vmware-nsx/vmware_nsx/api_client/eventlet_client.py
Shih-Hao Li d8eeda9baf Move vmware_nsx/neutron/plugins/vmware to vmware_nsx
This is part of new vmware_nsx directory structure proposed in
https://goo.gl/GdWXyH.

Change-Id: I60d6ef62eb724df71dfda90137e00f107e220971
2015-09-14 18:51:57 -07:00

157 lines
6.4 KiB
Python

# Copyright 2012 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.
#
import time
import eventlet
eventlet.monkey_patch()
from oslo_log import log as logging
from neutron.i18n import _LE
from vmware_nsx.api_client import base
from vmware_nsx.api_client import eventlet_request
LOG = logging.getLogger(__name__)
class EventletApiClient(base.ApiClientBase):
"""Eventlet-based implementation of NSX ApiClient ABC."""
def __init__(self, api_providers, user, password,
concurrent_connections=base.DEFAULT_CONCURRENT_CONNECTIONS,
gen_timeout=base.GENERATION_ID_TIMEOUT,
use_https=True,
connect_timeout=base.DEFAULT_CONNECT_TIMEOUT):
'''Constructor
:param api_providers: a list of tuples of the form: (host, port,
is_ssl).
:param user: login username.
:param password: login password.
:param concurrent_connections: total number of concurrent connections.
:param use_https: whether or not to use https for requests.
:param connect_timeout: connection timeout in seconds.
:param gen_timeout controls how long the generation id is kept
if set to -1 the generation id is never timed out
'''
if not api_providers:
api_providers = []
self._api_providers = set([tuple(p) for p in api_providers])
self._api_provider_data = {} # tuple(semaphore, session_cookie)
for p in self._api_providers:
self._set_provider_data(p, (eventlet.semaphore.Semaphore(1), None))
self._user = user
self._password = password
self._concurrent_connections = concurrent_connections
self._use_https = use_https
self._connect_timeout = connect_timeout
self._config_gen = None
self._config_gen_ts = None
self._gen_timeout = gen_timeout
# Connection pool is a list of queues.
self._conn_pool = eventlet.queue.PriorityQueue()
self._next_conn_priority = 1
for _ in range(concurrent_connections):
for host, port, is_ssl in api_providers:
conn = self._create_connection(host, port, is_ssl)
self._conn_pool.put((self._next_conn_priority, conn))
self._next_conn_priority += 1
def acquire_redirect_connection(self, conn_params, auto_login=True,
headers=None):
"""Check out or create connection to redirected NSX API server.
Args:
conn_params: tuple specifying target of redirect, see
self._conn_params()
auto_login: returned connection should have valid session cookie
headers: headers to pass on if auto_login
Returns: An available HTTPConnection instance corresponding to the
specified conn_params. If a connection did not previously
exist, new connections are created with the highest prioity
in the connection pool and one of these new connections
returned.
"""
result_conn = None
data = self._get_provider_data(conn_params)
if data:
# redirect target already exists in provider data and connections
# to the provider have been added to the connection pool. Try to
# obtain a connection from the pool, note that it's possible that
# all connection to the provider are currently in use.
conns = []
while not self._conn_pool.empty():
priority, conn = self._conn_pool.get_nowait()
if not result_conn and self._conn_params(conn) == conn_params:
conn.priority = priority
result_conn = conn
else:
conns.append((priority, conn))
for priority, conn in conns:
self._conn_pool.put((priority, conn))
# hack: if no free connections available, create new connection
# and stash "no_release" attribute (so that we only exceed
# self._concurrent_connections temporarily)
if not result_conn:
conn = self._create_connection(*conn_params)
conn.priority = 0 # redirect connections have highest priority
conn.no_release = True
result_conn = conn
else:
#redirect target not already known, setup provider lists
self._api_providers.update([conn_params])
self._set_provider_data(conn_params,
(eventlet.semaphore.Semaphore(1), None))
# redirects occur during cluster upgrades, i.e. results to old
# redirects to new, so give redirect targets highest priority
priority = 0
for i in range(self._concurrent_connections):
conn = self._create_connection(*conn_params)
conn.priority = priority
if i == self._concurrent_connections - 1:
break
self._conn_pool.put((priority, conn))
result_conn = conn
if result_conn:
result_conn.last_used = time.time()
if auto_login and self.auth_cookie(conn) is None:
self._wait_for_login(result_conn, headers)
return result_conn
def _login(self, conn=None, headers=None):
'''Issue login request and update authentication cookie.'''
cookie = None
g = eventlet_request.LoginRequestEventlet(
self, self._user, self._password, conn, headers)
g.start()
ret = g.join()
if ret:
if isinstance(ret, Exception):
LOG.error(_LE('Login error "%s"'), ret)
raise ret
cookie = ret.getheader("Set-Cookie")
if cookie:
LOG.debug("Saving new authentication cookie '%s'", cookie)
return cookie
# Register as subclass.
base.ApiClientBase.register(EventletApiClient)