# Copyright (c) PyZMQ Developers # Distributed under the terms of the Modified BSD License. import json import os import sys from datetime import timedelta import pytest gen = pytest.importorskip('tornado.gen') from tornado.ioloop import IOLoop import zmq from zmq.eventloop import future from zmq.tests import BaseZMQTestCase class TestFutureSocket(BaseZMQTestCase): Context = future.Context def setUp(self): self.loop = IOLoop() self.loop.make_current() super().setUp() def tearDown(self): super().tearDown() if self.loop: self.loop.close(all_fds=True) IOLoop.clear_current() IOLoop.clear_instance() def test_socket_class(self): s = self.context.socket(zmq.PUSH) assert isinstance(s, future.Socket) s.close() def test_instance_subclass_first(self): actx = self.Context.instance() ctx = zmq.Context.instance() ctx.term() actx.term() assert type(ctx) is zmq.Context assert type(actx) is self.Context def test_instance_subclass_second(self): ctx = zmq.Context.instance() actx = self.Context.instance() ctx.term() actx.term() assert type(ctx) is zmq.Context assert type(actx) is self.Context def test_recv_multipart(self): async def test(): a, b = self.create_bound_pair(zmq.PUSH, zmq.PULL) f = b.recv_multipart() assert not f.done() await a.send(b"hi") recvd = await f assert recvd == [b'hi'] self.loop.run_sync(test) def test_recv(self): async def test(): a, b = self.create_bound_pair(zmq.PUSH, zmq.PULL) f1 = b.recv() f2 = b.recv() assert not f1.done() assert not f2.done() await a.send_multipart([b"hi", b"there"]) recvd = await f2 assert f1.done() assert f1.result() == b'hi' assert recvd == b'there' self.loop.run_sync(test) def test_recv_cancel(self): async def test(): a, b = self.create_bound_pair(zmq.PUSH, zmq.PULL) f1 = b.recv() f2 = b.recv_multipart() assert f1.cancel() assert f1.done() assert not f2.done() await a.send_multipart([b"hi", b"there"]) recvd = await f2 assert f1.cancelled() assert f2.done() assert recvd == [b'hi', b'there'] self.loop.run_sync(test) @pytest.mark.skipif(not hasattr(zmq, 'RCVTIMEO'), reason="requires RCVTIMEO") def test_recv_timeout(self): async def test(): a, b = self.create_bound_pair(zmq.PUSH, zmq.PULL) b.rcvtimeo = 100 f1 = b.recv() b.rcvtimeo = 1000 f2 = b.recv_multipart() with pytest.raises(zmq.Again): await f1 await a.send_multipart([b"hi", b"there"]) recvd = await f2 assert f2.done() assert recvd == [b'hi', b'there'] self.loop.run_sync(test) @pytest.mark.skipif(not hasattr(zmq, 'SNDTIMEO'), reason="requires SNDTIMEO") def test_send_timeout(self): async def test(): s = self.socket(zmq.PUSH) s.sndtimeo = 100 with pytest.raises(zmq.Again): await s.send(b"not going anywhere") self.loop.run_sync(test) def test_send_noblock(self): async def test(): s = self.socket(zmq.PUSH) with pytest.raises(zmq.Again): await s.send(b"not going anywhere", flags=zmq.NOBLOCK) self.loop.run_sync(test) def test_send_multipart_noblock(self): async def test(): s = self.socket(zmq.PUSH) with pytest.raises(zmq.Again): await s.send_multipart([b"not going anywhere"], flags=zmq.NOBLOCK) self.loop.run_sync(test) def test_recv_string(self): async def test(): a, b = self.create_bound_pair(zmq.PUSH, zmq.PULL) f = b.recv_string() assert not f.done() msg = 'πøøπ' await a.send_string(msg) recvd = await f assert f.done() assert f.result() == msg assert recvd == msg self.loop.run_sync(test) def test_recv_json(self): async def test(): a, b = self.create_bound_pair(zmq.PUSH, zmq.PULL) f = b.recv_json() assert not f.done() obj = dict(a=5) await a.send_json(obj) recvd = await f assert f.done() assert f.result() == obj assert recvd == obj self.loop.run_sync(test) def test_recv_json_cancelled(self): async def test(): a, b = self.create_bound_pair(zmq.PUSH, zmq.PULL) f = b.recv_json() assert not f.done() f.cancel() # cycle eventloop to