#include #include #include #include #include #include static int led_stable_state_function(const char *, const char *); static int led_default_blink(const char *, const char *); static int read_led(const char *, const char *, void *, const size_t); static int led_custom_blink(const char *, sd_bus_message *); /* * These are control files that are present for each led under *'/sys/class/leds//' which are used to trigger action * on the respective leds by writing predefined data. */ const char *power_ctrl = "brightness"; const char *blink_ctrl = "trigger"; const char *duty_on = "delay_on"; const char *duty_off = "delay_off"; /* * -------------------------------------------------- * Given the dbus path, returns the name of the LED * -------------------------------------------------- */ char * get_led_name(const char *dbus_path) { char *led_name = NULL; /* Get the led name from /org/openbmc/control/led/ */ led_name = strrchr(dbus_path, '/'); if(led_name) { led_name++; } return led_name; } /* * ------------------------------------------------------------------------- * Writes the 'on / off / blink' trigger to leds. * ------------------------------------------------------------------------- */ int write_to_led(const char *name, const char *ctrl_file, const char *value) { /* Generic error reporter. */ int rc = -1; /* To get /sys/class/leds// */ char led_path[128] = {0}; int len = 0; len = snprintf(led_path, sizeof(led_path), "/sys/class/leds/%s/%s",name, ctrl_file); if(len >= sizeof(led_path)) { fprintf(stderr, "Error. LED path is too long. :[%d]\n",len); return rc; } FILE *fp = fopen(led_path,"w"); if(fp == NULL) { fprintf(stderr,"Error:[%s] opening:[%s]\n",strerror(errno),led_path); return rc; } rc = fwrite(value, strlen(value), 1, fp); if(rc != 1) { fprintf(stderr, "Error:[%s] writing to :[%s]\n",strerror(errno),led_path); } fclose(fp); /* When we get here, rc would be what it was from writing to the file */ return (rc == 1) ? 0 : -1; } /* * ---------------------------------------------------------------- * Router function for any LED operations that come via dbus *---------------------------------------------------------------- */ static int led_function_router(sd_bus_message *msg, void *user_data, sd_bus_error *ret_error) { /* Generic error reporter. */ int rc = -1; /* Extract the led name from the full dbus path */ const char *led_path = sd_bus_message_get_path(msg); if(led_path == NULL) { fprintf(stderr, "Error. LED path is empty"); return sd_bus_reply_method_return(msg, "i", rc); } char *led_name = get_led_name(led_path); if(led_name == NULL) { fprintf(stderr, "Invalid LED name for path :[%s]\n",led_path); return sd_bus_reply_method_return(msg, "i", rc); } /* Now that we have the LED name, get the Operation. */ const char *led_function = sd_bus_message_get_member(msg); if(led_function == NULL) { fprintf(stderr, "Null LED function specified for : [%s]\n",led_name); return sd_bus_reply_method_return(msg, "i", rc); } /* Route the user action to appropriate handlers. */ if( (strcmp(led_function, "setOn") == 0) || (strcmp(led_function, "setOff") == 0)) { rc = led_stable_state_function(led_name, led_function); return sd_bus_reply_method_return(msg, "i", rc); } else if( (strcmp(led_function, "setBlinkFast") == 0) || (strcmp(led_function, "setBlinkSlow") == 0)) { rc = led_default_blink(led_name, led_function); return sd_bus_reply_method_return(msg, "i", rc); } else if(strcmp(led_function, "BlinkCustom") == 0) { rc = led_custom_blink(led_name, msg); return sd_bus_reply_method_return(msg, "i", rc); } else if(strcmp(led_function, "GetLedState") == 0) { char value_str[10] = {0}; const char *led_state = NULL; rc = read_led(led_name, power_ctrl, value_str, sizeof(value_str)-1); if(rc >= 0) { /* LED is active HI */ led_state = strtoul(value_str, NULL, 0) ? "On" : "Off"; } return sd_bus_reply_method_return(msg, "is", rc, led_state); } else { fprintf(stderr,"Invalid LED function:[%s]\n",led_function); } return sd_bus_reply_method_return(msg, "i", rc); } /* * -------------------------------------------------------------- * Turn On or Turn Off the LED * -------------------------------------------------------------- */ static int led_stable_state_function(const char *led_name, const char *led_function) { /* Generic error reporter. */ int rc = -1; const char *value = NULL; if(strcmp(led_function, "setOff") == 0) { /* LED active low */ value = "0"; } else if(strcmp(led_function, "setOn") == 0) { value = "255"; } else { fprintf(stderr,"Invalid LED stable state operation:[%s] \n",led_function); return rc; } /* * Before doing anything, need to turn