qpid_tests/broker_0_10/example.py - qpid-python - 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.
 #

 from qpid.datatypes import Message, RangedSet
 from qpid.testlib import TestBase010

 class ExampleTest (TestBase010):
     """
     An example Qpid test, illustrating the unittest framework and the
     python Qpid client. The test class must inherit TestBase.  The
     test code uses the Qpid client to interact with a qpid broker and
     verify it behaves as expected.
     """

     def test_example(self):
         """
         An example test. Note that test functions must start with 'test_'
         to be recognized by the test framework.
         """

         # By inheriting TestBase, self.client is automatically connected
         # and self.session is automatically opened as session(1)
         # Other session methods mimic the protocol.
         session = self.session

         # Now we can send regular commands. If you want to see what the method
         # arguments mean or what other commands are available, you can use the
         # python builtin help() method. For example:
         #help(chan)
         #help(chan.exchange_declare)

         # If you want browse the available protocol methods without being
         # connected to a live server you can use the amqp-doc utility:
         #
         #   Usage amqp-doc [<options>] <spec> [<pattern_1> ... <pattern_n>]
         #
         #   Options:
         #       -e, --regexp    use regex instead of glob when matching

         # Now that we know what commands are available we can use them to
         # interact with the server.

         # Here we use ordinal arguments.
         session.exchange_declare("test", "direct")

         # Here we use keyword arguments.
         session.queue_declare(queue="test-queue", exclusive=True, auto_delete=True)
         session.exchange_bind(queue="test-queue", exchange="test", binding_key="key")

         # Call Session.subscribe to register as a consumer.
         # All the protocol methods return a message object. The message object
         # has fields corresponding to the reply method fields, plus a content
         # field that is filled if the reply includes content. In this case the
         # interesting field is the consumer_tag.
         session.message_subscribe(queue="test-queue", destination="consumer_tag")
         session.message_flow(destination="consumer_tag", unit=session.credit_unit.message, value=0xFFFFFFFFL)
         session.message_flow(destination="consumer_tag", unit=session.credit_unit.byte, value=0xFFFFFFFFL)

         # We can use the session.incoming(...) method to access the messages
         # delivered for our consumer_tag.
         queue = session.incoming("consumer_tag")

         # Now lets publish a message and see if our consumer gets it. To do
         # this we need to import the Message class.
         delivery_properties = session.delivery_properties(routing_key="key")
         sent = Message(delivery_properties, "Hello World!")
         session.message_transfer(destination="test", message=sent)

         # Now we'll wait for the message to arrive. We can use the timeout
         # argument in case the server hangs. By default queue.get() will wait
         # until a message arrives or the connection to the server dies.
         msg = queue.get(timeout=10)

         # And check that we got the right response with assertEqual
         self.assertEqual(sent.body, msg.body)

         # Now acknowledge the message.
         session.message_accept(RangedSet(msg.id))
	#
	# 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.
	#

	from qpid.datatypes import Message, RangedSet
	from qpid.testlib import TestBase010

	class ExampleTest (TestBase010):
	"""
	An example Qpid test, illustrating the unittest framework and the
	python Qpid client. The test class must inherit TestBase. The
	test code uses the Qpid client to interact with a qpid broker and
	verify it behaves as expected.
	"""

	def test_example(self):
	"""
	An example test. Note that test functions must start with 'test_'
	to be recognized by the test framework.
	"""

	# By inheriting TestBase, self.client is automatically connected
	# and self.session is automatically opened as session(1)
	# Other session methods mimic the protocol.
	session = self.session

	# Now we can send regular commands. If you want to see what the method
	# arguments mean or what other commands are available, you can use the
	# python builtin help() method. For example:
	#help(chan)
	#help(chan.exchange_declare)

	# If you want browse the available protocol methods without being
	# connected to a live server you can use the amqp-doc utility:
	#
	# Usage amqp-doc [<options>] <spec> [<pattern_1> ... <pattern_n>]
	#
	# Options:
	# -e, --regexp use regex instead of glob when matching

	# Now that we know what commands are available we can use them to
	# interact with the server.

	# Here we use ordinal arguments.
	session.exchange_declare("test", "direct")

	# Here we use keyword arguments.
	session.queue_declare(queue="test-queue", exclusive=True, auto_delete=True)
	session.exchange_bind(queue="test-queue", exchange="test", binding_key="key")

	# Call Session.subscribe to register as a consumer.
	# All the protocol methods return a message object. The message object
	# has fields corresponding to the reply method fields, plus a content
	# field that is filled if the reply includes content. In this case the
	# interesting field is the consumer_tag.
	session.message_subscribe(queue="test-queue", destination="consumer_tag")
	session.message_flow(destination="consumer_tag", unit=session.credit_unit.message, value=0xFFFFFFFFL)
	session.message_flow(destination="consumer_tag", unit=session.credit_unit.byte, value=0xFFFFFFFFL)

	# We can use the session.incoming(...) method to access the messages
	# delivered for our consumer_tag.
	queue = session.incoming("consumer_tag")

	# Now lets publish a message and see if our consumer gets it. To do
	# this we need to import the Message class.
	delivery_properties = session.delivery_properties(routing_key="key")
	sent = Message(delivery_properties, "Hello World!")
	session.message_transfer(destination="test", message=sent)

	# Now we'll wait for the message to arrive. We can use the timeout
	# argument in case the server hangs. By default queue.get() will wait
	# until a message arrives or the connection to the server dies.
	msg = queue.get(timeout=10)

	# And check that we got the right response with assertEqual
	self.assertEqual(sent.body, msg.body)

	# Now acknowledge the message.
	session.message_accept(RangedSet(msg.id))