diff options
Diffstat (limited to 'external_libs/python/zmq/tests')
26 files changed, 0 insertions, 3789 deletions
diff --git a/external_libs/python/zmq/tests/__init__.py b/external_libs/python/zmq/tests/__init__.py deleted file mode 100644 index 325a3f19..00000000 --- a/external_libs/python/zmq/tests/__init__.py +++ /dev/null @@ -1,211 +0,0 @@ -# Copyright (c) PyZMQ Developers. -# Distributed under the terms of the Modified BSD License. - -import functools -import sys -import time -from threading import Thread - -from unittest import TestCase - -import zmq -from zmq.utils import jsonapi - -try: - import gevent - from zmq import green as gzmq - have_gevent = True -except ImportError: - have_gevent = False - -try: - from unittest import SkipTest -except ImportError: - try: - from nose import SkipTest - except ImportError: - class SkipTest(Exception): - pass - -PYPY = 'PyPy' in sys.version - -#----------------------------------------------------------------------------- -# skip decorators (directly from unittest) -#----------------------------------------------------------------------------- - -_id = lambda x: x - -def skip(reason): - """ - Unconditionally skip a test. - """ - def decorator(test_item): - if not (isinstance(test_item, type) and issubclass(test_item, TestCase)): - @functools.wraps(test_item) - def skip_wrapper(*args, **kwargs): - raise SkipTest(reason) - test_item = skip_wrapper - - test_item.__unittest_skip__ = True - test_item.__unittest_skip_why__ = reason - return test_item - return decorator - -def skip_if(condition, reason="Skipped"): - """ - Skip a test if the condition is true. - """ - if condition: - return skip(reason) - return _id - -skip_pypy = skip_if(PYPY, "Doesn't work on PyPy") - -#----------------------------------------------------------------------------- -# Base test class -#----------------------------------------------------------------------------- - -class BaseZMQTestCase(TestCase): - green = False - - @property - def Context(self): - if self.green: - return gzmq.Context - else: - return zmq.Context - - def socket(self, socket_type): - s = self.context.socket(socket_type) - self.sockets.append(s) - return s - - def setUp(self): - if self.green and not have_gevent: - raise SkipTest("requires gevent") - self.context = self.Context.instance() - self.sockets = [] - - def tearDown(self): - contexts = set([self.context]) - while self.sockets: - sock = self.sockets.pop() - contexts.add(sock.context) # in case additional contexts are created - sock.close(0) - for ctx in contexts: - t = Thread(target=ctx.term) - t.daemon = True - t.start() - t.join(timeout=2) - if t.is_alive(): - # reset Context.instance, so the failure to term doesn't corrupt subsequent tests - zmq.sugar.context.Context._instance = None - raise RuntimeError("context could not terminate, open sockets likely remain in test") - - def create_bound_pair(self, type1=zmq.PAIR, type2=zmq.PAIR, interface='tcp://127.0.0.1'): - """Create a bound socket pair using a random port.""" - s1 = self.context.socket(type1) - s1.setsockopt(zmq.LINGER, 0) - port = s1.bind_to_random_port(interface) - s2 = self.context.socket(type2) - s2.setsockopt(zmq.LINGER, 0) - s2.connect('%s:%s' % (interface, port)) - self.sockets.extend([s1,s2]) - return s1, s2 - - def ping_pong(self, s1, s2, msg): - s1.send(msg) - msg2 = s2.recv() - s2.send(msg2) - msg3 = s1.recv() - return msg3 - - def ping_pong_json(self, s1, s2, o): - if jsonapi.jsonmod is None: - raise SkipTest("No json library") - s1.send_json(o) - o2 = s2.recv_json() - s2.send_json(o2) - o3 = s1.recv_json() - return o3 - - def ping_pong_pyobj(self, s1, s2, o): - s1.send_pyobj(o) - o2 = s2.recv_pyobj() - s2.send_pyobj(o2) - o3 = s1.recv_pyobj() - return o3 - - def assertRaisesErrno(self, errno, func, *args, **kwargs): - try: - func(*args, **kwargs) - except zmq.ZMQError as e: - self.assertEqual(e.errno, errno, "wrong error raised, expected '%s' \ -got '%s'" % (zmq.ZMQError(errno), zmq.ZMQError(e.errno))) - else: - self.fail("Function did not raise any error") - - def _select_recv(self, multipart, socket, **kwargs): - """call recv[_multipart] in a way that raises if there is nothing to receive""" - if zmq.zmq_version_info() >= (3,1,0): - # zmq 3.1 has a bug, where poll can return false positives, - # so we wait a little bit just in case - # See LIBZMQ-280 on JIRA - time.sleep(0.1) - - r,w,x = zmq.select([socket], [], [], timeout=5) - assert len(r) > 0, "Should have received a message" - kwargs['flags'] = zmq.DONTWAIT | kwargs.get('flags', 0) - - recv = socket.recv_multipart if multipart else socket.recv - return recv(**kwargs) - - def recv(self, socket, **kwargs): - """call recv in a way that raises if there is nothing to receive""" - return self._select_recv(False, socket, **kwargs) - - def recv_multipart(self, socket, **kwargs): - """call recv_multipart in a way that raises if there is nothing to receive""" - return self._select_recv(True, socket, **kwargs) - - -class PollZMQTestCase(BaseZMQTestCase): - pass - -class GreenTest: - """Mixin for making green versions of test classes""" - green = True - - def assertRaisesErrno(self, errno, func, *args, **kwargs): - if errno == zmq.EAGAIN: - raise SkipTest("Skipping because we're green.") - try: - func(*args, **kwargs) - except zmq.ZMQError: - e = sys.exc_info()[1] - self.assertEqual(e.errno, errno, "wrong error raised, expected '%s' \ -got '%s'" % (zmq.ZMQError(errno), zmq.ZMQError(e.errno))) - else: - self.fail("Function did not raise any error") - - def tearDown(self): - contexts = set([self.context]) - while self.sockets: - sock = self.sockets.pop() - contexts.add(sock.context) # in case additional contexts are created - sock.close() - try: - gevent.joinall([gevent.spawn(ctx.term) for ctx in contexts], timeout=2, raise_error=True) - except gevent.Timeout: - raise RuntimeError("context could not terminate, open sockets likely remain in test") - - def skip_green(self): - raise SkipTest("Skipping because we are green") - -def skip_green(f): - def skipping_test(self, *args, **kwargs): - if self.green: - raise SkipTest("Skipping because we are green") - else: - return f(self, *args, **kwargs) - return skipping_test diff --git a/external_libs/python/zmq/tests/test_auth.py b/external_libs/python/zmq/tests/test_auth.py deleted file mode 100644 index d350f61f..00000000 --- a/external_libs/python/zmq/tests/test_auth.py +++ /dev/null @@ -1,431 +0,0 @@ -# -*- coding: utf8 -*- - -# Copyright (C) PyZMQ Developers -# Distributed under the terms of the Modified BSD License. - -import logging -import os -import shutil -import sys -import tempfile - -import zmq.auth -from zmq.auth.ioloop import IOLoopAuthenticator -from zmq.auth.thread import ThreadAuthenticator - -from zmq.eventloop import ioloop, zmqstream -from zmq.tests import (BaseZMQTestCase, SkipTest) - -class BaseAuthTestCase(BaseZMQTestCase): - def setUp(self): - if zmq.zmq_version_info() < (4,0): - raise SkipTest("security is new in libzmq 4.0") - try: - zmq.curve_keypair() - except zmq.ZMQError: - raise SkipTest("security requires libzmq to be linked against libsodium") - super(BaseAuthTestCase, self).setUp() - # enable debug logging while we run tests - logging.getLogger('zmq.auth').setLevel(logging.DEBUG) - self.auth = self.make_auth() - self.auth.start() - self.base_dir, self.public_keys_dir, self.secret_keys_dir = self.create_certs() - - def make_auth(self): - raise NotImplementedError() - - def tearDown(self): - if self.auth: - self.auth.stop() - self.auth = None - self.remove_certs(self.base_dir) - super(BaseAuthTestCase, self).tearDown() - - def create_certs(self): - """Create CURVE certificates for a test""" - - # Create temporary CURVE keypairs for this test run. We create all keys in a - # temp directory and then move them into the appropriate private or public - # directory. - - base_dir = tempfile.mkdtemp() - keys_dir = os.path.join(base_dir, 'certificates') - public_keys_dir = os.path.join(base_dir, 'public_keys') - secret_keys_dir = os.path.join(base_dir, 'private_keys') - - os.mkdir(keys_dir) - os.mkdir(public_keys_dir) - os.mkdir(secret_keys_dir) - - server_public_file, server_secret_file = zmq.auth.create_certificates(keys_dir, "server") - client_public_file, client_secret_file = zmq.auth.create_certificates(keys_dir, "client") - - for key_file in os.listdir(keys_dir): - if key_file.endswith(".key"): - shutil.move(os.path.join(keys_dir, key_file), - os.path.join(public_keys_dir, '.')) - - for key_file in os.listdir(keys_dir): - if key_file.endswith(".key_secret"): - shutil.move(os.path.join(keys_dir, key_file), - os.path.join(secret_keys_dir, '.')) - - return (base_dir, public_keys_dir, secret_keys_dir) - - def remove_certs(self, base_dir): - """Remove certificates for a test""" - shutil.rmtree(base_dir) - - def load_certs(self, secret_keys_dir): - """Return server and client certificate keys""" - server_secret_file = os.path.join(secret_keys_dir, "server.key_secret") - client_secret_file = os.path.join(secret_keys_dir, "client.key_secret") - - server_public, server_secret = zmq.auth.load_certificate(server_secret_file) - client_public, client_secret = zmq.auth.load_certificate(client_secret_file) - - return server_public, server_secret, client_public, client_secret - - -class TestThreadAuthentication(BaseAuthTestCase): - """Test authentication running in a thread""" - - def make_auth(self): - return ThreadAuthenticator(self.context) - - def can_connect(self, server, client): - """Check if client can connect to server using tcp transport""" - result = False - iface = 'tcp://127.0.0.1' - port = server.bind_to_random_port(iface) - client.connect("%s:%i" % (iface, port)) - msg = [b"Hello World"] - server.send_multipart(msg) - if client.poll(1000): - rcvd_msg = client.recv_multipart() - self.assertEqual(rcvd_msg, msg) - result = True - return result - - def test_null(self): - """threaded auth - NULL""" - # A default NULL connection should always succeed, and not - # go through our authentication infrastructure at all. - self.auth.stop() - self.auth = None - - server = self.socket(zmq.PUSH) - client = self.socket(zmq.PULL) - self.assertTrue(self.can_connect(server, client)) - - # By setting a domain we switch on authentication for NULL sockets, - # though no policies are configured yet. The client connection - # should still be allowed. - server = self.socket(zmq.PUSH) - server.zap_domain = b'global' - client = self.socket(zmq.PULL) - self.assertTrue(self.can_connect(server, client)) - - def test_blacklist(self): - """threaded auth - Blacklist""" - # Blacklist 127.0.0.1, connection should fail - self.auth.deny('127.0.0.1') - server = self.socket(zmq.PUSH) - # By setting a domain we switch on authentication for NULL sockets, - # though no policies are configured yet. - server.zap_domain = b'global' - client = self.socket(zmq.PULL) - self.assertFalse(self.can_connect(server, client)) - - def test_whitelist(self): - """threaded auth - Whitelist""" - # Whitelist 127.0.0.1, connection should pass" - self.auth.allow('127.0.0.1') - server = self.socket(zmq.PUSH) - # By setting a domain we switch on authentication for NULL sockets, - # though no policies are configured yet. - server.zap_domain = b'global' - client = self.socket(zmq.PULL) - self.assertTrue(self.can_connect(server, client)) - - def test_plain(self): - """threaded auth - PLAIN""" - - # Try PLAIN authentication - without configuring server, connection should fail - server = self.socket(zmq.PUSH) - server.plain_server = True - client = self.socket(zmq.PULL) - client.plain_username = b'admin' - client.plain_password = b'Password' - self.assertFalse(self.can_connect(server, client)) - - # Try PLAIN authentication - with server configured, connection should pass - server = self.socket(zmq.PUSH) - server.plain_server = True - client = self.socket(zmq.PULL) - client.plain_username = b'admin' - client.plain_password = b'Password' - self.auth.configure_plain(domain='*', passwords={'admin': 'Password'}) - self.assertTrue(self.can_connect(server, client)) - - # Try PLAIN authentication - with bogus credentials, connection should fail - server = self.socket(zmq.PUSH) - server.plain_server = True - client = self.socket(zmq.PULL) - client.plain_username = b'admin' - client.plain_password = b'Bogus' - self.assertFalse(self.can_connect(server, client)) - - # Remove authenticator and check that a normal connection works - self.auth.stop() - self.auth = None - - server = self.socket(zmq.PUSH) - client = self.socket(zmq.PULL) - self.assertTrue(self.can_connect(server, client)) - client.close() - server.close() - - def test_curve(self): - """threaded auth - CURVE""" - self.auth.allow('127.0.0.1') - certs = self.load_certs(self.secret_keys_dir) - server_public, server_secret, client_public, client_secret = certs - - #Try CURVE authentication - without configuring server, connection should fail - server = self.socket(zmq.PUSH) - server.curve_publickey = server_public - server.curve_secretkey = server_secret - server.curve_server = True - client = self.socket(zmq.PULL) - client.curve_publickey = client_public - client.curve_secretkey = client_secret - client.curve_serverkey = server_public - self.assertFalse(self.can_connect(server, client)) - - #Try CURVE authentication - with server configured to CURVE_ALLOW_ANY, connection should pass - self.auth.configure_curve(domain='*', location=zmq.auth.CURVE_ALLOW_ANY) - server = self.socket(zmq.PUSH) - server.curve_publickey = server_public - server.curve_secretkey = server_secret - server.curve_server = True - client = self.socket(zmq.PULL) - client.curve_publickey = client_public - client.curve_secretkey = client_secret - client.curve_serverkey = server_public - self.assertTrue(self.can_connect(server, client)) - - # Try CURVE authentication - with server configured, connection should pass - self.auth.configure_curve(domain='*', location=self.public_keys_dir) - server = self.socket(zmq.PUSH) - server.curve_publickey = server_public - server.curve_secretkey = server_secret - server.curve_server = True - client = self.socket(zmq.PULL) - client.curve_publickey = client_public - client.curve_secretkey = client_secret - client.curve_serverkey = server_public - self.assertTrue(self.can_connect(server, client)) - - # Remove authenticator and check that a normal connection works - self.auth.stop() - self.auth = None - - # Try connecting using NULL and no authentication enabled, connection should pass - server = self.socket(zmq.PUSH) - client = self.socket(zmq.PULL) - self.assertTrue(self.can_connect(server, client)) - - -def with_ioloop(method, expect_success=True): - """decorator for running tests with an IOLoop""" - def test_method(self): - r = method(self) - - loop = self.io_loop - if expect_success: - self.pullstream.on_recv(self.on_message_succeed) - else: - self.pullstream.on_recv(self.on_message_fail) - - t = loop.time() - loop.add_callback(self.attempt_connection) - loop.add_callback(self.send_msg) - if expect_success: - loop.add_timeout(t + 1, self.on_test_timeout_fail) - else: - loop.add_timeout(t + 1, self.on_test_timeout_succeed) - - loop.start() - if self.fail_msg: - self.fail(self.fail_msg) - - return r - return test_method - -def should_auth(method): - return with_ioloop(method, True) - -def should_not_auth(method): - return with_ioloop(method, False) - -class TestIOLoopAuthentication(BaseAuthTestCase): - """Test authentication running in ioloop""" - - def setUp(self): - self.fail_msg = None - self.io_loop = ioloop.IOLoop() - super(TestIOLoopAuthentication, self).setUp() - self.server = self.socket(zmq.PUSH) - self.client = self.socket(zmq.PULL) - self.pushstream = zmqstream.ZMQStream(self.server, self.io_loop) - self.pullstream = zmqstream.ZMQStream(self.client, self.io_loop) - - def make_auth(self): - return IOLoopAuthenticator(self.context, io_loop=self.io_loop) - - def tearDown(self): - if self.auth: - self.auth.stop() - self.auth = None - self.io_loop.close(all_fds=True) - super(TestIOLoopAuthentication, self).tearDown() - - def attempt_connection(self): - """Check if client can connect to server using tcp transport""" - iface = 'tcp://127.0.0.1' - port = self.server.bind_to_random_port(iface) - self.client.connect("%s:%i" % (iface, port)) - - def send_msg(self): - """Send a message from server to a client""" - msg = [b"Hello World"] - self.pushstream.send_multipart(msg) - - def on_message_succeed(self, frames): - """A message was received, as expected.""" - if frames != [b"Hello World"]: - self.fail_msg = "Unexpected message received" - self.io_loop.stop() - - def on_message_fail(self, frames): - """A message was received, unexpectedly.""" - self.fail_msg = 'Received messaged unexpectedly, security failed' - self.io_loop.stop() - - def on_test_timeout_succeed(self): - """Test timer expired, indicates test success""" - self.io_loop.stop() - - def on_test_timeout_fail(self): - """Test timer expired, indicates test failure""" - self.fail_msg = 'Test timed out' - self.io_loop.stop() - - @should_auth - def test_none(self): - """ioloop auth - NONE""" - # A default NULL connection should always succeed, and not - # go through our authentication infrastructure at all. - # no auth should be running - self.auth.stop() - self.auth = None - - @should_auth - def test_null(self): - """ioloop auth - NULL""" - # By setting a domain we switch on authentication for NULL sockets, - # though no policies are configured yet. The client connection - # should still be allowed. - self.server.zap_domain = b'global' - - @should_not_auth - def test_blacklist(self): - """ioloop auth - Blacklist""" - # Blacklist 127.0.0.1, connection should fail - self.auth.deny('127.0.0.1') - self.server.zap_domain = b'global' - - @should_auth - def test_whitelist(self): - """ioloop auth - Whitelist""" - # Whitelist 127.0.0.1, which overrides the blacklist, connection should pass" - self.auth.allow('127.0.0.1') - - self.server.setsockopt(zmq.ZAP_DOMAIN, b'global') - - @should_not_auth - def test_plain_unconfigured_server(self): - """ioloop auth - PLAIN, unconfigured server""" - self.client.plain_username = b'admin' - self.client.plain_password = b'Password' - # Try PLAIN authentication - without configuring server, connection should fail - self.server.plain_server = True - - @should_auth - def test_plain_configured_server(self): - """ioloop auth - PLAIN, configured server""" - self.client.plain_username = b'admin' - self.client.plain_password = b'Password' - # Try PLAIN authentication - with server configured, connection should pass - self.server.plain_server = True - self.auth.configure_plain(domain='*', passwords={'admin': 'Password'}) - - @should_not_auth - def test_plain_bogus_credentials(self): - """ioloop auth - PLAIN, bogus credentials""" - self.client.plain_username = b'admin' - self.client.plain_password = b'Bogus' - self.server.plain_server = True - - self.auth.configure_plain(domain='*', passwords={'admin': 'Password'}) - - @should_not_auth - def test_curve_unconfigured_server(self): - """ioloop auth - CURVE, unconfigured server""" - certs = self.load_certs(self.secret_keys_dir) - server_public, server_secret, client_public, client_secret = certs - - self.auth.allow('127.0.0.1') - - self.server.curve_publickey = server_public - self.server.curve_secretkey = server_secret - self.server.curve_server = True - - self.client.curve_publickey = client_public - self.client.curve_secretkey = client_secret - self.client.curve_serverkey = server_public - - @should_auth - def test_curve_allow_any(self): - """ioloop auth - CURVE, CURVE_ALLOW_ANY""" - certs = self.load_certs(self.secret_keys_dir) - server_public, server_secret, client_public, client_secret = certs - - self.auth.allow('127.0.0.1') - self.auth.configure_curve(domain='*', location=zmq.auth.CURVE_ALLOW_ANY) - - self.server.curve_publickey = server_public - self.server.curve_secretkey = server_secret - self.server.curve_server = True - - self.client.curve_publickey = client_public - self.client.curve_secretkey = client_secret - self.client.curve_serverkey = server_public - - @should_auth - def test_curve_configured_server(self): - """ioloop auth - CURVE, configured server""" - self.auth.allow('127.0.0.1') - certs = self.load_certs(self.secret_keys_dir) - server_public, server_secret, client_public, client_secret = certs - - self.auth.configure_curve(domain='*', location=self.public_keys_dir) - - self.server.curve_publickey = server_public - self.server.curve_secretkey = server_secret - self.server.curve_server = True - - self.client.curve_publickey = client_public - self.client.curve_secretkey = client_secret - self.client.curve_serverkey = server_public diff --git a/external_libs/python/zmq/tests/test_cffi_backend.py b/external_libs/python/zmq/tests/test_cffi_backend.py deleted file mode 100644 index 1f85eebf..00000000 --- a/external_libs/python/zmq/tests/test_cffi_backend.py +++ /dev/null @@ -1,310 +0,0 @@ -# -*- coding: utf8 -*- - -import sys -import time - -from unittest import TestCase - -from zmq.tests import BaseZMQTestCase, SkipTest - -try: - from zmq.backend.cffi import ( - zmq_version_info, - PUSH, PULL, IDENTITY, - REQ, REP, POLLIN, POLLOUT, - ) - from zmq.backend.cffi._cffi import ffi, C - have_ffi_backend = True -except ImportError: - have_ffi_backend = False - - -class TestCFFIBackend(TestCase): - - def setUp(self): - if not have_ffi_backend or not 'PyPy' in sys.version: - raise SkipTest('PyPy Tests Only') - - def test_zmq_version_info(self): - version = zmq_version_info() - - assert version[0] in range(2,11) - - def test_zmq_ctx_new_destroy(self): - ctx = C.zmq_ctx_new() - - assert ctx != ffi.NULL - assert 0 == C.zmq_ctx_destroy(ctx) - - def test_zmq_socket_open_close(self): - ctx = C.zmq_ctx_new() - socket = C.zmq_socket(ctx, PUSH) - - assert ctx != ffi.NULL - assert ffi.NULL != socket - assert 0 == C.zmq_close(socket) - assert 0 == C.zmq_ctx_destroy(ctx) - - def test_zmq_setsockopt(self): - ctx = C.zmq_ctx_new() - socket = C.zmq_socket(ctx, PUSH) - - identity = ffi.new('char[3]', 'zmq') - ret = C.zmq_setsockopt(socket, IDENTITY, ffi.cast('void*', identity), 3) - - assert ret == 0 - assert ctx != ffi.NULL - assert ffi.NULL != socket - assert 0 == C.zmq_close(socket) - assert 0 == C.zmq_ctx_destroy(ctx) - - def test_zmq_getsockopt(self): - ctx = C.zmq_ctx_new() - socket = C.zmq_socket(ctx, PUSH) - - identity = ffi.new('char[]', 'zmq') - ret = C.zmq_setsockopt(socket, IDENTITY, ffi.cast('void*', identity), 3) - assert ret == 0 - - option_len = ffi.new('size_t*', 3) - option = ffi.new('char*') - ret = C.zmq_getsockopt(socket, - IDENTITY, - ffi.cast('void*', option), - option_len) - - assert ret == 0 - assert ffi.string(ffi.cast('char*', option))[0] == "z" - assert ffi.string(ffi.cast('char*', option))[1] == "m" - assert ffi.string(ffi.cast('char*', option))[2] == "q" - assert ctx != ffi.NULL - assert ffi.NULL != socket - assert 0 == C.zmq_close(socket) - assert 0 == C.zmq_ctx_destroy(ctx) - - def test_zmq_bind(self): - ctx = C.zmq_ctx_new() - socket = C.zmq_socket(ctx, 8) - - assert 0 == C.zmq_bind(socket, 'tcp://*:4444') - assert ctx != ffi.NULL - assert ffi.NULL != socket - assert 0 == C.zmq_close(socket) - assert 0 == C.zmq_ctx_destroy(ctx) - - def test_zmq_bind_connect(self): - ctx = C.zmq_ctx_new() - - socket1 = C.zmq_socket(ctx, PUSH) - socket2 = C.zmq_socket(ctx, PULL) - - assert 0 == C.zmq_bind(socket1, 'tcp://*:4444') - assert 0 == C.zmq_connect(socket2, 'tcp://127.0.0.1:4444') - assert ctx != ffi.NULL - assert ffi.NULL != socket1 - assert ffi.NULL != socket2 - assert 0 == C.zmq_close(socket1) - assert 0 == C.zmq_close(socket2) - assert 0 == C.zmq_ctx_destroy(ctx) - - def test_zmq_msg_init_close(self): - zmq_msg = ffi.new('zmq_msg_t*') - - assert ffi.NULL != zmq_msg - assert 0 == C.zmq_msg_init(zmq_msg) - assert 0 == C.zmq_msg_close(zmq_msg) - - def test_zmq_msg_init_size(self): - zmq_msg = ffi.new('zmq_msg_t*') - - assert ffi.NULL != zmq_msg - assert 0 == C.zmq_msg_init_size(zmq_msg, 10) - assert 0 == C.zmq_msg_close(zmq_msg) - - def test_zmq_msg_init_data(self): - zmq_msg = ffi.new('zmq_msg_t*') - message = ffi.new('char[5]', 'Hello') - - assert 0 == C.zmq_msg_init_data(zmq_msg, - ffi.cast('void*', message), - 5, - ffi.NULL, - ffi.NULL) - - assert ffi.NULL != zmq_msg - assert 0 == C.zmq_msg_close(zmq_msg) - - def test_zmq_msg_data(self): - zmq_msg = ffi.new('zmq_msg_t*') - message = ffi.new('char[]', 'Hello') - assert 0 == C.zmq_msg_init_data(zmq_msg, - ffi.cast('void*', message), - 5, - ffi.NULL, - ffi.NULL) - - data = C.zmq_msg_data(zmq_msg) - - assert ffi.NULL != zmq_msg - assert ffi.string(ffi.cast("char*", data)) == 'Hello' - assert 0 == C.zmq_msg_close(zmq_msg) - - - def test_zmq_send(self): - ctx = C.zmq_ctx_new() - - sender = C.zmq_socket(ctx, REQ) - receiver = C.zmq_socket(ctx, REP) - - assert 0 == C.zmq_bind(receiver, 'tcp://*:7777') - assert 0 == C.zmq_connect(sender, 'tcp://127.0.0.1:7777') - - time.sleep(0.1) - - zmq_msg = ffi.new('zmq_msg_t*') - message = ffi.new('char[5]', 'Hello') - - C.zmq_msg_init_data(zmq_msg, - ffi.cast('void*', message), - ffi.cast('size_t', 5), - ffi.NULL, - ffi.NULL) - - assert 5 == C.zmq_msg_send(zmq_msg, sender, 0) - assert 0 == C.zmq_msg_close(zmq_msg) - assert C.zmq_close(sender) == 0 - assert C.zmq_close(receiver) == 0 - assert C.zmq_ctx_destroy(ctx) == 0 - - def test_zmq_recv(self): - ctx = C.zmq_ctx_new() - - sender = C.zmq_socket(ctx, REQ) - receiver = C.zmq_socket(ctx, REP) - - assert 0 == C.zmq_bind(receiver, 'tcp://*:2222') - assert 0 == C.zmq_connect(sender, 'tcp://127.0.0.1:2222') - - time.sleep(0.1) - - zmq_msg = ffi.new('zmq_msg_t*') - message = ffi.new('char[5]', 'Hello') - - C.zmq_msg_init_data(zmq_msg, - ffi.cast('void*', message), - ffi.cast('size_t', 5), - ffi.NULL, - ffi.NULL) - - zmq_msg2 = ffi.new('zmq_msg_t*') - C.zmq_msg_init(zmq_msg2) - - assert 5 == C.zmq_msg_send(zmq_msg, sender, 0) - assert 5 == C.zmq_msg_recv(zmq_msg2, receiver, 0) - assert 5 == C.zmq_msg_size(zmq_msg2) - assert b"Hello" == ffi.buffer(C.zmq_msg_data(zmq_msg2), - C.zmq_msg_size(zmq_msg2))[:] - assert C.zmq_close(sender) == 0 - assert C.zmq_close(receiver) == 0 - assert C.zmq_ctx_destroy(ctx) == 0 - - def test_zmq_poll(self): - ctx = C.zmq_ctx_new() - - sender = C.zmq_socket(ctx, REQ) - receiver = C.zmq_socket(ctx, REP) - - r1 = C.zmq_bind(receiver, 'tcp://*:3333') - r2 = C.zmq_connect(sender, 'tcp://127.0.0.1:3333') - - zmq_msg = ffi.new('zmq_msg_t*') - message = ffi.new('char[5]', 'Hello') - - C.zmq_msg_init_data(zmq_msg, - ffi.cast('void*', message), - ffi.cast('size_t', 5), - ffi.NULL, - ffi.NULL) - - receiver_pollitem = ffi.new('zmq_pollitem_t*') - receiver_pollitem.socket = receiver - receiver_pollitem.fd = 0 - receiver_pollitem.events = POLLIN | POLLOUT - receiver_pollitem.revents = 0 - - ret = C.zmq_poll(ffi.NULL, 0, 0) - assert ret == 0 - - ret = C.zmq_poll(receiver_pollitem, 1, 0) - assert ret == 0 - - ret = C.zmq_msg_send(zmq_msg, sender, 0) - print(ffi.string(C.zmq_strerror(C.zmq_errno()))) - assert ret == 5 - - time.sleep(0.2) - - ret = C.zmq_poll(receiver_pollitem, 1, 0) - assert ret == 1 - - assert int(receiver_pollitem.revents) & POLLIN - assert not int(receiver_pollitem.revents) & POLLOUT - - zmq_msg2 = ffi.new('zmq_msg_t*') - C.zmq_msg_init(zmq_msg2) - - ret_recv = C.zmq_msg_recv(zmq_msg2, receiver, 0) - assert ret_recv == 5 - - assert 5 == C.zmq_msg_size(zmq_msg2) - assert b"Hello" == ffi.buffer(C.zmq_msg_data(zmq_msg2), - C.zmq_msg_size(zmq_msg2))[:] - - sender_pollitem = ffi.new('zmq_pollitem_t*') - sender_pollitem.socket = sender - sender_pollitem.fd = 0 - sender_pollitem.events = POLLIN | POLLOUT - sender_pollitem.revents = 0 - - ret = C.zmq_poll(sender_pollitem, 1, 0) - assert ret == 0 - - zmq_msg_again = ffi.new('zmq_msg_t*') - message_again = ffi.new('char[11]', 'Hello Again') - - C.zmq_msg_init_data(zmq_msg_again, - ffi.cast('void*', message_again), - ffi.cast('size_t', 11), - ffi.NULL, - ffi.NULL) - - assert 11 == C.zmq_msg_send(zmq_msg_again, receiver, 0) - - time.sleep(0.2) - - assert 0 <= C.zmq_poll(sender_pollitem, 1, 0) - assert int(sender_pollitem.revents) & POLLIN - assert 11 == C.zmq_msg_recv(zmq_msg2, sender, 0) - assert 11 == C.zmq_msg_size(zmq_msg2) - assert b"Hello Again" == ffi.buffer(C.zmq_msg_data(zmq_msg2), - int(C.zmq_msg_size(zmq_msg2)))[:] - assert 0 == C.zmq_close(sender) - assert 0 == C.zmq_close(receiver) - assert 0 == C.zmq_ctx_destroy(ctx) - assert 0 == C.zmq_msg_close(zmq_msg) - assert 0 == C.zmq_msg_close(zmq_msg2) - assert 0 == C.zmq_msg_close(zmq_msg_again) - - def test_zmq_stopwatch_functions(self): - stopwatch = C.zmq_stopwatch_start() - ret = C.zmq_stopwatch_stop(stopwatch) - - assert ffi.NULL != stopwatch - assert 0 < int(ret) - - def test_zmq_sleep(self): - try: - C.zmq_sleep(1) - except Exception as e: - raise AssertionError("Error executing zmq_sleep(int)") - diff --git a/external_libs/python/zmq/tests/test_constants.py b/external_libs/python/zmq/tests/test_constants.py deleted file mode 100644 index d32b2b48..00000000 --- a/external_libs/python/zmq/tests/test_constants.py +++ /dev/null @@ -1,104 +0,0 @@ -# Copyright (C) PyZMQ Developers -# Distributed under the terms of the Modified BSD License. - -import json -from unittest import TestCase - -import zmq - -from zmq.utils import constant_names -from zmq.sugar import constants as sugar_constants -from zmq.backend import constants as backend_constants - -all_set = set(constant_names.all_names) - -class TestConstants(TestCase): - - def _duplicate_test(self, namelist, listname): - """test that a given list has no duplicates""" - dupes = {} - for name in set(namelist): - cnt = namelist.count(name) - if cnt > 1: - dupes[name] = cnt - if dupes: - self.fail("The following names occur more than once in %s: %s" % (listname, json.dumps(dupes, indent=2))) - - def test_duplicate_all(self): - return self._duplicate_test(constant_names.all_names, "all_names") - - def _change_key(self, change, version): - """return changed-in key""" - return "%s-in %d.