"""test building messages with Session""" # Copyright (c) IPython Development Team. # Distributed under the terms of the Modified BSD License. import hmac import os import uuid from datetime import datetime import zmq from zmq.tests import BaseZMQTestCase from zmq.eventloop.zmqstream import ZMQStream from IPython.kernel.zmq import session as ss from IPython.testing.decorators import skipif, module_not_available from IPython.utils.py3compat import string_types from IPython.utils import jsonutil def _bad_packer(obj): raise TypeError("I don't work") def _bad_unpacker(bytes): raise TypeError("I don't work either") class SessionTestCase(BaseZMQTestCase): def setUp(self): BaseZMQTestCase.setUp(self) self.session = ss.Session() class TestSession(SessionTestCase): def test_msg(self): """message format""" msg = self.session.msg('execute') thekeys = set('header parent_header metadata content msg_type msg_id'.split()) s = set(msg.keys()) self.assertEqual(s, thekeys) self.assertTrue(isinstance(msg['content'],dict)) self.assertTrue(isinstance(msg['metadata'],dict)) self.assertTrue(isinstance(msg['header'],dict)) self.assertTrue(isinstance(msg['parent_header'],dict)) self.assertTrue(isinstance(msg['msg_id'],str)) self.assertTrue(isinstance(msg['msg_type'],str)) self.assertEqual(msg['header']['msg_type'], 'execute') self.assertEqual(msg['msg_type'], 'execute') def test_serialize(self): msg = self.session.msg('execute', content=dict(a=10, b=1.1)) msg_list = self.session.serialize(msg, ident=b'foo') ident, msg_list = self.session.feed_identities(msg_list) new_msg = self.session.deserialize(msg_list) self.assertEqual(ident[0], b'foo') self.assertEqual(new_msg['msg_id'],msg['msg_id']) self.assertEqual(new_msg['msg_type'],msg['msg_type']) self.assertEqual(new_msg['header'],msg['header']) self.assertEqual(new_msg['content'],msg['content']) self.assertEqual(new_msg['parent_header'],msg['parent_header']) self.assertEqual(new_msg['metadata'],msg['metadata']) # ensure floats don't come out as Decimal: self.assertEqual(type(new_msg['content']['b']),type(new_msg['content']['b'])) def test_default_secure(self): self.assertIsInstance(self.session.key, bytes) self.assertIsInstance(self.session.auth, hmac.HMAC) def test_send(self): ctx = zmq.Context.instance() A = ctx.socket(zmq.PAIR) B = ctx.socket(zmq.PAIR) A.bind("inproc://test") B.connect("inproc://test") msg = self.session.msg('execute', content=dict(a=10)) self.session.send(A, msg, ident=b'foo', buffers=[b'bar']) ident, msg_list = self.session.feed_identities(B.recv_multipart()) new_msg = self.session.deserialize(msg_list) self.assertEqual(ident[0], b'foo') self.assertEqual(new_msg['msg_id'],msg['msg_id']) self.assertEqual(new_msg['msg_type'],msg['msg_type']) self.assertEqual(new_msg['header'],msg['header']) self.assertEqual(new_msg['content'],msg['content']) self.assertEqual(new_msg['parent_header'],msg['parent_header']) self.assertEqual(new_msg['metadata'],msg['metadata']) self.assertEqual(new_msg['buffers'],[b'bar']) content = msg['content'] header = msg['header'] header['date'] = datetime.now() parent = msg['parent_header'] metadata = msg['metadata'] msg_type = header['msg_type'] self.session.send(A, None, content=content, parent=parent, header=header, metadata=metadata, ident=b'foo', buffers=[b'bar']) ident, msg_list = self.session.feed_identities(B.recv_multipart()) new_msg = self.session.deserialize(msg_list) self.assertEqual(ident[0], b'foo') self.assertEqual(new_msg['msg_id'],msg['msg_id']) self.assertEqual(new_msg['msg_type'],msg['msg_type']) self.assertEqual(new_msg['header'],msg['header']) self.assertEqual(new_msg['content'],msg['content']) self.assertEqual(new_msg['metadata'],msg['metadata']) self.assertEqual(new_msg['parent_header'],msg['parent_header']) self.assertEqual(new_msg['buffers'],[b'bar']) header['date'] = datetime.now() self.session.send(A, msg, ident=b'foo', buffers=[b'bar']) ident, new_msg = self.session.recv(B) self.assertEqual(ident[0], b'foo') self.assertEqual(new_msg['msg_id'],msg['msg_id']) self.assertEqual(new_msg['msg_type'],msg['msg_type']) self.assertEqual(new_msg['header'],msg['header']) self.assertEqual(new_msg['content'],msg['content']) self.assertEqual(new_msg['metadata'],msg['metadata']) self.assertEqual(new_msg['parent_header'],msg['parent_header']) self.assertEqual(new_msg['buffers'],[b'bar']) A.close() B.close() ctx.term() def test_args(self): """initialization arguments for Session""" s = self.session self.assertTrue(s.pack is ss.default_packer) self.assertTrue(s.unpack is ss.default_unpacker) self.assertEqual(s.username, os.environ.get('USER', u'username')) s = ss.Session() self.assertEqual(s.username, os.environ.get('USER', u'username')) self.assertRaises(TypeError, ss.Session, pack='hi') self.assertRaises(TypeError, ss.Session, unpack='hi') u = str(uuid.uuid4()) s = ss.Session(username=u'carrot', session=u) self.assertEqual(s.session, u) self.assertEqual(s.username, u'carrot') def test_tracking(self): """test tracking messages""" a,b = self.create_bound_pair(zmq.PAIR, zmq.PAIR) s = self.session s.copy_threshold = 1 stream = ZMQStream(a) msg = s.send(a, 'hello', track=False) self.assertTrue(msg['tracker'] is ss.DONE) msg = s.send(a, 'hello', track=True) self.assertTrue(isinstance(msg['tracker'], zmq.MessageTracker)) M = zmq.Message(b'hi there', track=True) msg = s.send(a, 'hello', buffers=[M], track=True) t = msg['tracker'] self.assertTrue(isinstance(t, zmq.MessageTracker)) self.assertRaises(zmq.NotDone, t.wait, .1) del M t.wait(1) # this will raise def test_unique_msg_ids(self): """test that messages receive unique ids""" ids = set() for i in range(2**12): h = self.session.msg_header('test') msg_id = h['msg_id'] self.assertTrue(msg_id not in ids) ids.add(msg_id) def test_feed_identities(self): """scrub the front for zmq IDENTITIES""" theids = "engine client other".split() content = dict(code='whoda',stuff=object()) themsg = self.session.msg('execute',content=content) pmsg = theids def test_session_id(self): session = ss.Session() # get bs before us bs = session.bsession us = session.session self.assertEqual(us.encode('ascii'), bs) session = ss.Session() # get us before bs us = session.session bs = session.bsession self.assertEqual(us.encode('ascii'), bs) # change propagates: session.session = 'something else' bs = session.bsession us = session.session self.assertEqual(us.encode('ascii'), bs) session = ss.Session(session='stuff') # get us before bs self.assertEqual(session.bsession, session.session.encode('ascii')) self.assertEqual(b'stuff', session.bsession) def test_zero_digest_history(self): session = ss.Session(digest_history_size=0) for i in range(11): session._add_digest(uuid.uuid4().bytes) self.assertEqual(len(session.digest_history), 0) def test_cull_digest_history(self): session = ss.Session(digest_history_size=100) for i in range(100): session._add_digest(uuid.uuid4().bytes) self.assertTrue(len(session.digest_history) == 100) session._add_digest(uuid.uuid4().bytes) self.assertTrue(len(session.digest_history) == 91) for i in range(9): session._add_digest(uuid.uuid4().bytes) self.assertTrue(len(session.digest_history) == 100) session._add_digest(uuid.uuid4().bytes) self.assertTrue(len(session.digest_history) == 91) def test_bad_pack(self): try: session = ss.Session(pack=_bad_packer) except ValueError as e: self.assertIn("could not serialize", str(e)) self.assertIn("don't work", str(e)) else: self.fail("Should have raised ValueError") def test_bad_unpack(self): try: session = ss.Session(unpack=_bad_unpacker) except ValueError as e: self.assertIn("could not handle output", str(e)) self.assertIn("don't work either", str(e)) else: self.fail("Should have raised ValueError") def test_bad_packer(self): try: session = ss.Session(packer=__name__ + '._bad_packer') except ValueError as e: self.assertIn("could not serialize", str(e)) self.assertIn("don't work", str(e)) else: self.fail("Should have raised ValueError") def test_bad_unpacker(self): try: session = ss.Session(unpacker=__name__ + '._bad_unpacker') except ValueError as e: self.assertIn("could not handle output", str(e)) self.assertIn("don't work either", str(e)) else: self.fail("Should have raised ValueError") def test_bad_roundtrip(self): with self.assertRaises(ValueError): session = ss.Session(unpack=lambda b: 5) def _datetime_test(self, session): content = dict(t=datetime.now()) metadata = dict(t=datetime.now()) p = session.msg('msg') msg = session.msg('msg', content=content, metadata=metadata, parent=p['header']) smsg = session.serialize(msg) msg2 = session.deserialize(session.feed_identities(smsg)[1]) assert isinstance(msg2['header']['date'], datetime) self.assertEqual(msg['header'], msg2['header']) self.assertEqual(msg['parent_header'], msg2['parent_header']) self.assertEqual(msg['parent_header'], msg2['parent_header']) assert isinstance(msg['content']['t'], datetime) assert isinstance(msg['metadata']['t'], datetime) assert isinstance(msg2['content']['t'], string_types) assert isinstance(msg2['metadata']['t'], string_types) self.assertEqual(msg['content'], jsonutil.extract_dates(msg2['content'])) self.assertEqual(msg['content'], jsonutil.extract_dates(msg2['content'])) def test_datetimes(self): self._datetime_test(self.session) def test_datetimes_pickle(self): session = ss.Session(packer='pickle') self._datetime_test(session) @skipif(module_not_available('msgpack')) def test_datetimes_msgpack(self): import msgpack session = ss.Session( pack=msgpack.packb, unpack=lambda buf: msgpack.unpackb(buf, encoding='utf8'), ) self._datetime_test(session) def test_send_raw(self): ctx = zmq.Context.instance() A = ctx.socket(zmq.PAIR) B = ctx.socket(zmq.PAIR) A.bind("inproc://test") B.connect("inproc://test") msg = self.session.msg('execute', content=dict(a=10)) msg_list = [self.session.pack(msg[part]) for part in ['header', 'parent_header', 'metadata', 'content']] self.session.send_raw(A, msg_list, ident=b'foo') ident, new_msg_list = self.session.feed_identities(B.recv_multipart()) new_msg = self.session.deserialize(new_msg_list) self.assertEqual(ident[0], b'foo') self.assertEqual(new_msg['msg_type'],msg['msg_type']) self.assertEqual(new_msg['header'],msg['header']) self.assertEqual(new_msg['parent_header'],msg['parent_header']) self.assertEqual(new_msg['content'],msg['content']) self.assertEqual(new_msg['metadata'],msg['metadata']) A.close() B.close() ctx.term()