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libzmq/tests/test_spec_req.cpp
Luca Boccassi 5934919f3e Problem: tests bind to hardcoded TCP ports
Solution: use ZMQ_LAST_ENDPOINT in most places. This alllows running
tests in paralle, and on over-booked shared machines where many of
the ports would be already in use.
Keep 3 tests with an hardcoded port, as there are some code paths that
require it (eg: connect before bind), but list those ports in
tests/testutil.hpp as macros so that they do not overlap and still
allow parallel runs.

These changes were inspired by a patch uploaded to Ubuntu by the
package maintainer, Steve Langasek <steve.langasek@ubuntu.com>.
Thank you Steve!
2017-05-01 22:57:05 +01:00

267 lines
8.0 KiB
C++

/*
Copyright (c) 2007-2017 Contributors as noted in the AUTHORS file
This file is part of libzmq, the ZeroMQ core engine in C++.
libzmq is free software; you can redistribute it and/or modify it under
the terms of the GNU Lesser General Public License (LGPL) as published
by the Free Software Foundation; either version 3 of the License, or
(at your option) any later version.
As a special exception, the Contributors give you permission to link
this library with independent modules to produce an executable,
regardless of the license terms of these independent modules, and to
copy and distribute the resulting executable under terms of your choice,
provided that you also meet, for each linked independent module, the
terms and conditions of the license of that module. An independent
module is a module which is not derived from or based on this library.
If you modify this library, you must extend this exception to your
version of the library.
libzmq is distributed in the hope that it will be useful, but WITHOUT
ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public
License for more details.
You should have received a copy of the GNU Lesser General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#include "testutil.hpp"
const char *bind_address = 0;
char connect_address[MAX_SOCKET_STRING];
void test_round_robin_out (void *ctx)
{
void *req = zmq_socket (ctx, ZMQ_REQ);
assert (req);
int rc = zmq_bind (req, bind_address);
assert (rc == 0);
size_t len = MAX_SOCKET_STRING;
rc = zmq_getsockopt (req, ZMQ_LAST_ENDPOINT, connect_address, &len);
assert (rc == 0);
const size_t services = 5;
void *rep [services];
for (size_t peer = 0; peer < services; peer++) {
rep [peer] = zmq_socket (ctx, ZMQ_REP);
assert (rep [peer]);
int timeout = 250;
rc = zmq_setsockopt (rep [peer], ZMQ_RCVTIMEO, &timeout, sizeof (int));
assert (rc == 0);
rc = zmq_connect (rep [peer], connect_address);
assert (rc == 0);
}
// We have to give the connects time to finish otherwise the requests
// will not properly round-robin. We could alternatively connect the
// REQ sockets to the REP sockets.
msleep (SETTLE_TIME);
// Send our peer-replies, and expect every REP it used once in order
for (size_t peer = 0; peer < services; peer++) {
s_send_seq (req, "ABC", SEQ_END);
s_recv_seq (rep [peer], "ABC", SEQ_END);
s_send_seq (rep [peer], "DEF", SEQ_END);
s_recv_seq (req, "DEF", SEQ_END);
}
close_zero_linger (req);
for (size_t peer = 0; peer < services; peer++)
close_zero_linger (rep [peer]);
// Wait for disconnects.
msleep (SETTLE_TIME);
}
void test_req_only_listens_to_current_peer (void *ctx)
{
void *req = zmq_socket (ctx, ZMQ_REQ);
assert (req);
int rc = zmq_setsockopt(req, ZMQ_IDENTITY, "A", 2);
assert (rc == 0);
rc = zmq_bind (req, bind_address);
assert (rc == 0);
size_t len = MAX_SOCKET_STRING;
rc = zmq_getsockopt (req, ZMQ_LAST_ENDPOINT, connect_address, &len);
assert (rc == 0);
const size_t services = 3;
void *router [services];
for (size_t i = 0; i < services; ++i) {
router [i] = zmq_socket (ctx, ZMQ_ROUTER);
assert (router [i]);
int timeout = 250;
rc = zmq_setsockopt (router [i], ZMQ_RCVTIMEO, &timeout, sizeof (timeout));
