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##############################################################################
# Copyright 2018 EuropeanSoftwareMarketingLtd.
# ===================================================================
# Licensed under the ApacheLicense, Version2.0 (the"License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
# http://www.apache.org/licenses/LICENSE-2.0
#
# software distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and limitations under
# the License
##############################################################################
# vnftest comment: this is a modified copy of
# rally/rally/benchmark/runners/base.py
from __future__ import absolute_import
import importlib
import logging
import multiprocessing
import subprocess
import time
import traceback
from Queue import Empty
import vnftest.common.utils as utils
from vnftest.steps import base as base_step
from vnftest.onap.onap_api_call import OnapApiCall
log = logging.getLogger(__name__)
def _execute_shell_command(command):
"""execute shell script with error handling"""
exitcode = 0
try:
output = subprocess.check_output(command, shell=True)
except Exception:
exitcode = -1
output = traceback.format_exc()
log.error("exec command '%s' error:\n ", command)
log.error(traceback.format_exc())
return exitcode, output
def _single_action(seconds, command, queue):
"""entrypoint for the single action process"""
log.debug("single action, fires after %d seconds (from now)", seconds)
time.sleep(seconds)
log.debug("single action: executing command: '%s'", command)
ret_code, data = _execute_shell_command(command)
if ret_code < 0:
log.error("single action error! command:%s", command)
queue.put({'single-action-data': data})
return
log.debug("single action data: \n%s", data)
queue.put({'single-action-data': data})
def _periodic_action(interval, command, queue):
"""entrypoint for the periodic action process"""
log.debug("periodic action, fires every: %d seconds", interval)
time_spent = 0
while True:
time.sleep(interval)
time_spent += interval
log.debug("periodic action, executing command: '%s'", command)
ret_code, data = _execute_shell_command(command)
if ret_code < 0:
log.error("periodic action error! command:%s", command)
queue.put({'periodic-action-data': data})
break
log.debug("periodic action data: \n%s", data)
queue.put({'periodic-action-data': data})
class Runner(object):
runners = []
@staticmethod
def get_cls(runner_type):
"""return class of specified type"""
for runner in utils.itersubclasses(Runner):
if runner_type == runner.__execution_type__:
return runner
raise RuntimeError("No such runner_type %s" % runner_type)
@staticmethod
def get_types():
"""return a list of known runner type (class) names"""
types = []
for runner in utils.itersubclasses(Runner):
types.append(runner)
return types
@staticmethod
def get(runner_cfg):
"""Returns instance of a step runner for execution type.
"""
return Runner.get_cls(runner_cfg["type"])(runner_cfg)
@staticmethod
def release(runner):
"""Release the runner"""
if runner in Runner.runners:
Runner.runners.remove(runner)
@staticmethod
def terminate(runner):
"""Terminate the runner"""
if runner.process and runner.process.is_alive():
runner.process.terminate()
@staticmethod
def terminate_all():
"""Terminate all runners (subprocesses)"""
log.debug("Terminating all runners", exc_info=True)
# release dumper process as some errors before any runner is created
if not Runner.runners:
return
for runner in Runner.runners:
log.debug("Terminating runner: %s", runner)
if runner.process:
runner.process.terminate()
runner.process.join()
if runner.periodic_action_process:
log.debug("Terminating periodic action process")
runner.periodic_action_process.terminate()
runner.periodic_action_process = None
Runner.release(runner)
def __init__(self, config):
self.config = config
self.periodic_action_process = None
self.output_queue = multiprocessing.Queue()
self.result_queue = multiprocessing.Queue()
self.process = None
self.aborted = multiprocessing.Event()
Runner.runners.append(self)
def run_post_stop_action(self):
"""run a potentially configured post-stop action"""
if "post-stop-action" in self.config:
command = self.config["post-stop-action"]["command"]
log.debug("post stop action: command: '%s'", command)
ret_code, data = _execute_shell_command(command)
if ret_code < 0:
log.error("post action error! command:%s", command)
self.result_queue.put({'post-stop-action-data': data})
return
log.debug("post-stop data: \n%s", data)
self.result_queue.put({'post-stop-action-data': data})
def _run_step(self, cls, method_name, step_cfg, context_cfg, input_params):
raise NotImplementedError
def run(self, step_cfg, context_cfg, input_params):
step_type = step_cfg["type"]
class_name = base_step.Step.get(step_type)
path_split = class_name.split(".")
module_path = ".".join(path_split[:-1])
module = importlib.import_module(module_path)
cls = getattr(module, path_split[-1])
self.config['object'] = class_name
self.aborted.clear()
# run a potentially configured pre-start action
if "pre-start-action" in self.config:
command = self.config["pre-start-action"]["command"]
log.debug("pre start action: command: '%s'", command)
ret_code, data = _execute_shell_command(command)
if ret_code < 0:
log.error("pre-start action error! command:%s", command)
self.result_queue.put({'pre-start-action-data': data})
return
log.debug("pre-start data: \n%s", data)
self.result_queue.put({'pre-start-action-data': data})
if "single-shot-action" in self.config:
single_action_process = multiprocessing.Process(
target=_single_action,
name="single-shot-action",
args=(self.config["single-shot-action"]["after"],
self.config["single-shot-action"]["command"],
self.result_queue))
single_action_process.start()
if "periodic-action" in self.config:
self.periodic_action_process = multiprocessing.Process(
target=_periodic_action,
name="periodic-action",
args=(self.config["periodic-action"]["interval"],
self.config["periodic-action"]["command"],
self.result_queue))
self.periodic_action_process.start()
self._run_step(cls, "run", step_cfg, context_cfg, input_params)
def abort(self):
"""Abort the execution of a step"""
self.aborted.set()
QUEUE_JOIN_INTERVAL = 5
def poll(self, timeout=QUEUE_JOIN_INTERVAL):
self.process.join(timeout)
return self.process.exitcode
def join(self, outputs, result, interval=QUEUE_JOIN_INTERVAL):
while self.process.exitcode is None:
# drain the queue while we are running otherwise we won't terminate
outputs.update(self.get_output())
result.extend(self.get_result())
self.process.join(interval)
# drain after the process has exited
outputs.update(self.get_output())
result.extend(self.get_result())
self.process.terminate()
if self.periodic_action_process:
self.periodic_action_process.join(1)
self.periodic_action_process.terminate()
self.periodic_action_process = None
self.run_post_stop_action()
return self.process.exitcode
def get_output(self):
result = {}
while not self.output_queue.empty():
log.debug("output_queue size %s", self.output_queue.qsize())
try:
result.update(self.output_queue.get(True, 1))
except Empty:
pass
return result
def get_result(self):
result = []
while not self.result_queue.empty():
log.debug("result_queue size %s", self.result_queue.qsize())
try:
result.append(self.result_queue.get(True, 1))
except Empty:
pass
return result
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