# 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. """ Controller that manages the interface between the driver and the messaging service. This module defines a Controller class that is responsible for performing messaging-related operations (Tasks) requested by the driver, and for managing the connection to the messaging service. The Controller creates a background thread which performs all messaging operations and socket I/O. The Controller's messaging logic is executed in the background thread via lambda functions scheduled by the Controller. """ import abc import collections import logging from monotonic import monotonic as now # noqa import os import platform import random import sys import threading import uuid import proton import pyngus from six import iteritems from six import itervalues from six import moves from oslo_messaging._drivers.amqp1_driver.addressing import AddresserFactory from oslo_messaging._drivers.amqp1_driver.addressing import keyify from oslo_messaging._drivers.amqp1_driver.addressing import SERVICE_NOTIFY from oslo_messaging._drivers.amqp1_driver.addressing import SERVICE_RPC from oslo_messaging._drivers.amqp1_driver import eventloop from oslo_messaging._i18n import _LE, _LI, _LW from oslo_messaging import exceptions from oslo_messaging.target import Target from oslo_messaging import transport LOG = logging.getLogger(__name__) class Task(object): """Run a command on the eventloop thread, wait until it completes """ @abc.abstractmethod def wait(self): """Called by the client thread to wait for the operation to complete. The implementation may optionally return a value. """ @abc.abstractmethod def _execute(self, controller): """This method will be run on the eventloop thread to perform the messaging operation. """ class SubscribeTask(Task): """A task that creates a subscription to the given target. Messages arriving from the target are given to the listener. """ def __init__(self, target, listener, notifications=False): super(SubscribeTask, self).__init__() self._target = target() # mutable - need a copy self._subscriber_id = listener.id self._in_queue = listener.incoming self._service = SERVICE_NOTIFY if notifications else SERVICE_RPC self._wakeup = threading.Event() def wait(self): self._wakeup.wait() def _execute(self, controller): controller.subscribe(self) self._wakeup.set() class SendTask(Task): """This is the class used by the Controller to send messages to a given destination. """ def __init__(self, name, message, target, deadline, retry, wait_for_ack, notification=False): super(SendTask, self).__init__() self.name = name # note: target can be either a Target class or a string # target is mutable - make copy self.target = target() if isinstance(target, Target) else target self.message = message self.deadline = deadline self.retry = retry self.wait_for_ack = wait_for_ack self.service = SERVICE_NOTIFY if notification else SERVICE_RPC self.timer = None self._wakeup = threading.Event() self._error = None def wait(self): self._wakeup.wait() return self._error def _execute(self, controller): controller.send(self) def _prepare(self, sender): """Called immediately before the message is handed off to the i/o system. This implies that the sender link is up. """ if not self.wait_for_ack: # sender is not concerned with waiting for acknowledgment # "best effort at-most-once delivery" self._cleanup() self._wakeup.set() def _on_ack(self, state, info): """Called by eventloop thread when the ack/nack is received from the peer. """ if state != pyngus.SenderLink.ACCEPTED: # TODO(kgiusti): could retry if deadline not hit msg = ("{name} message send to {target} failed: remote" " disposition: {disp}, info:" "{info}".format(name=self.name, target=self.target, disp=state, info=info)) self._error = exceptions.MessageDeliveryFailure(msg) LOG.warning("%s", msg) self._cleanup() self._wakeup.set() def _on_timeout(self): """Invoked by the eventloop when the send fails to complete before the timeout is reached. """ self.timer = None msg = ("{name} message sent to {target} failed: timed" " out".format(name=self.name, target=self.target)) LOG.warning("%s", msg) # Only raise a MessagingTimeout if the caller has explicitly specified # a timeout. self._error = exceptions.MessagingTimeout(msg) \ if self.message.ttl else \ exceptions.MessageDeliveryFailure(msg) self._cleanup() self._wakeup.set() def _on_error(self, description): """Invoked by the eventloop if the send operation fails for reasons other than timeout and nack. """ msg = ("{name} message sent to {target} failed:" " {reason}".format(name=self.name, target=self.target, reason=description)) LOG.warning("%s", msg) self._error = exceptions.MessageDeliveryFailure(msg) self._cleanup() self._wakeup.set() def _cleanup(self): if self.timer: self.timer.cancel() self.timer = None class RPCCallTask(SendTask): """Performs an RPC Call. Sends the request and waits for a response from the destination. """ def __init__(self, target, message, deadline, retry, wait_for_ack): super(RPCCallTask, self).