%d.%d" % tuple([change] + list(version)) - - def test_duplicate_changed(self): - all_changed = [] - for change in ("new", "removed"): - d = getattr(constant_names, change + "_in") - for version, namelist in d.items(): - all_changed.extend(namelist) - self._duplicate_test(namelist, self._change_key(change, version)) - - self._duplicate_test(all_changed, "all-changed") - - def test_changed_in_all(self): - missing = {} - for change in ("new", "removed"): - d = getattr(constant_names, change + "_in") - for version, namelist in d.items(): - key = self._change_key(change, version) - for name in namelist: - if name not in all_set: - if key not in missing: - missing[key] = [] - missing[key].append(name) - - if missing: - self.fail( - "The following names are missing in `all_names`: %s" % json.dumps(missing, indent=2) - ) - - def test_no_negative_constants(self): - for name in sugar_constants.__all__: - self.assertNotEqual(getattr(zmq, name), sugar_constants._UNDEFINED) - - def test_undefined_constants(self): - all_aliases = [] - for alias_group in sugar_constants.aliases: - all_aliases.extend(alias_group) - - for name in all_set.difference(all_aliases): - raw = getattr(backend_constants, name) - if raw == sugar_constants._UNDEFINED: - self.assertRaises(AttributeError, getattr, zmq, name) - else: - self.assertEqual(getattr(zmq, name), raw) - - def test_new(self): - zmq_version = zmq.zmq_version_info() - for version, new_names in constant_names.new_in.items(): - should_have = zmq_version >= version - for name in new_names: - try: - value = getattr(zmq, name) - except AttributeError: - if should_have: - self.fail("AttributeError: zmq.%s" % name) - else: - if not should_have: - self.fail("Shouldn't have: zmq.%s=%s" % (name, value)) - - def test_removed(self): - zmq_version = zmq.zmq_version_info() - for version, new_names in constant_names.removed_in.items(): - should_have = zmq_version < version - for name in new_names: - try: - value = getattr(zmq, name) - except AttributeError: - if should_have: - self.fail("AttributeError: zmq.%s" % name) - else: - if not should_have: - self.fail("Shouldn't have: zmq.%s=%s" % (name, value)) - diff --git a/external_libs/python/zmq/tests/test_context.py b/external_libs/python/zmq/tests/test_context.py deleted file mode 100644 index e3280778..00000000 --- a/external_libs/python/zmq/tests/test_context.py +++ /dev/null @@ -1,257 +0,0 @@ -# Copyright (C) PyZMQ Developers -# Distributed under the terms of the Modified BSD License. - -import gc -import sys -import time -from threading import Thread, Event - -import zmq -from zmq.tests import ( - BaseZMQTestCase, have_gevent, GreenTest, skip_green, PYPY, SkipTest, -) - - -class TestContext(BaseZMQTestCase): - - def test_init(self): - c1 = self.Context() - self.assert_(isinstance(c1, self.Context)) - del c1 - c2 = self.Context() - self.assert_(isinstance(c2, self.Context)) - del c2 - c3 = self.Context() - self.assert_(isinstance(c3, self.Context)) - del c3 - - def test_dir(self): - ctx = self.Context() - self.assertTrue('socket' in dir(ctx)) - if zmq.zmq_version_info() > (3,): - self.assertTrue('IO_THREADS' in dir(ctx)) - ctx.term() - - def test_term(self): - c = self.Context() - c.term() - self.assert_(c.closed) - - def test_context_manager(self): - with self.Context() as c: - pass - self.assert_(c.closed) - - def test_fail_init(self): - self.assertRaisesErrno(zmq.EINVAL, self.Context, -1) - - def test_term_hang(self): - rep,req = self.create_bound_pair(zmq.ROUTER, zmq.DEALER) - req.setsockopt(zmq.LINGER, 0) - req.send(b'hello', copy=False) - req.close() - rep.close() - self.context.term() - - def test_instance(self): - ctx = self.Context.instance() - c2 = self.Context.instance(io_threads=2) - self.assertTrue(c2 is ctx) - c2.term() - c3 = self.Context.instance() - c4 = self.Context.instance() - self.assertFalse(c3 is c2) - self.assertFalse(c3.closed) - self.assertTrue(c3 is c4) - - def test_many_sockets(self): - """opening and closing many sockets shouldn't cause problems""" - ctx = self.Context() - for i in range(16): - sockets = [ ctx.socket(zmq.REP) for i in range(65) ] - [ s.close() for s in sockets ] - # give the reaper a chance - time.sleep(1e-2) - ctx.term() - - def test_sockopts(self): - """setting socket options with ctx attributes""" - ctx = self.Context() - ctx.linger = 5 - self.assertEqual(ctx.linger, 5) - s = ctx.socket(zmq.REQ) - self.assertEqual(s.linger, 5) - self.assertEqual(s.getsockopt(zmq.LINGER), 5) - s.close() - # check that subscribe doesn't get set on sockets that don't subscribe: - ctx.subscribe = b'' - s = ctx.socket(zmq.REQ) - s.close() - - ctx.term() - - - def test_destroy(self): - """Context.destroy should close sockets""" - ctx = self.Context() - sockets = [ ctx.socket(zmq.REP) for i in range(65) ] - - # close half of the sockets - [ s.close() for s in sockets[::2] ] - - ctx.destroy() - # reaper is not instantaneous - time.sleep(1e-2) - for s in sockets: - self.assertTrue(s.closed) - - def test_destroy_linger(self): - """Context.destroy should set linger on closing sockets""" - req,rep = self.create_bound_pair(zmq.REQ, zmq.REP) - req.send(b'hi') - time.sleep(1e-2) - self.context.destroy(linger=0) - # reaper is not instantaneous - time.sleep(1e-2) - for s in (req,rep): - self.assertTrue(s.closed) - - def test_term_noclose(self): - """Context.term won't close sockets""" - ctx = self.Context() - s = ctx.socket(zmq.REQ) - self.assertFalse(s.closed) - t = Thread(target=ctx.term) - t.start() - t.join(timeout=0.1) - self.assertTrue(t.is_alive(), "Context should be waiting") - s.close() - t.join(timeout=0.1) - self.assertFalse(t.is_alive(), "Context should have closed") - - def test_gc(self): - """test close&term by garbage collection alone""" - if PYPY: - raise SkipTest("GC doesn't work ") - - # test credit @dln (GH #137): - def gcf(): - def inner(): - ctx = self.Context() - s = ctx.socket(zmq.PUSH) - inner() - gc.collect() - t = Thread(target=gcf) - t.start() - t.join(timeout=1) - self.assertFalse(t.is_alive(), "Garbage collection should have cleaned up context") - - def test_cyclic_destroy(self): - """ctx.destroy should succeed when cyclic ref prevents gc""" - # test credit @dln (GH #137): - class CyclicReference(object): - def __init__(self, parent=None): - self.parent = parent - - def crash(self, sock): - self.sock = sock - self.child = CyclicReference(self) - - def crash_zmq(): - ctx = self.Context() - sock = ctx.socket(zmq.PULL) - c = CyclicReference() - c.crash(sock) - ctx.destroy() - - crash_zmq() - - def test_term_thread(self): - """ctx.term should not crash active threads (#139)""" - ctx = self.Context() - evt = Event() - evt.clear() - - def block(): - s = ctx.socket(zmq.REP) - s.bind_to_random_port('tcp://127.0.0.1') - evt.set() - try: - s.recv() - except zmq.ZMQError as e: - self.assertEqual(e.errno, zmq.ETERM) - return - finally: - s.close() - self.fail("recv should have been interrupted with ETERM") - t = Thread(target=block) - t.start() - - evt.wait(1) - self.assertTrue(evt.is_set(), "sync event never fired") - time.sleep(0.01) - ctx.term() - t.join(timeout=1) - self.assertFalse(t.is_alive(), "term should have interrupted s.recv()") - - def test_destroy_no_sockets(self): - ctx = self.Context() - s = ctx.socket(zmq.PUB) - s.bind_to_random_port('tcp://127.0.0.1') - s.close() - ctx.destroy() - assert s.closed - assert ctx.closed - - def test_ctx_opts(self): - if zmq.zmq_version_info() < (3,): - raise SkipTest("context options require libzmq 3") - ctx = self.Context() - ctx.set(zmq.MAX_SOCKETS, 2) - self.assertEqual(ctx.get(zmq.MAX_SOCKETS), 2) - ctx.max_sockets = 100 - self.assertEqual(ctx.max_sockets, 100) - self.assertEqual(ctx.get(zmq.MAX_SOCKETS), 100) - - def test_shadow(self): - ctx = self.Context() - ctx2 = self.Context.shadow(ctx.underlying) - self.assertEqual(ctx.underlying, ctx2.underlying) - s = ctx.socket(zmq.PUB) - s.close() - del ctx2 - self.assertFalse(ctx.closed) - s = ctx.socket(zmq.PUB) - ctx2 = self.Context.shadow(ctx.underlying) - s2 = ctx2.socket(zmq.PUB) - s.close() - s2.close() - ctx.term() - self.assertRaisesErrno(zmq.EFAULT, ctx2.socket, zmq.PUB) - del ctx2 - - def test_shadow_pyczmq(self): - try: - from pyczmq import zctx, zsocket, zstr - except Exception: - raise SkipTest("Requires pyczmq") - - ctx = zctx.new() - a = zsocket.new(ctx, zmq.PUSH) - zsocket.bind(a, "inproc://a") - ctx2 = self.Context.shadow_pyczmq(ctx) - b = ctx2.socket(zmq.PULL) - b.connect("inproc://a") - zstr.send(a, b'hi') - rcvd = self.recv(b) - self.assertEqual(rcvd, b'hi') - b.close() - - -if False: # disable green context tests - class TestContextGreen(GreenTest, TestContext): - """gevent subclass of context tests""" - # skip tests that use real threads: - test_gc = GreenTest.skip_green - test_term_thread = GreenTest.skip_green - test_destroy_linger = GreenTest.skip_green diff --git a/external_libs/python/zmq/tests/test_device.py b/external_libs/python/zmq/tests/test_device.py deleted file mode 100644 index f8305074..00000000 --- a/external_libs/python/zmq/tests/test_device.py +++ /dev/null @@ -1,146 +0,0 @@ -# Copyright (C) PyZMQ Developers -# Distributed under the terms of the Modified BSD License. - -import time - -import zmq -from zmq import devices -from zmq.tests import BaseZMQTestCase, SkipTest, have_gevent, GreenTest, PYPY -from zmq.utils.strtypes import (bytes,unicode,basestring) - -if PYPY: - # cleanup of shared Context doesn't work on PyPy - devices.Device.context_factory = zmq.Context - -class TestDevice(BaseZMQTestCase): - - def test_device_types(self): - for devtype in (zmq.STREAMER, zmq.FORWARDER, zmq.QUEUE): - dev = devices.Device(devtype, zmq.PAIR, zmq.PAIR) - self.assertEqual(dev.device_type, devtype) - del dev - - def test_device_attributes(self): - dev = devices.Device(zmq.QUEUE, zmq.SUB, zmq.PUB) - self.assertEqual(dev.in_type, zmq.SUB) - self.assertEqual(dev.out_type, zmq.PUB) - self.assertEqual(dev.device_type, zmq.QUEUE) - self.assertEqual(dev.daemon, True) - del dev - - def test_tsdevice_attributes(self): - dev = devices.Device(zmq.QUEUE, zmq.SUB, zmq.PUB) - self.assertEqual(dev.in_type, zmq.SUB) - self.assertEqual(dev.out_type, zmq.PUB) - self.assertEqual(dev.device_type, zmq.QUEUE) - self.assertEqual(dev.daemon, True) - del dev - - - def test_single_socket_forwarder_connect(self): - dev = devices.ThreadDevice(zmq.QUEUE, zmq.REP, -1) - req = self.context.socket(zmq.REQ) - port = req.bind_to_random_port('tcp://127.0.0.1') - dev.connect_in('tcp://127.0.0.1:%i'%port) - dev.start() - time.sleep(.25) - msg = b'hello' - req.send(msg) - self.assertEqual(msg, self.recv(req)) - del dev - req.close() - dev = devices.ThreadDevice(zmq.QUEUE, zmq.REP, -1) - req = self.context.socket(zmq.REQ) - port = req.bind_to_random_port('tcp://127.0.0.1') - dev.connect_out('tcp://127.0.0.1:%i'%port) - dev.start() - time.sleep(.25) - msg = b'hello again' - req.send(msg) - self.assertEqual(msg, self.recv(req)) - del dev - req.close() - - def test_single_socket_forwarder_bind(self): - dev = devices.ThreadDevice(zmq.QUEUE, zmq.REP, -1) - # select random port: - binder = self.context.socket(zmq.REQ) - port = binder.bind_to_random_port('tcp://127.0.0.1') - binder.close() - time.sleep(0.1) - req = self.context.socket(zmq.REQ) - req.connect('tcp://127.0.0.1:%i'%port) - dev.bind_in('tcp://127.0.0.1:%i'%port) - dev.start() - time.sleep(.25) - msg = b'hello' - req.send(msg) - self.assertEqual(msg, self.recv(req)) - del dev - req.close() - dev = devices.ThreadDevice(zmq.QUEUE, zmq.REP, -1) - # select random port: - binder = self.context.socket(zmq.REQ) - port = binder.bind_to_random_port('tcp://127.0.0.1') - binder.close() - time.sleep(0.1) - req = self.context.socket(zmq.REQ) - req.connect('tcp://127.0.0.1:%i'%port) - dev.bind_in('tcp://127.0.0.1:%i'%port) - dev.start() - time.sleep(.25) - msg = b'hello again' - req.send(msg) - self.assertEqual(msg, self.recv(req)) - del dev - req.close() - - def test_proxy(self): - if zmq.zmq_version_info() < (3,2): - raise SkipTest("Proxies only in libzmq >= 3") - dev = devices.ThreadProxy(zmq.PULL, zmq.PUSH, zmq.PUSH) - binder = self.context.socket(zmq.REQ) - iface = 'tcp://127.0.0.1' - port = binder.bind_to_random_port(iface) - port2 = binder.bind_to_random_port(iface) - port3 = binder.bind_to_random_port(iface) - binder.close() - time.sleep(0.1) - dev.bind_in("%s:%i" % (iface, port)) - dev.bind_out("%s:%i" % (iface, port2)) - dev.bind_mon("%s:%i" % (iface, port3)) - dev.start() - time.sleep(0.25) - msg = b'hello' - push = self.context.socket(zmq.PUSH) - push.connect("%s:%i" % (iface, port)) - pull = self.context.socket(zmq.PULL) - pull.connect("%s:%i" % (iface, port2)) - mon = self.context.socket(zmq.PULL) - mon.connect("%s:%i" % (iface, port3)) - push.send(msg) - self.sockets.extend([push, pull, mon]) - self.assertEqual(msg, self.recv(pull)) - self.assertEqual(msg, self.recv(mon)) - -if have_gevent: - import gevent - import zmq.green - - class TestDeviceGreen(GreenTest, BaseZMQTestCase): - - def test_green_device(self): - rep = self.context.socket(zmq.REP) - req = self.context.socket(zmq.REQ) - self.sockets.extend([req, rep]) - port = rep.bind_to_random_port('tcp://127.0.0.1') - g = gevent.spawn(zmq.green.device, zmq.QUEUE, rep, rep) - req.connect('tcp://127.0.0.1:%i' % port) - req.send(b'hi') - timeout = gevent.Timeout(3) - timeout.start() - receiver = gevent.spawn(req.recv) - self.assertEqual(receiver.get(2), b'hi') - timeout.cancel() - g.kill(block=True) - diff --git a/external_libs/python/zmq/tests/test_error.py b/external_libs/python/zmq/tests/test_error.py deleted file mode 100644 index a2eee14a..00000000 --- a/external_libs/python/zmq/tests/test_error.py +++ /dev/null @@ -1,43 +0,0 @@ -# -*- coding: utf8 -*- -# Copyright (C) PyZMQ Developers -# Distributed under the terms of the Modified BSD License. - -import sys -import time - -import zmq -from zmq import ZMQError, strerror, Again, ContextTerminated -from zmq.tests import BaseZMQTestCase - -if sys.version_info[0] >= 3: - long = int - -class TestZMQError(BaseZMQTestCase): - - def test_strerror(self): - """test that strerror gets the right type.""" - for i in range(10): - e = strerror(i) - self.assertTrue(isinstance(e, str)) - - def test_zmqerror(self): - for errno in range(10): - e = ZMQError(errno) - self.assertEqual(e.errno, errno) - self.assertEqual(str(e), strerror(errno)) - - def test_again(self): - s = self.context.socket(zmq.REP) - self.assertRaises(Again, s.recv, zmq.NOBLOCK) - self.assertRaisesErrno(zmq.EAGAIN, s.recv, zmq.NOBLOCK) - s.close() - - def atest_ctxterm(self): - s = self.context.socket(zmq.REP) - t = Thread(target=self.context.term) - t.start() - self.assertRaises(ContextTerminated, s.recv, zmq.NOBLOCK) - self.assertRaisesErrno(zmq.TERM, s.recv, zmq.NOBLOCK) - s.close() - t.join() - diff --git a/external_libs/python/zmq/tests/test_etc.py b/external_libs/python/zmq/tests/test_etc.py deleted file mode 100644 index ad224064..00000000 --- a/external_libs/python/zmq/tests/test_etc.py +++ /dev/null @@ -1,15 +0,0 @@ -# Copyright (c) PyZMQ Developers. -# Distributed under the terms of the Modified BSD License. - -import sys - -import zmq - -from . import skip_if - -@skip_if(zmq.zmq_version_info() < (4,1), "libzmq < 4.1") -def test_has(): - assert not zmq.has('something weird') - has_ipc = zmq.has('ipc') - not_windows = not sys.platform.startswith('win') - assert has_ipc == not_windows diff --git a/external_libs/python/zmq/tests/test_imports.py b/external_libs/python/zmq/tests/test_imports.py deleted file mode 100644 index c0ddfaac..00000000 --- a/external_libs/python/zmq/tests/test_imports.py +++ /dev/null @@ -1,62 +0,0 @@ -# Copyright (C) PyZMQ Developers -# Distributed under the terms of the Modified BSD License. - -import sys -from unittest import TestCase - -class TestImports(TestCase): - """Test Imports - the quickest test to ensure that we haven't - introduced version-incompatible syntax errors.""" - - def test_toplevel(self): - """test toplevel import""" - import zmq - - def test_core(self): - """test core imports""" - from zmq import Context - from zmq import Socket - from zmq import Poller - from zmq import Frame - from zmq import constants - from zmq import device, proxy - from zmq import Stopwatch - from zmq import ( - zmq_version, - zmq_version_info, - pyzmq_version, - pyzmq_version_info, - ) - - def test_devices(self): - """test device imports""" - import zmq.devices - from zmq.devices import basedevice - from zmq.devices import monitoredqueue - from zmq.devices import monitoredqueuedevice - - def test_log(self): - """test log imports""" - import zmq.log - from zmq.log import handlers - - def test_eventloop(self): - """test eventloop imports""" - import zmq.eventloop - from zmq.eventloop import ioloop - from zmq.eventloop import zmqstream - from zmq.eventloop.minitornado.platform import auto - from zmq.eventloop.minitornado import ioloop - - def test_utils(self): - """test util imports""" - import zmq.utils - from zmq.utils import strtypes - from zmq.utils import jsonapi - - def test_ssh(self): - """test ssh imports""" - from zmq.ssh import tunnel - - - diff --git a/external_libs/python/zmq/tests/test_ioloop.py b/external_libs/python/zmq/tests/test_ioloop.py deleted file mode 100644 index 2a8b1153..00000000 --- a/external_libs/python/zmq/tests/test_ioloop.py +++ /dev/null @@ -1,113 +0,0 @@ -# Copyright (C) PyZMQ Developers -# Distributed under the terms of the Modified BSD License. - -import time -import os -import threading - -import zmq -from zmq.tests import BaseZMQTestCase -from zmq.eventloop import ioloop -from zmq.eventloop.minitornado.ioloop import _Timeout -try: - from tornado.ioloop import PollIOLoop, IOLoop as BaseIOLoop -except ImportError: - from zmq.eventloop.minitornado.ioloop import IOLoop as BaseIOLoop - - -def printer(): - os.system("say hello") - raise Exception - print (time.time()) - - -class Delay(threading.Thread): - def __init__(self, f, delay=1): - self.f=f - self.delay=delay - self.aborted=False - self.cond=threading.Condition() - super(Delay, self).__init__() - - def run(self): - self.cond.acquire() - self.cond.wait(self.delay) - self.cond.release() - if not self.aborted: - self.f() - - def abort(self): - self.aborted=True - self.cond.acquire() - self.cond.notify() - self.cond.release() - - -class TestIOLoop(BaseZMQTestCase): - - def test_simple(self): - """simple IOLoop creation test""" - loop = ioloop.IOLoop() - dc = ioloop.PeriodicCallback(loop.stop, 200, loop) - pc = ioloop.PeriodicCallback(lambda : None, 10, loop) - pc.start() - dc.start() - t = Delay(loop.stop,1) - t.start() - loop.start() - if t.isAlive(): - t.abort() - else: - self.fail("IOLoop failed to exit") - - def test_timeout_compare(self): - """test timeout comparisons""" - loop = ioloop.IOLoop() - t = _Timeout(1, 2, loop) - t2 = _Timeout(1, 3, loop) - self.assertEqual(t < t2, id(t) < id(t2)) - t2 = _Timeout(2,1, loop) - self.assertTrue(t < t2) - - def test_poller_events(self): - """Tornado poller implementation maps events correctly""" - req,rep = self.create_bound_pair(zmq.REQ, zmq.REP) - poller = ioloop.ZMQPoller() - poller.register(req, ioloop.IOLoop.READ) - poller.register(rep, ioloop.IOLoop.READ) - events = dict(poller.poll(0)) - self.assertEqual(events.get(rep), None) - self.assertEqual(events.get(req), None) - - poller.register(req, ioloop.IOLoop.WRITE) - poller.register(rep, ioloop.IOLoop.WRITE) - events = dict(poller.poll(1)) - self.assertEqual(events.get(req), ioloop.IOLoop.WRITE) - self.assertEqual(events.get(rep), None) - - poller.register(rep, ioloop.IOLoop.READ) - req.send(b'hi') - events = dict(poller.poll(1)) - self.assertEqual(events.get(rep), ioloop.IOLoop.READ) - self.assertEqual(events.get(req), None) - - def test_instance(self): - """Test IOLoop.instance returns the right object""" - loop = ioloop.IOLoop.instance() - self.assertEqual(loop.__class__, ioloop.IOLoop) - loop = BaseIOLoop.instance() - self.assertEqual(loop.__class__, ioloop.IOLoop) - - def test_close_all(self): - """Test close(all_fds=True)""" - loop = ioloop.IOLoop.instance() - req,rep = self.create_bound_pair(zmq.REQ, zmq.REP) - loop.add_handler(req, lambda msg: msg, ioloop.IOLoop.READ) - loop.add_handler(rep, lambda msg: msg, ioloop.IOLoop.READ) - self.assertEqual(req.closed, False) - self.assertEqual(rep.closed, False) - loop.close(all_fds=True) - self.assertEqual(req.closed, True) - self.assertEqual(rep.closed, True) - - diff --git a/external_libs/python/zmq/tests/test_log.py b/external_libs/python/zmq/tests/test_log.py deleted file mode 100644 index 9206f095..00000000 --- a/external_libs/python/zmq/tests/test_log.py +++ /dev/null @@ -1,116 +0,0 @@ -# encoding: utf-8 - -# Copyright (C) PyZMQ Developers -# Distributed under the terms of the Modified BSD License. - - -import logging -import time -from unittest import TestCase - -import zmq -from zmq.log import handlers -from zmq.utils.strtypes import b, u -from zmq.tests import BaseZMQTestCase - - -class TestPubLog(BaseZMQTestCase): - - iface = 'inproc://zmqlog' - topic= 'zmq' - - @property - def logger(self): - # print dir(self) - logger = logging.getLogger('zmqtest') - logger.setLevel(logging.DEBUG) - return logger - - def connect_handler(self, topic=None): - topic = self.topic if topic is None else topic - logger = self.logger - pub,sub = self.create_bound_pair(zmq.PUB, zmq.SUB) - handler = handlers.PUBHandler(pub) - handler.setLevel(logging.DEBUG) - handler.root_topic = topic - logger.addHandler(handler) - sub.setsockopt(zmq.SUBSCRIBE, b(topic)) - time.sleep(0.1) - return logger, handler, sub - - def test_init_iface(self): - logger = self.logger - ctx = self.context - handler = handlers.PUBHandler(self.iface) - self.assertFalse(handler.ctx is ctx) - self.sockets.append(handler.socket) - # handler.ctx.term() - handler = handlers.PUBHandler(self.iface, self.context) - self.sockets.append(handler.socket) - self.assertTrue(handler.ctx is ctx) - handler.setLevel(logging.DEBUG) - handler.root_topic = self.topic - logger.addHandler(handler) - sub = ctx.socket(zmq.SUB) - self.sockets.append(sub) - sub.setsockopt(zmq.SUBSCRIBE, b(self.topic)) - sub.connect(self.iface) - import time; time.sleep(0.25) - msg1 = 'message' - logger.info(msg1) - - (topic, msg2) = sub.recv_multipart() - self.assertEqual(topic, b'zmq.INFO') - self.assertEqual(msg2, b(msg1)+b'\n') - logger.removeHandler(handler) - - def test_init_socket(self): - pub,sub = self.create_bound_pair(zmq.PUB, zmq.SUB) - logger = self.logger - handler = handlers.PUBHandler(pub) - handler.setLevel(logging.DEBUG) - handler.root_topic = self.topic - logger.addHandler(handler) - - self.assertTrue(handler.socket is pub) - self.assertTrue(handler.ctx is pub.context) - self.assertTrue(handler.ctx is self.context) - sub.setsockopt(zmq.SUBSCRIBE, b(self.topic)) - import time; time.sleep(0.1) - msg1 = 'message' - logger.info(msg1) - - (topic, msg2) = sub.recv_multipart() - self.assertEqual(topic, b'zmq.INFO') - self.assertEqual(msg2, b(msg1)+b'\n') - logger.removeHandler(handler) - - def test_root_topic(self): - logger, handler, sub = self.connect_handler() - handler.socket.bind(self.iface) - sub2 = sub.context.socket(zmq.SUB) - self.sockets.append(sub2) - sub2.connect(self.iface) - sub2.setsockopt(zmq.SUBSCRIBE, b'') - handler.root_topic = b'twoonly' - msg1 = 'ignored' - logger.info(msg1) - self.assertRaisesErrno(zmq.EAGAIN, sub.recv, zmq.NOBLOCK) - topic,msg2 = sub2.recv_multipart() - self.assertEqual(topic, b'twoonly.INFO') - self.assertEqual(msg2, b(msg1)+b'\n') - - logger.removeHandler(handler) - - def test_unicode_message(self): - logger, handler, sub = self.connect_handler() - base_topic = b(self.topic + '.INFO') - for msg, expected in [ - (u('hello'), [base_topic, b('hello\n')]), - (u('héllo'), [base_topic, b('héllo\n')]), - (u('tøpic::héllo'), [base_topic + b('.tøpic'), b('héllo\n')]), - ]: - logger.info(msg) - received = sub.recv_multipart() - self.assertEqual(received, expected) - diff --git a/external_libs/python/zmq/tests/test_message.py b/external_libs/python/zmq/tests/test_message.py deleted file mode 100644 index d8770bdf..00000000 --- a/external_libs/python/zmq/tests/test_message.py +++ /dev/null @@ -1,362 +0,0 @@ -# -*- coding: utf8 -*- -# Copyright (C) PyZMQ Developers -# Distributed under the terms of the Modified BSD License. - - -import copy -import sys -try: - from sys import getrefcount as grc -except ImportError: - grc = None - -import time -from pprint import pprint -from unittest import TestCase - -import zmq -from zmq.tests import BaseZMQTestCase, SkipTest, skip_pypy, PYPY -from zmq.utils.strtypes import unicode, bytes, b, u - - -# some useful constants: - -x = b'x' - -try: - view = memoryview -except NameError: - view = buffer - -if grc: - rc0 = grc(x) - v = view(x) - view_rc = grc(x) - rc0 - -def await_gc(obj, rc): - """wait for refcount on an object to drop to an expected value - - Necessary because of the zero-copy gc thread, - which can take some time to receive its DECREF message. - """ - for i in range(50): - # rc + 2 because of the refs in this function - if grc(obj) <= rc + 2: - return - time.sleep(0.05) - -class TestFrame(BaseZMQTestCase): - - @skip_pypy - def test_above_30(self): - """Message above 30 bytes are never copied by 0MQ.""" - for i in range(5, 16): # 32, 64,..., 65536 - s = (2**i)*x - self.assertEqual(grc(s), 2) - m = zmq.Frame(s) - self.assertEqual(grc(s), 4) - del m - await_gc(s, 2) - self.assertEqual(grc(s), 2) - del s - - def test_str(self): - """Test the str representations of the Frames.""" - for i in range(16): - s = (2**i)*x - m = zmq.Frame(s) - m_str = str(m) - m_str_b = b(m_str) # py3compat - self.assertEqual(s, m_str_b) - - def test_bytes(self): - """Test the Frame.bytes property.""" - for i in range(1,16): - s = (2**i)*x - m = zmq.Frame(s) - b = m.bytes - self.assertEqual(s, m.bytes) - if not PYPY: - # check that it copies - self.assert_(b is not s) - # check that it copies only once - self.assert_(b is m.bytes) - - def test_unicode(self): - """Test the unicode representations of the Frames.""" - s = u('asdf') - self.assertRaises(TypeError, zmq.Frame, s) - for