wally/sensors_utils.py - mcp/cvp-wally - Gitiles

 import time
 import Queue
 import logging
 import threading

 from wally import utils
 from wally.config import cfg_dict
 from wally.sensors.api import (start_listener_thread,
                                deploy_and_start_sensors,
                                SensorConfig,
                                stop_and_remove_sensors)


 logger = logging.getLogger("wally")
 DEFAULT_RECEIVER_URL = "udp://{ip}:5699"


 def save_sensors_data(data_q, mon_q, fd):
     fd.write("\n")

     observed_nodes = set()

     try:
         while True:
             val = data_q.get()
             if val is None:
                 break

             addr, data = val

             if addr not in observed_nodes:
                 mon_q.put(addr + (data['source_id'],))
                 observed_nodes.add(addr)

             fd.write("{0!s} : {1!r}\n".format(time.time(),
                      repr((addr, data))))
     except Exception:
         logger.exception("Error in sensors thread")
     logger.info("Sensors thread exits")


 def get_sensors_config_for_nodes(cfg, nodes):
     monitored_nodes = []
     sensors_configs = []

     receiver_url = cfg.get("receiver_url", DEFAULT_RECEIVER_URL)
     assert '{ip}' in receiver_url

     for role, sensors_str in cfg["roles_mapping"].items():
         sensors = [sens.strip() for sens in sensors_str.split(",")]

         collect_cfg = dict((sensor, {}) for sensor in sensors)

         for node in nodes:
             if role in node.roles:

                 if node.monitor_url is not None:
                     monitor_url = node.monitor_url
                 else:
                     ip = node.get_ip()
                     if ip == '127.0.0.1':
                         ext_ip = '127.0.0.1'
                     else:
                         ext_ip = utils.get_ip_for_target(ip)
                     monitor_url = receiver_url.format(ip=ext_ip)

                 monitored_nodes.append(node)
                 sens_cfg = SensorConfig(node.connection,
                                         node.get_conn_id(),
                                         collect_cfg,
                                         source_id=node.get_conn_id(),
                                         monitor_url=monitor_url)
                 sensors_configs.append(sens_cfg)

     return monitored_nodes, sensors_configs


 def start_sensor_process_thread(ctx, cfg, sensors_configs):
     receiver_url = cfg.get('receiver_url', DEFAULT_RECEIVER_URL)
     sensors_data_q, stop_sensors_loop = \
         start_listener_thread(receiver_url.format(ip='0.0.0.0'))

     mon_q = Queue.Queue()
     fd = open(cfg_dict['sensor_storage'], "w")
     sensor_listen_th = threading.Thread(None, save_sensors_data, None,
                                         (sensors_data_q, mon_q, fd))
     sensor_listen_th.daemon = True
     sensor_listen_th.start()

     def stop_sensors_receiver(cfg, ctx):
         stop_sensors_loop()
         sensors_data_q.put(None)
         sensor_listen_th.join()

     ctx.clear_calls_stack.append(stop_sensors_receiver)
     return mon_q


 def deploy_sensors_stage(cfg, ctx, nodes=None, undeploy=True):
     if 'sensors' not in cfg:
         return

     cfg = cfg.get('sensors')

     if nodes is None:
         nodes = ctx.nodes

     monitored_nodes, sensors_configs = get_sensors_config_for_nodes(cfg,
                                                                     nodes)

     if len(monitored_nodes) == 0:
         logger.info("Nothing to monitor, no sensors would be installed")
         return

     if ctx.sensors_mon_q is None:
         logger.info("Start sensors data receiving thread")
         ctx.sensors_mon_q = start_sensor_process_thread(ctx, cfg,
                                                         sensors_configs)

     if undeploy:
         def remove_sensors_stage(cfg, ctx):
             stop_and_remove_sensors(sensors_configs)
         ctx.clear_calls_stack.append(remove_sensors_stage)

     logger.info("Deploing new sensors on {0} node(s)".format(len(nodes)))
     deploy_and_start_sensors(sensors_configs)
     wait_for_new_sensors_data(ctx, monitored_nodes)


 def wait_for_new_sensors_data(ctx, monitored_nodes):
     MAX_WAIT_FOR_SENSORS = 10
     etime = time.time() + MAX_WAIT_FOR_SENSORS

     msg = "Waiting at most {0}s till all {1} nodes starts report sensors data"
     nodes_ids = set(node.get_conn_id() for node in monitored_nodes)
     logger.debug(msg.format(MAX_WAIT_FOR_SENSORS, len(nodes_ids)))

