326 lines
10 KiB
Python
326 lines
10 KiB
Python
'''
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Unit test for tranports classes.
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'''
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import unittest
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import socket
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import lib
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lib.setup_env()
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from xmpp_mocks import IdleQueueThread, IdleMock
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from common.xmpp import transports_nb
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class TestModuleLevelFunctions(unittest.TestCase):
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'''
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Test class for functions defined at module level
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'''
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def test_urisplit(self):
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def check_uri(uri, proto, host, path):
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_proto, _host, _path = transports_nb.urisplit(uri)
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self.assertEqual(proto, _proto)
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self.assertEqual(host, _host)
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self.assertEqual(path, _path)
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check_uri('http://httpcm.jabber.org/webclient',
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proto='http', host='httpcm.jabber.org', path='/webclient')
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def test_get_proxy_data_from_dict(self):
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def check_dict(proxy_dict, host, port, user, passwd):
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_host, _port, _user, _passwd = transports_nb.get_proxy_data_from_dict(
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proxy_dict)
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self.assertEqual(_host, host)
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self.assertEqual(_port, port)
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self.assertEqual(_user, user)
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self.assertEqual(_passwd, passwd)
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bosh_dict = {'bosh_content': u'text/xml; charset=utf-8',
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'bosh_hold': 2,
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'bosh_http_pipelining': False,
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'bosh_port': 5280,
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'bosh_uri': u'http://gajim.org:5280/http-bind',
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'bosh_useproxy': False,
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'bosh_wait': 30,
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'bosh_wait_for_restart_response': False,
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'host': u'172.16.99.11',
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'pass': u'pass',
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'port': 3128,
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'type': u'bosh',
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'useauth': True,
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'user': u'user'}
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check_dict(bosh_dict, host=u'gajim.org', port=5280, user=u'user',
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passwd=u'pass')
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proxy_dict = {'bosh_content': u'text/xml; charset=utf-8',
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'bosh_hold': 2,
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'bosh_http_pipelining': False,
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'bosh_port': 5280,
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'bosh_uri': u'',
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'bosh_useproxy': True,
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'bosh_wait': 30,
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'bosh_wait_for_restart_response': False,
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'host': u'172.16.99.11',
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'pass': u'pass',
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'port': 3128,
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'type': 'socks5',
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'useauth': True,
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'user': u'user'}
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check_dict(proxy_dict, host=u'172.16.99.11', port=3128, user=u'user',
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passwd=u'pass')
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class AbstractTransportTest(unittest.TestCase):
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''' Encapsulates Idlequeue instantiation for transports and more...'''
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def setUp(self):
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''' IdleQueue thread is run and dummy connection is created. '''
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self.idlequeue_thread = IdleQueueThread()
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self.idlequeue_thread.start()
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self._setup_hook()
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def tearDown(self):
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''' IdleQueue thread is stopped. '''
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self._teardown_hook()
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self.idlequeue_thread.stop_thread()
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self.idlequeue_thread.join()
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def _setup_hook(self):
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pass
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def _teardown_hook(self):
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pass
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def expect_receive(self, expected, count=1, msg=None):
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'''
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Returns a callback function that will assert whether the data passed to
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it equals the one specified when calling this function.
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Can be used to make sure transport dispatch correct data.
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'''
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def receive(data, *args, **kwargs):
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self.assertEqual(data, expected, msg=msg)
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self._expected_count -= 1
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self._expected_count = count
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return receive
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def have_received_expected(self):
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'''
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Plays together with expect_receive(). Will return true if expected_rcv
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callback was called as often as specified
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'''
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return self._expected_count == 0
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class TestNonBlockingTCP(AbstractTransportTest):
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'''
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Test class for NonBlockingTCP. Will actually try to connect to an existing
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XMPP server.
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'''
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class MockClient(IdleMock):
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''' Simple client to test transport functionality '''
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def __init__(self, idlequeue, testcase):
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self.idlequeue = idlequeue
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self.testcase = testcase
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IdleMock.__init__(self)
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def do_connect(self, establish_tls=False, proxy_dict=None):
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try:
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ips = socket.getaddrinfo('gajim.org', 5222,
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socket.AF_UNSPEC,socket.SOCK_STREAM)
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ip = ips[0]
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except socket.error, e:
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self.testcase.fail(msg=str(e))
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self.socket = transports_nb.NonBlockingTCP(
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raise_event=lambda event_type, data: self.testcase.assertTrue(
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event_type and data),
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on_disconnect=lambda: self.on_success(mode='SocketDisconnect'),
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idlequeue=self.idlequeue,
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estabilish_tls=establish_tls,
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certs=('../data/other/cacerts.pem', 'tmp/cacerts.pem'),
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proxy_dict=proxy_dict)
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self.socket.PlugIn(self)
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self.socket.connect(conn_5tuple=ip,
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on_connect=lambda: self.on_success(mode='TCPconnect'),
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on_connect_failure=self.on_failure)
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self.testcase.assertTrue(self.wait(), msg='Connection timed out')
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def do_disconnect(self):
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self.socket.disconnect()
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self.testcase.assertTrue(self.wait(), msg='Disconnect timed out')
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def on_failure(self, err_message):
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self.set_event()
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self.testcase.fail(msg=err_message)
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def on_success(self, mode, data=None):
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if mode == "TCPconnect":
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pass
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if mode == "SocketDisconnect":
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pass
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self.set_event()
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def _setup_hook(self):
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self.client = self.MockClient(idlequeue=self.idlequeue_thread.iq,
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testcase=self)
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def _teardown_hook(self):
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if self.client.socket.state == 'CONNECTED':
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self.client.do_disconnect()
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def test_connect_disconnect_plain(self):
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''' Establish plain connection '''
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self.client.do_connect(establish_tls=False)
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self.assert_(self.client.socket.state == 'CONNECTED')
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self.client.do_disconnect()
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self.assert_(self.client.socket.state == 'DISCONNECTED')
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# FIXME: testcase not working...