__init__("RPC Call", message, target, deadline, retry, wait_for_ack) self._reply_link = None self._reply_msg = None self._msg_id = None def wait(self): error = super(RPCCallTask, self).wait() return error or self._reply_msg def _prepare(self, sender): # reserve a message id for mapping the received response self._reply_link = sender._reply_link rl = self._reply_link self._msg_id = rl.prepare_for_response(self.message, self._on_reply) def _on_reply(self, message): # called if/when the reply message arrives if self._wakeup.is_set(): LOG.debug("RPC Reply received after call completed") return self._reply_msg = message self._reply_link = None self._cleanup() self._wakeup.set() def _on_ack(self, state, info): if self._wakeup.is_set(): LOG.debug("RPC ACKed after call completed: %s %s", state, info) return if state != pyngus.SenderLink.ACCEPTED: super(RPCCallTask, self)._on_ack(state, info) # must wait for reply if ACCEPTED def _cleanup(self): if self._reply_link and self._msg_id: self._reply_link.cancel_response(self._msg_id) self._msg_id = None super(RPCCallTask, self)._cleanup() class MessageDispositionTask(Task): """A task that updates the message disposition as accepted or released for a Server """ def __init__(self, disposition, released=False): super(MessageDispositionTask, self).__init__() self._disposition = disposition self._released = released def wait(self): # disposition update does not have to block the sender since there is # no result to pend for. This avoids a thread context switch with # every RPC call pass def _execute(self, controller): try: self._disposition(self._released) except Exception as e: # there's really nothing we can do about a failed disposition. LOG.exception(_LE("Message acknowledgment failed: %s"), e) class Sender(pyngus.SenderEventHandler): """A link for sending to a particular destination on the message bus. """ def __init__(self, destination, scheduler, delay, service): super(Sender, self).__init__() self._destination = destination self._service = service self._address = None self._link = None self._scheduler = scheduler self._delay = delay # for re-connecting # holds all pending SendTasks self._pending_sends = collections.deque() # holds all messages sent but not yet acked self._unacked = set() self._reply_link = None self._connection = None @property def pending_messages(self): return len(self._pending_sends) def attach(self, connection, reply_link, addresser): """Open the link. Called by the Controller when the AMQP connection becomes active. """ self._connection = connection self._reply_link = reply_link self._address = addresser.resolve(self._destination, self._service) LOG.debug("Sender %s attached", self._address) self._link = self._open_link() def detach(self): """Close the link. Called by the controller when shutting down or in response to a close requested by the remote. May be re-attached later (after a reset is done) """ self._address = None self._connection = None self._reply_link = None if self._link: self._link.close() def reset(self): """Called by the controller on connection failover. Release all link resources, abort any in-flight messages, and check the retry limit on all pending send requests. """ self._address = None self._connection = None self._reply_link = None if self._link: self._link.destroy() self._link = None self._abort_unacked("Link reset") self._check_retry_limit() def destroy(self): """Destroy the sender and all pending messages. Called on driver shutdown. """ self.reset() self._abort_pending("Link destroyed") def send_message(self, send_task): """Send a message out the link. """ if send_task.deadline: def timer_callback(): # may be in either list, or none self._unacked.discard(send_task) try: self._pending_sends.remove(send_task) except ValueError: pass send_task._on_timeout() send_task.timer = self._scheduler.alarm(timer_callback, send_task.deadline) if not self._can_send or self._pending_sends: self._pending_sends.append(send_task) else: self._send(send_task) # Pyngus callbacks: def sender_active(self, sender_link): LOG.debug("sender %s active", self._address) self._send_pending() def credit_granted(self, sender_link): pass def sender_remote_closed(self, sender_link, pn_condition): # The remote has initiated a close. This could happen when the message # bus is shutting down, or it detected an error LOG.warning(_LW("sender %(addr)s failed due to remote initiated close:" " condition=%(cond)s"), {'addr': self._address, 'cond': pn_condition}) self._link.close() # sender_closed() will be called once the link completes closing def sender_closed(self, sender_link): LOG.debug("sender %s closed", self._address) self._abort_unacked("Sender closed") if self._connection: # still attached, so attempt to restart the link self._check_retry_limit() self._scheduler.defer(self._reopen_link, self._delay) def sender_failed(self, sender_link, error): """Protocol error occurred.""" LOG.warning(_LW("sender %(addr)s failed error=%(error)s"), {'addr': self._address, 'error': error}) self.sender_closed(sender_link) # end Pyngus callbacks def _check_retry_limit(self): # Called on recoverable connection or link failure. Remove any pending # sends that have exhausted their retry count: expired = set() for send_task in self._pending_sends: if send_task.retry is not None: send_task.retry -= 1 if send_task.retry <= 0: expired.add(send_task) send_task._on_error("Send retries exhausted") while expired: self._pending_sends.remove(expired.pop()) def _abort_unacked(self, error): # fail all messages that have been sent to the message bus and have not # been acked yet while self._unacked: send_task = self._unacked.pop() send_task._on_error("Message send failed: %s" % error) def _abort_pending(self, error): # fail all messages that have yet to be sent to the message bus while self._pending_sends: send_task = self._pending_sends.popleft() send_task._on_error("Message send failed: %s" % error) @property def _can_send(self): return self._link and self._link.active def _send(self, send_task): send_task._prepare(self) send_task.message.address = self._address def pyngus_callback(link, handle, state, info): # invoked when the message bus (n)acks this message if state == pyngus.SenderLink.TIMED_OUT: # ignore pyngus timeout - we maintain our own timer return self._unacked.discard(send_task) send_task._on_ack(state, info) self._unacked.add(send_task) self._link.send(send_task.message, delivery_callback=pyngus_callback, handle=self, deadline=send_task.deadline) def _send_pending(self): # send all pending messages if self._can_send: while self._pending_sends: self._send(self._pending_sends.popleft()) def _open_link(self): name = "openstack.org/om/sender/[%s]/%s" % (self._address, uuid.uuid4().hex) link = self._connection.create_sender(name=name, source_address=self._address, target_address=self._address, event_handler=self) link.open() return link def _reopen_link(self): if self._connection: if self._link: self._link.destroy() self._link = self._open_link() class Replies(pyngus.ReceiverEventHandler): """This is the receiving link for all RPC reply messages. Messages are routed to the proper incoming queue using the correlation-id header in the message. """ def __init__(self, connection, on_ready, on_down, capacity): self._correlation = {} # map of correlation-id to response queue self._on_ready = on_ready self._on_down = on_down rname = ("openstack.org/om/receiver/[rpc-response]/%s" % uuid.uuid4().hex) self._receiver = connection.create_receiver("rpc-response", event_handler=self, name=rname) # capacity determines the maximum number of reply messages this link is # willing to receive. As messages are received and capacity is # consumed, this driver will 'top up' the capacity back to max # capacity. This number should be large enough to avoid needlessly # flow-controlling the replies. self._capacity = capacity self._capacity_low = (capacity + 1) / 2 self._receiver.open() def detach(self): # close the link if self._receiver: self._receiver.close() def destroy(self): self._correlation = None if self._receiver: self._receiver.destroy() self._receiver = None def prepare_for_response(self, request, callback): """Apply a unique message identifier to this request message. This will be used to identify messages sent in reply. The identifier