#include #include #include #include /* ------------------------------------------------------------------------- */ static const gchar* dbus_object_path = "/org/openbmc/buttons"; static const gchar* instance_name = "reset0"; static const gchar* dbus_name = "org.openbmc.buttons.reset"; static const int LONG_PRESS_SECONDS = 3; static GDBusObjectManagerServer *manager = NULL; //This object will use these GPIOs GPIO gpio_button = (GPIO){ "RESET_BUTTON" }; static gboolean on_is_on(Button *btn, GDBusMethodInvocation *invocation, gpointer user_data) { gboolean btn_state=button_get_state(btn); button_complete_is_on(btn,invocation,btn_state); return TRUE; } static gboolean on_button_press(Button *btn, GDBusMethodInvocation *invocation, gpointer user_data) { button_emit_pressed(btn); button_complete_sim_press(btn,invocation); return TRUE; } static gboolean on_button_interrupt( GIOChannel *channel, GIOCondition condition, gpointer user_data ) { GError *error = 0; gsize bytes_read = 0; gchar buf[2]; buf[1] = '\0'; g_io_channel_seek_position( channel, 0, G_SEEK_SET, 0 ); g_io_channel_read_chars( channel, buf, 1, &bytes_read, &error ); printf("%s\n",buf); time_t current_time = time(NULL); if(gpio_button.irq_inited) { Button* button = object_get_button((Object*)user_data); if(buf[0] == '0') { printf("reset Button pressed\n"); button_emit_pressed(button); button_set_timer(button,(long)current_time); } else { long press_time = current_time-button_get_timer(button); printf("reset Button released, held for %ld seconds\n",press_time); if(press_time > LONG_PRESS_SECONDS) { button_emit_pressed_long(button); } else { button_emit_released(button); } } } else { gpio_button.irq_inited = true; } return TRUE; } static void on_bus_acquired(GDBusConnection *connection, const gchar *name, gpointer user_data) { ObjectSkeleton *object; //g_print ("Acquired a message bus connection: %s\n",name); manager = g_dbus_object_manager_server_new(dbus_object_path); gchar *s; s = g_strdup_printf("%s/%s",dbus_object_path,instance_name); object = object_skeleton_new(s); g_free(s); Button* button = button_skeleton_new(); object_skeleton_set_button(object, button); g_object_unref(button); //define method callbacks g_signal_connect(button, "handle-is-on", G_CALLBACK(on_is_on), NULL); /* user_data */ g_signal_connect(button, "handle-sim-press", G_CALLBACK(on_button_press), NULL); /* user_data */ /* Export the object (@manager takes its own reference to @object) */ g_dbus_object_manager_server_set_connection(manager, connection); g_dbus_object_manager_server_export(manager, G_DBUS_OBJECT_SKELETON(object)); g_object_unref(object); // get gpio device paths int rc = GPIO_OK; do { rc = gpio_init(connection,&gpio_button); if(rc != GPIO_OK) { break; } rc = gpio_open_interrupt(&gpio_button,on_button_interrupt,object); if(rc != GPIO_OK) { break; } } while(0); if(rc != GPIO_OK) { printf("ERROR PowerButton: GPIO setup (rc=%d)\n",rc); } } static void on_name_acquired(GDBusConnection *connection, const gchar *name, gpointer user_data) { } static void on_name_lost(GDBusConnection *connection, const gchar *name, gpointer user_data) { } gint main(gint argc, gchar *argv[]) { GMainLoop *loop; cmdline cmd; cmd.argc = argc; cmd.argv = argv; guint id; loop = g_main_loop_new(NULL, FALSE); id = g_bus_own_name(DBUS_TYPE, dbus_name, G_BUS_NAME_OWNER_FLAGS_ALLOW_REPLACEMENT | G_BUS_NAME_OWNER_FLAGS_REPLACE, on_bus_acquired, on_name_acquired, on_name_lost, &cmd, NULL); g_main_loop_run(loop); g_bus_unown_name(id); g_main_loop_unref(loop); return 0; }