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https://github.com/zeromq/libzmq.git
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cd954e207d
Solution: use static_cast/reinterpret_cast instead
425 lines
12 KiB
C++
425 lines
12 KiB
C++
/*
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Copyright (c) 2007-2017 Contributors as noted in the AUTHORS file
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This file is part of libzmq, the ZeroMQ core engine in C++.
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libzmq is free software; you can redistribute it and/or modify it under
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the terms of the GNU Lesser General Public License (LGPL) as published
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by the Free Software Foundation; either version 3 of the License, or
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(at your option) any later version.
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As a special exception, the Contributors give you permission to link
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this library with independent modules to produce an executable,
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regardless of the license terms of these independent modules, and to
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copy and distribute the resulting executable under terms of your choice,
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provided that you also meet, for each linked independent module, the
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terms and conditions of the license of that module. An independent
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module is a module which is not derived from or based on this library.
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If you modify this library, you must extend this exception to your
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version of the library.
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libzmq is distributed in the hope that it will be useful, but WITHOUT
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ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
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FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public
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License for more details.
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You should have received a copy of the GNU Lesser General Public License
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along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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#include "testutil.hpp"
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#include "testutil_unity.hpp"
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#include <string.h>
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#include <unity.h>
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#include <assert.h>
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#include <unistd.h>
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//
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// Asynchronous proxy test using ZMQ_XPUB_NODROP and HWM:
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//
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// Topology:
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//
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// XPUB SUB
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// | |
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// \-----> XSUB -> XPUB -----/
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// ^^^^^^^^^^^^^^
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// ZMQ proxy
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//
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// All connections use "inproc" transport and have artificially-low HWMs set.
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// Then the PUB socket starts flooding the Proxy. The SUB is artificially slow
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// at receiving messages.
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// This scenario simulates what happens when a SUB is slower than
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// its (X)PUB: since ZMQ_XPUB_NODROP=1, the XPUB will block and then
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// also the (X)PUB socket will block.
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// The exact number of the messages that go through before (X)PUB blocks depends
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// on ZeroMQ internals and how the OS will schedule the different threads.
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// In the meanwhile asking statistics to the Proxy must NOT be blocking.
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//
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#define HWM 10
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#define NUM_BYTES_PER_MSG 50000
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typedef struct
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{
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void *context;
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const char *frontend_endpoint;
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const char *backend_endpoint;
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const char *control_endpoint;
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void *subscriber_received_all;
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} proxy_hwm_cfg_t;
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static void lower_hwm (void *skt_)
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{
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int send_hwm = HWM;
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TEST_ASSERT_SUCCESS_ERRNO (
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zmq_setsockopt (skt_, ZMQ_SNDHWM, &send_hwm, sizeof (send_hwm)));
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TEST_ASSERT_SUCCESS_ERRNO (
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zmq_setsockopt (skt_, ZMQ_RCVHWM, &send_hwm, sizeof (send_hwm)));
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}
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static void publisher_thread_main (void *pvoid_)
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{
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proxy_hwm_cfg_t *cfg = static_cast<proxy_hwm_cfg_t *> (pvoid_);
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void *pubsocket = zmq_socket (cfg->context, ZMQ_XPUB);
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assert (pubsocket);
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lower_hwm (pubsocket);
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TEST_ASSERT_SUCCESS_ERRNO (zmq_connect (pubsocket, cfg->frontend_endpoint));
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int optval = 1;
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TEST_ASSERT_SUCCESS_ERRNO (
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zmq_setsockopt (pubsocket, ZMQ_XPUB_NODROP, &optval, sizeof (optval)));
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// Wait before starting TX operations till 1 subscriber has subscribed
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// (in this test there's 1 subscriber only)
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const char subscription_to_all_topics[] = {1, 0};
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recv_string_expect_success (pubsocket, subscription_to_all_topics, 0);
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uint64_t send_count = 0;
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while (true) {
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zmq_msg_t msg;
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int rc = zmq_msg_init_size (&msg, NUM_BYTES_PER_MSG);
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assert (rc == 0);
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/* Fill in message content with 'AAAAAA' */
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memset (zmq_msg_data (&msg), 'A', NUM_BYTES_PER_MSG);
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/* Send the message to the socket */
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rc = zmq_msg_send (&msg, pubsocket, ZMQ_DONTWAIT);
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if (rc != -1) {
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send_count++;
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} else {
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TEST_ASSERT_SUCCESS_ERRNO (zmq_msg_close (&msg));
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break;
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}
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}
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// VERIFY EXPECTED RESULTS
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// EXPLANATION FOR TX TO BE CONSIDERED SUCCESSFUL:
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// this test has 3 threads doing I/O across 2 queues. Depending on the scheduling,
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// it might happen that 20, 30 or 40 messages go through before the pub blocks.