is placed in the 'id' field of the request message. It is expected that the identifier will appear in the 'correlation-id' field of the corresponding response message. """ request.id = uuid.uuid4().hex # reply is placed on reply_queue self._correlation[request.id] = callback request.reply_to = self._receiver.source_address return request.id def cancel_response(self, msg_id): """Abort waiting for the response message corresponding to msg_id. This can be used if the request fails and no reply is expected. """ if self._correlation: try: del self._correlation[msg_id] except KeyError: pass @property def active(self): return self._receiver and self._receiver.active # Pyngus ReceiverLink event callbacks: def receiver_active(self, receiver_link): """This is a Pyngus callback, invoked by Pyngus when the receiver_link has transitioned to the open state and is able to receive incoming messages. """ LOG.debug("Replies link active src=%s", self._receiver.source_address) receiver_link.add_capacity(self._capacity) self._on_ready() def receiver_remote_closed(self, receiver, pn_condition): """This is a Pyngus callback, invoked by Pyngus when the peer of this receiver link has initiated closing the connection. """ if pn_condition: LOG.error(_LE("Reply subscription closed by peer: %s"), pn_condition) receiver.close() def receiver_failed(self, receiver_link, error): """Protocol error occurred.""" LOG.error(_LE("Link to reply queue failed. error=%(error)s"), {"error": error}) self._on_down() def receiver_closed(self, receiver_link): self._on_down() def message_received(self, receiver, message, handle): """This is a Pyngus callback, invoked by Pyngus when a new message arrives on this receiver link from the peer. """ key = message.correlation_id try: self._correlation[key](message) # cleanup (only need one response per request) del self._correlation[key] receiver.message_accepted(handle) except KeyError: LOG.warning(_LW("Can't find receiver for response msg id=%s, " "dropping!"), key) receiver.message_modified(handle, True, True, None) # ensure we have enough credit if receiver.capacity <= self._capacity_low: receiver.add_capacity(self._capacity - receiver.capacity) class Server(pyngus.ReceiverEventHandler): """A group of links that receive messages from a set of addresses derived from a given target. Messages arriving on the links are placed on the 'incoming' queue. """ def __init__(self, target, incoming, scheduler, delay, capacity): self._target = target self._incoming = incoming self._addresses = [] self._capacity = capacity # credit per each link self._capacity_low = (capacity + 1) / 2 self._receivers = [] self._scheduler = scheduler self._delay = delay # for link re-attach self._connection = None self._reopen_scheduled = False def attach(self, connection): """Create receiver links over the given connection for all the configured addresses. """ self._connection = connection for a in self._addresses: name = "openstack.org/om/receiver/[%s]/%s" % (a, uuid.uuid4().hex) r = self._open_link(a, name) self._receivers.append(r) def detach(self): """Attempt a clean shutdown of the links""" self._connection = None self._addresses = [] for receiver in self._receivers: receiver.close() def reset(self): # destroy the links, but keep the addresses around since we may be # failing over. Since links are destroyed, this cannot be called from # any of the following ReceiverLink callbacks. self._connection = None self._addresses = [] self._reopen_scheduled = False for r in self._receivers: r.destroy() self._receivers = [] # Pyngus ReceiverLink event callbacks. Note that all of the Server's links # share this handler def receiver_remote_closed(self, receiver, pn_condition): """This is a Pyngus callback, invoked by Pyngus when the peer of this receiver link has initiated closing the connection. """ LOG.debug("Server subscription to %s remote detach", receiver.source_address) if pn_condition: vals = { "addr": receiver.source_address or receiver.target_address, "err_msg": pn_condition } LOG.error(_LE("Server subscription %(addr)s closed " "by peer: %(err_msg)s"), vals) receiver.close() def receiver_failed(self, receiver_link, error): """Protocol error occurred.""" LOG.error(_LE("Listener link queue failed. error=%(error)s"), {"error": error}) self.receiver_closed(receiver_link) def receiver_closed(self, receiver_link): LOG.debug("Server subscription to %s closed", receiver_link.source_address) # If still