex_unlock (&skeleton->priv->lock); return value; } static gint control_power_skeleton_get_pgood_timeout (ControlPower *object) { ControlPowerSkeleton *skeleton = CONTROL_POWER_SKELETON (object); gint value; g_mutex_lock (&skeleton->priv->lock); value = g_value_get_int (&(skeleton->priv->properties[2])); g_mutex_unlock (&skeleton->priv->lock); return value; } static void control_power_skeleton_class_init (ControlPowerSkeletonClass *klass) { GObjectClass *gobject_class; GDBusInterfaceSkeletonClass *skeleton_class; gobject_class = G_OBJECT_CLASS (klass); gobject_class->finalize = control_power_skeleton_finalize; gobject_class->get_property = control_power_skeleton_get_property; gobject_class->set_property = control_power_skeleton_set_property; gobject_class->notify = control_power_skeleton_notify; control_power_override_properties (gobject_class, 1); skeleton_class = G_DBUS_INTERFACE_SKELETON_CLASS (klass); skeleton_class->get_info = control_power_skeleton_dbus_interface_get_info; skeleton_class->get_properties = control_power_skeleton_dbus_interface_get_properties; skeleton_class->flush = control_power_skeleton_dbus_interface_flush; skeleton_class->get_vtable = control_power_skeleton_dbus_interface_get_vtable; #if GLIB_VERSION_MAX_ALLOWED < GLIB_VERSION_2_38 g_type_class_add_private (klass, sizeof (ControlPowerSkeletonPrivate)); #endif } static void control_power_skeleton_iface_init (ControlPowerIface *iface) { iface->power_good = _control_power_on_signal_power_good; iface->power_lost = _control_power_on_signal_power_lost; iface->get_pgood = control_power_skeleton_get_pgood; iface->get_state = control_power_skeleton_get_state; iface->get_pgood_timeout = control_power_skeleton_get_pgood_timeout; } /** * control_power_skeleton_new: * * Creates a skeleton object for the D-Bus interface org.openbmc.control.Power. * * Returns: (transfer full) (type ControlPowerSkeleton): The skeleton object. */ ControlPower * control_power_skeleton_new (void) { return CONTROL_POWER (g_object_new (TYPE_CONTROL_POWER_SKELETON, NULL)); } /* ------------------------------------------------------------------------ * Code for interface org.openbmc.control.Checkstop * ------------------------------------------------------------------------ */ /** * SECTION:ControlCheckstop * @title: ControlCheckstop * @short_description: Generated C code for the org.openbmc.control.Checkstop D-Bus interface * * This section contains code for working with the org.openbmc.control.Checkstop D-Bus interface in C. */ /* ---- Introspection data for org.openbmc.control.Checkstop ---- */ static const _ExtendedGDBusInterfaceInfo _control_checkstop_interface_info = { { -1, (gchar *) "org.openbmc.control.Checkstop", NULL, NULL, NULL, NULL }, "control-checkstop", }; /** * control_checkstop_interface_info: * * Gets a machine-readable description of the org.openbmc.control.Checkstop D-Bus interface. * * Returns: (transfer none): A #GDBusInterfaceInfo. Do not free. */ GDBusInterfaceInfo * control_checkstop_interface_info (void) { return (GDBusInterfaceInfo *) &_control_checkstop_interface_info.parent_struct; } /** * control_checkstop_override_properties: * @klass: The class structure for a #GObject-derived class. * @property_id_begin: The property id to assign to the first overridden property. * * Overrides all #GObject properties in the #ControlCheckstop interface for a concrete class. * The properties are overridden in the order they are defined. * * Returns: The last property id. */ guint control_checkstop_override_properties (GObjectClass *klass, guint property_id_begin) { return property_id_begin - 1; } /** * ControlCheckstop: * * Abstract interface type for the D-Bus interface org.openbmc.control.Checkstop. */ /** * ControlCheckstopIface: * @parent_iface: The parent interface. * * Virtual table for the D-Bus interface org.openbmc.control.Checkstop. */ typedef ControlCheckstopIface ControlCheckstopInterface; G_DEFINE_INTERFACE (ControlCheckstop, control_checkstop, G_TYPE_OBJECT); static void control_checkstop_default_init (ControlCheckstopIface *iface) { } /* ------------------------------------------------------------------------ */ /** * ControlCheckstopProxy: * * The #ControlCheckstopProxy structure contains only private data and should only be accessed using the provided API. */ /** * ControlCheckstopProxyClass: * @parent_class: The parent class. * * Class structure for #ControlCheckstopProxy. */ struct _ControlCheckstopProxyPrivate { GData *qdata; }; static void control_checkstop_proxy_iface_init (ControlCheckstopIface *iface); #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 G_DEFINE_TYPE_WITH_CODE (ControlCheckstopProxy, control_checkstop_proxy, G_TYPE_DBUS_PROXY, G_ADD_PRIVATE (ControlCheckstopProxy) G_IMPLEMENT_INTERFACE (TYPE_CONTROL_CHECKSTOP, control_checkstop_proxy_iface_init)); #else G_DEFINE_TYPE_WITH_CODE (ControlCheckstopProxy, control_checkstop_proxy, G_TYPE_DBUS_PROXY, G_IMPLEMENT_INTERFACE (TYPE_CONTROL_CHECKSTOP, control_checkstop_proxy_iface_init)); #endif static void control_checkstop_proxy_finalize (GObject *object) { ControlCheckstopProxy *proxy = CONTROL_CHECKSTOP_PROXY (object); g_datalist_clear (&proxy->priv->qdata); G_OBJECT_CLASS (control_checkstop_proxy_parent_class)->finalize (object); } static void control_checkstop_proxy_get_property (GObject *object, guint prop_id, GValue *value, GParamSpec *pspec G_GNUC_UNUSED) { } static void control_checkstop_proxy_set_property (GObject *object, guint prop_id, const GValue *value, GParamSpec *pspec G_GNUC_UNUSED) { } static void control_checkstop_proxy_g_signal (GDBusProxy *proxy, const gchar *sender_name G_GNUC_UNUSED, const gchar *signal_name, GVariant *parameters) { _ExtendedGDBusSignalInfo *info; GVariantIter iter; GVariant *child; GValue *paramv; guint num_params; guint n; guint signal_id; info = (_ExtendedGDBusSignalInfo *) g_dbus_interface_info_lookup_signal ((GDBusInterfaceInfo *) &_control_checkstop_interface_info.parent_struct, signal_name); if (info == NULL) return; num_params = g_variant_n_children (parameters); paramv = g_new0 (GValue, num_params + 1); g_value_init (¶mv[0], TYPE_CONTROL_CHECKSTOP); g_value_set_object (¶mv[0], proxy); g_variant_iter_init (&iter, parameters); n = 1; while ((child = g_variant_iter_next_value (&iter)) != NULL) { _ExtendedGDBusArgInfo *arg_info = (_ExtendedGDBusArgInfo *) info->parent_struct.args[n - 1]; if (arg_info->use_gvariant) { g_value_init (¶mv[n], G_TYPE_VARIANT); g_value_set_variant (¶mv[n], child); n++; } else g_dbus_gvariant_to_gvalue (child, ¶mv[n++]); g_variant_unref (child); } signal_id = g_signal_lookup (info->signal_name, TYPE_CONTROL_CHECKSTOP); g_signal_emitv (paramv, signal_id, 0, NULL); for (n = 0; n < num_params + 1; n++) g_value_unset (¶mv[n]); g_free (paramv); } static void control_checkstop_proxy_g_properties_changed (GDBusProxy *_proxy, GVariant *changed_properties, const gchar *const *invalidated_properties) { ControlCheckstopProxy *proxy = CONTROL_CHECKSTOP_PROXY (_proxy); guint n; const gchar *key; GVariantIter *iter; _ExtendedGDBusPropertyInfo *info; g_variant_get (changed_properties, "a{sv}", &iter); while (g_variant_iter_next (iter, "{&sv}", &key, NULL)) { info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_control_checkstop_interface_info.parent_struct, key); g_datalist_remove_data (&proxy->priv->qdata, key); if (info != NULL) g_object_notify (G_OBJECT (proxy), info->hyphen_name); } g_variant_iter_free (iter); for (n = 0; invalidated_properties[n] != NULL; n++) { info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_control_checkstop_interface_info.parent_struct, invalidated_properties[n]); g_datalist_remove_data (&proxy->priv->qdata, invalidated_properties[n]); if (info != NULL) g_object_notify (G_OBJECT (proxy), info->hyphen_name); } } static void control_checkstop_proxy_init (ControlCheckstopProxy *proxy) { #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 proxy->priv = control_checkstop_proxy_get_instance_private (proxy); #else proxy->priv = G_TYPE_INSTANCE_GET_PRIVATE (proxy, TYPE_CONTROL_CHECKSTOP_PROXY, ControlCheckstopProxyPrivate); #endif g_dbus_proxy_set_interface_info (G_DBUS_PROXY (proxy), control_checkstop_interface_info ()); } static void control_checkstop_proxy_class_init (ControlCheckstopProxyClass *klass) { GObjectClass *gobject_class; GDBusProxyClass *proxy_class; gobject_class = G_OBJECT_CLASS (klass); gobject_class->finalize = control_checkstop_proxy_finalize; gobject_class->get_property = control_checkstop_proxy_get_property; gobject_class->set_property = control_checkstop_proxy_set_property; proxy_class = G_DBUS_PROXY_CLASS (klass); proxy_class->g_signal = control_checkstop_proxy_g_signal; proxy_class->g_properties_changed = control_checkstop_proxy_g_properties_changed; #if GLIB_VERSION_MAX_ALLOWED < GLIB_VERSION_2_38 g_type_class_add_private (klass, sizeof (ControlCheckstopProxyPrivate)); #endif } static void control_checkstop_proxy_iface_init (ControlCheckstopIface *iface) { } /** * control_checkstop_proxy_new: * @connection: A #GDBusConnection. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: (allow-none): A bus name (well-known or unique) or %NULL if @connection is not a message bus connection. * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied. * @user_data: User data to pass to @callback. * * Asynchronously creates a proxy for the D-Bus interface org.openbmc.control.Checkstop. See g_dbus_proxy_new() for more details. * * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call control_checkstop_proxy_new_finish() to get the result of the operation. * * See control_checkstop_proxy_new_sync() for the synchronous, blocking version of this constructor. */ void control_checkstop_proxy_new ( GDBusConnection *connection, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_async_initable_new_async (TYPE_CONTROL_CHECKSTOP_PROXY, G_PRIORITY_DEFAULT, cancellable, callback, user_data, "g-flags", flags, "g-name", name, "g-connection", connection, "g-object-path", object_path, "g-interface-name", "org.openbmc.control.Checkstop", NULL); } /** * control_checkstop_proxy_new_finish: * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to control_checkstop_proxy_new(). * @error: Return location for error or %NULL * * Finishes an operation started with control_checkstop_proxy_new(). * * Returns: (transfer full) (type ControlCheckstopProxy): The constructed proxy object or %NULL if @error is set. */ ControlCheckstop * control_checkstop_proxy_new_finish ( GAsyncResult *res, GError **error) { GObject *ret; GObject *source_object; source_object = g_async_result_get_source_object (res); ret = g_async_initable_new_finish (G_ASYNC_INITABLE (source_object), res, error); g_object_unref (source_object); if (ret != NULL) return CONTROL_CHECKSTOP (ret); else return NULL; } /** * control_checkstop_proxy_new_sync: * @connection: A #GDBusConnection. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: (allow-none): A bus name (well-known or unique) or %NULL if @connection is not a message bus connection. * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL * * Synchronously creates a proxy for the D-Bus interface org.openbmc.control.Checkstop. See g_dbus_proxy_new_sync() for more details. * * The calling thread is blocked until a reply is received. * * See control_checkstop_proxy_new() for the asynchronous version of this constructor. * * Returns: (transfer full) (type ControlCheckstopProxy): The constructed proxy object or %NULL if @error is set. */ ControlCheckstop * control_checkstop_proxy_new_sync ( GDBusConnection *connection, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GError **error) { GInitable *ret; ret = g_initable_new (TYPE_CONTROL_CHECKSTOP_PROXY, cancellable, error, "g-flags", flags, "g-name", name, "g-connection", connection, "g-object-path", object_path, "g-interface-name", "org.openbmc.control.Checkstop", NULL); if (ret != NULL) return CONTROL_CHECKSTOP (ret); else return NULL; } /** * control_checkstop_proxy_new_for_bus: * @bus_type: A #GBusType. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: A bus name (well-known or unique). * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied. * @user_data: User data to pass to @callback. * * Like control_checkstop_proxy_new() but takes a #GBusType instead of a #GDBusConnection. * * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call control_checkstop_proxy_new_for_bus_finish() to get the result of the operation. * * See control_checkstop_proxy_new_for_bus_sync() for the synchronous, blocking version of this constructor. */ void control_checkstop_proxy_new_for_bus ( GBusType bus_type, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_async_initable_new_async (TYPE_CONTROL_CHECKSTOP_PROXY, G_PRIORITY_DEFAULT, cancellable, callback, user_data, "g-flags", flags, "g-name", name, "g-bus-type", bus_type, "g-object-path", object_path, "g-interface-name", "org.openbmc.control.Checkstop", NULL); } /** * control_checkstop_proxy_new_for_bus_finish: * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to control_checkstop_proxy_new_for_bus(). * @error: Return location for error or %NULL * * Finishes an operation started with control_checkstop_proxy_new_for_bus(). * * Returns: (transfer full) (type ControlCheckstopProxy): The constructed proxy object or %NULL if @error is set. */ ControlCheckstop * control_checkstop_proxy_new_for_bus_finish ( GAsyncResult *res, GError **error) { GObject *ret; GObject *source_object; source_object = g_async_result_get_source_object (res); ret = g_async_initable_new_finish (G_ASYNC_INITABLE (source_object), res, error); g_object_unref (source_object); if (ret != NULL) return CONTROL_CHECKSTOP (ret); else return NULL; } /** * control_checkstop_proxy_new_for_bus_sync: * @bus_type: A #GBusType. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: A bus name (well-known or unique). * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL * * Like control_checkstop_proxy_new_sync() but takes a #GBusType instead of a #GDBusConnection. * * The calling thread is blocked until a reply is received. * * See control_checkstop_proxy_new_for_bus() for the asynchronous version of this constructor. * * Returns: (transfer full) (type ControlCheckstopProxy): The constructed proxy object or %NULL if @error is set. */ ControlCheckstop * control_checkstop_proxy_new_for_bus_sync ( GBusType bus_type, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GError **error) { GInitable *ret; ret = g_initable_new (TYPE_CONTROL_CHECKSTOP_PROXY, cancellable, error, "g-flags", flags, "g-name", name, "g-bus-type", bus_type, "g-object-path", object_path, "g-interface-name", "org.openbmc.control.Checkstop", NULL); if (ret != NULL) return CONTROL_CHECKSTOP (ret); else return NULL; } /* ------------------------------------------------------------------------ */ /** * ControlCheckstopSkeleton: * * The #ControlCheckstopSkeleton structure contains only private data and should only be accessed using the provided API. */ /** * ControlCheckstopSkeletonClass: * @parent_class: The parent class. * * Class structure for #ControlCheckstopSkeleton. */ struct _ControlCheckstopSkeletonPrivate { GValue *properties; GList *changed_properties; GSource *changed_properties_idle_source; GMainContext *context; GMutex lock; }; static void _control_checkstop_skeleton_handle_method_call ( GDBusConnection *connection G_GNUC_UNUSED, const gchar *sender G_GNUC_UNUSED, const gchar *object_path G_GNUC_UNUSED, const gchar *interface_name, const gchar *method_name, GVariant *parameters, GDBusMethodInvocation *invocation, gpointer user_data) { ControlCheckstopSkeleton *skeleton = CONTROL_CHECKSTOP_SKELETON (user_data); _ExtendedGDBusMethodInfo *info; GVariantIter iter; GVariant *child; GValue *paramv; guint num_params; guint num_extra; guint n; guint signal_id; GValue return_value = G_VALUE_INIT; info = (_ExtendedGDBusMethodInfo *) g_dbus_method_invocation_get_method_info (invocation); g_assert (info != NULL); num_params = g_variant_n_children (parameters); num_extra = info->pass_fdlist ? 3 : 2; paramv = g_new0 (GValue, num_params + num_extra); n = 0; g_value_init (¶mv[n], TYPE_CONTROL_CHECKSTOP); g_value_set_object (¶mv[n++], skeleton); g_value_init (¶mv[n], G_TYPE_DBUS_METHOD_INVOCATION); g_value_set_object (¶mv[n++], invocation); if (info->pass_fdlist) { #ifdef G_OS_UNIX g_value_init (¶mv[n], G_TYPE_UNIX_FD_LIST); g_value_set_object (¶mv[n++], g_dbus_message_get_unix_fd_list (g_dbus_method_invocation_get_message (invocation))); #else g_assert_not_reached (); #endif } g_variant_iter_init (&iter, parameters); while ((child = g_variant_iter_next_value (&iter)) != NULL) { _ExtendedGDBusArgInfo *arg_info = (_ExtendedGDBusArgInfo *) info->parent_struct.in_args[n - num_extra]; if (arg_info->use_gvariant) { g_value_init (¶mv[n], G_TYPE_VARIANT); g_value_set_variant (¶mv[n], child); n++; } else g_dbus_gvariant_to_gvalue (child, ¶mv[n++]); g_variant_unref (child); } signal_id = g_signal_lookup (info->signal_name, TYPE_CONTROL_CHECKSTOP); g_value_init (&return_value, G_TYPE_BOOLEAN); g_signal_emitv (paramv, signal_id, 0, &return_value); if (!g_value_get_boolean (&return_value)) g_dbus_method_invocation_return_error (invocation, G_DBUS_ERROR, G_DBUS_ERROR_UNKNOWN_METHOD, "Method %s is not implemented on interface %s", method_name, interface_name); g_value_unset (&return_value); for (n = 0; n < num_params + num_extra; n++) g_value_unset (¶mv[n]); g_free (paramv); } static GVariant * _control_checkstop_skeleton_handle_get_property ( GDBusConnection *connection G_GNUC_UNUSED, const gchar *sender G_GNUC_UNUSED, const gchar *object_path G_GNUC_UNUSED, const gchar *interface_name G_GNUC_UNUSED, const gchar *property_name, GError **error, gpointer user_data) { ControlCheckstopSkeleton *skeleton = CONTROL_CHECKSTOP_SKELETON (user_data); GValue value = G_VALUE_INIT; GParamSpec *pspec; _ExtendedGDBusPropertyInfo *info; GVariant *ret; ret = NULL; info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_control_checkstop_interface_info.parent_struct, property_name); g_assert (info != NULL); pspec = g_object_class_find_property (G_OBJECT_GET_CLASS (skeleton), info->hyphen_name); if (pspec == NULL) { g_set_error (error, G_DBUS_ERROR, G_DBUS_ERROR_INVALID_ARGS, "No property with name %s", property_name); } else { g_value_init (&value, pspec->value_type); g_object_get_property (G_OBJECT (skeleton), info->hyphen_name, &value); ret = g_dbus_gvalue_to_gvariant (&value, G_VARIANT_TYPE (info->parent_struct.signature)); g_value_unset (&value); } return ret; } static gboolean _control_checkstop_skeleton_handle_set_property ( GDBusConnection *connection G_GNUC_UNUSED, const gchar *sender G_GNUC_UNUSED, const gchar *object_path G_GNUC_UNUSED, const gchar *interface_name G_GNUC_UNUSED, const gchar *property_name, GVariant *variant, GError **error, gpointer user_data) { ControlCheckstopSkeleton *skeleton = CONTROL_CHECKSTOP_SKELETON (user_data); GValue value = G_VALUE_INIT; GParamSpec *pspec; _ExtendedGDBusPropertyInfo *info; gboolean ret; ret = FALSE; info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_control_checkstop_interface_info.parent_struct, property_name); g_assert (info != NULL); pspec = g_object_class_find_property (G_OBJECT_GET_CLASS (skeleton), info->hyphen_name); if (pspec == NULL) { g_set_error (error, G_DBUS_ERROR, G_DBUS_ERROR_INVALID_ARGS, "No property with name %s", property_name); } else { if (info->use_gvariant) g_value_set_variant (&value, variant); else g_dbus_gvariant_to_gvalue (variant, &value); g_object_set_property (G_OBJECT (skeleton), info->hyphen_name, &value); g_value_unset (&value); ret = TRUE; } return ret; } static const GDBusInterfaceVTable _control_checkstop_skeleton_vtable = { _control_checkstop_skeleton_handle_method_call, _control_checkstop_skeleton_handle_get_property, _control_checkstop_skeleton_handle_set_property, {NULL} }; static GDBusInterfaceInfo * control_checkstop_skeleton_dbus_interface_get_info (GDBusInterfaceSkeleton *skeleton G_GNUC_UNUSED) { return control_checkstop_interface_info (); } static GDBusInterfaceVTable * control_checkstop_skeleton_dbus_interface_get_vtable (GDBusInterfaceSkeleton *skeleton G_GNUC_UNUSED) { return (GDBusInterfaceVTable *) &_control_checkstop_skeleton_vtable; } static GVariant * control_checkstop_skeleton_dbus_interface_get_properties (GDBusInterfaceSkeleton *_skeleton) { ControlCheckstopSkeleton *skeleton = CONTROL_CHECKSTOP_SKELETON (_skeleton); GVariantBuilder builder; guint n; g_variant_builder_init (&builder, G_VARIANT_TYPE ("a{sv}")); if (_control_checkstop_interface_info.parent_struct.properties == NULL) goto out; for (n = 0; _control_checkstop_interface_info.parent_struct.properties[n] != NULL; n++) { GDBusPropertyInfo *info = _control_checkstop_interface_info.parent_struct.properties[n]; if (info->flags & G_DBUS_PROPERTY_INFO_FLAGS_READABLE) { GVariant *value; value = _control_checkstop_skeleton_handle_get_property (g_dbus_interface_skeleton_get_connection (G_DBUS_INTERFACE_SKELETON (skeleton)), NULL, g_dbus_interface_skeleton_get_object_path (G_DBUS_INTERFACE_SKELETON (skeleton)), "org.openbmc.control.Checkstop", info->name, NULL, skeleton); if (value != NULL) { g_variant_take_ref (value); g_variant_builder_add (&builder, "{sv}", info->name, value); g_variant_unref (value); } } } out: return g_variant_builder_end (&builder); } static void control_checkstop_skeleton_dbus_interface_flush (GDBusInterfaceSkeleton *_skeleton) { } static void control_checkstop_skeleton_iface_init (ControlCheckstopIface *iface); #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 G_DEFINE_TYPE_WITH_CODE (ControlCheckstopSkeleton, control_checkstop_skeleton, G_TYPE_DBUS_INTERFACE_SKELETON, G_ADD_PRIVATE (ControlCheckstopSkeleton) G_IMPLEMENT_INTERFACE (TYPE_CONTROL_CHECKSTOP, control_checkstop_skeleton_iface_init)); #else G_DEFINE_TYPE_WITH_CODE (ControlCheckstopSkeleton, control_checkstop_skeleton, G_TYPE_DBUS_INTERFACE_SKELETON, G_IMPLEMENT_INTERFACE (TYPE_CONTROL_CHECKSTOP, control_checkstop_skeleton_iface_init)); #endif static void control_checkstop_skeleton_finalize (GObject *object) { ControlCheckstopSkeleton *skeleton = CONTROL_CHECKSTOP_SKELETON (object); g_list_free_full (skeleton->priv->changed_properties, (GDestroyNotify) _changed_property_free); if (skeleton->priv->changed_properties_idle_source != NULL) g_source_destroy (skeleton->priv->changed_properties_idle_source); g_main_context_unref (skeleton->priv->context); g_mutex_clear (&skeleton->priv->lock); G_OBJECT_CLASS (control_checkstop_skeleton_parent_class)->finalize (object); } static void control_checkstop_skeleton_init (ControlCheckstopSkeleton *skeleton) { #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 skeleton->priv = control_checkstop_skeleton_get_instance_private (skeleton); #else skeleton->priv = G_TYPE_INSTANCE_GET_PRIVATE (skeleton, TYPE_CONTROL_CHECKSTOP_SKELETON, ControlCheckstopSkeletonPrivate); #endif g_mutex_init (&skeleton->priv->lock); skeleton->priv->context = g_main_context_ref_thread_default (); } static void control_checkstop_skeleton_class_init (ControlCheckstopSkeletonClass *klass) { GObjectClass *gobject_class; GDBusInterfaceSkeletonClass *skeleton_class; gobject_class = G_OBJECT_CLASS (klass); gobject_class->finalize = control_checkstop_skeleton_finalize; skeleton_class = G_DBUS_INTERFACE_SKELETON_CLASS (klass); skeleton_class->get_info = control_checkstop_skeleton_dbus_interface_get_info; skeleton_class->get_properties = control_checkstop_skeleton_dbus_interface_get_properties; skeleton_class->flush = control_checkstop_skeleton_dbus_interface_flush; skeleton_class->get_vtable = control_checkstop_skeleton_dbus_interface_get_vtable; #if GLIB_VERSION_MAX_ALLOWED < GLIB_VERSION_2_38 g_type_class_add_private (klass, sizeof (ControlCheckstopSkeletonPrivate)); #endif } static void control_checkstop_skeleton_iface_init (ControlCheckstopIface *iface) { } /** * control_checkstop_skeleton_new: * * Creates a skeleton object for the D-Bus interface org.openbmc.control.Checkstop. * * Returns: (transfer full) (type ControlCheckstopSkeleton): The skeleton object. */ ControlCheckstop * control_checkstop_skeleton_new (void) { return CONTROL_CHECKSTOP (g_object_new (TYPE_CONTROL_CHECKSTOP_SKELETON, NULL)); } /* ------------------------------------------------------------------------ * Code for interface org.openbmc.Watchdog * ------------------------------------------------------------------------ */ /** * SECTION:Watchdog * @title: Watchdog * @short_description: Generated C code for the org.openbmc.Watchdog D-Bus interface * * This section contains code for working with the org.openbmc.Watchdog D-Bus interface in C. */ /* ---- Introspection data for org.openbmc.Watchdog ---- */ static const _ExtendedGDBusMethodInfo _watchdog_method_info_start = { { -1, (gchar *) "start", NULL, NULL, NULL }, "handle-start", FALSE }; static const _ExtendedGDBusMethodInfo _watchdog_method_info_poke = { { -1, (gchar *) "poke", NULL, NULL, NULL }, "handle-poke", FALSE }; static const _ExtendedGDBusMethodInfo _watchdog_method_info_stop = { { -1, (gchar *) "stop", NULL, NULL, NULL }, "handle-stop", FALSE }; static const _ExtendedGDBusArgInfo _watchdog_method_info_set_IN_ARG_interval = { { -1, (gchar *) "interval", (gchar *) "i", NULL }, FALSE }; static const _ExtendedGDBusArgInfo * const _watchdog_method_info_set_IN_ARG_pointers[] = { &_watchdog_method_info_set_IN_ARG_interval, NULL }; static const _ExtendedGDBusMethodInfo _watchdog_method_info_set = { { -1, (gchar *) "set", (GDBusArgInfo **) &_watchdog_method_info_set_IN_ARG_pointers, NULL, NULL }, "handle-set", FALSE }; static const _ExtendedGDBusMethodInfo * const _watchdog_method_info_pointers[] = { &_watchdog_method_info_start, &_watchdog_method_info_poke, &_watchdog_method_info_stop, &_watchdog_method_info_set, NULL }; static const _ExtendedGDBusSignalInfo _watchdog_signal_info_watchdog_error = { { -1, (gchar *) "WatchdogError", NULL, NULL }, "watchdog-error" }; static const _ExtendedGDBusSignalInfo * const _watchdog_signal_info_pointers[] = { &_watchdog_signal_info_watchdog_error, NULL }; static const _ExtendedGDBusPropertyInfo _watchdog_property_info_watchdog = { { -1, (gchar *) "watchdog", (gchar *) "i", G_DBUS_PROPERTY_INFO_FLAGS_READABLE | G_DBUS_PROPERTY_INFO_FLAGS_WRITABLE, NULL }, "watchdog", FALSE }; static const _ExtendedGDBusPropertyInfo _watchdog_property_info_poll_interval = { { -1, (gchar *) "poll_interval", (gchar *) "i", G_DBUS_PROPERTY_INFO_FLAGS_READABLE | G_DBUS_PROPERTY_INFO_FLAGS_WRITABLE, NULL }, "poll-interval", FALSE }; static const _ExtendedGDBusPropertyInfo * const _watchdog_property_info_pointers[] = { &_watchdog_property_info_watchdog, &_watchdog_property_info_poll_interval, NULL }; static const _ExtendedGDBusInterfaceInfo _watchdog_interface_info = { { -1, (gchar *) "org.openbmc.Watchdog", (GDBusMethodInfo **) &_watchdog_method_info_pointers, (GDBusSignalInfo **) &_watchdog_signal_info_pointers, (GDBusPropertyInfo **) &_watchdog_property_info_pointers, NULL }, "watchdog", }; /** * watchdog_interface_info: * * Gets a machine-readable description of the org.openbmc.Watchdog D-Bus interface. * * Returns: (transfer none): A #GDBusInterfaceInfo. Do not free. */ GDBusInterfaceInfo * watchdog_interface_info (void) { return (GDBusInterfaceInfo *) &_watchdog_interface_info.parent_struct; } /** * watchdog_override_properties: * @klass: The class structure for a #GObject-derived class. * @property_id_begin: The property id to assign to the first overridden property. * * Overrides all #GObject properties in the #Watchdog interface for a concrete class. * The properties are overridden in the order they are defined. * * Returns: The last property id. */ guint watchdog_override_properties (GObjectClass *klass, guint property_id_begin) { g_object_class_override_property (klass, property_id_begin++, "watchdog"); g_object_class_override_property (klass, property_id_begin++, "poll-interval"); return property_id_begin - 1; } /** * Watchdog: * * Abstract interface type for the D-Bus interface org.openbmc.Watchdog. */ /** * WatchdogIface: * @parent_iface: The parent interface. * @handle_poke: Handler for the #Watchdog::handle-poke signal. * @handle_set: Handler for the #Watchdog::handle-set signal. * @handle_start: Handler for the #Watchdog::handle-start signal. * @handle_stop: Handler for the #Watchdog::handle-stop signal. * @get_poll_interval: Getter for the #Watchdog:poll-interval property. * @get_watchdog: Getter for the #Watchdog:watchdog property. * @watchdog_error: Handler for the #Watchdog::watchdog-error signal. * * Virtual table for the D-Bus interface org.openbmc.Watchdog. */ typedef WatchdogIface WatchdogInterface; G_DEFINE_INTERFACE (Watchdog, watchdog, G_TYPE_OBJECT); static void watchdog_default_init (WatchdogIface *iface) { /* GObject signals for incoming D-Bus method calls: */ /** * Watchdog::handle-start: * @object: A #Watchdog. * @invocation: A #GDBusMethodInvocation. * * Signal emitted when a remote caller is invoking the start() D-Bus method. * * If a signal handler returns %TRUE, it means the signal handler will handle the invocation (e.g. take a reference to @invocation and eventually call watchdog_complete_start() or e.g. g_dbus_method_invocation_return_error() on it) and no order signal handlers will run. If no signal handler handles the invocation, the %G_DBUS_ERROR_UNKNOWN_METHOD error is returned. * * Returns: %TRUE if the invocation was handled, %FALSE to let other signal handlers run. */ g_signal_new ("handle-start", G_TYPE_FROM_INTERFACE (iface), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (WatchdogIface, handle_start), g_signal_accumulator_true_handled, NULL, g_cclosure_marshal_generic, G_TYPE_BOOLEAN, 1, G_TYPE_DBUS_METHOD_INVOCATION); /** * Watchdog::handle-poke: * @object: A #Watchdog. * @invocation: A #GDBusMethodInvocation. * * Signal emitted when a remote caller is invoking the poke() D-Bus method. * * If a signal handler returns %TRUE, it means the signal handler will handle the invocation (e.g. take a reference to @invocation and eventually call watchdog_complete_poke() or e.g. g_dbus_method_invocation_return_error() on it) and no order signal handlers will run. If no signal handler handles the invocation, the %G_DBUS_ERROR_UNKNOWN_METHOD error is returned. * * Returns: %TRUE if the invocation was handled, %FALSE to let other signal handlers run. */ g_signal_new ("handle-poke", G_TYPE_FROM_INTERFACE (iface), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (WatchdogIface, handle_poke), g_signal_accumulator_true_handled, NULL, g_cclosure_marshal_generic, G_TYPE_BOOLEAN, 1, G_TYPE_DBUS_METHOD_INVOCATION); /** * Watchdog::handle-stop: * @object: A #Watchdog. * @invocation: A #GDBusMethodInvocation. * * Signal emitted when a remote caller is invoking the stop() D-Bus method. * * If a signal handler returns %TRUE, it means the signal handler will handle the invocation (e.g. take a reference to @invocation and eventually call watchdog_complete_stop() or e.g. g_dbus_method_invocation_return_error() on it) and no order signal handlers will run. If no signal handler handles the invocation, the %G_DBUS_ERROR_UNKNOWN_METHOD error is returned. * * Returns: %TRUE if the invocation was handled, %FALSE to let other signal handlers run. */ g_signal_new ("handle-stop", G_TYPE_FROM_INTERFACE (iface), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (WatchdogIface, handle_stop), g_signal_accumulator_true_handled, NULL, g_cclosure_marshal_generic, G_TYPE_BOOLEAN, 1, G_TYPE_DBUS_METHOD_INVOCATION); /** * Watchdog::handle-set: * @object: A #Watchdog. * @invocation: A #GDBusMethodInvocation. * @arg_interval: Argument passed by remote caller. * * Signal emitted when a remote caller is invoking the set() D-Bus method. * * If a signal handler returns %TRUE, it means the signal handler will handle the invocation (e.g. take a reference to @invocation and eventually call watchdog_complete_set() or e.g. g_dbus_method_invocation_return_error() on it) and no order signal handlers will run. If no signal handler handles the invocation, the %G_DBUS_ERROR_UNKNOWN_METHOD error is returned. * * Returns: %TRUE if the invocation was handled, %FALSE to let other signal handlers run. */ g_signal_new ("handle-set", G_TYPE_FROM_INTERFACE (iface), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (WatchdogIface, handle_set), g_signal_accumulator_true_handled, NULL, g_cclosure_marshal_generic, G_TYPE_BOOLEAN, 2, G_TYPE_DBUS_METHOD_INVOCATION, G_TYPE_INT); /* GObject signals for received D-Bus signals: */ /** * Watchdog::watchdog-error: * @object: A #Watchdog. * * On the client-side, this signal is emitted whenever the D-Bus signal "WatchdogError" is received. * * On the service-side, this signal can be used with e.g. g_signal_emit_by_name() to make the object emit the D-Bus signal. */ g_signal_new ("watchdog-error", G_TYPE_FROM_INTERFACE (iface), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (WatchdogIface, watchdog_error), NULL, NULL, g_cclosure_marshal_generic, G_TYPE_NONE, 0); /* GObject properties for D-Bus properties: */ /** * Watchdog:watchdog: * * Represents the D-Bus property "watchdog". * * Since the D-Bus property for this #GObject property is both readable and writable, it is meaningful to both read from it and write to it on both the service- and client-side. */ g_object_interface_install_property (iface, g_param_spec_int ("watchdog", "watchdog", "watchdog", G_MININT32, G_MAXINT32, 0, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS)); /** * Watchdog:poll-interval: * * Represents the D-Bus property "poll_interval". * * Since the D-Bus property for this #GObject property is both readable and writable, it is meaningful to both read from it and write to it on both the service- and client-side. */ g_object_interface_install_property (iface, g_param_spec_int ("poll-interval", "poll_interval", "poll_interval", G_MININT32, G_MAXINT32, 0, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS)); } /** * watchdog_get_watchdog: (skip) * @object: A #Watchdog. * * Gets the value of the "watchdog" D-Bus property. * * Since this D-Bus property is both readable and writable, it is meaningful to use this function on both the client- and service-side. * * Returns: The property value. */ gint watchdog_get_watchdog (Watchdog *object) { return WATCHDOG_GET_IFACE (object)->get_watchdog (object); } /** * watchdog_set_watchdog: (skip) * @object: A #Watchdog. * @value: The value to set. * * Sets the "watchdog" D-Bus property to @value. * * Since this D-Bus property is both readable and writable, it is meaningful to use this function on both the client- and service-side. */ void watchdog_set_watchdog (Watchdog *object, gint value) { g_object_set (G_OBJECT (object), "watchdog", value, NULL); } /** * watchdog_get_poll_interval: (skip) * @object: A #Watchdog. * * Gets the value of the "poll_interval" D-Bus property. * * Since this D-Bus property is both readable and writable, it is meaningful to use this function on both the client- and service-side. * * Returns: The property value. */ gint watchdog_get_poll_interval (Watchdog *object) { return WATCHDOG_GET_IFACE (object)->get_poll_interval (object); } /** * watchdog_set_poll_interval: (skip) * @object: A #Watchdog. * @value: The value to set. * * Sets the "poll_interval" D-Bus property to @value. * * Since this D-Bus property is both readable and writable, it is meaningful to use this function on both the client- and service-side. */ void watchdog_set_poll_interval (Watchdog *object, gint value) { g_object_set (G_OBJECT (object), "poll-interval", value, NULL); } /** * watchdog_emit_watchdog_error: * @object: A #Watchdog. * * Emits the "WatchdogError" D-Bus signal. */ void watchdog_emit_watchdog_error ( Watchdog *object) { g_signal_emit_by_name (object, "watchdog-error"); } /** * watchdog_call_start: * @proxy: A #WatchdogProxy. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied or %NULL. * @user_data: User data to pass to @callback. * * Asynchronously invokes the start() D-Bus method on @proxy. * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call watchdog_call_start_finish() to get the result of the operation. * * See watchdog_call_start_sync() for the synchronous, blocking version of this method. */ void watchdog_call_start ( Watchdog *proxy, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_dbus_proxy_call (G_DBUS_PROXY (proxy), "start", g_variant_new ("()"), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, callback, user_data); } /** * watchdog_call_start_finish: * @proxy: A #WatchdogProxy. * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to watchdog_call_start(). * @error: Return location for error or %NULL. * * Finishes an operation started with watchdog_call_start(). * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean watchdog_call_start_finish ( Watchdog *proxy, GAsyncResult *res, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_finish (G_DBUS_PROXY (proxy), res, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "()"); g_variant_unref (_ret); _out: return _ret != NULL; } /** * watchdog_call_start_sync: * @proxy: A #WatchdogProxy. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL. * * Synchronously invokes the start() D-Bus method on @proxy. The calling thread is blocked until a reply is received. * * See watchdog_call_start() for the asynchronous version of this method. * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean watchdog_call_start_sync ( Watchdog *proxy, GCancellable *cancellable, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_sync (G_DBUS_PROXY (proxy), "start", g_variant_new ("()"), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "()"); g_variant_unref (_ret); _out: return _ret != NULL; } /** * watchdog_call_poke: * @proxy: A #WatchdogProxy. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied or %NULL. * @user_data: User data to pass to @callback. * * Asynchronously invokes the poke() D-Bus method on @proxy. * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call watchdog_call_poke_finish() to get the result of the operation. * * See watchdog_call_poke_sync() for the synchronous, blocking version of this method. */ void watchdog_call_poke ( Watchdog *proxy, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_dbus_proxy_call (G_DBUS_PROXY (proxy), "poke", g_variant_new ("()"), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, callback, user_data); } /** * watchdog_call_poke_finish: * @proxy: A #WatchdogProxy. * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to watchdog_call_poke(). * @error: Return location for error or %NULL. * * Finishes an operation started with watchdog_call_poke(). * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean watchdog_call_poke_finish ( Watchdog *proxy, GAsyncResult *res, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_finish (G_DBUS_PROXY (proxy), res, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "()"); g_variant_unref (_ret); _out: return _ret != NULL; } /** * watchdog_call_poke_sync: * @proxy: A #WatchdogProxy. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL. * * Synchronously invokes the poke() D-Bus method on @proxy. The calling thread is blocked until a reply is received. * * See watchdog_call_poke() for the asynchronous version of this method. * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean watchdog_call_poke_sync ( Watchdog *proxy, GCancellable *cancellable, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_sync (G_DBUS_PROXY (proxy), "poke", g_variant_new ("()"), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "()"); g_variant_unref (_ret); _out: return _ret != NULL; } /** * watchdog_call_stop: * @proxy: A #WatchdogProxy. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied or %NULL. * @user_data: User data to pass to @callback. * * Asynchronously invokes the stop() D-Bus method on @proxy. * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call watchdog_call_stop_finish() to get the result of the operation. * * See watchdog_call_stop_sync() for the synchronous, blocking version of this method. */ void watchdog_call_stop ( Watchdog *proxy, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_dbus_proxy_call (G_DBUS_PROXY (proxy), "stop", g_variant_new ("()"), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, callback, user_data); } /** * watchdog_call_stop_finish: * @proxy: A #WatchdogProxy. * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to watchdog_call_stop(). * @error: Return location for error or %NULL. * * Finishes an operation started with watchdog_call_stop(). * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean watchdog_call_stop_finish ( Watchdog *proxy, GAsyncResult *res, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_finish (G_DBUS_PROXY (proxy), res, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "()"); g_variant_unref (_ret); _out: return _ret != NULL; } /** * watchdog_call_stop_sync: * @proxy: A #WatchdogProxy. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL. * * Synchronously invokes the stop() D-Bus method on @proxy. The calling thread is blocked until a reply is received. * * See watchdog_call_stop() for the asynchronous version of this method. * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean watchdog_call_stop_sync ( Watchdog *proxy, GCancellable *cancellable, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_sync (G_DBUS_PROXY (proxy), "stop", g_variant_new ("()"), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "()"); g_variant_unref (_ret); _out: return _ret != NULL; } /** * watchdog_call_set: * @proxy: A #WatchdogProxy. * @arg_interval: Argument to pass with the method invocation. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied or %NULL. * @user_data: User data to pass to @callback. * * Asynchronously invokes the set() D-Bus method on @proxy. * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call watchdog_call_set_finish() to get the result of the operation. * * See watchdog_call_set_sync() for the synchronous, blocking version of this method. */ void watchdog_call_set ( Watchdog *proxy, gint arg_interval, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_dbus_proxy_call (G_DBUS_PROXY (proxy), "set", g_variant_new ("(i)", arg_interval), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, callback, user_data); } /** * watchdog_call_set_finish: * @proxy: A #WatchdogProxy. * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to watchdog_call_set(). * @error: Return location for error or %NULL. * * Finishes an operation started with watchdog_call_set(). * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean watchdog_call_set_finish ( Watchdog *proxy, GAsyncResult *res, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_finish (G_DBUS_PROXY (proxy), res, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "()"); g_variant_unref (_ret); _out: return _ret != NULL; } /** * watchdog_call_set_sync: * @proxy: A #WatchdogProxy. * @arg_interval: Argument to pass with the method invocation. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL. * * Synchronously invokes the set() D-Bus method on @proxy. The calling thread is blocked until a reply is received. * * See watchdog_call_set() for the asynchronous version of this method. * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean watchdog_call_set_sync ( Watchdog *proxy, gint arg_interval, GCancellable *cancellable, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_sync (G_DBUS_PROXY (proxy), "set", g_variant_new ("(i)", arg_interval), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "()"); g_variant_unref (_ret); _out: return _ret != NULL; } /** * watchdog_complete_start: * @object: A #Watchdog. * @invocation: (transfer full): A #GDBusMethodInvocation. * * Helper function used in service implementations to finish handling invocations of the start() D-Bus method. If you instead want to finish handling an invocation by returning an error, use g_dbus_method_invocation_return_error() or similar. * * This method will free @invocation, you cannot use it afterwards. */ void watchdog_complete_start ( Watchdog *object, GDBusMethodInvocation *invocation) { g_dbus_method_invocation_return_value (invocation, g_variant_new ("()")); } /** * watchdog_complete_poke: * @object: A #Watchdog. * @invocation: (transfer full): A #GDBusMethodInvocation. * * Helper function used in service implementations to finish handling invocations of the poke() D-Bus method. If you instead want to finish handling an invocation by returning an error, use g_dbus_method_invocation_return_error() or similar. * * This method will free @invocation, you cannot use it afterwards. */ void watchdog_complete_poke ( Watchdog *object, GDBusMethodInvocation *invocation) { g_dbus_method_invocation_return_value (invocation, g_variant_new ("()")); } /** * watchdog_complete_stop: * @object: A #Watchdog. * @invocation: (transfer full): A #GDBusMethodInvocation. * * Helper function used in service implementations to finish handling invocations of the stop() D-Bus method. If you instead want to finish handling an invocation by returning an error, use g_dbus_method_invocation_return_error() or similar. * * This method will free @invocation, you cannot use it afterwards. */ void watchdog_complete_stop ( Watchdog *object, GDBusMethodInvocation *invocation) { g_dbus_method_invocation_return_value (invocation, g_variant_new ("()")); } /** * watchdog_complete_set: * @object: A #Watchdog. * @invocation: (transfer full): A #GDBusMethodInvocation. * * Helper function used in service implementations to finish handling invocations of the set() D-Bus method. If you instead want to finish handling an invocation by returning an error, use g_dbus_method_invocation_return_error() or similar. * * This method will free @invocation, you cannot use it afterwards. */ void watchdog_complete_set ( Watchdog *object, GDBusMethodInvocation *invocation) { g_dbus_method_invocation_return_value (invocation, g_variant_new ("()")); } /* ------------------------------------------------------------------------ */ /** * WatchdogProxy: * * The #WatchdogProxy structure contains only private data and should only be accessed using the provided API. */ /** * WatchdogProxyClass: * @parent_class: The parent class. * * Class structure for #WatchdogProxy. */ struct _WatchdogProxyPrivate { GData *qdata; }; static void watchdog_proxy_iface_init (WatchdogIface *iface); #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 G_DEFINE_TYPE_WITH_CODE (WatchdogProxy, watchdog_proxy, G_TYPE_DBUS_PROXY, G_ADD_PRIVATE (WatchdogProxy) G_IMPLEMENT_INTERFACE (TYPE_WATCHDOG, watchdog_proxy_iface_init)); #else G_DEFINE_TYPE_WITH_CODE (WatchdogProxy, watchdog_proxy, G_TYPE_DBUS_PROXY, G_IMPLEMENT_INTERFACE (TYPE_WATCHDOG, watchdog_proxy_iface_init)); #endif static void watchdog_proxy_finalize (GObject *object) { WatchdogProxy *proxy = WATCHDOG_PROXY (object); g_datalist_clear (&proxy->priv->qdata); G_OBJECT_CLASS (watchdog_proxy_parent_class)->finalize (object); } static void watchdog_proxy_get_property (GObject *object, guint prop_id, GValue *value, GParamSpec *pspec G_GNUC_UNUSED) { const _ExtendedGDBusPropertyInfo *info; GVariant *variant; g_assert (prop_id != 0 && prop_id - 1 < 2); info = _watchdog_property_info_pointers[prop_id - 1]; variant = g_dbus_proxy_get_cached_property (G_DBUS_PROXY (object), info->parent_struct.name); if (info->use_gvariant) { g_value_set_variant (value, variant); } else { if (variant != NULL) g_dbus_gvariant_to_gvalue (variant, value); } if (variant != NULL) g_variant_unref (variant); } static void watchdog_proxy_set_property_cb (GDBusProxy *proxy, GAsyncResult *res, gpointer user_data) { const _ExtendedGDBusPropertyInfo *info = user_data; GError *error; GVariant *_ret; error = NULL; _ret = g_dbus_proxy_call_finish (proxy, res, &error); if (!_ret) { g_warning ("Error setting property '%s' on interface org.openbmc.Watchdog: %s (%s, %d)", info->parent_struct.name, error->message, g_quark_to_string (error->domain), error->code); g_error_free (error); } else { g_variant_unref (_ret); } } static void watchdog_proxy_set_property (GObject *object, guint prop_id, const GValue *value, GParamSpec *pspec G_GNUC_UNUSED) { const _ExtendedGDBusPropertyInfo *info; GVariant *variant; g_assert (prop_id != 0 && prop_id - 1 < 2); info = _watchdog_property_info_pointers[prop_id - 1]; variant = g_dbus_gvalue_to_gvariant (value, G_VARIANT_TYPE (info->parent_struct.signature)); g_dbus_proxy_call (G_DBUS_PROXY (object), "org.freedesktop.DBus.Properties.Set", g_variant_new ("(ssv)", "org.openbmc.Watchdog", info->parent_struct.name, variant), G_DBUS_CALL_FLAGS_NONE, -1, NULL, (GAsyncReadyCallback) watchdog_proxy_set_property_cb, (GDBusPropertyInfo *) &info->parent_struct); g_variant_unref (variant); } static void watchdog_proxy_g_signal (GDBusProxy *proxy, const gchar *sender_name G_GNUC_UNUSED, const gchar *signal_name, GVariant *parameters) { _ExtendedGDBusSignalInfo *info; GVariantIter iter; GVariant *child; GValue *paramv; guint num_params; guint n; guint signal_id; info = (_ExtendedGDBusSignalInfo *) g_dbus_interface_info_lookup_signal ((GDBusInterfaceInfo *) &_watchdog_interface_info.parent_struct, signal_name); if (info == NULL) return; num_params = g_variant_n_children (parameters); paramv = g_new0 (GValue, num_params + 1); g_value_init (¶mv[0], TYPE_WATCHDOG); g_value_set_object (¶mv[0], proxy); g_variant_iter_init (&iter, parameters); n = 1; while ((child = g_variant_iter_next_value (&iter)) != NULL) { _ExtendedGDBusArgInfo *arg_info = (_ExtendedGDBusArgInfo *) info->parent_struct.args[n - 1]; if (arg_info->use_gvariant) { g_value_init (¶mv[n], G_TYPE_VARIANT); g_value_set_variant (¶mv[n], child); n++; } else g_dbus_gvariant_to_gvalue (child, ¶mv[n++]); g_variant_unref (child); } signal_id = g_signal_lookup (info->signal_name, TYPE_WATCHDOG); g_signal_emitv (paramv, signal_id, 0, NULL); for (n = 0; n < num_params + 1; n++) g_value_unset (¶mv[n]); g_free (paramv); } static void watchdog_proxy_g_properties_changed (GDBusProxy *_proxy, GVariant *changed_properties, const gchar *const *invalidated_properties) { WatchdogProxy *proxy = WATCHDOG_PROXY (_proxy); guint n; const gchar *key; GVariantIter *iter; _ExtendedGDBusPropertyInfo *info; g_variant_get (changed_properties, "a{sv}", &iter); while (g_variant_iter_next (iter, "{&sv}", &key, NULL)) { info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_watchdog_interface_info.parent_struct, key); g_datalist_remove_data (&proxy->priv->qdata, key); if (info != NULL) g_object_notify (G_OBJECT (proxy), info->hyphen_name); } g_variant_iter_free (iter); for (n = 0; invalidated_properties[n] != NULL; n++) { info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_watchdog_interface_info.parent_struct, invalidated_properties[n]); g_datalist_remove_data (&proxy->priv->qdata, invalidated_properties[n]); if (info != NULL) g_object_notify (G_OBJECT (proxy), info->hyphen_name); } } static gint watchdog_proxy_get_watchdog (Watchdog *object) { WatchdogProxy *proxy = WATCHDOG_PROXY (object); GVariant *variant; gint value = 0; variant = g_dbus_proxy_get_cached_property (G_DBUS_PROXY (proxy), "watchdog"); if (variant != NULL) { value = g_variant_get_int32 (variant); g_variant_unref (variant); } return value; } static gint watchdog_proxy_get_poll_interval (Watchdog *object) { WatchdogProxy *proxy = WATCHDOG_PROXY (object); GVariant *variant; gint value = 0; variant = g_dbus_proxy_get_cached_property (G_DBUS_PROXY (proxy), "poll_interval"); if (variant != NULL) { value = g_variant_get_int32 (variant); g_variant_unref (variant); } return value; } static void watchdog_proxy_init (WatchdogProxy *proxy) { #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 proxy->priv = watchdog_proxy_get_instance_private (proxy); #else proxy->priv = G_TYPE_INSTANCE_GET_PRIVATE (proxy, TYPE_WATCHDOG_PROXY, WatchdogProxyPrivate); #endif g_dbus_proxy_set_interface_info (G_DBUS_PROXY (proxy), watchdog_interface_info ()); } static void watchdog_proxy_class_init (WatchdogProxyClass *klass) { GObjectClass *gobject_class; GDBusProxyClass *proxy_class; gobject_class = G_OBJECT_CLASS (klass); gobject_class->finalize = watchdog_proxy_finalize; gobject_class->get_property = watchdog_proxy_get_property; gobject_class->set_property = watchdog_proxy_set_property; proxy_class = G_DBUS_PROXY_CLASS (klass); proxy_class->g_signal = watchdog_proxy_g_signal; proxy_class->g_properties_changed = watchdog_proxy_g_properties_changed; watchdog_override_properties (gobject_class, 1); #if GLIB_VERSION_MAX_ALLOWED < GLIB_VERSION_2_38 g_type_class_add_private (klass, sizeof (WatchdogProxyPrivate)); #endif } static void watchdog_proxy_iface_init (WatchdogIface *iface) { iface->get_watchdog = watchdog_proxy_get_watchdog; iface->get_poll_interval = watchdog_proxy_get_poll_interval; } /** * watchdog_proxy_new: * @connection: A #GDBusConnection. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: (allow-none): A bus name (well-known or unique) or %NULL if @connection is not a message bus connection. * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied. * @user_data: User data to pass to @callback. * * Asynchronously creates a proxy for the D-Bus interface org.openbmc.Watchdog. See g_dbus_proxy_new() for more details. * * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call watchdog_proxy_new_finish() to get the result of the operation. * * See watchdog_proxy_new_sync() for the synchronous, blocking version of this constructor. */ void watchdog_proxy_new ( GDBusConnection *connection, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_async_initable_new_async (TYPE_WATCHDOG_PROXY, G_PRIORITY_DEFAULT, cancellable, callback, user_data, "g-flags", flags, "g-name", name, "g-connection", connection, "g-object-path", object_path, "g-interface-name", "org.openbmc.Watchdog", NULL); } /** * watchdog_proxy_new_finish: * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to watchdog_proxy_new(). * @error: Return location for error or %NULL * * Finishes an operation started with watchdog_proxy_new(). * * Returns: (transfer full) (type WatchdogProxy): The constructed proxy object or %NULL if @error is set. */ Watchdog * watchdog_proxy_new_finish ( GAsyncResult *res, GError **error) { GObject *ret; GObject *source_object; source_object = g_async_result_get_source_object (res); ret = g_async_initable_new_finish (G_ASYNC_INITABLE (source_object), res, error); g_object_unref (source_object); if (ret != NULL) return WATCHDOG (ret); else return NULL; } /** * watchdog_proxy_new_sync: * @connection: A #GDBusConnection. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: (allow-none): A bus name (well-known or unique) or %NULL if @connection is not a message bus connection. * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL * * Synchronously creates a proxy for the D-Bus interface org.openbmc.Watchdog. See g_dbus_proxy_new_sync() for more details. * * The calling thread is blocked until a reply is received. * * See watchdog_proxy_new() for the asynchronous version of this constructor. * * Returns: (transfer full) (type WatchdogProxy): The constructed proxy object or %NULL if @error is set. */ Watchdog * watchdog_proxy_new_sync ( GDBusConnection *connection, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GError **error) { GInitable *ret; ret = g_initable_new (TYPE_WATCHDOG_PROXY, cancellable, error, "g-flags", flags, "g-name", name, "g-connection", connection, "g-object-path", object_path, "g-interface-name", "org.openbmc.Watchdog", NULL); if (ret != NULL) return WATCHDOG (ret); else return NULL; } /** * watchdog_proxy_new_for_bus: * @bus_type: A #GBusType. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: A bus name (well-known or unique). * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied. * @user_data: User data to pass to @callback. * * Like watchdog_proxy_new() but takes a #GBusType instead of a #GDBusConnection. * * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call watchdog_proxy_new_for_bus_finish() to get the result of the operation. * * See watchdog_proxy_new_for_bus_sync() for the synchronous, blocking version of this constructor. */ void watchdog_proxy_new_for_bus ( GBusType bus_type, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_async_initable_new_async (TYPE_WATCHDOG_PROXY, G_PRIORITY_DEFAULT, cancellable, callback, user_data, "g-flags", flags, "g-name", name, "g-bus-type", bus_type, "g-object-path", object_path, "g-interface-name", "org.openbmc.Watchdog", NULL); } /** * watchdog_proxy_new_for_bus_finish: * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to watchdog_proxy_new_for_bus(). * @error: Return location for error or %NULL * * Finishes an operation started with watchdog_proxy_new_for_bus(). * * Returns: (transfer full) (type WatchdogProxy): The constructed proxy object or %NULL if @error is set. */ Watchdog * watchdog_proxy_new_for_bus_finish ( GAsyncResult *res, GError **error) { GObject *ret; GObject *source_object; source_object = g_async_result_get_source_object (res); ret = g_async_initable_new_finish (G_ASYNC_INITABLE (source_object), res, error); g_object_unref (source_object); if (ret != NULL) return WATCHDOG (ret); else return NULL; } /** * watchdog_proxy_new_for_bus_sync: * @bus_type: A #GBusType. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: A bus name (well-known or unique). * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL * * Like watchdog_proxy_new_sync() but takes a #GBusType instead of a #GDBusConnection. * * The calling thread is blocked until a reply is received. * * See watchdog_proxy_new_for_bus() for the asynchronous version of this constructor. * * Returns: (transfer full) (type WatchdogProxy): The constructed proxy object or %NULL if @error is set. */ Watchdog * watchdog_proxy_new_for_bus_sync ( GBusType bus_type, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GError **error) { GInitable *ret; ret = g_initable_new (TYPE_WATCHDOG_PROXY, cancellable, error, "g-flags", flags, "g-name", name, "g-bus-type", bus_type, "g-object-path", object_path, "g-interface-name", "org.openbmc.Watchdog", NULL); if (ret != NULL) return WATCHDOG (ret); else return NULL; } /* ------------------------------------------------------------------------ */ /** * WatchdogSkeleton: * * The #WatchdogSkeleton structure contains only private data and should only be accessed using the provided API. */ /** * WatchdogSkeletonClass: * @parent_class: The parent class. * * Class structure for #WatchdogSkeleton. */ struct _WatchdogSkeletonPrivate { GValue *properties; GList *changed_properties; GSource *changed_properties_idle_source; GMainContext *context; GMutex lock; }; static void _watchdog_skeleton_handle_method_call ( GDBusConnection *connection G_GNUC_UNUSED, const gchar *sender G_GNUC_UNUSED, const gchar *object_path G_GNUC_UNUSED, const gchar *interface_name, const gchar *method_name, GVariant *parameters, GDBusMethodInvocation *invocation, gpointer user_data) { WatchdogSkeleton *skeleton = WATCHDOG_SKELETON (user_data); _ExtendedGDBusMethodInfo *info; GVariantIter iter; GVariant *child; GValue *paramv; guint num_params; guint num_extra; guint n; guint signal_id; GValue return_value = G_VALUE_INIT; info = (_ExtendedGDBusMethodInfo *) g_dbus_method_invocation_get_method_info (invocation); g_assert (info != NULL); num_params = g_variant_n_children (parameters); num_extra = info->pass_fdlist ? 3 : 2; paramv = g_new0 (GValue, num_params + num_extra); n = 0; g_value_init (¶mv[n], TYPE_WATCHDOG); g_value_set_object (¶mv[n++], skeleton); g_value_init (¶mv[n], G_TYPE_DBUS_METHOD_INVOCATION); g_value_set_object (¶mv[n++], invocation); if (info->pass_fdlist) { #ifdef G_OS_UNIX g_value_init (¶mv[n], G_TYPE_UNIX_FD_LIST); g_value_set_object (¶mv[n++], g_dbus_message_get_unix_fd_list (g_dbus_method_invocation_get_message (invocation))); #else g_assert_not_reached (); #endif } g_variant_iter_init (&iter, parameters); while ((child = g_variant_iter_next_value (&iter)) != NULL) { _ExtendedGDBusArgInfo *arg_info = (_ExtendedGDBusArgInfo *) info->parent_struct.in_args[n - num_extra]; if (arg_info->use_gvariant) { g_value_init (¶mv[n], G_TYPE_VARIANT); g_value_set_variant (¶mv[n], child); n++; } else g_dbus_gvariant_to_gvalue (child, ¶mv[n++]); g_variant_unref (child); } signal_id = g_signal_lookup (info->signal_name, TYPE_WATCHDOG); g_value_init (&return_value, G_TYPE_BOOLEAN); g_signal_emitv (paramv, signal_id, 0, &return_value); if (!g_value_get_boolean (&return_value)) g_dbus_method_invocation_return_error (invocation, G_DBUS_ERROR, G_DBUS_ERROR_UNKNOWN_METHOD, "Method %s is not implemented on interface %s", method_name, interface_name); g_value_unset (&return_value); for (n = 0; n < num_params + num_extra; n++) g_value_unset (¶mv[n]); g_free (paramv); } static GVariant * _watchdog_skeleton_handle_get_property ( GDBusConnection *connection G_GNUC_UNUSED, const gchar *sender G_GNUC_UNUSED, const gchar *object_path G_GNUC_UNUSED, const gchar *interface_name G_GNUC_UNUSED, const gchar *property_name, GError **error, gpointer user_data) { WatchdogSkeleton *skeleton = WATCHDOG_SKELETON (user_data); GValue value = G_VALUE_INIT; GParamSpec *pspec; _ExtendedGDBusPropertyInfo *info; GVariant *ret; ret = NULL; info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_watchdog_interface_info.parent_struct, property_name); g_assert (info != NULL); pspec = g_object_class_find_property (G_OBJECT_GET_CLASS (skeleton), info->hyphen_name); if (pspec == NULL) { g_set_error (error, G_DBUS_ERROR, G_DBUS_ERROR_INVALID_ARGS, "No property with name %s", property_name); } else { g_value_init (&value, pspec->value_type); g_object_get_property (G_OBJECT (skeleton), info->hyphen_name, &value); ret = g_dbus_gvalue_to_gvariant (&value, G_VARIANT_TYPE (info->parent_struct.signature)); g_value_unset (&value); } return ret; } static gboolean _watchdog_skeleton_handle_set_property ( GDBusConnection *connection G_GNUC_UNUSED, const gchar *sender G_GNUC_UNUSED, const gchar *object_path G_GNUC_UNUSED, const gchar *interface_name G_GNUC_UNUSED, const gchar *property_name, GVariant *variant, GError **error, gpointer user_data) { WatchdogSkeleton *skeleton = WATCHDOG_SKELETON (user_data); GValue value = G_VALUE_INIT; GParamSpec *pspec; _ExtendedGDBusPropertyInfo *info; gboolean ret; ret = FALSE; info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_watchdog_interface_info.parent_struct, property_name); g_assert (info != NULL); pspec = g_object_class_find_property (G_OBJECT_GET_CLASS (skeleton), info->hyphen_name); if (pspec == NULL) { g_set_error (error, G_DBUS_ERROR, G_DBUS_ERROR_INVALID_ARGS, "No property with name %s", property_name); } else { if (info->use_gvariant) g_value_set_variant (&value, variant); else g_dbus_gvariant_to_gvalue (variant, &value); g_object_set_property (G_OBJECT (skeleton), info->hyphen_name, &value); g_value_unset (&value); ret = TRUE; } return ret; } static const GDBusInterfaceVTable _watchdog_skeleton_vtable = { _watchdog_skeleton_handle_method_call, _watchdog_skeleton_handle_get_property, _watchdog_skeleton_handle_set_property, {NULL} }; static GDBusInterfaceInfo * watchdog_skeleton_dbus_interface_get_info (GDBusInterfaceSkeleton *skeleton G_GNUC_UNUSED) { return watchdog_interface_info (); } static GDBusInterfaceVTable * watchdog_skeleton_dbus_interface_get_vtable (GDBusInterfaceSkeleton *skeleton G_GNUC_UNUSED) { return (GDBusInterfaceVTable *) &_watchdog_skeleton_vtable; } static GVariant * watchdog_skeleton_dbus_interface_get_properties (GDBusInterfaceSkeleton *_skeleton) { WatchdogSkeleton *skeleton = WATCHDOG_SKELETON (_skeleton); GVariantBuilder builder; guint n; g_variant_builder_init (&builder, G_VARIANT_TYPE ("a{sv}")); if (_watchdog_interface_info.parent_struct.properties == NULL) goto out; for (n = 0; _watchdog_interface_info.parent_struct.properties[n] != NULL; n++) { GDBusPropertyInfo *info = _watchdog_interface_info.parent_struct.properties[n]; if (info->flags & G_DBUS_PROPERTY_INFO_FLAGS_READABLE) { GVariant *value; value = _watchdog_skeleton_handle_get_property (g_dbus_interface_skeleton_get_connection (G_DBUS_INTERFACE_SKELETON (skeleton)), NULL, g_dbus_interface_skeleton_get_object_path (G_DBUS_INTERFACE_SKELETON (skeleton)), "org.openbmc.Watchdog", info->name, NULL, skeleton); if (value != NULL) { g_variant_take_ref (value); g_variant_builder_add (&builder, "{sv}", info->name, value); g_variant_unref (value); } } } out: return g_variant_builder_end (&builder); } static gboolean _watchdog_emit_changed (gpointer user_data); static void watchdog_skeleton_dbus_interface_flush (GDBusInterfaceSkeleton *_skeleton) { WatchdogSkeleton *skeleton = WATCHDOG_SKELETON (_skeleton); gboolean emit_changed = FALSE; g_mutex_lock (&skeleton->priv->lock); if (skeleton->priv->changed_properties_idle_source != NULL) { g_source_destroy (skeleton->priv->changed_properties_idle_source); skeleton->priv->changed_properties_idle_source = NULL; emit_changed = TRUE; } g_mutex_unlock (&skeleton->priv->lock); if (emit_changed) _watchdog_emit_changed (skeleton); } static void _watchdog_on_signal_watchdog_error ( Watchdog *object) { WatchdogSkeleton *skeleton = WATCHDOG_SKELETON (object); GList *connections, *l; GVariant *signal_variant; connections = g_dbus_interface_skeleton_get_connections (G_DBUS_INTERFACE_SKELETON (skeleton)); signal_variant = g_variant_ref_sink (g_variant_new ("()")); for (l = connections; l != NULL; l = l->next) { GDBusConnection *connection = l->data; g_dbus_connection_emit_signal (connection, NULL, g_dbus_interface_skeleton_get_object_path (G_DBUS_INTERFACE_SKELETON (skeleton)), "org.openbmc.Watchdog", "WatchdogError", signal_variant, NULL); } g_variant_unref (signal_variant); g_list_free_full (connections, g_object_unref); } static void watchdog_skeleton_iface_init (WatchdogIface *iface); #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 G_DEFINE_TYPE_WITH_CODE (WatchdogSkeleton, watchdog_skeleton, G_TYPE_DBUS_INTERFACE_SKELETON, G_ADD_PRIVATE (WatchdogSkeleton) G_IMPLEMENT_INTERFACE (TYPE_WATCHDOG, watchdog_skeleton_iface_init)); #else G_DEFINE_TYPE_WITH_CODE (WatchdogSkeleton, watchdog_skeleton, G_TYPE_DBUS_INTERFACE_SKELETON, G_IMPLEMENT_INTERFACE (TYPE_WATCHDOG, watchdog_skeleton_iface_init)); #endif static void watchdog_skeleton_finalize (GObject *object) { WatchdogSkeleton *skeleton = WATCHDOG_SKELETON (object); guint n; for (n = 0; n < 2; n++) g_value_unset (&skeleton->priv->properties[n]); g_free (skeleton->priv->properties); g_list_free_full (skeleton->priv->changed_properties, (GDestroyNotify) _changed_property_free); if (skeleton->priv->changed_properties_idle_source != NULL) g_source_destroy (skeleton->priv->changed_properties_idle_source); g_main_context_unref (skeleton->priv->context); g_mutex_clear (&skeleton->priv->lock); G_OBJECT_CLASS (watchdog_skeleton_parent_class)->finalize (object); } static void watchdog_skeleton_get_property (GObject *object, guint prop_id, GValue *value, GParamSpec *pspec G_GNUC_UNUSED) { WatchdogSkeleton *skeleton = WATCHDOG_SKELETON (object); g_assert (prop_id != 0 && prop_id - 1 < 2); g_mutex_lock (&skeleton->priv->lock); g_value_copy (&skeleton->priv->properties[prop_id - 1], value); g_mutex_unlock (&skeleton->priv->lock); } static gboolean _watchdog_emit_changed (gpointer user_data) { WatchdogSkeleton *skeleton = WATCHDOG_SKELETON (user_data); GList *l; GVariantBuilder builder; GVariantBuilder invalidated_builder; guint num_changes; g_mutex_lock (&skeleton->priv->lock); g_variant_builder_init (&builder, G_VARIANT_TYPE ("a{sv}")); g_variant_builder_init (&invalidated_builder, G_VARIANT_TYPE ("as")); for (l = skeleton->priv->changed_properties, num_changes = 0; l != NULL; l = l->next) { ChangedProperty *cp = l->data; GVariant *variant; const GValue *cur_value; cur_value = &skeleton->priv->properties[cp->prop_id - 1]; if (!_g_value_equal (cur_value, &cp->orig_value)) { variant = g_dbus_gvalue_to_gvariant (cur_value, G_VARIANT_TYPE (cp->info->parent_struct.signature)); g_variant_builder_add (&builder, "{sv}", cp->info->parent_struct.name, variant); g_variant_unref (variant); num_changes++; } } if (num_changes > 0) { GList *connections, *ll; GVariant *signal_variant; signal_variant = g_variant_ref_sink (g_variant_new ("(sa{sv}as)", "org.openbmc.Watchdog", &builder, &invalidated_builder)); connections = g_dbus_interface_skeleton_get_connections (G_DBUS_INTERFACE_SKELETON (skeleton)); for (ll = connections; ll != NULL; ll = ll->next) { GDBusConnection *connection = ll->data; g_dbus_connection_emit_signal (connection, NULL, g_dbus_interface_skeleton_get_object_path (G_DBUS_INTERFACE_SKELETON (skeleton)), "org.freedesktop.DBus.Properties", "PropertiesChanged", signal_variant, NULL); } g_variant_unref (signal_variant); g_list_free_full (connections, g_object_unref); } else { g_variant_builder_clear (&builder); g_variant_builder_clear (&invalidated_builder); } g_list_free_full (skeleton->priv->changed_properties, (GDestroyNotify) _changed_property_free); skeleton->priv->changed_properties = NULL; skeleton->priv->changed_properties_idle_source = NULL; g_mutex_unlock (&skeleton->priv->lock); return FALSE; } static void _watchdog_schedule_emit_changed (WatchdogSkeleton *skeleton, const _ExtendedGDBusPropertyInfo *info, guint prop_id, const GValue *orig_value) { ChangedProperty *cp; GList *l; cp = NULL; for (l = skeleton->priv->changed_properties; l != NULL; l = l->next) { ChangedProperty *i_cp = l->data; if (i_cp->info == info) { cp = i_cp; break; } } if (cp == NULL) { cp = g_new0 (ChangedProperty, 1); cp->prop_id = prop_id; cp->info = info; skeleton->priv->changed_properties = g_list_prepend (skeleton->priv->changed_properties, cp); g_value_init (&cp->orig_value, G_VALUE_TYPE (orig_value)); g_value_copy (orig_value, &cp->orig_value); } } static void watchdog_skeleton_notify (GObject *object, GParamSpec *pspec G_GNUC_UNUSED) { WatchdogSkeleton *skeleton = WATCHDOG_SKELETON (object); g_mutex_lock (&skeleton->priv->lock); if (skeleton->priv->changed_properties != NULL && skeleton->priv->changed_properties_idle_source == NULL) { skeleton->priv->changed_properties_idle_source = g_idle_source_new (); g_source_set_priority (skeleton->priv->changed_properties_idle_source, G_PRIORITY_DEFAULT); g_source_set_callback (skeleton->priv->changed_properties_idle_source, _watchdog_emit_changed, g_object_ref (skeleton), (GDestroyNotify) g_object_unref); g_source_set_name (skeleton->priv->changed_properties_idle_source, "[generated] _watchdog_emit_changed"); g_source_attach (skeleton->priv->changed_properties_idle_source, skeleton->priv->context); g_source_unref (skeleton->priv->changed_properties_idle_source); } g_mutex_unlock (&skeleton->priv->lock); } static void watchdog_skeleton_set_property (GObject *object, guint prop_id, const GValue *value, GParamSpec *pspec) { WatchdogSkeleton *skeleton = WATCHDOG_SKELETON (object); g_assert (prop_id != 0 && prop_id - 1 < 2); g_mutex_lock (&skeleton->priv->lock); g_object_freeze_notify (object); if (!_g_value_equal (value, &skeleton->priv->properties[prop_id - 1])) { if (g_dbus_interface_skeleton_get_connection (G_DBUS_INTERFACE_SKELETON (skeleton)) != NULL) _watchdog_schedule_emit_changed (skeleton, _watchdog_property_info_pointers[prop_id - 1], prop_id, &skeleton->priv->properties[prop_id - 1]); g_value_copy (value, &skeleton->priv->properties[prop_id - 1]); g_object_notify_by_pspec (object, pspec); } g_mutex_unlock (&skeleton->priv->lock); g_object_thaw_notify (object); } static void watchdog_skeleton_init (WatchdogSkeleton *skeleton) { #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 skeleton->priv = watchdog_skeleton_get_instance_private (skeleton); #else skeleton->priv = G_TYPE_INSTANCE_GET_PRIVATE (skeleton, TYPE_WATCHDOG_SKELETON, WatchdogSkeletonPrivate); #endif g_mutex_init (&skeleton->priv->lock); skeleton->priv->context = g_main_context_ref_thread_default (); skeleton->priv->properties = g_new0 (GValue, 2); g_value_init (&skeleton->priv->properties[0], G_TYPE_INT); g_value_init (&skeleton->priv->properties[1], G_TYPE_INT); } static gint watchdog_skeleton_get_watchdog (Watchdog *object) { WatchdogSkeleton *skeleton = WATCHDOG_SKELETON (object); gint value; g_mutex_lock (&skeleton->priv->lock); value = g_value_get_int (&(skeleton->priv->properties[0])); g_mutex_unlock (&skeleton->priv->lock); return value; } static gint watchdog_skeleton_get_poll_interval (Watchdog *object) { WatchdogSkeleton *skeleton = WATCHDOG_SKELETON (object); gint value; g_mutex_lock (&skeleton->priv->lock); value = g_value_get_int (&(skeleton->priv->properties[1])); g_mutex_unlock (&skeleton->priv->lock); return value; } static void watchdog_skeleton_class_init (WatchdogSkeletonClass *klass) { GObjectClass *gobject_class; GDBusInterfaceSkeletonClass *skeleton_class; gobject_class = G_OBJECT_CLASS (klass); gobject_class->finalize = watchdog_skeleton_finalize; gobject_class->get_property = watchdog_skeleton_get_property; gobject_class->set_property = watchdog_skeleton_set_property; gobject_class->notify = watchdog_skeleton_notify; watchdog_override_properties (gobject_class, 1); skeleton_class = G_DBUS_INTERFACE_SKELETON_CLASS (klass); skeleton_class->get_info = watchdog_skeleton_dbus_interface_get_info; skeleton_class->get_properties = watchdog_skeleton_dbus_interface_get_properties; skeleton_class->flush = watchdog_skeleton_dbus_interface_flush; skeleton_class->get_vtable = watchdog_skeleton_dbus_interface_get_vtable; #if GLIB_VERSION_MAX_ALLOWED < GLIB_VERSION_2_38 g_type_class_add_private (klass, sizeof (WatchdogSkeletonPrivate)); #endif } static void watchdog_skeleton_iface_init (WatchdogIface *iface) { iface->watchdog_error = _watchdog_on_signal_watchdog_error; iface->get_watchdog = watchdog_skeleton_get_watchdog; iface->get_poll_interval = watchdog_skeleton_get_poll_interval; } /** * watchdog_skeleton_new: * * Creates a skeleton object for the D-Bus interface org.openbmc.Watchdog. * * Returns: (transfer full) (type WatchdogSkeleton): The skeleton object. */ Watchdog * watchdog_skeleton_new (void) { return WATCHDOG (g_object_new (TYPE_WATCHDOG_SKELETON, NULL)); } /* ------------------------------------------------------------------------ * Code for interface org.openbmc.EventLog * ------------------------------------------------------------------------ */ /** * SECTION:EventLog * @title: EventLog * @short_description: Generated C code for the org.openbmc.EventLog D-Bus interface * * This section contains code for working with the org.openbmc.EventLog D-Bus interface in C. */ /* ---- Introspection data for org.openbmc.EventLog ---- */ static const _ExtendedGDBusArgInfo _event_log_method_info_get_event_log_OUT_ARG_log = { { -1, (gchar *) "log", (gchar *) "a(s)", NULL }, FALSE }; static const _ExtendedGDBusArgInfo * const _event_log_method_info_get_event_log_OUT_ARG_pointers[] = { &_event_log_method_info_get_event_log_OUT_ARG_log, NULL }; static const _ExtendedGDBusMethodInfo _event_log_method_info_get_event_log = { { -1, (gchar *) "getEventLog", NULL, (GDBusArgInfo **) &_event_log_method_info_get_event_log_OUT_ARG_pointers, NULL }, "handle-get-event-log", FALSE }; static const _ExtendedGDBusMethodInfo * const _event_log_method_info_pointers[] = { &_event_log_method_info_get_event_log, NULL }; static const _ExtendedGDBusArgInfo _event_log_signal_info_event_log_ARG_priority = { { -1, (gchar *) "priority", (gchar *) "i", NULL }, FALSE }; static const _ExtendedGDBusArgInfo _event_log_signal_info_event_log_ARG_message = { { -1, (gchar *) "message", (gchar *) "s", NULL }, FALSE }; static const _ExtendedGDBusArgInfo _event_log_signal_info_event_log_ARG_rc = { { -1, (gchar *) "rc", (gchar *) "i", NULL }, FALSE }; static const _ExtendedGDBusArgInfo * const _event_log_signal_info_event_log_ARG_pointers[] = { &_event_log_signal_info_event_log_ARG_priority, &_event_log_signal_info_event_log_ARG_message, &_event_log_signal_info_event_log_ARG_rc, NULL }; static const _ExtendedGDBusSignalInfo _event_log_signal_info_event_log = { { -1, (gchar *) "EventLog", (GDBusArgInfo **) &_event_log_signal_info_event_log_ARG_pointers, NULL }, "event-log" }; static const _ExtendedGDBusSignalInfo * const _event_log_signal_info_pointers[] = { &_event_log_signal_info_event_log, NULL }; static const _ExtendedGDBusInterfaceInfo _event_log_interface_info = { { -1, (gchar *) "org.openbmc.EventLog", (GDBusMethodInfo **) &_event_log_method_info_pointers, (GDBusSignalInfo **) &_event_log_signal_info_pointers, NULL, NULL }, "event-log", }; /** * event_log_interface_info: * * Gets a machine-readable description of the org.openbmc.EventLog D-Bus interface. * * Returns: (transfer none): A #GDBusInterfaceInfo. Do not free. */ GDBusInterfaceInfo * event_log_interface_info (void) { return (GDBusInterfaceInfo *) &_event_log_interface_info.parent_struct; } /** * event_log_override_properties: * @klass: The class structure for a #GObject-derived class. * @property_id_begin: The property id to assign to the first overridden property. * * Overrides all #GObject properties in the #EventLog interface for a concrete class. * The properties are overridden in the order they are defined. * * Returns: The last property id. */ guint event_log_override_properties (GObjectClass *klass, guint property_id_begin) { return property_id_begin - 1; } /** * EventLog: * * Abstract interface type for the D-Bus interface org.openbmc.EventLog. */ /** * EventLogIface: * @parent_iface: The parent interface. * @handle_get_event_log: Handler for the #EventLog::handle-get-event-log signal. * @event_log: Handler for the #EventLog::event-log signal. * * Virtual table for the D-Bus interface org.openbmc.EventLog. */ typedef EventLogIface EventLogInterface; G_DEFINE_INTERFACE (EventLog, event_log, G_TYPE_OBJECT); static void event_log_default_init (EventLogIface *iface) { /* GObject signals for incoming D-Bus method calls: */ /** * EventLog::handle-get-event-log: * @object: A #EventLog. * @invocation: A #GDBusMethodInvocation. * * Signal emitted when a remote caller is invoking the getEventLog() D-Bus method. * * If a signal handler returns %TRUE, it means the signal handler will handle the invocation (e.g. take a reference to @invocation and eventually call event_log_complete_get_event_log() or e.g. g_dbus_method_invocation_return_error() on it) and no order signal handlers will run. If no signal handler handles the invocation, the %G_DBUS_ERROR_UNKNOWN_METHOD error is returned. * * Returns: %TRUE if the invocation was handled, %FALSE to let other signal handlers run. */ g_signal_new ("handle-get-event-log", G_TYPE_FROM_INTERFACE (iface), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (EventLogIface, handle_get_event_log), g_signal_accumulator_true_handled, NULL, g_cclosure_marshal_generic, G_TYPE_BOOLEAN, 1, G_TYPE_DBUS_METHOD_INVOCATION); /* GObject signals for received D-Bus signals: */ /** * EventLog::event-log: * @object: A #EventLog. * @arg_priority: Argument. * @arg_message: Argument. * @arg_rc: Argument. * * On the client-side, this signal is emitted whenever the D-Bus signal "EventLog" is received. * * On the service-side, this signal can be used with e.g. g_signal_emit_by_name() to make the object emit the D-Bus signal. */ g_signal_new ("event-log", G_TYPE_FROM_INTERFACE (iface), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (EventLogIface, event_log), NULL, NULL, g_cclosure_marshal_generic, G_TYPE_NONE, 3, G_TYPE_INT, G_TYPE_STRING, G_TYPE_INT); } /** * event_log_emit_event_log: * @object: A #EventLog. * @arg_priority: Argument to pass with the signal. * @arg_message: Argument to pass with the signal. * @arg_rc: Argument to pass with the signal. * * Emits the "EventLog" D-Bus signal. */ void event_log_emit_event_log ( EventLog *object, gint arg_priority, const gchar *arg_message, gint arg_rc) { g_signal_emit_by_name (object, "event-log", arg_priority, arg_message, arg_rc); } /** * event_log_call_get_event_log: * @proxy: A #EventLogProxy. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied or %NULL. * @user_data: User data to pass to @callback. * * Asynchronously invokes the getEventLog() D-Bus method on @proxy. * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call event_log_call_get_event_log_finish() to get the result of the operation. * * See event_log_call_get_event_log_sync() for the synchronous, blocking version of this method. */ void event_log_call_get_event_log ( EventLog *proxy, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_dbus_proxy_call (G_DBUS_PROXY (proxy), "getEventLog", g_variant_new ("()"), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, callback, user_data); } /** * event_log_call_get_event_log_finish: * @proxy: A #EventLogProxy. * @out_log: (out): Return location for return parameter or %NULL to ignore. * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to event_log_call_get_event_log(). * @error: Return location for error or %NULL. * * Finishes an operation started with event_log_call_get_event_log(). * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean event_log_call_get_event_log_finish ( EventLog *proxy, GVariant **out_log, GAsyncResult *res, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_finish (G_DBUS_PROXY (proxy), res, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "(@a(s))", out_log); g_variant_unref (_ret); _out: return _ret != NULL; } /** * event_log_call_get_event_log_sync: * @proxy: A #EventLogProxy. * @out_log: (out): Return location for return parameter or %NULL to ignore. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL. * * Synchronously invokes the getEventLog() D-Bus method on @proxy. The calling thread is blocked until a reply is received. * * See event_log_call_get_event_log() for the asynchronous version of this method. * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean event_log_call_get_event_log_sync ( EventLog *proxy, GVariant **out_log, GCancellable *cancellable, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_sync (G_DBUS_PROXY (proxy), "getEventLog", g_variant_new ("()"), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "(@a(s))", out_log); g_variant_unref (_ret); _out: return _ret != NULL; } /** * event_log_complete_get_event_log: * @object: A #EventLog. * @invocation: (transfer full): A #GDBusMethodInvocation. * @log: Parameter to return. * * Helper function used in service implementations to finish handling invocations of the getEventLog() D-Bus method. If you instead want to finish handling an invocation by returning an error, use g_dbus_method_invocation_return_error() or similar. * * This method will free @invocation, you cannot use it afterwards. */ void event_log_complete_get_event_log ( EventLog *object, GDBusMethodInvocation *invocation, GVariant *log) { g_dbus_method_invocation_return_value (invocation, g_variant_new ("(@a(s))", log)); } /* ------------------------------------------------------------------------ */ /** * EventLogProxy: * * The #EventLogProxy structure contains only private data and should only be accessed using the provided API. */ /** * EventLogProxyClass: * @parent_class: The parent class. * * Class structure for #EventLogProxy. */ struct _EventLogProxyPrivate { GData *qdata; }; static void event_log_proxy_iface_init (EventLogIface *iface); #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 G_DEFINE_TYPE_WITH_CODE (EventLogProxy, event_log_proxy, G_TYPE_DBUS_PROXY, G_ADD_PRIVATE (EventLogProxy) G_IMPLEMENT_INTERFACE (TYPE_EVENT_LOG, event_log_proxy_iface_init)); #else G_DEFINE_TYPE_WITH_CODE (EventLogProxy, event_log_proxy, G_TYPE_DBUS_PROXY, G_IMPLEMENT_INTERFACE (TYPE_EVENT_LOG, event_log_proxy_iface_init)); #endif static void event_log_proxy_finalize (GObject *object) { EventLogProxy *proxy = EVENT_LOG_PROXY (object); g_datalist_clear (&proxy->priv->qdata); G_OBJECT_CLASS (event_log_proxy_parent_class)->finalize (object); } static void event_log_proxy_get_property (GObject *object, guint prop_id, GValue *value, GParamSpec *pspec G_GNUC_UNUSED) { } static void event_log_proxy_set_property (GObject *object, guint prop_id, const GValue *value, GParamSpec *pspec G_GNUC_UNUSED) { } static void event_log_proxy_g_signal (GDBusProxy *proxy, const gchar *sender_name G_GNUC_UNUSED, const gchar *signal_name, GVariant *parameters) { _ExtendedGDBusSignalInfo *info; GVariantIter iter; GVariant *child; GValue *paramv; guint num_params; guint n; guint signal_id; info = (_ExtendedGDBusSignalInfo *) g_dbus_interface_info_lookup_signal ((GDBusInterfaceInfo *) &_event_log_interface_info.parent_struct, signal_name); if (info == NULL) return; num_params = g_variant_n_children (parameters); paramv = g_new0 (GValue, num_params + 1); g_value_init (¶mv[0], TYPE_EVENT_LOG); g_value_set_object (¶mv[0], proxy); g_variant_iter_init (&iter, parameters); n = 1; while ((child = g_variant_iter_next_value (&iter)) != NULL) { _ExtendedGDBusArgInfo *arg_info = (_ExtendedGDBusArgInfo *) info->parent_struct.args[n - 1]; if (arg_info->use_gvariant) { g_value_init (¶mv[n], G_TYPE_VARIANT); g_value_set_variant (¶mv[n], child); n++; } else g_dbus_gvariant_to_gvalue (child, ¶mv[n++]); g_variant_unref (child); } signal_id = g_signal_lookup (info->signal_name, TYPE_EVENT_LOG); g_signal_emitv (paramv, signal_id, 0, NULL); for (n = 0; n < num_params + 1; n++) g_value_unset (¶mv[n]); g_free (paramv); } static void event_log_proxy_g_properties_changed (GDBusProxy *_proxy, GVariant *changed_properties, const gchar *const *invalidated_properties) { EventLogProxy *proxy = EVENT_LOG_PROXY (_proxy); guint n; const gchar *key; GVariantIter *iter; _ExtendedGDBusPropertyInfo *info; g_variant_get (changed_properties, "a{sv}", &iter); while (g_variant_iter_next (iter, "{&sv}", &key, NULL)) { info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_event_log_interface_info.parent_struct, key); g_datalist_remove_data (&proxy->priv->qdata, key); if (info != NULL) g_object_notify (G_OBJECT (proxy), info->hyphen_name); } g_variant_iter_free (iter); for (n = 0; invalidated_properties[n] != NULL; n++) { info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_event_log_interface_info.parent_struct, invalidated_properties[n]); g_datalist_remove_data (&proxy->priv->qdata, invalidated_properties[n]); if (info != NULL) g_object_notify (G_OBJECT (proxy), info->hyphen_name); } } static void event_log_proxy_init (EventLogProxy *proxy) { #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 proxy->priv = event_log_proxy_get_instance_private (proxy); #else proxy->priv = G_TYPE_INSTANCE_GET_PRIVATE (proxy, TYPE_EVENT_LOG_PROXY, EventLogProxyPrivate); #endif g_dbus_proxy_set_interface_info (G_DBUS_PROXY (proxy), event_log_interface_info ()); } static void event_log_proxy_class_init (EventLogProxyClass *klass) { GObjectClass *gobject_class; GDBusProxyClass *proxy_class; gobject_class = G_OBJECT_CLASS (klass); gobject_class->finalize = event_log_proxy_finalize; gobject_class->get_property = event_log_proxy_get_property; gobject_class->set_property = event_log_proxy_set_property; proxy_class = G_DBUS_PROXY_CLASS (klass); proxy_class->g_signal = event_log_proxy_g_signal; proxy_class->g_properties_changed = event_log_proxy_g_properties_changed; #if GLIB_VERSION_MAX_ALLOWED < GLIB_VERSION_2_38 g_type_class_add_private (klass, sizeof (EventLogProxyPrivate)); #endif } static void event_log_proxy_iface_init (EventLogIface *iface) { } /** * event_log_proxy_new: * @connection: A #GDBusConnection. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: (allow-none): A bus name (well-known or unique) or %NULL if @connection is not a message bus connection. * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied. * @user_data: User data to pass to @callback. * * Asynchronously creates a proxy for the D-Bus interface org.openbmc.EventLog. See g_dbus_proxy_new() for more details. * * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call event_log_proxy_new_finish() to get the result of the operation. * * See event_log_proxy_new_sync() for the synchronous, blocking version of this constructor. */ void event_log_proxy_new ( GDBusConnection *connection, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_async_initable_new_async (TYPE_EVENT_LOG_PROXY, G_PRIORITY_DEFAULT, cancellable, callback, user_data, "g-flags", flags, "g-name", name, "g-connection", connection, "g-object-path", object_path, "g-interface-name", "org.openbmc.EventLog", NULL); } /** * event_log_proxy_new_finish: * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to event_log_proxy_new(). * @error: Return location for error or %NULL * * Finishes an operation started with event_log_proxy_new(). * * Returns: (transfer full) (type EventLogProxy): The constructed proxy object or %NULL if @error is set. */ EventLog * event_log_proxy_new_finish ( GAsyncResult *res, GError **error) { GObject *ret; GObject *source_object; source_object = g_async_result_get_source_object (res); ret = g_async_initable_new_finish (G_ASYNC_INITABLE (source_object), res, error); g_object_unref (source_object); if (ret != NULL) return EVENT_LOG (ret); else return NULL; } /** * event_log_proxy_new_sync: * @connection: A #GDBusConnection. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: (allow-none): A bus name (well-known or unique) or %NULL if @connection is not a message bus connection. * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL * * Synchronously creates a proxy for the D-Bus interface org.openbmc.EventLog. See g_dbus_proxy_new_sync() for more details. * * The calling thread is blocked until a reply is received. * * See event_log_proxy_new() for the asynchronous version of this constructor. * * Returns: (transfer full) (type EventLogProxy): The constructed proxy object or %NULL if @error is set. */ EventLog * event_log_proxy_new_sync ( GDBusConnection *connection, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GError **error) { GInitable *ret; ret = g_initable_new (TYPE_EVENT_LOG_PROXY, cancellable, error, "g-flags", flags, "g-name", name, "g-connection", connection, "g-object-path", object_path, "g-interface-name", "org.openbmc.EventLog", NULL); if (ret != NULL) return EVENT_LOG (ret); else return NULL; } /** * event_log_proxy_new_for_bus: * @bus_type: A #GBusType. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: A bus name (well-known or unique). * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied. * @user_data: User data to pass to @callback. * * Like event_log_proxy_new() but takes a #GBusType instead of a #GDBusConnection. * * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call event_log_proxy_new_for_bus_finish() to get the result of the operation. * * See event_log_proxy_new_for_bus_sync() for the synchronous, blocking version of this constructor. */ void event_log_proxy_new_for_bus ( GBusType bus_type, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_async_initable_new_async (TYPE_EVENT_LOG_PROXY, G_PRIORITY_DEFAULT, cancellable, callback, user_data, "g-flags", flags, "g-name", name, "g-bus-type", bus_type, "g-object-path", object_path, "g-interface-name", "org.openbmc.EventLog", NULL); } /** * event_log_proxy_new_for_bus_finish: * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to event_log_proxy_new_for_bus(). * @error: Return location for error or %NULL * * Finishes an operation started with event_log_proxy_new_for_bus(). * * Returns: (transfer full) (type EventLogProxy): The constructed proxy object or %NULL if @error is set. */ EventLog * event_log_proxy_new_for_bus_finish ( GAsyncResult *res, GError **error) { GObject *ret; GObject *source_object; source_object = g_async_result_get_source_object (res); ret = g_async_initable_new_finish (G_ASYNC_INITABLE (source_object), res, error); g_object_unref (source_object); if (ret != NULL) return EVENT_LOG (ret); else return NULL; } /** * event_log_proxy_new_for_bus_sync: * @bus_type: A #GBusType. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: A bus name (well-known or unique). * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL * * Like event_log_proxy_new_sync() but takes a #GBusType instead of a #GDBusConnection. * * The calling thread is blocked until a reply is received. * * See event_log_proxy_new_for_bus() for the asynchronous version of this constructor. * * Returns: (transfer full) (type EventLogProxy): The constructed proxy object or %NULL if @error is set. */ EventLog * event_log_proxy_new_for_bus_sync ( GBusType bus_type, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GError **error) { GInitable *ret; ret = g_initable_new (TYPE_EVENT_LOG_PROXY, cancellable, error, "g-flags", flags, "g-name", name, "g-bus-type", bus_type, "g-object-path", object_path, "g-interface-name", "org.openbmc.EventLog", NULL); if (ret != NULL) return EVENT_LOG (ret); else return NULL; } /* ------------------------------------------------------------------------ */ /** * EventLogSkeleton: * * The #EventLogSkeleton structure contains only private data and should only be accessed using the provided API. */ /** * EventLogSkeletonClass: * @parent_class: The parent class. * * Class structure for #EventLogSkeleton. */ struct _EventLogSkeletonPrivate { GValue *properties; GList *changed_properties; GSource *changed_properties_idle_source; GMainContext *context; GMutex lock; }; static void _event_log_skeleton_handle_method_call ( GDBusConnection *connection G_GNUC_UNUSED, const gchar *sender G_GNUC_UNUSED, const gchar *object_path G_GNUC_UNUSED, const gchar *interface_name, const gchar *method_name, GVariant *parameters, GDBusMethodInvocation *invocation, gpointer user_data) { EventLogSkeleton *skeleton = EVENT_LOG_SKELETON (user_data); _ExtendedGDBusMethodInfo *info; GVariantIter iter; GVariant *child; GValue *paramv; guint num_params; guint num_extra; guint n; guint signal_id; GValue return_value = G_VALUE_INIT; info = (_ExtendedGDBusMethodInfo *) g_dbus_method_invocation_get_method_info (invocation); g_assert (info != NULL); num_params = g_variant_n_children (parameters); num_extra = info->pass_fdlist ? 3 : 2; paramv = g_new0 (GValue, num_params + num_extra); n = 0; g_value_init (¶mv[n], TYPE_EVENT_LOG); g_value_set_object (¶mv[n++], skeleton); g_value_init (¶mv[n], G_TYPE_DBUS_METHOD_INVOCATION); g_value_set_object (¶mv[n++], invocation); if (info->pass_fdlist) { #ifdef G_OS_UNIX g_value_init (¶mv[n], G_TYPE_UNIX_FD_LIST); g_value_set_object (¶mv[n++], g_dbus_message_get_unix_fd_list (g_dbus_method_invocation_get_message (invocation))); #else g_assert_not_reached (); #endif } g_variant_iter_init (&iter, parameters); while ((child = g_variant_iter_next_value (&iter)) != NULL) { _ExtendedGDBusArgInfo *arg_info = (_ExtendedGDBusArgInfo *) info->parent_struct.in_args[n - num_extra]; if (arg_info->use_gvariant) { g_value_init (¶mv[n], G_TYPE_VARIANT); g_value_set_variant (¶mv[n], child); n++; } else g_dbus_gvariant_to_gvalue (child, ¶mv[n++]); g_variant_unref (child); } signal_id = g_signal_lookup (info->signal_name, TYPE_EVENT_LOG); g_value_init (&return_value, G_TYPE_BOOLEAN); g_signal_emitv (paramv, signal_id, 0, &return_value); if (!g_value_get_boolean (&return_value)) g_dbus_method_invocation_return_error (invocation, G_DBUS_ERROR, G_DBUS_ERROR_UNKNOWN_METHOD, "Method %s is not implemented on interface %s", method_name, interface_name); g_value_unset (&return_value); for (n = 0; n < num_params + num_extra; n++) g_value_unset (¶mv[n]); g_free (paramv); } static GVariant * _event_log_skeleton_handle_get_property ( GDBusConnection *connection G_GNUC_UNUSED, const gchar *sender G_GNUC_UNUSED, const gchar *object_path G_GNUC_UNUSED, const gchar *interface_name G_GNUC_UNUSED, const gchar *property_name, GError **error, gpointer user_data) { EventLogSkeleton *skeleton = EVENT_LOG_SKELETON (user_data); GValue value = G_VALUE_INIT; GParamSpec *pspec; _ExtendedGDBusPropertyInfo *info; GVariant *ret; ret = NULL; info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_event_log_interface_info.parent_struct, property_name); g_assert (info != NULL); pspec = g_object_class_find_property (G_OBJECT_GET_CLASS (skeleton), info->hyphen_name); if (pspec == NULL) { g_set_error (error, G_DBUS_ERROR, G_DBUS_ERROR_INVALID_ARGS, "No property with name %s", property_name); } else { g_value_init (&value, pspec->value_type); g_object_get_property (G_OBJECT (skeleton), info->hyphen_name, &value); ret = g_dbus_gvalue_to_gvariant (&value, G_VARIANT_TYPE (info->parent_struct.signature)); g_value_unset (&value); } return ret; } static gboolean _event_log_skeleton_handle_set_property ( GDBusConnection *connection G_GNUC_UNUSED, const gchar *sender G_GNUC_UNUSED, const gchar *object_path G_GNUC_UNUSED, const gchar *interface_name G_GNUC_UNUSED, const gchar *property_name, GVariant *variant, GError **error, gpointer user_data) { EventLogSkeleton *skeleton = EVENT_LOG_SKELETON (user_data); GValue value = G_VALUE_INIT; GParamSpec *pspec; _ExtendedGDBusPropertyInfo *info; gboolean ret; ret = FALSE; info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_event_log_interface_info.parent_struct, property_name); g_assert (info != NULL); pspec = g_object_class_find_property (G_OBJECT_GET_CLASS (skeleton), info->hyphen_name); if (pspec == NULL) { g_set_error (error, G_DBUS_ERROR, G_DBUS_ERROR_INVALID_ARGS, "No property with name %s", property_name); } else { if (info->use_gvariant) g_value_set_variant (&value, variant); else g_dbus_gvariant_to_gvalue (variant, &value); g_object_set_property (G_OBJECT (skeleton), info->hyphen_name, &value); g_value_unset (&value); ret = TRUE; } return ret; } static const GDBusInterfaceVTable _event_log_skeleton_vtable = { _event_log_skeleton_handle_method_call, _event_log_skeleton_handle_get_property, _event_log_skeleton_handle_set_property, {NULL} }; static GDBusInterfaceInfo * event_log_skeleton_dbus_interface_get_info (GDBusInterfaceSkeleton *skeleton G_GNUC_UNUSED) { return event_log_interface_info (); } static GDBusInterfaceVTable * event_log_skeleton_dbus_interface_get_vtable (GDBusInterfaceSkeleton *skeleton G_GNUC_UNUSED) { return (GDBusInterfaceVTable *) &_event_log_skeleton_vtable; } static GVariant * event_log_skeleton_dbus_interface_get_properties (GDBusInterfaceSkeleton *_skeleton) { EventLogSkeleton *skeleton = EVENT_LOG_SKELETON (_skeleton); GVariantBuilder builder; guint n; g_variant_builder_init (&builder, G_VARIANT_TYPE ("a{sv}")); if (_event_log_interface_info.parent_struct.properties == NULL) goto out; for (n = 0; _event_log_interface_info.parent_struct.properties[n] != NULL; n++) { GDBusPropertyInfo *info = _event_log_interface_info.parent_struct.properties[n]; if (info->flags & G_DBUS_PROPERTY_INFO_FLAGS_READABLE) { GVariant *value; value = _event_log_skeleton_handle_get_property (g_dbus_interface_skeleton_get_connection (G_DBUS_INTERFACE_SKELETON (skeleton)), NULL, g_dbus_interface_skeleton_get_object_path (G_DBUS_INTERFACE_SKELETON (skeleton)), "org.openbmc.EventLog", info->name, NULL, skeleton); if (value != NULL) { g_variant_take_ref (value); g_variant_builder_add (&builder, "{sv}", info->name, value); g_variant_unref (value); } } } out: return g_variant_builder_end (&builder); } static void event_log_skeleton_dbus_interface_flush (GDBusInterfaceSkeleton *_skeleton) { } static void _event_log_on_signal_event_log ( EventLog *object, gint arg_priority, const gchar *arg_message, gint arg_rc) { EventLogSkeleton *skeleton = EVENT_LOG_SKELETON (object); GList *connections, *l; GVariant *signal_variant; connections = g_dbus_interface_skeleton_get_connections (G_DBUS_INTERFACE_SKELETON (skeleton)); signal_variant = g_variant_ref_sink (g_variant_new ("(isi)", arg_priority, arg_message, arg_rc)); for (l = connections; l != NULL; l = l->next) { GDBusConnection *connection = l->data; g_dbus_connection_emit_signal (connection, NULL, g_dbus_interface_skeleton_get_object_path (G_DBUS_INTERFACE_SKELETON (skeleton)), "org.openbmc.EventLog", "EventLog", signal_variant, NULL); } g_variant_unref (signal_variant); g_list_free_full (connections, g_object_unref); } static void event_log_skeleton_iface_init (EventLogIface *iface); #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 G_DEFINE_TYPE_WITH_CODE (EventLogSkeleton, event_log_skeleton, G_TYPE_DBUS_INTERFACE_SKELETON, G_ADD_PRIVATE (EventLogSkeleton) G_IMPLEMENT_INTERFACE (TYPE_EVENT_LOG, event_log_skeleton_iface_init)); #else G_DEFINE_TYPE_WITH_CODE (EventLogSkeleton, event_log_skeleton, G_TYPE_DBUS_INTERFACE_SKELETON, G_IMPLEMENT_INTERFACE (TYPE_EVENT_LOG, event_log_skeleton_iface_init)); #endif static void event_log_skeleton_finalize (GObject *object) { EventLogSkeleton *skeleton = EVENT_LOG_SKELETON (object); g_list_free_full (skeleton->priv->changed_properties, (GDestroyNotify) _changed_property_free); if (skeleton->priv->changed_properties_idle_source != NULL) g_source_destroy (skeleton->priv->changed_properties_idle_source); g_main_context_unref (skeleton->priv->context); g_mutex_clear (&skeleton->priv->lock); G_OBJECT_CLASS (event_log_skeleton_parent_class)->finalize (object); } static void event_log_skeleton_init (EventLogSkeleton *skeleton) { #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 skeleton->priv = event_log_skeleton_get_instance_private (skeleton); #else skeleton->priv = G_TYPE_INSTANCE_GET_PRIVATE (skeleton, TYPE_EVENT_LOG_SKELETON, EventLogSkeletonPrivate); #endif g_mutex_init (&skeleton->priv->lock); skeleton->priv->context = g_main_context_ref_thread_default (); } static void event_log_skeleton_class_init (EventLogSkeletonClass *klass) { GObjectClass *gobject_class; GDBusInterfaceSkeletonClass *skeleton_class; gobject_class = G_OBJECT_CLASS (klass); gobject_class->finalize = event_log_skeleton_finalize; skeleton_class = G_DBUS_INTERFACE_SKELETON_CLASS (klass); skeleton_class->get_info = event_log_skeleton_dbus_interface_get_info; skeleton_class->get_properties = event_log_skeleton_dbus_interface_get_properties; skeleton_class->flush = event_log_skeleton_dbus_interface_flush; skeleton_class->get_vtable = event_log_skeleton_dbus_interface_get_vtable; #if GLIB_VERSION_MAX_ALLOWED < GLIB_VERSION_2_38 g_type_class_add_private (klass, sizeof (EventLogSkeletonPrivate)); #endif } static void event_log_skeleton_iface_init (EventLogIface *iface) { iface->event_log = _event_log_on_signal_event_log; } /** * event_log_skeleton_new: * * Creates a skeleton object for the D-Bus interface org.openbmc.EventLog. * * Returns: (transfer full) (type EventLogSkeleton): The skeleton object. */ EventLog * event_log_skeleton_new (void) { return EVENT_LOG (g_object_new (TYPE_EVENT_LOG_SKELETON, NULL)); } /* ------------------------------------------------------------------------ * Code for interface org.openbmc.Flash * ------------------------------------------------------------------------ */ /** * SECTION:Flash * @title: Flash * @short_description: Generated C code for the org.openbmc.Flash D-Bus interface * * This section contains code for working with the org.openbmc.Flash D-Bus interface in C. */ /* ---- Introspection data for org.openbmc.Flash ---- */ static const _ExtendedGDBusArgInfo _flash_method_info_update_IN_ARG_filename = { { -1, (gchar *) "filename", (gchar *) "s", NULL }, FALSE }; static const _ExtendedGDBusArgInfo * const _flash_method_info_update_IN_ARG_pointers[] = { &_flash_method_info_update_IN_ARG_filename, NULL }; static const _ExtendedGDBusMethodInfo _flash_method_info_update = { { -1, (gchar *) "update", (GDBusArgInfo **) &_flash_method_info_update_IN_ARG_pointers, NULL, NULL }, "handle-update", FALSE }; static const _ExtendedGDBusArgInfo _flash_method_info_error_IN_ARG_message = { { -1, (gchar *) "message", (gchar *) "s", NULL }, FALSE }; static const _ExtendedGDBusArgInfo * const _flash_method_info_error_IN_ARG_pointers[] = { &_flash_method_info_error_IN_ARG_message, NULL }; static const _ExtendedGDBusMethodInfo _flash_method_info_error = { { -1, (gchar *) "error", (GDBusArgInfo **) &_flash_method_info_error_IN_ARG_pointers, NULL, NULL }, "handle-error", FALSE }; static const _ExtendedGDBusMethodInfo _flash_method_info_done = { { -1, (gchar *) "done", NULL, NULL, NULL }, "handle-done", FALSE }; static const _ExtendedGDBusArgInfo _flash_method_info_update_via_tftp_IN_ARG_url = { { -1, (gchar *) "url", (gchar *) "s", NULL }, FALSE }; static const _ExtendedGDBusArgInfo _flash_method_info_update_via_tftp_IN_ARG_filename = { { -1, (gchar *) "filename", (gchar *) "s", NULL }, FALSE }; static const _ExtendedGDBusArgInfo * const _flash_method_info_update_via_tftp_IN_ARG_pointers[] = { &_flash_method_info_update_via_tftp_IN_ARG_url, &_flash_method_info_update_via_tftp_IN_ARG_filename, NULL }; static const _ExtendedGDBusMethodInfo _flash_method_info_update_via_tftp = { { -1, (gchar *) "updateViaTftp", (GDBusArgInfo **) &_flash_method_info_update_via_tftp_IN_ARG_pointers, NULL, NULL }, "handle-update-via-tftp", FALSE }; static const _ExtendedGDBusMethodInfo _flash_method_info_init = { { -1, (gchar *) "init", NULL, NULL, NULL }, "handle-init", FALSE }; static const _ExtendedGDBusMethodInfo * const _flash_method_info_pointers[] = { &_flash_method_info_update, &_flash_method_info_error, &_flash_method_info_done, &_flash_method_info_update_via_tftp, &_flash_method_info_init, NULL }; static const _ExtendedGDBusSignalInfo _flash_signal_info_updated = { { -1, (gchar *) "Updated", NULL, NULL }, "updated" }; static const _ExtendedGDBusArgInfo _flash_signal_info_download_ARG_url = { { -1, (gchar *) "url", (gchar *) "s", NULL }, FALSE }; static const _ExtendedGDBusArgInfo _flash_signal_info_download_ARG_filename = { { -1, (gchar *) "filename", (gchar *) "s", NULL }, FALSE }; static const _ExtendedGDBusArgInfo * const _flash_signal_info_download_ARG_pointers[] = { &_flash_signal_info_download_ARG_url, &_flash_signal_info_download_ARG_filename, NULL }; static const _ExtendedGDBusSignalInfo _flash_signal_info_download = { { -1, (gchar *) "Download", (GDBusArgInfo **) &_flash_signal_info_download_ARG_pointers, NULL }, "download" }; static const _ExtendedGDBusSignalInfo * const _flash_signal_info_pointers[] = { &_flash_signal_info_updated, &_flash_signal_info_download, NULL }; static const _ExtendedGDBusPropertyInfo _flash_property_info_filename = { { -1, (gchar *) "filename", (gchar *) "s", G_DBUS_PROPERTY_INFO_FLAGS_READABLE, NULL }, "filename", FALSE }; static const _ExtendedGDBusPropertyInfo _flash_property_info_flasher_path = { { -1, (gchar *) "flasher_path", (gchar *) "s", G_DBUS_PROPERTY_INFO_FLAGS_READABLE, NULL }, "flasher-path", FALSE }; static const _ExtendedGDBusPropertyInfo _flash_property_info_flasher_name = { { -1, (gchar *) "flasher_name", (gchar *) "s", G_DBUS_PROPERTY_INFO_FLAGS_READABLE, NULL }, "flasher-name", FALSE }; static const _ExtendedGDBusPropertyInfo _flash_property_info_flasher_instance = { { -1, (gchar *) "flasher_instance", (gchar *) "s", G_DBUS_PROPERTY_INFO_FLAGS_READABLE, NULL }, "flasher-instance", FALSE }; static const _ExtendedGDBusPropertyInfo _flash_property_info_status = { { -1, (gchar *) "status", (gchar *) "s", G_DBUS_PROPERTY_INFO_FLAGS_READABLE, NULL }, "status", FALSE }; static const _ExtendedGDBusPropertyInfo * const _flash_property_info_pointers[] = { &_flash_property_info_filename, &_flash_property_info_flasher_path, &_flash_property_info_flasher_name, &_flash_property_info_flasher_instance, &_flash_property_info_status, NULL }; static const _ExtendedGDBusInterfaceInfo _flash_interface_info = { { -1, (gchar *) "org.openbmc.Flash", (GDBusMethodInfo **) &_flash_method_info_pointers, (GDBusSignalInfo **) &_flash_signal_info_pointers, (GDBusPropertyInfo **) &_flash_property_info_pointers, NULL }, "flash", }; /** * flash_interface_info: * * Gets a machine-readable description of the org.openbmc.Flash D-Bus interface. * * Returns: (transfer none): A #GDBusInterfaceInfo. Do not free. */ GDBusInterfaceInfo * flash_interface_info (void) { return (GDBusInterfaceInfo *) &_flash_interface_info.parent_struct; } /** * flash_override_properties: * @klass: The class structure for a #GObject-derived class. * @property_id_begin: The property id to assign to the first overridden property. * * Overrides all #GObject properties in the #Flash interface for a concrete class. * The properties are overridden in the order they are defined. * * Returns: The last property id. */ guint flash_override_properties (GObjectClass *klass, guint property_id_begin) { g_object_class_override_property (klass, property_id_begin++, "filename"); g_object_class_override_property (klass, property_id_begin++, "flasher-path"); g_object_class_override_property (klass, property_id_begin++, "flasher-name"); g_object_class_override_property (klass, property_id_begin++, "flasher-instance"); g_object_class_override_property (klass, property_id_begin++, "status"); return property_id_begin - 1; } /** * Flash: * * Abstract interface type for the D-Bus interface org.openbmc.Flash. */ /** * FlashIface: * @parent_iface: The parent interface. * @handle_done: Handler for the #Flash::handle-done signal. * @handle_error: Handler for the #Flash::handle-error signal. * @handle_init: Handler for the #Flash::handle-init signal. * @handle_update: Handler for the #Flash::handle-update signal. * @handle_update_via_tftp: Handler for the #Flash::handle-update-via-tftp signal. * @get_filename: Getter for the #Flash:filename property. * @get_flasher_instance: Getter for the #Flash:flasher-instance property. * @get_flasher_name: Getter for the #Flash:flasher-name property. * @get_flasher_path: Getter for the #Flash:flasher-path property. * @get_status: Getter for the #Flash:status property. * @download: Handler for the #Flash::download signal. * @updated: Handler for the #Flash::updated signal. * * Virtual table for the D-Bus interface org.openbmc.Flash. */ typedef FlashIface FlashInterface; G_DEFINE_INTERFACE (Flash, flash, G_TYPE_OBJECT); static void flash_default_init (FlashIface *iface) { /* GObject signals for incoming D-Bus method calls: */ /** * Flash::handle-update: * @object: A #Flash. * @invocation: A #GDBusMethodInvocation. * @arg_filename: Argument passed by remote caller. * * Signal emitted when a remote caller is invoking the update() D-Bus method. * * If a signal handler returns %TRUE, it means the signal handler will handle the invocation (e.g. take a reference to @invocation and eventually call flash_complete_update() or e.g. g_dbus_method_invocation_return_error() on it) and no order signal handlers will run. If no signal handler handles the invocation, the %G_DBUS_ERROR_UNKNOWN_METHOD error is returned. * * Returns: %TRUE if the invocation was handled, %FALSE to let other signal handlers run. */ g_signal_new ("handle-update", G_TYPE_FROM_INTERFACE (iface), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (FlashIface, handle_update), g_signal_accumulator_true_handled, NULL, g_cclosure_marshal_generic, G_TYPE_BOOLEAN, 2, G_TYPE_DBUS_METHOD_INVOCATION, G_TYPE_STRING); /** * Flash::handle-error: * @object: A #Flash. * @invocation: A #GDBusMethodInvocation. * @arg_message: Argument passed by remote caller. * * Signal emitted when a remote caller is invoking the error() D-Bus method. * * If a signal handler returns %TRUE, it means the signal handler will handle the invocation (e.g. take a reference to @invocation and eventually call flash_complete_error() or e.g. g_dbus_method_invocation_return_error() on it) and no order signal handlers will run. If no signal handler handles the invocation, the %G_DBUS_ERROR_UNKNOWN_METHOD error is returned. * * Returns: %TRUE if the invocation was handled, %FALSE to let other signal handlers run. */ g_signal_new ("handle-error", G_TYPE_FROM_INTERFACE (iface), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (FlashIface, handle_error), g_signal_accumulator_true_handled, NULL, g_cclosure_marshal_generic, G_TYPE_BOOLEAN, 2, G_TYPE_DBUS_METHOD_INVOCATION, G_TYPE_STRING); /** * Flash::handle-done: * @object: A #Flash. * @invocation: A #GDBusMethodInvocation. * * Signal emitted when a remote caller is invoking the done() D-Bus method. * * If a signal handler returns %TRUE, it means the signal handler will handle the invocation (e.g. take a reference to @invocation and eventually call flash_complete_done() or e.g. g_dbus_method_invocation_return_error() on it) and no order signal handlers will run. If no signal handler handles the invocation, the %G_DBUS_ERROR_UNKNOWN_METHOD error is returned. * * Returns: %TRUE if the invocation was handled, %FALSE to let other signal handlers run. */ g_signal_new ("handle-done", G_TYPE_FROM_INTERFACE (iface), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (FlashIface, handle_done), g_signal_accumulator_true_handled, NULL, g_cclosure_marshal_generic, G_TYPE_BOOLEAN, 1, G_TYPE_DBUS_METHOD_INVOCATION); /** * Flash::handle-update-via-tftp: * @object: A #Flash. * @invocation: A #GDBusMethodInvocation. * @arg_url: Argument passed by remote caller. * @arg_filename: Argument passed by remote caller. * * Signal emitted when a remote caller is invoking the updateViaTftp() D-Bus method. * * If a signal handler returns %TRUE, it means the signal handler will handle the invocation (e.g. take a reference to @invocation and eventually call flash_complete_update_via_tftp() or e.g. g_dbus_method_invocation_return_error() on it) and no order signal handlers will run. If no signal handler handles the invocation, the %G_DBUS_ERROR_UNKNOWN_METHOD error is returned. * * Returns: %TRUE if the invocation was handled, %FALSE to let other signal handlers run. */ g_signal_new ("handle-update-via-tftp", G_TYPE_FROM_INTERFACE (iface), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (FlashIface, handle_update_via_tftp), g_signal_accumulator_true_handled, NULL, g_cclosure_marshal_generic, G_TYPE_BOOLEAN, 3, G_TYPE_DBUS_METHOD_INVOCATION, G_TYPE_STRING, G_TYPE_STRING); /** * Flash::handle-init: * @object: A #Flash. * @invocation: A #GDBusMethodInvocation. * * Signal emitted when a remote caller is invoking the init() D-Bus method. * * If a signal handler returns %TRUE, it means the signal handler will handle the invocation (e.g. take a reference to @invocation and eventually call flash_complete_init() or e.g. g_dbus_method_invocation_return_error() on it) and no order signal handlers will run. If no signal handler handles the invocation, the %G_DBUS_ERROR_UNKNOWN_METHOD error is returned. * * Returns: %TRUE if the invocation was handled, %FALSE to let other signal handlers run. */ g_signal_new ("handle-init", G_TYPE_FROM_INTERFACE (iface), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (FlashIface, handle_init), g_signal_accumulator_true_handled, NULL, g_cclosure_marshal_generic, G_TYPE_BOOLEAN, 1, G_TYPE_DBUS_METHOD_INVOCATION); /* GObject signals for received D-Bus signals: */ /** * Flash::updated: * @object: A #Flash. * * On the client-side, this signal is emitted whenever the D-Bus signal "Updated" is received. * * On the service-side, this signal can be used with e.g. g_signal_emit_by_name() to make the object emit the D-Bus signal. */ g_signal_new ("updated", G_TYPE_FROM_INTERFACE (iface), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (FlashIface, updated), NULL, NULL, g_cclosure_marshal_generic, G_TYPE_NONE, 0); /** * Flash::download: * @object: A #Flash. * @arg_url: Argument. * @arg_filename: Argument. * * On the client-side, this signal is emitted whenever the D-Bus signal "Download" is received. * * On the service-side, this signal can be used with e.g. g_signal_emit_by_name() to make the object emit the D-Bus signal. */ g_signal_new ("download", G_TYPE_FROM_INTERFACE (iface), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (FlashIface, download), NULL, NULL, g_cclosure_marshal_generic, G_TYPE_NONE, 2, G_TYPE_STRING, G_TYPE_STRING); /* GObject properties for D-Bus properties: */ /** * Flash:filename: * * Represents the D-Bus property "filename". * * Since the D-Bus property for this #GObject property is readable but not writable, it is meaningful to read from it on both the client- and service-side. It is only meaningful, however, to write to it on the service-side. */ g_object_interface_install_property (iface, g_param_spec_string ("filename", "filename", "filename", NULL, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS)); /** * Flash:flasher-path: * * Represents the D-Bus property "flasher_path". * * Since the D-Bus property for this #GObject property is readable but not writable, it is meaningful to read from it on both the client- and service-side. It is only meaningful, however, to write to it on the service-side. */ g_object_interface_install_property (iface, g_param_spec_string ("flasher-path", "flasher_path", "flasher_path", NULL, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS)); /** * Flash:flasher-name: * * Represents the D-Bus property "flasher_name". * * Since the D-Bus property for this #GObject property is readable but not writable, it is meaningful to read from it on both the client- and service-side. It is only meaningful, however, to write to it on the service-side. */ g_object_interface_install_property (iface, g_param_spec_string ("flasher-name", "flasher_name", "flasher_name", NULL, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS)); /** * Flash:flasher-instance: * * Represents the D-Bus property "flasher_instance". * * Since the D-Bus property for this #GObject property is readable but not writable, it is meaningful to read from it on both the client- and service-side. It is only meaningful, however, to write to it on the service-side. */ g_object_interface_install_property (iface, g_param_spec_string ("flasher-instance", "flasher_instance", "flasher_instance", NULL, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS)); /** * Flash:status: * * Represents the D-Bus property "status". * * Since the D-Bus property for this #GObject property is readable but not writable, it is meaningful to read from it on both the client- and service-side. It is only meaningful, however, to write to it on the service-side. */ g_object_interface_install_property (iface, g_param_spec_string ("status", "status", "status", NULL, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS)); } /** * flash_get_filename: (skip) * @object: A #Flash. * * Gets the value of the "filename" D-Bus property. * * Since this D-Bus property is readable, it is meaningful to use this function on both the client- and service-side. * * The returned value is only valid until the property changes so on the client-side it is only safe to use this function on the thread where @object was constructed. Use flash_dup_filename() if on another thread. * * Returns: (transfer none): The property value or %NULL if the property is not set. Do not free the returned value, it belongs to @object. */ const gchar * flash_get_filename (Flash *object) { return FLASH_GET_IFACE (object)->get_filename (object); } /** * flash_dup_filename: (skip) * @object: A #Flash. * * Gets a copy of the "filename" D-Bus property. * * Since this D-Bus property is readable, it is meaningful to use this function on both the client- and service-side. * * Returns: (transfer full): The property value or %NULL if the property is not set. The returned value should be freed with g_free(). */ gchar * flash_dup_filename (Flash *object) { gchar *value; g_object_get (G_OBJECT (object), "filename", &value, NULL); return value; } /** * flash_set_filename: (skip) * @object: A #Flash. * @value: The value to set. * * Sets the "filename" D-Bus property to @value. * * Since this D-Bus property is not writable, it is only meaningful to use this function on the service-side. */ void flash_set_filename (Flash *object, const gchar *value) { g_object_set (G_OBJECT (object), "filename", value, NULL); } /** * flash_get_flasher_path: (skip) * @object: A #Flash. * * Gets the value of the "flasher_path" D-Bus property. * * Since this D-Bus property is readable, it is meaningful to use this function on both the client- and service-side. * * The returned value is only valid until the property changes so on the client-side it is only safe to use this function on the thread where @object was constructed. Use flash_dup_flasher_path() if on another thread. * * Returns: (transfer none): The property value or %NULL if the property is not set. Do not free the returned value, it belongs to @object. */ const gchar * flash_get_flasher_path (Flash *object) { return FLASH_GET_IFACE (object)->get_flasher_path (object); } /** * flash_dup_flasher_path: (skip) * @object: A #Flash. * * Gets a copy of the "flasher_path" D-Bus property. * * Since this D-Bus property is readable, it is meaningful to use this function on both the client- and service-side. * * Returns: (transfer full): The property value or %NULL if the property is not set. The returned value should be freed with g_free(). */ gchar * flash_dup_flasher_path (Flash *object) { gchar *value; g_object_get (G_OBJECT (object), "flasher-path", &value, NULL); return value; } /** * flash_set_flasher_path: (skip) * @object: A #Flash. * @value: The value to set. * * Sets the "flasher_path" D-Bus property to @value. * * Since this D-Bus property is not writable, it is only meaningful to use this function on the service-side. */ void flash_set_flasher_path (Flash *object, const gchar *value) { g_object_set (G_OBJECT (object), "flasher-path", value, NULL); } /** * flash_get_flasher_name: (skip) * @object: A #Flash. * * Gets the value of the "flasher_name" D-Bus property. * * Since this D-Bus property is readable, it is meaningful to use this function on both the client- and service-side. * * The returned value is only valid until the property changes so on the client-side it is only safe to use this function on the thread where @object was constructed. Use flash_dup_flasher_name() if on another thread. * * Returns: (transfer none): The property value or %NULL if the property is not set. Do not free the returned value, it belongs to @object. */ const gchar * flash_get_flasher_name (Flash *object) { return FLASH_GET_IFACE (object)->get_flasher_name (object); } /** * flash_dup_flasher_name: (skip) * @object: A #Flash. * * Gets a copy of the "flasher_name" D-Bus property. * * Since this D-Bus property is readable, it is meaningful to use this function on both the client- and service-side. * * Returns: (transfer full): The property value or %NULL if the property is not set. The returned value should be freed with g_free(). */ gchar * flash_dup_flasher_name (Flash *object) { gchar *value; g_object_get (G_OBJECT (object), "flasher-name", &value, NULL); return value; } /** * flash_set_flasher_name: (skip) * @object: A #Flash. * @value: The value to set. * * Sets the "flasher_name" D-Bus property to @value. * * Since this D-Bus property is not writable, it is only meaningful to use this function on the service-side. */ void flash_set_flasher_name (Flash *object, const gchar *value) { g_object_set (G_OBJECT (object), "flasher-name", value, NULL); } /** * flash_get_flasher_instance: (skip) * @object: A #Flash. * * Gets the value of the "flasher_instance" D-Bus property. * * Since this D-Bus property is readable, it is meaningful to use this function on both the client- and service-side. * * The returned value is only valid until the property changes so on the client-side it is only safe to use this function on the thread where @object was constructed. Use flash_dup_flasher_instance() if on another thread. * * Returns: (transfer none): The property value or %NULL if the property is not set. Do not free the returned value, it belongs to @object. */ const gchar * flash_get_flasher_instance (Flash *object) { return FLASH_GET_IFACE (object)->get_flasher_instance (object); } /** * flash_dup_flasher_instance: (skip) * @object: A #Flash. * * Gets a copy of the "flasher_instance" D-Bus property. * * Since this D-Bus property is readable, it is meaningful to use this function on both the client- and service-side. * * Returns: (transfer full): The property value or %NULL if the property is not set. The returned value should be freed with g_free(). */ gchar * flash_dup_flasher_instance (Flash *object) { gchar *value; g_object_get (G_OBJECT (object), "flasher-instance", &value, NULL); return value; } /** * flash_set_flasher_instance: (skip) * @object: A #Flash. * @value: The value to set. * * Sets the "flasher_instance" D-Bus property to @value. * * Since this D-Bus property is not writable, it is only meaningful to use this function on the service-side. */ void flash_set_flasher_instance (Flash *object, const gchar *value) { g_object_set (G_OBJECT (object), "flasher-instance", value, NULL); } /** * flash_get_status: (skip) * @object: A #Flash. * * Gets the value of the "status" D-Bus property. * * Since this D-Bus property is readable, it is meaningful to use this function on both the client- and service-side. * * The returned value is only valid until the property changes so on the client-side it is only safe to use this function on the thread where @object was constructed. Use flash_dup_status() if on another thread. * * Returns: (transfer none): The property value or %NULL if the property is not set. Do not free the returned value, it belongs to @object. */ const gchar * flash_get_status (Flash *object) { return FLASH_GET_IFACE (object)->get_status (object); } /** * flash_dup_status: (skip) * @object: A #Flash. * * Gets a copy of the "status" D-Bus property. * * Since this D-Bus property is readable, it is meaningful to use this function on both the client- and service-side. * * Returns: (transfer full): The property value or %NULL if the property is not set. The returned value should be freed with g_free(). */ gchar * flash_dup_status (Flash *object) { gchar *value; g_object_get (G_OBJECT (object), "status", &value, NULL); return value; } /** * flash_set_status: (skip) * @object: A #Flash. * @value: The value to set. * * Sets the "status" D-Bus property to @value. * * Since this D-Bus property is not writable, it is only meaningful to use this function on the service-side. */ void flash_set_status (Flash *object, const gchar *value) { g_object_set (G_OBJECT (object), "status", value, NULL); } /** * flash_emit_updated: * @object: A #Flash. * * Emits the "Updated" D-Bus signal. */ void flash_emit_updated ( Flash *object) { g_signal_emit_by_name (object, "updated"); } /** * flash_emit_download: * @object: A #Flash. * @arg_url: Argument to pass with the signal. * @arg_filename: Argument to pass with the signal. * * Emits the "Download" D-Bus signal. */ void flash_emit_download ( Flash *object, const gchar *arg_url, const gchar *arg_filename) { g_signal_emit_by_name (object, "download", arg_url, arg_filename); } /** * flash_call_update: * @proxy: A #FlashProxy. * @arg_filename: Argument to pass with the method invocation. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied or %NULL. * @user_data: User data to pass to @callback. * * Asynchronously invokes the update() D-Bus method on @proxy. * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call flash_call_update_finish() to get the result of the operation. * * See flash_call_update_sync() for the synchronous, blocking version of this method. */ void flash_call_update ( Flash *proxy, const gchar *arg_filename, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_dbus_proxy_call (G_DBUS_PROXY (proxy), "update", g_variant_new ("(s)", arg_filename), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, callback, user_data); } /** * flash_call_update_finish: * @proxy: A #FlashProxy. * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to flash_call_update(). * @error: Return location for error or %NULL. * * Finishes an operation started with flash_call_update(). * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean flash_call_update_finish ( Flash *proxy, GAsyncResult *res, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_finish (G_DBUS_PROXY (proxy), res, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "()"); g_variant_unref (_ret); _out: return _ret != NULL; } /** * flash_call_update_sync: * @proxy: A #FlashProxy. * @arg_filename: Argument to pass with the method invocation. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL. * * Synchronously invokes the update() D-Bus method on @proxy. The calling thread is blocked until a reply is received. * * See flash_call_update() for the asynchronous version of this method. * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean flash_call_update_sync ( Flash *proxy, const gchar *arg_filename, GCancellable *cancellable, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_sync (G_DBUS_PROXY (proxy), "update", g_variant_new ("(s)", arg_filename), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "()"); g_variant_unref (_ret); _out: return _ret != NULL; } /** * flash_call_error: * @proxy: A #FlashProxy. * @arg_message: Argument to pass with the method invocation. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied or %NULL. * @user_data: User data to pass to @callback. * * Asynchronously invokes the error() D-Bus method on @proxy. * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call flash_call_error_finish() to get the result of the operation. * * See flash_call_error_sync() for the synchronous, blocking version of this method. */ void flash_call_error ( Flash *proxy, const gchar *arg_message, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_dbus_proxy_call (G_DBUS_PROXY (proxy), "error", g_variant_new ("(s)", arg_message), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, callback, user_data); } /** * flash_call_error_finish: * @proxy: A #FlashProxy. * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to flash_call_error(). * @error: Return location for error or %NULL. * * Finishes an operation started with flash_call_error(). * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean flash_call_error_finish ( Flash *proxy, GAsyncResult *res, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_finish (G_DBUS_PROXY (proxy), res, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "()"); g_variant_unref (_ret); _out: return _ret != NULL; } /** * flash_call_error_sync: * @proxy: A #FlashProxy. * @arg_message: Argument to pass with the method invocation. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL. * * Synchronously invokes the error() D-Bus method on @proxy. The calling thread is blocked until a reply is received. * * See flash_call_error() for the asynchronous version of this method. * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean flash_call_error_sync ( Flash *proxy, const gchar *arg_message, GCancellable *cancellable, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_sync (G_DBUS_PROXY (proxy), "error", g_variant_new ("(s)", arg_message), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "()"); g_variant_unref (_ret); _out: return _ret != NULL; } /** * flash_call_done: * @proxy: A #FlashProxy. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied or %NULL. * @user_data: User data to pass to @callback. * * Asynchronously invokes the done() D-Bus method on @proxy. * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call flash_call_done_finish() to get the result of the operation. * * See flash_call_done_sync() for the synchronous, blocking version of this method. */ void flash_call_done ( Flash *proxy, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_dbus_proxy_call (G_DBUS_PROXY (proxy), "done", g_variant_new ("()"), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, callback, user_data); } /** * flash_call_done_finish: * @proxy: A #FlashProxy. * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to flash_call_done(). * @error: Return location for error or %NULL. * * Finishes an operation started with flash_call_done(). * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean flash_call_done_finish ( Flash *proxy, GAsyncResult *res, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_finish (G_DBUS_PROXY (proxy), res, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "()"); g_variant_unref (_ret); _out: return _ret != NULL; } /** * flash_call_done_sync: * @proxy: A #FlashProxy. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL. * * Synchronously invokes the done() D-Bus method on @proxy. The calling thread is blocked until a reply is received. * * See flash_call_done() for the asynchronous version of this method. * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean flash_call_done_sync ( Flash *proxy, GCancellable *cancellable, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_sync (G_DBUS_PROXY (proxy), "done", g_variant_new ("()"), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "()"); g_variant_unref (_ret); _out: return _ret != NULL; } /** * flash_call_update_via_tftp: * @proxy: A #FlashProxy. * @arg_url: Argument to pass with the method invocation. * @arg_filename: Argument to pass with the method invocation. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied or %NULL. * @user_data: User data to pass to @callback. * * Asynchronously invokes the updateViaTftp() D-Bus method on @proxy. * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call flash_call_update_via_tftp_finish() to get the result of the operation. * * See flash_call_update_via_tftp_sync() for the synchronous, blocking version of this method. */ void flash_call_update_via_tftp ( Flash *proxy, const gchar *arg_url, const gchar *arg_filename, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_dbus_proxy_call (G_DBUS_PROXY (proxy), "updateViaTftp", g_variant_new ("(ss)", arg_url, arg_filename), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, callback, user_data); } /** * flash_call_update_via_tftp_finish: * @proxy: A #FlashProxy. * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to flash_call_update_via_tftp(). * @error: Return location for error or %NULL. * * Finishes an operation started with flash_call_update_via_tftp(). * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean flash_call_update_via_tftp_finish ( Flash *proxy, GAsyncResult *res, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_finish (G_DBUS_PROXY (proxy), res, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "()"); g_variant_unref (_ret); _out: return _ret != NULL; } /** * flash_call_update_via_tftp_sync: * @proxy: A #FlashProxy. * @arg_url: Argument to pass with the method invocation. * @arg_filename: Argument to pass with the method invocation. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL. * * Synchronously invokes the updateViaTftp() D-Bus method on @proxy. The calling thread is blocked until a reply is received. * * See flash_call_update_via_tftp() for the asynchronous version of this method. * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean flash_call_update_via_tftp_sync ( Flash *proxy, const gchar *arg_url, const gchar *arg_filename, GCancellable *cancellable, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_sync (G_DBUS_PROXY (proxy), "updateViaTftp", g_variant_new ("(ss)", arg_url, arg_filename), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "()"); g_variant_unref (_ret); _out: return _ret != NULL; } /** * flash_call_init: * @proxy: A #FlashProxy. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied or %NULL. * @user_data: User data to pass to @callback. * * Asynchronously invokes the init() D-Bus method on @proxy. * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call flash_call_init_finish() to get the result of the operation. * * See flash_call_init_sync() for the synchronous, blocking version of this method. */ void flash_call_init ( Flash *proxy, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_dbus_proxy_call (G_DBUS_PROXY (proxy), "init", g_variant_new ("()"), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, callback, user_data); } /** * flash_call_init_finish: * @proxy: A #FlashProxy. * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to flash_call_init(). * @error: Return location for error or %NULL. * * Finishes an operation started with flash_call_init(). * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean flash_call_init_finish ( Flash *proxy, GAsyncResult *res, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_finish (G_DBUS_PROXY (proxy), res, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "()"); g_variant_unref (_ret); _out: return _ret != NULL; } /** * flash_call_init_sync: * @proxy: A #FlashProxy. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL. * * Synchronously invokes the init() D-Bus method on @proxy. The calling thread is blocked until a reply is received. * * See flash_call_init() for the asynchronous version of this method. * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean flash_call_init_sync ( Flash *proxy, GCancellable *cancellable, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_sync (G_DBUS_PROXY (proxy), "init", g_variant_new ("()"), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "()"); g_variant_unref (_ret); _out: return _ret != NULL; } /** * flash_complete_update: * @object: A #Flash. * @invocation: (transfer full): A #GDBusMethodInvocation. * * Helper function used in service implementations to finish handling invocations of the update() D-Bus method. If you instead want to finish handling an invocation by returning an error, use g_dbus_method_invocation_return_error() or similar. * * This method will free @invocation, you cannot use it afterwards. */ void flash_complete_update ( Flash *object, GDBusMethodInvocation *invocation) { g_dbus_method_invocation_return_value (invocation, g_variant_new ("()")); } /** * flash_complete_error: * @object: A #Flash. * @invocation: (transfer full): A #GDBusMethodInvocation. * * Helper function used in service implementations to finish handling invocations of the error() D-Bus method. If you instead want to finish handling an invocation by returning an error, use g_dbus_method_invocation_return_error() or similar. * * This method will free @invocation, you cannot use it afterwards. */ void flash_complete_error ( Flash *object, GDBusMethodInvocation *invocation) { g_dbus_method_invocation_return_value (invocation, g_variant_new ("()")); } /** * flash_complete_done: * @object: A #Flash. * @invocation: (transfer full): A #GDBusMethodInvocation. * * Helper function used in service implementations to finish handling invocations of the done() D-Bus method. If you instead want to finish handling an invocation by returning an error, use g_dbus_method_invocation_return_error() or similar. * * This method will free @invocation, you cannot use it afterwards. */ void flash_complete_done ( Flash *object, GDBusMethodInvocation *invocation) { g_dbus_method_invocation_return_value (invocation, g_variant_new ("()")); } /** * flash_complete_update_via_tftp: * @object: A #Flash. * @invocation: (transfer full): A #GDBusMethodInvocation. * * Helper function used in service implementations to finish handling invocations of the updateViaTftp() D-Bus method. If you instead want to finish handling an invocation by returning an error, use g_dbus_method_invocation_return_error() or similar. * * This method will free @invocation, you cannot use it afterwards. */ void flash_complete_update_via_tftp ( Flash *object, GDBusMethodInvocation *invocation) { g_dbus_method_invocation_return_value (invocation, g_variant_new ("()")); } /** * flash_complete_init: * @object: A #Flash. * @invocation: (transfer full): A #GDBusMethodInvocation. * * Helper function used in service implementations to finish handling invocations of the init() D-Bus method. If you instead want to finish handling an invocation by returning an error, use g_dbus_method_invocation_return_error() or similar. * * This method will free @invocation, you cannot use it afterwards. */ void flash_complete_init ( Flash *object, GDBusMethodInvocation *invocation) { g_dbus_method_invocation_return_value (invocation, g_variant_new ("()")); } /* ------------------------------------------------------------------------ */ /** * FlashProxy: * * The #FlashProxy structure contains only private data and should only be accessed using the provided API. */ /** * FlashProxyClass: * @parent_class: The parent class. * * Class structure for #FlashProxy. */ struct _FlashProxyPrivate { GData *qdata; }; static void flash_proxy_iface_init (FlashIface *iface); #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 G_DEFINE_TYPE_WITH_CODE (FlashProxy, flash_proxy, G_TYPE_DBUS_PROXY, G_ADD_PRIVATE (FlashProxy) G_IMPLEMENT_INTERFACE (TYPE_FLASH, flash_proxy_iface_init)); #else G_DEFINE_TYPE_WITH_CODE (FlashProxy, flash_proxy, G_TYPE_DBUS_PROXY, G_IMPLEMENT_INTERFACE (TYPE_FLASH, flash_proxy_iface_init)); #endif static void flash_proxy_finalize (GObject *object) { FlashProxy *proxy = FLASH_PROXY (object); g_datalist_clear (&proxy->priv->qdata); G_OBJECT_CLASS (flash_proxy_parent_class)->finalize (object); } static void flash_proxy_get_property (GObject *object, guint prop_id, GValue *value, GParamSpec *pspec G_GNUC_UNUSED) { const _ExtendedGDBusPropertyInfo *info; GVariant *variant; g_assert (prop_id != 0 && prop_id - 1 < 5); info = _flash_property_info_pointers[prop_id - 1]; variant = g_dbus_proxy_get_cached_property (G_DBUS_PROXY (object), info->parent_struct.name); if (info->use_gvariant) { g_value_set_variant (value, variant); } else { if (variant != NULL) g_dbus_gvariant_to_gvalue (variant, value); } if (variant != NULL) g_variant_unref (variant); } static void flash_proxy_set_property_cb (GDBusProxy *proxy, GAsyncResult *res, gpointer user_data) { const _ExtendedGDBusPropertyInfo *info = user_data; GError *error; GVariant *_ret; error = NULL; _ret = g_dbus_proxy_call_finish (proxy, res, &error); if (!_ret) { g_warning ("Error setting property '%s' on interface org.openbmc.Flash: %s (%s, %d)", info->parent_struct.name, error->message, g_quark_to_string (error->domain), error->code); g_error_free (error); } else { g_variant_unref (_ret); } } static void flash_proxy_set_property (GObject *object, guint prop_id, const GValue *value, GParamSpec *pspec G_GNUC_UNUSED) { const _ExtendedGDBusPropertyInfo *info; GVariant *variant; g_assert (prop_id != 0 && prop_id - 1 < 5); info = _flash_property_info_pointers[prop_id - 1]; variant = g_dbus_gvalue_to_gvariant (value, G_VARIANT_TYPE (info->parent_struct.signature)); g_dbus_proxy_call (G_DBUS_PROXY (object), "org.freedesktop.DBus.Properties.Set", g_variant_new ("(ssv)", "org.openbmc.Flash", info->parent_struct.name, variant), G_DBUS_CALL_FLAGS_NONE, -1, NULL, (GAsyncReadyCallback) flash_proxy_set_property_cb, (GDBusPropertyInfo *) &info->parent_struct); g_variant_unref (variant); } static void flash_proxy_g_signal (GDBusProxy *proxy, const gchar *sender_name G_GNUC_UNUSED, const gchar *signal_name, GVariant *parameters) { _ExtendedGDBusSignalInfo *info; GVariantIter iter; GVariant *child; GValue *paramv; guint num_params; guint n; guint signal_id; info = (_ExtendedGDBusSignalInfo *) g_dbus_interface_info_lookup_signal ((GDBusInterfaceInfo *) &_flash_interface_info.parent_struct, signal_name); if (info == NULL) return; num_params = g_variant_n_children (parameters); paramv = g_new0 (GValue, num_params + 1); g_value_init (¶mv[0], TYPE_FLASH); g_value_set_object (¶mv[0], proxy); g_variant_iter_init (&iter, parameters); n = 1; while ((child = g_variant_iter_next_value (&iter)) != NULL) { _ExtendedGDBusArgInfo *arg_info = (_ExtendedGDBusArgInfo *) info->parent_struct.args[n - 1]; if (arg_info->use_gvariant) { g_value_init (¶mv[n], G_TYPE_VARIANT); g_value_set_variant (¶mv[n], child); n++; } else g_dbus_gvariant_to_gvalue (child, ¶mv[n++]); g_variant_unref (child); } signal_id = g_signal_lookup (info->signal_name, TYPE_FLASH); g_signal_emitv (paramv, signal_id, 0, NULL); for (n = 0; n < num_params + 1; n++) g_value_unset (¶mv[n]); g_free (paramv); } static void flash_proxy_g_properties_changed (GDBusProxy *_proxy, GVariant *changed_properties, const gchar *const *invalidated_properties) { FlashProxy *proxy = FLASH_PROXY (_proxy); guint n; const gchar *key; GVariantIter *iter; _ExtendedGDBusPropertyInfo *info; g_variant_get (changed_properties, "a{sv}", &iter); while (g_variant_iter_next (iter, "{&sv}", &key, NULL)) { info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_flash_interface_info.parent_struct, key); g_datalist_remove_data (&proxy->priv->qdata, key); if (info != NULL) g_object_notify (G_OBJECT (proxy), info->hyphen_name); } g_variant_iter_free (iter); for (n = 0; invalidated_properties[n] != NULL; n++) { info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_flash_interface_info.parent_struct, invalidated_properties[n]); g_datalist_remove_data (&proxy->priv->qdata, invalidated_properties[n]); if (info != NULL) g_object_notify (G_OBJECT (proxy), info->hyphen_name); } } static const gchar * flash_proxy_get_filename (Flash *object) { FlashProxy *proxy = FLASH_PROXY (object); GVariant *variant; const gchar *value = NULL; variant = g_dbus_proxy_get_cached_property (G_DBUS_PROXY (proxy), "filename"); if (variant != NULL) { value = g_variant_get_string (variant, NULL); g_variant_unref (variant); } return value; } static const gchar * flash_proxy_get_flasher_path (Flash *object) { FlashProxy *proxy = FLASH_PROXY (object); GVariant *variant; const gchar *value = NULL; variant = g_dbus_proxy_get_cached_property (G_DBUS_PROXY (proxy), "flasher_path"); if (variant != NULL) { value = g_variant_get_string (variant, NULL); g_variant_unref (variant); } return value; } static const gchar * flash_proxy_get_flasher_name (Flash *object) { FlashProxy *proxy = FLASH_PROXY (object); GVariant *variant; const gchar *value = NULL; variant = g_dbus_proxy_get_cached_property (G_DBUS_PROXY (proxy), "flasher_name"); if (variant != NULL) { value = g_variant_get_string (variant, NULL); g_variant_unref (variant); } return value; } static const gchar * flash_proxy_get_flasher_instance (Flash *object) { FlashProxy *proxy = FLASH_PROXY (object); GVariant *variant; const gchar *value = NULL; variant = g_dbus_proxy_get_cached_property (G_DBUS_PROXY (proxy), "flasher_instance"); if (variant != NULL) { value = g_variant_get_string (variant, NULL); g_variant_unref (variant); } return value; } static const gchar * flash_proxy_get_status (Flash *object) { FlashProxy *proxy = FLASH_PROXY (object); GVariant *variant; const gchar *value = NULL; variant = g_dbus_proxy_get_cached_property (G_DBUS_PROXY (proxy), "status"); if (variant != NULL) { value = g_variant_get_string (variant, NULL); g_variant_unref (variant); } return value; } static void flash_proxy_init (FlashProxy *proxy) { #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 proxy->priv = flash_proxy_get_instance_private (proxy); #else proxy->priv = G_TYPE_INSTANCE_GET_PRIVATE (proxy, TYPE_FLASH_PROXY, FlashProxyPrivate); #endif g_dbus_proxy_set_interface_info (G_DBUS_PROXY (proxy), flash_interface_info ()); } static void flash_proxy_class_init (FlashProxyClass *klass) { GObjectClass *gobject_class; GDBusProxyClass *proxy_class; gobject_class = G_OBJECT_CLASS (klass); gobject_class->finalize = flash_proxy_finalize; gobject_class->get_property = flash_proxy_get_property; gobject_class->set_property = flash_proxy_set_property; proxy_class = G_DBUS_PROXY_CLASS (klass); proxy_class->g_signal = flash_proxy_g_signal; proxy_class->g_properties_changed = flash_proxy_g_properties_changed; flash_override_properties (gobject_class, 1); #if GLIB_VERSION_MAX_ALLOWED < GLIB_VERSION_2_38 g_type_class_add_private (klass, sizeof (FlashProxyPrivate)); #endif } static void flash_proxy_iface_init (FlashIface *iface) { iface->get_filename = flash_proxy_get_filename; iface->get_flasher_path = flash_proxy_get_flasher_path; iface->get_flasher_name = flash_proxy_get_flasher_name; iface->get_flasher_instance = flash_proxy_get_flasher_instance; iface->get_status = flash_proxy_get_status; } /** * flash_proxy_new: * @connection: A #GDBusConnection. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: (allow-none): A bus name (well-known or unique) or %NULL if @connection is not a message bus connection. * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied. * @user_data: User data to pass to @callback. * * Asynchronously creates a proxy for the D-Bus interface org.openbmc.Flash. See g_dbus_proxy_new() for more details. * * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call flash_proxy_new_finish() to get the result of the operation. * * See flash_proxy_new_sync() for the synchronous, blocking version of this constructor. */ void flash_proxy_new ( GDBusConnection *connection, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_async_initable_new_async (TYPE_FLASH_PROXY, G_PRIORITY_DEFAULT, cancellable, callback, user_data, "g-flags", flags, "g-name", name, "g-connection", connection, "g-object-path", object_path, "g-interface-name", "org.openbmc.Flash", NULL); } /** * flash_proxy_new_finish: * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to flash_proxy_new(). * @error: Return location for error or %NULL * * Finishes an operation started with flash_proxy_new(). * * Returns: (transfer full) (type FlashProxy): The constructed proxy object or %NULL if @error is set. */ Flash * flash_proxy_new_finish ( GAsyncResult *res, GError **error) { GObject *ret; GObject *source_object; source_object = g_async_result_get_source_object (res); ret = g_async_initable_new_finish (G_ASYNC_INITABLE (source_object), res, error); g_object_unref (source_object); if (ret != NULL) return FLASH (ret); else return NULL; } /** * flash_proxy_new_sync: * @connection: A #GDBusConnection. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: (allow-none): A bus name (well-known or unique) or %NULL if @connection is not a message bus connection. * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL * * Synchronously creates a proxy for the D-Bus interface org.openbmc.Flash. See g_dbus_proxy_new_sync() for more details. * * The calling thread is blocked until a reply is received. * * See flash_proxy_new() for the asynchronous version of this constructor. * * Returns: (transfer full) (type FlashProxy): The constructed proxy object or %NULL if @error is set. */ Flash * flash_proxy_new_sync ( GDBusConnection *connection, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GError **error) { GInitable *ret; ret = g_initable_new (TYPE_FLASH_PROXY, cancellable, error, "g-flags", flags, "g-name", name, "g-connection", connection, "g-object-path", object_path, "g-interface-name", "org.openbmc.Flash", NULL); if (ret != NULL) return FLASH (ret); else return NULL; } /** * flash_proxy_new_for_bus: * @bus_type: A #GBusType. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: A bus name (well-known or unique). * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied. * @user_data: User data to pass to @callback. * * Like flash_proxy_new() but takes a #GBusType instead of a #GDBusConnection. * * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call flash_proxy_new_for_bus_finish() to get the result of the operation. * * See flash_proxy_new_for_bus_sync() for the synchronous, blocking version of this constructor. */ void flash_proxy_new_for_bus ( GBusType bus_type, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_async_initable_new_async (TYPE_FLASH_PROXY, G_PRIORITY_DEFAULT, cancellable, callback, user_data, "g-flags", flags, "g-name", name, "g-bus-type", bus_type, "g-object-path", object_path, "g-interface-name", "org.openbmc.Flash", NULL); } /** * flash_proxy_new_for_bus_finish: * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to flash_proxy_new_for_bus(). * @error: Return location for error or %NULL * * Finishes an operation started with flash_proxy_new_for_bus(). * * Returns: (transfer full) (type FlashProxy): The constructed proxy object or %NULL if @error is set. */ Flash * flash_proxy_new_for_bus_finish ( GAsyncResult *res, GError **error) { GObject *ret; GObject *source_object; source_object = g_async_result_get_source_object (res); ret = g_async_initable_new_finish (G_ASYNC_INITABLE (source_object), res, error); g_object_unref (source_object); if (ret != NULL) return FLASH (ret); else return NULL; } /** * flash_proxy_new_for_bus_sync: * @bus_type: A #GBusType. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: A bus name (well-known or unique). * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL * * Like flash_proxy_new_sync() but takes a #GBusType instead of a #GDBusConnection. * * The calling thread is blocked until a reply is received. * * See flash_proxy_new_for_bus() for the asynchronous version of this constructor. * * Returns: (transfer full) (type FlashProxy): The constructed proxy object or %NULL if @error is set. */ Flash * flash_proxy_new_for_bus_sync ( GBusType bus_type, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GError **error) { GInitable *ret; ret = g_initable_new (TYPE_FLASH_PROXY, cancellable, error, "g-flags", flags, "g-name", name, "g-bus-type", bus_type, "g-object-path", object_path, "g-interface-name", "org.openbmc.Flash", NULL); if (ret != NULL) return FLASH (ret); else return NULL; } /* ------------------------------------------------------------------------ */ /** * FlashSkeleton: * * The #FlashSkeleton structure contains only private data and should only be accessed using the provided API. */ /** * FlashSkeletonClass: * @parent_class: The parent class. * * Class structure for #FlashSkeleton. */ struct _FlashSkeletonPrivate { GValue *properties; GList *changed_properties; GSource *changed_properties_idle_source; GMainContext *context; GMutex lock; }; static void _flash_skeleton_handle_method_call ( GDBusConnection *connection G_GNUC_UNUSED, const gchar *sender G_GNUC_UNUSED, const gchar *object_path G_GNUC_UNUSED, const gchar *interface_name, const gchar *method_name, GVariant *parameters, GDBusMethodInvocation *invocation, gpointer user_data) { FlashSkeleton *skeleton = FLASH_SKELETON (user_data); _ExtendedGDBusMethodInfo *info; GVariantIter iter; GVariant *child; GValue *paramv; guint num_params; guint num_extra; guint n; guint signal_id; GValue return_value = G_VALUE_INIT; info = (_ExtendedGDBusMethodInfo *) g_dbus_method_invocation_get_method_info (invocation); g_assert (info != NULL); num_params = g_variant_n_children (parameters); num_extra = info->pass_fdlist ? 