@Override public void run() { ZMQ.zmq_sleep(1); SocketBase sc = ZMQ.zmq_socket(ctx, ZMQ.ZMQ_PUSH); assertThat(sc, notNullValue()); boolean rc = ZMQ.zmq_connect(sc, "inproc://timeout_test"); assertThat(rc, is(true)); ZMQ.zmq_sleep(1); ZMQ.zmq_close(sc); }
@Test public void testTimeo() throws Exception { Ctx ctx = ZMQ.zmqInit(1); assertThat(ctx, notNullValue()); SocketBase sb = ZMQ.zmq_socket(ctx, ZMQ.ZMQ_PULL); assertThat(sb, notNullValue()); boolean rc = ZMQ.zmq_bind(sb, "inproc://timeout_test"); assertThat(rc, is(true)); // Check whether non-blocking recv returns immediately. Msg msg = ZMQ.zmq_recv(sb, ZMQ.ZMQ_DONTWAIT); assertThat(msg, nullValue()); // Check whether recv timeout is honoured. int timeout = 500; ZMQ.zmq_setsockopt(sb, ZMQ.ZMQ_RCVTIMEO, timeout); long watch = ZMQ.zmq_stopwatch_start(); msg = ZMQ.zmq_recv(sb, 0); assertThat(msg, nullValue()); long elapsed = ZMQ.zmq_stopwatch_stop(watch); assertThat(elapsed > 440000 && elapsed < 550000, is(true)); // Check whether connection during the wait doesn't distort the timeout. timeout = 2000; ZMQ.zmq_setsockopt(sb, ZMQ.ZMQ_RCVTIMEO, timeout); Thread thread = new Thread(new Worker(ctx)); thread.start(); watch = ZMQ.zmq_stopwatch_start(); msg = ZMQ.zmq_recv(sb, 0); assertThat(msg, nullValue()); elapsed = ZMQ.zmq_stopwatch_stop(watch); assertThat(elapsed > 1900000 && elapsed < 2100000, is(true)); thread.join(); // Check that timeouts don't break normal message transfer. SocketBase sc = ZMQ.zmq_socket(ctx, ZMQ.ZMQ_PUSH); assertThat(sc, notNullValue()); ZMQ.zmq_setsockopt(sb, ZMQ.ZMQ_RCVTIMEO, timeout); ZMQ.zmq_setsockopt(sb, ZMQ.ZMQ_SNDTIMEO, timeout); rc = ZMQ.zmq_connect(sc, "inproc://timeout_test"); assertThat(rc, is(true)); Msg smsg = new Msg("12345678ABCDEFGH12345678abcdefgh".getBytes(ZMQ.CHARSET)); int r = ZMQ.zmq_send(sc, smsg, 0); assertThat(r, is(32)); msg = ZMQ.zmq_recv(sb, 0); assertThat(msg.size(), is(32)); ZMQ.zmq_close(sc); ZMQ.zmq_close(sb); ZMQ.zmq_term(ctx); }
@Test public void testPairInproc() { Ctx ctx = ZMQ.zmq_init(1); assertThat(ctx, notNullValue()); SocketBase sb = ZMQ.zmq_socket(ctx, ZMQ.ZMQ_PAIR); assertThat(sb, notNullValue()); boolean brc = ZMQ.zmq_bind(sb, "inproc://a"); assertThat(brc, is(true)); SocketBase sc = ZMQ.zmq_socket(ctx, ZMQ.ZMQ_PAIR); assertThat(sc, notNullValue()); brc = ZMQ.zmq_connect(sc, "inproc://a"); assertThat(brc, is(true)); TestHelper.bounce(sb, sc); // Tear down the wiring. ZMQ.zmq_close(sb); ZMQ.zmq_close(sc); ZMQ.zmq_term(ctx); }
@Test public void testMonitor() throws Exception { String addr = "tcp://127.0.0.1:5590"; SocketMonitor[] threads = new SocketMonitor[3]; // Create the infrastructure Ctx ctx = ZMQ.zmq_init(1); assert (ctx != null); // set socket monitor SocketBase rep = ZMQ.zmq_socket(ctx, ZMQ.ZMQ_REP); assert (rep != null); try { ZMQ.zmq_socket_monitor(rep, addr, 0); assertTrue(false); } catch (IllegalArgumentException e) { } // REP socket monitor, all events boolean rc = ZMQ.zmq_socket_monitor(rep, "inproc://monitor.rep", ZMQ.ZMQ_EVENT_ALL); assertEquals(true, rc); threads[0] = new SocketMonitor(ctx, "inproc://monitor.rep"); threads[0].start(); rc = ZMQ.zmq_bind(rep, addr); assert (rc); SocketBase req = ZMQ.zmq_socket(ctx, ZMQ.ZMQ_REQ); assert (req != null); // REQ socket monitor, all events rc = ZMQ.zmq_socket_monitor(req, "inproc://monitor.req", ZMQ.ZMQ_EVENT_ALL); assertEquals(true, rc); threads[1] = new SocketMonitor(ctx, "inproc://monitor.req"); threads[1].start(); rc = ZMQ.zmq_connect(req, addr); assert (rc); // 2nd REQ socket SocketBase req2 = ZMQ.zmq_socket(ctx, ZMQ.ZMQ_REQ); assert (req2 != null); // 2nd REQ socket monitor, connected event only rc = ZMQ.zmq_socket_monitor(req2, "inproc://monitor.req2", ZMQ.ZMQ_EVENT_CONNECTED); assertEquals(true, rc); threads[2] = new SocketMonitor(ctx, "inproc://monitor.req2"); threads[2].start(); rc = ZMQ.zmq_connect(req2, addr); assert (rc); Helper.bounce(rep, req); // Allow a window for socket events as connect can be async ZMQ.zmq_sleep(1); // Close the REP socket ZMQ.zmq_close(rep); // Allow some time for detecting error states ZMQ.zmq_sleep(1); // Close the REQ socket ZMQ.zmq_close(req); // Close the 2nd REQ socket ZMQ.zmq_close(req2); // Allow for closed or disconnected events to bubble up ZMQ.zmq_sleep(1); ZMQ.zmq_term(ctx); // Expected REP socket events // We expect to at least observe these events assertTrue((threads[0].events & ZMQ.ZMQ_EVENT_LISTENING) > 0); assertTrue((threads[0].events & ZMQ.ZMQ_EVENT_ACCEPTED) > 0); assertTrue((threads[0].events & ZMQ.ZMQ_EVENT_CLOSED) > 0); // Expected REQ socket events assertTrue((threads[1].events & ZMQ.ZMQ_EVENT_CONNECTED) > 0); assertTrue((threads[1].events & ZMQ.ZMQ_EVENT_DISCONNECTED) > 0); assertTrue((threads[1].events & ZMQ.ZMQ_EVENT_CLOSED) > 0); // Expected 2nd REQ socket events assertTrue((threads[2].events & ZMQ.ZMQ_EVENT_CONNECTED) > 0); assertTrue((threads[2].events & ZMQ.ZMQ_EVENT_CLOSED) == 0); threads[0].join(); threads[1].join(); threads[2].join(); }