attached, attempt to re-start link if self._connection and not self._reopen_scheduled: LOG.debug("Server subscription reopen scheduled") self._reopen_scheduled = True self._scheduler.defer(self._reopen_links, self._delay) def message_received(self, receiver, message, handle): """This is a Pyngus callback, invoked by Pyngus when a new message arrives on this receiver link from the peer. """ def message_disposition(released=False): if receiver in self._receivers and not receiver.closed: if released: receiver.message_released(handle) else: receiver.message_accepted(handle) if receiver.capacity <= self._capacity_low: receiver.add_capacity(self._capacity - receiver.capacity) else: LOG.debug("Can't find receiver for settlement") qentry = {"message": message, "disposition": message_disposition} self._incoming.put(qentry) def _open_link(self, address, name): props = {"snd-settle-mode": "mixed"} r = self._connection.create_receiver(source_address=address, target_address=address, event_handler=self, name=name, properties=props) r.add_capacity(self._capacity) r.open() return r def _reopen_links(self): # attempt to re-establish any closed links LOG.debug("Server subscription reopening") self._reopen_scheduled = False if self._connection: for i in range(len(self._receivers)): link = self._receivers[i] if link.closed: addr = link.target_address name = link.name link.destroy() self._receivers[i] = self._open_link(addr, name) class RPCServer(Server): """Subscribes to RPC addresses""" def __init__(self, target, incoming, scheduler, delay, capacity): super(RPCServer, self).__init__(target, incoming, scheduler, delay, capacity) def attach(self, connection, addresser): # Generate the AMQP 1.0 addresses for the base class self._addresses = [ addresser.unicast_address(self._target, SERVICE_RPC), addresser.multicast_address(self._target, SERVICE_RPC), addresser.anycast_address(self._target, SERVICE_RPC) ] # now invoke the base class with the generated addresses super(RPCServer, self).attach(connection) class NotificationServer(Server): """Subscribes to Notification addresses""" def __init__(self, target, incoming, scheduler, delay, capacity): super(NotificationServer, self).__init__(target, incoming, scheduler, delay, capacity) def attach(self, connection, addresser): # Generate the AMQP 1.0 addresses for the base class self._addresses = [ addresser.anycast_address(self._target, SERVICE_NOTIFY) ] # now invoke the base class with the generated addresses super(NotificationServer, self).attach(connection) class Hosts(object): """An order list of TransportHost addresses. Connection failover progresses from one host to the next. username and password come from the configuration and are used only if no username/password was given in the URL. """ def __init__(self, entries=None, default_username=None, default_password=None): if entries: self._entries = entries[:] else: self._entries = [transport.TransportHost(hostname="localhost", port=5672)] for entry in self._entries: entry.port = entry.port or 5672 entry.username = entry.username or default_username entry.password = entry.password or default_password self._current = random.randint(0, len(self._entries) - 1) @property def current(self): return self._entries[self._current] def next(self): if len(self._entries) > 1: self._current = (self._current + 1) % len(self._entries) return self.current def __repr__(self): return '' def __str__(self): return ", ".join(["%r" % th for th in self._entries]) class Controller(pyngus.ConnectionEventHandler): """Controls the connection to the AMQP messaging service. This object is the 'brains' of the driver. It maintains the logic for addressing, sending and receiving messages, and managing the connection. All messaging and I/O work is done on the Eventloop thread, allowing the driver to run asynchronously from the messaging clients. """ def __init__(self, hosts, default_exchange, config): self.processor = None self._socket_connection = None self._node = platform.node() or "" self._command = os.path.basename(sys.argv[0]) self._pid = os.getpid() # queue of drivertask objects to execute on the eventloop thread self._tasks = moves.queue.Queue(maxsize=500) # limit the number of Task()'s to execute per call to _process_tasks(). # This allows the eventloop main thread to return to servicing socket # I/O in a timely manner self._max_task_batch = 50 # cache of Sender links indexed by address: self._senders = {} # Servers