proton-c/bindings/python/proton/utils.py - qpid-proton - Git at Google

 #
 # Licensed to the Apache Software Foundation (ASF) under one
 # or more contributor license agreements.  See the NOTICE file
 # distributed with this work for additional information
 # regarding copyright ownership.  The ASF licenses this file
 # to you 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 collections, socket, time, threading

 from proton import ConnectionException, Delivery, Endpoint, Handler, Link, LinkException, Message
 from proton import ProtonException, Timeout, Url
 from proton.reactor import Container
 from proton.handlers import MessagingHandler, IncomingMessageHandler


 class BlockingLink(object):
     def __init__(self, connection, link):
         self.connection = connection
         self.link = link
         self.connection.wait(lambda: not (self.link.state & Endpoint.REMOTE_UNINIT),
                              msg="Opening link %s" % link.name)
         self._checkClosed()

     def _waitForClose(self, timeout=1):
         try:
             self.connection.wait(lambda: self.link.state & Endpoint.REMOTE_CLOSED,
                                  timeout=timeout,
                                  msg="Opening link %s" % self.link.name)
         except Timeout as e: pass
         self._checkClosed()

     def _checkClosed(self):
         if self.link.state & Endpoint.REMOTE_CLOSED:
             self.link.close()
             raise LinkDetached(self.link)

     def close(self):
         self.link.close()
         self.connection.wait(lambda: not (self.link.state & Endpoint.REMOTE_ACTIVE),
                              msg="Closing link %s" % self.link.name)

     # Access to other link attributes.
     def __getattr__(self, name): return getattr(self.link, name)

 class SendException(ProtonException):
     """
     Exception used to indicate an exceptional state/condition on a send request
     """
     def __init__(self, state):
         self.state = state

 def _is_settled(delivery):
     return delivery.settled or delivery.link.snd_settle_mode == Link.SND_SETTLED

 class BlockingSender(BlockingLink):
     def __init__(self, connection, sender):
         super(BlockingSender, self).__init__(connection, sender)
         if self.link.target and self.link.target.address and self.link.target.address != self.link.remote_target.address:
             #this may be followed by a detach, which may contain an error condition, so wait a little...
             self._waitForClose()
             #...but close ourselves if peer does not
             self.link.close()
             raise LinkException("Failed to open sender %s, target does not match" % self.link.name)

     def send(self, msg, timeout=False, error_states=None):
         delivery = self.link.send(msg)
         self.connection.wait(lambda: _is_settled(delivery), msg="Sending on sender %s" % self.link.name, timeout=timeout)
         if delivery.link.snd_settle_mode != Link.SND_SETTLED:
             delivery.settle()
         bad = error_states
         if bad is None:
             bad = [Delivery.REJECTED, Delivery.RELEASED]
         if delivery.remote_state in bad:
             raise SendException(delivery.remote_state)
         return delivery

 class Fetcher(MessagingHandler):
     def __init__(self, connection, prefetch):
         super(Fetcher, self).__init__(prefetch=prefetch, auto_accept=False)
         self.connection = connection
         self.incoming = collections.deque([])
         self.unsettled = collections.deque([])

     def on_message(self, event):
         self.incoming.append((event.message, event.delivery))
         self.connection.container.yield_() # Wake up the wait() loop to handle the message.

     def on_link_error(self, event):
         if event.link.state & Endpoint.LOCAL_ACTIVE:
             event.link.close()
             raise LinkDetached(event.link)

     def on_connection_error(self, event):
         raise ConnectionClosed(event.connection)