3 : 2; paramv = g_new0 (GValue, num_params + num_extra); n = 0; g_value_init (¶mv[n], TYPE_FLASH); g_value_set_object (¶mv[n++], skeleton); g_value_init (¶mv[n], G_TYPE_DBUS_METHOD_INVOCATION); g_value_set_object (¶mv[n++], invocation); if (info->pass_fdlist) { #ifdef G_OS_UNIX g_value_init (¶mv[n], G_TYPE_UNIX_FD_LIST); g_value_set_object (¶mv[n++], g_dbus_message_get_unix_fd_list (g_dbus_method_invocation_get_message (invocation))); #else g_assert_not_reached (); #endif } g_variant_iter_init (&iter, parameters); while ((child = g_variant_iter_next_value (&iter)) != NULL) { _ExtendedGDBusArgInfo *arg_info = (_ExtendedGDBusArgInfo *) info->parent_struct.in_args[n - num_extra]; if (arg_info->use_gvariant) { g_value_init (¶mv[n], G_TYPE_VARIANT); g_value_set_variant (¶mv[n], child); n++; } else g_dbus_gvariant_to_gvalue (child, ¶mv[n++]); g_variant_unref (child); } signal_id = g_signal_lookup (info->signal_name, TYPE_FLASH); g_value_init (&return_value, G_TYPE_BOOLEAN); g_signal_emitv (paramv, signal_id, 0, &return_value); if (!g_value_get_boolean (&return_value)) g_dbus_method_invocation_return_error (invocation, G_DBUS_ERROR, G_DBUS_ERROR_UNKNOWN_METHOD, "Method %s is not implemented on interface %s", method_name, interface_name); g_value_unset (&return_value); for (n = 0; n < num_params + num_extra; n++) g_value_unset (¶mv[n]); g_free (paramv); } static GVariant * _flash_skeleton_handle_get_property ( GDBusConnection *connection G_GNUC_UNUSED, const gchar *sender G_GNUC_UNUSED, const gchar *object_path G_GNUC_UNUSED, const gchar *interface_name G_GNUC_UNUSED, const gchar *property_name, GError **error, gpointer user_data) { FlashSkeleton *skeleton = FLASH_SKELETON (user_data); GValue value = G_VALUE_INIT; GParamSpec *pspec; _ExtendedGDBusPropertyInfo *info; GVariant *ret; ret = NULL; info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_flash_interface_info.parent_struct, property_name); g_assert (info != NULL); pspec = g_object_class_find_property (G_OBJECT_GET_CLASS (skeleton), info->hyphen_name); if (pspec == NULL) { g_set_error (error, G_DBUS_ERROR, G_DBUS_ERROR_INVALID_ARGS, "No property with name %s", property_name); } else { g_value_init (&value, pspec->value_type); g_object_get_property (G_OBJECT (skeleton), info->hyphen_name, &value); ret = g_dbus_gvalue_to_gvariant (&value, G_VARIANT_TYPE (info->parent_struct.signature)); g_value_unset (&value); } return ret; } static gboolean _flash_skeleton_handle_set_property ( GDBusConnection *connection G_GNUC_UNUSED, const gchar *sender G_GNUC_UNUSED, const gchar *object_path G_GNUC_UNUSED, const gchar *interface_name G_GNUC_UNUSED, const gchar *property_name, GVariant *variant, GError **error, gpointer user_data) { FlashSkeleton *skeleton = FLASH_SKELETON (user_data); GValue value = G_VALUE_INIT; GParamSpec *pspec; _ExtendedGDBusPropertyInfo *info; gboolean ret; ret = FALSE; info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_flash_interface_info.parent_struct, property_name); g_assert (info != NULL); pspec = g_object_class_find_property (G_OBJECT_GET_CLASS (skeleton), info->hyphen_name); if (pspec == NULL) { g_set_error (error, G_DBUS_ERROR, G_DBUS_ERROR_INVALID_ARGS, "No property with name %s", property_name); } else { if (info->use_gvariant) g_value_set_variant (&value, variant); else g_dbus_gvariant_to_gvalue (variant, &value); g_object_set_property (G_OBJECT (skeleton), info->hyphen_name, &value); g_value_unset (&value); ret = TRUE; } return ret; } static const GDBusInterfaceVTable _flash_skeleton_vtable = { _flash_skeleton_handle_method_call, _flash_skeleton_handle_get_property, _flash_skeleton_handle_set_property, {NULL} }; static GDBusInterfaceInfo * flash_skeleton_dbus_interface_get_info (GDBusInterfaceSkeleton *skeleton G_GNUC_UNUSED) { return flash_interface_info (); } static GDBusInterfaceVTable * flash_skeleton_dbus_interface_get_vtable (GDBusInterfaceSkeleton *skeleton G_GNUC_UNUSED) { return (GDBusInterfaceVTable *) &_flash_skeleton_vtable; } static GVariant * flash_skeleton_dbus_interface_get_properties (GDBusInterfaceSkeleton *_skeleton) { FlashSkeleton *skeleton = FLASH_SKELETON (_skeleton); GVariantBuilder builder; guint n; g_variant_builder_init (&builder, G_VARIANT_TYPE ("a{sv}")); if (_flash_interface_info.parent_struct.properties == NULL) goto out; for (n = 0; _flash_interface_info.parent_struct.properties[n] != NULL; n++) { GDBusPropertyInfo *info = _flash_interface_info.parent_struct.properties[n]; if (info->flags & G_DBUS_PROPERTY_INFO_FLAGS_READABLE) { GVariant *value; value = _flash_skeleton_handle_get_property (g_dbus_interface_skeleton_get_connection (G_DBUS_INTERFACE_SKELETON (skeleton)), NULL, g_dbus_interface_skeleton_get_object_path (G_DBUS_INTERFACE_SKELETON (skeleton)), "org.openbmc.Flash", info->name, NULL, skeleton); if (value != NULL) { g_variant_take_ref (value); g_variant_builder_add (&builder, "{sv}", info->name, value); g_variant_unref (value); } } } out: return g_variant_builder_end (&builder); } static gboolean _flash_emit_changed (gpointer user_data); static void flash_skeleton_dbus_interface_flush (GDBusInterfaceSkeleton *_skeleton) { FlashSkeleton *skeleton = FLASH_SKELETON (_skeleton); gboolean emit_changed = FALSE; g_mutex_lock (&skeleton->priv->lock); if (skeleton->priv->changed_properties_idle_source != NULL) { g_source_destroy (skeleton->priv->changed_properties_idle_source); skeleton->priv->changed_properties_idle_source = NULL; emit_changed = TRUE; } g_mutex_unlock (&skeleton->priv->lock); if (emit_changed) _flash_emit_changed (skeleton); } static void _flash_on_signal_updated ( Flash *object) { FlashSkeleton *skeleton = FLASH_SKELETON (object); GList *connections, *l; GVariant *signal_variant; connections = g_dbus_interface_skeleton_get_connections (G_DBUS_INTERFACE_SKELETON (skeleton)); signal_variant = g_variant_ref_sink (g_variant_new ("()")); for (l = connections; l != NULL; l = l->next) { GDBusConnection *connection = l->data; g_dbus_connection_emit_signal (connection, NULL, g_dbus_interface_skeleton_get_object_path (G_DBUS_INTERFACE_SKELETON (skeleton)), "org.openbmc.Flash", "Updated", signal_variant, NULL); } g_variant_unref (signal_variant); g_list_free_full (connections, g_object_unref); } static void _flash_on_signal_download ( Flash *object, const gchar *arg_url, const gchar *arg_filename) { FlashSkeleton *skeleton = FLASH_SKELETON (object); GList *connections, *l; GVariant *signal_variant; connections = g_dbus_interface_skeleton_get_connections (G_DBUS_INTERFACE_SKELETON (skeleton)); signal_variant = g_variant_ref_sink (g_variant_new ("(ss)", arg_url, arg_filename)); for (l = connections; l != NULL; l = l->next) { GDBusConnection *connection = l->data; g_dbus_connection_emit_signal (connection, NULL, g_dbus_interface_skeleton_get_object_path (G_DBUS_INTERFACE_SKELETON (skeleton)), "org.openbmc.Flash", "Download", signal_variant, NULL); } g_variant_unref (signal_variant); g_list_free_full (connections, g_object_unref); } static void flash_skeleton_iface_init (FlashIface *iface); #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 G_DEFINE_TYPE_WITH_CODE (FlashSkeleton, flash_skeleton, G_TYPE_DBUS_INTERFACE_SKELETON, G_ADD_PRIVATE (FlashSkeleton) G_IMPLEMENT_INTERFACE (TYPE_FLASH, flash_skeleton_iface_init)); #else G_DEFINE_TYPE_WITH_CODE (FlashSkeleton, flash_skeleton, G_TYPE_DBUS_INTERFACE_SKELETON, G_IMPLEMENT_INTERFACE (TYPE_FLASH, flash_skeleton_iface_init)); #endif static void flash_skeleton_finalize (GObject *object) { FlashSkeleton *skeleton = FLASH_SKELETON (object); guint n; for (n = 0; n < 5; n++) g_value_unset (&skeleton->priv->properties[n]); g_free (skeleton->priv->properties); g_list_free_full (skeleton->priv->changed_properties, (GDestroyNotify) _changed_property_free); if (skeleton->priv->changed_properties_idle_source != NULL) g_source_destroy (skeleton->priv->changed_properties_idle_source); g_main_context_unref (skeleton->priv->context); g_mutex_clear (&skeleton->priv->lock); G_OBJECT_CLASS (flash_skeleton_parent_class)->finalize (object); } static void flash_skeleton_get_property (GObject *object, guint prop_id, GValue *value, GParamSpec *pspec G_GNUC_UNUSED) { FlashSkeleton *skeleton = FLASH_SKELETON (object); g_assert (prop_id != 0 && prop_id - 1 < 5); g_mutex_lock (&skeleton->priv->lock); g_value_copy (&skeleton->priv->properties[prop_id - 1], value); g_mutex_unlock (&skeleton->priv->lock); } static gboolean _flash_emit_changed (gpointer user_data) { FlashSkeleton *skeleton = FLASH_SKELETON (user_data); GList *l; GVariantBuilder builder; GVariantBuilder invalidated_builder; guint num_changes; g_mutex_lock (&skeleton->priv->lock); g_variant_builder_init (&builder, G_VARIANT_TYPE ("a{sv}")); g_variant_builder_init (&invalidated_builder, G_VARIANT_TYPE ("as")); for (l = skeleton->priv->changed_properties, num_changes = 0; l != NULL; l = l->next) { ChangedProperty *cp = l->data; GVariant *variant; const GValue *cur_value; cur_value = &skeleton->priv->properties[cp->prop_id - 1]; if (!_g_value_equal (cur_value, &cp->orig_value)) { variant = g_dbus_gvalue_to_gvariant (cur_value, G_VARIANT_TYPE (cp->info->parent_struct.signature)); g_variant_builder_add (&builder, "{sv}", cp->info->parent_struct.name, variant); g_variant_unref (variant); num_changes++; } } if (num_changes > 0) { GList *connections, *ll; GVariant *signal_variant; signal_variant = g_variant_ref_sink (g_variant_new ("(sa{sv}as)", "org.openbmc.Flash", &builder, &invalidated_builder)); connections = g_dbus_interface_skeleton_get_connections (G_DBUS_INTERFACE_SKELETON (skeleton)); for (ll = connections; ll != NULL; ll = ll->next) { GDBusConnection *connection = ll->data; g_dbus_connection_emit_signal (connection, NULL, g_dbus_interface_skeleton_get_object_path (G_DBUS_INTERFACE_SKELETON (skeleton)), "org.freedesktop.DBus.Properties", "PropertiesChanged", signal_variant, NULL); } g_variant_unref (signal_variant); g_list_free_full (connections, g_object_unref); } else { g_variant_builder_clear (&builder); g_variant_builder_clear (&invalidated_builder); } g_list_free_full (skeleton->priv->changed_properties, (GDestroyNotify) _changed_property_free); skeleton->priv->changed_properties = NULL; skeleton->priv->changed_properties_idle_source = NULL; g_mutex_unlock (&skeleton->priv->lock); return FALSE; } static void _flash_schedule_emit_changed (FlashSkeleton *skeleton, const _ExtendedGDBusPropertyInfo *info, guint prop_id, const GValue *orig_value) { ChangedProperty *cp; GList *l; cp = NULL; for (l = skeleton->priv->changed_properties; l != NULL; l = l->next) { ChangedProperty *i_cp = l->data; if (i_cp->info == info) { cp = i_cp; break; } } if (cp == NULL) { cp = g_new0 (ChangedProperty, 1); cp->prop_id = prop_id; cp->info = info; skeleton->priv->changed_properties = g_list_prepend (skeleton->priv->changed_properties, cp); g_value_init (&cp->orig_value, G_VALUE_TYPE (orig_value)); g_value_copy (orig_value, &cp->orig_value); } } static void flash_skeleton_notify (GObject *object, GParamSpec *pspec G_GNUC_UNUSED) { FlashSkeleton *skeleton = FLASH_SKELETON (object); g_mutex_lock (&skeleton->priv->lock); if (skeleton->priv->changed_properties != NULL && skeleton->priv->changed_properties_idle_source == NULL) { skeleton->priv->changed_properties_idle_source = g_idle_source_new (); g_source_set_priority (skeleton->priv->changed_properties_idle_source, G_PRIORITY_DEFAULT); g_source_set_callback (skeleton->priv->changed_properties_idle_source, _flash_emit_changed, g_object_ref (skeleton), (GDestroyNotify) g_object_unref); g_source_set_name (skeleton->priv->changed_properties_idle_source, "[generated] _flash_emit_changed"); g_source_attach (skeleton->priv->changed_properties_idle_source, skeleton->priv->context); g_source_unref (skeleton->priv->changed_properties_idle_source); } g_mutex_unlock (&skeleton->priv->lock); } static void flash_skeleton_set_property (GObject *object, guint prop_id, const GValue *value, GParamSpec *pspec) { FlashSkeleton *skeleton = FLASH_SKELETON (object); g_assert (prop_id != 0 && prop_id - 1 < 5); g_mutex_lock (&skeleton->priv->lock); g_object_freeze_notify (object); if (!_g_value_equal (value, &skeleton->priv->properties[prop_id - 1])) { if (g_dbus_interface_skeleton_get_connection (G_DBUS_INTERFACE_SKELETON (skeleton)) != NULL) _flash_schedule_emit_changed (skeleton, _flash_property_info_pointers[prop_id - 1], prop_id, &skeleton->priv->properties[prop_id - 1]); g_value_copy (value, &skeleton->priv->properties[prop_id - 1]); g_object_notify_by_pspec (object, pspec); } g_mutex_unlock (&skeleton->priv->lock); g_object_thaw_notify (object); } static void flash_skeleton_init (FlashSkeleton *skeleton) { #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 skeleton->priv = flash_skeleton_get_instance_private (skeleton); #else skeleton->priv = G_TYPE_INSTANCE_GET_PRIVATE (skeleton, TYPE_FLASH_SKELETON, FlashSkeletonPrivate); #endif g_mutex_init (&skeleton->priv->lock); skeleton->priv->context = g_main_context_ref_thread_default (); skeleton->priv->properties = g_new0 (GValue, 5); g_value_init (&skeleton->priv->properties[0], G_TYPE_STRING); g_value_init (&skeleton->priv->properties[1], G_TYPE_STRING); g_value_init (&skeleton->priv->properties[2], G_TYPE_STRING); g_value_init (&skeleton->priv->properties[3], G_TYPE_STRING); g_value_init (&skeleton->priv->properties[4], G_TYPE_STRING); } static const gchar * flash_skeleton_get_filename (Flash *object) { FlashSkeleton *skeleton = FLASH_SKELETON (object); const gchar *value; g_mutex_lock (&skeleton->priv->lock); value = g_value_get_string (&(skeleton->priv->properties[0])); g_mutex_unlock (&skeleton->priv->lock); return value; } static const gchar * flash_skeleton_get_flasher_path (Flash *object) { FlashSkeleton *skeleton = FLASH_SKELETON (object); const gchar *value; g_mutex_lock (&skeleton->priv->lock); value = g_value_get_string (&(skeleton->priv->properties[1])); g_mutex_unlock (&skeleton->priv->lock); return value; } static const gchar * flash_skeleton_get_flasher_name (Flash *object) { FlashSkeleton *skeleton = FLASH_SKELETON (object); const gchar *value; g_mutex_lock (&skeleton->priv->lock); value = g_value_get_string (&(skeleton->priv->properties[2])); g_mutex_unlock (&skeleton->priv->lock); return value; } static const gchar * flash_skeleton_get_flasher_instance (Flash *object) { FlashSkeleton *skeleton = FLASH_SKELETON (object); const gchar *value; g_mutex_lock (&skeleton->priv->lock); value = g_value_get_string (&(skeleton->priv->properties[3])); g_mutex_unlock (&skeleton->priv->lock); return value; } static const gchar * flash_skeleton_get_status (Flash *object) { FlashSkeleton *skeleton = FLASH_SKELETON (object); const gchar *value; g_mutex_lock (&skeleton->priv->lock); value = g_value_get_string (&(skeleton->priv->properties[4])); g_mutex_unlock (&skeleton->priv->lock); return value; } static void flash_skeleton_class_init (FlashSkeletonClass *klass) { GObjectClass *gobject_class; GDBusInterfaceSkeletonClass *skeleton_class; gobject_class = G_OBJECT_CLASS (klass); gobject_class->finalize = flash_skeleton_finalize; gobject_class->get_property = flash_skeleton_get_property; gobject_class->set_property = flash_skeleton_set_property; gobject_class->notify = flash_skeleton_notify; flash_override_properties (gobject_class, 1); skeleton_class = G_DBUS_INTERFACE_SKELETON_CLASS (klass); skeleton_class->get_info = flash_skeleton_dbus_interface_get_info; skeleton_class->get_properties = flash_skeleton_dbus_interface_get_properties; skeleton_class->flush = flash_skeleton_dbus_interface_flush; skeleton_class->get_vtable = flash_skeleton_dbus_interface_get_vtable; #if GLIB_VERSION_MAX_ALLOWED < GLIB_VERSION_2_38 g_type_class_add_private (klass, sizeof (FlashSkeletonPrivate)); #endif } static void flash_skeleton_iface_init (FlashIface *iface) { iface->updated = _flash_on_signal_updated; iface->download = _flash_on_signal_download; iface->get_filename = flash_skeleton_get_filename; iface->get_flasher_path = flash_skeleton_get_flasher_path; iface->get_flasher_name = flash_skeleton_get_flasher_name; iface->get_flasher_instance = flash_skeleton_get_flasher_instance; iface->get_status = flash_skeleton_get_status; } /** * flash_skeleton_new: * * Creates a skeleton object for the D-Bus interface org.openbmc.Flash. * * Returns: (transfer full) (type FlashSkeleton): The skeleton object. */ Flash * flash_skeleton_new (void) { return FLASH (g_object_new (TYPE_FLASH_SKELETON, NULL)); } /* ------------------------------------------------------------------------ * Code for interface org.openbmc.FlashControl * ------------------------------------------------------------------------ */ /** * SECTION:FlashControl * @title: FlashControl * @short_description: Generated C code for the org.openbmc.FlashControl D-Bus interface * * This section contains code for working with the org.openbmc.FlashControl D-Bus interface in C. */ /* ---- Introspection data for org.openbmc.FlashControl ---- */ static const _ExtendedGDBusArgInfo _flash_control_method_info_flash_IN_ARG_type = { { -1, (gchar *) "type", (gchar *) "s", NULL }, FALSE }; static const _ExtendedGDBusArgInfo _flash_control_method_info_flash_IN_ARG_filename = { { -1, (gchar *) "filename", (gchar *) "s", NULL }, FALSE }; static const _ExtendedGDBusArgInfo * const _flash_control_method_info_flash_IN_ARG_pointers[] = { &_flash_control_method_info_flash_IN_ARG_type, &_flash_control_method_info_flash_IN_ARG_filename, NULL }; static const _ExtendedGDBusMethodInfo _flash_control_method_info_flash = { { -1, (gchar *) "flash", (GDBusArgInfo **) &_flash_control_method_info_flash_IN_ARG_pointers, NULL, NULL }, "handle-flash", FALSE }; static const _ExtendedGDBusMethodInfo * const _flash_control_method_info_pointers[] = { &_flash_control_method_info_flash, NULL }; static const _ExtendedGDBusArgInfo _flash_control_signal_info_done_ARG_filename = { { -1, (gchar *) "filename", (gchar *) "s", NULL }, FALSE }; static const _ExtendedGDBusArgInfo * const _flash_control_signal_info_done_ARG_pointers[] = { &_flash_control_signal_info_done_ARG_filename, NULL }; static const _ExtendedGDBusSignalInfo _flash_control_signal_info_done = { { -1, (gchar *) "Done", (GDBusArgInfo **) &_flash_control_signal_info_done_ARG_pointers, NULL }, "done" }; static const _ExtendedGDBusArgInfo _flash_control_signal_info_error_ARG_filename = { { -1, (gchar *) "filename", (gchar *) "s", NULL }, FALSE }; static const _ExtendedGDBusArgInfo * const _flash_control_signal_info_error_ARG_pointers[] = { &_flash_control_signal_info_error_ARG_filename, NULL }; static const _ExtendedGDBusSignalInfo _flash_control_signal_info_error = { { -1, (gchar *) "Error", (GDBusArgInfo **) &_flash_control_signal_info_error_ARG_pointers, NULL }, "error" }; static const _ExtendedGDBusArgInfo _flash_control_signal_info_progress_ARG_filename = { { -1, (gchar *) "filename", (gchar *) "s", NULL }, FALSE }; static const _ExtendedGDBusArgInfo _flash_control_signal_info_progress_ARG_progress = { { -1, (gchar *) "progress", (gchar *) "y", NULL }, FALSE }; static const _ExtendedGDBusArgInfo * const _flash_control_signal_info_progress_ARG_pointers[] = { &_flash_control_signal_info_progress_ARG_filename, &_flash_control_signal_info_progress_ARG_progress, NULL }; static const _ExtendedGDBusSignalInfo _flash_control_signal_info_progress = { { -1, (gchar *) "Progress", (GDBusArgInfo **) &_flash_control_signal_info_progress_ARG_pointers, NULL }, "progress" }; static const _ExtendedGDBusSignalInfo * const _flash_control_signal_info_pointers[] = { &_flash_control_signal_info_done, &_flash_control_signal_info_error, &_flash_control_signal_info_progress, NULL }; static const _ExtendedGDBusPropertyInfo _flash_control_property_info_filename = { { -1, (gchar *) "filename", (gchar *) "s", G_DBUS_PROPERTY_INFO_FLAGS_READABLE, NULL }, "filename", FALSE }; static const _ExtendedGDBusPropertyInfo _flash_control_property_info_type_ = { { -1, (gchar *) "type", (gchar *) "s", G_DBUS_PROPERTY_INFO_FLAGS_READABLE, NULL }, "type", FALSE }; static const _ExtendedGDBusPropertyInfo * const _flash_control_property_info_pointers[] = { &_flash_control_property_info_filename, &_flash_control_property_info_type_, NULL }; static const _ExtendedGDBusInterfaceInfo _flash_control_interface_info = { { -1, (gchar *) "org.openbmc.FlashControl", (GDBusMethodInfo **) &_flash_control_method_info_pointers, (GDBusSignalInfo **) &_flash_control_signal_info_pointers, (GDBusPropertyInfo **) &_flash_control_property_info_pointers, NULL }, "flash-control", }; /** * flash_control_interface_info: * * Gets a machine-readable description of the org.openbmc.FlashControl D-Bus interface. * * Returns: (transfer none): A #GDBusInterfaceInfo. Do not free. */ GDBusInterfaceInfo * flash_control_interface_info (void) { return (GDBusInterfaceInfo *) &_flash_control_interface_info.parent_struct; } /** * flash_control_override_properties: * @klass: The class structure for a #GObject-derived class. * @property_id_begin: The property id to assign to the first overridden property. * * Overrides all #GObject properties in the #FlashControl interface for a concrete class. * The properties are overridden in the order they are defined. * * Returns: The last property id. */ guint flash_control_override_properties (GObjectClass *klass, guint property_id_begin) { g_object_class_override_property (klass, property_id_begin++, "filename"); g_object_class_override_property (klass, property_id_begin++, "type"); return property_id_begin - 1; } /** * FlashControl: * * Abstract interface type for the D-Bus interface org.openbmc.FlashControl. */ /** * FlashControlIface: * @parent_iface: The parent interface. * @handle_flash: Handler for the #FlashControl::handle-flash signal. * @get_filename: Getter for the #FlashControl:filename property. * @get_type_: Getter for the #FlashControl:type property. * @done: Handler for the #FlashControl::done signal. * @error: Handler for the #FlashControl::error signal. * @progress: Handler for the #FlashControl::progress signal. * * Virtual table for the D-Bus interface org.openbmc.FlashControl. */ typedef FlashControlIface FlashControlInterface; G_DEFINE_INTERFACE (FlashControl, flash_control, G_TYPE_OBJECT); static void flash_control_default_init (FlashControlIface *iface) { /* GObject signals for incoming D-Bus method calls: */ /** * FlashControl::handle-flash: * @object: A #FlashControl. * @invocation: A #GDBusMethodInvocation. * @arg_type: Argument passed by remote caller. * @arg_filename: Argument passed by remote caller. * * Signal emitted when a remote caller is invoking the flash() D-Bus method. * * If a signal handler returns %TRUE, it means the signal handler will handle the invocation (e.g. take a reference to @invocation and eventually call flash_control_complete_flash() or e.g. g_dbus_method_invocation_return_error() on it) and no order signal handlers will run. If no signal handler handles the invocation, the %G_DBUS_ERROR_UNKNOWN_METHOD error is returned. * * Returns: %TRUE if the invocation was handled, %FALSE to let other signal handlers run. */ g_signal_new ("handle-flash", G_TYPE_FROM_INTERFACE (iface), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (FlashControlIface, handle_flash), g_signal_accumulator_true_handled, NULL, g_cclosure_marshal_generic, G_TYPE_BOOLEAN, 3, G_TYPE_DBUS_METHOD_INVOCATION, G_TYPE_STRING, G_TYPE_STRING); /* GObject signals for received D-Bus signals: */ /** * FlashControl::done: * @object: A #FlashControl. * @arg_filename: Argument. * * On the client-side, this signal is emitted whenever the D-Bus signal "Done" is received. * * On the service-side, this signal can be used with e.g. g_signal_emit_by_name() to make the object emit the D-Bus signal. */ g_signal_new ("done", G_TYPE_FROM_INTERFACE (iface), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (FlashControlIface, done), NULL, NULL, g_cclosure_marshal_generic, G_TYPE_NONE, 1, G_TYPE_STRING); /** * FlashControl::error: * @object: A #FlashControl. * @arg_filename: Argument. * * On the client-side, this signal is emitted whenever the D-Bus signal "Error" is received. * * On the service-side, this signal can be used with e.g. g_signal_emit_by_name() to make the object emit the D-Bus signal. */ g_signal_new ("error", G_TYPE_FROM_INTERFACE (iface), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (FlashControlIface, error), NULL, NULL, g_cclosure_marshal_generic, G_TYPE_NONE, 1, G_TYPE_STRING); /** * FlashControl::progress: * @object: A #FlashControl. * @arg_filename: Argument. * @arg_progress: Argument. * * On the client-side, this signal is emitted whenever the D-Bus signal "Progress" is received. * * On the service-side, this signal can be used with e.g. g_signal_emit_by_name() to make the object emit the D-Bus signal. */ g_signal_new ("progress", G_TYPE_FROM_INTERFACE (iface), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (FlashControlIface, progress), NULL, NULL, g_cclosure_marshal_generic, G_TYPE_NONE, 2, G_TYPE_STRING, G_TYPE_UCHAR); /* GObject properties for D-Bus properties: */ /** * FlashControl:filename: * * Represents the D-Bus property "filename". * * Since the D-Bus property for this #GObject property is readable but not writable, it is meaningful to read from it on both the client- and service-side. It is only meaningful, however, to write to it on the service-side. */ g_object_interface_install_property (iface, g_param_spec_string ("filename", "filename", "filename", NULL, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS)); /** * FlashControl:type: * * Represents the D-Bus property "type". * * Since the D-Bus property for this #GObject property is readable but not writable, it is meaningful to read from it on both the client- and service-side. It is only meaningful, however, to write to it on the service-side. */ g_object_interface_install_property (iface, g_param_spec_string ("type", "type", "type", NULL, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS)); } /** * flash_control_get_filename: (skip) * @object: A #FlashControl. * * Gets the value of the "filename" D-Bus property. * * Since this D-Bus property is readable, it is meaningful to use this function on both the client- and service-side. * * The returned value is only valid until the property changes so on the client-side it is only safe to use this function on the thread where @object was constructed. Use flash_control_dup_filename() if on another thread. * * Returns: (transfer none): The property value or %NULL if the property is not set. Do not free the returned value, it belongs to @object. */ const gchar * flash_control_get_filename (FlashControl *object) { return FLASH_CONTROL_GET_IFACE (object)->get_filename (object); } /** * flash_control_dup_filename: (skip) * @object: A #FlashControl. * * Gets a copy of the "filename" D-Bus property. * * Since this D-Bus property is readable, it is meaningful to use this function on both the client- and service-side. * * Returns: (transfer full): The property value or %NULL if the property is not set. The returned value should be freed with g_free(). */ gchar * flash_control_dup_filename (FlashControl *object) { gchar *value; g_object_get (G_OBJECT (object), "filename", &value, NULL); return value; } /** * flash_control_set_filename: (skip) * @object: A #FlashControl. * @value: The value to set. * * Sets the "filename" D-Bus property to @value. * * Since this D-Bus property is not writable, it is only meaningful to use this function on the service-side. */ void flash_control_set_filename (FlashControl *object, const gchar *value) { g_object_set (G_OBJECT (object), "filename", value, NULL); } /** * flash_control_get_type_: (skip) * @object: A #FlashControl. * * Gets the value of the "type" D-Bus property. * * Since this D-Bus property is readable, it is meaningful to use this function on both the client- and service-side. * * The returned value is only valid until the property changes so on the client-side it is only safe to use this function on the thread where @object was constructed. Use flash_control_dup_type_() if on another thread. * * Returns: (transfer none): The property value or %NULL if the property is not set. Do not free the returned value, it belongs to @object. */ const gchar * flash_control_get_type_ (FlashControl *object) { return FLASH_CONTROL_GET_IFACE (object)->get_type_ (object); } /** * flash_control_dup_type_: (skip) * @object: A #FlashControl. * * Gets a copy of the "type" D-Bus property. * * Since this D-Bus property is readable, it is meaningful to use this function on both the client- and service-side. * * Returns: (transfer full): The property value or %NULL if the property is not set. The returned value should be freed with g_free(). */ gchar * flash_control_dup_type_ (FlashControl *object) { gchar *value; g_object_get (G_OBJECT (object), "type", &value, NULL); return value; } /** * flash_control_set_type_: (skip) * @object: A #FlashControl. * @value: The value to set. * * Sets the "type" D-Bus property to @value. * * Since this D-Bus property is not writable, it is only meaningful to use this function on the service-side. */ void flash_control_set_type_ (FlashControl *object, const gchar *value) { g_object_set (G_OBJECT (object), "type", value, NULL); } /** * flash_control_emit_done: * @object: A #FlashControl. * @arg_filename: Argument to pass with the signal. * * Emits the "Done" D-Bus signal. */ void flash_control_emit_done ( FlashControl *object, const gchar *arg_filename) { g_signal_emit_by_name (object, "done", arg_filename); } /** * flash_control_emit_error: * @object: A #FlashControl. * @arg_filename: Argument to pass with the signal. * * Emits the "Error" D-Bus signal. */ void flash_control_emit_error ( FlashControl *object, const gchar *arg_filename) { g_signal_emit_by_name (object, "error", arg_filename); } /** * flash_control_emit_progress: * @object: A #FlashControl. * @arg_filename: Argument to pass with the signal. * @arg_progress: Argument to pass with the signal. * * Emits the "Progress" D-Bus signal. */ void flash_control_emit_progress ( FlashControl *object, const gchar *arg_filename, guchar arg_progress) { g_signal_emit_by_name (object, "progress", arg_filename, arg_progress); } /** * flash_control_call_flash: * @proxy: A #FlashControlProxy. * @arg_type: Argument to pass with the method invocation. * @arg_filename: Argument to pass with the method invocation. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied or %NULL. * @user_data: User data to pass to @callback. * * Asynchronously invokes the flash() D-Bus method on @proxy. * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call flash_control_call_flash_finish() to get the result of the operation. * * See flash_control_call_flash_sync() for the synchronous, blocking version of this method. */ void flash_control_call_flash ( FlashControl *proxy, const gchar *arg_type, const gchar *arg_filename, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_dbus_proxy_call (G_DBUS_PROXY (proxy), "flash", g_variant_new ("(ss)", arg_type, arg_filename), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, callback, user_data); } /** * flash_control_call_flash_finish: * @proxy: A #FlashControlProxy. * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to flash_control_call_flash(). * @error: Return location for error or %NULL. * * Finishes an operation started with flash_control_call_flash(). * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean flash_control_call_flash_finish ( FlashControl *proxy, GAsyncResult *res, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_finish (G_DBUS_PROXY (proxy), res, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "()"); g_variant_unref (_ret); _out: return _ret != NULL; } /** * flash_control_call_flash_sync: * @proxy: A #FlashControlProxy. * @arg_type: Argument to pass with the method invocation. * @arg_filename: Argument to pass with the method invocation. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL. * * Synchronously invokes the flash() D-Bus method on @proxy. The calling thread is blocked until a reply is received. * * See flash_control_call_flash() for the asynchronous version of this method. * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean flash_control_call_flash_sync ( FlashControl *proxy, const gchar *arg_type, const gchar *arg_filename, GCancellable *cancellable, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_sync (G_DBUS_PROXY (proxy), "flash", g_variant_new ("(ss)", arg_type, arg_filename), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "()"); g_variant_unref (_ret); _out: return _ret != NULL; } /** * flash_control_complete_flash: * @object: A #FlashControl. * @invocation: (transfer full): A #GDBusMethodInvocation. * * Helper function used in service implementations to finish handling invocations of the flash() D-Bus method. If you instead want to finish handling an invocation by returning an error, use g_dbus_method_invocation_return_error() or similar. * * This method will free @invocation, you cannot use it afterwards. */ void flash_control_complete_flash ( FlashControl *object, GDBusMethodInvocation *invocation) { g_dbus_method_invocation_return_value (invocation, g_variant_new ("()")); } /* ------------------------------------------------------------------------ */ /** * FlashControlProxy: * * The #FlashControlProxy structure contains only private data and should only be accessed using the provided API. */ /** * FlashControlProxyClass: * @parent_class: The parent class. * * Class structure for #FlashControlProxy. */ struct _FlashControlProxyPrivate { GData *qdata; }; static void flash_control_proxy_iface_init (FlashControlIface *iface); #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 G_DEFINE_TYPE_WITH_CODE (FlashControlProxy, flash_control_proxy, G_TYPE_DBUS_PROXY, G_ADD_PRIVATE (FlashControlProxy) G_IMPLEMENT_INTERFACE (TYPE_FLASH_CONTROL, flash_control_proxy_iface_init)); #else G_DEFINE_TYPE_WITH_CODE (FlashControlProxy, flash_control_proxy, G_TYPE_DBUS_PROXY, G_IMPLEMENT_INTERFACE (TYPE_FLASH_CONTROL, flash_control_proxy_iface_init)); #endif static void flash_control_proxy_finalize (GObject *object) { FlashControlProxy *proxy = FLASH_CONTROL_PROXY (object); g_datalist_clear (&proxy->priv->qdata); G_OBJECT_CLASS (flash_control_proxy_parent_class)->finalize (object); } static void flash_control_proxy_get_property (GObject *object, guint prop_id, GValue *value, GParamSpec *pspec G_GNUC_UNUSED) { const _ExtendedGDBusPropertyInfo *info; GVariant *variant; g_assert (prop_id != 0 && prop_id - 1 < 2); info = _flash_control_property_info_pointers[prop_id - 1]; variant = g_dbus_proxy_get_cached_property (G_DBUS_PROXY (object), info->parent_struct.name); if (info->use_gvariant) { g_value_set_variant (value, variant); } else { if (variant != NULL) g_dbus_gvariant_to_gvalue (variant, value); } if (variant != NULL) g_variant_unref (variant); } static void flash_control_proxy_set_property_cb (GDBusProxy *proxy, GAsyncResult *res, gpointer user_data) { const _ExtendedGDBusPropertyInfo *info = user_data; GError *error; GVariant *_ret; error = NULL; _ret = g_dbus_proxy_call_finish (proxy, res, &error); if (!_ret) { g_warning ("Error setting property '%s' on interface org.openbmc.FlashControl: %s (%s, %d)", info->parent_struct.name, error->message, g_quark_to_string (error->domain), error->code); g_error_free (error); } else { g_variant_unref (_ret); } } static void flash_control_proxy_set_property (GObject *object, guint prop_id, const GValue *value, GParamSpec *pspec G_GNUC_UNUSED) { const _ExtendedGDBusPropertyInfo *info; GVariant *variant; g_assert (prop_id != 0 && prop_id - 1 < 2); info = _flash_control_property_info_pointers[prop_id - 1]; variant = g_dbus_gvalue_to_gvariant (value, G_VARIANT_TYPE (info->parent_struct.signature)); g_dbus_proxy_call (G_DBUS_PROXY (object), "org.freedesktop.DBus.Properties.Set", g_variant_new ("(ssv)", "org.openbmc.FlashControl", info->parent_struct.name, variant), G_DBUS_CALL_FLAGS_NONE, -1, NULL, (GAsyncReadyCallback) flash_control_proxy_set_property_cb, (GDBusPropertyInfo *) &info->parent_struct); g_variant_unref (variant); } static void flash_control_proxy_g_signal (GDBusProxy *proxy, const gchar *sender_name G_GNUC_UNUSED, const gchar *signal_name, GVariant *parameters) { _ExtendedGDBusSignalInfo *info; GVariantIter iter; GVariant *child; GValue *paramv; guint num_params; guint n; guint signal_id; info = (_ExtendedGDBusSignalInfo *) g_dbus_interface_info_lookup_signal ((GDBusInterfaceInfo *) &_flash_control_interface_info.parent_struct, signal_name); if (info == NULL) return; num_params = g_variant_n_children (parameters); paramv = g_new0 (GValue, num_params + 1); g_value_init (¶mv[0], TYPE_FLASH_CONTROL); g_value_set_object (¶mv[0], proxy); g_variant_iter_init (&iter, parameters); n = 1; while ((child = g_variant_iter_next_value (&iter)) != NULL) { _ExtendedGDBusArgInfo *arg_info = (_ExtendedGDBusArgInfo *) info->parent_struct.args[n - 1]; if (arg_info->use_gvariant) { g_value_init (¶mv[n], G_TYPE_VARIANT); g_value_set_variant (¶mv[n], child); n++; } else g_dbus_gvariant_to_gvalue (child, ¶mv[n++]); g_variant_unref (child); } signal_id = g_signal_lookup (info->signal_name, TYPE_FLASH_CONTROL); g_signal_emitv (paramv, signal_id, 0, NULL); for (n = 0; n < num_params + 1; n++) g_value_unset (¶mv[n]); g_free (paramv); } static void flash_control_proxy_g_properties_changed (GDBusProxy *_proxy, GVariant *changed_properties, const gchar *const *invalidated_properties) { FlashControlProxy *proxy = FLASH_CONTROL_PROXY (_proxy); guint n; const gchar *key; GVariantIter *iter; _ExtendedGDBusPropertyInfo *info; g_variant_get (changed_properties, "a{sv}", &iter); while (g_variant_iter_next (iter, "{&sv}", &key, NULL)) { info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_flash_control_interface_info.parent_struct, key); g_datalist_remove_data (&proxy->priv->qdata, key); if (info != NULL) g_object_notify (G_OBJECT (proxy), info->hyphen_name); } g_variant_iter_free (iter); for (n = 0; invalidated_properties[n] != NULL; n++) { info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_flash_control_interface_info.parent_struct, invalidated_properties[n]); g_datalist_remove_data (&proxy->priv->qdata, invalidated_properties[n]); if (info != NULL) g_object_notify (G_OBJECT (proxy), info->hyphen_name); } } static const gchar * flash_control_proxy_get_filename (FlashControl *object) { FlashControlProxy *proxy = FLASH_CONTROL_PROXY (object); GVariant *variant; const gchar *value = NULL; variant = g_dbus_proxy_get_cached_property (G_DBUS_PROXY (proxy), "filename"); if (variant != NULL) { value = g_variant_get_string (variant, NULL); g_variant_unref (variant); } return value; } static const gchar * flash_control_proxy_get_type_ (FlashControl *object) { FlashControlProxy *proxy = FLASH_CONTROL_PROXY (object); GVariant *variant; const gchar *value = NULL; variant = g_dbus_proxy_get_cached_property (G_DBUS_PROXY (proxy), "type"); if (variant != NULL) { value = g_variant_get_string (variant, NULL); g_variant_unref (variant); } return value; } static void flash_control_proxy_init (FlashControlProxy *proxy) { #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 proxy->priv = flash_control_proxy_get_instance_private (proxy); #else proxy->priv = G_TYPE_INSTANCE_GET_PRIVATE (proxy, TYPE_FLASH_CONTROL_PROXY, FlashControlProxyPrivate); #endif g_dbus_proxy_set_interface_info (G_DBUS_PROXY (proxy), flash_control_interface_info ()); } static void flash_control_proxy_class_init (FlashControlProxyClass *klass) { GObjectClass *gobject_class; GDBusProxyClass *proxy_class; gobject_class = G_OBJECT_CLASS (klass); gobject_class->finalize = flash_control_proxy_finalize; gobject_class->get_property = flash_control_proxy_get_property; gobject_class->set_property = flash_control_proxy_set_property; proxy_class = G_DBUS_PROXY_CLASS (klass); proxy_class->g_signal = flash_control_proxy_g_signal; proxy_class->g_properties_changed = flash_control_proxy_g_properties_changed; flash_control_override_properties (gobject_class, 1); #if GLIB_VERSION_MAX_ALLOWED < GLIB_VERSION_2_38 g_type_class_add_private (klass, sizeof (FlashControlProxyPrivate)); #endif } static void flash_control_proxy_iface_init (FlashControlIface *iface) { iface->get_filename = flash_control_proxy_get_filename; iface->get_type_ = flash_control_proxy_get_type_; } /** * flash_control_proxy_new: * @connection: A #GDBusConnection. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: (allow-none): A bus name (well-known or unique) or %NULL if @connection is not a message bus connection. * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied. * @user_data: User data to pass to @callback. * * Asynchronously creates a proxy for the D-Bus interface org.openbmc.FlashControl. See g_dbus_proxy_new() for more details. * * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call flash_control_proxy_new_finish() to get the result of the operation. * * See flash_control_proxy_new_sync() for the synchronous, blocking version of this constructor. */ void flash_control_proxy_new ( GDBusConnection *connection, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_async_initable_new_async (TYPE_FLASH_CONTROL_PROXY, G_PRIORITY_DEFAULT, cancellable, callback, user_data, "g-flags", flags, "g-name", name, "g-connection", connection, "g-object-path", object_path, "g-interface-name", "org.openbmc.FlashControl", NULL); } /** * flash_control_proxy_new_finish: * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to flash_control_proxy_new(). * @error: Return location for error or %NULL * * Finishes an operation started with flash_control_proxy_new(). * * Returns: (transfer full) (type FlashControlProxy): The constructed proxy object or %NULL if @error is set. */ FlashControl * flash_control_proxy_new_finish ( GAsyncResult *res, GError **error) { GObject *ret; GObject *source_object; source_object = g_async_result_get_source_object (res); ret = g_async_initable_new_finish (G_ASYNC_INITABLE (source_object), res, error); g_object_unref (source_object); if (ret != NULL) return FLASH_CONTROL (ret); else return NULL; } /** * flash_control_proxy_new_sync: * @connection: A #GDBusConnection. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: (allow-none): A bus name (well-known or unique) or %NULL if @connection is not a message bus connection. * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL * * Synchronously creates a proxy for the D-Bus interface org.openbmc.FlashControl. See g_dbus_proxy_new_sync() for more details. * * The calling thread is blocked until a reply is received. * * See flash_control_proxy_new() for the asynchronous version of this constructor. * * Returns: (transfer full) (type FlashControlProxy): The constructed proxy object or %NULL if @error is set. */ FlashControl * flash_control_proxy_new_sync ( GDBusConnection *connection, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GError **error) { GInitable *ret; ret = g_initable_new (TYPE_FLASH_CONTROL_PROXY, cancellable, error, "g-flags", flags, "g-name", name, "g-connection", connection, "g-object-path", object_path, "g-interface-name", "org.openbmc.FlashControl", NULL); if (ret != NULL) return FLASH_CONTROL (ret); else return NULL; } /** * flash_control_proxy_new_for_bus: * @bus_type: A #GBusType. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: A bus name (well-known or unique). * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied. * @user_data: User data to pass to @callback. * * Like flash_control_proxy_new() but takes a #GBusType instead of a #GDBusConnection. * * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call flash_control_proxy_new_for_bus_finish() to get the result of the operation. * * See flash_control_proxy_new_for_bus_sync() for the synchronous, blocking version of this constructor. */ void flash_control_proxy_new_for_bus ( GBusType bus_type, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_async_initable_new_async (TYPE_FLASH_CONTROL_PROXY, G_PRIORITY_DEFAULT, cancellable, callback, user_data, "g-flags", flags, "g-name", name, "g-bus-type", bus_type, "g-object-path", object_path, "g-interface-name", "org.openbmc.FlashControl", NULL); } /** * flash_control_proxy_new_for_bus_finish: * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to flash_control_proxy_new_for_bus(). * @error: Return location for error or %NULL * * Finishes an operation started with flash_control_proxy_new_for_bus(). * * Returns: (transfer full) (type FlashControlProxy): The constructed proxy object or %NULL if @error is set. */ FlashControl * flash_control_proxy_new_for_bus_finish ( GAsyncResult *res, GError **error) { GObject *ret; GObject *source_object; source_object = g_async_result_get_source_object (res); ret = g_async_initable_new_finish (G_ASYNC_INITABLE (source_object), res, error); g_object_unref (source_object); if (ret != NULL) return FLASH_CONTROL (ret); else return NULL; } /** * flash_control_proxy_new_for_bus_sync: * @bus_type: A #GBusType. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: A bus name (well-known or unique). * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL * * Like flash_control_proxy_new_sync() but takes a #GBusType instead of a #GDBusConnection. * * The calling thread is blocked until a reply is received. * * See flash_control_proxy_new_for_bus() for the asynchronous version of this constructor. * * Returns: (transfer full) (type FlashControlProxy): The constructed proxy object or %NULL if @error is set. */ FlashControl * flash_control_proxy_new_for_bus_sync ( GBusType bus_type, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GError **error) { GInitable *ret; ret = g_initable_new (TYPE_FLASH_CONTROL_PROXY, cancellable, error, "g-flags", flags, "g-name", name, "g-bus-type", bus_type, "g-object-path", object_path, "g-interface-name", "org.openbmc.FlashControl", NULL); if (ret != NULL) return FLASH_CONTROL (ret); else return NULL; } /* ------------------------------------------------------------------------ */ /** * FlashControlSkeleton: * * The #FlashControlSkeleton structure contains only private data and should only be accessed using the provided API. */ /** * FlashControlSkeletonClass: * @parent_class: The parent class. * * Class structure for #FlashControlSkeleton. */ struct _FlashControlSkeletonPrivate { GValue *properties; GList *changed_properties; GSource *changed_properties_idle_source; GMainContext *context; GMutex lock; }; static void _flash_control_skeleton_handle_method_call ( GDBusConnection *connection G_GNUC_UNUSED, const gchar *sender G_GNUC_UNUSED, const gchar *object_path G_GNUC_UNUSED, const gchar *interface_name, const gchar *method_name, GVariant *parameters, GDBusMethodInvocation *invocation, gpointer user_data) { FlashControlSkeleton *skeleton = FLASH_CONTROL_SKELETON (user_data); _ExtendedGDBusMethodInfo *info; GVariantIter iter; GVariant *child; GValue *paramv; guint num_params; guint num_extra; guint n; guint signal_id; GValue return_value = G_VALUE_INIT; info = (_ExtendedGDBusMethodInfo *) g_dbus_method_invocation_get_method_info (invocation); g_assert (info != NULL); num_params = g_variant_n_children (parameters); num_extra = info->pass_fdlist ? 3 : 2; paramv = g_new0 (GValue, num_params + num_extra); n = 0; g_value_init (¶mv[n], TYPE_FLASH_CONTROL); g_value_set_object (¶mv[n++], skeleton); g_value_init (¶mv[n], G_TYPE_DBUS_METHOD_INVOCATION); g_value_set_object (¶mv[n++], invocation); if (info->pass_fdlist) { #ifdef G_OS_UNIX g_value_init (¶mv[n], G_TYPE_UNIX_FD_LIST); g_value_set_object (¶mv[n++], g_dbus_message_get_unix_fd_list (g_dbus_method_invocation_get_message (invocation))); #else g_assert_not_reached (); #endif } g_variant_iter_init (&iter, parameters); while ((child = g_variant_iter_next_value (&iter)) != NULL) { _ExtendedGDBusArgInfo *arg_info = (_ExtendedGDBusArgInfo *) info->parent_struct.in_args[n - num_extra]; if (arg_info->use_gvariant) { g_value_init (¶mv[n], G_TYPE_VARIANT); g_value_set_variant (¶mv[n], child); n++; } else g_dbus_gvariant_to_gvalue (child, ¶mv[n++]); g_variant_unref (child); } signal_id = g_signal_lookup (info->signal_name, TYPE_FLASH_CONTROL); g_value_init (&return_value, G_TYPE_BOOLEAN); g_signal_emitv (paramv, signal_id, 0, &return_value); if (!g_value_get_boolean (&return_value)) g_dbus_method_invocation_return_error (invocation, G_DBUS_ERROR, G_DBUS_ERROR_UNKNOWN_METHOD, "Method %s is not implemented on interface %s", method_name, interface_name); g_value_unset (&return_value); for (n = 0; n < num_params + num_extra; n++) g_value_unset (¶mv[n]); g_free (paramv); } static GVariant * _flash_control_skeleton_handle_get_property ( GDBusConnection *connection G_GNUC_UNUSED, const gchar *sender G_GNUC_UNUSED, const gchar *object_path G_GNUC_UNUSED, const gchar *interface_name G_GNUC_UNUSED, const gchar *property_name, GError **error, gpointer user_data) { FlashControlSkeleton *skeleton = FLASH_CONTROL_SKELETON (user_data); GValue value = G_VALUE_INIT; GParamSpec *pspec; _ExtendedGDBusPropertyInfo *info; GVariant *ret; ret = NULL; info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_flash_control_interface_info.parent_struct, property_name); g_assert (info != NULL); pspec = g_object_class_find_property (G_OBJECT_GET_CLASS (skeleton), info->hyphen_name); if (pspec == NULL) { g_set_error (error, G_DBUS_ERROR, G_DBUS_ERROR_INVALID_ARGS, "No property with name %s", property_name); } else { g_value_init (&value, pspec->value_type); g_object_get_property (G_OBJECT (skeleton), info->hyphen_name, &value); ret = g_dbus_gvalue_to_gvariant (&value, G_VARIANT_TYPE (info->parent_struct.signature)); g_value_unset (&value); } return ret; } static gboolean _flash_control_skeleton_handle_set_property ( GDBusConnection *connection G_GNUC_UNUSED, const gchar *sender G_GNUC_UNUSED, const gchar *object_path G_GNUC_UNUSED, const gchar *interface_name G_GNUC_UNUSED, const gchar *property_name, GVariant *variant, GError **error, gpointer user_data) { FlashControlSkeleton *skeleton = FLASH_CONTROL_SKELETON (user_data); GValue value = G_VALUE_INIT; GParamSpec *pspec; _ExtendedGDBusPropertyInfo *info; gboolean ret; ret = FALSE; info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_flash_control_interface_info.parent_struct, property_name); g_assert (info != NULL); pspec = g_object_class_find_property (G_OBJECT_GET_CLASS (skeleton), info->hyphen_name); if (pspec == NULL) { g_set_error (error, G_DBUS_ERROR, G_DBUS_ERROR_INVALID_ARGS, "No property with name %s", property_name); } else { if (info->use_gvariant) g_value_set_variant (&value, variant); else g_dbus_gvariant_to_gvalue (variant, &value); g_object_set_property (G_OBJECT (skeleton), info->hyphen_name, &value); g_value_unset (&value); ret = TRUE; } return ret; } static const GDBusInterfaceVTable _flash_control_skeleton_vtable = { _flash_control_skeleton_handle_method_call, _flash_control_skeleton_handle_get_property, _flash_control_skeleton_handle_set_property, {NULL} }; static GDBusInterfaceInfo * flash_control_skeleton_dbus_interface_get_info (GDBusInterfaceSkeleton *skeleton G_GNUC_UNUSED) { return flash_control_interface_info (); } static GDBusInterfaceVTable * flash_control_skeleton_dbus_interface_get_vtable (GDBusInterfaceSkeleton *skeleton G_GNUC_UNUSED) { return (GDBusInterfaceVTable *) &_flash_control_skeleton_vtable; } static GVariant * flash_control_skeleton_dbus_interface_get_properties (GDBusInterfaceSkeleton *_skeleton) { FlashControlSkeleton *skeleton = FLASH_CONTROL_SKELETON (_skeleton); GVariantBuilder builder; guint n; g_variant_builder_init (&builder, G_VARIANT_TYPE ("a{sv}")); if (_flash_control_interface_info.parent_struct.properties == NULL) goto out; for (n = 0; _flash_control_interface_info.parent_struct.properties[n] != NULL; n++) { GDBusPropertyInfo *info = _flash_control_interface_info.parent_struct.properties[n]; if (info->flags & G_DBUS_PROPERTY_INFO_FLAGS_READABLE) { GVariant *value; value = _flash_control_skeleton_handle_get_property (g_dbus_interface_skeleton_get_connection (G_DBUS_INTERFACE_SKELETON (skeleton)), NULL, g_dbus_interface_skeleton_get_object_path (G_DBUS_INTERFACE_SKELETON (skeleton)), "org.openbmc.FlashControl", info->name, NULL, skeleton); if (value != NULL) { g_variant_take_ref (value); g_variant_builder_add (&builder, "{sv}", info->name, value); g_variant_unref (value); } } } out: return g_variant_builder_end (&builder); } static gboolean _flash_control_emit_changed (gpointer user_data); static void flash_control_skeleton_dbus_interface_flush (GDBusInterfaceSkeleton *_skeleton) { FlashControlSkeleton *skeleton = FLASH_CONTROL_SKELETON (_skeleton); gboolean emit_changed = FALSE; g_mutex_lock (&skeleton->priv->lock); if (skeleton->priv->changed_properties_idle_source != NULL) { g_source_destroy (skeleton->priv->changed_properties_idle_source); skeleton->priv->changed_properties_idle_source = NULL; emit_changed = TRUE; } g_mutex_unlock (&skeleton->priv->lock); if (emit_changed) _flash_control_emit_changed (skeleton); } static void _flash_control_on_signal_done ( FlashControl *object, const gchar *arg_filename) { FlashControlSkeleton *skeleton = FLASH_CONTROL_SKELETON (object); GList *connections, *l; GVariant *signal_variant; connections = g_dbus_interface_skeleton_get_connections (G_DBUS_INTERFACE_SKELETON (skeleton)); signal_variant = g_variant_ref_sink (g_variant_new ("(s)", arg_filename)); for (l = connections; l != NULL; l = l->next) { GDBusConnection *connection = l->data; g_dbus_connection_emit_signal (connection, NULL, g_dbus_interface_skeleton_get_object_path (G_DBUS_INTERFACE_SKELETON (skeleton)), "org.openbmc.FlashControl", "Done", signal_variant, NULL); } g_variant_unref (signal_variant); g_list_free_full (connections, g_object_unref); } static void _flash_control_on_signal_error ( FlashControl *object, const gchar *arg_filename) { FlashControlSkeleton *skeleton = FLASH_CONTROL_SKELETON (object); GList *connections, *l; GVariant *signal_variant; connections = g_dbus_interface_skeleton_get_connections (G_DBUS_INTERFACE_SKELETON (skeleton)); signal_variant = g_variant_ref_sink (g_variant_new ("(s)", arg_filename)); for (l = connections; l != NULL; l = l->next) { GDBusConnection *connection = l->data; g_dbus_connection_emit_signal (connection, NULL, g_dbus_interface_skeleton_get_object_path (G_DBUS_INTERFACE_SKELETON (skeleton)), "org.openbmc.FlashControl", "Error", signal_variant, NULL); } g_variant_unref (signal_variant); g_list_free_full (connections, g_object_unref); } static void _flash_control_on_signal_progress ( FlashControl *object, const gchar *arg_filename, guchar arg_progress) { FlashControlSkeleton *skeleton = FLASH_CONTROL_SKELETON (object); GList *connections, *l; GVariant *signal_variant; connections = g_dbus_interface_skeleton_get_connections (G_DBUS_INTERFACE_SKELETON (skeleton)); signal_variant = g_variant_ref_sink (g_variant_new ("(sy)", arg_filename, arg_progress)); for (l = connections; l != NULL; l = l->next) { GDBusConnection *connection = l->data; g_dbus_connection_emit_signal (connection, NULL, g_dbus_interface_skeleton_get_object_path (G_DBUS_INTERFACE_SKELETON (skeleton)), "org.openbmc.FlashControl", "Progress", signal_variant, NULL); } g_variant_unref (signal_variant); g_list_free_full (connections, g_object_unref); } static void flash_control_skeleton_iface_init (FlashControlIface *iface); #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 G_DEFINE_TYPE_WITH_CODE (FlashControlSkeleton, flash_control_skeleton, G_TYPE_DBUS_INTERFACE_SKELETON, G_ADD_PRIVATE (FlashControlSkeleton) G_IMPLEMENT_INTERFACE (TYPE_FLASH_CONTROL, flash_control_skeleton_iface_init)); #else G_DEFINE_TYPE_WITH_CODE (FlashControlSkeleton, flash_control_skeleton, G_TYPE_DBUS_INTERFACE_SKELETON, G_IMPLEMENT_INTERFACE (TYPE_FLASH_CONTROL, flash_control_skeleton_iface_init)); #endif static void flash_control_skeleton_finalize (GObject *object) { FlashControlSkeleton *skeleton = FLASH_CONTROL_SKELETON (object); guint n; for (n = 0; n < 2; n++) g_value_unset (&skeleton->priv->properties[n]); g_free (skeleton->priv->properties); g_list_free_full (skeleton->priv->changed_properties, (GDestroyNotify) _changed_property_free); if (skeleton->priv->changed_properties_idle_source != NULL) g_source_destroy (skeleton->priv->changed_properties_idle_source); g_main_context_unref (skeleton->priv->context); g_mutex_clear (&skeleton->priv->lock); G_OBJECT_CLASS (flash_control_skeleton_parent_class)->finalize (object); } static void flash_control_skeleton_get_property (GObject *object, guint prop_id, GValue *value, GParamSpec *pspec G_GNUC_UNUSED) { FlashControlSkeleton *skeleton = FLASH_CONTROL_SKELETON (object); g_assert (prop_id != 0 && prop_id - 1 < 2); g_mutex_lock (&skeleton->priv->lock); g_value_copy (&skeleton->priv->properties[prop_id - 1], value); g_mutex_unlock (&skeleton->priv->lock); } static gboolean _flash_control_emit_changed (gpointer user_data) { FlashControlSkeleton *skeleton = FLASH_CONTROL_SKELETON (user_data); GList *l; GVariantBuilder builder; GVariantBuilder invalidated_builder; guint num_changes; g_mutex_lock (&skeleton->priv->lock); g_variant_builder_init (&builder, G_VARIANT_TYPE ("a{sv}")); g_variant_builder_init (&invalidated_builder, G_VARIANT_TYPE ("as")); for (l = skeleton->priv->changed_properties, num_changes = 0; l != NULL; l = l->next) { ChangedProperty *cp = l->data; GVariant *variant; const GValue *cur_value; cur_value = &skeleton->priv->properties[cp->prop_id - 1]; if (!