i in range(16): - s = (2**i)*u('§') - m = zmq.Frame(s.encode('utf8')) - self.assertEqual(s, unicode(m.bytes,'utf8')) - - def test_len(self): - """Test the len of the Frames.""" - for i in range(16): - s = (2**i)*x - m = zmq.Frame(s) - self.assertEqual(len(s), len(m)) - - @skip_pypy - def test_lifecycle1(self): - """Run through a ref counting cycle with a copy.""" - for i in range(5, 16): # 32, 64,..., 65536 - s = (2**i)*x - rc = 2 - self.assertEqual(grc(s), rc) - m = zmq.Frame(s) - rc += 2 - self.assertEqual(grc(s), rc) - m2 = copy.copy(m) - rc += 1 - self.assertEqual(grc(s), rc) - buf = m2.buffer - - rc += view_rc - self.assertEqual(grc(s), rc) - - self.assertEqual(s, b(str(m))) - self.assertEqual(s, bytes(m2)) - self.assertEqual(s, m.bytes) - # self.assert_(s is str(m)) - # self.assert_(s is str(m2)) - del m2 - rc -= 1 - self.assertEqual(grc(s), rc) - rc -= view_rc - del buf - self.assertEqual(grc(s), rc) - del m - rc -= 2 - await_gc(s, rc) - self.assertEqual(grc(s), rc) - self.assertEqual(rc, 2) - del s - - @skip_pypy - def test_lifecycle2(self): - """Run through a different ref counting cycle with a copy.""" - for i in range(5, 16): # 32, 64,..., 65536 - s = (2**i)*x - rc = 2 - self.assertEqual(grc(s), rc) - m = zmq.Frame(s) - rc += 2 - self.assertEqual(grc(s), rc) - m2 = copy.copy(m) - rc += 1 - self.assertEqual(grc(s), rc) - buf = m.buffer - rc += view_rc - self.assertEqual(grc(s), rc) - self.assertEqual(s, b(str(m))) - self.assertEqual(s, bytes(m2)) - self.assertEqual(s, m2.bytes) - self.assertEqual(s, m.bytes) - # self.assert_(s is str(m)) - # self.assert_(s is str(m2)) - del buf - self.assertEqual(grc(s), rc) - del m - # m.buffer is kept until m is del'd - rc -= view_rc - rc -= 1 - self.assertEqual(grc(s), rc) - del m2 - rc -= 2 - await_gc(s, rc) - self.assertEqual(grc(s), rc) - self.assertEqual(rc, 2) - del s - - @skip_pypy - def test_tracker(self): - m = zmq.Frame(b'asdf', track=True) - self.assertFalse(m.tracker.done) - pm = zmq.MessageTracker(m) - self.assertFalse(pm.done) - del m - for i in range(10): - if pm.done: - break - time.sleep(0.1) - self.assertTrue(pm.done) - - def test_no_tracker(self): - m = zmq.Frame(b'asdf', track=False) - self.assertEqual(m.tracker, None) - m2 = copy.copy(m) - self.assertEqual(m2.tracker, None) - self.assertRaises(ValueError, zmq.MessageTracker, m) - - @skip_pypy - def test_multi_tracker(self): - m = zmq.Frame(b'asdf', track=True) - m2 = zmq.Frame(b'whoda', track=True) - mt = zmq.MessageTracker(m,m2) - self.assertFalse(m.tracker.done) - self.assertFalse(mt.done) - self.assertRaises(zmq.NotDone, mt.wait, 0.1) - del m - time.sleep(0.1) - self.assertRaises(zmq.NotDone, mt.wait, 0.1) - self.assertFalse(mt.done) - del m2 - self.assertTrue(mt.wait() is None) - self.assertTrue(mt.done) - - - def test_buffer_in(self): - """test using a buffer as input""" - ins = b("§§¶•ªº˜µ¬˚…∆˙åß∂©œ∑´†≈ç√") - m = zmq.Frame(view(ins)) - - def test_bad_buffer_in(self): - """test using a bad object""" - self.assertRaises(TypeError, zmq.Frame, 5) - self.assertRaises(TypeError, zmq.Frame, object()) - - def test_buffer_out(self): - """receiving buffered output""" - ins = b("§§¶•ªº˜µ¬˚…∆˙åß∂©œ∑´†≈ç√") - m = zmq.Frame(ins) - outb = m.buffer - self.assertTrue(isinstance(outb, view)) - self.assert_(outb is m.buffer) - self.assert_(m.buffer is m.buffer) - - def test_multisend(self): - """ensure that a message remains intact after multiple sends""" - a,b = self.create_bound_pair(zmq.PAIR, zmq.PAIR) - s = b"message" - m = zmq.Frame(s) - self.assertEqual(s, m.bytes) - - a.send(m, copy=False) - time.sleep(0.1) - self.assertEqual(s, m.bytes) - a.send(m, copy=False) - time.sleep(0.1) - self.assertEqual(s, m.bytes) - a.send(m, copy=True) - time.sleep(0.1) - self.assertEqual(s, m.bytes) - a.send(m, copy=True) - time.sleep(0.1) - self.assertEqual(s, m.bytes) - for i in range(4): - r = b.recv() - self.assertEqual(s,r) - self.assertEqual(s, m.bytes) - - def test_buffer_numpy(self): - """test non-copying numpy array messages""" - try: - import numpy - except ImportError: - raise SkipTest("numpy required") - rand = numpy.random.randint - shapes = [ rand(2,16) for i in range(5) ] - for i in range(1,len(shapes)+1): - shape = shapes[:i] - A = numpy.random.random(shape) - m = zmq.Frame(A) - if view.__name__ == 'buffer': - self.assertEqual(A.data, m.buffer) - B = numpy.frombuffer(m.buffer,dtype=A.dtype).reshape(A.shape) - else: - self.assertEqual(memoryview(A), m.buffer) - B = numpy.array(m.buffer,dtype=A.dtype).reshape(A.shape) - self.assertEqual((A==B).all(), True) - - def test_memoryview(self): - """test messages from memoryview""" - major,minor = sys.version_info[:2] - if not (major >= 3 or (major == 2 and minor >= 7)): - raise SkipTest("memoryviews only in python >= 2.7") - - s = b'carrotjuice' - v = memoryview(s) - m = zmq.Frame(s) - buf = m.buffer - s2 = buf.tobytes() - self.assertEqual(s2,s) - self.assertEqual(m.bytes,s) - - def test_noncopying_recv(self): - """check for clobbering message buffers""" - null = b'\0'*64 - sa,sb = self.create_bound_pair(zmq.PAIR, zmq.PAIR) - for i in range(32): - # try a few times - sb.send(null, copy=False) - m = sa.recv(copy=False) - mb = m.bytes - # buf = view(m) - buf = m.buffer - del m - for i in range(5): - ff=b'\xff'*(40 + i*10) - sb.send(ff, copy=False) - m2 = sa.recv(copy=False) - if view.__name__ == 'buffer': - b = bytes(buf) - else: - b = buf.tobytes() - self.assertEqual(b, null) - self.assertEqual(mb, null) - self.assertEqual(m2.bytes, ff) - - @skip_pypy - def test_buffer_numpy(self): - """test non-copying numpy array messages""" - try: - import numpy - except ImportError: - raise SkipTest("requires numpy") - if sys.version_info < (2,7): - raise SkipTest("requires new-style buffer interface (py >= 2.7)") - rand = numpy.random.randint - shapes = [ rand(2,5) for i in range(5) ] - a,b = self.create_bound_pair(zmq.PAIR, zmq.PAIR) - dtypes = [int, float, '>i4', 'B'] - for i in range(1,len(shapes)+1): - shape = shapes[:i] - for dt in dtypes: - A = numpy.empty(shape, dtype=dt) - while numpy.isnan(A).any(): - # don't let nan sneak in - A = numpy.ndarray(shape, dtype=dt) - a.send(A, copy=False) - msg = b.recv(copy=False) - - B = numpy.frombuffer(msg, A.dtype).reshape(A.shape) - self.assertEqual(A.shape, B.shape) - self.assertTrue((A==B).all()) - A = numpy.empty(shape, dtype=[('a', int), ('b', float), ('c', 'a32')]) - A['a'] = 1024 - A['b'] = 1e9 - A['c'] = 'hello there' - a.send(A, copy=False) - msg = b.recv(copy=False) - - B = numpy.frombuffer(msg, A.dtype).reshape(A.shape) - self.assertEqual(A.shape, B.shape) - self.assertTrue((A==B).all()) - - def test_frame_more(self): - """test Frame.more attribute""" - frame = zmq.Frame(b"hello") - self.assertFalse(frame.more) - sa,sb = self.create_bound_pair(zmq.PAIR, zmq.PAIR) - sa.send_multipart([b'hi', b'there']) - frame = self.recv(sb, copy=False) - self.assertTrue(frame.more) - if zmq.zmq_version_info()[0] >= 3 and not PYPY: - self.assertTrue(frame.get(zmq.MORE)) - frame = self.recv(sb, copy=False) - self.assertFalse(frame.more) - if zmq.zmq_version_info()[0] >= 3 and not PYPY: - self.assertFalse(frame.get(zmq.MORE)) - diff --git a/external_libs/python/zmq/tests/test_monitor.py b/external_libs/python/zmq/tests/test_monitor.py deleted file mode 100644 index 4f035388..00000000 --- a/external_libs/python/zmq/tests/test_monitor.py +++ /dev/null @@ -1,71 +0,0 @@ -# -*- coding: utf-8 -*- -# Copyright (C) PyZMQ Developers -# Distributed under the terms of the Modified BSD License. - - -import sys -import time -import struct - -from unittest import TestCase - -import zmq -from zmq.tests import BaseZMQTestCase, skip_if, skip_pypy -from zmq.utils.monitor import recv_monitor_message - -skip_lt_4 = skip_if(zmq.zmq_version_info() < (4,), "requires zmq >= 4") - -class TestSocketMonitor(BaseZMQTestCase): - - @skip_lt_4 - def test_monitor(self): - """Test monitoring interface for sockets.""" - s_rep = self.context.socket(zmq.REP) - s_req = self.context.socket(zmq.REQ) - self.sockets.extend([s_rep, s_req]) - s_req.bind("tcp://127.0.0.1:6666") - # try monitoring the REP socket - - s_rep.monitor("inproc://monitor.rep", zmq.EVENT_ALL) - # create listening socket for monitor - s_event = self.context.socket(zmq.PAIR) - self.sockets.append(s_event) - s_event.connect("inproc://monitor.rep") - s_event.linger = 0 - # test receive event for connect event - s_rep.connect("tcp://127.0.0.1:6666") - m = recv_monitor_message(s_event) - if m['event'] == zmq.EVENT_CONNECT_DELAYED: - self.assertEqual(m['endpoint'], b"tcp://127.0.0.1:6666") - # test receive event for connected event - m = recv_monitor_message(s_event) - self.assertEqual(m['event'], zmq.EVENT_CONNECTED) - self.assertEqual(m['endpoint'], b"tcp://127.0.0.1:6666") - - # test monitor can be disabled. - s_rep.disable_monitor() - m = recv_monitor_message(s_event) - self.assertEqual(m['event'], zmq.EVENT_MONITOR_STOPPED) - - - @skip_lt_4 - def test_monitor_connected(self): - """Test connected monitoring socket.""" - s_rep = self.context.socket(zmq.REP) - s_req = self.context.socket(zmq.REQ) - self.sockets.extend([s_rep, s_req]) - s_req.bind("tcp://127.0.0.1:6667") - # try monitoring the REP socket - # create listening socket for monitor - s_event = s_rep.get_monitor_socket() - s_event.linger = 0 - self.sockets.append(s_event) - # test receive event for connect event - s_rep.connect("tcp://127.0.0.1:6667") - m = recv_monitor_message(s_event) - if m['event'] == zmq.EVENT_CONNECT_DELAYED: - self.assertEqual(m['endpoint'], b"tcp://127.0.0.1:6667") - # test receive event for connected event - m = recv_monitor_message(s_event) - self.assertEqual(m['event'], zmq.EVENT_CONNECTED) - self.assertEqual(m['endpoint'], b"tcp://127.0.0.1:6667") diff --git a/external_libs/python/zmq/tests/test_monqueue.py b/external_libs/python/zmq/tests/test_monqueue.py deleted file mode 100644 index e855602e..00000000 --- a/external_libs/python/zmq/tests/test_monqueue.py +++ /dev/null @@ -1,227 +0,0 @@ -# Copyright (C) PyZMQ Developers -# Distributed under the terms of the Modified BSD License. - -import time -from unittest import TestCase - -import zmq -from zmq import devices - -from zmq.tests import BaseZMQTestCase, SkipTest, PYPY -from zmq.utils.strtypes import unicode - - -if PYPY or zmq.zmq_version_info() >= (4,1): - # cleanup of shared Context doesn't work on PyPy - # there also seems to be a bug in cleanup in libzmq-4.1 (zeromq/libzmq#1052) - devices.Device.context_factory = zmq.Context - - -class TestMonitoredQueue(BaseZMQTestCase): - - sockets = [] - - def build_device(self, mon_sub=b"", in_prefix=b'in', out_prefix=b'out'): - self.device = devices.ThreadMonitoredQueue(zmq.PAIR, zmq.PAIR, zmq.PUB, - in_prefix, out_prefix) - alice = self.context.socket(zmq.PAIR) - bob = self.context.socket(zmq.PAIR) - mon = self.context.socket(zmq.SUB) - - aport = alice.bind_to_random_port('tcp://127.0.0.1') - bport = bob.bind_to_random_port('tcp://127.0.0.1') - mport = mon.bind_to_random_port('tcp://127.0.0.1') - mon.setsockopt(zmq.SUBSCRIBE, mon_sub) - - self.device.connect_in("tcp://127.0.0.1:%i"%aport) - self.device.connect_out("tcp://127.0.0.1:%i"%bport) - self.device.connect_mon("tcp://127.0.0.1:%i"%mport) - self.device.start() - time.sleep(.2) - try: - # this is currenlty necessary to ensure no dropped monitor messages - # see LIBZMQ-248 for more info - mon.recv_multipart(zmq.NOBLOCK) - except zmq.ZMQError: - pass - self.sockets.extend([alice, bob, mon]) - return alice, bob, mon - - - def teardown_device(self): - for socket in self.sockets: - socket.close() - del socket - del self.device - - def test_reply(self): - alice, bob, mon = self.build_device() - alices = b"hello bob".split() - alice.send_multipart(alices) - bobs = self.recv_multipart(bob) - self.assertEqual(alices, bobs) - bobs = b"hello alice".split() - bob.send_multipart(bobs) - alices = self.recv_multipart(alice) - self.assertEqual(alices, bobs) - self.teardown_device() - - def test_queue(self): - alice, bob, mon = self.build_device() - alices = b"hello bob".split() - alice.send_multipart(alices) - alices2 = b"hello again".split() - alice.send_multipart(alices2) - alices3 = b"hello again and again".split() - alice.send_multipart(alices3) - bobs = self.recv_multipart(bob) - self.assertEqual(alices, bobs) - bobs = self.recv_multipart(bob) - self.assertEqual(alices2, bobs) - bobs = self.recv_multipart(bob) - self.assertEqual(alices3, bobs) - bobs = b"hello alice".split() - bob.send_multipart(bobs) - alices = self.recv_multipart(alice) - self.assertEqual(alices, bobs) - self.teardown_device() - - def test_monitor(self): - alice, bob, mon = self.build_device() - alices = b"hello bob".split() - alice.send_multipart(alices) - alices2 = b"hello again".split() - alice.send_multipart(alices2) - alices3 = b"hello again and again".split() - alice.send_multipart(alices3) - bobs = self.recv_multipart(bob) - self.assertEqual(alices, bobs) - mons = self.recv_multipart(mon) - self.assertEqual([b'in']+bobs, mons) - bobs = self.recv_multipart(bob) - self.assertEqual(alices2, bobs) - bobs = self.recv_multipart(bob) - self.assertEqual(alices3, bobs) - mons = self.recv_multipart(mon) - self.assertEqual([b'in']+alices2, mons) - bobs = b"hello alice".split() - bob.send_multipart(bobs) - alices = self.recv_multipart(alice) - self.assertEqual(alices, bobs) - mons = self.recv_multipart(mon) - self.assertEqual([b'in']+alices3, mons) - mons = self.recv_multipart(mon) - self.assertEqual([b'out']+bobs, mons) - self.teardown_device() - - def test_prefix(self): - alice, bob, mon = self.build_device(b"", b'foo', b'bar') - alices = b"hello bob".split() - alice.send_multipart(alices) - alices2 = b"hello again".split() - alice.send_multipart(alices2) - alices3 = b"hello again and again".split() - alice.send_multipart(alices3) - bobs = self.recv_multipart(bob) - self.assertEqual(alices, bobs) - mons = self.recv_multipart(mon) - self.assertEqual([b'foo']+bobs, mons) - bobs = self.recv_multipart(bob) - self.assertEqual(alices2, bobs) - bobs = self.recv_multipart(bob) - self.assertEqual(alices3, bobs) - mons = self.recv_multipart(mon) - self.assertEqual([b'foo']+alices2, mons) - bobs = b"hello alice".split() - bob.send_multipart(bobs) - alices = self.recv_multipart(alice) - self.assertEqual(alices, bobs) - mons = self.recv_multipart(mon) - self.assertEqual([b'foo']+alices3, mons) - mons = self.recv_multipart(mon) - self.assertEqual([b'bar']+bobs, mons) - self.teardown_device() - - def test_monitor_subscribe(self): - alice, bob, mon = self.build_device(b"out") - alices = b"hello bob".split() - alice.send_multipart(alices) - alices2 = b"hello again".split() - alice.send_multipart(alices2) - alices3 = b"hello again and again".split() - alice.send_multipart(alices3) - bobs = self.recv_multipart(bob) - self.assertEqual(alices, bobs) - bobs = self.recv_multipart(bob) - self.assertEqual(alices2, bobs) - bobs = self.recv_multipart(bob) - self.assertEqual(alices3, bobs) - bobs = b"hello alice".split() - bob.send_multipart(bobs) - alices = self.recv_multipart(alice) - self.assertEqual(alices, bobs) - mons = self.recv_multipart(mon) - self.assertEqual([b'out']+bobs, mons) - self.teardown_device() - - def test_router_router(self): - """test router-router MQ devices""" - dev = devices.ThreadMonitoredQueue(zmq.ROUTER, zmq.ROUTER, zmq.PUB, b'in', b'out') - self.device = dev - dev.setsockopt_in(zmq.LINGER, 0) - dev.setsockopt_out(zmq.LINGER, 0) - dev.setsockopt_mon(zmq.LINGER, 0) - - binder = self.context.socket(zmq.DEALER) - porta = binder.bind_to_random_port('tcp://127.0.0.1') - portb = binder.bind_to_random_port('tcp://127.0.0.1') - binder.close() - time.sleep(0.1) - a = self.context.socket(zmq.DEALER) - a.identity = b'a' - b = self.context.socket(zmq.DEALER) - b.identity = b'b' - self.sockets.extend([a, b]) - - a.connect('tcp://127.0.0.1:%i'%porta) - dev.bind_in('tcp://127.0.0.1:%i'%porta) - b.connect('tcp://127.0.0.1:%i'%portb) - dev.bind_out('tcp://127.0.0.1:%i'%portb) - dev.start() - time.sleep(0.2) - if zmq.zmq_version_info() >= (3,1,0): - # flush erroneous poll state, due to LIBZMQ-280 - ping_msg = [ b'ping', b'pong' ] - for s in (a,b): - s.send_multipart(ping_msg) - try: - s.recv(zmq.NOBLOCK) - except zmq.ZMQError: - pass - msg = [ b'hello', b'there' ] - a.send_multipart([b'b']+msg) - bmsg = self.recv_multipart(b) - self.assertEqual(bmsg, [b'a']+msg) - b.send_multipart(bmsg) - amsg = self.recv_multipart(a) - self.assertEqual(amsg, [b'b']+msg) - self.teardown_device() - - def test_default_mq_args(self): - self.device = dev = devices.ThreadMonitoredQueue(zmq.ROUTER, zmq.DEALER, zmq.PUB) - dev.setsockopt_in(zmq.LINGER, 0) - dev.setsockopt_out(zmq.LINGER, 0) - dev.setsockopt_mon(zmq.LINGER, 0) - # this will raise if default args are wrong - dev.start() - self.teardown_device() - - def test_mq_check_prefix(self): - ins = self.context.socket(zmq.ROUTER) - outs = self.context.socket(zmq.DEALER) - mons = self.context.socket(zmq.PUB) - self.sockets.extend([ins, outs, mons]) - - ins = unicode('in') - outs = unicode('out') - self.assertRaises(TypeError, devices.monitoredqueue, ins, outs, mons) diff --git a/external_libs/python/zmq/tests/test_multipart.py b/external_libs/python/zmq/tests/test_multipart.py deleted file mode 100644 index 24d41be0..00000000 --- a/external_libs/python/zmq/tests/test_multipart.py +++ /dev/null @@ -1,35 +0,0 @@ -# Copyright (C) PyZMQ Developers -# Distributed under the terms of the Modified BSD License. - - -import zmq - - -from zmq.tests import BaseZMQTestCase, SkipTest, have_gevent, GreenTest - - -class TestMultipart(BaseZMQTestCase): - - def test_router_dealer(self): - router, dealer = self.create_bound_pair(zmq.ROUTER, zmq.DEALER) - - msg1 = b'message1' - dealer.send(msg1) - ident = self.recv(router) - more = router.rcvmore - self.assertEqual(more, True) - msg2 = self.recv(router) - self.assertEqual(msg1, msg2) - more = router.rcvmore - self.assertEqual(more, False) - - def test_basic_multipart(self): - a,b = self.create_bound_pair(zmq.PAIR, zmq.PAIR) - msg = [ b'hi', b'there', b'b'] - a.send_multipart(msg) - recvd = b.recv_multipart() - self.assertEqual(msg, recvd) - -if have_gevent: - class TestMultipartGreen(GreenTest, TestMultipart): - pass diff --git a/external_libs/python/zmq/tests/test_pair.py b/external_libs/python/zmq/tests/test_pair.py deleted file mode 100644 index e88c1e8b..00000000 --- a/external_libs/python/zmq/tests/test_pair.py +++ /dev/null @@ -1,53 +0,0 @@ -# Copyright (C) PyZMQ Developers -# Distributed under the terms of the Modified BSD License. - - -import zmq - - -from zmq.tests import BaseZMQTestCase, have_gevent, GreenTest - - -x = b' ' -class TestPair(BaseZMQTestCase): - - def test_basic(self): - s1, s2 = self.create_bound_pair(zmq.PAIR, zmq.PAIR) - - msg1 = b'message1' - msg2 = self.ping_pong(s1, s2, msg1) - self.assertEqual(msg1, msg2) - - def test_multiple(self): - s1, s2 = self.create_bound_pair(zmq.PAIR, zmq.PAIR) - - for i in range(10): - msg = i*x - s1.send(msg) - - for i in range(10): - msg = i*x - s2.send(msg) - - for i in range(10): - msg = s1.recv() - self.assertEqual(msg, i*x) - - for i in range(10): - msg = s2.recv() - self.assertEqual(msg, i*x) - - def test_json(self): - s1, s2 = self.create_bound_pair(zmq.PAIR, zmq.PAIR) - o = dict(a=10,b=list(range(10))) - o2 = self.ping_pong_json(s1, s2, o) - - def test_pyobj(self): - s1, s2 = self.create_bound_pair(zmq.PAIR, zmq.PAIR) - o = dict(a=10,b=range(10)) - o2 = self.ping_pong_pyobj(s1, s2, o) - -if have_gevent: - class TestReqRepGreen(GreenTest, TestPair): - pass - diff --git a/external_libs/python/zmq/tests/test_poll.py b/external_libs/python/zmq/tests/test_poll.py deleted file mode 100644 index 57346c89..00000000 --- a/external_libs/python/zmq/tests/test_poll.py +++ /dev/null @@ -1,229 +0,0 @@ -# Copyright (C) PyZMQ Developers -# Distributed under the terms of the Modified BSD License. - - -import time -from unittest import TestCase - -import zmq - -from zmq.tests import PollZMQTestCase, have_gevent, GreenTest - -def wait(): - time.sleep(.25) - - -class TestPoll(PollZMQTestCase): - - Poller = zmq.Poller - - # This test is failing due to this issue: - # http://github.com/sustrik/zeromq2/issues#issue/26 - def test_pair(self): - s1, s2 = self.create_bound_pair(zmq.PAIR, zmq.PAIR) - - # Sleep to allow sockets to connect. - wait() - - poller = self.Poller() - poller.register(s1, zmq.POLLIN|zmq.POLLOUT) - poller.register(s2, zmq.POLLIN|zmq.POLLOUT) - # Poll result should contain both sockets - socks = dict(poller.poll()) - # Now make sure that both are send ready. - self.assertEqual(socks[s1], zmq.POLLOUT) - self.assertEqual(socks[s2], zmq.POLLOUT) - # Now do a send on both, wait and test for zmq.POLLOUT|zmq.POLLIN - s1.send(b'msg1') - s2.send(b'msg2') - wait() - socks = dict(poller.poll()) - self.assertEqual(socks[s1], zmq.POLLOUT|zmq.POLLIN) - self.assertEqual(socks[s2], zmq.POLLOUT|zmq.POLLIN) - # Make sure that both are in POLLOUT after recv. - s1.recv() - s2.recv() - socks = dict(poller.poll()) - self.assertEqual(socks[s1], zmq.POLLOUT) - self.assertEqual(socks[s2], zmq.POLLOUT) - - poller.unregister(s1) - poller.unregister(s2) - - # Wait for everything to finish. - wait() - - def test_reqrep(self): - s1, s2 = self.create_bound_pair(zmq.REP, zmq.REQ) - - # Sleep to allow sockets to connect. - wait() - - poller = self.Poller() - poller.register(s1, zmq.POLLIN|zmq.POLLOUT) - poller.register(s2, zmq.POLLIN|zmq.POLLOUT) - - # Make sure that s1 is in state 0 and s2 is in POLLOUT - socks = dict(poller.poll()) - self.assertEqual(s1 in socks, 0) - self.assertEqual(socks[s2], zmq.POLLOUT) - - # Make sure that s2 goes immediately into state 0 after send. - s2.send(b'msg1') - socks = dict(poller.poll()) - self.assertEqual(s2 in socks, 0) - - # Make sure that s1 goes into POLLIN state after a time.sleep(). - time.sleep(0.5) - socks = dict(poller.poll()) - self.assertEqual(socks[s1], zmq.POLLIN) - - # Make sure that s1 goes into POLLOUT after recv. - s1.recv() - socks = dict(poller.poll()) - self.assertEqual(socks[s1], zmq.POLLOUT) - - # Make sure s1 goes into state 0 after send. - s1.send(b'msg2') - socks = dict(poller.poll()) - self.assertEqual(s1 in socks, 0) - - # Wait and then see that s2 is in POLLIN. - time.sleep(0.5) - socks = dict(poller.poll()) - self.assertEqual(socks[s2], zmq.POLLIN) - - # Make sure that s2 is in POLLOUT after recv. - s2.recv() - socks = dict(poller.poll()) - self.assertEqual(socks[s2], zmq.POLLOUT) - - poller.unregister(s1) - poller.unregister(s2) - - # Wait for everything to finish. - wait() - - def test_no_events(self): - s1, s2 = self.create_bound_pair(zmq.PAIR, zmq.PAIR) - poller = self.Poller() - poller.register(s1, zmq.POLLIN|zmq.POLLOUT) - poller.register(s2, 0) - self.assertTrue(s1 in poller) - self.assertFalse(s2 in poller) - poller.register(s1, 0) - self.assertFalse(s1 in poller) - - def test_pubsub(self): - s1, s2 = self.create_bound_pair(zmq.PUB, zmq.SUB) - s2.setsockopt(zmq.SUBSCRIBE, b'') - - # Sleep to allow sockets to connect. - wait() - - poller = self.Poller() - poller.register(s1, zmq.POLLIN|zmq.POLLOUT) - poller.register(s2, zmq.POLLIN) - - # Now make sure that both are send ready. - socks = dict(poller.poll()) - self.assertEqual(socks[s1], zmq.POLLOUT) - self.assertEqual(s2 in socks, 0) - # Make sure that s1 stays in POLLOUT after a send. - s1.send(b'msg1') - socks = dict(poller.poll()) - self.assertEqual(socks[s1], zmq.POLLOUT) - - # Make sure that s2 is POLLIN after waiting. - wait() - socks = dict(poller.poll()) - self.assertEqual(socks[s2], zmq.POLLIN) - - # Make sure that s2 goes into 0 after recv. - s2.recv() - socks = dict(poller.poll()) - self.assertEqual(s2 in socks, 0) - - poller.unregister(s1) - poller.unregister(s2) - - # Wait for everything to finish. - wait() - def test_timeout(self): - """make sure Poller.poll timeout has the right units (milliseconds).""" - s1, s2 = self.create_bound_pair(zmq.PAIR, zmq.PAIR) - poller = self.Poller() - poller.register(s1, zmq.POLLIN) - tic = time.time() - evt = poller.poll(.005) - toc = time.time() - self.assertTrue(toc-tic < 0.1) - tic = time.time() - evt = poller.poll(5) - toc = time.time() - self.assertTrue(toc-tic < 0.1) - self.assertTrue(toc-tic > .001) - tic = time.time() - evt = poller.poll(500) - toc = time.time() - self.assertTrue(toc-tic < 1) - self.assertTrue(toc-tic > 0.1) - -class TestSelect(PollZMQTestCase): - - def test_pair(self): - s1, s2 = self.create_bound_pair(zmq.PAIR, zmq.PAIR) - - # Sleep to allow sockets to connect. - wait() - - rlist, wlist, xlist = zmq.select([s1, s2], [s1, s2], [s1, s2]) - self.assert_(s1 in wlist) - self.assert_(s2 in wlist) - self.assert_(s1 not in rlist) - self.assert_(s2 not in rlist) - - def test_timeout(self): - """make sure select timeout has the right units (seconds).""" - s1, s2 = self.create_bound_pair(zmq.PAIR, zmq.PAIR) - tic = time.time() - r,w,x = zmq.select([s1,s2],[],[],.005) - toc = time.time() - self.assertTrue(toc-tic < 1) - self.assertTrue(toc-tic > 0.001) - tic = time.time() - r,w,x = zmq.select([s1,s2],[],[],.25) - toc = time.time() - self.assertTrue(toc-tic < 1) - self.assertTrue(toc-tic > 0.1) - - -if have_gevent: - import gevent - from zmq import green as gzmq - - class TestPollGreen(GreenTest, TestPoll): - Poller = gzmq.Poller - - def test_wakeup(self): - s1, s2 = self.create_bound_pair(zmq.PAIR, zmq.PAIR) - poller = self.Poller() - poller.register(s2, zmq.POLLIN) - - tic = time.time() - r = gevent.spawn(lambda: poller.poll(10000)) - s = gevent.spawn(lambda: s1.send(b'msg1')) - r.join() - toc = time.time() - self.assertTrue(toc-tic < 1) - - def test_socket_poll(self): - s1, s2 = self.create_bound_pair(zmq.PAIR, zmq.PAIR) - - tic = time.time() - r = gevent.spawn(lambda: s2.poll(10000)) - s = gevent.spawn(lambda: s1.send(b'msg1')) - r.join() - toc = time.time() - self.assertTrue(toc-tic < 1) - diff --git a/external_libs/python/zmq/tests/test_pubsub.py b/external_libs/python/zmq/tests/test_pubsub.py deleted file mode 100644 index a3ee22aa..00000000 --- a/external_libs/python/zmq/tests/test_pubsub.py +++ /dev/null @@ -1,41 +0,0 @@ -# Copyright (C) PyZMQ Developers -# Distributed under the terms of the Modified BSD License. - - -import time -from unittest import TestCase - -import zmq - -from zmq.tests import BaseZMQTestCase, have_gevent, GreenTest - - -class TestPubSub(BaseZMQTestCase): - - pass - - # We are disabling this test while an issue is being resolved. - def test_basic(self): - s1, s2 = self.create_bound_pair(zmq.PUB, zmq.SUB) - s2.setsockopt(zmq.SUBSCRIBE,b'') - time.sleep(0.1) - msg1 = b'message' - s1.send(msg1) - msg2 = s2.recv() # This is blocking! - self.assertEqual(msg1, msg2) - - def test_topic(self): - s1, s2 = self.create_bound_pair(zmq.PUB, zmq.SUB) - s2.setsockopt(zmq.SUBSCRIBE, b'x') - time.sleep(0.1) - msg1 = b'message' - s1.send(msg1) - self.assertRaisesErrno(zmq.EAGAIN, s2.recv, zmq.NOBLOCK) - msg1 = b'xmessage' - s1.send(msg1) - msg2 = s2.recv() - self.assertEqual(msg1, msg2) - -if have_gevent: - class TestPubSubGreen(GreenTest, TestPubSub): - pass diff --git a/external_libs/python/zmq/tests/test_reqrep.py b/external_libs/python/zmq/tests/test_reqrep.py deleted file mode 100644 index de17f2b3..00000000 --- a/external_libs/python/zmq/tests/test_reqrep.py +++ /dev/null @@ -1,62 +0,0 @@ -# Copyright (C) PyZMQ Developers -# Distributed under the terms of the Modified BSD License. - - -from unittest import TestCase - -import zmq -from zmq.tests import BaseZMQTestCase, have_gevent, GreenTest - - -class TestReqRep(BaseZMQTestCase): - - def test_basic(self): - s1, s2 = self.create_bound_pair(zmq.REQ, zmq.REP) - - msg1 = b'message 1' - msg2 = self.ping_pong(s1, s2, msg1) - self.assertEqual(msg1, msg2) - - def test_multiple(self): - s1, s2 = self.create_bound_pair(zmq.REQ, zmq.REP) - - for i in range(10): - msg1 = i*b' ' - msg2 = self.ping_pong(s1, s2, msg1) - self.assertEqual(msg1, msg2) - - def test_bad_send_recv(self): - s1, s2 = self.create_bound_pair(zmq.REQ, zmq.REP) - - if zmq.zmq_version() != '2.1.8': - # this