     @property
     def has_message(self):
         return len(self.incoming)

     def pop(self):
         message, delivery = self.incoming.popleft()
         if not delivery.settled:
             self.unsettled.append(delivery)
         return message

     def settle(self, state=None):
         delivery = self.unsettled.popleft()
         if state:
             delivery.update(state)
         delivery.settle()


 class BlockingReceiver(BlockingLink):
     def __init__(self, connection, receiver, fetcher, credit=1):
         super(BlockingReceiver, self).__init__(connection, receiver)
         if self.link.source and self.link.source.address and self.link.source.address != self.link.remote_source.address:
             #this may be followed by a detach, which may contain an error condition, so wait a little...
             self._waitForClose()
             #...but close ourselves if peer does not
             self.link.close()
             raise LinkException("Failed to open receiver %s, source does not match" % self.link.name)
         if credit: receiver.flow(credit)
         self.fetcher = fetcher

     def __del__(self):
         self.fetcher = None
         self.link.handler = None

     def receive(self, timeout=False):
         if not self.fetcher:
             raise Exception("Can't call receive on this receiver as a handler was provided")
         if not self.link.credit:
             self.link.flow(1)
         self.connection.wait(lambda: self.fetcher.has_message, msg="Receiving on receiver %s" % self.link.name, timeout=timeout)
         return self.fetcher.pop()

     def accept(self):
         self.settle(Delivery.ACCEPTED)

     def reject(self):
         self.settle(Delivery.REJECTED)

     def release(self, delivered=True):
         if delivered:
             self.settle(Delivery.MODIFIED)
         else:
             self.settle(Delivery.RELEASED)

     def settle(self, state=None):
         if not self.fetcher:
             raise Exception("Can't call accept/reject etc on this receiver as a handler was provided")
         self.fetcher.settle(state)


 class LinkDetached(LinkException):
     def __init__(self, link):
         self.link = link
         if link.is_sender:
             txt = "sender %s to %s closed" % (link.name, link.target.address)
         else:
             txt = "receiver %s from %s closed" % (link.name, link.source.address)
         if link.remote_condition:
             txt += " due to: %s" % link.remote_condition
             self.condition = link.remote_condition.name
         else:
             txt += " by peer"
             self.condition = None
         super(LinkDetached, self).__init__(txt)


 class ConnectionClosed(ConnectionException):
     def __init__(self, connection):
         self.connection = connection
         txt = "Connection %s closed" % connection.hostname
         if connection.remote_condition:
             txt += " due to: %s" % connection.remote_condition
             self.condition = connection.remote_condition.name
         else:
             txt += " by peer"
             self.condition = None
         super(ConnectionClosed, self).__init__(txt)


 class BlockingConnection(Handler):
     """
     A synchronous style connection wrapper.
     """
     def __init__(self, url, timeout=None, container=None, ssl_domain=None, heartbeat=None, **kwargs):
         self.disconnected = False
         self.timeout = timeout or 60
         self.container = container or Container()
         self.container.timeout = self.timeout
         self.container.start()
         self.url = Url(url).defaults()
         self.conn = self.container.connect(url=self.url, handler=self, ssl_domain=ssl_domain, reconnect=False, heartbeat=heartbeat, **kwargs)
         self.wait(lambda: not (self.conn.state & Endpoint.REMOTE_UNINIT),
                   msg="Opening connection")

     def create_sender(self, address, handler=None, name=None, options=None):
         return BlockingSender(self, self.container.create_sender(self.conn, address, name=name, handler=handler, options=options))

     def create_receiver(self, address, credit=None, dynamic=False, handler=None, name=None, options=None):
         prefetch = credit
         if handler:
             fetcher = None
             if prefetch is None:
                 prefetch = 1
         else:
             fetcher = Fetcher(self, credit)
         return BlockingReceiver(
             self, self.container.create_receiver(self.conn, address, name=name, dynamic=dynamic, handler=handler or fetcher, options=options), fetcher, credit=prefetch)

     def close(self):
         self.conn.close()
         try:
             self.wait(lambda: not (self.conn.state & Endpoint.REMOTE_ACTIVE),
                       msg="Closing connection")
         finally:
             self.conn = None
             self.container = None