_g_value_equal (cur_value, &cp->orig_value)) { variant = g_dbus_gvalue_to_gvariant (cur_value, G_VARIANT_TYPE (cp->info->parent_struct.signature)); g_variant_builder_add (&builder, "{sv}", cp->info->parent_struct.name, variant); g_variant_unref (variant); num_changes++; } } if (num_changes > 0) { GList *connections, *ll; GVariant *signal_variant; signal_variant = g_variant_ref_sink (g_variant_new ("(sa{sv}as)", "org.openbmc.FlashControl", &builder, &invalidated_builder)); connections = g_dbus_interface_skeleton_get_connections (G_DBUS_INTERFACE_SKELETON (skeleton)); for (ll = connections; ll != NULL; ll = ll->next) { GDBusConnection *connection = ll->data; g_dbus_connection_emit_signal (connection, NULL, g_dbus_interface_skeleton_get_object_path (G_DBUS_INTERFACE_SKELETON (skeleton)), "org.freedesktop.DBus.Properties", "PropertiesChanged", signal_variant, NULL); } g_variant_unref (signal_variant); g_list_free_full (connections, g_object_unref); } else { g_variant_builder_clear (&builder); g_variant_builder_clear (&invalidated_builder); } g_list_free_full (skeleton->priv->changed_properties, (GDestroyNotify) _changed_property_free); skeleton->priv->changed_properties = NULL; skeleton->priv->changed_properties_idle_source = NULL; g_mutex_unlock (&skeleton->priv->lock); return FALSE; } static void _flash_control_schedule_emit_changed (FlashControlSkeleton *skeleton, const _ExtendedGDBusPropertyInfo *info, guint prop_id, const GValue *orig_value) { ChangedProperty *cp; GList *l; cp = NULL; for (l = skeleton->priv->changed_properties; l != NULL; l = l->next) { ChangedProperty *i_cp = l->data; if (i_cp->info == info) { cp = i_cp; break; } } if (cp == NULL) { cp = g_new0 (ChangedProperty, 1); cp->prop_id = prop_id; cp->info = info; skeleton->priv->changed_properties = g_list_prepend (skeleton->priv->changed_properties, cp); g_value_init (&cp->orig_value, G_VALUE_TYPE (orig_value)); g_value_copy (orig_value, &cp->orig_value); } } static void flash_control_skeleton_notify (GObject *object, GParamSpec *pspec G_GNUC_UNUSED) { FlashControlSkeleton *skeleton = FLASH_CONTROL_SKELETON (object); g_mutex_lock (&skeleton->priv->lock); if (skeleton->priv->changed_properties != NULL && skeleton->priv->changed_properties_idle_source == NULL) { skeleton->priv->changed_properties_idle_source = g_idle_source_new (); g_source_set_priority (skeleton->priv->changed_properties_idle_source, G_PRIORITY_DEFAULT); g_source_set_callback (skeleton->priv->changed_properties_idle_source, _flash_control_emit_changed, g_object_ref (skeleton), (GDestroyNotify) g_object_unref); g_source_set_name (skeleton->priv->changed_properties_idle_source, "[generated] _flash_control_emit_changed"); g_source_attach (skeleton->priv->changed_properties_idle_source, skeleton->priv->context); g_source_unref (skeleton->priv->changed_properties_idle_source); } g_mutex_unlock (&skeleton->priv->lock); } static void flash_control_skeleton_set_property (GObject *object, guint prop_id, const GValue *value, GParamSpec *pspec) { FlashControlSkeleton *skeleton = FLASH_CONTROL_SKELETON (object); g_assert (prop_id != 0 && prop_id - 1 < 2); g_mutex_lock (&skeleton->priv->lock); g_object_freeze_notify (object); if (!_g_value_equal (value, &skeleton->priv->properties[prop_id - 1])) { if (g_dbus_interface_skeleton_get_connection (G_DBUS_INTERFACE_SKELETON (skeleton)) != NULL) _flash_control_schedule_emit_changed (skeleton, _flash_control_property_info_pointers[prop_id - 1], prop_id, &skeleton->priv->properties[prop_id - 1]); g_value_copy (value, &skeleton->priv->properties[prop_id - 1]); g_object_notify_by_pspec (object, pspec); } g_mutex_unlock (&skeleton->priv->lock); g_object_thaw_notify (object); } static void flash_control_skeleton_init (FlashControlSkeleton *skeleton) { #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 skeleton->priv = flash_control_skeleton_get_instance_private (skeleton); #else skeleton->priv = G_TYPE_INSTANCE_GET_PRIVATE (skeleton, TYPE_FLASH_CONTROL_SKELETON, FlashControlSkeletonPrivate); #endif g_mutex_init (&skeleton->priv->lock); skeleton->priv->context = g_main_context_ref_thread_default (); skeleton->priv->properties = g_new0 (GValue, 2); g_value_init (&skeleton->priv->properties[0], G_TYPE_STRING); g_value_init (&skeleton->priv->properties[1], G_TYPE_STRING); } static const gchar * flash_control_skeleton_get_filename (FlashControl *object) { FlashControlSkeleton *skeleton = FLASH_CONTROL_SKELETON (object); const gchar *value; g_mutex_lock (&skeleton->priv->lock); value = g_value_get_string (&(skeleton->priv->properties[0])); g_mutex_unlock (&skeleton->priv->lock); return value; } static const gchar * flash_control_skeleton_get_type_ (FlashControl *object) { FlashControlSkeleton *skeleton = FLASH_CONTROL_SKELETON (object); const gchar *value; g_mutex_lock (&skeleton->priv->lock); value = g_value_get_string (&(skeleton->priv->properties[1])); g_mutex_unlock (&skeleton->priv->lock); return value; } static void flash_control_skeleton_class_init (FlashControlSkeletonClass *klass) { GObjectClass *gobject_class; GDBusInterfaceSkeletonClass *skeleton_class; gobject_class = G_OBJECT_CLASS (klass); gobject_class->finalize = flash_control_skeleton_finalize; gobject_class->get_property = flash_control_skeleton_get_property; gobject_class->set_property = flash_control_skeleton_set_property; gobject_class->notify = flash_control_skeleton_notify; flash_control_override_properties (gobject_class, 1); skeleton_class = G_DBUS_INTERFACE_SKELETON_CLASS (klass); skeleton_class->get_info = flash_control_skeleton_dbus_interface_get_info; skeleton_class->get_properties = flash_control_skeleton_dbus_interface_get_properties; skeleton_class->flush = flash_control_skeleton_dbus_interface_flush; skeleton_class->get_vtable = flash_control_skeleton_dbus_interface_get_vtable; #if GLIB_VERSION_MAX_ALLOWED < GLIB_VERSION_2_38 g_type_class_add_private (klass, sizeof (FlashControlSkeletonPrivate)); #endif } static void flash_control_skeleton_iface_init (FlashControlIface *iface) { iface->done = _flash_control_on_signal_done; iface->error = _flash_control_on_signal_error; iface->progress = _flash_control_on_signal_progress; iface->get_filename = flash_control_skeleton_get_filename; iface->get_type_ = flash_control_skeleton_get_type_; } /** * flash_control_skeleton_new: * * Creates a skeleton object for the D-Bus interface org.openbmc.FlashControl. * * Returns: (transfer full) (type FlashControlSkeleton): The skeleton object. */ FlashControl * flash_control_skeleton_new (void) { return FLASH_CONTROL (g_object_new (TYPE_FLASH_CONTROL_SKELETON, NULL)); } /* ------------------------------------------------------------------------ * Code for interface org.openbmc.Button * ------------------------------------------------------------------------ */ /** * SECTION:Button * @title: Button * @short_description: Generated C code for the org.openbmc.Button D-Bus interface * * This section contains code for working with the org.openbmc.Button D-Bus interface in C. */ /* ---- Introspection data for org.openbmc.Button ---- */ static const _ExtendedGDBusArgInfo _button_method_info_is_on_OUT_ARG_state = { { -1, (gchar *) "state", (gchar *) "b", NULL }, FALSE }; static const _ExtendedGDBusArgInfo * const _button_method_info_is_on_OUT_ARG_pointers[] = { &_button_method_info_is_on_OUT_ARG_state, NULL }; static const _ExtendedGDBusMethodInfo _button_method_info_is_on = { { -1, (gchar *) "isOn", NULL, (GDBusArgInfo **) &_button_method_info_is_on_OUT_ARG_pointers, NULL }, "handle-is-on", FALSE }; static const _ExtendedGDBusMethodInfo _button_method_info_sim_press = { { -1, (gchar *) "simPress", NULL, NULL, NULL }, "handle-sim-press", FALSE }; static const _ExtendedGDBusMethodInfo _button_method_info_sim_long_press = { { -1, (gchar *) "simLongPress", NULL, NULL, NULL }, "handle-sim-long-press", FALSE }; static const _ExtendedGDBusMethodInfo * const _button_method_info_pointers[] = { &_button_method_info_is_on, &_button_method_info_sim_press, &_button_method_info_sim_long_press, NULL }; static const _ExtendedGDBusSignalInfo _button_signal_info_released = { { -1, (gchar *) "Released", NULL, NULL }, "released" }; static const _ExtendedGDBusSignalInfo _button_signal_info_pressed = { { -1, (gchar *) "Pressed", NULL, NULL }, "pressed" }; static const _ExtendedGDBusSignalInfo _button_signal_info_pressed_long = { { -1, (gchar *) "PressedLong", NULL, NULL }, "pressed-long" }; static const _ExtendedGDBusSignalInfo * const _button_signal_info_pointers[] = { &_button_signal_info_released, &_button_signal_info_pressed, &_button_signal_info_pressed_long, NULL }; static const _ExtendedGDBusPropertyInfo _button_property_info_state = { { -1, (gchar *) "state", (gchar *) "b", G_DBUS_PROPERTY_INFO_FLAGS_READABLE, NULL }, "state", FALSE }; static const _ExtendedGDBusPropertyInfo _button_property_info_timer = { { -1, (gchar *) "timer", (gchar *) "t", G_DBUS_PROPERTY_INFO_FLAGS_READABLE, NULL }, "timer", FALSE }; static const _ExtendedGDBusPropertyInfo * const _button_property_info_pointers[] = { &_button_property_info_state, &_button_property_info_timer, NULL }; static const _ExtendedGDBusInterfaceInfo _button_interface_info = { { -1, (gchar *) "org.openbmc.Button", (GDBusMethodInfo **) &_button_method_info_pointers, (GDBusSignalInfo **) &_button_signal_info_pointers, (GDBusPropertyInfo **) &_button_property_info_pointers, NULL }, "button", }; /** * button_interface_info: * * Gets a machine-readable description of the org.openbmc.Button D-Bus interface. * * Returns: (transfer none): A #GDBusInterfaceInfo. Do not free. */ GDBusInterfaceInfo * button_interface_info (void) { return (GDBusInterfaceInfo *) &_button_interface_info.parent_struct; } /** * button_override_properties: * @klass: The class structure for a #GObject-derived class. * @property_id_begin: The property id to assign to the first overridden property. * * Overrides all #GObject properties in the #Button interface for a concrete class. * The properties are overridden in the order they are defined. * * Returns: The last property id. */ guint button_override_properties (GObjectClass *klass, guint property_id_begin) { g_object_class_override_property (klass, property_id_begin++, "state"); g_object_class_override_property (klass, property_id_begin++, "timer"); return property_id_begin - 1; } /** * Button: * * Abstract interface type for the D-Bus interface org.openbmc.Button. */ /** * ButtonIface: * @parent_iface: The parent interface. * @handle_is_on: Handler for the #Button::handle-is-on signal. * @handle_sim_long_press: Handler for the #Button::handle-sim-long-press signal. * @handle_sim_press: Handler for the #Button::handle-sim-press signal. * @get_state: Getter for the #Button:state property. * @get_timer: Getter for the #Button:timer property. * @pressed: Handler for the #Button::pressed signal. * @pressed_long: Handler for the #Button::pressed-long signal. * @released: Handler for the #Button::released signal. * * Virtual table for the D-Bus interface org.openbmc.Button. */ typedef ButtonIface ButtonInterface; G_DEFINE_INTERFACE (Button, button, G_TYPE_OBJECT); static void button_default_init (ButtonIface *iface) { /* GObject signals for incoming D-Bus method calls: */ /** * Button::handle-is-on: * @object: A #Button. * @invocation: A #GDBusMethodInvocation. * * Signal emitted when a remote caller is invoking the isOn() D-Bus method. * * If a signal handler returns %TRUE, it means the signal handler will handle the invocation (e.g. take a reference to @invocation and eventually call button_complete_is_on() or e.g. g_dbus_method_invocation_return_error() on it) and no order signal handlers will run. If no signal handler handles the invocation, the %G_DBUS_ERROR_UNKNOWN_METHOD error is returned. * * Returns: %TRUE if the invocation was handled, %FALSE to let other signal handlers run. */ g_signal_new ("handle-is-on", G_TYPE_FROM_INTERFACE (iface), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (ButtonIface, handle_is_on), g_signal_accumulator_true_handled, NULL, g_cclosure_marshal_generic, G_TYPE_BOOLEAN, 1, G_TYPE_DBUS_METHOD_INVOCATION); /** * Button::handle-sim-press: * @object: A #Button. * @invocation: A #GDBusMethodInvocation. * * Signal emitted when a remote caller is invoking the simPress() D-Bus method. * * If a signal handler returns %TRUE, it means the signal handler will handle the invocation (e.g. take a reference to @invocation and eventually call button_complete_sim_press() or e.g. g_dbus_method_invocation_return_error() on it) and no order signal handlers will run. If no signal handler handles the invocation, the %G_DBUS_ERROR_UNKNOWN_METHOD error is returned. * * Returns: %TRUE if the invocation was handled, %FALSE to let other signal handlers run. */ g_signal_new ("handle-sim-press", G_TYPE_FROM_INTERFACE (iface), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (ButtonIface, handle_sim_press), g_signal_accumulator_true_handled, NULL, g_cclosure_marshal_generic, G_TYPE_BOOLEAN, 1, G_TYPE_DBUS_METHOD_INVOCATION); /** * Button::handle-sim-long-press: * @object: A #Button. * @invocation: A #GDBusMethodInvocation. * * Signal emitted when a remote caller is invoking the simLongPress() D-Bus method. * * If a signal handler returns %TRUE, it means the signal handler will handle the invocation (e.g. take a reference to @invocation and eventually call button_complete_sim_long_press() or e.g. g_dbus_method_invocation_return_error() on it) and no order signal handlers will run. If no signal handler handles the invocation, the %G_DBUS_ERROR_UNKNOWN_METHOD error is returned. * * Returns: %TRUE if the invocation was handled, %FALSE to let other signal handlers run. */ g_signal_new ("handle-sim-long-press", G_TYPE_FROM_INTERFACE (iface), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (ButtonIface, handle_sim_long_press), g_signal_accumulator_true_handled, NULL, g_cclosure_marshal_generic, G_TYPE_BOOLEAN, 1, G_TYPE_DBUS_METHOD_INVOCATION); /* GObject signals for received D-Bus signals: */ /** * Button::released: * @object: A #Button. * * On the client-side, this signal is emitted whenever the D-Bus signal "Released" is received. * * On the service-side, this signal can be used with e.g. g_signal_emit_by_name() to make the object emit the D-Bus signal. */ g_signal_new ("released", G_TYPE_FROM_INTERFACE (iface), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (ButtonIface, released), NULL, NULL, g_cclosure_marshal_generic, G_TYPE_NONE, 0); /** * Button::pressed: * @object: A #Button. * * On the client-side, this signal is emitted whenever the D-Bus signal "Pressed" is received. * * On the service-side, this signal can be used with e.g. g_signal_emit_by_name() to make the object emit the D-Bus signal. */ g_signal_new ("pressed", G_TYPE_FROM_INTERFACE (iface), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (ButtonIface, pressed), NULL, NULL, g_cclosure_marshal_generic, G_TYPE_NONE, 0); /** * Button::pressed-long: * @object: A #Button. * * On the client-side, this signal is emitted whenever the D-Bus signal "PressedLong" is received. * * On the service-side, this signal can be used with e.g. g_signal_emit_by_name() to make the object emit the D-Bus signal. */ g_signal_new ("pressed-long", G_TYPE_FROM_INTERFACE (iface), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (ButtonIface, pressed_long), NULL, NULL, g_cclosure_marshal_generic, G_TYPE_NONE, 0); /* GObject properties for D-Bus properties: */ /** * Button:state: * * Represents the D-Bus property "state". * * Since the D-Bus property for this #GObject property is readable but not writable, it is meaningful to read from it on both the client- and service-side. It is only meaningful, however, to write to it on the service-side. */ g_object_interface_install_property (iface, g_param_spec_boolean ("state", "state", "state", FALSE, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS)); /** * Button:timer: * * Represents the D-Bus property "timer". * * Since the D-Bus property for this #GObject property is readable but not writable, it is meaningful to read from it on both the client- and service-side. It is only meaningful, however, to write to it on the service-side. */ g_object_interface_install_property (iface, g_param_spec_uint64 ("timer", "timer", "timer", 0, G_MAXUINT64, 0, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS)); } /** * button_get_state: (skip) * @object: A #Button. * * Gets the value of the "state" D-Bus property. * * Since this D-Bus property is readable, it is meaningful to use this function on both the client- and service-side. * * Returns: The property value. */ gboolean button_get_state (Button *object) { return BUTTON_GET_IFACE (object)->get_state (object); } /** * button_set_state: (skip) * @object: A #Button. * @value: The value to set. * * Sets the "state" D-Bus property to @value. * * Since this D-Bus property is not writable, it is only meaningful to use this function on the service-side. */ void button_set_state (Button *object, gboolean value) { g_object_set (G_OBJECT (object), "state", value, NULL); } /** * button_get_timer: (skip) * @object: A #Button. * * Gets the value of the "timer" D-Bus property. * * Since this D-Bus property is readable, it is meaningful to use this function on both the client- and service-side. * * Returns: The property value. */ guint64 button_get_timer (Button *object) { return BUTTON_GET_IFACE (object)->get_timer (object); } /** * button_set_timer: (skip) * @object: A #Button. * @value: The value to set. * * Sets the "timer" D-Bus property to @value. * * Since this D-Bus property is not writable, it is only meaningful to use this function on the service-side. */ void button_set_timer (Button *object, guint64 value) { g_object_set (G_OBJECT (object), "timer", value, NULL); } /** * button_emit_released: * @object: A #Button. * * Emits the "Released" D-Bus signal. */ void button_emit_released ( Button *object) { g_signal_emit_by_name (object, "released"); } /** * button_emit_pressed: * @object: A #Button. * * Emits the "Pressed" D-Bus signal. */ void button_emit_pressed ( Button *object) { g_signal_emit_by_name (object, "pressed"); } /** * button_emit_pressed_long: * @object: A #Button. * * Emits the "PressedLong" D-Bus signal. */ void button_emit_pressed_long ( Button *object) { g_signal_emit_by_name (object, "pressed-long"); } /** * button_call_is_on: * @proxy: A #ButtonProxy. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied or %NULL. * @user_data: User data to pass to @callback. * * Asynchronously invokes the isOn() D-Bus method on @proxy. * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call button_call_is_on_finish() to get the result of the operation. * * See button_call_is_on_sync() for the synchronous, blocking version of this method. */ void button_call_is_on ( Button *proxy, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_dbus_proxy_call (G_DBUS_PROXY (proxy), "isOn", g_variant_new ("()"), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, callback, user_data); } /** * button_call_is_on_finish: * @proxy: A #ButtonProxy. * @out_state: (out): Return location for return parameter or %NULL to ignore. * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to button_call_is_on(). * @error: Return location for error or %NULL. * * Finishes an operation started with button_call_is_on(). * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean button_call_is_on_finish ( Button *proxy, gboolean *out_state, GAsyncResult *res, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_finish (G_DBUS_PROXY (proxy), res, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "(b)", out_state); g_variant_unref (_ret); _out: return _ret != NULL; } /** * button_call_is_on_sync: * @proxy: A #ButtonProxy. * @out_state: (out): Return location for return parameter or %NULL to ignore. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL. * * Synchronously invokes the isOn() D-Bus method on @proxy. The calling thread is blocked until a reply is received. * * See button_call_is_on() for the asynchronous version of this method. * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean button_call_is_on_sync ( Button *proxy, gboolean *out_state, GCancellable *cancellable, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_sync (G_DBUS_PROXY (proxy), "isOn", g_variant_new ("()"), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "(b)", out_state); g_variant_unref (_ret); _out: return _ret != NULL; } /** * button_call_sim_press: * @proxy: A #ButtonProxy. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied or %NULL. * @user_data: User data to pass to @callback. * * Asynchronously invokes the simPress() D-Bus method on @proxy. * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call button_call_sim_press_finish() to get the result of the operation. * * See button_call_sim_press_sync() for the synchronous, blocking version of this method. */ void button_call_sim_press ( Button *proxy, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_dbus_proxy_call (G_DBUS_PROXY (proxy), "simPress", g_variant_new ("()"), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, callback, user_data); } /** * button_call_sim_press_finish: * @proxy: A #ButtonProxy. * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to button_call_sim_press(). * @error: Return location for error or %NULL. * * Finishes an operation started with button_call_sim_press(). * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean button_call_sim_press_finish ( Button *proxy, GAsyncResult *res, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_finish (G_DBUS_PROXY (proxy), res, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "()"); g_variant_unref (_ret); _out: return _ret != NULL; } /** * button_call_sim_press_sync: * @proxy: A #ButtonProxy. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL. * * Synchronously invokes the simPress() D-Bus method on @proxy. The calling thread is blocked until a reply is received. * * See button_call_sim_press() for the asynchronous version of this method. * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean button_call_sim_press_sync ( Button *proxy, GCancellable *cancellable, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_sync (G_DBUS_PROXY (proxy), "simPress", g_variant_new ("()"), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "()"); g_variant_unref (_ret); _out: return _ret != NULL; } /** * button_call_sim_long_press: * @proxy: A #ButtonProxy. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied or %NULL. * @user_data: User data to pass to @callback. * * Asynchronously invokes the simLongPress() D-Bus method on @proxy. * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call button_call_sim_long_press_finish() to get the result of the operation. * * See button_call_sim_long_press_sync() for the synchronous, blocking version of this method. */ void button_call_sim_long_press ( Button *proxy, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_dbus_proxy_call (G_DBUS_PROXY (proxy), "simLongPress", g_variant_new ("()"), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, callback, user_data); } /** * button_call_sim_long_press_finish: * @proxy: A #ButtonProxy. * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to button_call_sim_long_press(). * @error: Return location for error or %NULL. * * Finishes an operation started with button_call_sim_long_press(). * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean button_call_sim_long_press_finish ( Button *proxy, GAsyncResult *res, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_finish (G_DBUS_PROXY (proxy), res, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "()"); g_variant_unref (_ret); _out: return _ret != NULL; } /** * button_call_sim_long_press_sync: * @proxy: A #ButtonProxy. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL. * * Synchronously invokes the simLongPress() D-Bus method on @proxy. The calling thread is blocked until a reply is received. * * See button_call_sim_long_press() for the asynchronous version of this method. * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean button_call_sim_long_press_sync ( Button *proxy, GCancellable *cancellable, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_sync (G_DBUS_PROXY (proxy), "simLongPress", g_variant_new ("()"), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "()"); g_variant_unref (_ret); _out: return _ret != NULL; } /** * button_complete_is_on: * @object: A #Button. * @invocation: (transfer full): A #GDBusMethodInvocation. * @state: Parameter to return. * * Helper function used in service implementations to finish handling invocations of the isOn() D-Bus method. If you instead want to finish handling an invocation by returning an error, use g_dbus_method_invocation_return_error() or similar. * * This method will free @invocation, you cannot use it afterwards. */ void button_complete_is_on ( Button *object, GDBusMethodInvocation *invocation, gboolean state) { g_dbus_method_invocation_return_value (invocation, g_variant_new ("(b)", state)); } /** * button_complete_sim_press: * @object: A #Button. * @invocation: (transfer full): A #GDBusMethodInvocation. * * Helper function used in service implementations to finish handling invocations of the simPress() D-Bus method. If you instead want to finish handling an invocation by returning an error, use g_dbus_method_invocation_return_error() or similar. * * This method will free @invocation, you cannot use it afterwards. */ void button_complete_sim_press ( Button *object, GDBusMethodInvocation *invocation) { g_dbus_method_invocation_return_value (invocation, g_variant_new ("()")); } /** * button_complete_sim_long_press: * @object: A #Button. * @invocation: (transfer full): A #GDBusMethodInvocation. * * Helper function used in service implementations to finish handling invocations of the simLongPress() D-Bus method. If you instead want to finish handling an invocation by returning an error, use g_dbus_method_invocation_return_error() or similar. * * This method will free @invocation, you cannot use it afterwards. */ void button_complete_sim_long_press ( Button *object, GDBusMethodInvocation *invocation) { g_dbus_method_invocation_return_value (invocation, g_variant_new ("()")); } /* ------------------------------------------------------------------------ */ /** * ButtonProxy: * * The #ButtonProxy structure contains only private data and should only be accessed using the provided API. */ /** * ButtonProxyClass: * @parent_class: The parent class. * * Class structure for #ButtonProxy. */ struct _ButtonProxyPrivate { GData *qdata; }; static void button_proxy_iface_init (ButtonIface *iface); #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 G_DEFINE_TYPE_WITH_CODE (ButtonProxy, button_proxy, G_TYPE_DBUS_PROXY, G_ADD_PRIVATE (ButtonProxy) G_IMPLEMENT_INTERFACE (TYPE_BUTTON, button_proxy_iface_init)); #else G_DEFINE_TYPE_WITH_CODE (ButtonProxy, button_proxy, G_TYPE_DBUS_PROXY, G_IMPLEMENT_INTERFACE (TYPE_BUTTON, button_proxy_iface_init)); #endif static void button_proxy_finalize (GObject *object) { ButtonProxy *proxy = BUTTON_PROXY (object); g_datalist_clear (&proxy->priv->qdata); G_OBJECT_CLASS (button_proxy_parent_class)->finalize (object); } static void button_proxy_get_property (GObject *object, guint prop_id, GValue *value, GParamSpec *pspec G_GNUC_UNUSED) { const _ExtendedGDBusPropertyInfo *info; GVariant *variant; g_assert (prop_id != 0 && prop_id - 1 < 2); info = _button_property_info_pointers[prop_id - 1]; variant = g_dbus_proxy_get_cached_property (G_DBUS_PROXY (object), info->parent_struct.name); if (info->use_gvariant) { g_value_set_variant (value, variant); } else { if (variant != NULL) g_dbus_gvariant_to_gvalue (variant, value); } if (variant != NULL) g_variant_unref (variant); } static void button_proxy_set_property_cb (GDBusProxy *proxy, GAsyncResult *res, gpointer user_data) { const _ExtendedGDBusPropertyInfo *info = user_data; GError *error; GVariant *_ret; error = NULL; _ret = g_dbus_proxy_call_finish (proxy, res, &error); if (!_ret) { g_warning ("Error setting property '%s' on interface org.openbmc.Button: %s (%s, %d)", info->parent_struct.name, error->message, g_quark_to_string (error->domain), error->code); g_error_free (error); } else { g_variant_unref (_ret); } } static void button_proxy_set_property (GObject *object, guint prop_id, const GValue *value, GParamSpec *pspec G_GNUC_UNUSED) { const _ExtendedGDBusPropertyInfo *info; GVariant *variant; g_assert (prop_id != 0 && prop_id - 1 < 2); info = _button_property_info_pointers[prop_id - 1]; variant = g_dbus_gvalue_to_gvariant (value, G_VARIANT_TYPE (info->parent_struct.signature)); g_dbus_proxy_call (G_DBUS_PROXY (object), "org.freedesktop.DBus.Properties.Set", g_variant_new ("(ssv)", "org.openbmc.Button", info->parent_struct.name, variant), G_DBUS_CALL_FLAGS_NONE, -1, NULL, (GAsyncReadyCallback) button_proxy_set_property_cb, (GDBusPropertyInfo *) &info->parent_struct); g_variant_unref (variant); } static void button_proxy_g_signal (GDBusProxy *proxy, const gchar *sender_name G_GNUC_UNUSED, const gchar *signal_name, GVariant *parameters) { _ExtendedGDBusSignalInfo *info; GVariantIter iter; GVariant *child; GValue *paramv; guint num_params; guint n; guint signal_id; info = (_ExtendedGDBusSignalInfo *) g_dbus_interface_info_lookup_signal ((GDBusInterfaceInfo *) &_button_interface_info.parent_struct, signal_name); if (info == NULL) return; num_params = g_variant_n_children (parameters); paramv = g_new0 (GValue, num_params + 1); g_value_init (¶mv[0], TYPE_BUTTON); g_value_set_object (¶mv[0], proxy); g_variant_iter_init (&iter, parameters); n = 1; while ((child = g_variant_iter_next_value (&iter)) != NULL) { _ExtendedGDBusArgInfo *arg_info = (_ExtendedGDBusArgInfo *) info->parent_struct.args[n - 1]; if (arg_info->use_gvariant) { g_value_init (¶mv[n], G_TYPE_VARIANT); g_value_set_variant (¶mv[n], child); n++; } else g_dbus_gvariant_to_gvalue (child, ¶mv[n++]); g_variant_unref (child); } signal_id = g_signal_lookup (info->signal_name, TYPE_BUTTON); g_signal_emitv (paramv, signal_id, 0, NULL); for (n = 0; n < num_params + 1; n++) g_value_unset (¶mv[n]); g_free (paramv); } static void button_proxy_g_properties_changed (GDBusProxy *_proxy, GVariant *changed_properties, const gchar *const *invalidated_properties) { ButtonProxy *proxy = BUTTON_PROXY (_proxy); guint n; const gchar *key; GVariantIter *iter; _ExtendedGDBusPropertyInfo *info; g_variant_get (changed_properties, "a{sv}", &iter); while (g_variant_iter_next (iter, "{&sv}", &key, NULL)) { info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_button_interface_info.parent_struct, key); g_datalist_remove_data (&proxy->priv->qdata, key); if (info != NULL) g_object_notify (G_OBJECT (proxy), info->hyphen_name); } g_variant_iter_free (iter); for (n = 0; invalidated_properties[n] != NULL; n++) { info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_button_interface_info.parent_struct, invalidated_properties[n]); g_datalist_remove_data (&proxy->priv->qdata, invalidated_properties[n]); if (info != NULL) g_object_notify (G_OBJECT (proxy), info->hyphen_name); } } static gboolean button_proxy_get_state (Button *object) { ButtonProxy *proxy = BUTTON_PROXY (object); GVariant *variant; gboolean value = 0; variant = g_dbus_proxy_get_cached_property (G_DBUS_PROXY (proxy), "state"); if (variant != NULL) { value = g_variant_get_boolean (variant); g_variant_unref (variant); } return value; } static guint64 button_proxy_get_timer (Button *object) { ButtonProxy *proxy = BUTTON_PROXY (object); GVariant *variant; guint64 value = 0; variant = g_dbus_proxy_get_cached_property (G_DBUS_PROXY (proxy), "timer"); if (variant != NULL) { value = g_variant_get_uint64 (variant); g_variant_unref (variant); } return value; } static void button_proxy_init (ButtonProxy *proxy) { #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 proxy->priv = button_proxy_get_instance_private (proxy); #else proxy->priv = G_TYPE_INSTANCE_GET_PRIVATE (proxy, TYPE_BUTTON_PROXY, ButtonProxyPrivate); #endif g_dbus_proxy_set_interface_info (G_DBUS_PROXY (proxy), button_interface_info ()); } static void button_proxy_class_init (ButtonProxyClass *klass) { GObjectClass *gobject_class; GDBusProxyClass *proxy_class; gobject_class = G_OBJECT_CLASS (klass); gobject_class->finalize = button_proxy_finalize; gobject_class->get_property = button_proxy_get_property; gobject_class->set_property = button_proxy_set_property; proxy_class = G_DBUS_PROXY_CLASS (klass); proxy_class->g_signal = button_proxy_g_signal; proxy_class->g_properties_changed = button_proxy_g_properties_changed; button_override_properties (gobject_class, 1); #if GLIB_VERSION_MAX_ALLOWED < GLIB_VERSION_2_38 g_type_class_add_private (klass, sizeof (ButtonProxyPrivate)); #endif } static void button_proxy_iface_init (ButtonIface *iface) { iface->get_state = button_proxy_get_state; iface->get_timer = button_proxy_get_timer; } /** * button_proxy_new: * @connection: A #GDBusConnection. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: (allow-none): A bus name (well-known or unique) or %NULL if @connection is not a message bus connection. * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied. * @user_data: User data to pass to @callback. * * Asynchronously creates a proxy for the D-Bus interface org.openbmc.Button. See g_dbus_proxy_new() for more details. * * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call button_proxy_new_finish() to get the result of the operation. * * See button_proxy_new_sync() for the synchronous, blocking version of this constructor. */ void button_proxy_new ( GDBusConnection *connection, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_async_initable_new_async (TYPE_BUTTON_PROXY, G_PRIORITY_DEFAULT, cancellable, callback, user_data, "g-flags", flags, "g-name", name, "g-connection", connection, "g-object-path", object_path, "g-interface-name", "org.openbmc.Button", NULL); } /** * button_proxy_new_finish: * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to button_proxy_new(). * @error: Return location for error or %NULL * * Finishes an operation started with button_proxy_new(). * * Returns: (transfer full) (type ButtonProxy): The constructed proxy object or %NULL if @error is set. */ Button * button_proxy_new_finish ( GAsyncResult *res, GError **error) { GObject *ret; GObject *source_object; source_object = g_async_result_get_source_object (res); ret = g_async_initable_new_finish (G_ASYNC_INITABLE (source_object), res, error); g_object_unref (source_object); if (ret != NULL) return BUTTON (ret); else return NULL; } /** * button_proxy_new_sync: * @connection: A #GDBusConnection. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: (allow-none): A bus name (well-known or unique) or %NULL if @connection is not a message bus connection. * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL * * Synchronously creates a proxy for the D-Bus interface org.openbmc.Button. See g_dbus_proxy_new_sync() for more details. * * The calling thread is blocked until a reply is received. * * See button_proxy_new() for the asynchronous version of this constructor. * * Returns: (transfer full) (type ButtonProxy): The constructed proxy object or %NULL if @error is set. */ Button * button_proxy_new_sync ( GDBusConnection *connection, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GError **error) { GInitable *ret; ret = g_initable_new (TYPE_BUTTON_PROXY, cancellable, error, "g-flags", flags, "g-name", name, "g-connection", connection, "g-object-path", object_path, "g-interface-name", "org.openbmc.Button", NULL); if (ret != NULL) return BUTTON (ret); else return NULL; } /** * button_proxy_new_for_bus: * @bus_type: A #GBusType. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: A bus name (well-known or unique). * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied. * @user_data: User data to pass to @callback. * * Like button_proxy_new() but takes a #GBusType instead of a #GDBusConnection. * * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call button_proxy_new_for_bus_finish() to get the result of the operation. * * See button_proxy_new_for_bus_sync() for the synchronous, blocking version of this constructor. */ void button_proxy_new_for_bus ( GBusType bus_type, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_async_initable_new_async (TYPE_BUTTON_PROXY, G_PRIORITY_DEFAULT, cancellable, callback, user_data, "g-flags", flags, "g-name", name, "g-bus-type", bus_type, "g-object-path", object_path, "g-interface-name", "org.openbmc.Button", NULL); } /** * button_proxy_new_for_bus_finish: * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to button_proxy_new_for_bus(). * @error: Return location for error or %NULL * * Finishes an operation started with button_proxy_new_for_bus(). * * Returns: (transfer full) (type ButtonProxy): The constructed proxy object or %NULL if @error is set. */ Button * button_proxy_new_for_bus_finish ( GAsyncResult *res, GError **error) { GObject *ret; GObject *source_object; source_object = g_async_result_get_source_object (res); ret = g_async_initable_new_finish (G_ASYNC_INITABLE (source_object), res, error); g_object_unref (source_object); if (ret != NULL) return BUTTON (ret); else return NULL; } /** * button_proxy_new_for_bus_sync: * @bus_type: A #GBusType. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: A bus name (well-known or unique). * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL * * Like button_proxy_new_sync() but takes a #GBusType instead of a #GDBusConnection. * * The calling thread is blocked until a reply is received. * * See button_proxy_new_for_bus() for the asynchronous version of this constructor. * * Returns: (transfer full) (type ButtonProxy): The constructed proxy object or %NULL if @error is set. */ Button * button_proxy_new_for_bus_sync ( GBusType bus_type, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GError **error) { GInitable *ret; ret = g_initable_new (TYPE_BUTTON_PROXY, cancellable, error, "g-flags", flags, "g-name", name, "g-bus-type", bus_type, "g-object-path", object_path, "g-interface-name", "org.openbmc.Button", NULL); if (ret != NULL) return BUTTON (ret); else return NULL; } /* ------------------------------------------------------------------------ */ /** * ButtonSkeleton: * * The #ButtonSkeleton structure contains only private data and should only be accessed using the provided API. */ /** * ButtonSkeletonClass: * @parent_class: The parent class. * * Class structure for #ButtonSkeleton. */ struct _ButtonSkeletonPrivate { GValue *properties; GList *changed_properties; GSource *changed_properties_idle_source; GMainContext *context; GMutex lock; }; static void _button_skeleton_handle_method_call ( GDBusConnection *connection G_GNUC_UNUSED, const gchar *sender G_GNUC_UNUSED, const gchar *object_path G_GNUC_UNUSED, const gchar *interface_name, const gchar *method_name, GVariant *parameters, GDBusMethodInvocation *invocation, gpointer user_data) { ButtonSkeleton *skeleton = BUTTON_SKELETON (user_data); _ExtendedGDBusMethodInfo *info; GVariantIter iter; GVariant *child; GValue *paramv; guint num_params; guint num_extra; guint n; guint signal_id; GValue return_value = G_VALUE_INIT; info = (_ExtendedGDBusMethodInfo *) g_dbus_method_invocation_get_method_info (invocation); g_assert (info != NULL); num_params = g_variant_n_children (parameters); num_extra = info->pass_fdlist ? 3 : 2; paramv = g_new0 (GValue, num_params + num_extra); n = 0; g_value_init (¶mv[n], TYPE_BUTTON); g_value_set_object (¶mv[n++], skeleton); g_value_init (¶mv[n], G_TYPE_DBUS_METHOD_INVOCATION); g_value_set_object (¶mv[n++], invocation); if (info->pass_fdlist) { #ifdef G_OS_UNIX g_value_init (¶mv[n], G_TYPE_UNIX_FD_LIST); g_value_set_object (¶mv[n++], g_dbus_message_get_unix_fd_list (g_dbus_method_invocation_get_message (invocation))); #else g_assert_not_reached (); #endif } g_variant_iter_init (&iter, parameters); while ((child = g_variant_iter_next_value (&iter)) != NULL) { _ExtendedGDBusArgInfo *arg_info = (_ExtendedGDBusArgInfo *) info->parent_struct.in_args[n - num_extra]; if (arg_info->use_gvariant) { g_value_init (¶mv[n], G_TYPE_VARIANT); g_value_set_variant (¶mv[n], child); n++; } else g_dbus_gvariant_to_gvalue (child, ¶mv[n++]); g_variant_unref (child); } signal_id = g_signal_lookup (info->signal_name, TYPE_BUTTON); g_value_init (&return_value, G_TYPE_BOOLEAN); g_signal_emitv (paramv, signal_id, 0, &return_value); if (!g_value_get_boolean (&return_value)) g_dbus_method_invocation_return_error (invocation, G_DBUS_ERROR, G_DBUS_ERROR_UNKNOWN_METHOD, "Method %s is not implemented on interface %s", method_name, interface_name); g_value_unset (&return_value); for (n = 0; n < num_params + num_extra; n++) g_value_unset (¶mv[n]); g_free (paramv); } static GVariant * _button_skeleton_handle_get_property ( GDBusConnection *connection G_GNUC_UNUSED, const gchar *sender G_GNUC_UNUSED, const gchar *object_path G_GNUC_UNUSED, const gchar *interface_name G_GNUC_UNUSED, const gchar *property_name, GError **error, gpointer user_data) { ButtonSkeleton *skeleton = BUTTON_SKELETON (user_data); GValue value = G_VALUE_INIT; GParamSpec *pspec; _ExtendedGDBusPropertyInfo *info; GVariant *ret; ret = NULL; info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_button_interface_info.parent_struct, property_name); g_assert (info != NULL); pspec = g_object_class_find_property (G_OBJECT_GET_CLASS (skeleton), info->hyphen_name); if (pspec == NULL) { g_set_error (error, G_DBUS_ERROR, G_DBUS_ERROR_INVALID_ARGS, "No property with name %s", property_name); } else { g_value_init (&value, pspec->value_type); g_object_get_property (G_OBJECT (skeleton), info->hyphen_name, &value); ret = g_dbus_gvalue_to_gvariant (&value, G_VARIANT_TYPE (info->parent_struct.signature)); g_value_unset (&value); } return ret; } static gboolean _button_skeleton_handle_set_property ( GDBusConnection *connection G_GNUC_UNUSED, const gchar *sender G_GNUC_UNUSED, const gchar *object_path G_GNUC_UNUSED, const gchar *interface_name G_GNUC_UNUSED, const gchar *property_name, GVariant *variant, GError **error, gpointer user_data) { ButtonSkeleton *skeleton = BUTTON_SKELETON (user_data); GValue value = G_VALUE_INIT; GParamSpec *pspec; _ExtendedGDBusPropertyInfo *info; gboolean ret; ret = FALSE; info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_button_interface_info.parent_struct, property_name); g_assert (info != NULL); pspec = g_object_class_find_property (G_OBJECT_GET_CLASS (skeleton), info->hyphen_name); if (pspec == NULL) { g_set_error (error, G_DBUS_ERROR, G_DBUS_ERROR_INVALID_ARGS, "No property with name %s", property_name); } else { if (info->use_gvariant) g_value_set_variant (&value, variant); else g_dbus_gvariant_to_gvalue (variant, &value); g_object_set_property (G_OBJECT (skeleton), info->hyphen_name, &value); g_value_unset (&value); ret = TRUE; } return ret; } static const GDBusInterfaceVTable _button_skeleton_vtable = { _button_skeleton_handle_method_call, _button_skeleton_handle_get_property, _button_skeleton_handle_set_property, {NULL} }; static GDBusInterfaceInfo * button_skeleton_dbus_interface_get_info (GDBusInterfaceSkeleton *skeleton G_GNUC_UNUSED) { return button_interface_info (); } static GDBusInterfaceVTable * button_skeleton_dbus_interface_get_vtable (GDBusInterfaceSkeleton *skeleton G_GNUC_UNUSED) { return (GDBusInterfaceVTable *) &_button_skeleton_vtable; } static GVariant * button_skeleton_dbus_interface_get_properties (GDBusInterfaceSkeleton *_skeleton) { ButtonSkeleton *skeleton = BUTTON_SKELETON (_skeleton); GVariantBuilder builder; guint n; g_variant_builder_init (&builder, G_VARIANT_TYPE ("a{sv}")); if (_button_interface_info.parent_struct.properties == NULL) goto out; for (n = 0; _button_interface_info.parent_struct.properties[n] != NULL; n++) { GDBusPropertyInfo *info = _button_interface_info.parent_struct.properties[n]; if (info->flags & G_DBUS_PROPERTY_INFO_FLAGS_READABLE) { GVariant *value; value = _button_skeleton_handle_get_property (g_dbus_interface_skeleton_get_connection (G_DBUS_INTERFACE_SKELETON (skeleton)), NULL, g_dbus_interface_skeleton_get_object_path (G_DBUS_INTERFACE_SKELETON (skeleton)), "org.openbmc.Button", info->name, NULL, skeleton); if (value != NULL) { g_variant_take_ref (value); g_variant_builder_add (&builder, "{sv}", info->name, value); g_variant_unref (value); } } } out: return g_variant_builder_end (&builder); } static gboolean _button_emit_changed (gpointer user_data); static void button_skeleton_dbus_interface_flush (GDBusInterfaceSkeleton *_skeleton) { ButtonSkeleton *skeleton = BUTTON_SKELETON (_skeleton); gboolean emit_changed = FALSE; g_mutex_lock (&skeleton->priv->lock); if (skeleton->priv->changed_properties_idle_source != NULL) { g_source_destroy (skeleton->priv->changed_properties_idle_source); skeleton->priv->changed_properties_idle_source = NULL; emit_changed = TRUE; } g_mutex_unlock (&skeleton->priv->lock); if (emit_changed) _button_emit_changed (skeleton); } static void _button_on_signal_released ( Button *object) { ButtonSkeleton *skeleton = BUTTON_SKELETON (object); GList *connections, *l; GVariant *signal_variant; connections = g_dbus_interface_skeleton_get_connections (G_DBUS_INTERFACE_SKELETON (skeleton)); signal_variant = g_variant_ref_sink (g_variant_new ("()")); for (l = connections; l != NULL; l = l->next) { GDBusConnection *connection = l->data; g_dbus_connection_emit_signal (connection, NULL, g_dbus_interface_skeleton_get_object_path (G_DBUS_INTERFACE_SKELETON (skeleton)), "org.openbmc.Button", "Released", signal_variant, NULL); } g_variant_unref (signal_variant); g_list_free_full (connections, g_object_unref); } static void _button_on_signal_pressed ( Button *object) { ButtonSkeleton *skeleton = BUTTON_SKELETON (object); GList *connections, *l; GVariant *signal_variant; connections = g_dbus_interface_skeleton_get_connections (G_DBUS_INTERFACE_SKELETON (skeleton)); signal_variant = g_variant_ref_sink (g_variant_new ("()")); for (l = connections; l != NULL; l = l->next) { GDBusConnection *connection = l->data; g_dbus_connection_emit_signal (connection, NULL, g_dbus_interface_skeleton_get_object_path (G_DBUS_INTERFACE_SKELETON (skeleton)), "org.openbmc.Button", "Pressed", signal_variant, NULL); } g_variant_unref (signal_variant); g_list_free_full (connections, g_object_unref); } static void _button_on_signal_pressed_long ( Button *object) { ButtonSkeleton *skeleton = BUTTON_SKELETON (object); GList *connections, *l; GVariant *signal_variant; connections = g_dbus_interface_skeleton_get_connections (G_DBUS_INTERFACE_SKELETON (skeleton)); signal_variant = g_variant_ref_sink (g_variant_new ("()")); for (l = connections; l != NULL; l = l->next) { GDBusConnection *connection = l->data; g_dbus_connection_emit_signal (connection, NULL, g_dbus_interface_skeleton_get_object_path (G_DBUS_INTERFACE_SKELETON (skeleton)), "org.openbmc.Button", "PressedLong", signal_variant, NULL); } g_variant_unref (signal_variant); g_list_free_full (connections, g_object_unref); } static void button_skeleton_iface_init (ButtonIface *iface); #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 G_DEFINE_TYPE_WITH_CODE (ButtonSkeleton, button_skeleton, G_TYPE_DBUS_INTERFACE_SKELETON, G_ADD_PRIVATE (ButtonSkeleton) G_IMPLEMENT_INTERFACE (TYPE_BUTTON, button_skeleton_iface_init)); #else G_DEFINE_TYPE_WITH_CODE (ButtonSkeleton, button_skeleton, G_TYPE_DBUS_INTERFACE_SKELETON, G_IMPLEMENT_INTERFACE (TYPE_BUTTON, button_skeleton_iface_init)); #endif static void button_skeleton_finalize (GObject *object) { ButtonSkeleton *skeleton = BUTTON_SKELETON (object); guint n; for (n = 0; n < 2; n++) g_value_unset (&skeleton->priv->properties[n]); g_free (skeleton->priv->properties); g_list_free_full (skeleton->priv->changed_properties, (GDestroyNotify) _changed_property_free); if (skeleton->priv->changed_properties_idle_source != NULL) g_source_destroy (skeleton->priv->changed_properties_idle_source); g_main_context_unref (skeleton->priv->context); g_mutex_clear (&skeleton->priv->lock); G_OBJECT_CLASS (button_skeleton_parent_class)->finalize (object); } static void button_skeleton_get_property (GObject *object, guint prop_id, GValue *value, GParamSpec *pspec G_GNUC_UNUSED) { ButtonSkeleton *skeleton = BUTTON_SKELETON (object); g_assert (prop_id != 0 && prop_id - 1 < 2); g_mutex_lock (&skeleton->priv->lock); g_value_copy (&skeleton->priv->properties[prop_id - 1], value); g_mutex_unlock (&skeleton->priv->lock); } static gboolean _button_emit_changed (gpointer user_data) { ButtonSkeleton *skeleton = BUTTON_SKELETON (user_data); GList *l; GVariantBuilder builder; GVariantBuilder invalidated_builder; guint num_changes; g_mutex_lock (&skeleton->priv->lock); g_variant_builder_init (&builder, G_VARIANT_TYPE ("a{sv}")); g_variant_builder_init (&invalidated_builder, G_VARIANT_TYPE ("as")); for (l = skeleton->priv->changed_properties, num_changes = 0; l != NULL; l = l->next) { ChangedProperty *cp = l->data; GVariant *variant; const GValue *cur_value; cur_value = &skeleton->priv->properties[cp->prop_id - 1]; if (!