qpid_tests/broker_0_10/lvq.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.tests.messaging.implementation import *
 from qpid.tests.messaging import Base
 import math
 import random

 class LVQTests (Base):
     """
     Test last value queue behaviour
     """

     def setup_connection(self):
         return Connection.establish(self.broker, **self.connection_options())

     def setup_session(self):
         return self.conn.session()

     def test_simple(self):
         snd = self.ssn.sender("lvq; {create: sender, delete: sender, node: {x-declare:{arguments:{'qpid.last_value_queue_key':lvq-key}}}}",
                               durable=self.durable())
         snd.send(create_message("a", "a-1"))
         snd.send(create_message("b", "b-1"))
         snd.send(create_message("a", "a-2"))
         snd.send(create_message("a", "a-3"))
         snd.send(create_message("c", "c-1"))
         snd.send(create_message("c", "c-2"))

         rcv = self.ssn.receiver("lvq; {mode: browse}")
         assert fetch_all(rcv) == ["b-1", "a-3", "c-2"]

         snd.send(create_message("b", "b-2"))
         assert fetch_all(rcv) == ["b-2"]

         snd.send(create_message("c", "c-3"))
         snd.send(create_message("d", "d-1"))
         assert fetch_all(rcv) == ["c-3", "d-1"]

         snd.send(create_message("b", "b-3"))
         assert fetch_all(rcv) == ["b-3"]

         rcv.close()
         rcv = self.ssn.receiver("lvq; {mode: browse}")
         assert (fetch_all(rcv) == ["a-3", "c-3", "d-1", "b-3"])

     def check_ring_lvq(self, ring_size, keys, message_count):
         address = "lvq; {create: sender, delete: sender, node: {x-declare:{arguments:{'qpid.last_value_queue_key':lvq-key,'qpid.policy_type':'ring','qpid.max_count':%i}}}}" % ring_size
         snd = self.ssn.sender(address, durable=self.durable())
         counters = {}
         for k in keys:
             counters[k] = 0
         messages = []
         for i in range(message_count):
             k = random.choice(keys)
             counters[k] += 1
             messages.append(create_message(k, "%s-%i" % (k, counters[k])))
         # make sure we have sent at least one message for every key
         for k, v in counters.iteritems():
             if v == 0:
                 counters[k] += 1
                 messages.append(create_message(k, "%s-%i" % (k, counters[k])))

         for m in messages:
             snd.send(m)

         rcv = self.ssn.receiver("lvq; {mode: browse}")
         retrieved = fetch_all_as_tuples(rcv)
         print [v for k, v in retrieved]

         for k, v in retrieved:
             assert v == "%s-%i" % (k, counters[k])
         assert len(retrieved) <= ring_size

     def test_ring_lvq1(self):
         self.check_ring_lvq(25, ["a","b","c","d"], 50)

     def test_ring_lvq2(self):
         self.check_ring_lvq(5, ["a","b","c","d","e","f","g"], 50)

     def test_ring_lvq3(self):
         self.check_ring_lvq(49, ["a"], 50)

 def create_message(key, content):
     msg = Message(content=content, properties={"lvq-key":key})
     return msg

 def fetch_all(rcv):
     content = []
     while True:
         try:
             content.append(rcv.fetch(0).content)
         except Empty:
             break
     return content

 def fetch_all_as_tuples(rcv):
     content = []
     while True:
         try:
             m = rcv.fetch(0)
             k = m.properties["lvq-key"]
             content.append((k, m.content))
         except Empty:
             break
     return content
	#
	# 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.tests.messaging.implementation import *
	from qpid.tests.messaging import Base
	import math
	import random

	class LVQTests (Base):
	"""
	Test last value queue behaviour
	"""

	def setup_connection(self):
	return Connection.establish(self.broker, **self.connection_options())

	def setup_session(self):
	return self.conn.session()

	def test_simple(self):
	snd = self.ssn.sender("lvq; {create: sender, delete: sender, node: {x-declare:{arguments:{'qpid.last_value_queue_key':lvq-key}}}}",
	durable=self.durable())
	snd.send(create_message("a", "a-1"))
	snd.send(create_message("b", "b-1"))
	snd.send(create_message("a", "a-2"))
	snd.send(create_message("a", "a-3"))
	snd.send(create_message("c", "c-1"))
	snd.send(create_message("c", "c-2"))

	rcv = self.ssn.receiver("lvq; {mode: browse}")
	assert fetch_all(rcv) == ["b-1", "a-3", "c-2"]

	snd.send(create_message("b", "b-2"))
	assert fetch_all(rcv) == ["b-2"]

	snd.send(create_message("c", "c-3"))
	snd.send(create_message("d", "d-1"))
	assert fetch_all(rcv) == ["c-3", "d-1"]

	snd.send(create_message("b", "b-3"))
	assert fetch_all(rcv) == ["b-3"]

	rcv.close()
	rcv = self.ssn.receiver("lvq; {mode: browse}")
	assert (fetch_all(rcv) == ["a-3", "c-3", "d-1", "b-3"])

	def check_ring_lvq(self, ring_size, keys, message_count):
	address = "lvq; {create: sender, delete: sender, node: {x-declare:{arguments:{'qpid.last_value_queue_key':lvq-key,'qpid.policy_type':'ring','qpid.max_count':%i}}}}" % ring_size
	snd = self.ssn.sender(address, durable=self.durable())
	counters = {}
	for k in keys:
	counters[k] = 0
	messages = []
	for i in range(message_count):
	k = random.choice(keys)
	counters[k] += 1
	messages.append(create_message(k, "%s-%i" % (k, counters[k])))
	# make sure we have sent at least one message for every key
	for k, v in counters.iteritems():
	if v == 0:
	counters[k] += 1
	messages.append(create_message(k, "%s-%i" % (k, counters[k])))

	for m in messages:
	snd.send(m)

	rcv = self.ssn.receiver("lvq; {mode: browse}")
	retrieved = fetch_all_as_tuples(rcv)
	print [v for k, v in retrieved]

	for k, v in retrieved:
	assert v == "%s-%i" % (k, counters[k])
	assert len(retrieved) <= ring_size

	def test_ring_lvq1(self):
	self.check_ring_lvq(25, ["a","b","c","d"], 50)

	def test_ring_lvq2(self):
	self.check_ring_lvq(5, ["a","b","c","d","e","f","g"], 50)

	def test_ring_lvq3(self):
	self.check_ring_lvq(49, ["a"], 50)

	def create_message(key, content):
	msg = Message(content=content, properties={"lvq-key":key})
	return msg

	def fetch_all(rcv):
	content = []
	while True:
	try:
	content.append(rcv.fetch(0).content)
	except Empty:
	break
	return content

	def fetch_all_as_tuples(rcv):
	content = []
	while True:
	try:
	m = rcv.fetch(0)
	k = m.properties["lvq-key"]
	content.append((k, m.content))
	except Empty:
	break
	return content