assert (rc == 0);
int enabled = 1;
rc = zmq_setsockopt (router [i], ZMQ_ROUTER_MANDATORY, &enabled, sizeof (enabled));
assert (rc == 0);
rc = zmq_connect (router [i], connect_address);
assert (rc == 0);
}
// Wait for connects to finish.
msleep (SETTLE_TIME);
for (size_t i = 0; i < services; ++i) {
// There still is a race condition when a stale peer's message
// arrives at the REQ just after a request was sent to that peer.
// To avoid that happening in the test, sleep for a bit.
rc = zmq_poll (0, 0, 10);
assert (rc == 0);
s_send_seq (req, "ABC", SEQ_END);
// Receive on router i
s_recv_seq (router [i], "A", 0, "ABC", SEQ_END);
// Send back replies on all routers
for (size_t j = 0; j < services; ++j) {
const char *replies [] = { "WRONG", "GOOD" };
const char *reply = replies [i == j ? 1 : 0];
s_send_seq (router [j], "A", 0, reply, SEQ_END);
}
// Receive only the good reply
s_recv_seq (req, "GOOD", SEQ_END);
}
close_zero_linger (req);
for (size_t i = 0; i < services; ++i)
close_zero_linger (router [i]);
// Wait for disconnects.
msleep (SETTLE_TIME);
}
void test_req_message_format (void *ctx)
{
void *req = zmq_socket (ctx, ZMQ_REQ);
assert (req);
void *router = zmq_socket (ctx, ZMQ_ROUTER);
assert (router);
int rc = zmq_bind (req, bind_address);
assert (rc == 0);
size_t len = MAX_SOCKET_STRING;
rc = zmq_getsockopt (req, ZMQ_LAST_ENDPOINT, connect_address, &len);
assert (rc == 0);
rc = zmq_connect (router, connect_address);
assert (rc == 0);
// Send a multi-part request.
s_send_seq (req, "ABC", "DEF", SEQ_END);
zmq_msg_t msg;
zmq_msg_init (&msg);
// Receive peer identity
rc = zmq_msg_recv (&msg, router, 0);
assert (rc != -1);
assert (zmq_msg_size (&msg) > 0);
zmq_msg_t peer_id_msg;
zmq_msg_init (&peer_id_msg);
zmq_msg_copy (&peer_id_msg, &msg);
int more = 0;
size_t more_size = sizeof (more);
rc = zmq_getsockopt (router, ZMQ_RCVMORE, &more, &more_size);
assert (rc == 0);
assert (more);
// Receive the rest.
s_recv_seq (router, 0, "ABC", "DEF", SEQ_END);
// Send back a single-part reply.
rc = zmq_msg_send (&peer_id_msg, router, ZMQ_SNDMORE);
assert (rc != -1);
s_send_seq (router, 0, "GHI", SEQ_END);
// Receive reply.
s_recv_seq (req, "GHI", SEQ_END);
rc = zmq_msg_close (&msg);
assert (rc == 0);
rc = zmq_msg_close (&peer_id_msg);
assert (rc == 0);
close_zero_linger (req);
close_zero_linger (router);
// Wait for disconnects.
msleep (SETTLE_TIME);
}
void test_block_on_send_no_peers (void *ctx)
{
void *sc = zmq_socket (ctx, ZMQ_REQ);
assert (sc);
int timeout = 250;
int rc = zmq_setsockopt (sc, ZMQ_SNDTIMEO, &timeout, sizeof (timeout));
assert (rc == 0);
rc = zmq_send (sc, 0, 0, ZMQ_DONTWAIT);
assert (rc == -1);
assert (errno == EAGAIN);
rc = zmq_send (sc, 0, 0, 0);
assert (rc == -1);
assert (errno == EAGAIN);
rc = zmq_close (sc);
assert (rc == 0);
}
int main (void)
{
setup_test_environment();
void *ctx = zmq_ctx_new ();
assert (ctx);
const char *binds [] = { "inproc://a", "tcp://127.0.0.1:*" };
for (int transport = 0; transport < 2; transport++) {
bind_address = binds [transport];
// SHALL route outgoing messages to connected peers using a round-robin
// strategy.
test_round_robin_out (ctx);
// The request and reply messages SHALL have this format on the wire:
// * A delimiter, consisting of an empty frame, added by the REQ socket.
// * One or more data frames, comprising the message visible to the
// application.
test_req_message_format (ctx);
// SHALL block on sending, or return a suitable error, when it has no
// connected peers.
test_block_on_send_no_peers (ctx);
// SHALL accept an incoming message only from the last peer that it sent a
// request to.
// SHALL discard silently any messages received from other peers.
// PH: this test is still failing; disabled for now to allow build to
// complete.
// test_req_only_listens_to_current_peer (ctx);
}
int rc = zmq_ctx_term (ctx);
assert (rc == 0);
return 0 ;
}