     def _is_closed(self):
         return self.conn.state & (Endpoint.LOCAL_CLOSED | Endpoint.REMOTE_CLOSED)

     def run(self):
         """ Hand control over to the event loop (e.g. if waiting indefinitely for incoming messages) """
         while self.container.process(): pass

     def wait(self, condition, timeout=False, msg=None):
         """Call process until condition() is true"""
         if timeout is False:
             timeout = self.timeout
         if timeout is None:
             while not condition() and not self.disconnected:
                 self.container.process()
         else:
             container_timeout = self.container.timeout
             self.container.timeout = timeout
             try:
                 deadline = time.time() + timeout
                 while not condition() and not self.disconnected:
                     self.container.process()
                     if deadline < time.time():
                         txt = "Connection %s timed out" % self.url
                         if msg: txt += ": " + msg
                         raise Timeout(txt)
             finally:
                 self.container.timeout = container_timeout
         if self.disconnected or self._is_closed():
             self.container.stop()
             self.conn.handler = None # break cyclical reference
         if self.disconnected and not self._is_closed():
             raise ConnectionException("Connection %s disconnected" % self.url)

     def on_link_remote_close(self, event):
         if event.link.state & Endpoint.LOCAL_ACTIVE:
             event.link.close()
             raise LinkDetached(event.link)

     def on_connection_remote_close(self, event):
         if event.connection.state & Endpoint.LOCAL_ACTIVE:
             event.connection.close()
             raise ConnectionClosed(event.connection)

     def on_transport_tail_closed(self, event):
         self.on_transport_closed(event)

     def on_transport_head_closed(self, event):
         self.on_transport_closed(event)

     def on_transport_closed(self, event):
         self.disconnected = True

 class AtomicCount(object):
     def __init__(self, start=0, step=1):
         """Thread-safe atomic counter. Start at start, increment by step."""
         self.count, self.step = start, step
         self.lock = threading.Lock()

     def next(self):
         """Get the next value"""
         self.lock.acquire()
         self.count += self.step;
         result = self.count
         self.lock.release()
         return result

 class SyncRequestResponse(IncomingMessageHandler):
     """
     Implementation of the synchronous request-responce (aka RPC) pattern.
     @ivar address: Address for all requests, may be None.
     @ivar connection: Connection for requests and responses.
     """

     correlation_id = AtomicCount()

     def __init__(self, connection, address=None):
         """
         Send requests and receive responses. A single instance can send many requests
         to the same or different addresses.

         @param connection: A L{BlockingConnection}
         @param address: Address for all requests.
             If not specified, each request must have the address property set.
             Sucessive messages may have different addresses.
         """
         super(SyncRequestResponse, self).__init__()
         self.connection = connection
         self.address = address
         self.sender = self.connection.create_sender(self.address)
         # dynamic=true generates a unique address dynamically for this receiver.
         # credit=1 because we want to receive 1 response message initially.
         self.receiver = self.connection.create_receiver(None, dynamic=True, credit=1, handler=self)
         self.response = None

     def call(self, request):
         """
         Send a request message, wait for and return the response message.

         @param request: A L{proton.Message}. If L{self.address} is not set the
             L{self.address} must be set and will be used.
         """
         if not self.address and not request.address:
             raise ValueError("Request message has no address: %s" % request)
         request.reply_to = self.reply_to
         request.correlation_id = correlation_id = self.correlation_id.next()
         self.sender.send(request)
         def wakeup():
             return self.response and (self.response.correlation_id == correlation_id)
         self.connection.wait(wakeup, msg="Waiting for response")
         response = self.response
         self.response = None    # Ready for next response.
         self.receiver.flow(1)   # Set up credit for the next response.
         return response

