# led_control.py # # Platform-specific LED control functionality for SONiC # try: from sonic_led.led_control_base import LedControlBase import threading import os import logging import struct import time import syslog from socket import * from select import * except ImportError as e: raise ImportError(str(e) + " - required module not found") def DBG_PRINT(str): syslog.openlog("centec-led") syslog.syslog(syslog.LOG_INFO, str) syslog.closelog() class LedControl(LedControlBase): """Platform specific LED control class""" SONIC_PORT_NAME_PREFIX = "Ethernet" LED_MODE_UP = [11, 1] LED_MODE_DOWN = [7, 2] def _initSystemLed(self): try: with open(self.f_led.format("system"), 'w') as led_file: led_file.write("5") DBG_PRINT("init system led to normal") with open(self.f_led.format("idn"), 'w') as led_file: led_file.write("1") DBG_PRINT("init idn led to off") except IOError as e: DBG_PRINT(str(e)) def _initPanelLed(self): with open(self.f_led.format("port1"), 'r') as led_file: shouldInit = (int(led_file.read()) == 0) if shouldInit == True: for (port, ctlid, defmode) in self.led_mapping[1:59]: data = struct.pack('=HHHBBH', 0, 7, 4, ctlid, defmode, port) self.udpClient.sendto(data, ('localhost', 8101)) data = struct.pack('=HHHBB30B', 0, 3, 32, 30, 0, *[x[0] for x in self.led_mapping[21:51]]) self.udpClient.sendto(data, ('localhost', 8101)) data = struct.pack('=HHHBB28B', 0, 3, 30, 28, 1, *[x[0] for x in (self.led_mapping[1:21]+self.led_mapping[51:59])]) self.udpClient.sendto(data, ('localhost', 8101)) data = struct.pack('=HHHB', 0, 5, 1, 1) self.udpClient.sendto(data, ('localhost', 8101)) for idx in range(1, 55): (port, ctlid, defmode) = self.led_mapping[idx] with open(self.f_led.format("port{}".format(idx)), 'w') as led_file: led_file.write(str(defmode)) DBG_PRINT("init port{} led to mode={}".format(idx, defmode)) for idx in range(1, 55): (port, ctlid, defmode) = self.led_mapping[idx] with open(self.f_led.format("port{}".format(idx)), 'r') as led_file: defmode = int(led_file.read()) data = struct.pack('=HHHBBH', 0, 7, 4, ctlid, defmode, port) self.udpClient.sendto(data, ('localhost', 8101)) DBG_PRINT("init port{} led to mode={}".format(idx, defmode)) def _initDefaultConfig(self): DBG_PRINT("start init led") while True: try: r_sel = [self.udpClient] echo_req = struct.pack('=HHH', 0, 1, 0) self.udpClient.sendto(echo_req, ('localhost', 8101)) result = select(r_sel, [], [], 1) if self.udpClient in result[0]: echo_rsp, srv_addr = self.udpClient.recvfrom(1024) if echo_rsp: break DBG_PRINT("connect to sdk rpc server timeout, try again.") except IOError as e: DBG_PRINT(str(e)) DBG_PRINT("connect to sdk rpc server success.") self._initSystemLed() self._initPanelLed() DBG_PRINT("init led done") # Helper method to map SONiC port name to index def _port_name_to_index(self, port_name): # Strip "Ethernet" off port name if not port_name.startswith(self.SONIC_PORT_NAME_PREFIX): return -1 port_idx = int(port_name[len(self.SONIC_PORT_NAME_PREFIX):]) return port_idx def _port_state_to_mode(self, port_idx, state): if state == "up": return self.LED_MODE_UP[0] if (port_idx < 49) else self.LED_MODE_UP[1] else: return self.LED_MODE_DOWN[0] if (port_idx < 49) else self.LED_MODE_DOWN[1] def _port_led_mode_update(self, port_idx, ledMode): with open(self.f_led.format("port{}".format(port_idx)), 'w') as led_file: led_file.write(str(ledMode)) (port, ctlid) = (self.led_mapping[port_idx][0], self.led_mapping[port_idx][1]) data = struct.pack('=HHHBBH', 0, 7, 4, ctlid, ledMode, port) self.udpClient.sendto(data, ('localhost', 8101)) # Concrete implementation of port_link_state_change() method def port_link_state_change(self, portname, state): port_idx = self._port_name_to_index(portname) ledMode = self._port_state_to_mode(port_idx, state) with open(self.f_led.format("port{}".format(port_idx)), 'r') as led_file: saveMode = int(led_file.read()) if ledMode == saveMode: return self._port_led_mode_update(port_idx, ledMode) DBG_PRINT("update {} led mode from {} to {}".format(portname, saveMode, ledMode)) # Constructor def __init__(self): # [macid, ctlid, defaultmode] self.led_mapping = [(0, 0, 0)] # resv self.led_mapping.extend([(27, 1, 7), (25, 1, 7), (24, 1, 7), (22, 1, 7), (21, 1, 7), (19, 1, 7), (18, 1, 7), (16, 1, 7)]) # panel port 1~8 self.led_mapping.extend([(15, 1, 7), (13, 1, 7), (12, 1, 7), (10, 1, 7), (9, 1, 7), (8, 1, 7), (7, 1, 7), (5, 1, 7)]) # panel port 9~16 self.led_mapping.extend([(4, 1, 7), (2, 1, 7), (1, 1, 7), (0, 1, 7), (0, 0, 7), (1, 0, 7), (3, 0, 7), (2, 0, 7)]) # panel port 17~24 self.led_mapping.extend([(4, 0, 7), (5, 0, 7), (6, 0, 7), (7, 0, 7), (8, 0, 7), (9, 0, 7), (10, 0, 7), (12, 0, 7)]) # panel port 25~32 self.led_mapping.extend([(13, 0, 7), (15, 0, 7), (16, 0, 7), (18, 0, 7), (19, 0, 7), (21, 0, 7), (22, 0, 7), (24, 0, 7)]) # panel port 33~40 self.led_mapping.extend([(25, 0, 7), (27, 0, 7), (28, 0, 7), (30, 0, 7), (31, 0, 7), (33, 0, 7), (34, 0, 7), (48, 0, 7)]) # panel port 41~48 self.led_mapping.extend([(36, 0, 2), (52, 0, 2), (52, 1, 2), (36, 1, 2), (48, 1, 2), (32, 1, 2)]) # panel port 49~54 self.led_mapping.extend([(11, 1, 2), (11, 1, 2), (11, 1, 2), (11, 1, 2), (11, 1, 2), (11, 1, 2)]) self.f_led = "/sys/class/leds/{}/brightness" self.udpClient = socket(AF_INET, SOCK_DGRAM) self._initDefaultConfig()