off the blinking * if there is one in progress by writing 'none' to trigger */ rc = write_to_led(led_name, blink_ctrl, "none"); if(rc < 0) { fprintf(stderr,"Error disabling blink. Function:[%s]\n", led_function); return rc; } /* * Open the brightness file and write corresponding values. */ rc = write_to_led(led_name, power_ctrl, value); if(rc < 0) { fprintf(stderr,"Error driving LED. Function:[%s]\n", led_function); } return rc; } //----------------------------------------------------------------------------------- // Given the on and off duration, applies the action on the specified LED. //----------------------------------------------------------------------------------- int blink_led(const char *led_name, const char *on_duration, const char *off_duration) { /* Generic error reporter */ int rc = -1; /* Protocol demands that 'timer' be echoed to 'trigger' */ rc = write_to_led(led_name, blink_ctrl, "timer"); if(rc < 0) { fprintf(stderr,"Error writing timer to Led:[%s]\n", led_name); return rc; } /* * After writing 'timer to 'trigger', 2 new files get generated namely *'delay_on' and 'delay_off' which are telling the time duration for a * particular LED on and off. */ rc = write_to_led(led_name, duty_on, on_duration); if(rc < 0) { fprintf(stderr,"Error writing [%s] to delay_on:[%s]\n",on_duration,led_name); return rc; } rc = write_to_led(led_name, duty_off, off_duration); if(rc < 0) { fprintf(stderr,"Error writing [%s] to delay_off:[%s]\n",off_duration,led_name); } return rc; } /* * ---------------------------------------------------- * Default blink action on the LED. * ---------------------------------------------------- */ static int led_default_blink(const char *led_name, const char *blink_type) { /* Generic error reporter */ int rc = -1; /* How long the LED needs to be in on and off state while blinking */ const char *on_duration = NULL; const char *off_duration = NULL; if(strcmp(blink_type, "setBlinkSlow") == 0) { //*Delay 900 millisec before 'on' and delay 900 millisec before off */ on_duration = "900"; off_duration = "900"; } else if(strcmp(blink_type, "setBlinkFast") == 0) { /* Delay 200 millisec before 'on' and delay 200 millisec before off */ on_duration = "200"; off_duration = "200"; } else { fprintf(stderr,"Invalid blink operation:[%s]\n",blink_type); return rc; } rc = blink_led(led_name, on_duration, off_duration); return rc; } /* * ------------------------------------------------- * Blinks at user defined 'on' and 'off' intervals. * ------------------------------------------------- */ static int led_custom_blink(const char *led_name, sd_bus_message *msg) { /* Generic error reporter. */ int rc = -1; int led_len = 0; /* User supplied 'on' and 'off' duration converted into string */ char on_duration[32] = {0}; char off_duration[32] = {0}; /* User supplied 'on' and 'off' duration */ uint32_t user_input_on = 0; uint32_t user_input_off = 0; /* Extract values into 'ss' ( string, string) */ rc = sd_bus_message_read(msg, "uu", &user_input_on, &user_input_off); if(rc < 0) { fprintf(stderr, "Failed to read 'on' and 'off' duration.[%s]\n", strerror(-rc)); } else { /* * Converting user supplied integer arguments into string as required by * sys interface. The top level REST will make sure that an error is * thrown right away on invalid inputs. However, REST is allowing the * unsigned decimal and floating numbers but when its received here, its * received as decimal so no input validation needed. */ led_len = snprintf(on_duration, sizeof(on_duration), "%d",user_input_on); if(led_len >= sizeof(on_duration)) { fprintf(stderr, "Error. Blink ON duration is too long. :[%d]\n",led_len); return rc; } led_len = snprintf(off_duration, sizeof(off_duration), "%d",user_input_off); if(led_len >= sizeof(off_duration)) { fprintf(stderr, "Error. Blink OFF duration is too long. :[%d]\n",led_len); return rc; } /* We are good here.*/ rc = blink_led(led_name, on_duration, off_duration); } return rc; } /* * --------------------------------------------------------------- * Gets the current value of passed in LED file * Mainly used for reading 'brightness' * NOTE : It is the responsibility of the caller to allocate * sufficient space for buffer. This will read up to user supplied * size -or- entire contents of file whichever is smaller * ---------------------------------------------------------------- */ static int read_led(const char *name, const char *ctrl_file, void *value, const size_t len) { /* Generic error reporter. */ int rc = -1; int count = 0; if(value == NULL || len <= 0) { fprintf(stderr, "Invalid buffer passed to LED read\n"); return