     @property
     def reply_to(self):
         """Return the dynamic address of our receiver."""
         return self.receiver.remote_source.address

     def on_message(self, event):
         """Called when we receive a message for our receiver."""
         self.response = event.message
         self.connection.container.yield_() # Wake up the wait() loop to handle the message.
	#
	# Licensed to the Apache Software Foundation (ASF) under one
	# or more contributor license agreements. See the NOTICE file
	# distributed with this work for additional information
	# regarding copyright ownership. The ASF licenses this file
	# to you 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 collections, socket, time, threading

	from proton import ConnectionException, Delivery, Endpoint, Handler, Link, LinkException, Message
	from proton import ProtonException, Timeout, Url
	from proton.reactor import Container
	from proton.handlers import MessagingHandler, IncomingMessageHandler


	class BlockingLink(object):
	def __init__(self, connection, link):
	self.connection = connection
	self.link = link
	self.connection.wait(lambda: not (self.link.state & Endpoint.REMOTE_UNINIT),
	msg="Opening link %s" % link.name)
	self._checkClosed()

	def _waitForClose(self, timeout=1):
	try:
	self.connection.wait(lambda: self.link.state & Endpoint.REMOTE_CLOSED,
	timeout=timeout,
	msg="Opening link %s" % self.link.name)
	except Timeout as e: pass
	self._checkClosed()

	def _checkClosed(self):
	if self.link.state & Endpoint.REMOTE_CLOSED:
	self.link.close()
	raise LinkDetached(self.link)

	def close(self):
	self.link.close()
	self.connection.wait(lambda: not (self.link.state & Endpoint.REMOTE_ACTIVE),
	msg="Closing link %s" % self.link.name)

	# Access to other link attributes.
	def __getattr__(self, name): return getattr(self.link, name)

	class SendException(ProtonException):
	"""
	Exception used to indicate an exceptional state/condition on a send request
	"""
	def __init__(self, state):
	self.state = state

	def _is_settled(delivery):
	return delivery.settled or delivery.link.snd_settle_mode == Link.SND_SETTLED

	class BlockingSender(BlockingLink):
	def __init__(self, connection, sender):
	super(BlockingSender, self).__init__(connection, sender)
	if self.link.target and self.link.target.address and self.link.target.address != self.link.remote_target.address:
	#this may be followed by a detach, which may contain an error condition, so wait a little...
	self._waitForClose()
	#...but close ourselves if peer does not
	self.link.close()
	raise LinkException("Failed to open sender %s, target does not match" % self.link.name)

	def send(self, msg, timeout=False, error_states=None):
	delivery = self.link.send(msg)
	self.connection.wait(lambda: _is_settled(delivery), msg="Sending on sender %s" % self.link.name, timeout=timeout)
	if delivery.link.snd_settle_mode != Link.SND_SETTLED:
	delivery.settle()
	bad = error_states
	if bad is None:
	bad = [Delivery.REJECTED, Delivery.RELEASED]
	if delivery.remote_state in bad:
	raise SendException(delivery.remote_state)
	return delivery

	class Fetcher(MessagingHandler):
	def __init__(self, connection, prefetch):
	super(Fetcher, self).__init__(prefetch=prefetch, auto_accept=False)
	self.connection = connection
	self.incoming = collections.deque([])
	self.unsettled = collections.deque([])

	def on_message(self, event):
	self.incoming.append((event.message, event.delivery))
	self.connection.container.yield_() # Wake up the wait() loop to handle the message.

	def on_link_error(self, event):
	if event.link.state & Endpoint.LOCAL_ACTIVE:
	event.link.close()
	raise LinkDetached(event.link)

	def on_connection_error(self, event):
	raise ConnectionClosed(event.connection)