doesn't work on 2.1.8 - for copy in (True,False): - self.assertRaisesErrno(zmq.EFSM, s1.recv, copy=copy) - self.assertRaisesErrno(zmq.EFSM, s2.send, b'asdf', copy=copy) - - # I have to have this or we die on an Abort trap. - msg1 = b'asdf' - msg2 = self.ping_pong(s1, s2, msg1) - self.assertEqual(msg1, msg2) - - def test_json(self): - s1, s2 = self.create_bound_pair(zmq.REQ, zmq.REP) - o = dict(a=10,b=list(range(10))) - o2 = self.ping_pong_json(s1, s2, o) - - def test_pyobj(self): - s1, s2 = self.create_bound_pair(zmq.REQ, zmq.REP) - o = dict(a=10,b=range(10)) - o2 = self.ping_pong_pyobj(s1, s2, o) - - def test_large_msg(self): - s1, s2 = self.create_bound_pair(zmq.REQ, zmq.REP) - msg1 = 10000*b'X' - - for i in range(10): - msg2 = self.ping_pong(s1, s2, msg1) - self.assertEqual(msg1, msg2) - -if have_gevent: - class TestReqRepGreen(GreenTest, TestReqRep): - pass diff --git a/external_libs/python/zmq/tests/test_security.py b/external_libs/python/zmq/tests/test_security.py deleted file mode 100644 index 687b7e0f..00000000 --- a/external_libs/python/zmq/tests/test_security.py +++ /dev/null @@ -1,212 +0,0 @@ -"""Test libzmq security (libzmq >= 3.3.0)""" -# -*- coding: utf8 -*- - -# Copyright (C) PyZMQ Developers -# Distributed under the terms of the Modified BSD License. - -import os -from threading import Thread - -import zmq -from zmq.tests import ( - BaseZMQTestCase, SkipTest, PYPY -) -from zmq.utils import z85 - - -USER = b"admin" -PASS = b"password" - -class TestSecurity(BaseZMQTestCase): - - def setUp(self): - if zmq.zmq_version_info() < (4,0): - raise SkipTest("security is new in libzmq 4.0") - try: - zmq.curve_keypair() - except zmq.ZMQError: - raise SkipTest("security requires libzmq to be linked against libsodium") - super(TestSecurity, self).setUp() - - - def zap_handler(self): - socket = self.context.socket(zmq.REP) - socket.bind("inproc://zeromq.zap.01") - try: - msg = self.recv_multipart(socket) - - version, sequence, domain, address, identity, mechanism = msg[:6] - if mechanism == b'PLAIN': - username, password = msg[6:] - elif mechanism == b'CURVE': - key = msg[6] - - self.assertEqual(version, b"1.0") - self.assertEqual(identity, b"IDENT") - reply = [version, sequence] - if mechanism == b'CURVE' or \ - (mechanism == b'PLAIN' and username == USER and password == PASS) or \ - (mechanism == b'NULL'): - reply.extend([ - b"200", - b"OK", - b"anonymous", - b"\5Hello\0\0\0\5World", - ]) - else: - reply.extend([ - b"400", - b"Invalid username or password", - b"", - b"", - ]) - socket.send_multipart(reply) - finally: - socket.close() - - def start_zap(self): - self.zap_thread = Thread(target=self.zap_handler) - self.zap_thread.start() - - def stop_zap(self): - self.zap_thread.join() - - def bounce(self, server, client, test_metadata=True): - msg = [os.urandom(64), os.urandom(64)] - client.send_multipart(msg) - frames = self.recv_multipart(server, copy=False) - recvd = list(map(lambda x: x.bytes, frames)) - - try: - if test_metadata and not PYPY: - for frame in frames: - self.assertEqual(frame.get('User-Id'), 'anonymous') - self.assertEqual(frame.get('Hello'), 'World') - self.assertEqual(frame['Socket-Type'], 'DEALER') - except zmq.ZMQVersionError: - pass - - self.assertEqual(recvd, msg) - server.send_multipart(recvd) - msg2 = self.recv_multipart(client) - self.assertEqual(msg2, msg) - - def test_null(self): - """test NULL (default) security""" - server = self.socket(zmq.DEALER) - client = self.socket(zmq.DEALER) - self.assertEqual(client.MECHANISM, zmq.NULL) - self.assertEqual(server.mechanism, zmq.NULL) - self.assertEqual(client.plain_server, 0) - self.assertEqual(server.plain_server, 0) - iface = 'tcp://127.0.0.1' - port = server.bind_to_random_port(iface) - client.connect("%s:%i" % (iface, port)) - self.bounce(server, client, False) - - def test_plain(self): - """test PLAIN authentication""" - server = self.socket(zmq.DEALER) - server.identity = b'IDENT' - client = self.socket(zmq.DEALER) - self.assertEqual(client.plain_username, b'') - self.assertEqual(client.plain_password, b'') - client.plain_username = USER - client.plain_password = PASS - self.assertEqual(client.getsockopt(zmq.PLAIN_USERNAME), USER) - self.assertEqual(client.getsockopt(zmq.PLAIN_PASSWORD), PASS) - self.assertEqual(client.plain_server, 0) - self.assertEqual(server.plain_server, 0) - server.plain_server = True - self.assertEqual(server.mechanism, zmq.PLAIN) - self.assertEqual(client.mechanism, zmq.PLAIN) - - assert not client.plain_server - assert server.plain_server - - self.start_zap() - - iface = 'tcp://127.0.0.1' - port = server.bind_to_random_port(iface) - client.connect("%s:%i" % (iface, port)) - self.bounce(server, client) - self.stop_zap() - - def skip_plain_inauth(self): - """test PLAIN failed authentication""" - server = self.socket(zmq.DEALER) - server.identity = b'IDENT' - client = self.socket(zmq.DEALER) - self.sockets.extend([server, client]) - client.plain_username = USER - client.plain_password = b'incorrect' - server.plain_server = True - self.assertEqual(server.mechanism, zmq.PLAIN) - self.assertEqual(client.mechanism, zmq.PLAIN) - - self.start_zap() - - iface = 'tcp://127.0.0.1' - port = server.bind_to_random_port(iface) - client.connect("%s:%i" % (iface, port)) - client.send(b'ping') - server.rcvtimeo = 250 - self.assertRaisesErrno(zmq.EAGAIN, server.recv) - self.stop_zap() - - def test_keypair(self): - """test curve_keypair""" - try: - public, secret = zmq.curve_keypair() - except zmq.ZMQError: - raise SkipTest("CURVE unsupported") - - self.assertEqual(type(secret), bytes) - self.assertEqual(type(public), bytes) - self.assertEqual(len(secret), 40) - self.assertEqual(len(public), 40) - - # verify that it is indeed Z85 - bsecret, bpublic = [ z85.decode(key) for key in (public, secret) ] - self.assertEqual(type(bsecret), bytes) - self.assertEqual(type(bpublic), bytes) - self.assertEqual(len(bsecret), 32) - self.assertEqual(len(bpublic), 32) - - - def test_curve(self): - """test CURVE encryption""" - server = self.socket(zmq.DEALER) - server.identity = b'IDENT' - client = self.socket(zmq.DEALER) - self.sockets.extend([server, client]) - try: - server.curve_server = True - except zmq.ZMQError as e: - # will raise EINVAL if not linked against libsodium - if e.errno == zmq.EINVAL: - raise SkipTest("CURVE unsupported") - - server_public, server_secret = zmq.curve_keypair() - client_public, client_secret = zmq.curve_keypair() - - server.curve_secretkey = server_secret - server.curve_publickey = server_public - client.curve_serverkey = server_public - client.curve_publickey = client_public - client.curve_secretkey = client_secret - - self.assertEqual(server.mechanism, zmq.CURVE) - self.assertEqual(client.mechanism, zmq.CURVE) - - self.assertEqual(server.get(zmq.CURVE_SERVER), True) - self.assertEqual(client.get(zmq.CURVE_SERVER), False) - - self.start_zap() - - iface = 'tcp://127.0.0.1' - port = server.bind_to_random_port(iface) - client.connect("%s:%i" % (iface, port)) - self.bounce(server, client) - self.stop_zap() - diff --git a/external_libs/python/zmq/tests/test_socket.py b/external_libs/python/zmq/tests/test_socket.py deleted file mode 100644 index 5c842edc..00000000 --- a/external_libs/python/zmq/tests/test_socket.py +++ /dev/null @@ -1,450 +0,0 @@ -# -*- coding: utf8 -*- -# Copyright (C) PyZMQ Developers -# Distributed under the terms of the Modified BSD License. - -import time -import warnings - -import zmq -from zmq.tests import ( - BaseZMQTestCase, SkipTest, have_gevent, GreenTest, skip_pypy, skip_if -) -from zmq.utils.strtypes import bytes, unicode - - -class TestSocket(BaseZMQTestCase): - - def test_create(self): - ctx = self.Context() - s = ctx.socket(zmq.PUB) - # Superluminal protocol not yet implemented - self.assertRaisesErrno(zmq.EPROTONOSUPPORT, s.bind, 'ftl://a') - self.assertRaisesErrno(zmq.EPROTONOSUPPORT, s.connect, 'ftl://a') - self.assertRaisesErrno(zmq.EINVAL, s.bind, 'tcp://') - s.close() - del ctx - - def test_context_manager(self): - url = 'inproc://a' - with self.Context() as ctx: - with ctx.socket(zmq.PUSH) as a: - a.bind(url) - with ctx.socket(zmq.PULL) as b: - b.connect(url) - msg = b'hi' - a.send(msg) - rcvd = self.recv(b) - self.assertEqual(rcvd, msg) - self.assertEqual(b.closed, True) - self.assertEqual(a.closed, True) - self.assertEqual(ctx.closed, True) - - def test_dir(self): - ctx = self.Context() - s = ctx.socket(zmq.PUB) - self.assertTrue('send' in dir(s)) - self.assertTrue('IDENTITY' in dir(s)) - self.assertTrue('AFFINITY' in dir(s)) - self.assertTrue('FD' in dir(s)) - s.close() - ctx.term() - - def test_bind_unicode(self): - s = self.socket(zmq.PUB) - p = s.bind_to_random_port(unicode("tcp://*")) - - def test_connect_unicode(self): - s = self.socket(zmq.PUB) - s.connect(unicode("tcp://127.0.0.1:5555")) - - def test_bind_to_random_port(self): - # Check that bind_to_random_port do not hide usefull exception - ctx = self.Context() - c = ctx.socket(zmq.PUB) - # Invalid format - try: - c.bind_to_random_port('tcp:*') - except zmq.ZMQError as e: - self.assertEqual(e.errno, zmq.EINVAL) - # Invalid protocol - try: - c.bind_to_random_port('rand://*') - except zmq.ZMQError as e: - self.assertEqual(e.errno, zmq.EPROTONOSUPPORT) - - def test_identity(self): - s = self.context.socket(zmq.PULL) - self.sockets.append(s) - ident = b'identity\0\0' - s.identity = ident - self.assertEqual(s.get(zmq.IDENTITY), ident) - - def test_unicode_sockopts(self): - """test setting/getting sockopts with unicode strings""" - topic = "tést" - if str is not unicode: - topic = topic.decode('utf8') - p,s = self.create_bound_pair(zmq.PUB, zmq.SUB) - self.assertEqual(s.send_unicode, s.send_unicode) - self.assertEqual(p.recv_unicode, p.recv_unicode) - self.assertRaises(TypeError, s.setsockopt, zmq.SUBSCRIBE, topic) - self.assertRaises(TypeError, s.setsockopt, zmq.IDENTITY, topic) - s.setsockopt_unicode(zmq.IDENTITY, topic, 'utf16') - self.assertRaises(TypeError, s.setsockopt, zmq.AFFINITY, topic) - s.setsockopt_unicode(zmq.SUBSCRIBE, topic) - self.assertRaises(TypeError, s.getsockopt_unicode, zmq.AFFINITY) - self.assertRaisesErrno(zmq.EINVAL, s.getsockopt_unicode, zmq.SUBSCRIBE) - - identb = s.getsockopt(zmq.IDENTITY) - identu = identb.decode('utf16') - identu2 = s.getsockopt_unicode(zmq.IDENTITY, 'utf16') - self.assertEqual(identu, identu2) - time.sleep(0.1) # wait for connection/subscription - p.send_unicode(topic,zmq.SNDMORE) - p.send_unicode(topic*2, encoding='latin-1') - self.assertEqual(topic, s.recv_unicode()) - self.assertEqual(topic*2, s.recv_unicode(encoding='latin-1')) - - def test_int_sockopts(self): - "test integer sockopts" - v = zmq.zmq_version_info() - if v < (3,0): - default_hwm = 0 - else: - default_hwm = 1000 - p,s = self.create_bound_pair(zmq.PUB, zmq.SUB) - p.setsockopt(zmq.LINGER, 0) - self.assertEqual(p.getsockopt(zmq.LINGER), 0) - p.setsockopt(zmq.LINGER, -1) - self.assertEqual(p.getsockopt(zmq.LINGER), -1) - self.assertEqual(p.hwm, default_hwm) - p.hwm = 11 - self.assertEqual(p.hwm, 11) - # p.setsockopt(zmq.EVENTS, zmq.POLLIN) - self.assertEqual(p.getsockopt(zmq.EVENTS), zmq.POLLOUT) - self.assertRaisesErrno(zmq.EINVAL, p.setsockopt,zmq.EVENTS, 2**7-1) - self.assertEqual(p.getsockopt(zmq.TYPE), p.socket_type) - self.assertEqual(p.getsockopt(zmq.TYPE), zmq.PUB) - self.assertEqual(s.getsockopt(zmq.TYPE), s.socket_type) - self.assertEqual(s.getsockopt(zmq.TYPE), zmq.SUB) - - # check for overflow / wrong type: - errors = [] - backref = {} - constants = zmq.constants - for name in constants.__all__: - value = getattr(constants, name) - if isinstance(value, int): - backref[value] = name - for opt in zmq.constants.int_sockopts.union(zmq.constants.int64_sockopts): - sopt = backref[opt] - if sopt.startswith(( - 'ROUTER', 'XPUB', 'TCP', 'FAIL', - 'REQ_', 'CURVE_', 'PROBE_ROUTER', - 'IPC_FILTER', 'GSSAPI', - )): - # some sockopts are write-only - continue - try: - n = p.getsockopt(opt) - except zmq.ZMQError as e: - errors.append("getsockopt(zmq.%s) raised '%s'."%(sopt, e)) - else: - if n > 2**31: - errors.append("getsockopt(zmq.%s) returned a ridiculous value." - " It is probably the wrong type."