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#def test_connect_disconnect_ssl(self):
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# ''' Establish SSL (not TLS) connection '''
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# self.client.do_connect(establish_tls=True)
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# self.assert_(self.client.socket.state == 'CONNECTED')
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# self.client.do_disconnect()
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# self.assert_(self.client.socket.state == 'DISCONNECTED')
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def test_do_receive(self):
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''' Test _do_receive method by overwriting socket.recv '''
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self.client.do_connect()
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sock = self.client.socket
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# transport shall receive data
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data = "Please don't fail"
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sock._recv = lambda buffer: data
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sock.onreceive(self.expect_receive(data))
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sock._do_receive()
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self.assertTrue(self.have_received_expected(), msg='Did not receive data')
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self.assert_(self.client.socket.state == 'CONNECTED')
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# transport shall do nothing as an non-fatal SSL is simulated
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sock._recv = lambda buffer: None
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sock.onreceive(self.assertFalse) # we did not receive anything...
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sock._do_receive()
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self.assert_(self.client.socket.state == 'CONNECTED')
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# transport shall disconnect as remote side closed the connection
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sock._recv = lambda buffer: ''
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sock.onreceive(self.assertFalse) # we did not receive anything...
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sock._do_receive()
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self.assert_(self.client.socket.state == 'DISCONNECTED')
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def test_do_send(self):
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''' Test _do_send method by overwriting socket.send '''
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self.client.do_connect()
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sock = self.client.socket
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outgoing = [] # what we have actually send to our socket.socket
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data_part1 = "Please don't "
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data_part2 = "fail!"
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data_complete = data_part1 + data_part2
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# Simulate everything could be send in one go
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def _send_all(data):
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outgoing.append(data)
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return len(data)
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sock._send = _send_all
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sock.send(data_part1)
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sock.send(data_part2)
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sock._do_send()
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sock._do_send()
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self.assertTrue(self.client.socket.state == 'CONNECTED')
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self.assertTrue(data_part1 in outgoing and data_part2 in outgoing)
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self.assertFalse(sock.sendqueue and sock.sendbuff,
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msg='There is still unsend data in buffers')
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# Simulate data could only be sent in chunks
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self.chunk_count = 0
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outgoing = []
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def _send_chunks(data):
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if self.chunk_count == 0:
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outgoing.append(data_part1)
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self.chunk_count += 1
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return len(data_part1)
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else:
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outgoing.append(data_part2)
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return len(data_part2)
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sock._send = _send_chunks
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sock.send(data_complete)
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sock._do_send() # process first chunk
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sock._do_send() # process the second one
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self.assertTrue(self.client.socket.state == 'CONNECTED')
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self.assertTrue(data_part1 in outgoing and data_part2 in outgoing)
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self.assertFalse(sock.sendqueue and sock.sendbuff,
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msg='There is still unsend data in buffers')
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class TestNonBlockingHTTP(AbstractTransportTest):
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''' Test class for NonBlockingHTTP transport'''
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bosh_http_dict = {
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'http_uri': 'http://httpcm.jabber.org/webclient',
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'http_port': 1010,
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'http_version': 'HTTP/1.1',
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'http_persistent': True,
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'add_proxy_headers': False
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}
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def _get_transport(self, http_dict, proxy_dict=None):
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return transports_nb.NonBlockingHTTP(
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raise_event=None,
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on_disconnect=None,
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idlequeue=self.idlequeue_thread.iq,
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estabilish_tls=False,
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certs=None,
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on_http_request_possible=lambda: None,
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on_persistent_fallback=None,
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http_dict=http_dict,
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proxy_dict=proxy_dict,
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)
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def test_parse_own_http_message(self):
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''' Build a HTTP message and try to parse it afterwards '''
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transport = self._get_transport(self.bosh_http_dict)
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data = "<test>Please don't fail!</test>"
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http_message = transport.build_http_message(data)
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statusline, headers, http_body = transport.parse_http_message(
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http_message)
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self.assertTrue(statusline and isinstance(statusline, list))
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self.assertTrue(headers and isinstance(headers, dict))
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self.assertEqual(data, http_body, msg='Input and output are different')
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def test_receive_http_message(self):
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''' Let _on_receive handle some http messages '''
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transport = self._get_transport(self.bosh_http_dict)
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header = ("HTTP/1.1 200 OK\r\nContent-Type: text/xml; charset=utf-8\r\n" +
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"Content-Length: 88\r\n\r\n")
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payload = "<test>Please don't fail!</test>"
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body = "<body xmlns='http://jabber.org/protocol/httpbind'>%s</body>" \
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% payload
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message = "%s%s" % (header, body)
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# try to receive in one go
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transport.onreceive(self.expect_receive(body, msg='Failed: In one go'))
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transport._on_receive(message)
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self.assertTrue(self.have_received_expected(), msg='Failed: In one go')
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# try to receive in chunks
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chunk1, chunk2, chunk3 = message[:20], message[20:73], message[73:]
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nextmessage_chunk = "\r\n\r\nHTTP/1.1 200 OK\r\nContent-Type: text/x"
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chunks = (chunk1, chunk2, chunk3, nextmessage_chunk)
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#TODO: BOSH implementatio ndoesn't support that for the moment
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# transport.onreceive(self.expect_receive(body, msg='Failed: In chunks'))
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# for chunk in chunks:
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# transport._on_receive(chunk)
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# self.assertTrue(self.have_received_expected(), msg='Failed: In chunks')
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if __name__ == '__main__':
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unittest.main()
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# vim: se ts=3:
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