	@property
	def has_message(self):
	return len(self.incoming)

	def pop(self):
	message, delivery = self.incoming.popleft()
	if not delivery.settled:
	self.unsettled.append(delivery)
	return message

	def settle(self, state=None):
	delivery = self.unsettled.popleft()
	if state:
	delivery.update(state)
	delivery.settle()


	class BlockingReceiver(BlockingLink):
	def __init__(self, connection, receiver, fetcher, credit=1):
	super(BlockingReceiver, self).__init__(connection, receiver)
	if self.link.source and self.link.source.address and self.link.source.address != self.link.remote_source.address:
	#this may be followed by a detach, which may contain an error condition, so wait a little...
	self._waitForClose()
	#...but close ourselves if peer does not
	self.link.close()
	raise LinkException("Failed to open receiver %s, source does not match" % self.link.name)
	if credit: receiver.flow(credit)
	self.fetcher = fetcher

	def __del__(self):
	self.fetcher = None
	self.link.handler = None

	def receive(self, timeout=False):
	if not self.fetcher:
	raise Exception("Can't call receive on this receiver as a handler was provided")
	if not self.link.credit:
	self.link.flow(1)
	self.connection.wait(lambda: self.fetcher.has_message, msg="Receiving on receiver %s" % self.link.name, timeout=timeout)
	return self.fetcher.pop()

	def accept(self):
	self.settle(Delivery.ACCEPTED)

	def reject(self):
	self.settle(Delivery.REJECTED)

	def release(self, delivered=True):
	if delivered:
	self.settle(Delivery.MODIFIED)
	else:
	self.settle(Delivery.RELEASED)

	def settle(self, state=None):
	if not self.fetcher:
	raise Exception("Can't call accept/reject etc on this receiver as a handler was provided")
	self.fetcher.settle(state)


	class LinkDetached(LinkException):
	def __init__(self, link):
	self.link = link
	if link.is_sender:
	txt = "sender %s to %s closed" % (link.name, link.target.address)
	else:
	txt = "receiver %s from %s closed" % (link.name, link.source.address)
	if link.remote_condition:
	txt += " due to: %s" % link.remote_condition
	self.condition = link.remote_condition.name
	else:
	txt += " by peer"
	self.condition = None
	super(LinkDetached, self).__init__(txt)


	class ConnectionClosed(ConnectionException):
	def __init__(self, connection):
	self.connection = connection
	txt = "Connection %s closed" % connection.hostname
	if connection.remote_condition:
	txt += " due to: %s" % connection.remote_condition
	self.condition = connection.remote_condition.name
	else:
	txt += " by peer"
	self.condition = None
	super(ConnectionClosed, self).__init__(txt)


	class BlockingConnection(Handler):
	"""
	A synchronous style connection wrapper.
	"""
	def __init__(self, url, timeout=None, container=None, ssl_domain=None, heartbeat=None, **kwargs):
	self.disconnected = False
	self.timeout = timeout or 60
	self.container = container or Container()
	self.container.timeout = self.timeout
	self.container.start()
	self.url = Url(url).defaults()
	self.conn = self.container.connect(url=self.url, handler=self, ssl_domain=ssl_domain, reconnect=False, heartbeat=heartbeat, **kwargs)
	self.wait(lambda: not (self.conn.state & Endpoint.REMOTE_UNINIT),
	msg="Opening connection")

	def create_sender(self, address, handler=None, name=None, options=None):
	return BlockingSender(self, self.container.create_sender(self.conn, address, name=name, handler=handler, options=options))

	def create_receiver(self, address, credit=None, dynamic=False, handler=None, name=None, options=None):
	prefetch = credit
	if handler:
	fetcher = None
	if prefetch is None:
	prefetch = 1
	else:
	fetcher = Fetcher(self, credit)
	return BlockingReceiver(
	self, self.container.create_receiver(self.conn, address, name=name, dynamic=dynamic, handler=handler or fetcher, options=options), fetcher, credit=prefetch)

	def close(self):
	self.conn.close()
	try:
	self.wait(lambda: not (self.conn.state & Endpoint.REMOTE_ACTIVE),
	msg="Closing connection")
	finally:
	self.conn = None
	self.container = None

	def _is_closed(self):
	return self.conn.state & (Endpoint.LOCAL_CLOSED \| Endpoint.REMOTE_CLOSED)