rc; } /* To get /sys/class/leds// */ char led_path[128] = {0}; int led_len = 0; led_len = snprintf(led_path, sizeof(led_path), "/sys/class/leds/%s/%s",name, ctrl_file); if(led_len >= sizeof(led_path)) { fprintf(stderr, "Error. LED path is too long. :[%d]\n",led_len); return rc; } FILE *fp = fopen(led_path,"rb"); if(fp == NULL) { fprintf(stderr,"Error:[%s] opening:[%s]\n",strerror(errno),led_path); return rc; } char *sysfs_value = (char *)value; while(!feof(fp) && (count < len)) { sysfs_value[count++] = fgetc(fp); } fclose(fp); return 0; } /* * ----------------------------------------------- * Dbus Services offered by this LED controller * ----------------------------------------------- */ static const sd_bus_vtable led_control_vtable[] = { SD_BUS_VTABLE_START(0), SD_BUS_METHOD("setOn", "", "i", &led_function_router, SD_BUS_VTABLE_UNPRIVILEGED), SD_BUS_METHOD("setOff", "", "i", &led_function_router, SD_BUS_VTABLE_UNPRIVILEGED), SD_BUS_METHOD("setBlinkFast", "", "i", &led_function_router, SD_BUS_VTABLE_UNPRIVILEGED), SD_BUS_METHOD("setBlinkSlow", "", "i", &led_function_router, SD_BUS_VTABLE_UNPRIVILEGED), SD_BUS_METHOD("GetLedState", "", "is", &led_function_router, SD_BUS_VTABLE_UNPRIVILEGED), SD_BUS_METHOD("BlinkCustom", "uu", "i", &led_function_router, SD_BUS_VTABLE_UNPRIVILEGED), SD_BUS_VTABLE_END, }; /* * --------------------------------------------- * Interested in all files except standard ones * --------------------------------------------- */ int led_select(const struct dirent *entry) { if( (strcmp(entry->d_name, ".") == 0) || (strcmp(entry->d_name, "..") == 0)) { return 0; } return 1; } /* * ------------------------------------------------ * Called as part of setting up skeleton services. * ----------------------------------------------- */ int start_led_services() { static const char *led_dbus_root = "/org/openbmc/control/led"; /* Generic error reporter. */ int rc = -1; int num_leds = 0; int count_leds = 0; /* Bus and slot where we are offering the LED dbus service. */ sd_bus *bus_type = NULL; sd_bus_slot *led_slot = NULL; /* For walking '/sys/class/leds/' looking for names of LED.*/ struct dirent **led_list; /* Get a hook onto system bus. */ rc = sd_bus_open_system(&bus_type); if(rc < 0) { fprintf(stderr,"Error opening system bus.\n"); return rc; } count_leds = num_leds = scandir("/sys/class/leds/", &led_list, led_select, alphasort); if(num_leds <= 0) { fprintf(stderr,"No LEDs present in the system\n"); sd_bus_slot_unref(led_slot); sd_bus_unref(bus_type); return rc; } /* Install a freedesktop object manager */ rc = sd_bus_add_object_manager(bus_type, NULL, led_dbus_root); if(rc < 0) { fprintf(stderr, "Failed to add object to dbus: %s\n", strerror(-rc)); sd_bus_slot_unref(led_slot); sd_bus_unref(bus_type); return rc; } /* Fully qualified Dbus object for a particular LED */ char led_object[128] = {0}; int len = 0; /* For each led present, announce the service on dbus. */ while(num_leds--) { memset(led_object, 0x0, sizeof(led_object)); len = snprintf(led_object, sizeof(led_object), "%s%s%s", led_dbus_root, "/", led_list[num_leds]->d_name); if(len >= sizeof(led_object)) { fprintf(stderr, "Error. LED object is too long:[%d]\n",len); rc = -1; break; } /* Install the object */ rc = sd_bus_add_object_vtable(bus_type, &led_slot, led_object, /* object path */ "org.openbmc.Led", /* interface name */ led_control_vtable, NULL); if(rc < 0) { fprintf(stderr, "Failed to add object to dbus: %s\n", strerror(-rc)); break; } rc = sd_bus_emit_object_added(bus_type, led_object); if(rc < 0) { fprintf(stderr, "Failed to emit InterfacesAdded " "signal: %s\n", strerror(-rc)); break; } } /* Done with all registration. */ while(count_leds > 0) { free(led_list[--count_leds]); } free(led_list); /* If we had success in adding the providers, request for a bus name. */ if(rc >= 0) { /* Take one in OpenBmc */ rc = sd_bus_request_name(bus_type, "org.openbmc.control.led", 0); if(rc < 0) { fprintf(stderr, "Failed to acquire service name: %s\n", strerror(-rc)); } else { for(;;) { /* Process requests */ rc = sd_bus_process(bus_type, NULL); if(rc < 0) { fprintf(stderr, "Failed to process bus: %s\n", strerror(-rc)); break; } if(rc > 0) { continue; } rc = sd_bus_wait(bus_type, (uint64_t) - 1); if(rc < 0) { fprintf(stderr, "Failed to wait on bus: %s\n", strerror(-rc)); break; } } } } sd_bus_slot_unref(led_slot); sd_bus_unref(bus_type); return rc; } int main(void) { int rc = 0; /* This call is not supposed to return. If it does, then an error */ rc = start_led_services(); if(rc < 0) { fprintf(stderr, "Error starting LED Services. Exiting"); } return rc; }