allow cancel events to fire await gen.sleep(0) obj = dict(a=5) await a.send_json(obj) with pytest.raises(future.CancelledError): recvd = await f assert f.done() # give it a chance to incorrectly consume the event events = await b.poll(timeout=5) assert events await gen.sleep(0) # make sure cancelled recv didn't eat up event recvd = await gen.with_timeout(timedelta(seconds=5), b.recv_json()) assert recvd == obj self.loop.run_sync(test) def test_recv_pyobj(self): async def test(): a, b = self.create_bound_pair(zmq.PUSH, zmq.PULL) f = b.recv_pyobj() assert not f.done() obj = dict(a=5) await a.send_pyobj(obj) recvd = await f assert f.done() assert f.result() == obj assert recvd == obj self.loop.run_sync(test) def test_custom_serialize(self): def serialize(msg): frames = [] frames.extend(msg.get('identities', [])) content = json.dumps(msg['content']).encode('utf8') frames.append(content) return frames def deserialize(frames): identities = frames[:-1] content = json.loads(frames[-1].decode('utf8')) return { 'identities': identities, 'content': content, } async def test(): a, b = self.create_bound_pair(zmq.DEALER, zmq.ROUTER) msg = { 'content': { 'a': 5, 'b': 'bee', } } await a.send_serialized(msg, serialize) recvd = await b.recv_serialized(deserialize) assert recvd['content'] == msg['content'] assert recvd['identities'] # bounce back, tests identities await b.send_serialized(recvd, serialize) r2 = await a.recv_serialized(deserialize) assert r2['content'] == msg['content'] assert not r2['identities'] self.loop.run_sync(test) def test_custom_serialize_error(self): async def test(): a, b = self.create_bound_pair(zmq.DEALER, zmq.ROUTER) msg = { 'content': { 'a': 5, 'b': 'bee', } } with pytest.raises(TypeError): await a.send_serialized(json, json.dumps) await a.send(b"not json") with pytest.raises(TypeError): await b.recv_serialized(json.loads) self.loop.run_sync(test) def test_poll(self): async def test(): a, b = self.create_bound_pair(zmq.PUSH, zmq.PULL) f = b.poll(timeout=0) assert f.done() assert f.result() == 0 f = b.poll(timeout=1) assert not f.done() evt = await f assert evt == 0 f = b.poll(timeout=1000) assert not f.done() await a.send_multipart([b"hi", b"there"]) evt = await f assert evt == zmq.POLLIN recvd = await b.recv_multipart() assert recvd == [b'hi', b'there'] self.loop.run_sync(test) @pytest.mark.skipif( sys.platform.startswith('win'), reason='Windows unsupported socket type' ) def test_poll_base_socket(self): async def test(): ctx = zmq.Context() url = 'inproc://test' a = ctx.socket(zmq.PUSH) b = ctx.socket(zmq.PULL) self.sockets.extend([a, b]) a.bind(url) b.connect(url) poller = future.Poller() poller.register(b, zmq.POLLIN) f = poller.poll(timeout=1000) assert not f.done() a.send_multipart([b'hi', b'there']) evt = await f assert evt == [(b, zmq.POLLIN)] recvd = b.recv_multipart() assert recvd == [b'hi', b'there'] a.close() b.close() ctx.term() self.loop.run_sync(test) def test_close_all_fds(self): s = self.socket(zmq.PUB) s._get_loop() self.loop.close(all_fds=True) self.loop = None # avoid second close later assert s.closed @pytest.mark.skipif( sys.platform.startswith('win'), reason='Windows does not support polling on files', ) def test_poll_raw(self): async def test(): p = future.Poller() # make a pipe r, w = os.pipe() r = os.fdopen(r, 'rb') w = os.fdopen(w, 'wb') # POLLOUT p.register(r, zmq.POLLIN) p.register(w, zmq.POLLOUT) evts = await p.poll(timeout=1) evts = dict(evts) assert r.fileno() not in evts assert w.fileno() in evts assert evts[w.fileno()] == zmq.POLLOUT # POLLIN p.unregister(w) w.write(b'x') w.flush() evts = await p.poll(timeout=1000) evts = dict(evts) assert r.fileno() in evts assert evts[r.fileno()] == zmq.POLLIN assert r.read(1) == b'x' r.close() w.close() self.loop.run_sync(test)