	def run(self):
	""" Hand control over to the event loop (e.g. if waiting indefinitely for incoming messages) """
	while self.container.process(): pass

	def wait(self, condition, timeout=False, msg=None):
	"""Call process until condition() is true"""
	if timeout is False:
	timeout = self.timeout
	if timeout is None:
	while not condition() and not self.disconnected:
	self.container.process()
	else:
	container_timeout = self.container.timeout
	self.container.timeout = timeout
	try:
	deadline = time.time() + timeout
	while not condition() and not self.disconnected:
	self.container.process()
	if deadline < time.time():
	txt = "Connection %s timed out" % self.url
	if msg: txt += ": " + msg
	raise Timeout(txt)
	finally:
	self.container.timeout = container_timeout
	if self.disconnected or self._is_closed():
	self.container.stop()
	self.conn.handler = None # break cyclical reference
	if self.disconnected and not self._is_closed():
	raise ConnectionException("Connection %s disconnected" % self.url)

	def on_link_remote_close(self, event):
	if event.link.state & Endpoint.LOCAL_ACTIVE:
	event.link.close()
	raise LinkDetached(event.link)

	def on_connection_remote_close(self, event):
	if event.connection.state & Endpoint.LOCAL_ACTIVE:
	event.connection.close()
	raise ConnectionClosed(event.connection)

	def on_transport_tail_closed(self, event):
	self.on_transport_closed(event)

	def on_transport_head_closed(self, event):
	self.on_transport_closed(event)

	def on_transport_closed(self, event):
	self.disconnected = True

	class AtomicCount(object):
	def __init__(self, start=0, step=1):
	"""Thread-safe atomic counter. Start at start, increment by step."""
	self.count, self.step = start, step
	self.lock = threading.Lock()

	def next(self):
	"""Get the next value"""
	self.lock.acquire()
	self.count += self.step;
	result = self.count
	self.lock.release()
	return result

	class SyncRequestResponse(IncomingMessageHandler):
	"""
	Implementation of the synchronous request-responce (aka RPC) pattern.
	@ivar address: Address for all requests, may be None.
	@ivar connection: Connection for requests and responses.
	"""

	correlation_id = AtomicCount()

	def __init__(self, connection, address=None):
	"""
	Send requests and receive responses. A single instance can send many requests
	to the same or different addresses.

	@param connection: A L{BlockingConnection}
	@param address: Address for all requests.
	If not specified, each request must have the address property set.
	Sucessive messages may have different addresses.
	"""
	super(SyncRequestResponse, self).__init__()
	self.connection = connection
	self.address = address
	self.sender = self.connection.create_sender(self.address)
	# dynamic=true generates a unique address dynamically for this receiver.
	# credit=1 because we want to receive 1 response message initially.
	self.receiver = self.connection.create_receiver(None, dynamic=True, credit=1, handler=self)
	self.response = None

	def call(self, request):
	"""
	Send a request message, wait for and return the response message.

	@param request: A L{proton.Message}. If L{self.address} is not set the
	L{self.address} must be set and will be used.
	"""
	if not self.address and not request.address:
	raise ValueError("Request message has no address: %s" % request)
	request.reply_to = self.reply_to
	request.correlation_id = correlation_id = self.correlation_id.next()
	self.sender.send(request)
	def wakeup():
	return self.response and (self.response.correlation_id == correlation_id)
	self.connection.wait(wakeup, msg="Waiting for response")
	response = self.response
	self.response = None # Ready for next response.
	self.receiver.flow(1) # Set up credit for the next response.
	return response

	@property
	def reply_to(self):
	"""Return the dynamic address of our receiver."""
	return self.receiver.remote_source.address

	def on_message(self, event):
	"""Called when we receive a message for our receiver."""
	self.response = event.message
	self.connection.container.yield_() # Wake up the wait() loop to handle the message.