     # wait till all nodes start sending data
     while len(nodes_ids) != 0:
         tleft = etime - time.time()
         try:
             source_id = ctx.sensors_mon_q.get(True, tleft)[2]
         except Queue.Empty:
             msg = "Node {0} not sending any sensor data in {1}s"
             msg = msg.format(", ".join(nodes_ids), MAX_WAIT_FOR_SENSORS)
             raise RuntimeError(msg)

         if source_id not in nodes_ids:
             msg = "Receive sensors from extra node: {0}".format(source_id)
             logger.warning(msg)

         nodes_ids.remove(source_id)
	import time
	import Queue
	import logging
	import threading

	from wally import utils
	from wally.config import cfg_dict
	from wally.sensors.api import (start_listener_thread,
	deploy_and_start_sensors,
	SensorConfig,
	stop_and_remove_sensors)


	logger = logging.getLogger("wally")
	DEFAULT_RECEIVER_URL = "udp://{ip}:5699"


	def save_sensors_data(data_q, mon_q, fd):
	fd.write("\n")

	observed_nodes = set()

	try:
	while True:
	val = data_q.get()
	if val is None:
	break

	addr, data = val

	if addr not in observed_nodes:
	mon_q.put(addr + (data['source_id'],))
	observed_nodes.add(addr)

	fd.write("{0!s} : {1!r}\n".format(time.time(),
	repr((addr, data))))
	except Exception:
	logger.exception("Error in sensors thread")
	logger.info("Sensors thread exits")


	def get_sensors_config_for_nodes(cfg, nodes):
	monitored_nodes = []
	sensors_configs = []

	receiver_url = cfg.get("receiver_url", DEFAULT_RECEIVER_URL)
	assert '{ip}' in receiver_url

	for role, sensors_str in cfg["roles_mapping"].items():
	sensors = [sens.strip() for sens in sensors_str.split(",")]

	collect_cfg = dict((sensor, {}) for sensor in sensors)

	for node in nodes:
	if role in node.roles:

	if node.monitor_url is not None:
	monitor_url = node.monitor_url
	else:
	ip = node.get_ip()
	if ip == '127.0.0.1':
	ext_ip = '127.0.0.1'
	else:
	ext_ip = utils.get_ip_for_target(ip)
	monitor_url = receiver_url.format(ip=ext_ip)

	monitored_nodes.append(node)
	sens_cfg = SensorConfig(node.connection,
	node.get_conn_id(),
	collect_cfg,
	source_id=node.get_conn_id(),
	monitor_url=monitor_url)
	sensors_configs.append(sens_cfg)

	return monitored_nodes, sensors_configs


	def start_sensor_process_thread(ctx, cfg, sensors_configs):
	receiver_url = cfg.get('receiver_url', DEFAULT_RECEIVER_URL)
	sensors_data_q, stop_sensors_loop = \
	start_listener_thread(receiver_url.format(ip='0.0.0.0'))

	mon_q = Queue.Queue()
	fd = open(cfg_dict['sensor_storage'], "w")
	sensor_listen_th = threading.Thread(None, save_sensors_data, None,
	(sensors_data_q, mon_q, fd))
	sensor_listen_th.daemon = True
	sensor_listen_th.start()

	def stop_sensors_receiver(cfg, ctx):
	stop_sensors_loop()
	sensors_data_q.put(None)
	sensor_listen_th.join()

	ctx.clear_calls_stack.append(stop_sensors_receiver)
	return mon_q


	def deploy_sensors_stage(cfg, ctx, nodes=None, undeploy=True):
	if 'sensors' not in cfg:
	return

	cfg = cfg.get('sensors')

	if nodes is None:
	nodes = ctx.nodes

	monitored_nodes, sensors_configs = get_sensors_config_for_nodes(cfg,
	nodes)

	if len(monitored_nodes) == 0:
	logger.info("Nothing to monitor, no sensors would be installed")
	return

	if ctx.sensors_mon_q is None:
	logger.info("Start sensors data receiving thread")
	ctx.sensors_mon_q = start_sensor_process_thread(ctx, cfg,
	sensors_configs)

	if undeploy:
	def remove_sensors_stage(cfg, ctx):
	stop_and_remove_sensors(sensors_configs)
	ctx.clear_calls_stack.append(remove_sensors_stage)

	logger.info("Deploing new sensors on {0} node(s)".format(len(nodes)))
	deploy_and_start_sensors(sensors_configs)
	wait_for_new_sensors_data(ctx, monitored_nodes)


	def wait_for_new_sensors_data(ctx, monitored_nodes):
	MAX_WAIT_FOR_SENSORS = 10
	etime = time.time() + MAX_WAIT_FOR_SENSORS

	msg = "Waiting at most {0}s till all {1} nodes starts report sensors data"
	nodes_ids = set(node.get_conn_id() for node in monitored_nodes)
	logger.debug(msg.format(MAX_WAIT_FOR_SENSORS, len(nodes_ids)))

	# wait till all nodes start sending data
	while len(nodes_ids) != 0:
	tleft = etime - time.time()
	try:
	source_id = ctx.sensors_mon_q.get(True, tleft)[2]
	except Queue.Empty:
	msg = "Node {0} not sending any sensor data in {1}s"
	msg = msg.format(", ".join(nodes_ids), MAX_WAIT_FOR_SENSORS)
	raise RuntimeError(msg)

	if source_id not in nodes_ids:
	msg = "Receive sensors from extra node: {0}".format(source_id)
	logger.warning(msg)

	nodes_ids.remove(source_id)