# Copyright 2014, Red Hat, Inc. # # 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. """ A thread that performs all messaging I/O and protocol event handling. This module provides a background thread that handles messaging operations scheduled via the Controller, and performs blocking socket I/O and timer processing. This thread is designed to be as simple as possible - all the protocol specific intelligence is provided by the Controller and executed on the background thread via callables. """ import errno import heapq import logging import os import select import socket import sys import threading import time import uuid import pyngus from six import moves from oslo_messaging._i18n import _LE, _LI, _LW LOG = logging.getLogger(__name__) class _SocketConnection(object): """Associates a pyngus Connection with a python network socket, and handles all connection-related I/O and timer events. """ def __init__(self, name, container, properties, handler): self.name = name self.socket = None self._properties = properties or {} self._properties["properties"] = self._get_name_and_pid() # The handler is a pyngus ConnectionEventHandler, which is invoked by # pyngus on connection-related events (active, closed, error, etc). # Currently it is the Controller object. self._handler = handler self._container = container self.connection = None def _get_name_and_pid(self): # helps identify the process that is using the connection return {u'process': os.path.basename(sys.argv[0]), u'pid': os.getpid()} def fileno(self): """Allows use of a _SocketConnection in a select() call. """ return self.socket.fileno() def read(self): """Called when socket is read-ready.""" while True: try: rc = pyngus.read_socket_input(self.connection, self.socket) self.connection.process(time.time()) return rc except (socket.timeout, socket.error) as e: # pyngus handles EAGAIN/EWOULDBLOCK and EINTER self.connection.close_input() self.connection.close_output() self._handler.socket_error(str(e)) return pyngus.Connection.EOS def write(self): """Called when socket is write-ready.""" while True: try: rc = pyngus.write_socket_output(self.connection, self.socket) self.connection.process(time.time()) return rc except (socket.timeout, socket.error) as e: # pyngus handles EAGAIN/EWOULDBLOCK and EINTER self.connection.close_output() self.connection.close_input() self._handler.socket_error(str(e)) return pyngus.Connection.EOS def connect(self, host): """Connect to host and start the AMQP protocol.""" addr = socket.getaddrinfo(host.hostname, host.port, socket.AF_INET, socket.SOCK_STREAM) if not addr: key = "%s:%i" % (host.hostname, host.port) error = "Invalid peer address '%s'" % key LOG.error(_LE("Invalid peer address '%s'"), key) self._handler.socket_error(error) return my_socket = socket.socket(addr[0][0], addr[0][1], addr[0][2]) my_socket.setblocking(0) # 0=non-blocking my_socket.setsockopt(socket.IPPROTO_TCP, socket.TCP_NODELAY, 1) try: my_socket.connect(addr[0][4]) except socket.error as e: if e.errno != errno.EINPROGRESS: error = "Socket connect failure '%s'" % str(e) LOG.error(_LE("Socket connect failure '%s'"), str(e)) self._handler.socket_error(error) return self.socket = my_socket props = self._properties.copy() if pyngus.VERSION >= (2, 0, 0): # configure client authentication # props['x-server'] = False if host.username: props['x-username'] = host.username props['x-password'] = host.password or "" c = self._container.create_connection(self.name, self._handler, props) c.user_context = self self.connection = c if pyngus.VERSION < (2, 0, 0): # older versions of pyngus requires manual SASL configuration: # determine the proper SASL mechanism: PLAIN if a username/password # is present, else ANONYMOUS pn_sasl = self.connection.pn_sasl if host.username: password = host.password if host.password else "" pn_sasl.plain(host.username, password) else: pn_sasl.mechanisms("ANONYMOUS") # TODO(kgiusti): server if accepting inbound connections pn_sasl.client() self.connection.open() def reset(self, name=None): """Clean up the current state, expect 'connect()' to be recalled later. """ # note well: since destroy() is called on the connection, do not invoke # this method from a pyngus callback! if self.connection: self.connection.destroy() self.connection = None self.close() if name: self.name = name def close(self): if self.socket: self.socket.close() self.socket = None class Schedule(object): """A list of callables (requests). Each callable may have a delay (in milliseconds) which causes the callable to be scheduled to run after the delay passes. """ def __init__(self): self._entries = [] def schedule(self, request, delay): """Request