indexed by target. Each entry is a map indexed by the # specific ProtonListener's identifier: self._servers = {} self._container_name = config.oslo_messaging_amqp.container_name self.idle_timeout = config.oslo_messaging_amqp.idle_timeout self.trace_protocol = config.oslo_messaging_amqp.trace self.ssl_ca_file = config.oslo_messaging_amqp.ssl_ca_file self.ssl_cert_file = config.oslo_messaging_amqp.ssl_cert_file self.ssl_key_file = config.oslo_messaging_amqp.ssl_key_file self.ssl_key_password = config.oslo_messaging_amqp.ssl_key_password self.ssl_allow_insecure = \ config.oslo_messaging_amqp.allow_insecure_clients self.sasl_mechanisms = config.oslo_messaging_amqp.sasl_mechanisms self.sasl_config_dir = config.oslo_messaging_amqp.sasl_config_dir self.sasl_config_name = config.oslo_messaging_amqp.sasl_config_name self.hosts = Hosts(hosts, config.oslo_messaging_amqp.username, config.oslo_messaging_amqp.password) self.conn_retry_interval = \ config.oslo_messaging_amqp.connection_retry_interval self.conn_retry_backoff = \ config.oslo_messaging_amqp.connection_retry_backoff self.conn_retry_interval_max = \ config.oslo_messaging_amqp.connection_retry_interval_max self.link_retry_delay = config.oslo_messaging_amqp.link_retry_delay _opts = config.oslo_messaging_amqp factory_args = {"legacy_server_prefix": _opts.server_request_prefix, "legacy_broadcast_prefix": _opts.broadcast_prefix, "legacy_group_prefix": _opts.group_request_prefix, "rpc_prefix": _opts.rpc_address_prefix, "notify_prefix": _opts.notify_address_prefix, "multicast": _opts.multicast_address, "unicast": _opts.unicast_address, "anycast": _opts.anycast_address, "notify_exchange": _opts.default_notification_exchange, "rpc_exchange": _opts.default_rpc_exchange} self.addresser_factory = AddresserFactory(default_exchange, _opts.addressing_mode, **factory_args) self.addresser = None # cannot send an RPC request until the replies link is active, as we # need the peer assigned address, so need to delay sending any RPC # requests until this link is active: self.reply_link = None # Set True when the driver is shutting down self._closing = False # only schedule one outstanding reconnect attempt at a time self._reconnecting = False self._delay = 1 # seconds between retries # prevent queuing up multiple requests to run _process_tasks() self._process_tasks_scheduled = False self._process_tasks_lock = threading.Lock() # credit levels for incoming links self._reply_credit = _opts.reply_link_credit self._rpc_credit = _opts.rpc_server_credit self._notify_credit = _opts.notify_server_credit def connect(self): """Connect to the messaging service.""" self.processor = eventloop.Thread(self._container_name, self._node, self._command, self._pid) self.processor.wakeup(lambda: self._do_connect()) def add_task(self, task): """Add a Task for execution on processor thread.""" self._tasks.put(task) self._schedule_task_processing() def shutdown(self, timeout=30): """Shutdown the messaging service.""" LOG.info(_LI("Shutting down the AMQP 1.0 connection")) if self.processor: self.processor.wakeup(self._start_shutdown) LOG.debug("Waiting for eventloop to exit") self.processor.join(timeout) self._hard_reset() for sender in itervalues(self._senders): sender.destroy() self._senders.clear() self._servers.clear() self.processor.destroy() self.processor = None LOG.debug("Eventloop exited, driver shut down") # The remaining methods are reserved to run from the eventloop thread only! # They must not be invoked directly! # methods executed by Tasks created by the driver: def send(self, send_task): if send_task.deadline and send_task.deadline <= now(): send_task._on_timeout() return if send_task.retry is None or send_task.retry < 0: send_task.retry = None key = keyify(send_task.target, send_task.service) sender = self._senders.get(key) if not sender: sender = Sender(send_task.target, self.processor, self.link_retry_delay, send_task.service) self._senders[key] = sender if self.reply_link and self.reply_link.active: sender.attach(self._socket_connection.connection, self.reply_link, self.addresser) sender.send_message(send_task) def subscribe(self, subscribe_task): """Subscribe to a given target""" if subscribe_task._service == SERVICE_NOTIFY: t = "notification" server = NotificationServer(subscribe_task._target, subscribe_task._in_queue, self.processor, self.link_retry_delay, self._notify_credit) else: t = "RPC" server = RPCServer(subscribe_task._target, subscribe_task._in_queue, self.processor, self.link_retry_delay, self._rpc_credit) LOG.debug("Subscribing to %(type)s target %(target)s", {'type': t, 'target': subscribe_task._target}) key = keyify(subscribe_task._target, subscribe_task._service) servers = self._servers.get(key) if servers is None: servers = {} self._servers[key] = servers servers[subscribe_task._subscriber_id] = server if self._active: server.attach(self._socket_connection.connection, self.addresser) # commands executed on the processor (eventloop) via 'wakeup()': def _do_connect(self): """Establish connection and reply subscription on processor thread.""" host = self.hosts.current conn_props = {'properties': {u'process': self._command, u'pid': self._pid, u'node': self._node}, 'hostname': host.hostname} if self.idle_timeout: conn_props["idle-time-out"] = float(self.idle_timeout) if self.trace_protocol: conn_props["x-trace-protocol"] = self.trace_protocol if self.ssl_ca_file: conn_props["x-ssl-ca-file"] = self.ssl_ca_file if self.ssl_cert_file: # assume this connection is for a server. If client authentication # support is developed, we'll need an explicit flag (server or # client) conn_props["x-ssl-server"] = True conn_props["x-ssl-identity"] = (self.ssl_cert_file, self.ssl_key_file, self.ssl_key_password) conn_props["x-ssl-allow-cleartext"] = self.ssl_allow_insecure # SASL configuration: if self.sasl_mechanisms: conn_props["x-sasl-mechs"] = self.sasl_mechanisms if self.sasl_config_dir: conn_props["x-sasl-config-dir"] = self.sasl_config_dir if self.sasl_config_name: conn_props["x-sasl-config-name"] = self.sasl_config_name self._socket_connection = self.processor.connect(host, handler=self, properties=conn_props) LOG.debug("Connection initiated") def _process_tasks(self): """Execute Task objects in the context of the processor thread.""" with self._process_tasks_lock: self._process_tasks_scheduled = False count = 0 while (not self._tasks.empty() and count < self._max_task_batch): try: self._tasks.get(False)._execute(self) except Exception as e: LOG.exception(_LE("Error processing task: %s"), e) count += 1 # if we hit _max_task_batch, resume task processing later: if not self._tasks.empty(): self._schedule_task_processing() def _schedule_task_processing(self): """_process_tasks() helper: prevent queuing up multiple requests for task processing. This method is called both by the application thread and the processing thread. """ if self.processor: with self._process_tasks_lock: already_scheduled = self._process_tasks_scheduled self._process_tasks_scheduled = True if not already_scheduled: self.processor.wakeup(lambda: self._process_tasks()) def _start_shutdown(self): """Called when the application is closing the transport. Attempt to cleanly flush/close all links. """ self._closing = True if self._active: # try a clean shutdown self._detach_senders() self._detach_servers() self.reply_link.detach() self._socket_connection.connection.close() else: # don't wait for a close from the remote, may never happen self.processor.shutdown() # reply link callbacks: def _reply_link_ready(self): """Invoked when the Replies reply link has become active. At this point, we are ready to receive messages, so start all pending RPC requests. """ LOG.info(_LI("Messaging is active (%(hostname)s:%(port)s)"), {'hostname': self.hosts.current.hostname, 'port': self.hosts.current.port}) for sender in itervalues(self._senders): sender.attach(self._socket_connection.connection, self.reply_link, self.addresser) def _reply_link_down(self): # Treat it as a recoverable failure because the RPC reply address is # now invalid for all in-flight RPC requests. if not self._closing: self._detach_senders() self._detach_servers() self._socket_connection.connection.close() # once closed, _handle_connection_loss() will initiate reconnect # callback from eventloop on socket error def socket_error(self, error): """Called by eventloop when a socket error occurs.""" LOG.error(_LE("Socket failure: %s"), error) self._handle_connection_loss() # Pyngus connection event callbacks (and their helpers), all invoked from # the eventloop thread: def connection_failed(self, connection, error): """This is a Pyngus callback, invoked by Pyngus when a non-recoverable error occurs on the connection. """ if connection is not self._socket_connection.connection: # pyngus bug: ignore failure callback on destroyed connections return LOG.debug("AMQP Connection failure: %s", error) self._handle_connection_loss() def connection_active(self, connection): """This is a Pyngus callback, invoked by Pyngus when the connection to the peer is up. At this point, the driver will activate all subscriber links (server) and the reply link. """ LOG.debug("Connection active (%(hostname)s:%(port)s), subscribing...", {'hostname': self.hosts.current.hostname, 'port': self.hosts.current.port}) # allocate an addresser based on the advertised properties of the # message bus props = connection.remote_properties or {} self.addresser = self.addresser_factory(props) for servers in itervalues(self._servers): for server in itervalues(servers): server.attach(self._socket_connection.connection, self.addresser) self.reply_link = Replies(self._socket_connection.connection, self._reply_link_ready, self._reply_link_down, self._reply_credit) self._delay = 1 def connection_closed(self, connection): """This is a Pyngus callback, invoked by Pyngus when the connection has cleanly closed. This occurs after the driver closes the connection locally, and the peer has acknowledged the close. At this point, the shutdown of the driver's connection is complete. """ LOG.debug("AMQP connection closed.") # if the driver isn't being shutdown, failover and reconnect self._handle_connection_loss() def connection_remote_closed(self, connection, reason): """This is a Pyngus callback, invoked by Pyngus when the peer has requested that the connection be closed. """ # The messaging service/broker is trying to shut down the # connection. Acknowledge the close, and try to reconnect/failover # later once the connection has closed (connection_closed is called). if reason: LOG.info(_LI("Connection closed by peer: %s"), reason) self._detach_senders() self._detach_servers() self.reply_link.detach() self._socket_connection.connection.close() def sasl_done(self, connection, pn_sasl, outcome): """This is a Pyngus callback invoked when the SASL handshake has completed. The outcome of the handshake is passed in the outcome argument. """ if outcome == proton.SASL.OK: return LOG.error(_LE("AUTHENTICATION FAILURE: Cannot connect to " "%(hostname)s:%(port)s as user %(username)s"), {'hostname': self.hosts.current.hostname, 'port': self.hosts.current.port, 'username': self.hosts.current.username}) # connection failure will be handled later def _handle_connection_loss(self): """The connection to the messaging service has been lost. Try to reestablish the connection/failover if not shutting down the driver. """ self.addresser = None if self._closing: # we're in the middle of shutting down the driver anyways, # just consider it done: self.processor.shutdown() else: # for some reason, we've lost the connection to the messaging # service. Try to re-establish the connection: if not self._reconnecting: self._reconnecting = True LOG.info(_LI("delaying reconnect attempt for %d seconds"), self._delay) self.processor.defer(self._do_reconnect, self._delay) self._delay = min(self._delay * 2, 60) def _do_reconnect(self): """Invoked on connection/socket failure, failover and re-connect to the messaging service. """ self._reconnecting = False if not self._closing: self._hard_reset() host = self.hosts.next() LOG.info(_LI("Reconnecting to: %(hostname)s:%(port)s"), {'hostname': host.hostname, 'port': host.port}) self._socket_connection.connect(host) def _hard_reset(self): """Reset the controller to its pre-connection state""" # note well: since this method destroys the connection, it cannot be # invoked directly from a pyngus callback. Use processor.defer() to # run this method on the main loop instead. unused = [] for key, sender in iteritems(self._senders): # clean up any unused sender links: if sender.pending_messages == 0: unused.append(key) else: sender.reset() for key in unused: self._senders[key].destroy() del self._senders[key] for servers in itervalues(self._servers): for server in itervalues(servers): server.reset() if self.reply_link: self.reply_link.destroy() self.reply_link = None if self._socket_connection: self._socket_connection.reset() def _detach_senders(self): """Close all sender links""" for sender in itervalues(self._senders): sender.detach() def _detach_servers(self): """Close all listener links""" for servers in itervalues(self._servers): for server in itervalues(servers): server.detach() @property def _active(self): # Is the connection up return (self._socket_connection and self._socket_connection.connection.active)