openstack
/
neutron-tempest-plugin
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neutron-tempest-plugin/neutron_tempest_plugin/common/utils.py

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6.6 KiB
Python
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# Copyright 2011, VMware, Inc.
# All Rights Reserved.
#
# Licensed under the Apache License, Version 2.0 (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
#
# Unless required by applicable law or agreed to in writing, 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.
#
# Borrowed from nova code base, more utilities will be added/borrowed as and
# when needed.
"""Utilities and helper functions."""
import threading
import time
try:
import urlparse
except ImportError:
from urllib import parse as urlparse
import eventlet
from tempest.lib import exceptions
SCHEMA_PORT_MAPPING = {
"http": 80,
"https": 443,
}
class classproperty(object):
def __init__(self, f):
self.func = f
def __get__(self, obj, owner):
return self.func(owner)
class WaitTimeout(Exception):
"""Default exception coming from wait_until_true() function."""
class LockWithTimer(object):
def __init__(self, threshold):
self._threshold = threshold
self.timestamp = 0
self._lock = threading.Lock()
def acquire(self):
return self._lock.acquire(False)
def release(self):
return self._lock.release()
def time_to_wait(self):
return self.timestamp - time.time() + self._threshold
def wait_until_true(predicate, timeout=60, sleep=1, exception=None):
"""Wait until callable predicate is evaluated as True
:param predicate: Callable deciding whether waiting should continue.
Best practice is to instantiate predicate with functools.partial()
:param timeout: Timeout in seconds how long should function wait.
:param sleep: Polling interval for results in seconds.
:param exception: Exception instance to raise on timeout. If None is passed
(default) then WaitTimeout exception is raised.
"""
try:
with eventlet.Timeout(timeout):
while not predicate():
eventlet.sleep(sleep)
except eventlet.Timeout:
if exception is not None:
# pylint: disable=raising-bad-type
raise exception
raise WaitTimeout("Timed out after %d seconds" % timeout)
def override_class(overriden_class, overrider_class):
"""Override class definition with a MixIn class
If overriden_class is not a subclass of overrider_class then it creates
a new class that has as bases overrider_class and overriden_class.
"""
if not issubclass(overriden_class, overrider_class):
name = overriden_class.__name__
bases = (overrider_class, overriden_class)
overriden_class = type(name, bases, {})
return overriden_class
def normalize_url(url):
"""Normalize url without port with schema default port
"""
parse_result = urlparse.urlparse(url)
(scheme, netloc, url, params, query, fragment) = parse_result
port = parse_result.port
if scheme in SCHEMA_PORT_MAPPING and not port:
netloc = netloc + ":" + str(SCHEMA_PORT_MAPPING[scheme])
return urlparse.urlunparse((scheme, netloc, url, params, query, fragment))
def kill_nc_process(ssh_client):
cmd = "killall -q nc"
try:
ssh_client.exec_command(cmd)
except exceptions.SSHExecCommandFailed:
pass
def process_is_running(ssh_client, process_name):
try:
ssh_client.exec_command("pidof %s" % process_name)
return True
except exceptions.SSHExecCommandFailed:
return False
def spawn_http_server(ssh_client, port, message):
cmd = ("(echo -e 'HTTP/1.1 200 OK\r\n'; echo '%(msg)s') "
"| sudo nc -lp %(port)d &" % {'msg': message, 'port': port})
ssh_client.exec_command(cmd)
def call_url_remote(ssh_client, url):
cmd = "curl %s --retry 3 --connect-timeout 2" % url
return ssh_client.exec_command(cmd)
class StatefulConnection:
"""Class to test connection that should remain opened
Can be used to perform some actions while the initiated connection
remain opened
"""
def __init__(self, client_ssh, server_ssh, target_ip, target_port):
self.client_ssh = client_ssh
self.server_ssh = server_ssh
self.ip = target_ip
self.port = target_port
self.connection_started = False
self.test_attempt = 0
def __enter__(self):
return self
@property
def test_str(self):
return 'attempt_{}'.format(str(self.test_attempt).zfill(3))
def _start_connection(self):
self.server_ssh.exec_command(
'echo "{}" > input.txt'.format(self.test_str))
self.server_ssh.exec_command('tail -f input.txt | nc -lp '
'{} &> output.txt &'.format(self.port))
self.client_ssh.exec_command(
'echo "{}" > input.txt'.format(self.test_str))
self.client_ssh.exec_command('tail -f input.txt | nc {} {} &>'
'output.txt &'.format(self.ip, self.port))
def _test_connection(self):
if not self.connection_started:
self._start_connection()
else:
self.server_ssh.exec_command(
'echo "{}" >> input.txt'.format(self.test_str))
self.client_ssh.exec_command(
'echo "{}" >> input.txt & sleep 1'.format(self.test_str))
try:
self.server_ssh.exec_command(
'grep {} output.txt'.format(self.test_str))
self.client_ssh.exec_command(
'grep {} output.txt'.format(self.test_str))
if not self.should_pass:
return False
else:
if not self.connection_started:
self.connection_started = True
return True
except exceptions.SSHExecCommandFailed:
if self.should_pass:
return False
else:
return True
finally:
self.test_attempt += 1
def test_connection(self, should_pass=True, timeout=10, sleep_timer=1):
self.should_pass = should_pass
wait_until_true(
self._test_connection, timeout=timeout, sleep=sleep_timer)
def __exit__(self, type, value, traceback):
self.server_ssh.exec_command('sudo killall nc || killall nc')
self.server_ssh.exec_command('sudo killall tail || killall tail')
self.client_ssh.exec_command('sudo killall nc || killall nc')
self.client_ssh.exec_command('sudo killall tail || killall tail')
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