a callable be executed after delay.""" entry = (time.time() + delay, request) heapq.heappush(self._entries, entry) def get_delay(self, max_delay=None): """Get the delay in milliseconds until the next callable needs to be run, or 'max_delay' if no outstanding callables or the delay to the next callable is > 'max_delay'. """ due = self._entries[0][0] if self._entries else None if due is None: return max_delay now = time.time() if due < now: return 0 else: return min(due - now, max_delay) if max_delay else due - now def process(self): """Invoke all expired callables.""" while self._entries and self._entries[0][0] < time.time(): heapq.heappop(self._entries)[1]() class Requests(object): """A queue of callables to execute from the eventloop thread's main loop. """ def __init__(self): self._requests = moves.queue.Queue(maxsize=10) self._wakeup_pipe = os.pipe() def wakeup(self, request=None): """Enqueue a callable to be executed by the eventloop, and force the eventloop thread to wake up from select(). """ if request: self._requests.put(request) os.write(self._wakeup_pipe[1], b'!') def fileno(self): """Allows this request queue to be used by select().""" return self._wakeup_pipe[0] def read(self): """Invoked by the eventloop thread, execute each queued callable.""" os.read(self._wakeup_pipe[0], 512) # first pop of all current tasks requests = [] while not self._requests.empty(): requests.append(self._requests.get()) # then process them, this allows callables to re-register themselves to # be run on the next iteration of the I/O loop for r in requests: r() class Thread(threading.Thread): """Manages socket I/O and executes callables queued up by external threads. """ def __init__(self, container_name=None): super(Thread, self).__init__() # callables from other threads: self._requests = Requests() # delayed callables (only used on this thread for now): self._schedule = Schedule() # Configure a container if container_name is None: container_name = "Container-" + uuid.uuid4().hex self._container = pyngus.Container(container_name) self.name = "Thread for Proton container: %s" % self._container.name self._shutdown = False self.daemon = True self.start() def wakeup(self, request=None): """Wake up the eventloop thread, Optionally providing a callable to run when the eventloop wakes up. Thread safe. """ self._requests.wakeup(request) def shutdown(self): """Shutdown the eventloop thread. Thread safe. """ LOG.debug("eventloop shutdown requested") self._shutdown = True self.wakeup() def destroy(self): # release the container. This can only be called after the eventloop # thread exited self._container.destroy() self._container = None # the following methods are not thread safe - they must be run from the # eventloop thread def schedule(self, request, delay): """Invoke request after delay seconds.""" self._schedule.schedule(request, delay) def connect(self, host, handler, properties=None, name=None): """Get a _SocketConnection to a peer represented by url.""" key = name or "%s:%i" % (host.hostname, host.port) # return pre-existing conn = self._container.get_connection(key) if conn: return conn.user_context # create a new connection - this will be stored in the # container, using the specified name as the lookup key, or if # no name was provided, the host:port combination sc = _SocketConnection(key, self._container, properties, handler=handler) sc.connect(host) return sc def run(self): """Run the proton event/timer loop.""" LOG.debug("Starting Proton thread, container=%s", self._container.name) while not self._shutdown: readers, writers, timers = self._container.need_processing() readfds = [c.user_context for c in readers] # additionally, always check for readability of pipe we # are using to wakeup processing thread by other threads readfds.append(self._requests) writefds = [c.user_context for c in writers] timeout = None if timers: deadline = timers[0].deadline # 0 == next expiring timer now = time.time() timeout = 0 if deadline <= now else deadline - now # adjust timeout for any deferred requests timeout = self._schedule.get_delay(timeout) try: results = select.select(readfds, writefds, [], timeout) except select.error as serror: if serror[0] == errno.EINTR: LOG.warning(_LW("ignoring interrupt from select(): %s"), str(serror)) continue raise # assuming fatal... readable, writable, ignore = results for r in readable: r.read() for t in timers: if t.deadline > time.time(): break t.process(time.time()) for w in writable: w.write() self._schedule.process() # run any deferred requests LOG.info(_LI("eventloop thread exiting, container=%s"), self._container.name)