%sopt) - if errors: - self.fail('\n'.join([''] + errors)) - - def test_bad_sockopts(self): - """Test that appropriate errors are raised on bad socket options""" - s = self.context.socket(zmq.PUB) - self.sockets.append(s) - s.setsockopt(zmq.LINGER, 0) - # unrecognized int sockopts pass through to libzmq, and should raise EINVAL - self.assertRaisesErrno(zmq.EINVAL, s.setsockopt, 9999, 5) - self.assertRaisesErrno(zmq.EINVAL, s.getsockopt, 9999) - # but only int sockopts are allowed through this way, otherwise raise a TypeError - self.assertRaises(TypeError, s.setsockopt, 9999, b"5") - # some sockopts are valid in general, but not on every socket: - self.assertRaisesErrno(zmq.EINVAL, s.setsockopt, zmq.SUBSCRIBE, b'hi') - - def test_sockopt_roundtrip(self): - "test set/getsockopt roundtrip." - p = self.context.socket(zmq.PUB) - self.sockets.append(p) - p.setsockopt(zmq.LINGER, 11) - self.assertEqual(p.getsockopt(zmq.LINGER), 11) - - def test_send_unicode(self): - "test sending unicode objects" - a,b = self.create_bound_pair(zmq.PAIR, zmq.PAIR) - self.sockets.extend([a,b]) - u = "çπ§" - if str is not unicode: - u = u.decode('utf8') - self.assertRaises(TypeError, a.send, u,copy=False) - self.assertRaises(TypeError, a.send, u,copy=True) - a.send_unicode(u) - s = b.recv() - self.assertEqual(s,u.encode('utf8')) - self.assertEqual(s.decode('utf8'),u) - a.send_unicode(u,encoding='utf16') - s = b.recv_unicode(encoding='utf16') - self.assertEqual(s,u) - - @skip_pypy - def test_tracker(self): - "test the MessageTracker object for tracking when zmq is done with a buffer" - addr = 'tcp://127.0.0.1' - a = self.context.socket(zmq.PUB) - port = a.bind_to_random_port(addr) - a.close() - iface = "%s:%i"%(addr,port) - a = self.context.socket(zmq.PAIR) - # a.setsockopt(zmq.IDENTITY, b"a") - b = self.context.socket(zmq.PAIR) - self.sockets.extend([a,b]) - a.connect(iface) - time.sleep(0.1) - p1 = a.send(b'something', copy=False, track=True) - self.assertTrue(isinstance(p1, zmq.MessageTracker)) - self.assertFalse(p1.done) - p2 = a.send_multipart([b'something', b'else'], copy=False, track=True) - self.assert_(isinstance(p2, zmq.MessageTracker)) - self.assertEqual(p2.done, False) - self.assertEqual(p1.done, False) - - b.bind(iface) - msg = b.recv_multipart() - for i in range(10): - if p1.done: - break - time.sleep(0.1) - self.assertEqual(p1.done, True) - self.assertEqual(msg, [b'something']) - msg = b.recv_multipart() - for i in range(10): - if p2.done: - break - time.sleep(0.1) - self.assertEqual(p2.done, True) - self.assertEqual(msg, [b'something', b'else']) - m = zmq.Frame(b"again", track=True) - self.assertEqual(m.tracker.done, False) - p1 = a.send(m, copy=False) - p2 = a.send(m, copy=False) - self.assertEqual(m.tracker.done, False) - self.assertEqual(p1.done, False) - self.assertEqual(p2.done, False) - msg = b.recv_multipart() - self.assertEqual(m.tracker.done, False) - self.assertEqual(msg, [b'again']) - msg = b.recv_multipart() - self.assertEqual(m.tracker.done, False) - self.assertEqual(msg, [b'again']) - self.assertEqual(p1.done, False) - self.assertEqual(p2.done, False) - pm = m.tracker - del m - for i in range(10): - if p1.done: - break - time.sleep(0.1) - self.assertEqual(p1.done, True) - self.assertEqual(p2.done, True) - m = zmq.Frame(b'something', track=False) - self.assertRaises(ValueError, a.send, m, copy=False, track=True) - - - def test_close(self): - ctx = self.Context() - s = ctx.socket(zmq.PUB) - s.close() - self.assertRaisesErrno(zmq.ENOTSOCK, s.bind, b'') - self.assertRaisesErrno(zmq.ENOTSOCK, s.connect, b'') - self.assertRaisesErrno(zmq.ENOTSOCK, s.setsockopt, zmq.SUBSCRIBE, b'') - self.assertRaisesErrno(zmq.ENOTSOCK, s.send, b'asdf') - self.assertRaisesErrno(zmq.ENOTSOCK, s.recv) - del ctx - - def test_attr(self): - """set setting/getting sockopts as attributes""" - s = self.context.socket(zmq.DEALER) - self.sockets.append(s) - linger = 10 - s.linger = linger - self.assertEqual(linger, s.linger) - self.assertEqual(linger, s.getsockopt(zmq.LINGER)) - self.assertEqual(s.fd, s.getsockopt(zmq.FD)) - - def test_bad_attr(self): - s = self.context.socket(zmq.DEALER) - self.sockets.append(s) - try: - s.apple='foo' - except AttributeError: - pass - else: - self.fail("bad setattr should have raised AttributeError") - try: - s.apple - except AttributeError: - pass - else: - self.fail("bad getattr should have raised AttributeError") - - def test_subclass(self): - """subclasses can assign attributes""" - class S(zmq.Socket): - a = None - def __init__(self, *a, **kw): - self.a=-1 - super(S, self).__init__(*a, **kw) - - s = S(self.context, zmq.REP) - self.sockets.append(s) - self.assertEqual(s.a, -1) - s.a=1 - self.assertEqual(s.a, 1) - a=s.a - self.assertEqual(a, 1) - - def test_recv_multipart(self): - a,b = self.create_bound_pair() - msg = b'hi' - for i in range(3): - a.send(msg) - time.sleep(0.1) - for i in range(3): - self.assertEqual(b.recv_multipart(), [msg]) - - def test_close_after_destroy(self): - """s.close() after ctx.destroy() should be fine""" - ctx = self.Context() - s = ctx.socket(zmq.REP) - ctx.destroy() - # reaper is not instantaneous - time.sleep(1e-2) - s.close() - self.assertTrue(s.closed) - - def test_poll(self): - a,b = self.create_bound_pair() - tic = time.time() - evt = a.poll(50) - self.assertEqual(evt, 0) - evt = a.poll(50, zmq.POLLOUT) - self.assertEqual(evt, zmq.POLLOUT) - msg = b'hi' - a.send(msg) - evt = b.poll(50) - self.assertEqual(evt, zmq.POLLIN) - msg2 = self.recv(b) - evt = b.poll(50) - self.assertEqual(evt, 0) - self.assertEqual(msg2, msg) - - def test_ipc_path_max_length(self): - """IPC_PATH_MAX_LEN is a sensible value""" - if zmq.IPC_PATH_MAX_LEN == 0: - raise SkipTest("IPC_PATH_MAX_LEN undefined") - - msg = "Surprising value for IPC_PATH_MAX_LEN: %s" % zmq.IPC_PATH_MAX_LEN - self.assertTrue(zmq.IPC_PATH_MAX_LEN > 30, msg) - self.assertTrue(zmq.IPC_PATH_MAX_LEN < 1025, msg) - - def test_ipc_path_max_length_msg(self): - if zmq.IPC_PATH_MAX_LEN == 0: - raise SkipTest("IPC_PATH_MAX_LEN undefined") - - s = self.context.socket(zmq.PUB) - self.sockets.append(s) - try: - s.bind('ipc://{0}'.format('a' * (zmq.IPC_PATH_MAX_LEN + 1))) - except zmq.ZMQError as e: - self.assertTrue(str(zmq.IPC_PATH_MAX_LEN) in e.strerror) - - def test_hwm(self): - zmq3 = zmq.zmq_version_info()[0] >= 3 - for stype in (zmq.PUB, zmq.ROUTER, zmq.SUB, zmq.REQ, zmq.DEALER): - s = self.context.socket(stype) - s.hwm = 100 - self.assertEqual(s.hwm, 100) - if zmq3: - try: - self.assertEqual(s.sndhwm, 100) - except AttributeError: - pass - try: - self.assertEqual(s.rcvhwm, 100) - except AttributeError: - pass - s.close() - - def test_shadow(self): - p = self.socket(zmq.PUSH) - p.bind("tcp://127.0.0.1:5555") - p2 = zmq.Socket.shadow(p.underlying) - self.assertEqual(p.underlying, p2.underlying) - s = self.socket(zmq.PULL) - s2 = zmq.Socket.shadow(s.underlying) - self.assertNotEqual(s.underlying, p.underlying) - self.assertEqual(s.underlying, s2.underlying) - s2.connect("tcp://127.0.0.1:5555") - sent = b'hi' - p2.send(sent) - rcvd = self.recv(s2) - self.assertEqual(rcvd, sent) - - def test_shadow_pyczmq(self): - try: - from pyczmq import zctx, zsocket - except Exception: - raise SkipTest("Requires pyczmq") - - ctx = zctx.new() - ca = zsocket.new(ctx, zmq.PUSH) - cb = zsocket.new(ctx, zmq.PULL) - a = zmq.Socket.shadow(ca) - b = zmq.Socket.shadow(cb) - a.bind("inproc://a") - b.connect("inproc://a") - a.send(b'hi') - rcvd = self.recv(b) - self.assertEqual(rcvd, b'hi') - - -if have_gevent: - import gevent - - class TestSocketGreen(GreenTest, TestSocket): - test_bad_attr = GreenTest.skip_green - test_close_after_destroy = GreenTest.skip_green - - def test_timeout(self): - a,b = self.create_bound_pair() - g = gevent.spawn_later(0.5, lambda: a.send(b'hi')) - timeout = gevent.Timeout(0.1) - timeout.start() - self.assertRaises(gevent.Timeout, b.recv) - g.kill() - - @skip_if(not hasattr(zmq, 'RCVTIMEO')) - def test_warn_set_timeo(self): - s = self.context.socket(zmq.REQ) - with warnings.catch_warnings(record=True) as w: - s.rcvtimeo = 5 - s.close() - self.assertEqual(len(w), 1) - self.assertEqual(w[0].category, UserWarning) - - - @skip_if(not hasattr(zmq, 'SNDTIMEO')) - def test_warn_get_timeo(self): - s = self.context.socket(zmq.REQ) - with warnings.catch_warnings(record=True) as w: - s.sndtimeo - s.close() - self.assertEqual(len(w), 1) - self.assertEqual(w[0].category, UserWarning) diff --git a/external_libs/python/zmq/tests/test_stopwatch.py b/external_libs/python/zmq/tests/test_stopwatch.py deleted file mode 100644 index 49fb79f2..00000000 --- a/external_libs/python/zmq/tests/test_stopwatch.py +++ /dev/null @@ -1,42 +0,0 @@ -# -*- coding: utf8 -*- -# Copyright (C) PyZMQ Developers -# Distributed under the terms of the Modified BSD License. - - -import sys -import time - -from unittest import TestCase - -from zmq import Stopwatch, ZMQError - -if sys.version_info[0] >= 3: - long = int - -class TestStopWatch(TestCase): - - def test_stop_long(self): - """Ensure stop returns a long int.""" - watch = Stopwatch() - watch.start() - us = watch.stop() - self.assertTrue(isinstance(us, long)) - - def test_stop_microseconds(self): - """Test that stop/sleep have right units.""" - watch = Stopwatch() - watch.start() - tic = time.time() - watch.sleep(1) - us = watch.stop() - toc = time.time() - self.assertAlmostEqual(us/1e6,(toc-tic),places=0) - - def test_double_stop(self): - """Test error raised on multiple calls to stop.""" - watch = Stopwatch() - watch.start() - watch.stop() - self.assertRaises(ZMQError, watch.stop) - self.assertRaises(ZMQError, watch.stop) - diff --git a/external_libs/python/zmq/tests/test_version.py b/external_libs/python/zmq/tests/test_version.py deleted file mode 100644 index 6ebebf30..00000000 --- a/external_libs/python/zmq/tests/test_version.py +++ /dev/null @@ -1,44 +0,0 @@ -# Copyright (C) PyZMQ Developers -# Distributed under the terms of the Modified BSD License. - - -from unittest import TestCase -import zmq -from zmq.sugar import version - - -class TestVersion(TestCase): - - def test_pyzmq_version(self): - vs = zmq.pyzmq_version() - vs2 = zmq.__version__ - self.assertTrue(isinstance(vs, str)) - if zmq.__revision__: - self.assertEqual(vs, '@'.join(vs2, zmq.__revision__)) - else: - self.assertEqual(vs, vs2) - if version.VERSION_EXTRA: - self.assertTrue(version.VERSION_EXTRA in vs) - self.assertTrue(version.VERSION_EXTRA in vs2) - - def test_pyzmq_version_info(self): - info = zmq.pyzmq_version_info() - self.assertTrue(isinstance(info, tuple)) - for n in info[:3]: - self.assertTrue(isinstance(n, int)) - if version.VERSION_EXTRA: - self.assertEqual(len(info), 4) - self.assertEqual(info[-1], float('inf')) - else: - self.assertEqual(len(info), 3) - - def test_zmq_version_info(self): - info = zmq.zmq_version_info() - self.assertTrue(isinstance(info, tuple)) - for n in info[:3]: - self.assertTrue(isinstance(n, int)) - - def test_zmq_version(self): - v = zmq.zmq_version() - self.assertTrue(isinstance(v, str)) - diff --git a/external_libs/python/zmq/tests/test_win32_shim.py b/external_libs/python/zmq/tests/test_win32_shim.py deleted file mode 100644 index 55657bda..00000000 --- a/external_libs/python/zmq/tests/test_win32_shim.py +++ /dev/null @@ -1,56 +0,0 @@ -from __future__ import print_function - -import os - -from functools import wraps -from zmq.tests import BaseZMQTestCase -from zmq.utils.win32 import allow_interrupt - - -def count_calls(f): - @wraps(f) - def _(*args, **kwds): - try: - return f(*args, **kwds) - finally: - _.__calls__ += 1 - _.__calls__ = 0 - return _ - - -class TestWindowsConsoleControlHandler(BaseZMQTestCase): - - def test_handler(self): - @count_calls - def interrupt_polling(): - print('Caught CTRL-C!') - - if os.name == 'nt': - from ctypes import windll - from ctypes.wintypes import BOOL, DWORD - - kernel32 = windll.LoadLibrary('kernel32') - - # <http://msdn.microsoft.com/en-us/library/ms683155.aspx> - GenerateConsoleCtrlEvent = kernel32.GenerateConsoleCtrlEvent - GenerateConsoleCtrlEvent.argtypes = (DWORD, DWORD) - GenerateConsoleCtrlEvent.restype = BOOL - - try: - # Simulate CTRL-C event while handler is active. - with allow_interrupt(interrupt_polling): - result = GenerateConsoleCtrlEvent(0, 0) - if result == 0: - raise WindowsError - except KeyboardInterrupt: - pass - else: - self.fail('Expecting `KeyboardInterrupt` exception!') - - # Make sure our handler was called. - self.assertEqual(interrupt_polling.__calls__, 1) - else: - # On non-Windows systems, this utility is just a no-op! - with allow_interrupt(interrupt_polling): - pass - self.assertEqual(interrupt_polling.__calls__, 0) diff --git a/external_libs/python/zmq/tests/test_z85.py b/external_libs/python/zmq/tests/test_z85.py deleted file mode 100644 index 8a73cb4d..00000000 --- a/external_libs/python/zmq/tests/test_z85.py +++ /dev/null @@ -1,63 +0,0 @@ -# -*- coding: utf8 -*- -"""Test Z85 encoding - -confirm values and roundtrip with test values from the reference implementation. -""" - -# Copyright (C) PyZMQ Developers -# Distributed under the terms of the Modified BSD License. - -from unittest import TestCase -from zmq.utils import z85 - - -class TestZ85(TestCase): - - def test_client_public(self): - client_public = \ - b"\xBB\x88\x47\x1D\x65\xE2\x65\x9B" \ - b"\x30\xC5\x5A\x53\x21\xCE\xBB\x5A" \ - b"\xAB\x2B\x70\xA3\x98\x64\x5C\x26" \ - b"\xDC\xA2\xB2\xFC\xB4\x3F\xC5\x18" - encoded = z85.encode(client_public) - - self.assertEqual(encoded, b"Yne@$w-vo<fVvi]a<NY6T1ed:M$fCG*[IaLV{hID") - decoded = z85.decode(encoded) - self.assertEqual(decoded, client_public) - - def test_client_secret(self): - client_secret = \ - b"\x7B\xB8\x64\xB4\x89\xAF\xA3\x67" \ - b"\x1F\xBE\x69\x10\x1F\x94\xB3\x89" \ - b"\x72\xF2\x48\x16\xDF\xB0\x1B\x51" \ - b"\x65\x6B\x3F\xEC\x8D\xFD\x08\x88" - encoded = z85.encode(client_secret) - - self.assertEqual(encoded, b"D:)Q[IlAW!ahhC2ac:9*A}h:p?([4%wOTJ%JR%cs") - decoded = z85.decode(encoded) - self.assertEqual(decoded, client_secret) - - def test_server_public(self): - server_public = \ - b"\x54\xFC\xBA\x24\xE9\x32\x49\x96" \ - b"\x93\x16\xFB\x61\x7C\x87\x2B\xB0" \ - b"\xC1\xD1\xFF\x14\x80\x04\x27\xC5" \ - b"\x94\xCB\xFA\xCF\x1B\xC2\xD6\x52" - encoded = z85.encode(server_public) - - self.assertEqual(encoded, b"rq:rM>}U?@Lns47E1%kR.o@n%FcmmsL/@{H8]yf7") - decoded = z85.decode(encoded) - self.assertEqual(decoded, server_public) - - def test_server_secret(self): - server_secret = \ - b"\x8E\x0B\xDD\x69\x76\x28\xB9\x1D" \ - b"\x8F\x24\x55\x87\xEE\x95\xC5\xB0" \ - b"\x4D\x48\x96\x3F\x79\x25\x98\x77" \ - b"\xB4\x9C\xD9\x06\x3A\xEA\xD3\xB7" - encoded = z85.encode(server_secret) - - self.assertEqual(encoded, b"JTKVSB%%)wK0E.X)V>+}o?pNmC{O&4W4b!Ni{Lh6") - decoded = z85.decode(encoded) - self.assertEqual(decoded, server_secret) - diff --git a/external_libs/python/zmq/tests/test_zmqstream.py b/external_libs/python/zmq/tests/test_zmqstream.py deleted file mode 100644 index cdb3a171..00000000 --- a/external_libs/python/zmq/tests/test_zmqstream.py +++ /dev/null @@ -1,34 +0,0 @@ -# -*- coding: utf8 -*- -# Copyright (C) PyZMQ Developers -# Distributed under the terms of the Modified BSD License. - - -import sys -import time - -from unittest import TestCase - -import zmq -from zmq.eventloop import ioloop, zmqstream - -class TestZMQStream(TestCase): - - def setUp(self): - self.context = zmq.Context() - self.socket = self.context.socket(zmq.REP) - self.loop = ioloop.IOLoop.instance() - self.stream = zmqstream.ZMQStream(self.socket) - - def tearDown(self): - self.socket.close() - self.context.term() - - def test_callable_check(self): - """Ensure callable check works (py3k).""" - - self.stream.on_send(lambda *args: None) - self.stream.on_recv(lambda *args: None) - self.assertRaises(AssertionError, self.stream.on_recv, 1) - self.assertRaises(AssertionError, self.stream.on_send, 1) - self.assertRaises(AssertionError, self.stream.on_recv, zmq) - |