diff --git a/sonic-ledd/scripts/ledd b/sonic-ledd/scripts/ledd index 09976c7007fd..2c55b06d5714 100644 --- a/sonic-ledd/scripts/ledd +++ b/sonic-ledd/scripts/ledd @@ -1,21 +1,20 @@ #!/usr/bin/env python -# -# ledd -# -# Front-panel LED control daemon for SONiC -# + +""" + ledd + + Front-panel LED control daemon for SONiC +""" try: - import ast import getopt import os import imp import signal import subprocess - import swsssdk import sys import syslog - import time + from swsscommon import swsscommon except ImportError, e: raise ImportError (str(e) + " - required module not found") @@ -23,6 +22,8 @@ except ImportError, e: VERSION = '1.0' +SYSLOG_IDENTIFIER = "ledd" + USAGE_HELP=""" Usage: ledd [options] @@ -31,8 +32,6 @@ Options: -v,--version Print version information and exit """ -SYSLOG_IDENTIFIER = "ledd" - LED_MODULE_NAME = "led_control" LED_CLASS_NAME = "LedControl" @@ -47,9 +46,9 @@ PLATFORM_ROOT = "/usr/share/sonic/device" # platform root directory inside docker PLATFORM_ROOT_DOCKER = "/usr/share/sonic/platform" -PORT_TABLE_PREFIX = "PORT_TABLE:" - -led_control = None +REDIS_HOSTNAME = "localhost" +REDIS_PORT = 6379 +REDIS_TIMEOUT_USECS = 0 #========================== Syslog wrappers ========================== @@ -72,17 +71,18 @@ def log_error(msg): def signal_handler(sig, frame): if sig == signal.SIGHUP: - log_info("Caught SIGHUP - ignoring...\n") + log_info("Caught SIGHUP - ignoring...") return elif sig == signal.SIGINT: - log_info("Caught SIGINT - exiting...\n") - sys.exit(0) + log_info("Caught SIGINT - exiting...") + sys.exit(128 + sig) elif sig == signal.SIGTERM: - log_info("Caught SIGTERM - exiting...\n") - sys.exit(0) + log_info("Caught SIGTERM - exiting...") + sys.exit(128 + sig) else: log_warning("Caught unhandled signal '" + sig + "'") + #============ Functions to load platform-specific classes ============ # Returns platform and HW SKU @@ -112,8 +112,6 @@ def get_platform_and_hwsku(): # Loads platform-specific LED control module from source def load_platform_led_control_module(): - global led_control - # Get platform and hwsku (platform, hwsku) = get_platform_and_hwsku() @@ -133,12 +131,13 @@ def load_platform_led_control_module(): module_file = module_file_docker else: log_info("Failed to locate platform-specific %s module." % LED_MODULE_NAME) - sys.exit(0) + return None + try: module = imp.load_source(LED_MODULE_NAME, module_file) except IOError, e: log_error("Failed to load platform module '%s': %s" % (LED_MODULE_NAME, str(e))) - return -1 + return None log_info("Loaded module '%s'." % LED_MODULE_NAME) @@ -147,11 +146,11 @@ def load_platform_led_control_module(): led_control = led_control_class() except AttributeError, e: log_error("Failed to instantiate '%s' class: %s" % (LED_CLASS_NAME, str(e))) - return -2 + return None log_info("Instantiated class '%s.%s'." % (LED_MODULE_NAME, LED_CLASS_NAME)) - return 0 + return led_control #=============================== Main ================================ @@ -166,10 +165,9 @@ def main(): # Parse options if provided if (len(sys.argv) > 1): try: - options, remainder = getopt.getopt(sys.argv[1:], - 'hv', - ['help', - 'version']) + (options, remainder) = getopt.getopt(sys.argv[1:], + 'hv', + ['help', 'version']) except getopt.GetoptError, e: print e print USAGE_HELP @@ -188,38 +186,40 @@ def main(): signal.signal(signal.SIGINT, signal_handler) signal.signal(signal.SIGTERM, signal_handler) - # Load platform-specific LedControl class - err = load_platform_led_control_module() - if err != 0: + # Load platform-specific LedControl module + led_control = load_platform_led_control_module() + if led_control is None: sys.exit(1) - # Connect to APPL_DB using SwSS SDK - swss = swsssdk.SonicV2Connector() - swss.connect(swss.APPL_DB) + # Open a handle to the Application database + appl_db = swsscommon.DBConnector(swsscommon.APPL_DB, + REDIS_HOSTNAME, + REDIS_PORT, + REDIS_TIMEOUT_USECS) - # Loop forever - while True: - # TODO: Subscribe for notifications from DB when ports come or go. Add/remove - # dictionary entries as necessary. + # Subscribe to PORT table notifications in the Application DB + sel = swsscommon.Select() + sst = swsscommon.SubscriberStateTable(appl_db, swsscommon.APP_PORT_TABLE_NAME) + sel.addSelectable(sst) - # Get a list of all ports from the database - port_table_keys = swss.keys(swss.APPL_DB, PORT_TABLE_PREFIX + '*', blocking = True); + # Listen indefinitely for changes to the PORT table in the Application DB + while True: + (state, c) = sel.select() + if state != swsscommon.Select.OBJECT: + log_warning("sel.select() did not return swsscommon.Select.OBJECT") + continue - # Create a dictionary of : containing all ports - # Initially set all statuses to 'down' - for key in port_table_keys: - # Remove table name prefix - port_name = key[len(PORT_TABLE_PREFIX):] + (key, op, fvp) = sst.pop() - # TODO: Once these flag entries have been removed from the DB, - # we can remove this check - if port_name in ["PortConfigDone", "PortInitDone"]: - continue + # TODO: Once these flag entries have been removed from the DB, + # we can remove this check + if key in ["PortConfigDone", "PortInitDone"]: + continue - status = swss.get(swss.APPL_DB, PORT_TABLE_PREFIX + port_name, 'oper_status') - led_control.port_link_state_change(key, status) + fvp_dict = dict(fvp) - time.sleep(1) + if op == "SET" and "oper_status" in fvp_dict: + led_control.port_link_state_change(key, fvp_dict["oper_status"]) if __name__ == '__main__': main()