_g_value_equal (cur_value, &cp->orig_value)) { variant = g_dbus_gvalue_to_gvariant (cur_value, G_VARIANT_TYPE (cp->info->parent_struct.signature)); g_variant_builder_add (&builder, "{sv}", cp->info->parent_struct.name, variant); g_variant_unref (variant); num_changes++; } } if (num_changes > 0) { GList *connections, *ll; GVariant *signal_variant; signal_variant = g_variant_ref_sink (g_variant_new ("(sa{sv}as)", "org.openbmc.Button", &builder, &invalidated_builder)); connections = g_dbus_interface_skeleton_get_connections (G_DBUS_INTERFACE_SKELETON (skeleton)); for (ll = connections; ll != NULL; ll = ll->next) { GDBusConnection *connection = ll->data; g_dbus_connection_emit_signal (connection, NULL, g_dbus_interface_skeleton_get_object_path (G_DBUS_INTERFACE_SKELETON (skeleton)), "org.freedesktop.DBus.Properties", "PropertiesChanged", signal_variant, NULL); } g_variant_unref (signal_variant); g_list_free_full (connections, g_object_unref); } else { g_variant_builder_clear (&builder); g_variant_builder_clear (&invalidated_builder); } g_list_free_full (skeleton->priv->changed_properties, (GDestroyNotify) _changed_property_free); skeleton->priv->changed_properties = NULL; skeleton->priv->changed_properties_idle_source = NULL; g_mutex_unlock (&skeleton->priv->lock); return FALSE; } static void _button_schedule_emit_changed (ButtonSkeleton *skeleton, const _ExtendedGDBusPropertyInfo *info, guint prop_id, const GValue *orig_value) { ChangedProperty *cp; GList *l; cp = NULL; for (l = skeleton->priv->changed_properties; l != NULL; l = l->next) { ChangedProperty *i_cp = l->data; if (i_cp->info == info) { cp = i_cp; break; } } if (cp == NULL) { cp = g_new0 (ChangedProperty, 1); cp->prop_id = prop_id; cp->info = info; skeleton->priv->changed_properties = g_list_prepend (skeleton->priv->changed_properties, cp); g_value_init (&cp->orig_value, G_VALUE_TYPE (orig_value)); g_value_copy (orig_value, &cp->orig_value); } } static void button_skeleton_notify (GObject *object, GParamSpec *pspec G_GNUC_UNUSED) { ButtonSkeleton *skeleton = BUTTON_SKELETON (object); g_mutex_lock (&skeleton->priv->lock); if (skeleton->priv->changed_properties != NULL && skeleton->priv->changed_properties_idle_source == NULL) { skeleton->priv->changed_properties_idle_source = g_idle_source_new (); g_source_set_priority (skeleton->priv->changed_properties_idle_source, G_PRIORITY_DEFAULT); g_source_set_callback (skeleton->priv->changed_properties_idle_source, _button_emit_changed, g_object_ref (skeleton), (GDestroyNotify) g_object_unref); g_source_set_name (skeleton->priv->changed_properties_idle_source, "[generated] _button_emit_changed"); g_source_attach (skeleton->priv->changed_properties_idle_source, skeleton->priv->context); g_source_unref (skeleton->priv->changed_properties_idle_source); } g_mutex_unlock (&skeleton->priv->lock); } static void button_skeleton_set_property (GObject *object, guint prop_id, const GValue *value, GParamSpec *pspec) { ButtonSkeleton *skeleton = BUTTON_SKELETON (object); g_assert (prop_id != 0 && prop_id - 1 < 2); g_mutex_lock (&skeleton->priv->lock); g_object_freeze_notify (object); if (!_g_value_equal (value, &skeleton->priv->properties[prop_id - 1])) { if (g_dbus_interface_skeleton_get_connection (G_DBUS_INTERFACE_SKELETON (skeleton)) != NULL) _button_schedule_emit_changed (skeleton, _button_property_info_pointers[prop_id - 1], prop_id, &skeleton->priv->properties[prop_id - 1]); g_value_copy (value, &skeleton->priv->properties[prop_id - 1]); g_object_notify_by_pspec (object, pspec); } g_mutex_unlock (&skeleton->priv->lock); g_object_thaw_notify (object); } static void button_skeleton_init (ButtonSkeleton *skeleton) { #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 skeleton->priv = button_skeleton_get_instance_private (skeleton); #else skeleton->priv = G_TYPE_INSTANCE_GET_PRIVATE (skeleton, TYPE_BUTTON_SKELETON, ButtonSkeletonPrivate); #endif g_mutex_init (&skeleton->priv->lock); skeleton->priv->context = g_main_context_ref_thread_default (); skeleton->priv->properties = g_new0 (GValue, 2); g_value_init (&skeleton->priv->properties[0], G_TYPE_BOOLEAN); g_value_init (&skeleton->priv->properties[1], G_TYPE_UINT64); } static gboolean button_skeleton_get_state (Button *object) { ButtonSkeleton *skeleton = BUTTON_SKELETON (object); gboolean value; g_mutex_lock (&skeleton->priv->lock); value = g_value_get_boolean (&(skeleton->priv->properties[0])); g_mutex_unlock (&skeleton->priv->lock); return value; } static guint64 button_skeleton_get_timer (Button *object) { ButtonSkeleton *skeleton = BUTTON_SKELETON (object); guint64 value; g_mutex_lock (&skeleton->priv->lock); value = g_value_get_uint64 (&(skeleton->priv->properties[1])); g_mutex_unlock (&skeleton->priv->lock); return value; } static void button_skeleton_class_init (ButtonSkeletonClass *klass) { GObjectClass *gobject_class; GDBusInterfaceSkeletonClass *skeleton_class; gobject_class = G_OBJECT_CLASS (klass); gobject_class->finalize = button_skeleton_finalize; gobject_class->get_property = button_skeleton_get_property; gobject_class->set_property = button_skeleton_set_property; gobject_class->notify = button_skeleton_notify; button_override_properties (gobject_class, 1); skeleton_class = G_DBUS_INTERFACE_SKELETON_CLASS (klass); skeleton_class->get_info = button_skeleton_dbus_interface_get_info; skeleton_class->get_properties = button_skeleton_dbus_interface_get_properties; skeleton_class->flush = button_skeleton_dbus_interface_flush; skeleton_class->get_vtable = button_skeleton_dbus_interface_get_vtable; #if GLIB_VERSION_MAX_ALLOWED < GLIB_VERSION_2_38 g_type_class_add_private (klass, sizeof (ButtonSkeletonPrivate)); #endif } static void button_skeleton_iface_init (ButtonIface *iface) { iface->released = _button_on_signal_released; iface->pressed = _button_on_signal_pressed; iface->pressed_long = _button_on_signal_pressed_long; iface->get_state = button_skeleton_get_state; iface->get_timer = button_skeleton_get_timer; } /** * button_skeleton_new: * * Creates a skeleton object for the D-Bus interface org.openbmc.Button. * * Returns: (transfer full) (type ButtonSkeleton): The skeleton object. */ Button * button_skeleton_new (void) { return BUTTON (g_object_new (TYPE_BUTTON_SKELETON, NULL)); } /* ------------------------------------------------------------------------ * Code for interface org.openbmc.Led * ------------------------------------------------------------------------ */ /** * SECTION:Led * @title: Led * @short_description: Generated C code for the org.openbmc.Led D-Bus interface * * This section contains code for working with the org.openbmc.Led D-Bus interface in C. */ /* ---- Introspection data for org.openbmc.Led ---- */ static const _ExtendedGDBusMethodInfo _led_method_info_set_on = { { -1, (gchar *) "setOn", NULL, NULL, NULL }, "handle-set-on", FALSE }; static const _ExtendedGDBusMethodInfo _led_method_info_set_off = { { -1, (gchar *) "setOff", NULL, NULL, NULL }, "handle-set-off", FALSE }; static const _ExtendedGDBusMethodInfo _led_method_info_set_blink_slow = { { -1, (gchar *) "setBlinkSlow", NULL, NULL, NULL }, "handle-set-blink-slow", FALSE }; static const _ExtendedGDBusMethodInfo _led_method_info_set_blink_fast = { { -1, (gchar *) "setBlinkFast", NULL, NULL, NULL }, "handle-set-blink-fast", FALSE }; static const _ExtendedGDBusMethodInfo * const _led_method_info_pointers[] = { &_led_method_info_set_on, &_led_method_info_set_off, &_led_method_info_set_blink_slow, &_led_method_info_set_blink_fast, NULL }; static const _ExtendedGDBusPropertyInfo _led_property_info_color = { { -1, (gchar *) "color", (gchar *) "i", G_DBUS_PROPERTY_INFO_FLAGS_READABLE, NULL }, "color", FALSE }; static const _ExtendedGDBusPropertyInfo _led_property_info_function = { { -1, (gchar *) "function", (gchar *) "s", G_DBUS_PROPERTY_INFO_FLAGS_READABLE, NULL }, "function", FALSE }; static const _ExtendedGDBusPropertyInfo _led_property_info_state = { { -1, (gchar *) "state", (gchar *) "s", G_DBUS_PROPERTY_INFO_FLAGS_READABLE, NULL }, "state", FALSE }; static const _ExtendedGDBusPropertyInfo * const _led_property_info_pointers[] = { &_led_property_info_color, &_led_property_info_function, &_led_property_info_state, NULL }; static const _ExtendedGDBusInterfaceInfo _led_interface_info = { { -1, (gchar *) "org.openbmc.Led", (GDBusMethodInfo **) &_led_method_info_pointers, NULL, (GDBusPropertyInfo **) &_led_property_info_pointers, NULL }, "led", }; /** * led_interface_info: * * Gets a machine-readable description of the org.openbmc.Led D-Bus interface. * * Returns: (transfer none): A #GDBusInterfaceInfo. Do not free. */ GDBusInterfaceInfo * led_interface_info (void) { return (GDBusInterfaceInfo *) &_led_interface_info.parent_struct; } /** * led_override_properties: * @klass: The class structure for a #GObject-derived class. * @property_id_begin: The property id to assign to the first overridden property. * * Overrides all #GObject properties in the #Led interface for a concrete class. * The properties are overridden in the order they are defined. * * Returns: The last property id. */ guint led_override_properties (GObjectClass *klass, guint property_id_begin) { g_object_class_override_property (klass, property_id_begin++, "color"); g_object_class_override_property (klass, property_id_begin++, "function"); g_object_class_override_property (klass, property_id_begin++, "state"); return property_id_begin - 1; } /** * Led: * * Abstract interface type for the D-Bus interface org.openbmc.Led. */ /** * LedIface: * @parent_iface: The parent interface. * @handle_set_blink_fast: Handler for the #Led::handle-set-blink-fast signal. * @handle_set_blink_slow: Handler for the #Led::handle-set-blink-slow signal. * @handle_set_off: Handler for the #Led::handle-set-off signal. * @handle_set_on: Handler for the #Led::handle-set-on signal. * @get_color: Getter for the #Led:color property. * @get_function: Getter for the #Led:function property. * @get_state: Getter for the #Led:state property. * * Virtual table for the D-Bus interface org.openbmc.Led. */ typedef LedIface LedInterface; G_DEFINE_INTERFACE (Led, led, G_TYPE_OBJECT); static void led_default_init (LedIface *iface) { /* GObject signals for incoming D-Bus method calls: */ /** * Led::handle-set-on: * @object: A #Led. * @invocation: A #GDBusMethodInvocation. * * Signal emitted when a remote caller is invoking the setOn() D-Bus method. * * If a signal handler returns %TRUE, it means the signal handler will handle the invocation (e.g. take a reference to @invocation and eventually call led_complete_set_on() or e.g. g_dbus_method_invocation_return_error() on it) and no order signal handlers will run. If no signal handler handles the invocation, the %G_DBUS_ERROR_UNKNOWN_METHOD error is returned. * * Returns: %TRUE if the invocation was handled, %FALSE to let other signal handlers run. */ g_signal_new ("handle-set-on", G_TYPE_FROM_INTERFACE (iface), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (LedIface, handle_set_on), g_signal_accumulator_true_handled, NULL, g_cclosure_marshal_generic, G_TYPE_BOOLEAN, 1, G_TYPE_DBUS_METHOD_INVOCATION); /** * Led::handle-set-off: * @object: A #Led. * @invocation: A #GDBusMethodInvocation. * * Signal emitted when a remote caller is invoking the setOff() D-Bus method. * * If a signal handler returns %TRUE, it means the signal handler will handle the invocation (e.g. take a reference to @invocation and eventually call led_complete_set_off() or e.g. g_dbus_method_invocation_return_error() on it) and no order signal handlers will run. If no signal handler handles the invocation, the %G_DBUS_ERROR_UNKNOWN_METHOD error is returned. * * Returns: %TRUE if the invocation was handled, %FALSE to let other signal handlers run. */ g_signal_new ("handle-set-off", G_TYPE_FROM_INTERFACE (iface), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (LedIface, handle_set_off), g_signal_accumulator_true_handled, NULL, g_cclosure_marshal_generic, G_TYPE_BOOLEAN, 1, G_TYPE_DBUS_METHOD_INVOCATION); /** * Led::handle-set-blink-slow: * @object: A #Led. * @invocation: A #GDBusMethodInvocation. * * Signal emitted when a remote caller is invoking the setBlinkSlow() D-Bus method. * * If a signal handler returns %TRUE, it means the signal handler will handle the invocation (e.g. take a reference to @invocation and eventually call led_complete_set_blink_slow() or e.g. g_dbus_method_invocation_return_error() on it) and no order signal handlers will run. If no signal handler handles the invocation, the %G_DBUS_ERROR_UNKNOWN_METHOD error is returned. * * Returns: %TRUE if the invocation was handled, %FALSE to let other signal handlers run. */ g_signal_new ("handle-set-blink-slow", G_TYPE_FROM_INTERFACE (iface), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (LedIface, handle_set_blink_slow), g_signal_accumulator_true_handled, NULL, g_cclosure_marshal_generic, G_TYPE_BOOLEAN, 1, G_TYPE_DBUS_METHOD_INVOCATION); /** * Led::handle-set-blink-fast: * @object: A #Led. * @invocation: A #GDBusMethodInvocation. * * Signal emitted when a remote caller is invoking the setBlinkFast() D-Bus method. * * If a signal handler returns %TRUE, it means the signal handler will handle the invocation (e.g. take a reference to @invocation and eventually call led_complete_set_blink_fast() or e.g. g_dbus_method_invocation_return_error() on it) and no order signal handlers will run. If no signal handler handles the invocation, the %G_DBUS_ERROR_UNKNOWN_METHOD error is returned. * * Returns: %TRUE if the invocation was handled, %FALSE to let other signal handlers run. */ g_signal_new ("handle-set-blink-fast", G_TYPE_FROM_INTERFACE (iface), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (LedIface, handle_set_blink_fast), g_signal_accumulator_true_handled, NULL, g_cclosure_marshal_generic, G_TYPE_BOOLEAN, 1, G_TYPE_DBUS_METHOD_INVOCATION); /* GObject properties for D-Bus properties: */ /** * Led:color: * * Represents the D-Bus property "color". * * Since the D-Bus property for this #GObject property is readable but not writable, it is meaningful to read from it on both the client- and service-side. It is only meaningful, however, to write to it on the service-side. */ g_object_interface_install_property (iface, g_param_spec_int ("color", "color", "color", G_MININT32, G_MAXINT32, 0, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS)); /** * Led:function: * * Represents the D-Bus property "function". * * Since the D-Bus property for this #GObject property is readable but not writable, it is meaningful to read from it on both the client- and service-side. It is only meaningful, however, to write to it on the service-side. */ g_object_interface_install_property (iface, g_param_spec_string ("function", "function", "function", NULL, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS)); /** * Led:state: * * Represents the D-Bus property "state". * * Since the D-Bus property for this #GObject property is readable but not writable, it is meaningful to read from it on both the client- and service-side. It is only meaningful, however, to write to it on the service-side. */ g_object_interface_install_property (iface, g_param_spec_string ("state", "state", "state", NULL, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS)); } /** * led_get_color: (skip) * @object: A #Led. * * Gets the value of the "color" D-Bus property. * * Since this D-Bus property is readable, it is meaningful to use this function on both the client- and service-side. * * Returns: The property value. */ gint led_get_color (Led *object) { return LED_GET_IFACE (object)->get_color (object); } /** * led_set_color: (skip) * @object: A #Led. * @value: The value to set. * * Sets the "color" D-Bus property to @value. * * Since this D-Bus property is not writable, it is only meaningful to use this function on the service-side. */ void led_set_color (Led *object, gint value) { g_object_set (G_OBJECT (object), "color", value, NULL); } /** * led_get_function: (skip) * @object: A #Led. * * Gets the value of the "function" D-Bus property. * * Since this D-Bus property is readable, it is meaningful to use this function on both the client- and service-side. * * The returned value is only valid until the property changes so on the client-side it is only safe to use this function on the thread where @object was constructed. Use led_dup_function() if on another thread. * * Returns: (transfer none): The property value or %NULL if the property is not set. Do not free the returned value, it belongs to @object. */ const gchar * led_get_function (Led *object) { return LED_GET_IFACE (object)->get_function (object); } /** * led_dup_function: (skip) * @object: A #Led. * * Gets a copy of the "function" D-Bus property. * * Since this D-Bus property is readable, it is meaningful to use this function on both the client- and service-side. * * Returns: (transfer full): The property value or %NULL if the property is not set. The returned value should be freed with g_free(). */ gchar * led_dup_function (Led *object) { gchar *value; g_object_get (G_OBJECT (object), "function", &value, NULL); return value; } /** * led_set_function: (skip) * @object: A #Led. * @value: The value to set. * * Sets the "function" D-Bus property to @value. * * Since this D-Bus property is not writable, it is only meaningful to use this function on the service-side. */ void led_set_function (Led *object, const gchar *value) { g_object_set (G_OBJECT (object), "function", value, NULL); } /** * led_get_state: (skip) * @object: A #Led. * * Gets the value of the "state" D-Bus property. * * Since this D-Bus property is readable, it is meaningful to use this function on both the client- and service-side. * * The returned value is only valid until the property changes so on the client-side it is only safe to use this function on the thread where @object was constructed. Use led_dup_state() if on another thread. * * Returns: (transfer none): The property value or %NULL if the property is not set. Do not free the returned value, it belongs to @object. */ const gchar * led_get_state (Led *object) { return LED_GET_IFACE (object)->get_state (object); } /** * led_dup_state: (skip) * @object: A #Led. * * Gets a copy of the "state" D-Bus property. * * Since this D-Bus property is readable, it is meaningful to use this function on both the client- and service-side. * * Returns: (transfer full): The property value or %NULL if the property is not set. The returned value should be freed with g_free(). */ gchar * led_dup_state (Led *object) { gchar *value; g_object_get (G_OBJECT (object), "state", &value, NULL); return value; } /** * led_set_state: (skip) * @object: A #Led. * @value: The value to set. * * Sets the "state" D-Bus property to @value. * * Since this D-Bus property is not writable, it is only meaningful to use this function on the service-side. */ void led_set_state (Led *object, const gchar *value) { g_object_set (G_OBJECT (object), "state", value, NULL); } /** * led_call_set_on: * @proxy: A #LedProxy. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied or %NULL. * @user_data: User data to pass to @callback. * * Asynchronously invokes the setOn() D-Bus method on @proxy. * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call led_call_set_on_finish() to get the result of the operation. * * See led_call_set_on_sync() for the synchronous, blocking version of this method. */ void led_call_set_on ( Led *proxy, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_dbus_proxy_call (G_DBUS_PROXY (proxy), "setOn", g_variant_new ("()"), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, callback, user_data); } /** * led_call_set_on_finish: * @proxy: A #LedProxy. * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to led_call_set_on(). * @error: Return location for error or %NULL. * * Finishes an operation started with led_call_set_on(). * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean led_call_set_on_finish ( Led *proxy, GAsyncResult *res, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_finish (G_DBUS_PROXY (proxy), res, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "()"); g_variant_unref (_ret); _out: return _ret != NULL; } /** * led_call_set_on_sync: * @proxy: A #LedProxy. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL. * * Synchronously invokes the setOn() D-Bus method on @proxy. The calling thread is blocked until a reply is received. * * See led_call_set_on() for the asynchronous version of this method. * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean led_call_set_on_sync ( Led *proxy, GCancellable *cancellable, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_sync (G_DBUS_PROXY (proxy), "setOn", g_variant_new ("()"), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "()"); g_variant_unref (_ret); _out: return _ret != NULL; } /** * led_call_set_off: * @proxy: A #LedProxy. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied or %NULL. * @user_data: User data to pass to @callback. * * Asynchronously invokes the setOff() D-Bus method on @proxy. * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call led_call_set_off_finish() to get the result of the operation. * * See led_call_set_off_sync() for the synchronous, blocking version of this method. */ void led_call_set_off ( Led *proxy, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_dbus_proxy_call (G_DBUS_PROXY (proxy), "setOff", g_variant_new ("()"), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, callback, user_data); } /** * led_call_set_off_finish: * @proxy: A #LedProxy. * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to led_call_set_off(). * @error: Return location for error or %NULL. * * Finishes an operation started with led_call_set_off(). * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean led_call_set_off_finish ( Led *proxy, GAsyncResult *res, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_finish (G_DBUS_PROXY (proxy), res, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "()"); g_variant_unref (_ret); _out: return _ret != NULL; } /** * led_call_set_off_sync: * @proxy: A #LedProxy. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL. * * Synchronously invokes the setOff() D-Bus method on @proxy. The calling thread is blocked until a reply is received. * * See led_call_set_off() for the asynchronous version of this method. * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean led_call_set_off_sync ( Led *proxy, GCancellable *cancellable, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_sync (G_DBUS_PROXY (proxy), "setOff", g_variant_new ("()"), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "()"); g_variant_unref (_ret); _out: return _ret != NULL; } /** * led_call_set_blink_slow: * @proxy: A #LedProxy. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied or %NULL. * @user_data: User data to pass to @callback. * * Asynchronously invokes the setBlinkSlow() D-Bus method on @proxy. * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call led_call_set_blink_slow_finish() to get the result of the operation. * * See led_call_set_blink_slow_sync() for the synchronous, blocking version of this method. */ void led_call_set_blink_slow ( Led *proxy, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_dbus_proxy_call (G_DBUS_PROXY (proxy), "setBlinkSlow", g_variant_new ("()"), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, callback, user_data); } /** * led_call_set_blink_slow_finish: * @proxy: A #LedProxy. * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to led_call_set_blink_slow(). * @error: Return location for error or %NULL. * * Finishes an operation started with led_call_set_blink_slow(). * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean led_call_set_blink_slow_finish ( Led *proxy, GAsyncResult *res, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_finish (G_DBUS_PROXY (proxy), res, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "()"); g_variant_unref (_ret); _out: return _ret != NULL; } /** * led_call_set_blink_slow_sync: * @proxy: A #LedProxy. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL. * * Synchronously invokes the setBlinkSlow() D-Bus method on @proxy. The calling thread is blocked until a reply is received. * * See led_call_set_blink_slow() for the asynchronous version of this method. * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean led_call_set_blink_slow_sync ( Led *proxy, GCancellable *cancellable, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_sync (G_DBUS_PROXY (proxy), "setBlinkSlow", g_variant_new ("()"), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "()"); g_variant_unref (_ret); _out: return _ret != NULL; } /** * led_call_set_blink_fast: * @proxy: A #LedProxy. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied or %NULL. * @user_data: User data to pass to @callback. * * Asynchronously invokes the setBlinkFast() D-Bus method on @proxy. * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call led_call_set_blink_fast_finish() to get the result of the operation. * * See led_call_set_blink_fast_sync() for the synchronous, blocking version of this method. */ void led_call_set_blink_fast ( Led *proxy, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_dbus_proxy_call (G_DBUS_PROXY (proxy), "setBlinkFast", g_variant_new ("()"), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, callback, user_data); } /** * led_call_set_blink_fast_finish: * @proxy: A #LedProxy. * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to led_call_set_blink_fast(). * @error: Return location for error or %NULL. * * Finishes an operation started with led_call_set_blink_fast(). * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean led_call_set_blink_fast_finish ( Led *proxy, GAsyncResult *res, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_finish (G_DBUS_PROXY (proxy), res, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "()"); g_variant_unref (_ret); _out: return _ret != NULL; } /** * led_call_set_blink_fast_sync: * @proxy: A #LedProxy. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL. * * Synchronously invokes the setBlinkFast() D-Bus method on @proxy. The calling thread is blocked until a reply is received. * * See led_call_set_blink_fast() for the asynchronous version of this method. * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean led_call_set_blink_fast_sync ( Led *proxy, GCancellable *cancellable, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_sync (G_DBUS_PROXY (proxy), "setBlinkFast", g_variant_new ("()"), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "()"); g_variant_unref (_ret); _out: return _ret != NULL; } /** * led_complete_set_on: * @object: A #Led. * @invocation: (transfer full): A #GDBusMethodInvocation. * * Helper function used in service implementations to finish handling invocations of the setOn() D-Bus method. If you instead want to finish handling an invocation by returning an error, use g_dbus_method_invocation_return_error() or similar. * * This method will free @invocation, you cannot use it afterwards. */ void led_complete_set_on ( Led *object, GDBusMethodInvocation *invocation) { g_dbus_method_invocation_return_value (invocation, g_variant_new ("()")); } /** * led_complete_set_off: * @object: A #Led. * @invocation: (transfer full): A #GDBusMethodInvocation. * * Helper function used in service implementations to finish handling invocations of the setOff() D-Bus method. If you instead want to finish handling an invocation by returning an error, use g_dbus_method_invocation_return_error() or similar. * * This method will free @invocation, you cannot use it afterwards. */ void led_complete_set_off ( Led *object, GDBusMethodInvocation *invocation) { g_dbus_method_invocation_return_value (invocation, g_variant_new ("()")); } /** * led_complete_set_blink_slow: * @object: A #Led. * @invocation: (transfer full): A #GDBusMethodInvocation. * * Helper function used in service implementations to finish handling invocations of the setBlinkSlow() D-Bus method. If you instead want to finish handling an invocation by returning an error, use g_dbus_method_invocation_return_error() or similar. * * This method will free @invocation, you cannot use it afterwards. */ void led_complete_set_blink_slow ( Led *object, GDBusMethodInvocation *invocation) { g_dbus_method_invocation_return_value (invocation, g_variant_new ("()")); } /** * led_complete_set_blink_fast: * @object: A #Led. * @invocation: (transfer full): A #GDBusMethodInvocation. * * Helper function used in service implementations to finish handling invocations of the setBlinkFast() D-Bus method. If you instead want to finish handling an invocation by returning an error, use g_dbus_method_invocation_return_error() or similar. * * This method will free @invocation, you cannot use it afterwards. */ void led_complete_set_blink_fast ( Led *object, GDBusMethodInvocation *invocation) { g_dbus_method_invocation_return_value (invocation, g_variant_new ("()")); } /* ------------------------------------------------------------------------ */ /** * LedProxy: * * The #LedProxy structure contains only private data and should only be accessed using the provided API. */ /** * LedProxyClass: * @parent_class: The parent class. * * Class structure for #LedProxy. */ struct _LedProxyPrivate { GData *qdata; }; static void led_proxy_iface_init (LedIface *iface); #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 G_DEFINE_TYPE_WITH_CODE (LedProxy, led_proxy, G_TYPE_DBUS_PROXY, G_ADD_PRIVATE (LedProxy) G_IMPLEMENT_INTERFACE (TYPE_LED, led_proxy_iface_init)); #else G_DEFINE_TYPE_WITH_CODE (LedProxy, led_proxy, G_TYPE_DBUS_PROXY, G_IMPLEMENT_INTERFACE (TYPE_LED, led_proxy_iface_init)); #endif static void led_proxy_finalize (GObject *object) { LedProxy *proxy = LED_PROXY (object); g_datalist_clear (&proxy->priv->qdata); G_OBJECT_CLASS (led_proxy_parent_class)->finalize (object); } static void led_proxy_get_property (GObject *object, guint prop_id, GValue *value, GParamSpec *pspec G_GNUC_UNUSED) { const _ExtendedGDBusPropertyInfo *info; GVariant *variant; g_assert (prop_id != 0 && prop_id - 1 < 3); info = _led_property_info_pointers[prop_id - 1]; variant = g_dbus_proxy_get_cached_property (G_DBUS_PROXY (object), info->parent_struct.name); if (info->use_gvariant) { g_value_set_variant (value, variant); } else { if (variant != NULL) g_dbus_gvariant_to_gvalue (variant, value); } if (variant != NULL) g_variant_unref (variant); } static void led_proxy_set_property_cb (GDBusProxy *proxy, GAsyncResult *res, gpointer user_data) { const _ExtendedGDBusPropertyInfo *info = user_data; GError *error; GVariant *_ret; error = NULL; _ret = g_dbus_proxy_call_finish (proxy, res, &error); if (!_ret) { g_warning ("Error setting property '%s' on interface org.openbmc.Led: %s (%s, %d)", info->parent_struct.name, error->message, g_quark_to_string (error->domain), error->code); g_error_free (error); } else { g_variant_unref (_ret); } } static void led_proxy_set_property (GObject *object, guint prop_id, const GValue *value, GParamSpec *pspec G_GNUC_UNUSED) { const _ExtendedGDBusPropertyInfo *info; GVariant *variant; g_assert (prop_id != 0 && prop_id - 1 < 3); info = _led_property_info_pointers[prop_id - 1]; variant = g_dbus_gvalue_to_gvariant (value, G_VARIANT_TYPE (info->parent_struct.signature)); g_dbus_proxy_call (G_DBUS_PROXY (object), "org.freedesktop.DBus.Properties.Set", g_variant_new ("(ssv)", "org.openbmc.Led", info->parent_struct.name, variant), G_DBUS_CALL_FLAGS_NONE, -1, NULL, (GAsyncReadyCallback) led_proxy_set_property_cb, (GDBusPropertyInfo *) &info->parent_struct); g_variant_unref (variant); } static void led_proxy_g_signal (GDBusProxy *proxy, const gchar *sender_name G_GNUC_UNUSED, const gchar *signal_name, GVariant *parameters) { _ExtendedGDBusSignalInfo *info; GVariantIter iter; GVariant *child; GValue *paramv; guint num_params; guint n; guint signal_id; info = (_ExtendedGDBusSignalInfo *) g_dbus_interface_info_lookup_signal ((GDBusInterfaceInfo *) &_led_interface_info.parent_struct, signal_name); if (info == NULL) return; num_params = g_variant_n_children (parameters); paramv = g_new0 (GValue, num_params + 1); g_value_init (¶mv[0], TYPE_LED); g_value_set_object (¶mv[0], proxy); g_variant_iter_init (&iter, parameters); n = 1; while ((child = g_variant_iter_next_value (&iter)) != NULL) { _ExtendedGDBusArgInfo *arg_info = (_ExtendedGDBusArgInfo *) info->parent_struct.args[n - 1]; if (arg_info->use_gvariant) { g_value_init (¶mv[n], G_TYPE_VARIANT); g_value_set_variant (¶mv[n], child); n++; } else g_dbus_gvariant_to_gvalue (child, ¶mv[n++]); g_variant_unref (child); } signal_id = g_signal_lookup (info->signal_name, TYPE_LED); g_signal_emitv (paramv, signal_id, 0, NULL); for (n = 0; n < num_params + 1; n++) g_value_unset (¶mv[n]); g_free (paramv); } static void led_proxy_g_properties_changed (GDBusProxy *_proxy, GVariant *changed_properties, const gchar *const *invalidated_properties) { LedProxy *proxy = LED_PROXY (_proxy); guint n; const gchar *key; GVariantIter *iter; _ExtendedGDBusPropertyInfo *info; g_variant_get (changed_properties, "a{sv}", &iter); while (g_variant_iter_next (iter, "{&sv}", &key, NULL)) { info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_led_interface_info.parent_struct, key); g_datalist_remove_data (&proxy->priv->qdata, key); if (info != NULL) g_object_notify (G_OBJECT (proxy), info->hyphen_name); } g_variant_iter_free (iter); for (n = 0; invalidated_properties[n] != NULL; n++) { info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_led_interface_info.parent_struct, invalidated_properties[n]); g_datalist_remove_data (&proxy->priv->qdata, invalidated_properties[n]); if (info != NULL) g_object_notify (G_OBJECT (proxy), info->hyphen_name); } } static gint led_proxy_get_color (Led *object) { LedProxy *proxy = LED_PROXY (object); GVariant *variant; gint value = 0; variant = g_dbus_proxy_get_cached_property (G_DBUS_PROXY (proxy), "color"); if (variant != NULL) { value = g_variant_get_int32 (variant); g_variant_unref (variant); } return value; } static const gchar * led_proxy_get_function (Led *object) { LedProxy *proxy = LED_PROXY (object); GVariant *variant; const gchar *value = NULL; variant = g_dbus_proxy_get_cached_property (G_DBUS_PROXY (proxy), "function"); if (variant != NULL) { value = g_variant_get_string (variant, NULL); g_variant_unref (variant); } return value; } static const gchar * led_proxy_get_state (Led *object) { LedProxy *proxy = LED_PROXY (object); GVariant *variant; const gchar *value = NULL; variant = g_dbus_proxy_get_cached_property (G_DBUS_PROXY (proxy), "state"); if (variant != NULL) { value = g_variant_get_string (variant, NULL); g_variant_unref (variant); } return value; } static void led_proxy_init (LedProxy *proxy) { #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 proxy->priv = led_proxy_get_instance_private (proxy); #else proxy->priv = G_TYPE_INSTANCE_GET_PRIVATE (proxy, TYPE_LED_PROXY, LedProxyPrivate); #endif g_dbus_proxy_set_interface_info (G_DBUS_PROXY (proxy), led_interface_info ()); } static void led_proxy_class_init (LedProxyClass *klass) { GObjectClass *gobject_class; GDBusProxyClass *proxy_class; gobject_class = G_OBJECT_CLASS (klass); gobject_class->finalize = led_proxy_finalize; gobject_class->get_property = led_proxy_get_property; gobject_class->set_property = led_proxy_set_property; proxy_class = G_DBUS_PROXY_CLASS (klass); proxy_class->g_signal = led_proxy_g_signal; proxy_class->g_properties_changed = led_proxy_g_properties_changed; led_override_properties (gobject_class, 1); #if GLIB_VERSION_MAX_ALLOWED < GLIB_VERSION_2_38 g_type_class_add_private (klass, sizeof (LedProxyPrivate)); #endif } static void led_proxy_iface_init (LedIface *iface) { iface->get_color = led_proxy_get_color; iface->get_function = led_proxy_get_function; iface->get_state = led_proxy_get_state; } /** * led_proxy_new: * @connection: A #GDBusConnection. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: (allow-none): A bus name (well-known or unique) or %NULL if @connection is not a message bus connection. * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied. * @user_data: User data to pass to @callback. * * Asynchronously creates a proxy for the D-Bus interface org.openbmc.Led. See g_dbus_proxy_new() for more details. * * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call led_proxy_new_finish() to get the result of the operation. * * See led_proxy_new_sync() for the synchronous, blocking version of this constructor. */ void led_proxy_new ( GDBusConnection *connection, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_async_initable_new_async (TYPE_LED_PROXY, G_PRIORITY_DEFAULT, cancellable, callback, user_data, "g-flags", flags, "g-name", name, "g-connection", connection, "g-object-path", object_path, "g-interface-name", "org.openbmc.Led", NULL); } /** * led_proxy_new_finish: * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to led_proxy_new(). * @error: Return location for error or %NULL * * Finishes an operation started with led_proxy_new(). * * Returns: (transfer full) (type LedProxy): The constructed proxy object or %NULL if @error is set. */ Led * led_proxy_new_finish ( GAsyncResult *res, GError **error) { GObject *ret; GObject *source_object; source_object = g_async_result_get_source_object (res); ret = g_async_initable_new_finish (G_ASYNC_INITABLE (source_object), res, error); g_object_unref (source_object); if (ret != NULL) return LED (ret); else return NULL; } /** * led_proxy_new_sync: * @connection: A #GDBusConnection. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: (allow-none): A bus name (well-known or unique) or %NULL if @connection is not a message bus connection. * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL * * Synchronously creates a proxy for the D-Bus interface org.openbmc.Led. See g_dbus_proxy_new_sync() for more details. * * The calling thread is blocked until a reply is received. * * See led_proxy_new() for the asynchronous version of this constructor. * * Returns: (transfer full) (type LedProxy): The constructed proxy object or %NULL if @error is set. */ Led * led_proxy_new_sync ( GDBusConnection *connection, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GError **error) { GInitable *ret; ret = g_initable_new (TYPE_LED_PROXY, cancellable, error, "g-flags", flags, "g-name", name, "g-connection", connection, "g-object-path", object_path, "g-interface-name", "org.openbmc.Led", NULL); if (ret != NULL) return LED (ret); else return NULL; } /** * led_proxy_new_for_bus: * @bus_type: A #GBusType. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: A bus name (well-known or unique). * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied. * @user_data: User data to pass to @callback. * * Like led_proxy_new() but takes a #GBusType instead of a #GDBusConnection. * * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call led_proxy_new_for_bus_finish() to get the result of the operation. * * See led_proxy_new_for_bus_sync() for the synchronous, blocking version of this constructor. */ void led_proxy_new_for_bus ( GBusType bus_type, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_async_initable_new_async (TYPE_LED_PROXY, G_PRIORITY_DEFAULT, cancellable, callback, user_data, "g-flags", flags, "g-name", name, "g-bus-type", bus_type, "g-object-path", object_path, "g-interface-name", "org.openbmc.Led", NULL); } /** * led_proxy_new_for_bus_finish: * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to led_proxy_new_for_bus(). * @error: Return location for error or %NULL * * Finishes an operation started with led_proxy_new_for_bus(). * * Returns: (transfer full) (type LedProxy): The constructed proxy object or %NULL if @error is set. */ Led * led_proxy_new_for_bus_finish ( GAsyncResult *res, GError **error) { GObject *ret; GObject *source_object; source_object = g_async_result_get_source_object (res); ret = g_async_initable_new_finish (G_ASYNC_INITABLE (source_object), res, error); g_object_unref (source_object); if (ret != NULL) return LED (ret); else return NULL; } /** * led_proxy_new_for_bus_sync: * @bus_type: A #GBusType. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: A bus name (well-known or unique). * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL * * Like led_proxy_new_sync() but takes a #GBusType instead of a #GDBusConnection. * * The calling thread is blocked until a reply is received. * * See led_proxy_new_for_bus() for the asynchronous version of this constructor. * * Returns: (transfer full) (type LedProxy): The constructed proxy object or %NULL if @error is set. */ Led * led_proxy_new_for_bus_sync ( GBusType bus_type, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GError **error) { GInitable *ret; ret = g_initable_new (TYPE_LED_PROXY, cancellable, error, "g-flags", flags, "g-name", name, "g-bus-type", bus_type, "g-object-path", object_path, "g-interface-name", "org.openbmc.Led", NULL); if (ret != NULL) return LED (ret); else return NULL; } /* ------------------------------------------------------------------------ */ /** * LedSkeleton: * * The #LedSkeleton structure contains only private data and should only be accessed using the provided API. */ /** * LedSkeletonClass: * @parent_class: The parent class. * * Class structure for #LedSkeleton. */ struct _LedSkeletonPrivate { GValue *properties; GList *changed_properties; GSource *changed_properties_idle_source; GMainContext *context; GMutex lock; }; static void _led_skeleton_handle_method_call ( GDBusConnection *connection G_GNUC_UNUSED, const gchar *sender G_GNUC_UNUSED, const gchar *object_path G_GNUC_UNUSED, const gchar *interface_name, const gchar *method_name, GVariant *parameters, GDBusMethodInvocation *invocation, gpointer user_data) { LedSkeleton *skeleton = LED_SKELETON (user_data); _ExtendedGDBusMethodInfo *info; GVariantIter iter; GVariant *child; GValue *paramv; guint num_params; guint num_extra; guint n; guint signal_id; GValue return_value = G_VALUE_INIT; info = (_ExtendedGDBusMethodInfo *) g_dbus_method_invocation_get_method_info (invocation); g_assert (info != NULL); num_params = g_variant_n_children (parameters); num_extra = info->pass_fdlist ? 3 : 2; paramv = g_new0 (GValue, num_params + num_extra); n = 0; g_value_init (¶mv[n], TYPE_LED); g_value_set_object (¶mv[n++], skeleton); g_value_init (¶mv[n], G_TYPE_DBUS_METHOD_INVOCATION); g_value_set_object (¶mv[n++], invocation); if (info->pass_fdlist) { #ifdef G_OS_UNIX g_value_init (¶mv[n], G_TYPE_UNIX_FD_LIST); g_value_set_object (¶mv[n++], g_dbus_message_get_unix_fd_list (g_dbus_method_invocation_get_message (invocation))); #else g_assert_not_reached (); #endif } g_variant_iter_init (&iter, parameters); while ((child = g_variant_iter_next_value (&iter)) != NULL) { _ExtendedGDBusArgInfo *arg_info = (_ExtendedGDBusArgInfo *) info->parent_struct.in_args[n - num_extra]; if (arg_info->use_gvariant) { g_value_init (¶mv[n], G_TYPE_VARIANT); g_value_set_variant (¶mv[n], child); n++; } else g_dbus_gvariant_to_gvalue (child, ¶mv[n++]); g_variant_unref (child); } signal_id = g_signal_lookup (info->signal_name, TYPE_LED); g_value_init (&return_value, G_TYPE_BOOLEAN); g_signal_emitv (paramv, signal_id, 0, &return_value); if (!g_value_get_boolean (&return_value)) g_dbus_method_invocation_return_error (invocation, G_DBUS_ERROR, G_DBUS_ERROR_UNKNOWN_METHOD, "Method %s is not implemented on interface %s", method_name, interface_name); g_value_unset (&return_value); for (n = 0; n < num_params + num_extra; n++) g_value_unset (¶mv[n]); g_free (paramv); } static GVariant * _led_skeleton_handle_get_property ( GDBusConnection *connection G_GNUC_UNUSED, const gchar *sender G_GNUC_UNUSED, const gchar *object_path G_GNUC_UNUSED, const gchar *interface_name G_GNUC_UNUSED, const gchar *property_name, GError **error, gpointer user_data) { LedSkeleton *skeleton = LED_SKELETON (user_data); GValue value = G_VALUE_INIT; GParamSpec *pspec; _ExtendedGDBusPropertyInfo *info; GVariant *ret; ret = NULL; info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_led_interface_info.parent_struct, property_name); g_assert (info != NULL); pspec = g_object_class_find_property (G_OBJECT_GET_CLASS (skeleton), info->hyphen_name); if (pspec == NULL) { g_set_error (error, G_DBUS_ERROR, G_DBUS_ERROR_INVALID_ARGS, "No property with name %s", property_name); } else { g_value_init (&value, pspec->value_type); g_object_get_property (G_OBJECT (skeleton), info->hyphen_name, &value); ret = g_dbus_gvalue_to_gvariant (&value, G_VARIANT_TYPE (info->parent_struct.signature)); g_value_unset (&value); } return ret; } static gboolean _led_skeleton_handle_set_property ( GDBusConnection *connection G_GNUC_UNUSED, const gchar *sender G_GNUC_UNUSED, const gchar *object_path G_GNUC_UNUSED, const gchar *interface_name G_GNUC_UNUSED, const gchar *property_name, GVariant *variant, GError **error, gpointer user_data) { LedSkeleton *skeleton = LED_SKELETON (user_data); GValue value = G_VALUE_INIT; GParamSpec *pspec; _ExtendedGDBusPropertyInfo *info; gboolean ret; ret = FALSE; info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_led_interface_info.parent_struct, property_name); g_assert (info != NULL); pspec = g_object_class_find_property (G_OBJECT_GET_CLASS (skeleton), info->hyphen_name); if (pspec == NULL) { g_set_error (error, G_DBUS_ERROR, G_DBUS_ERROR_INVALID_ARGS, "No property with name %s", property_name); } else { if (info->use_gvariant) g_value_set_variant (&value, variant); else g_dbus_gvariant_to_gvalue (variant, &value); g_object_set_property (G_OBJECT (skeleton), info->hyphen_name, &value); g_value_unset (&value); ret = TRUE; } return ret; } static const GDBusInterfaceVTable _led_skeleton_vtable = { _led_skeleton_handle_method_call, _led_skeleton_handle_get_property, _led_skeleton_handle_set_property, {NULL} }; static GDBusInterfaceInfo * led_skeleton_dbus_interface_get_info (GDBusInterfaceSkeleton *skeleton G_GNUC_UNUSED) { return led_interface_info (); } static GDBusInterfaceVTable * led_skeleton_dbus_interface_get_vtable (GDBusInterfaceSkeleton *skeleton G_GNUC_UNUSED) { return (GDBusInterfaceVTable *) &_led_skeleton_vtable; } static GVariant * led_skeleton_dbus_interface_get_properties (GDBusInterfaceSkeleton *_skeleton) { LedSkeleton *skeleton = LED_SKELETON (_skeleton); GVariantBuilder builder; guint n; g_variant_builder_init (&builder, G_VARIANT_TYPE ("a{sv}")); if (_led_interface_info.parent_struct.properties == NULL) goto out; for (n = 0; _led_interface_info.parent_struct.properties[n] != NULL; n++) { GDBusPropertyInfo *info = _led_interface_info.parent_struct.properties[n]; if (info->flags & G_DBUS_PROPERTY_INFO_FLAGS_READABLE) { GVariant *value; value = _led_skeleton_handle_get_property (g_dbus_interface_skeleton_get_connection (G_DBUS_INTERFACE_SKELETON (skeleton)), NULL, g_dbus_interface_skeleton_get_object_path (G_DBUS_INTERFACE_SKELETON (skeleton)), "org.openbmc.Led", info->name, NULL, skeleton); if (value != NULL) { g_variant_take_ref (value); g_variant_builder_add (&builder, "{sv}", info->name, value); g_variant_unref (value); } } } out: return g_variant_builder_end (&builder); } static gboolean _led_emit_changed (gpointer user_data); static void led_skeleton_dbus_interface_flush (GDBusInterfaceSkeleton *_skeleton) { LedSkeleton *skeleton = LED_SKELETON (_skeleton); gboolean emit_changed = FALSE; g_mutex_lock (&skeleton->priv->lock); if (skeleton->priv->changed_properties_idle_source != NULL) { g_source_destroy (skeleton->priv->changed_properties_idle_source); skeleton->priv->changed_properties_idle_source = NULL; emit_changed = TRUE; } g_mutex_unlock (&skeleton->priv->lock); if (emit_changed) _led_emit_changed (skeleton); } static void led_skeleton_iface_init (LedIface *iface); #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 G_DEFINE_TYPE_WITH_CODE (LedSkeleton, led_skeleton, G_TYPE_DBUS_INTERFACE_SKELETON, G_ADD_PRIVATE (LedSkeleton) G_IMPLEMENT_INTERFACE (TYPE_LED, led_skeleton_iface_init)); #else G_DEFINE_TYPE_WITH_CODE (LedSkeleton, led_skeleton, G_TYPE_DBUS_INTERFACE_SKELETON, G_IMPLEMENT_INTERFACE (TYPE_LED, led_skeleton_iface_init)); #endif static void led_skeleton_finalize (GObject *object) { LedSkeleton *skeleton = LED_SKELETON (object); guint n; for (n = 0; n < 3; n++) g_value_unset (&skeleton->priv->properties[n]); g_free (skeleton->priv->properties); g_list_free_full (skeleton->priv->changed_properties, (GDestroyNotify) _changed_property_free); if (skeleton->priv->changed_properties_idle_source != NULL) g_source_destroy (skeleton->priv->changed_properties_idle_source); g_main_context_unref (skeleton->priv->context); g_mutex_clear (&skeleton->priv->lock); G_OBJECT_CLASS (led_skeleton_parent_class)->finalize (object); } static void led_skeleton_get_property (GObject *object, guint prop_id, GValue *value, GParamSpec *pspec G_GNUC_UNUSED) { LedSkeleton *skeleton = LED_SKELETON (object); g_assert (prop_id != 0 && prop_id - 1 < 3); g_mutex_lock (&skeleton->priv->lock); g_value_copy (&skeleton->priv->properties[prop_id - 1], value); g_mutex_unlock (&skeleton->priv->lock); } static gboolean _led_emit_changed (gpointer user_data) { LedSkeleton *skeleton = LED_SKELETON (user_data); GList *l; GVariantBuilder builder; GVariantBuilder invalidated_builder; guint num_changes; g_mutex_lock (&skeleton->priv->lock); g_variant_builder_init (&builder, G_VARIANT_TYPE ("a{sv}")); g_variant_builder_init (&invalidated_builder, G_VARIANT_TYPE ("as")); for (l = skeleton->priv->changed_properties, num_changes = 0; l != NULL; l = l->next) { ChangedProperty *cp = l->data; GVariant *variant; const GValue *cur_value; cur_value = &skeleton->priv->properties[cp->prop_id - 1]; if (!_g_value_equal (cur_value, &cp->orig_value)) { variant = g_dbus_gvalue_to_gvariant (cur_value, G_VARIANT_TYPE (cp->info->parent_struct.signature)); g_variant_builder_add (&builder, "{sv}", cp->info->parent_struct.name, variant); g_variant_unref (variant); num_changes++; } } if (num_changes > 0) { GList *connections, *ll; GVariant *signal_variant; signal_variant = g_variant_ref_sink (g_variant_new ("(sa{sv}as)", "org.openbmc.Led", &builder, &invalidated_builder)); connections = g_dbus_interface_skeleton_get_connections (G_DBUS_INTERFACE_SKELETON (skeleton)); for (ll = connections; ll != NULL; ll = ll->next) { GDBusConnection *connection = ll->data; g_dbus_connection_emit_signal (connection, NULL, g_dbus_interface_skeleton_get_object_path (G_DBUS_INTERFACE_SKELETON (skeleton)), "org.freedesktop.DBus.Properties", "PropertiesChanged", signal_variant, NULL); } g_variant_unref (signal_variant); g_list_free_full (connections, g_object_unref); } else { g_variant_builder_clear (&builder); g_variant_builder_clear (&invalidated_builder); } g_list_free_full (skeleton->priv->changed_properties, (GDestroyNotify) _changed_property_free); skeleton->priv->changed_properties = NULL; skeleton->priv->changed_properties_idle_source = NULL; g_mutex_unlock (&skeleton->priv->lock); return FALSE; } static void _led_schedule_emit_changed (LedSkeleton *skeleton, const _ExtendedGDBusPropertyInfo *info, guint prop_id, const GValue *orig_value) { ChangedProperty *cp; GList *l; cp = NULL; for (l = skeleton->priv->changed_properties; l != NULL; l = l->next) { ChangedProperty *i_cp = l->data; if (i_cp->info == info) { cp = i_cp; break; } } if (cp == NULL) { cp = g_new0 (ChangedProperty, 1); cp->prop_id = prop_id; cp->info = info; skeleton->priv->changed_properties = g_list_prepend (skeleton->priv->changed_properties, cp); g_value_init (&cp->orig_value, G_VALUE_TYPE (orig_value)); g_value_copy (orig_value, &cp->orig_value); } } static void led_skeleton_notify (GObject *object, GParamSpec *pspec G_GNUC_UNUSED) { LedSkeleton *skeleton = LED_SKELETON (object); g_mutex_lock (&skeleton->priv->lock); if (skeleton->priv->changed_properties != NULL && skeleton->priv->changed_properties_idle_source == NULL) { skeleton->priv->changed_properties_idle_source = g_idle_source_new (); g_source_set_priority (skeleton->priv->changed_properties_idle_source, G_PRIORITY_DEFAULT); g_source_set_callback (skeleton->priv->changed_properties_idle_source, _led_emit_changed, g_object_ref (skeleton), (GDestroyNotify) g_object_unref); g_source_set_name (skeleton->priv->changed_properties_idle_source, "[generated] _led_emit_changed"); g_source_attach (skeleton->priv->changed_properties_idle_source, skeleton->priv->context); g_source_unref (skeleton->priv->changed_properties_idle_source); } g_mutex_unlock (&skeleton->priv->lock); } static void led_skeleton_set_property (GObject *object, guint prop_id, const GValue *value, GParamSpec *pspec) { LedSkeleton *skeleton = LED_SKELETON (object); g_assert (prop_id != 0 && prop_id - 1 < 3); g_mutex_lock (&skeleton->priv->lock); g_object_freeze_notify (object); if (!