import logging
from multiprocessing import Queue, Value, Process
-
import os
import posixpath
import re
-import six
+import uuid
import subprocess
import time
+import six
+
from trex_stl_lib.trex_stl_client import LoggerApi
from trex_stl_lib.trex_stl_client import STLClient
from trex_stl_lib.trex_stl_exceptions import STLError
time.sleep(self.QUEUE_WAIT_TIME)
self._queue.put(samples)
- def run_traffic(self, traffic_profile):
+ def run_traffic(self, traffic_profile, mq_producer):
# if we don't do this we can hang waiting for the queue to drain
# have to do this in the subprocess
self._queue.cancel_join_thread()
# fixme: fix passing correct trex config file,
# instead of searching the default path
+ mq_producer.tg_method_started()
try:
self._build_ports()
self.client = self._connect()
self.client.remove_all_streams(self.all_ports) # remove all streams
traffic_profile.register_generator(self)
+ iteration_index = 0
while self._terminated.value == 0:
+ iteration_index += 1
self._run_traffic_once(traffic_profile)
+ mq_producer.tg_method_iteration(iteration_index)
self.client.stop(self.all_ports)
self.client.disconnect()
return # return if trex/tg server is stopped.
raise
+ mq_producer.tg_method_finished()
+
def terminate(self):
self._terminated.value = 1 # stop client
test_timeout = self.options.get('timeout', constants.DEFAULT_VNF_TIMEOUT)
return test_duration if test_duration > test_timeout else test_timeout
+
class SampleVNF(GenericVNF):
""" Class providing file-like API for generic VNF implementation """
APP_NAME = "SampleVNF"
# we run the VNF interactively, so the ssh command will timeout after this long
- def __init__(self, name, vnfd, setup_env_helper_type=None, resource_helper_type=None):
- super(SampleVNF, self).__init__(name, vnfd)
+ def __init__(self, name, vnfd, task_id, setup_env_helper_type=None,
+ resource_helper_type=None):
+ super(SampleVNF, self).__init__(name, vnfd, task_id)
self.bin_path = get_nsb_option('bin_path', '')
self.scenario_helper = ScenarioHelper(self.name)
APP_NAME = 'Sample'
RUN_WAIT = 1
- def __init__(self, name, vnfd, setup_env_helper_type=None, resource_helper_type=None):
- super(SampleVNFTrafficGen, self).__init__(name, vnfd)
+ def __init__(self, name, vnfd, task_id, setup_env_helper_type=None,
+ resource_helper_type=None):
+ super(SampleVNFTrafficGen, self).__init__(name, vnfd, task_id)
self.bin_path = get_nsb_option('bin_path', '')
self.scenario_helper = ScenarioHelper(self.name)
LOG.info("%s TG Server is up and running.", self.APP_NAME)
return self._tg_process.exitcode
- def _traffic_runner(self, traffic_profile):
+ def _traffic_runner(self, traffic_profile, mq_id):
# always drop connections first thing in new processes
# so we don't get paramiko errors
self.ssh_helper.drop_connection()
LOG.info("Starting %s client...", self.APP_NAME)
- self.resource_helper.run_traffic(traffic_profile)
+ self._mq_producer = self._setup_mq_producer(mq_id)
+ self.resource_helper.run_traffic(traffic_profile, self._mq_producer)
def run_traffic(self, traffic_profile):
""" Generate traffic on the wire according to the given params.
:param traffic_profile:
:return: True/False
"""
- name = "{}-{}-{}-{}".format(self.name, self.APP_NAME, traffic_profile.__class__.__name__,
+ name = '{}-{}-{}-{}'.format(self.name, self.APP_NAME,
+ traffic_profile.__class__.__name__,
os.getpid())
- self._traffic_process = Process(name=name, target=self._traffic_runner,
- args=(traffic_profile,))
+ self._traffic_process = Process(
+ name=name, target=self._traffic_runner,
+ args=(traffic_profile, uuid.uuid1().int))
self._traffic_process.start()
# Wait for traffic process to start
while self.resource_helper.client_started.value == 0:
if not self._traffic_process.is_alive():
break
- return self._traffic_process.is_alive()
-
def collect_kpi(self):
# check if the tg processes have exited
physical_node = Context.get_physical_node_from_server(