_g_value_equal (value, &skeleton->priv->properties[prop_id - 1])) { if (g_dbus_interface_skeleton_get_connection (G_DBUS_INTERFACE_SKELETON (skeleton)) != NULL) _led_schedule_emit_changed (skeleton, _led_property_info_pointers[prop_id - 1], prop_id, &skeleton->priv->properties[prop_id - 1]); g_value_copy (value, &skeleton->priv->properties[prop_id - 1]); g_object_notify_by_pspec (object, pspec); } g_mutex_unlock (&skeleton->priv->lock); g_object_thaw_notify (object); } static void led_skeleton_init (LedSkeleton *skeleton) { #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 skeleton->priv = led_skeleton_get_instance_private (skeleton); #else skeleton->priv = G_TYPE_INSTANCE_GET_PRIVATE (skeleton, TYPE_LED_SKELETON, LedSkeletonPrivate); #endif g_mutex_init (&skeleton->priv->lock); skeleton->priv->context = g_main_context_ref_thread_default (); skeleton->priv->properties = g_new0 (GValue, 3); g_value_init (&skeleton->priv->properties[0], G_TYPE_INT); g_value_init (&skeleton->priv->properties[1], G_TYPE_STRING); g_value_init (&skeleton->priv->properties[2], G_TYPE_STRING); } static gint led_skeleton_get_color (Led *object) { LedSkeleton *skeleton = LED_SKELETON (object); gint value; g_mutex_lock (&skeleton->priv->lock); value = g_value_get_int (&(skeleton->priv->properties[0])); g_mutex_unlock (&skeleton->priv->lock); return value; } static const gchar * led_skeleton_get_function (Led *object) { LedSkeleton *skeleton = LED_SKELETON (object); const gchar *value; g_mutex_lock (&skeleton->priv->lock); value = g_value_get_string (&(skeleton->priv->properties[1])); g_mutex_unlock (&skeleton->priv->lock); return value; } static const gchar * led_skeleton_get_state (Led *object) { LedSkeleton *skeleton = LED_SKELETON (object); const gchar *value; g_mutex_lock (&skeleton->priv->lock); value = g_value_get_string (&(skeleton->priv->properties[2])); g_mutex_unlock (&skeleton->priv->lock); return value; } static void led_skeleton_class_init (LedSkeletonClass *klass) { GObjectClass *gobject_class; GDBusInterfaceSkeletonClass *skeleton_class; gobject_class = G_OBJECT_CLASS (klass); gobject_class->finalize = led_skeleton_finalize; gobject_class->get_property = led_skeleton_get_property; gobject_class->set_property = led_skeleton_set_property; gobject_class->notify = led_skeleton_notify; led_override_properties (gobject_class, 1); skeleton_class = G_DBUS_INTERFACE_SKELETON_CLASS (klass); skeleton_class->get_info = led_skeleton_dbus_interface_get_info; skeleton_class->get_properties = led_skeleton_dbus_interface_get_properties; skeleton_class->flush = led_skeleton_dbus_interface_flush; skeleton_class->get_vtable = led_skeleton_dbus_interface_get_vtable; #if GLIB_VERSION_MAX_ALLOWED < GLIB_VERSION_2_38 g_type_class_add_private (klass, sizeof (LedSkeletonPrivate)); #endif } static void led_skeleton_iface_init (LedIface *iface) { iface->get_color = led_skeleton_get_color; iface->get_function = led_skeleton_get_function; iface->get_state = led_skeleton_get_state; } /** * led_skeleton_new: * * Creates a skeleton object for the D-Bus interface org.openbmc.Led. * * Returns: (transfer full) (type LedSkeleton): The skeleton object. */ Led * led_skeleton_new (void) { return LED (g_object_new (TYPE_LED_SKELETON, NULL)); } /* ------------------------------------------------------------------------ * Code for interface org.openbmc.HostIpmi * ------------------------------------------------------------------------ */ /** * SECTION:HostIpmi * @title: HostIpmi * @short_description: Generated C code for the org.openbmc.HostIpmi D-Bus interface * * This section contains code for working with the org.openbmc.HostIpmi D-Bus interface in C. */ /* ---- Introspection data for org.openbmc.HostIpmi ---- */ static const _ExtendedGDBusArgInfo _host_ipmi_method_info_send_message_IN_ARG_seq = { { -1, (gchar *) "seq", (gchar *) "y", NULL }, FALSE }; static const _ExtendedGDBusArgInfo _host_ipmi_method_info_send_message_IN_ARG_netfn = { { -1, (gchar *) "netfn", (gchar *) "y", NULL }, FALSE }; static const _ExtendedGDBusArgInfo _host_ipmi_method_info_send_message_IN_ARG_cmd = { { -1, (gchar *) "cmd", (gchar *) "y", NULL }, FALSE }; static const _ExtendedGDBusArgInfo _host_ipmi_method_info_send_message_IN_ARG_data = { { -1, (gchar *) "data", (gchar *) "ay", NULL }, FALSE }; static const _ExtendedGDBusArgInfo * const _host_ipmi_method_info_send_message_IN_ARG_pointers[] = { &_host_ipmi_method_info_send_message_IN_ARG_seq, &_host_ipmi_method_info_send_message_IN_ARG_netfn, &_host_ipmi_method_info_send_message_IN_ARG_cmd, &_host_ipmi_method_info_send_message_IN_ARG_data, NULL }; static const _ExtendedGDBusArgInfo _host_ipmi_method_info_send_message_OUT_ARG_unnamed_arg4 = { { -1, (gchar *) "unnamed_arg4", (gchar *) "x", NULL }, FALSE }; static const _ExtendedGDBusArgInfo * const _host_ipmi_method_info_send_message_OUT_ARG_pointers[] = { &_host_ipmi_method_info_send_message_OUT_ARG_unnamed_arg4, NULL }; static const _ExtendedGDBusMethodInfo _host_ipmi_method_info_send_message = { { -1, (gchar *) "sendMessage", (GDBusArgInfo **) &_host_ipmi_method_info_send_message_IN_ARG_pointers, (GDBusArgInfo **) &_host_ipmi_method_info_send_message_OUT_ARG_pointers, NULL }, "handle-send-message", FALSE }; static const _ExtendedGDBusMethodInfo * const _host_ipmi_method_info_pointers[] = { &_host_ipmi_method_info_send_message, NULL }; static const _ExtendedGDBusArgInfo _host_ipmi_signal_info_received_message_ARG_seq = { { -1, (gchar *) "seq", (gchar *) "y", NULL }, FALSE }; static const _ExtendedGDBusArgInfo _host_ipmi_signal_info_received_message_ARG_netfn = { { -1, (gchar *) "netfn", (gchar *) "y", NULL }, FALSE }; static const _ExtendedGDBusArgInfo _host_ipmi_signal_info_received_message_ARG_cmd = { { -1, (gchar *) "cmd", (gchar *) "y", NULL }, FALSE }; static const _ExtendedGDBusArgInfo _host_ipmi_signal_info_received_message_ARG_data = { { -1, (gchar *) "data", (gchar *) "ay", NULL }, FALSE }; static const _ExtendedGDBusArgInfo * const _host_ipmi_signal_info_received_message_ARG_pointers[] = { &_host_ipmi_signal_info_received_message_ARG_seq, &_host_ipmi_signal_info_received_message_ARG_netfn, &_host_ipmi_signal_info_received_message_ARG_cmd, &_host_ipmi_signal_info_received_message_ARG_data, NULL }; static const _ExtendedGDBusSignalInfo _host_ipmi_signal_info_received_message = { { -1, (gchar *) "ReceivedMessage", (GDBusArgInfo **) &_host_ipmi_signal_info_received_message_ARG_pointers, NULL }, "received-message" }; static const _ExtendedGDBusSignalInfo * const _host_ipmi_signal_info_pointers[] = { &_host_ipmi_signal_info_received_message, NULL }; static const _ExtendedGDBusInterfaceInfo _host_ipmi_interface_info = { { -1, (gchar *) "org.openbmc.HostIpmi", (GDBusMethodInfo **) &_host_ipmi_method_info_pointers, (GDBusSignalInfo **) &_host_ipmi_signal_info_pointers, NULL, NULL }, "host-ipmi", }; /** * host_ipmi_interface_info: * * Gets a machine-readable description of the org.openbmc.HostIpmi D-Bus interface. * * Returns: (transfer none): A #GDBusInterfaceInfo. Do not free. */ GDBusInterfaceInfo * host_ipmi_interface_info (void) { return (GDBusInterfaceInfo *) &_host_ipmi_interface_info.parent_struct; } /** * host_ipmi_override_properties: * @klass: The class structure for a #GObject-derived class. * @property_id_begin: The property id to assign to the first overridden property. * * Overrides all #GObject properties in the #HostIpmi interface for a concrete class. * The properties are overridden in the order they are defined. * * Returns: The last property id. */ guint host_ipmi_override_properties (GObjectClass *klass, guint property_id_begin) { return property_id_begin - 1; } /** * HostIpmi: * * Abstract interface type for the D-Bus interface org.openbmc.HostIpmi. */ /** * HostIpmiIface: * @parent_iface: The parent interface. * @handle_send_message: Handler for the #HostIpmi::handle-send-message signal. * @received_message: Handler for the #HostIpmi::received-message signal. * * Virtual table for the D-Bus interface org.openbmc.HostIpmi. */ typedef HostIpmiIface HostIpmiInterface; G_DEFINE_INTERFACE (HostIpmi, host_ipmi, G_TYPE_OBJECT); static void host_ipmi_default_init (HostIpmiIface *iface) { /* GObject signals for incoming D-Bus method calls: */ /** * HostIpmi::handle-send-message: * @object: A #HostIpmi. * @invocation: A #GDBusMethodInvocation. * @arg_seq: Argument passed by remote caller. * @arg_netfn: Argument passed by remote caller. * @arg_cmd: Argument passed by remote caller. * @arg_data: Argument passed by remote caller. * * Signal emitted when a remote caller is invoking the sendMessage() D-Bus method. * * If a signal handler returns %TRUE, it means the signal handler will handle the invocation (e.g. take a reference to @invocation and eventually call host_ipmi_complete_send_message() or e.g. g_dbus_method_invocation_return_error() on it) and no order signal handlers will run. If no signal handler handles the invocation, the %G_DBUS_ERROR_UNKNOWN_METHOD error is returned. * * Returns: %TRUE if the invocation was handled, %FALSE to let other signal handlers run. */ g_signal_new ("handle-send-message", G_TYPE_FROM_INTERFACE (iface), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (HostIpmiIface, handle_send_message), g_signal_accumulator_true_handled, NULL, g_cclosure_marshal_generic, G_TYPE_BOOLEAN, 5, G_TYPE_DBUS_METHOD_INVOCATION, G_TYPE_UCHAR, G_TYPE_UCHAR, G_TYPE_UCHAR, G_TYPE_STRING); /* GObject signals for received D-Bus signals: */ /** * HostIpmi::received-message: * @object: A #HostIpmi. * @arg_seq: Argument. * @arg_netfn: Argument. * @arg_cmd: Argument. * @arg_data: Argument. * * On the client-side, this signal is emitted whenever the D-Bus signal "ReceivedMessage" is received. * * On the service-side, this signal can be used with e.g. g_signal_emit_by_name() to make the object emit the D-Bus signal. */ g_signal_new ("received-message", G_TYPE_FROM_INTERFACE (iface), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (HostIpmiIface, received_message), NULL, NULL, g_cclosure_marshal_generic, G_TYPE_NONE, 4, G_TYPE_UCHAR, G_TYPE_UCHAR, G_TYPE_UCHAR, G_TYPE_STRING); } /** * host_ipmi_emit_received_message: * @object: A #HostIpmi. * @arg_seq: Argument to pass with the signal. * @arg_netfn: Argument to pass with the signal. * @arg_cmd: Argument to pass with the signal. * @arg_data: Argument to pass with the signal. * * Emits the "ReceivedMessage" D-Bus signal. */ void host_ipmi_emit_received_message ( HostIpmi *object, guchar arg_seq, guchar arg_netfn, guchar arg_cmd, const gchar *arg_data) { g_signal_emit_by_name (object, "received-message", arg_seq, arg_netfn, arg_cmd, arg_data); } /** * host_ipmi_call_send_message: * @proxy: A #HostIpmiProxy. * @arg_seq: Argument to pass with the method invocation. * @arg_netfn: Argument to pass with the method invocation. * @arg_cmd: Argument to pass with the method invocation. * @arg_data: Argument to pass with the method invocation. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied or %NULL. * @user_data: User data to pass to @callback. * * Asynchronously invokes the sendMessage() D-Bus method on @proxy. * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call host_ipmi_call_send_message_finish() to get the result of the operation. * * See host_ipmi_call_send_message_sync() for the synchronous, blocking version of this method. */ void host_ipmi_call_send_message ( HostIpmi *proxy, guchar arg_seq, guchar arg_netfn, guchar arg_cmd, const gchar *arg_data, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_dbus_proxy_call (G_DBUS_PROXY (proxy), "sendMessage", g_variant_new ("(yyy^ay)", arg_seq, arg_netfn, arg_cmd, arg_data), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, callback, user_data); } /** * host_ipmi_call_send_message_finish: * @proxy: A #HostIpmiProxy. * @out_unnamed_arg4: (out): Return location for return parameter or %NULL to ignore. * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to host_ipmi_call_send_message(). * @error: Return location for error or %NULL. * * Finishes an operation started with host_ipmi_call_send_message(). * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean host_ipmi_call_send_message_finish ( HostIpmi *proxy, gint64 *out_unnamed_arg4, GAsyncResult *res, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_finish (G_DBUS_PROXY (proxy), res, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "(x)", out_unnamed_arg4); g_variant_unref (_ret); _out: return _ret != NULL; } /** * host_ipmi_call_send_message_sync: * @proxy: A #HostIpmiProxy. * @arg_seq: Argument to pass with the method invocation. * @arg_netfn: Argument to pass with the method invocation. * @arg_cmd: Argument to pass with the method invocation. * @arg_data: Argument to pass with the method invocation. * @out_unnamed_arg4: (out): Return location for return parameter or %NULL to ignore. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL. * * Synchronously invokes the sendMessage() D-Bus method on @proxy. The calling thread is blocked until a reply is received. * * See host_ipmi_call_send_message() for the asynchronous version of this method. * * Returns: (skip): %TRUE if the call succeeded, %FALSE if @error is set. */ gboolean host_ipmi_call_send_message_sync ( HostIpmi *proxy, guchar arg_seq, guchar arg_netfn, guchar arg_cmd, const gchar *arg_data, gint64 *out_unnamed_arg4, GCancellable *cancellable, GError **error) { GVariant *_ret; _ret = g_dbus_proxy_call_sync (G_DBUS_PROXY (proxy), "sendMessage", g_variant_new ("(yyy^ay)", arg_seq, arg_netfn, arg_cmd, arg_data), G_DBUS_CALL_FLAGS_NONE, -1, cancellable, error); if (_ret == NULL) goto _out; g_variant_get (_ret, "(x)", out_unnamed_arg4); g_variant_unref (_ret); _out: return _ret != NULL; } /** * host_ipmi_complete_send_message: * @object: A #HostIpmi. * @invocation: (transfer full): A #GDBusMethodInvocation. * @unnamed_arg4: Parameter to return. * * Helper function used in service implementations to finish handling invocations of the sendMessage() D-Bus method. If you instead want to finish handling an invocation by returning an error, use g_dbus_method_invocation_return_error() or similar. * * This method will free @invocation, you cannot use it afterwards. */ void host_ipmi_complete_send_message ( HostIpmi *object, GDBusMethodInvocation *invocation, gint64 unnamed_arg4) { g_dbus_method_invocation_return_value (invocation, g_variant_new ("(x)", unnamed_arg4)); } /* ------------------------------------------------------------------------ */ /** * HostIpmiProxy: * * The #HostIpmiProxy structure contains only private data and should only be accessed using the provided API. */ /** * HostIpmiProxyClass: * @parent_class: The parent class. * * Class structure for #HostIpmiProxy. */ struct _HostIpmiProxyPrivate { GData *qdata; }; static void host_ipmi_proxy_iface_init (HostIpmiIface *iface); #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 G_DEFINE_TYPE_WITH_CODE (HostIpmiProxy, host_ipmi_proxy, G_TYPE_DBUS_PROXY, G_ADD_PRIVATE (HostIpmiProxy) G_IMPLEMENT_INTERFACE (TYPE_HOST_IPMI, host_ipmi_proxy_iface_init)); #else G_DEFINE_TYPE_WITH_CODE (HostIpmiProxy, host_ipmi_proxy, G_TYPE_DBUS_PROXY, G_IMPLEMENT_INTERFACE (TYPE_HOST_IPMI, host_ipmi_proxy_iface_init)); #endif static void host_ipmi_proxy_finalize (GObject *object) { HostIpmiProxy *proxy = HOST_IPMI_PROXY (object); g_datalist_clear (&proxy->priv->qdata); G_OBJECT_CLASS (host_ipmi_proxy_parent_class)->finalize (object); } static void host_ipmi_proxy_get_property (GObject *object, guint prop_id, GValue *value, GParamSpec *pspec G_GNUC_UNUSED) { } static void host_ipmi_proxy_set_property (GObject *object, guint prop_id, const GValue *value, GParamSpec *pspec G_GNUC_UNUSED) { } static void host_ipmi_proxy_g_signal (GDBusProxy *proxy, const gchar *sender_name G_GNUC_UNUSED, const gchar *signal_name, GVariant *parameters) { _ExtendedGDBusSignalInfo *info; GVariantIter iter; GVariant *child; GValue *paramv; guint num_params; guint n; guint signal_id; info = (_ExtendedGDBusSignalInfo *) g_dbus_interface_info_lookup_signal ((GDBusInterfaceInfo *) &_host_ipmi_interface_info.parent_struct, signal_name); if (info == NULL) return; num_params = g_variant_n_children (parameters); paramv = g_new0 (GValue, num_params + 1); g_value_init (¶mv[0], TYPE_HOST_IPMI); g_value_set_object (¶mv[0], proxy); g_variant_iter_init (&iter, parameters); n = 1; while ((child = g_variant_iter_next_value (&iter)) != NULL) { _ExtendedGDBusArgInfo *arg_info = (_ExtendedGDBusArgInfo *) info->parent_struct.args[n - 1]; if (arg_info->use_gvariant) { g_value_init (¶mv[n], G_TYPE_VARIANT); g_value_set_variant (¶mv[n], child); n++; } else g_dbus_gvariant_to_gvalue (child, ¶mv[n++]); g_variant_unref (child); } signal_id = g_signal_lookup (info->signal_name, TYPE_HOST_IPMI); g_signal_emitv (paramv, signal_id, 0, NULL); for (n = 0; n < num_params + 1; n++) g_value_unset (¶mv[n]); g_free (paramv); } static void host_ipmi_proxy_g_properties_changed (GDBusProxy *_proxy, GVariant *changed_properties, const gchar *const *invalidated_properties) { HostIpmiProxy *proxy = HOST_IPMI_PROXY (_proxy); guint n; const gchar *key; GVariantIter *iter; _ExtendedGDBusPropertyInfo *info; g_variant_get (changed_properties, "a{sv}", &iter); while (g_variant_iter_next (iter, "{&sv}", &key, NULL)) { info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_host_ipmi_interface_info.parent_struct, key); g_datalist_remove_data (&proxy->priv->qdata, key); if (info != NULL) g_object_notify (G_OBJECT (proxy), info->hyphen_name); } g_variant_iter_free (iter); for (n = 0; invalidated_properties[n] != NULL; n++) { info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_host_ipmi_interface_info.parent_struct, invalidated_properties[n]); g_datalist_remove_data (&proxy->priv->qdata, invalidated_properties[n]); if (info != NULL) g_object_notify (G_OBJECT (proxy), info->hyphen_name); } } static void host_ipmi_proxy_init (HostIpmiProxy *proxy) { #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 proxy->priv = host_ipmi_proxy_get_instance_private (proxy); #else proxy->priv = G_TYPE_INSTANCE_GET_PRIVATE (proxy, TYPE_HOST_IPMI_PROXY, HostIpmiProxyPrivate); #endif g_dbus_proxy_set_interface_info (G_DBUS_PROXY (proxy), host_ipmi_interface_info ()); } static void host_ipmi_proxy_class_init (HostIpmiProxyClass *klass) { GObjectClass *gobject_class; GDBusProxyClass *proxy_class; gobject_class = G_OBJECT_CLASS (klass); gobject_class->finalize = host_ipmi_proxy_finalize; gobject_class->get_property = host_ipmi_proxy_get_property; gobject_class->set_property = host_ipmi_proxy_set_property; proxy_class = G_DBUS_PROXY_CLASS (klass); proxy_class->g_signal = host_ipmi_proxy_g_signal; proxy_class->g_properties_changed = host_ipmi_proxy_g_properties_changed; #if GLIB_VERSION_MAX_ALLOWED < GLIB_VERSION_2_38 g_type_class_add_private (klass, sizeof (HostIpmiProxyPrivate)); #endif } static void host_ipmi_proxy_iface_init (HostIpmiIface *iface) { } /** * host_ipmi_proxy_new: * @connection: A #GDBusConnection. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: (allow-none): A bus name (well-known or unique) or %NULL if @connection is not a message bus connection. * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied. * @user_data: User data to pass to @callback. * * Asynchronously creates a proxy for the D-Bus interface org.openbmc.HostIpmi. See g_dbus_proxy_new() for more details. * * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call host_ipmi_proxy_new_finish() to get the result of the operation. * * See host_ipmi_proxy_new_sync() for the synchronous, blocking version of this constructor. */ void host_ipmi_proxy_new ( GDBusConnection *connection, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_async_initable_new_async (TYPE_HOST_IPMI_PROXY, G_PRIORITY_DEFAULT, cancellable, callback, user_data, "g-flags", flags, "g-name", name, "g-connection", connection, "g-object-path", object_path, "g-interface-name", "org.openbmc.HostIpmi", NULL); } /** * host_ipmi_proxy_new_finish: * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to host_ipmi_proxy_new(). * @error: Return location for error or %NULL * * Finishes an operation started with host_ipmi_proxy_new(). * * Returns: (transfer full) (type HostIpmiProxy): The constructed proxy object or %NULL if @error is set. */ HostIpmi * host_ipmi_proxy_new_finish ( GAsyncResult *res, GError **error) { GObject *ret; GObject *source_object; source_object = g_async_result_get_source_object (res); ret = g_async_initable_new_finish (G_ASYNC_INITABLE (source_object), res, error); g_object_unref (source_object); if (ret != NULL) return HOST_IPMI (ret); else return NULL; } /** * host_ipmi_proxy_new_sync: * @connection: A #GDBusConnection. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: (allow-none): A bus name (well-known or unique) or %NULL if @connection is not a message bus connection. * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL * * Synchronously creates a proxy for the D-Bus interface org.openbmc.HostIpmi. See g_dbus_proxy_new_sync() for more details. * * The calling thread is blocked until a reply is received. * * See host_ipmi_proxy_new() for the asynchronous version of this constructor. * * Returns: (transfer full) (type HostIpmiProxy): The constructed proxy object or %NULL if @error is set. */ HostIpmi * host_ipmi_proxy_new_sync ( GDBusConnection *connection, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GError **error) { GInitable *ret; ret = g_initable_new (TYPE_HOST_IPMI_PROXY, cancellable, error, "g-flags", flags, "g-name", name, "g-connection", connection, "g-object-path", object_path, "g-interface-name", "org.openbmc.HostIpmi", NULL); if (ret != NULL) return HOST_IPMI (ret); else return NULL; } /** * host_ipmi_proxy_new_for_bus: * @bus_type: A #GBusType. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: A bus name (well-known or unique). * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied. * @user_data: User data to pass to @callback. * * Like host_ipmi_proxy_new() but takes a #GBusType instead of a #GDBusConnection. * * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call host_ipmi_proxy_new_for_bus_finish() to get the result of the operation. * * See host_ipmi_proxy_new_for_bus_sync() for the synchronous, blocking version of this constructor. */ void host_ipmi_proxy_new_for_bus ( GBusType bus_type, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_async_initable_new_async (TYPE_HOST_IPMI_PROXY, G_PRIORITY_DEFAULT, cancellable, callback, user_data, "g-flags", flags, "g-name", name, "g-bus-type", bus_type, "g-object-path", object_path, "g-interface-name", "org.openbmc.HostIpmi", NULL); } /** * host_ipmi_proxy_new_for_bus_finish: * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to host_ipmi_proxy_new_for_bus(). * @error: Return location for error or %NULL * * Finishes an operation started with host_ipmi_proxy_new_for_bus(). * * Returns: (transfer full) (type HostIpmiProxy): The constructed proxy object or %NULL if @error is set. */ HostIpmi * host_ipmi_proxy_new_for_bus_finish ( GAsyncResult *res, GError **error) { GObject *ret; GObject *source_object; source_object = g_async_result_get_source_object (res); ret = g_async_initable_new_finish (G_ASYNC_INITABLE (source_object), res, error); g_object_unref (source_object); if (ret != NULL) return HOST_IPMI (ret); else return NULL; } /** * host_ipmi_proxy_new_for_bus_sync: * @bus_type: A #GBusType. * @flags: Flags from the #GDBusProxyFlags enumeration. * @name: A bus name (well-known or unique). * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL * * Like host_ipmi_proxy_new_sync() but takes a #GBusType instead of a #GDBusConnection. * * The calling thread is blocked until a reply is received. * * See host_ipmi_proxy_new_for_bus() for the asynchronous version of this constructor. * * Returns: (transfer full) (type HostIpmiProxy): The constructed proxy object or %NULL if @error is set. */ HostIpmi * host_ipmi_proxy_new_for_bus_sync ( GBusType bus_type, GDBusProxyFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GError **error) { GInitable *ret; ret = g_initable_new (TYPE_HOST_IPMI_PROXY, cancellable, error, "g-flags", flags, "g-name", name, "g-bus-type", bus_type, "g-object-path", object_path, "g-interface-name", "org.openbmc.HostIpmi", NULL); if (ret != NULL) return HOST_IPMI (ret); else return NULL; } /* ------------------------------------------------------------------------ */ /** * HostIpmiSkeleton: * * The #HostIpmiSkeleton structure contains only private data and should only be accessed using the provided API. */ /** * HostIpmiSkeletonClass: * @parent_class: The parent class. * * Class structure for #HostIpmiSkeleton. */ struct _HostIpmiSkeletonPrivate { GValue *properties; GList *changed_properties; GSource *changed_properties_idle_source; GMainContext *context; GMutex lock; }; static void _host_ipmi_skeleton_handle_method_call ( GDBusConnection *connection G_GNUC_UNUSED, const gchar *sender G_GNUC_UNUSED, const gchar *object_path G_GNUC_UNUSED, const gchar *interface_name, const gchar *method_name, GVariant *parameters, GDBusMethodInvocation *invocation, gpointer user_data) { HostIpmiSkeleton *skeleton = HOST_IPMI_SKELETON (user_data); _ExtendedGDBusMethodInfo *info; GVariantIter iter; GVariant *child; GValue *paramv; guint num_params; guint num_extra; guint n; guint signal_id; GValue return_value = G_VALUE_INIT; info = (_ExtendedGDBusMethodInfo *) g_dbus_method_invocation_get_method_info (invocation); g_assert (info != NULL); num_params = g_variant_n_children (parameters); num_extra = info->pass_fdlist ? 3 : 2; paramv = g_new0 (GValue, num_params + num_extra); n = 0; g_value_init (¶mv[n], TYPE_HOST_IPMI); g_value_set_object (¶mv[n++], skeleton); g_value_init (¶mv[n], G_TYPE_DBUS_METHOD_INVOCATION); g_value_set_object (¶mv[n++], invocation); if (info->pass_fdlist) { #ifdef G_OS_UNIX g_value_init (¶mv[n], G_TYPE_UNIX_FD_LIST); g_value_set_object (¶mv[n++], g_dbus_message_get_unix_fd_list (g_dbus_method_invocation_get_message (invocation))); #else g_assert_not_reached (); #endif } g_variant_iter_init (&iter, parameters); while ((child = g_variant_iter_next_value (&iter)) != NULL) { _ExtendedGDBusArgInfo *arg_info = (_ExtendedGDBusArgInfo *) info->parent_struct.in_args[n - num_extra]; if (arg_info->use_gvariant) { g_value_init (¶mv[n], G_TYPE_VARIANT); g_value_set_variant (¶mv[n], child); n++; } else g_dbus_gvariant_to_gvalue (child, ¶mv[n++]); g_variant_unref (child); } signal_id = g_signal_lookup (info->signal_name, TYPE_HOST_IPMI); g_value_init (&return_value, G_TYPE_BOOLEAN); g_signal_emitv (paramv, signal_id, 0, &return_value); if (!g_value_get_boolean (&return_value)) g_dbus_method_invocation_return_error (invocation, G_DBUS_ERROR, G_DBUS_ERROR_UNKNOWN_METHOD, "Method %s is not implemented on interface %s", method_name, interface_name); g_value_unset (&return_value); for (n = 0; n < num_params + num_extra; n++) g_value_unset (¶mv[n]); g_free (paramv); } static GVariant * _host_ipmi_skeleton_handle_get_property ( GDBusConnection *connection G_GNUC_UNUSED, const gchar *sender G_GNUC_UNUSED, const gchar *object_path G_GNUC_UNUSED, const gchar *interface_name G_GNUC_UNUSED, const gchar *property_name, GError **error, gpointer user_data) { HostIpmiSkeleton *skeleton = HOST_IPMI_SKELETON (user_data); GValue value = G_VALUE_INIT; GParamSpec *pspec; _ExtendedGDBusPropertyInfo *info; GVariant *ret; ret = NULL; info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_host_ipmi_interface_info.parent_struct, property_name); g_assert (info != NULL); pspec = g_object_class_find_property (G_OBJECT_GET_CLASS (skeleton), info->hyphen_name); if (pspec == NULL) { g_set_error (error, G_DBUS_ERROR, G_DBUS_ERROR_INVALID_ARGS, "No property with name %s", property_name); } else { g_value_init (&value, pspec->value_type); g_object_get_property (G_OBJECT (skeleton), info->hyphen_name, &value); ret = g_dbus_gvalue_to_gvariant (&value, G_VARIANT_TYPE (info->parent_struct.signature)); g_value_unset (&value); } return ret; } static gboolean _host_ipmi_skeleton_handle_set_property ( GDBusConnection *connection G_GNUC_UNUSED, const gchar *sender G_GNUC_UNUSED, const gchar *object_path G_GNUC_UNUSED, const gchar *interface_name G_GNUC_UNUSED, const gchar *property_name, GVariant *variant, GError **error, gpointer user_data) { HostIpmiSkeleton *skeleton = HOST_IPMI_SKELETON (user_data); GValue value = G_VALUE_INIT; GParamSpec *pspec; _ExtendedGDBusPropertyInfo *info; gboolean ret; ret = FALSE; info = (_ExtendedGDBusPropertyInfo *) g_dbus_interface_info_lookup_property ((GDBusInterfaceInfo *) &_host_ipmi_interface_info.parent_struct, property_name); g_assert (info != NULL); pspec = g_object_class_find_property (G_OBJECT_GET_CLASS (skeleton), info->hyphen_name); if (pspec == NULL) { g_set_error (error, G_DBUS_ERROR, G_DBUS_ERROR_INVALID_ARGS, "No property with name %s", property_name); } else { if (info->use_gvariant) g_value_set_variant (&value, variant); else g_dbus_gvariant_to_gvalue (variant, &value); g_object_set_property (G_OBJECT (skeleton), info->hyphen_name, &value); g_value_unset (&value); ret = TRUE; } return ret; } static const GDBusInterfaceVTable _host_ipmi_skeleton_vtable = { _host_ipmi_skeleton_handle_method_call, _host_ipmi_skeleton_handle_get_property, _host_ipmi_skeleton_handle_set_property, {NULL} }; static GDBusInterfaceInfo * host_ipmi_skeleton_dbus_interface_get_info (GDBusInterfaceSkeleton *skeleton G_GNUC_UNUSED) { return host_ipmi_interface_info (); } static GDBusInterfaceVTable * host_ipmi_skeleton_dbus_interface_get_vtable (GDBusInterfaceSkeleton *skeleton G_GNUC_UNUSED) { return (GDBusInterfaceVTable *) &_host_ipmi_skeleton_vtable; } static GVariant * host_ipmi_skeleton_dbus_interface_get_properties (GDBusInterfaceSkeleton *_skeleton) { HostIpmiSkeleton *skeleton = HOST_IPMI_SKELETON (_skeleton); GVariantBuilder builder; guint n; g_variant_builder_init (&builder, G_VARIANT_TYPE ("a{sv}")); if (_host_ipmi_interface_info.parent_struct.properties == NULL) goto out; for (n = 0; _host_ipmi_interface_info.parent_struct.properties[n] != NULL; n++) { GDBusPropertyInfo *info = _host_ipmi_interface_info.parent_struct.properties[n]; if (info->flags & G_DBUS_PROPERTY_INFO_FLAGS_READABLE) { GVariant *value; value = _host_ipmi_skeleton_handle_get_property (g_dbus_interface_skeleton_get_connection (G_DBUS_INTERFACE_SKELETON (skeleton)), NULL, g_dbus_interface_skeleton_get_object_path (G_DBUS_INTERFACE_SKELETON (skeleton)), "org.openbmc.HostIpmi", info->name, NULL, skeleton); if (value != NULL) { g_variant_take_ref (value); g_variant_builder_add (&builder, "{sv}", info->name, value); g_variant_unref (value); } } } out: return g_variant_builder_end (&builder); } static void host_ipmi_skeleton_dbus_interface_flush (GDBusInterfaceSkeleton *_skeleton) { } static void _host_ipmi_on_signal_received_message ( HostIpmi *object, guchar arg_seq, guchar arg_netfn, guchar arg_cmd, const gchar *arg_data) { HostIpmiSkeleton *skeleton = HOST_IPMI_SKELETON (object); GList *connections, *l; GVariant *signal_variant; connections = g_dbus_interface_skeleton_get_connections (G_DBUS_INTERFACE_SKELETON (skeleton)); signal_variant = g_variant_ref_sink (g_variant_new ("(yyy^ay)", arg_seq, arg_netfn, arg_cmd, arg_data)); for (l = connections; l != NULL; l = l->next) { GDBusConnection *connection = l->data; g_dbus_connection_emit_signal (connection, NULL, g_dbus_interface_skeleton_get_object_path (G_DBUS_INTERFACE_SKELETON (skeleton)), "org.openbmc.HostIpmi", "ReceivedMessage", signal_variant, NULL); } g_variant_unref (signal_variant); g_list_free_full (connections, g_object_unref); } static void host_ipmi_skeleton_iface_init (HostIpmiIface *iface); #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 G_DEFINE_TYPE_WITH_CODE (HostIpmiSkeleton, host_ipmi_skeleton, G_TYPE_DBUS_INTERFACE_SKELETON, G_ADD_PRIVATE (HostIpmiSkeleton) G_IMPLEMENT_INTERFACE (TYPE_HOST_IPMI, host_ipmi_skeleton_iface_init)); #else G_DEFINE_TYPE_WITH_CODE (HostIpmiSkeleton, host_ipmi_skeleton, G_TYPE_DBUS_INTERFACE_SKELETON, G_IMPLEMENT_INTERFACE (TYPE_HOST_IPMI, host_ipmi_skeleton_iface_init)); #endif static void host_ipmi_skeleton_finalize (GObject *object) { HostIpmiSkeleton *skeleton = HOST_IPMI_SKELETON (object); g_list_free_full (skeleton->priv->changed_properties, (GDestroyNotify) _changed_property_free); if (skeleton->priv->changed_properties_idle_source != NULL) g_source_destroy (skeleton->priv->changed_properties_idle_source); g_main_context_unref (skeleton->priv->context); g_mutex_clear (&skeleton->priv->lock); G_OBJECT_CLASS (host_ipmi_skeleton_parent_class)->finalize (object); } static void host_ipmi_skeleton_init (HostIpmiSkeleton *skeleton) { #if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_38 skeleton->priv = host_ipmi_skeleton_get_instance_private (skeleton); #else skeleton->priv = G_TYPE_INSTANCE_GET_PRIVATE (skeleton, TYPE_HOST_IPMI_SKELETON, HostIpmiSkeletonPrivate); #endif g_mutex_init (&skeleton->priv->lock); skeleton->priv->context = g_main_context_ref_thread_default (); } static void host_ipmi_skeleton_class_init (HostIpmiSkeletonClass *klass) { GObjectClass *gobject_class; GDBusInterfaceSkeletonClass *skeleton_class; gobject_class = G_OBJECT_CLASS (klass); gobject_class->finalize = host_ipmi_skeleton_finalize; skeleton_class = G_DBUS_INTERFACE_SKELETON_CLASS (klass); skeleton_class->get_info = host_ipmi_skeleton_dbus_interface_get_info; skeleton_class->get_properties = host_ipmi_skeleton_dbus_interface_get_properties; skeleton_class->flush = host_ipmi_skeleton_dbus_interface_flush; skeleton_class->get_vtable = host_ipmi_skeleton_dbus_interface_get_vtable; #if GLIB_VERSION_MAX_ALLOWED < GLIB_VERSION_2_38 g_type_class_add_private (klass, sizeof (HostIpmiSkeletonPrivate)); #endif } static void host_ipmi_skeleton_iface_init (HostIpmiIface *iface) { iface->received_message = _host_ipmi_on_signal_received_message; } /** * host_ipmi_skeleton_new: * * Creates a skeleton object for the D-Bus interface org.openbmc.HostIpmi. * * Returns: (transfer full) (type HostIpmiSkeleton): The skeleton object. */ HostIpmi * host_ipmi_skeleton_new (void) { return HOST_IPMI (g_object_new (TYPE_HOST_IPMI_SKELETON, NULL)); } /* ------------------------------------------------------------------------ * Code for Object, ObjectProxy and ObjectSkeleton * ------------------------------------------------------------------------ */ /** * SECTION:Object * @title: Object * @short_description: Specialized GDBusObject types * * This section contains the #Object, #ObjectProxy, and #ObjectSkeleton types which make it easier to work with objects implementing generated types for D-Bus interfaces. */ /** * Object: * * The #Object type is a specialized container of interfaces. */ /** * ObjectIface: * @parent_iface: The parent interface. * * Virtual table for the #Object interface. */ typedef ObjectIface ObjectInterface; G_DEFINE_INTERFACE_WITH_CODE (Object, object, G_TYPE_OBJECT, g_type_interface_add_prerequisite (g_define_type_id, G_TYPE_DBUS_OBJECT)); static void object_default_init (ObjectIface *iface) { /** * Object:hwmon: * * The #Hwmon instance corresponding to the D-Bus interface org.openbmc.Hwmon, if any. * * Connect to the #GObject::notify signal to get informed of property changes. */ g_object_interface_install_property (iface, g_param_spec_object ("hwmon", "hwmon", "hwmon", TYPE_HWMON, G_PARAM_READWRITE|G_PARAM_STATIC_STRINGS)); /** * Object:fan: * * The #Fan instance corresponding to the D-Bus interface org.openbmc.Fan, if any. * * Connect to the #GObject::notify signal to get informed of property changes. */ g_object_interface_install_property (iface, g_param_spec_object ("fan", "fan", "fan", TYPE_FAN, G_PARAM_READWRITE|G_PARAM_STATIC_STRINGS)); /** * Object:sensor-value: * * The #SensorValue instance corresponding to the D-Bus interface org.openbmc.SensorValue, if any. * * Connect to the #GObject::notify signal to get informed of property changes. */ g_object_interface_install_property (iface, g_param_spec_object ("sensor-value", "sensor-value", "sensor-value", TYPE_SENSOR_VALUE, G_PARAM_READWRITE|G_PARAM_STATIC_STRINGS)); /** * Object:sensor-threshold: * * The #SensorThreshold instance corresponding to the D-Bus interface org.openbmc.SensorThreshold, if any. * * Connect to the #GObject::notify signal to get informed of property changes. */ g_object_interface_install_property (iface, g_param_spec_object ("sensor-threshold", "sensor-threshold", "sensor-threshold", TYPE_SENSOR_THRESHOLD, G_PARAM_READWRITE|G_PARAM_STATIC_STRINGS)); /** * Object:sensor-i2c: * * The #SensorI2c instance corresponding to the D-Bus interface org.openbmc.SensorI2c, if any. * * Connect to the #GObject::notify signal to get informed of property changes. */ g_object_interface_install_property (iface, g_param_spec_object ("sensor-i2c", "sensor-i2c", "sensor-i2c", TYPE_SENSOR_I2C, G_PARAM_READWRITE|G_PARAM_STATIC_STRINGS)); /** * Object:sensor-match: * * The #SensorMatch instance corresponding to the D-Bus interface org.openbmc.SensorMatch, if any. * * Connect to the #GObject::notify signal to get informed of property changes. */ g_object_interface_install_property (iface, g_param_spec_object ("sensor-match", "sensor-match", "sensor-match", TYPE_SENSOR_MATCH, G_PARAM_READWRITE|G_PARAM_STATIC_STRINGS)); /** * Object:process: * * The #Process instance corresponding to the D-Bus interface org.openbmc.Process, if any. * * Connect to the #GObject::notify signal to get informed of property changes. */ g_object_interface_install_property (iface, g_param_spec_object ("process", "process", "process", TYPE_PROCESS, G_PARAM_READWRITE|G_PARAM_STATIC_STRINGS)); /** * Object:shared-resource: * * The #SharedResource instance corresponding to the D-Bus interface org.openbmc.SharedResource, if any. * * Connect to the #GObject::notify signal to get informed of property changes. */ g_object_interface_install_property (iface, g_param_spec_object ("shared-resource", "shared-resource", "shared-resource", TYPE_SHARED_RESOURCE, G_PARAM_READWRITE|G_PARAM_STATIC_STRINGS)); /** * Object:control: * * The #Control instance corresponding to the D-Bus interface org.openbmc.Control, if any. * * Connect to the #GObject::notify signal to get informed of property changes. */ g_object_interface_install_property (iface, g_param_spec_object ("control", "control", "control", TYPE_CONTROL, G_PARAM_READWRITE|G_PARAM_STATIC_STRINGS)); /** * Object:control-bmc: * * The #ControlBmc instance corresponding to the D-Bus interface org.openbmc.control.Bmc, if any. * * Connect to the #GObject::notify signal to get informed of property changes. */ g_object_interface_install_property (iface, g_param_spec_object ("control-bmc", "control-bmc", "control-bmc", TYPE_CONTROL_BMC, G_PARAM_READWRITE|G_PARAM_STATIC_STRINGS)); /** * Object:control-host: * * The #ControlHost instance corresponding to the D-Bus interface org.openbmc.control.Host, if any. * * Connect to the #GObject::notify signal to get informed of property changes. */ g_object_interface_install_property (iface, g_param_spec_object ("control-host", "control-host", "control-host", TYPE_CONTROL_HOST, G_PARAM_READWRITE|G_PARAM_STATIC_STRINGS)); /** * Object:control-power: * * The #ControlPower instance corresponding to the D-Bus interface org.openbmc.control.Power, if any. * * Connect to the #GObject::notify signal to get informed of property changes. */ g_object_interface_install_property (iface, g_param_spec_object ("control-power", "control-power", "control-power", TYPE_CONTROL_POWER, G_PARAM_READWRITE|G_PARAM_STATIC_STRINGS)); /** * Object:control-checkstop: * * The #ControlCheckstop instance corresponding to the D-Bus interface org.openbmc.control.Checkstop, if any. * * Connect to the #GObject::notify signal to get informed of property changes. */ g_object_interface_install_property (iface, g_param_spec_object ("control-checkstop", "control-checkstop", "control-checkstop", TYPE_CONTROL_CHECKSTOP, G_PARAM_READWRITE|G_PARAM_STATIC_STRINGS)); /** * Object:watchdog: * * The #Watchdog instance corresponding to the D-Bus interface org.openbmc.Watchdog, if any. * * Connect to the #GObject::notify signal to get informed of property changes. */ g_object_interface_install_property (iface, g_param_spec_object ("watchdog", "watchdog", "watchdog", TYPE_WATCHDOG, G_PARAM_READWRITE|G_PARAM_STATIC_STRINGS)); /** * Object:event-log: * * The #EventLog instance corresponding to the D-Bus interface org.openbmc.EventLog, if any. * * Connect to the #GObject::notify signal to get informed of property changes. */ g_object_interface_install_property (iface, g_param_spec_object ("event-log", "event-log", "event-log", TYPE_EVENT_LOG, G_PARAM_READWRITE|G_PARAM_STATIC_STRINGS)); /** * Object:flash: * * The #Flash instance corresponding to the D-Bus interface org.openbmc.Flash, if any. * * Connect to the #GObject::notify signal to get informed of property changes. */ g_object_interface_install_property (iface, g_param_spec_object ("flash", "flash", "flash", TYPE_FLASH, G_PARAM_READWRITE|G_PARAM_STATIC_STRINGS)); /** * Object:flash-control: * * The #FlashControl instance corresponding to the D-Bus interface org.openbmc.FlashControl, if any. * * Connect to the #GObject::notify signal to get informed of property changes. */ g_object_interface_install_property (iface, g_param_spec_object ("flash-control", "flash-control", "flash-control", TYPE_FLASH_CONTROL, G_PARAM_READWRITE|G_PARAM_STATIC_STRINGS)); /** * Object:button: * * The #Button instance corresponding to the D-Bus interface org.openbmc.Button, if any. * * Connect to the #GObject::notify signal to get informed of property changes. */ g_object_interface_install_property (iface, g_param_spec_object ("button", "button", "button", TYPE_BUTTON, G_PARAM_READWRITE|G_PARAM_STATIC_STRINGS)); /** * Object:led: * * The #Led instance corresponding to the D-Bus interface org.openbmc.Led, if any. * * Connect to the #GObject::notify signal to get informed of property changes. */ g_object_interface_install_property (iface, g_param_spec_object ("led", "led", "led", TYPE_LED, G_PARAM_READWRITE|G_PARAM_STATIC_STRINGS)); /** * Object:host-ipmi: * * The #HostIpmi instance corresponding to the D-Bus interface org.openbmc.HostIpmi, if any. * * Connect to the #GObject::notify signal to get informed of property changes. */ g_object_interface_install_property (iface, g_param_spec_object ("host-ipmi", "host-ipmi", "host-ipmi", TYPE_HOST_IPMI, G_PARAM_READWRITE|G_PARAM_STATIC_STRINGS)); } /** * object_get_hwmon: * @object: A #Object. * * Gets the #Hwmon instance for the D-Bus interface org.openbmc.Hwmon on @object, if any. * * Returns: (transfer full): A #Hwmon that must be freed with g_object_unref() or %NULL if @object does not implement the interface. */ Hwmon *object_get_hwmon (Object *object) { GDBusInterface *ret; ret = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.Hwmon"); if (ret == NULL) return NULL; return HWMON (ret); } /** * object_get_fan: * @object: A #Object. * * Gets the #Fan instance for the D-Bus interface org.openbmc.Fan on @object, if any. * * Returns: (transfer full): A #Fan that must be freed with g_object_unref() or %NULL if @object does not implement the interface. */ Fan *object_get_fan (Object *object) { GDBusInterface *ret; ret = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.Fan"); if (ret == NULL) return NULL; return FAN (ret); } /** * object_get_sensor_value: * @object: A #Object. * * Gets the #SensorValue instance for the D-Bus interface org.openbmc.SensorValue on @object, if any. * * Returns: (transfer full): A #SensorValue that must be freed with g_object_unref() or %NULL if @object does not implement the interface. */ SensorValue *object_get_sensor_value (Object *object) { GDBusInterface *ret; ret = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.SensorValue"); if (ret == NULL) return NULL; return SENSOR_VALUE (ret); } /** * object_get_sensor_threshold: * @object: A #Object. * * Gets the #SensorThreshold instance for the D-Bus interface org.openbmc.SensorThreshold on @object, if any. * * Returns: (transfer full): A #SensorThreshold that must be freed with g_object_unref() or %NULL if @object does not implement the interface. */ SensorThreshold *object_get_sensor_threshold (Object *object) { GDBusInterface *ret; ret = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.SensorThreshold"); if (ret == NULL) return NULL; return SENSOR_THRESHOLD (ret); } /** * object_get_sensor_i2c: * @object: A #Object. * * Gets the #SensorI2c instance for the D-Bus interface org.openbmc.SensorI2c on @object, if any. * * Returns: (transfer full): A #SensorI2c that must be freed with g_object_unref() or %NULL if @object does not implement the interface. */ SensorI2c *object_get_sensor_i2c (Object *object) { GDBusInterface *ret; ret = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.SensorI2c"); if (ret == NULL) return NULL; return SENSOR_I2C (ret); } /** * object_get_sensor_match: * @object: A #Object. * * Gets the #SensorMatch instance for the D-Bus interface org.openbmc.SensorMatch on @object, if any. * * Returns: (transfer full): A #SensorMatch that must be freed with g_object_unref() or %NULL if @object does not implement the interface. */ SensorMatch *object_get_sensor_match (Object *object) { GDBusInterface *ret; ret = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.SensorMatch"); if (ret == NULL) return NULL; return SENSOR_MATCH (ret); } /** * object_get_process: * @object: A #Object. * * Gets the #Process instance for the D-Bus interface org.openbmc.Process on @object, if any. * * Returns: (transfer full): A #Process that must be freed with g_object_unref() or %NULL if @object does not implement the interface. */ Process *object_get_process (Object *object) { GDBusInterface *ret; ret = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.Process"); if (ret == NULL) return NULL; return PROCESS (ret); } /** * object_get_shared_resource: * @object: A #Object. * * Gets the #SharedResource instance for the D-Bus interface org.openbmc.SharedResource on @object, if any. * * Returns: (transfer full): A #SharedResource that must be freed with g_object_unref() or %NULL if @object does not implement the interface. */ SharedResource *object_get_shared_resource (Object *object) { GDBusInterface *ret; ret = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.SharedResource"); if (ret == NULL) return NULL; return SHARED_RESOURCE (ret); } /** * object_get_control: * @object: A #Object. * * Gets the #Control instance for the D-Bus interface org.openbmc.Control on @object, if any. * * Returns: (transfer full): A #Control that must be freed with g_object_unref() or %NULL if @object does not implement the interface. */ Control *object_get_control (Object *object) { GDBusInterface *ret; ret = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.Control"); if (ret == NULL) return NULL; return CONTROL (ret); } /** * object_get_control_bmc: * @object: A #Object. * * Gets the #ControlBmc instance for the D-Bus interface org.openbmc.control.Bmc on @object, if any. * * Returns: (transfer full): A #ControlBmc that must be freed with g_object_unref() or %NULL if @object does not implement the interface. */ ControlBmc *object_get_control_bmc (Object *object) { GDBusInterface *ret; ret = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.control.Bmc"); if (ret == NULL) return NULL; return CONTROL_BMC (ret); } /** * object_get_control_host: * @object: A #Object. * * Gets the #ControlHost instance for the D-Bus interface org.openbmc.control.Host on @object, if any. * * Returns: (transfer full): A #ControlHost that must be freed with g_object_unref() or %NULL if @object does not implement the interface. */ ControlHost *object_get_control_host (Object *object) { GDBusInterface *ret; ret = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.control.Host"); if (ret == NULL) return NULL; return CONTROL_HOST (ret); } /** * object_get_control_power: * @object: A #Object. * * Gets the #ControlPower instance for the D-Bus interface org.openbmc.control.Power on @object, if any. * * Returns: (transfer full): A #ControlPower that must be freed with g_object_unref() or %NULL if @object does not implement the interface. */ ControlPower *object_get_control_power (Object *object) { GDBusInterface *ret; ret = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.control.Power"); if (ret == NULL) return NULL; return CONTROL_POWER (ret); } /** * object_get_control_checkstop: * @object: A #Object. * * Gets the #ControlCheckstop instance for the D-Bus interface org.openbmc.control.Checkstop on @object, if any. * * Returns: (transfer full): A #ControlCheckstop that must be freed with g_object_unref() or %NULL if @object does not implement the interface. */ ControlCheckstop *object_get_control_checkstop (Object *object) { GDBusInterface *ret; ret = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.control.Checkstop"); if (ret == NULL) return NULL; return CONTROL_CHECKSTOP (ret); } /** * object_get_watchdog: * @object: A #Object. * * Gets the #Watchdog instance for the D-Bus interface org.openbmc.Watchdog on @object, if any. * * Returns: (transfer full): A #Watchdog that must be freed with g_object_unref() or %NULL if @object does not implement the interface. */ Watchdog *object_get_watchdog (Object *object) { GDBusInterface *ret; ret = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.Watchdog"); if (ret == NULL) return NULL; return WATCHDOG (ret); } /** * object_get_event_log: * @object: A #Object. * * Gets the #EventLog instance for the D-Bus interface org.openbmc.EventLog on @object, if any. * * Returns: (transfer full): A #EventLog that must be freed with g_object_unref() or %NULL if @object does not implement the interface. */ EventLog *object_get_event_log (Object *object) { GDBusInterface *ret; ret = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.EventLog"); if (ret == NULL) return NULL; return EVENT_LOG (ret); } /** * object_get_flash: * @object: A #Object. * * Gets the #Flash instance for the D-Bus interface org.openbmc.Flash on @object, if any. * * Returns: (transfer full): A #Flash that must be freed with g_object_unref() or %NULL if @object does not implement the interface. */ Flash *object_get_flash (Object *object) { GDBusInterface *ret; ret = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.Flash"); if (ret == NULL) return NULL; return FLASH (ret); } /** * object_get_flash_control: * @object: A #Object. * * Gets the #FlashControl instance for the D-Bus interface org.openbmc.FlashControl on @object, if any. * * Returns: (transfer full): A #FlashControl that must be freed with g_object_unref() or %NULL if @object does not implement the interface. */ FlashControl *object_get_flash_control (Object *object) { GDBusInterface *ret; ret = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.FlashControl"); if (ret == NULL) return NULL; return FLASH_CONTROL (ret); } /** * object_get_button: * @object: A #Object. * * Gets the #Button instance for the D-Bus interface org.openbmc.Button on @object, if any. * * Returns: (transfer full): A #Button that must be freed with g_object_unref() or %NULL if @object does not implement the interface. */ Button *object_get_button (Object *object) { GDBusInterface *ret; ret = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.Button"); if (ret == NULL) return NULL; return BUTTON (ret); } /** * object_get_led: * @object: A #Object. * * Gets the #Led instance for the D-Bus interface org.openbmc.Led on @object, if any. * * Returns: (transfer full): A #Led that must be freed with g_object_unref() or %NULL if @object does not implement the interface. */ Led *object_get_led (Object *object) { GDBusInterface *ret; ret = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.Led"); if (ret == NULL) return NULL; return LED (ret); } /** * object_get_host_ipmi: * @object: A #Object. * * Gets the #HostIpmi instance for the D-Bus interface org.openbmc.HostIpmi on @object, if any. * * Returns: (transfer full): A #HostIpmi that must be freed with g_object_unref() or %NULL if @object does not implement the interface. */ HostIpmi *object_get_host_ipmi (Object *object) { GDBusInterface *ret; ret = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.HostIpmi"); if (ret == NULL) return NULL; return HOST_IPMI (ret); } /** * object_peek_hwmon: (skip) * @object: A #Object. * * Like object_get_hwmon() but doesn't increase the reference count on the returned object. * * It is not safe to use the returned object if you are on another thread than the one where the #GDBusObjectManagerClient or #GDBusObjectManagerServer for @object is running. * * Returns: (transfer none): A #Hwmon or %NULL if @object does not implement the interface. Do not free the returned object, it is owned by @object. */ Hwmon *object_peek_hwmon (Object *object) { GDBusInterface *ret; ret = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.Hwmon"); if (ret == NULL) return NULL; g_object_unref (ret); return HWMON (ret); } /** * object_peek_fan: (skip) * @object: A #Object. * * Like object_get_fan() but doesn't increase the reference count on the returned object. * * It is not safe to use the returned object if you are on another thread than the one where the #GDBusObjectManagerClient or #GDBusObjectManagerServer for @object is running. * * Returns: (transfer none): A #Fan or %NULL if @object does not implement the interface. Do not free the returned object, it is owned by @object. */ Fan *object_peek_fan (Object *object) { GDBusInterface *ret; ret = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.Fan"); if (ret == NULL) return NULL; g_object_unref (ret); return FAN (ret); } /** * object_peek_sensor_value: (skip) * @object: A #Object. * * Like object_get_sensor_value() but doesn't increase the reference count on the returned object. * * It is not safe to use the returned object if you are on another thread than the one where the #GDBusObjectManagerClient or #GDBusObjectManagerServer for @object is running. * * Returns: (transfer none): A #SensorValue or %NULL if @object does not implement the interface. Do not free the returned object, it is owned by @object. */ SensorValue *object_peek_sensor_value (Object *object) { GDBusInterface *ret; ret = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.SensorValue"); if (ret == NULL) return NULL; g_object_unref (ret); return SENSOR_VALUE (ret); } /** * object_peek_sensor_threshold: (skip) * @object: A #Object. * * Like object_get_sensor_threshold() but doesn't increase the reference count on the returned object. * * It is not safe to use the returned object if you are on another thread than the one where the #GDBusObjectManagerClient or #GDBusObjectManagerServer for @object is running. * * Returns: (transfer none): A #SensorThreshold or %NULL if @object does not implement the interface. Do not free the returned object, it is owned by @object. */ SensorThreshold *object_peek_sensor_threshold (Object *object) { GDBusInterface *ret; ret = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.SensorThreshold"); if (ret == NULL) return NULL; g_object_unref (ret); return SENSOR_THRESHOLD (ret); } /** * object_peek_sensor_i2c: (skip) * @object: A #Object. * * Like object_get_sensor_i2c() but doesn't increase the reference count on the returned object. * * It is not safe to use the returned object if you are on another thread than the one where the #GDBusObjectManagerClient or #GDBusObjectManagerServer for @object is running. * * Returns: (transfer none): A #SensorI2c or %NULL if @object does not implement the interface. Do not free the returned object, it is owned by @object. */ SensorI2c *object_peek_sensor_i2c (Object *object) { GDBusInterface *ret; ret = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.SensorI2c"); if (ret == NULL) return NULL; g_object_unref (ret); return SENSOR_I2C (ret); } /** * object_peek_sensor_match: (skip) * @object: A #Object. * * Like object_get_sensor_match() but doesn't increase the reference count on the returned object. * * It is not safe to use the returned object if you are on another thread than the one where the #GDBusObjectManagerClient or #GDBusObjectManagerServer for @object is running. * * Returns: (transfer none): A #SensorMatch or %NULL if @object does not implement the interface. Do not free the returned object, it is owned by @object. */ SensorMatch *object_peek_sensor_match (Object *object) { GDBusInterface *ret; ret = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.SensorMatch"); if (ret == NULL) return NULL; g_object_unref (ret); return SENSOR_MATCH (ret); } /** * object_peek_process: (skip) * @object: A #Object. * * Like object_get_process() but doesn't increase the reference count on the returned object. * * It is not safe to use the returned object if you are on another thread than the one where the #GDBusObjectManagerClient or #GDBusObjectManagerServer for @object is running. * * Returns: (transfer none): A #Process or %NULL if @object does not implement the interface. Do not free the returned object, it is owned by @object. */ Process *object_peek_process (Object *object) { GDBusInterface *ret; ret = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.Process"); if (ret == NULL) return NULL; g_object_unref (ret); return PROCESS (ret); } /** * object_peek_shared_resource: (skip) * @object: A #Object. * * Like object_get_shared_resource() but doesn't increase the reference count on the returned object. * * It is not safe to use the returned object if you are on another thread than the one where the #GDBusObjectManagerClient or #GDBusObjectManagerServer for @object is running. * * Returns: (transfer none): A #SharedResource or %NULL if @object does not implement the interface. Do not free the returned object, it is owned by @object. */ SharedResource *object_peek_shared_resource (Object *object) { GDBusInterface *ret; ret = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.SharedResource"); if (ret == NULL) return NULL; g_object_unref (ret); return SHARED_RESOURCE (ret); } /** * object_peek_control: (skip) * @object: A #Object. * * Like object_get_control() but doesn't increase the reference count on the returned object. * * It is not safe to use the returned object if you are on another thread than the one where the #GDBusObjectManagerClient or #GDBusObjectManagerServer for @object is running. * * Returns: (transfer none): A #Control or %NULL if @object does not implement the interface. Do not free the returned object, it is owned by @object. */ Control *object_peek_control (Object *object) { GDBusInterface *ret; ret = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.Control"); if (ret == NULL) return NULL; g_object_unref (ret); return CONTROL (ret); } /** * object_peek_control_bmc: (skip) * @object: A #Object. * * Like object_get_control_bmc() but doesn't increase the reference count on the returned object. * * It is not safe to use the returned object if you are on another thread than the one where the #GDBusObjectManagerClient or #GDBusObjectManagerServer for @object is running. * * Returns: (transfer none): A #ControlBmc or %NULL if @object does not implement the interface. Do not free the returned object, it is owned by @object. */ ControlBmc *object_peek_control_bmc (Object *object) { GDBusInterface *ret; ret = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.control.Bmc"); if (ret == NULL) return NULL; g_object_unref (ret); return CONTROL_BMC (ret); } /** * object_peek_control_host: (skip) * @object: A #Object. * * Like object_get_control_host() but doesn't increase the reference count on the returned object. * * It is not safe to use the returned object if you are on another thread than the one where the #GDBusObjectManagerClient or #GDBusObjectManagerServer for @object is running. * * Returns: (transfer none): A #ControlHost or %NULL if @object does not implement the interface. Do not free the returned object, it is owned by @object. */ ControlHost *object_peek_control_host (Object *object) { GDBusInterface *ret; ret = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.control.Host"); if (ret == NULL) return NULL; g_object_unref (ret); return CONTROL_HOST (ret); } /** * object_peek_control_power: (skip) * @object: A #Object. * * Like object_get_control_power() but doesn't increase the reference count on the returned object. * * It is not safe to use the returned object if you are on another thread than the one where the #GDBusObjectManagerClient or #GDBusObjectManagerServer for @object is running. * * Returns: (transfer none): A #ControlPower or %NULL if @object does not implement the interface. Do not free the returned object, it is owned by @object. */ ControlPower *object_peek_control_power (Object *object) { GDBusInterface *ret; ret = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.control.Power"); if (ret == NULL) return NULL; g_object_unref (ret); return CONTROL_POWER (ret); } /** * object_peek_control_checkstop: (skip) * @object: A #Object. * * Like object_get_control_checkstop() but doesn't increase the reference count on the returned object. * * It is not safe to use the returned object if you are on another thread than the one where the #GDBusObjectManagerClient or #GDBusObjectManagerServer for @object is running. * * Returns: (transfer none): A #ControlCheckstop or %NULL if @object does not implement the interface. Do not free the returned object, it is owned by @object. */ ControlCheckstop *object_peek_control_checkstop (Object *object) { GDBusInterface *ret; ret = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.control.Checkstop"); if (ret == NULL) return NULL; g_object_unref (ret); return CONTROL_CHECKSTOP (ret); } /** * object_peek_watchdog: (skip) * @object: A #Object. * * Like object_get_watchdog() but doesn't increase the reference count on the returned object. * * It is not safe to use the returned object if you are on another thread than the one where the #GDBusObjectManagerClient or #GDBusObjectManagerServer for @object is running. * * Returns: (transfer none): A #Watchdog or %NULL if @object does not implement the interface. Do not free the returned object, it is owned by @object. */ Watchdog *object_peek_watchdog (Object *object) { GDBusInterface *ret; ret = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.Watchdog"); if (ret == NULL) return NULL; g_object_unref (ret); return WATCHDOG (ret); } /** * object_peek_event_log: (skip) * @object: A #Object. * * Like object_get_event_log() but doesn't increase the reference count on the returned object. * * It is not safe to use the returned object if you are on another thread than the one where the #GDBusObjectManagerClient or #GDBusObjectManagerServer for @object is running. * * Returns: (transfer none): A #EventLog or %NULL if @object does not implement the interface. Do not free the returned object, it is owned by @object. */ EventLog *object_peek_event_log (Object *object) { GDBusInterface *ret; ret = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.EventLog"); if (ret == NULL) return NULL; g_object_unref (ret); return EVENT_LOG (ret); } /** * object_peek_flash: (skip) * @object: A #Object. * * Like object_get_flash() but doesn't increase the reference count on the returned object. * * It is not safe to use the returned object if you are on another thread than the one where the #GDBusObjectManagerClient or #GDBusObjectManagerServer for @object is running. * * Returns: (transfer none): A #Flash or %NULL if @object does not implement the interface. Do not free the returned object, it is owned by @object. */ Flash *object_peek_flash (Object *object) { GDBusInterface *ret; ret = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.Flash"); if (ret == NULL) return NULL; g_object_unref (ret); return FLASH (ret); } /** * object_peek_flash_control: (skip) * @object: A #Object. * * Like object_get_flash_control() but doesn't increase the reference count on the returned object. * * It is not safe to use the returned object if you are on another thread than the one where the #GDBusObjectManagerClient or #GDBusObjectManagerServer for @object is running. * * Returns: (transfer none): A #FlashControl or %NULL if @object does not implement the interface. Do not free the returned object, it is owned by @object. */ FlashControl *object_peek_flash_control (Object *object) { GDBusInterface *ret; ret = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.FlashControl"); if (ret == NULL) return NULL; g_object_unref (ret); return FLASH_CONTROL (ret); } /** * object_peek_button: (skip) * @object: A #Object. * * Like object_get_button() but doesn't increase the reference count on the returned object. * * It is not safe to use the returned object if you are on another thread than the one where the #GDBusObjectManagerClient or #GDBusObjectManagerServer for @object is running. * * Returns: (transfer none): A #Button or %NULL if @object does not implement the interface. Do not free the returned object, it is owned by @object. */ Button *object_peek_button (Object *object) { GDBusInterface *ret; ret = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.Button"); if (ret == NULL) return NULL; g_object_unref (ret); return BUTTON (ret); } /** * object_peek_led: (skip) * @object: A #Object. * * Like object_get_led() but doesn't increase the reference count on the returned object. * * It is not safe to use the returned object if you are on another thread than the one where the #GDBusObjectManagerClient or #GDBusObjectManagerServer for @object is running. * * Returns: (transfer none): A #Led or %NULL if @object does not implement the interface. Do not free the returned object, it is owned by @object. */ Led *object_peek_led (Object *object) { GDBusInterface *ret; ret = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.Led"); if (ret == NULL) return NULL; g_object_unref (ret); return LED (ret); } /** * object_peek_host_ipmi: (skip) * @object: A #Object. * * Like object_get_host_ipmi() but doesn't increase the reference count on the returned object. * * It is not safe to use the returned object if you are on another thread than the one where the #GDBusObjectManagerClient or #GDBusObjectManagerServer for @object is running. * * Returns: (transfer none): A #HostIpmi or %NULL if @object does not implement the interface. Do not free the returned object, it is owned by @object. */ HostIpmi *object_peek_host_ipmi (Object *object) { GDBusInterface *ret; ret = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.HostIpmi"); if (ret == NULL) return NULL; g_object_unref (ret); return HOST_IPMI (ret); } static void object_notify (GDBusObject *object, GDBusInterface *interface) { _ExtendedGDBusInterfaceInfo *info = (_ExtendedGDBusInterfaceInfo *) g_dbus_interface_get_info (interface); /* info can be NULL if the other end is using a D-Bus interface we don't know * anything about, for example old generated code in this process talking to * newer generated code in the other process. */ if (info != NULL) g_object_notify (G_OBJECT (object), info->hyphen_name); } /** * ObjectProxy: * * The #ObjectProxy structure contains only private data and should only be accessed using the provided API. */ /** * ObjectProxyClass: * @parent_class: The parent class. * * Class structure for #ObjectProxy. */ static void object_proxy__object_iface_init (ObjectIface *iface G_GNUC_UNUSED) { } static void object_proxy__g_dbus_object_iface_init (GDBusObjectIface *iface) { iface->interface_added = object_notify; iface->interface_removed = object_notify; } G_DEFINE_TYPE_WITH_CODE (ObjectProxy, object_proxy, G_TYPE_DBUS_OBJECT_PROXY, G_IMPLEMENT_INTERFACE (TYPE_OBJECT, object_proxy__object_iface_init) G_IMPLEMENT_INTERFACE (G_TYPE_DBUS_OBJECT, object_proxy__g_dbus_object_iface_init)); static void object_proxy_init (ObjectProxy *object G_GNUC_UNUSED) { } static void object_proxy_set_property (GObject *gobject, guint prop_id, const GValue *value G_GNUC_UNUSED, GParamSpec *pspec) { G_OBJECT_WARN_INVALID_PROPERTY_ID (gobject, prop_id, pspec); } static void object_proxy_get_property (GObject *gobject, guint prop_id, GValue *value, GParamSpec *pspec) { ObjectProxy *object = OBJECT_PROXY (gobject); GDBusInterface *interface; switch (prop_id) { case 1: interface = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.Hwmon"); g_value_take_object (value, interface); break; case 2: interface = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.Fan"); g_value_take_object (value, interface); break; case 3: interface = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.SensorValue"); g_value_take_object (value, interface); break; case 4: interface = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.SensorThreshold"); g_value_take_object (value, interface); break; case 5: interface = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.SensorI2c"); g_value_take_object (value, interface); break; case 6: interface = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.SensorMatch"); g_value_take_object (value, interface); break; case 7: interface = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.Process"); g_value_take_object (value, interface); break; case 8: interface = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.SharedResource"); g_value_take_object (value, interface); break; case 9: interface = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.Control"); g_value_take_object (value, interface); break; case 10: interface = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.control.Bmc"); g_value_take_object (value, interface); break; case 11: interface = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.control.Host"); g_value_take_object (value, interface); break; case 12: interface = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.control.Power"); g_value_take_object (value, interface); break; case 13: interface = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.control.Checkstop"); g_value_take_object (value, interface); break; case 14: interface = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.Watchdog"); g_value_take_object (value, interface); break; case 15: interface = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.EventLog"); g_value_take_object (value, interface); break; case 16: interface = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.Flash"); g_value_take_object (value, interface); break; case 17: interface = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.FlashControl"); g_value_take_object (value, interface); break; case 18: interface = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.Button"); g_value_take_object (value, interface); break; case 19: interface = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.Led"); g_value_take_object (value, interface); break; case 20: interface = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.HostIpmi"); g_value_take_object (value, interface); break; default: G_OBJECT_WARN_INVALID_PROPERTY_ID (gobject, prop_id, pspec); break; } } static void object_proxy_class_init (ObjectProxyClass *klass) { GObjectClass *gobject_class = G_OBJECT_CLASS (klass); gobject_class->set_property = object_proxy_set_property; gobject_class->get_property = object_proxy_get_property; g_object_class_override_property (gobject_class, 1, "hwmon"); g_object_class_override_property (gobject_class, 2, "fan"); g_object_class_override_property (gobject_class, 3, "sensor-value"); g_object_class_override_property (gobject_class, 4, "sensor-threshold"); g_object_class_override_property (gobject_class, 5, "sensor-i2c"); g_object_class_override_property (gobject_class, 6, "sensor-match"); g_object_class_override_property (gobject_class, 7, "process"); g_object_class_override_property (gobject_class, 8, "shared-resource"); g_object_class_override_property (gobject_class, 9, "control"); g_object_class_override_property (gobject_class, 10, "control-bmc"); g_object_class_override_property (gobject_class, 11, "control-host"); g_object_class_override_property (gobject_class, 12, "control-power"); g_object_class_override_property (gobject_class, 13, "control-checkstop"); g_object_class_override_property (gobject_class, 14, "watchdog"); g_object_class_override_property (gobject_class, 15, "event-log"); g_object_class_override_property (gobject_class, 16, "flash"); g_object_class_override_property (gobject_class, 17, "flash-control"); g_object_class_override_property (gobject_class, 18, "button"); g_object_class_override_property (gobject_class, 19, "led"); g_object_class_override_property (gobject_class, 20, "host-ipmi"); } /** * object_proxy_new: * @connection: A #GDBusConnection. * @object_path: An object path. * * Creates a new proxy object. * * Returns: (transfer full): The proxy object. */ ObjectProxy * object_proxy_new (GDBusConnection *connection, const gchar *object_path) { g_return_val_if_fail (G_IS_DBUS_CONNECTION (connection), NULL); g_return_val_if_fail (g_variant_is_object_path (object_path), NULL); return OBJECT_PROXY (g_object_new (TYPE_OBJECT_PROXY, "g-connection", connection, "g-object-path", object_path, NULL)); } /** * ObjectSkeleton: * * The #ObjectSkeleton structure contains only private data and should only be accessed using the provided API. */ /** * ObjectSkeletonClass: * @parent_class: The parent class. * * Class structure for #ObjectSkeleton. */ static void object_skeleton__object_iface_init (ObjectIface *iface G_GNUC_UNUSED) { } static void object_skeleton__g_dbus_object_iface_init (GDBusObjectIface *iface) { iface->interface_added = object_notify; iface->interface_removed = object_notify; } G_DEFINE_TYPE_WITH_CODE (ObjectSkeleton, object_skeleton, G_TYPE_DBUS_OBJECT_SKELETON, G_IMPLEMENT_INTERFACE (TYPE_OBJECT, object_skeleton__object_iface_init) G_IMPLEMENT_INTERFACE (G_TYPE_DBUS_OBJECT, object_skeleton__g_dbus_object_iface_init)); static void object_skeleton_init (ObjectSkeleton *object G_GNUC_UNUSED) { } static void object_skeleton_set_property (GObject *gobject, guint prop_id, const GValue *value, GParamSpec *pspec) { ObjectSkeleton *object = OBJECT_SKELETON (gobject); GDBusInterfaceSkeleton *interface; switch (prop_id) { case 1: interface = g_value_get_object (value); if (interface != NULL) { g_warn_if_fail (IS_HWMON (interface)); g_dbus_object_skeleton_add_interface (G_DBUS_OBJECT_SKELETON (object), interface); } else { g_dbus_object_skeleton_remove_interface_by_name (G_DBUS_OBJECT_SKELETON (object), "org.openbmc.Hwmon"); } break; case 2: interface = g_value_get_object (value); if (interface != NULL) { g_warn_if_fail (IS_FAN (interface)); g_dbus_object_skeleton_add_interface (G_DBUS_OBJECT_SKELETON (object), interface); } else { g_dbus_object_skeleton_remove_interface_by_name (G_DBUS_OBJECT_SKELETON (object), "org.openbmc.Fan"); } break; case 3: interface = g_value_get_object (value); if (interface != NULL) { g_warn_if_fail (IS_SENSOR_VALUE (interface)); g_dbus_object_skeleton_add_interface (G_DBUS_OBJECT_SKELETON (object), interface); } else { g_dbus_object_skeleton_remove_interface_by_name (G_DBUS_OBJECT_SKELETON (object), "org.openbmc.SensorValue"); } break; case 4: interface = g_value_get_object (value); if (interface != NULL) { g_warn_if_fail (IS_SENSOR_THRESHOLD (interface)); g_dbus_object_skeleton_add_interface (G_DBUS_OBJECT_SKELETON (object), interface); } else { g_dbus_object_skeleton_remove_interface_by_name (G_DBUS_OBJECT_SKELETON (object), "org.openbmc.SensorThreshold"); } break; case 5: interface = g_value_get_object (value); if (interface != NULL) { g_warn_if_fail (IS_SENSOR_I2C (interface)); g_dbus_object_skeleton_add_interface (G_DBUS_OBJECT_SKELETON (object), interface); } else { g_dbus_object_skeleton_remove_interface_by_name (G_DBUS_OBJECT_SKELETON (object), "org.openbmc.SensorI2c"); } break; case 6: interface = g_value_get_object (value); if (interface != NULL) { g_warn_if_fail (IS_SENSOR_MATCH (interface)); g_dbus_object_skeleton_add_interface (G_DBUS_OBJECT_SKELETON (object), interface); } else { g_dbus_object_skeleton_remove_interface_by_name (G_DBUS_OBJECT_SKELETON (object), "org.openbmc.SensorMatch"); } break; case 7: interface = g_value_get_object (value); if (interface != NULL) { g_warn_if_fail (IS_PROCESS (interface)); g_dbus_object_skeleton_add_interface (G_DBUS_OBJECT_SKELETON (object), interface); } else { g_dbus_object_skeleton_remove_interface_by_name (G_DBUS_OBJECT_SKELETON (object), "org.openbmc.Process"); } break; case 8: interface = g_value_get_object (value); if (interface != NULL) { g_warn_if_fail (IS_SHARED_RESOURCE (interface)); g_dbus_object_skeleton_add_interface (G_DBUS_OBJECT_SKELETON (object), interface); } else { g_dbus_object_skeleton_remove_interface_by_name (G_DBUS_OBJECT_SKELETON (object), "org.openbmc.SharedResource"); } break; case 9: interface = g_value_get_object (value); if (interface != NULL) { g_warn_if_fail (IS_CONTROL (interface)); g_dbus_object_skeleton_add_interface (G_DBUS_OBJECT_SKELETON (object), interface); } else { g_dbus_object_skeleton_remove_interface_by_name (G_DBUS_OBJECT_SKELETON (object), "org.openbmc.Control"); } break; case 10: interface = g_value_get_object (value); if (interface != NULL) { g_warn_if_fail (IS_CONTROL_BMC (interface)); g_dbus_object_skeleton_add_interface (G_DBUS_OBJECT_SKELETON (object), interface); } else { g_dbus_object_skeleton_remove_interface_by_name (G_DBUS_OBJECT_SKELETON (object), "org.openbmc.control.Bmc"); } break; case 11: interface = g_value_get_object (value); if (interface != NULL) { g_warn_if_fail (IS_CONTROL_HOST (interface)); g_dbus_object_skeleton_add_interface (G_DBUS_OBJECT_SKELETON (object), interface); } else { g_dbus_object_skeleton_remove_interface_by_name (G_DBUS_OBJECT_SKELETON (object), "org.openbmc.control.Host"); } break; case 12: interface = g_value_get_object (value); if (interface != NULL) { g_warn_if_fail (IS_CONTROL_POWER (interface)); g_dbus_object_skeleton_add_interface (G_DBUS_OBJECT_SKELETON (object), interface); } else { g_dbus_object_skeleton_remove_interface_by_name (G_DBUS_OBJECT_SKELETON (object), "org.openbmc.control.Power"); } break; case 13: interface = g_value_get_object (value); if (interface != NULL) { g_warn_if_fail (IS_CONTROL_CHECKSTOP (interface)); g_dbus_object_skeleton_add_interface (G_DBUS_OBJECT_SKELETON (object), interface); } else { g_dbus_object_skeleton_remove_interface_by_name (G_DBUS_OBJECT_SKELETON (object), "org.openbmc.control.Checkstop"); } break; case 14: interface = g_value_get_object (value); if (interface != NULL) { g_warn_if_fail (IS_WATCHDOG (interface)); g_dbus_object_skeleton_add_interface (G_DBUS_OBJECT_SKELETON (object), interface); } else { g_dbus_object_skeleton_remove_interface_by_name (G_DBUS_OBJECT_SKELETON (object), "org.openbmc.Watchdog"); } break; case 15: interface = g_value_get_object (value); if (interface != NULL) { g_warn_if_fail (IS_EVENT_LOG (interface)); g_dbus_object_skeleton_add_interface (G_DBUS_OBJECT_SKELETON (object), interface); } else { g_dbus_object_skeleton_remove_interface_by_name (G_DBUS_OBJECT_SKELETON (object), "org.openbmc.EventLog"); } break; case 16: interface = g_value_get_object (value); if (interface != NULL) { g_warn_if_fail (IS_FLASH (interface)); g_dbus_object_skeleton_add_interface (G_DBUS_OBJECT_SKELETON (object), interface); } else { g_dbus_object_skeleton_remove_interface_by_name (G_DBUS_OBJECT_SKELETON (object), "org.openbmc.Flash"); } break; case 17: interface = g_value_get_object (value); if (interface != NULL) { g_warn_if_fail (IS_FLASH_CONTROL (interface)); g_dbus_object_skeleton_add_interface (G_DBUS_OBJECT_SKELETON (object), interface); } else { g_dbus_object_skeleton_remove_interface_by_name (G_DBUS_OBJECT_SKELETON (object), "org.openbmc.FlashControl"); } break; case 18: interface = g_value_get_object (value); if (interface != NULL) { g_warn_if_fail (IS_BUTTON (interface)); g_dbus_object_skeleton_add_interface (G_DBUS_OBJECT_SKELETON (object), interface); } else { g_dbus_object_skeleton_remove_interface_by_name (G_DBUS_OBJECT_SKELETON (object), "org.openbmc.Button"); } break; case 19: interface = g_value_get_object (value); if (interface != NULL) { g_warn_if_fail (IS_LED (interface)); g_dbus_object_skeleton_add_interface (G_DBUS_OBJECT_SKELETON (object), interface); } else { g_dbus_object_skeleton_remove_interface_by_name (G_DBUS_OBJECT_SKELETON (object), "org.openbmc.Led"); } break; case 20: interface = g_value_get_object (value); if (interface != NULL) { g_warn_if_fail (IS_HOST_IPMI (interface)); g_dbus_object_skeleton_add_interface (G_DBUS_OBJECT_SKELETON (object), interface); } else { g_dbus_object_skeleton_remove_interface_by_name (G_DBUS_OBJECT_SKELETON (object), "org.openbmc.HostIpmi"); } break; default: G_OBJECT_WARN_INVALID_PROPERTY_ID (gobject, prop_id, pspec); break; } } static void object_skeleton_get_property (GObject *gobject, guint prop_id, GValue *value, GParamSpec *pspec) { ObjectSkeleton *object = OBJECT_SKELETON (gobject); GDBusInterface *interface; switch (prop_id) { case 1: interface = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.Hwmon"); g_value_take_object (value, interface); break; case 2: interface = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.Fan"); g_value_take_object (value, interface); break; case 3: interface = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.SensorValue"); g_value_take_object (value, interface); break; case 4: interface = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.SensorThreshold"); g_value_take_object (value, interface); break; case 5: interface = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.SensorI2c"); g_value_take_object (value, interface); break; case 6: interface = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.SensorMatch"); g_value_take_object (value, interface); break; case 7: interface = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.Process"); g_value_take_object (value, interface); break; case 8: interface = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.SharedResource"); g_value_take_object (value, interface); break; case 9: interface = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.Control"); g_value_take_object (value, interface); break; case 10: interface = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.control.Bmc"); g_value_take_object (value, interface); break; case 11: interface = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.control.Host"); g_value_take_object (value, interface); break; case 12: interface = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.control.Power"); g_value_take_object (value, interface); break; case 13: interface = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.control.Checkstop"); g_value_take_object (value, interface); break; case 14: interface = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.Watchdog"); g_value_take_object (value, interface); break; case 15: interface = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.EventLog"); g_value_take_object (value, interface); break; case 16: interface = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.Flash"); g_value_take_object (value, interface); break; case 17: interface = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.FlashControl"); g_value_take_object (value, interface); break; case 18: interface = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.Button"); g_value_take_object (value, interface); break; case 19: interface = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.Led"); g_value_take_object (value, interface); break; case 20: interface = g_dbus_object_get_interface (G_DBUS_OBJECT (object), "org.openbmc.HostIpmi"); g_value_take_object (value, interface); break; default: G_OBJECT_WARN_INVALID_PROPERTY_ID (gobject, prop_id, pspec); break; } } static void object_skeleton_class_init (ObjectSkeletonClass *klass) { GObjectClass *gobject_class = G_OBJECT_CLASS (klass); gobject_class->set_property = object_skeleton_set_property; gobject_class->get_property = object_skeleton_get_property; g_object_class_override_property (gobject_class, 1, "hwmon"); g_object_class_override_property (gobject_class, 2, "fan"); g_object_class_override_property (gobject_class, 3, "sensor-value"); g_object_class_override_property (gobject_class, 4, "sensor-threshold"); g_object_class_override_property (gobject_class, 5, "sensor-i2c"); g_object_class_override_property (gobject_class, 6, "sensor-match"); g_object_class_override_property (gobject_class, 7, "process"); g_object_class_override_property (gobject_class, 8, "shared-resource"); g_object_class_override_property (gobject_class, 9, "control"); g_object_class_override_property (gobject_class, 10, "control-bmc"); g_object_class_override_property (gobject_class, 11, "control-host"); g_object_class_override_property (gobject_class, 12, "control-power"); g_object_class_override_property (gobject_class, 13, "control-checkstop"); g_object_class_override_property (gobject_class, 14, "watchdog"); g_object_class_override_property (gobject_class, 15, "event-log"); g_object_class_override_property (gobject_class, 16, "flash"); g_object_class_override_property (gobject_class, 17, "flash-control"); g_object_class_override_property (gobject_class, 18, "button"); g_object_class_override_property (gobject_class, 19, "led"); g_object_class_override_property (gobject_class, 20, "host-ipmi"); } /** * object_skeleton_new: * @object_path: An object path. * * Creates a new skeleton object. * * Returns: (transfer full): The skeleton object. */ ObjectSkeleton * object_skeleton_new (const gchar *object_path) { g_return_val_if_fail (g_variant_is_object_path (object_path), NULL); return OBJECT_SKELETON (g_object_new (TYPE_OBJECT_SKELETON, "g-object-path", object_path, NULL)); } /** * object_skeleton_set_hwmon: * @object: A #ObjectSkeleton. * @interface_: (allow-none): A #Hwmon or %NULL to clear the interface. * * Sets the #Hwmon instance for the D-Bus interface org.openbmc.Hwmon on @object. */ void object_skeleton_set_hwmon (ObjectSkeleton *object, Hwmon *interface_) { g_object_set (G_OBJECT (object), "hwmon", interface_, NULL); } /** * object_skeleton_set_fan: * @object: A #ObjectSkeleton. * @interface_: (allow-none): A #Fan or %NULL to clear the interface. * * Sets the #Fan instance for the D-Bus interface org.openbmc.Fan on @object. */ void object_skeleton_set_fan (ObjectSkeleton *object, Fan *interface_) { g_object_set (G_OBJECT (object), "fan", interface_, NULL); } /** * object_skeleton_set_sensor_value: * @object: A #ObjectSkeleton. * @interface_: (allow-none): A #SensorValue or %NULL to clear the interface. * * Sets the #SensorValue instance for the D-Bus interface org.openbmc.SensorValue on @object. */ void object_skeleton_set_sensor_value (ObjectSkeleton *object, SensorValue *interface_) { g_object_set (G_OBJECT (object), "sensor-value", interface_, NULL); } /** * object_skeleton_set_sensor_threshold: * @object: A #ObjectSkeleton. * @interface_: (allow-none): A #SensorThreshold or %NULL to clear the interface. * * Sets the #SensorThreshold instance for the D-Bus interface org.openbmc.SensorThreshold on @object. */ void object_skeleton_set_sensor_threshold (ObjectSkeleton *object, SensorThreshold *interface_) { g_object_set (G_OBJECT (object), "sensor-threshold", interface_, NULL); } /** * object_skeleton_set_sensor_i2c: * @object: A #ObjectSkeleton. * @interface_: (allow-none): A #SensorI2c or %NULL to clear the interface. * * Sets the #SensorI2c instance for the D-Bus interface org.openbmc.SensorI2c on @object. */ void object_skeleton_set_sensor_i2c (ObjectSkeleton *object, SensorI2c *interface_) { g_object_set (G_OBJECT (object), "sensor-i2c", interface_, NULL); } /** * object_skeleton_set_sensor_match: * @object: A #ObjectSkeleton. * @interface_: (allow-none): A #SensorMatch or %NULL to clear the interface. * * Sets the #SensorMatch instance for the D-Bus interface org.openbmc.SensorMatch on @object. */ void object_skeleton_set_sensor_match (ObjectSkeleton *object, SensorMatch *interface_) { g_object_set (G_OBJECT (object), "sensor-match", interface_, NULL); } /** * object_skeleton_set_process: * @object: A #ObjectSkeleton. * @interface_: (allow-none): A #Process or %NULL to clear the interface. * * Sets the #Process instance for the D-Bus interface org.openbmc.Process on @object. */ void object_skeleton_set_process (ObjectSkeleton *object, Process *interface_) { g_object_set (G_OBJECT (object), "process", interface_, NULL); } /** * object_skeleton_set_shared_resource: * @object: A #ObjectSkeleton. * @interface_: (allow-none): A #SharedResource or %NULL to clear the interface. * * Sets the #SharedResource instance for the D-Bus interface org.openbmc.SharedResource on @object. */ void object_skeleton_set_shared_resource (ObjectSkeleton *object, SharedResource *interface_) { g_object_set (G_OBJECT (object), "shared-resource", interface_, NULL); } /** * object_skeleton_set_control: * @object: A #ObjectSkeleton. * @interface_: (allow-none): A #Control or %NULL to clear the interface. * * Sets the #Control instance for the D-Bus interface org.openbmc.Control on @object. */ void object_skeleton_set_control (ObjectSkeleton *object, Control *interface_) { g_object_set (G_OBJECT (object), "control", interface_, NULL); } /** * object_skeleton_set_control_bmc: * @object: A #ObjectSkeleton. * @interface_: (allow-none): A #ControlBmc or %NULL to clear the interface. * * Sets the #ControlBmc instance for the D-Bus interface org.openbmc.control.Bmc on @object. */ void object_skeleton_set_control_bmc (ObjectSkeleton *object, ControlBmc *interface_) { g_object_set (G_OBJECT (object), "control-bmc", interface_, NULL); } /** * object_skeleton_set_control_host: * @object: A #ObjectSkeleton. * @interface_: (allow-none): A #ControlHost or %NULL to clear the interface. * * Sets the #ControlHost instance for the D-Bus interface org.openbmc.control.Host on @object. */ void object_skeleton_set_control_host (ObjectSkeleton *object, ControlHost *interface_) { g_object_set (G_OBJECT (object), "control-host", interface_, NULL); } /** * object_skeleton_set_control_power: * @object: A #ObjectSkeleton. * @interface_: (allow-none): A #ControlPower or %NULL to clear the interface. * * Sets the #ControlPower instance for the D-Bus interface org.openbmc.control.Power on @object. */ void object_skeleton_set_control_power (ObjectSkeleton *object, ControlPower *interface_) { g_object_set (G_OBJECT (object), "control-power", interface_, NULL); } /** * object_skeleton_set_control_checkstop: * @object: A #ObjectSkeleton. * @interface_: (allow-none): A #ControlCheckstop or %NULL to clear the interface. * * Sets the #ControlCheckstop instance for the D-Bus interface org.openbmc.control.Checkstop on @object. */ void object_skeleton_set_control_checkstop (ObjectSkeleton *object, ControlCheckstop *interface_) { g_object_set (G_OBJECT (object), "control-checkstop", interface_, NULL); } /** * object_skeleton_set_watchdog: * @object: A #ObjectSkeleton. * @interface_: (allow-none): A #Watchdog or %NULL to clear the interface. * * Sets the #Watchdog instance for the D-Bus interface org.openbmc.Watchdog on @object. */ void object_skeleton_set_watchdog (ObjectSkeleton *object, Watchdog *interface_) { g_object_set (G_OBJECT (object), "watchdog", interface_, NULL); } /** * object_skeleton_set_event_log: * @object: A #ObjectSkeleton. * @interface_: (allow-none): A #EventLog or %NULL to clear the interface. * * Sets the #EventLog instance for the D-Bus interface org.openbmc.EventLog on @object. */ void object_skeleton_set_event_log (ObjectSkeleton *object, EventLog *interface_) { g_object_set (G_OBJECT (object), "event-log", interface_, NULL); } /** * object_skeleton_set_flash: * @object: A #ObjectSkeleton. * @interface_: (allow-none): A #Flash or %NULL to clear the interface. * * Sets the #Flash instance for the D-Bus interface org.openbmc.Flash on @object. */ void object_skeleton_set_flash (ObjectSkeleton *object, Flash *interface_) { g_object_set (G_OBJECT (object), "flash", interface_, NULL); } /** * object_skeleton_set_flash_control: * @object: A #ObjectSkeleton. * @interface_: (allow-none): A #FlashControl or %NULL to clear the interface. * * Sets the #FlashControl instance for the D-Bus interface org.openbmc.FlashControl on @object. */ void object_skeleton_set_flash_control (ObjectSkeleton *object, FlashControl *interface_) { g_object_set (G_OBJECT (object), "flash-control", interface_, NULL); } /** * object_skeleton_set_button: * @object: A #ObjectSkeleton. * @interface_: (allow-none): A #Button or %NULL to clear the interface. * * Sets the #Button instance for the D-Bus interface org.openbmc.Button on @object. */ void object_skeleton_set_button (ObjectSkeleton *object, Button *interface_) { g_object_set (G_OBJECT (object), "button", interface_, NULL); } /** * object_skeleton_set_led: * @object: A #ObjectSkeleton. * @interface_: (allow-none): A #Led or %NULL to clear the interface. * * Sets the #Led instance for the D-Bus interface org.openbmc.Led on @object. */ void object_skeleton_set_led (ObjectSkeleton *object, Led *interface_) { g_object_set (G_OBJECT (object), "led", interface_, NULL); } /** * object_skeleton_set_host_ipmi: * @object: A #ObjectSkeleton. * @interface_: (allow-none): A #HostIpmi or %NULL to clear the interface. * * Sets the #HostIpmi instance for the D-Bus interface org.openbmc.HostIpmi on @object. */ void object_skeleton_set_host_ipmi (ObjectSkeleton *object, HostIpmi *interface_) { g_object_set (G_OBJECT (object), "host-ipmi", interface_, NULL); } /* ------------------------------------------------------------------------ * Code for ObjectManager client * ------------------------------------------------------------------------ */ /** * SECTION:ObjectManagerClient * @title: ObjectManagerClient * @short_description: Generated GDBusObjectManagerClient type * * This section contains a #GDBusObjectManagerClient that uses object_manager_client_get_proxy_type() as the #GDBusProxyTypeFunc. */ /** * ObjectManagerClient: * * The #ObjectManagerClient structure contains only private data and should only be accessed using the provided API. */ /** * ObjectManagerClientClass: * @parent_class: The parent class. * * Class structure for #ObjectManagerClient. */ G_DEFINE_TYPE (ObjectManagerClient, object_manager_client, G_TYPE_DBUS_OBJECT_MANAGER_CLIENT); static void object_manager_client_init (ObjectManagerClient *manager G_GNUC_UNUSED) { } static void object_manager_client_class_init (ObjectManagerClientClass *klass G_GNUC_UNUSED) { } /** * object_manager_client_get_proxy_type: * @manager: A #GDBusObjectManagerClient. * @object_path: The object path of the remote object (unused). * @interface_name: (allow-none): Interface name of the remote object or %NULL to get the object proxy #GType. * @user_data: User data (unused). * * A #GDBusProxyTypeFunc that maps @interface_name to the generated #GDBusObjectProxy- and #GDBusProxy-derived types. * * Returns: A #GDBusProxy-derived #GType if @interface_name is not %NULL, otherwise the #GType for #ObjectProxy. */ GType object_manager_client_get_proxy_type (GDBusObjectManagerClient *manager G_GNUC_UNUSED, const gchar *object_path G_GNUC_UNUSED, const gchar *interface_name, gpointer user_data G_GNUC_UNUSED) { static gsize once_init_value = 0; static GHashTable *lookup_hash; GType ret; if (interface_name == NULL) return TYPE_OBJECT_PROXY; if (g_once_init_enter (&once_init_value)) { lookup_hash = g_hash_table_new (g_str_hash, g_str_equal); g_hash_table_insert (lookup_hash, (gpointer) "org.openbmc.Hwmon", GSIZE_TO_POINTER (TYPE_HWMON_PROXY)); g_hash_table_insert (lookup_hash, (gpointer) "org.openbmc.Fan", GSIZE_TO_POINTER (TYPE_FAN_PROXY)); g_hash_table_insert (lookup_hash, (gpointer) "org.openbmc.SensorValue", GSIZE_TO_POINTER (TYPE_SENSOR_VALUE_PROXY)); g_hash_table_insert (lookup_hash, (gpointer) "org.openbmc.SensorThreshold", GSIZE_TO_POINTER (TYPE_SENSOR_THRESHOLD_PROXY)); g_hash_table_insert (lookup_hash, (gpointer) "org.openbmc.SensorI2c", GSIZE_TO_POINTER (TYPE_SENSOR_I2C_PROXY)); g_hash_table_insert (lookup_hash, (gpointer) "org.openbmc.SensorMatch", GSIZE_TO_POINTER (TYPE_SENSOR_MATCH_PROXY)); g_hash_table_insert (lookup_hash, (gpointer) "org.openbmc.Process", GSIZE_TO_POINTER (TYPE_PROCESS_PROXY)); g_hash_table_insert (lookup_hash, (gpointer) "org.openbmc.SharedResource", GSIZE_TO_POINTER (TYPE_SHARED_RESOURCE_PROXY)); g_hash_table_insert (lookup_hash, (gpointer) "org.openbmc.Control", GSIZE_TO_POINTER (TYPE_CONTROL_PROXY)); g_hash_table_insert (lookup_hash, (gpointer) "org.openbmc.control.Bmc", GSIZE_TO_POINTER (TYPE_CONTROL_BMC_PROXY)); g_hash_table_insert (lookup_hash, (gpointer) "org.openbmc.control.Host", GSIZE_TO_POINTER (TYPE_CONTROL_HOST_PROXY)); g_hash_table_insert (lookup_hash, (gpointer) "org.openbmc.control.Power", GSIZE_TO_POINTER (TYPE_CONTROL_POWER_PROXY)); g_hash_table_insert (lookup_hash, (gpointer) "org.openbmc.control.Checkstop", GSIZE_TO_POINTER (TYPE_CONTROL_CHECKSTOP_PROXY)); g_hash_table_insert (lookup_hash, (gpointer) "org.openbmc.Watchdog", GSIZE_TO_POINTER (TYPE_WATCHDOG_PROXY)); g_hash_table_insert (lookup_hash, (gpointer) "org.openbmc.EventLog", GSIZE_TO_POINTER (TYPE_EVENT_LOG_PROXY)); g_hash_table_insert (lookup_hash, (gpointer) "org.openbmc.Flash", GSIZE_TO_POINTER (TYPE_FLASH_PROXY)); g_hash_table_insert (lookup_hash, (gpointer) "org.openbmc.FlashControl", GSIZE_TO_POINTER (TYPE_FLASH_CONTROL_PROXY)); g_hash_table_insert (lookup_hash, (gpointer) "org.openbmc.Button", GSIZE_TO_POINTER (TYPE_BUTTON_PROXY)); g_hash_table_insert (lookup_hash, (gpointer) "org.openbmc.Led", GSIZE_TO_POINTER (TYPE_LED_PROXY)); g_hash_table_insert (lookup_hash, (gpointer) "org.openbmc.HostIpmi", GSIZE_TO_POINTER (TYPE_HOST_IPMI_PROXY)); g_once_init_leave (&once_init_value, 1); } ret = (GType) GPOINTER_TO_SIZE (g_hash_table_lookup (lookup_hash, interface_name)); if (ret == (GType) 0) ret = G_TYPE_DBUS_PROXY; return ret; } /** * object_manager_client_new: * @connection: A #GDBusConnection. * @flags: Flags from the #GDBusObjectManagerClientFlags enumeration. * @name: (allow-none): A bus name (well-known or unique) or %NULL if @connection is not a message bus connection. * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied. * @user_data: User data to pass to @callback. * * Asynchronously creates #GDBusObjectManagerClient using object_manager_client_get_proxy_type() as the #GDBusProxyTypeFunc. See g_dbus_object_manager_client_new() for more details. * * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call object_manager_client_new_finish() to get the result of the operation. * * See object_manager_client_new_sync() for the synchronous, blocking version of this constructor. */ void object_manager_client_new ( GDBusConnection *connection, GDBusObjectManagerClientFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_async_initable_new_async (TYPE_OBJECT_MANAGER_CLIENT, G_PRIORITY_DEFAULT, cancellable, callback, user_data, "flags", flags, "name", name, "connection", connection, "object-path", object_path, "get-proxy-type-func", object_manager_client_get_proxy_type, NULL); } /** * object_manager_client_new_finish: * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to object_manager_client_new(). * @error: Return location for error or %NULL * * Finishes an operation started with object_manager_client_new(). * * Returns: (transfer full) (type ObjectManagerClient): The constructed object manager client or %NULL if @error is set. */ GDBusObjectManager * object_manager_client_new_finish ( GAsyncResult *res, GError **error) { GObject *ret; GObject *source_object; source_object = g_async_result_get_source_object (res); ret = g_async_initable_new_finish (G_ASYNC_INITABLE (source_object), res, error); g_object_unref (source_object); if (ret != NULL) return G_DBUS_OBJECT_MANAGER (ret); else return NULL; } /** * object_manager_client_new_sync: * @connection: A #GDBusConnection. * @flags: Flags from the #GDBusObjectManagerClientFlags enumeration. * @name: (allow-none): A bus name (well-known or unique) or %NULL if @connection is not a message bus connection. * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL * * Synchronously creates #GDBusObjectManagerClient using object_manager_client_get_proxy_type() as the #GDBusProxyTypeFunc. See g_dbus_object_manager_client_new_sync() for more details. * * The calling thread is blocked until a reply is received. * * See object_manager_client_new() for the asynchronous version of this constructor. * * Returns: (transfer full) (type ObjectManagerClient): The constructed object manager client or %NULL if @error is set. */ GDBusObjectManager * object_manager_client_new_sync ( GDBusConnection *connection, GDBusObjectManagerClientFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GError **error) { GInitable *ret; ret = g_initable_new (TYPE_OBJECT_MANAGER_CLIENT, cancellable, error, "flags", flags, "name", name, "connection", connection, "object-path", object_path, "get-proxy-type-func", object_manager_client_get_proxy_type, NULL); if (ret != NULL) return G_DBUS_OBJECT_MANAGER (ret); else return NULL; } /** * object_manager_client_new_for_bus: * @bus_type: A #GBusType. * @flags: Flags from the #GDBusObjectManagerClientFlags enumeration. * @name: A bus name (well-known or unique). * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied. * @user_data: User data to pass to @callback. * * Like object_manager_client_new() but takes a #GBusType instead of a #GDBusConnection. * * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call object_manager_client_new_for_bus_finish() to get the result of the operation. * * See object_manager_client_new_for_bus_sync() for the synchronous, blocking version of this constructor. */ void object_manager_client_new_for_bus ( GBusType bus_type, GDBusObjectManagerClientFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { g_async_initable_new_async (TYPE_OBJECT_MANAGER_CLIENT, G_PRIORITY_DEFAULT, cancellable, callback, user_data, "flags", flags, "name", name, "bus-type", bus_type, "object-path", object_path, "get-proxy-type-func", object_manager_client_get_proxy_type, NULL); } /** * object_manager_client_new_for_bus_finish: * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to object_manager_client_new_for_bus(). * @error: Return location for error or %NULL * * Finishes an operation started with object_manager_client_new_for_bus(). * * Returns: (transfer full) (type ObjectManagerClient): The constructed object manager client or %NULL if @error is set. */ GDBusObjectManager * object_manager_client_new_for_bus_finish ( GAsyncResult *res, GError **error) { GObject *ret; GObject *source_object; source_object = g_async_result_get_source_object (res); ret = g_async_initable_new_finish (G_ASYNC_INITABLE (source_object), res, error); g_object_unref (source_object); if (ret != NULL) return G_DBUS_OBJECT_MANAGER (ret); else return NULL; } /** * object_manager_client_new_for_bus_sync: * @bus_type: A #GBusType. * @flags: Flags from the #GDBusObjectManagerClientFlags enumeration. * @name: A bus name (well-known or unique). * @object_path: An object path. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL * * Like object_manager_client_new_sync() but takes a #GBusType instead of a #GDBusConnection. * * The calling thread is blocked until a reply is received. * * See object_manager_client_new_for_bus() for the asynchronous version of this constructor. * * Returns: (transfer full) (type ObjectManagerClient): The constructed object manager client or %NULL if @error is set. */ GDBusObjectManager * object_manager_client_new_for_bus_sync ( GBusType bus_type, GDBusObjectManagerClientFlags flags, const gchar *name, const gchar *object_path, GCancellable *cancellable, GError **error) { GInitable *ret; ret = g_initable_new (TYPE_OBJECT_MANAGER_CLIENT, cancellable, error, "flags", flags, "name", name, "bus-type", bus_type, "object-path", object_path, "get-proxy-type-func", object_manager_client_get_proxy_type, NULL); if (ret != NULL) return G_DBUS_OBJECT_MANAGER (ret); else return NULL; }