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// That's because the receiver thread gets kicked once every (hwm_ + 1) / 2 sent
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// messages (search for zeromq sources compute_lwm function).
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// So depending on the scheduling of the second thread, the publisher might get one,
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// two or three more batches in. The ceiling is 40 as there's 2 queues.
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//
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assert (4 * HWM >= send_count && 2 * HWM <= send_count);
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// CLEANUP
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zmq_close (pubsocket);
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}
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static void subscriber_thread_main (void *pvoid_)
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{
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proxy_hwm_cfg_t *cfg = static_cast<proxy_hwm_cfg_t *> (pvoid_);
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void *subsocket = zmq_socket (cfg->context, ZMQ_SUB);
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assert (subsocket);
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lower_hwm (subsocket);
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TEST_ASSERT_SUCCESS_ERRNO (zmq_setsockopt (subsocket, ZMQ_SUBSCRIBE, 0, 0));
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TEST_ASSERT_SUCCESS_ERRNO (zmq_connect (subsocket, cfg->backend_endpoint));
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// receive all sent messages
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uint64_t rxsuccess = 0;
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bool success = true;
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while (success) {
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zmq_msg_t msg;
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int rc = zmq_msg_init (&msg);
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assert (rc == 0);
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rc = zmq_msg_recv (&msg, subsocket, 0);
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if (rc != -1) {
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TEST_ASSERT_SUCCESS_ERRNO (zmq_msg_close (&msg));
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rxsuccess++;
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// after receiving 1st message, set a finite timeout (default is infinite)
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int timeout_ms = 100;
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TEST_ASSERT_SUCCESS_ERRNO (zmq_setsockopt (
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subsocket, ZMQ_RCVTIMEO, &timeout_ms, sizeof (timeout_ms)));
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} else {
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break;
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}
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msleep (100);
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}
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// VERIFY EXPECTED RESULTS
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// EXPLANATION FOR RX TO BE CONSIDERED SUCCESSFUL:
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// see publisher thread why we have 3 possible outcomes as number of RX messages
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assert (4 * HWM >= rxsuccess && 2 * HWM <= rxsuccess);
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// INFORM THAT WE COMPLETED:
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zmq_atomic_counter_inc (cfg->subscriber_received_all);
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// CLEANUP
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zmq_close (subsocket);
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}
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bool recv_stat (void *sock_, bool last_, uint64_t *res_)
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{
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zmq_msg_t stats_msg;
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int rc = zmq_msg_init (&stats_msg);
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assert (rc == 0);
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rc = zmq_msg_recv (&stats_msg, sock_, 0); //ZMQ_DONTWAIT);
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if (rc == -1 && errno == EAGAIN) {
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rc = zmq_msg_close (&stats_msg);
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assert (rc == 0);
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return false; // cannot retrieve the stat
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}
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assert (rc == sizeof (uint64_t));
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memcpy (res_, zmq_msg_data (&stats_msg), zmq_msg_size (&stats_msg));
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rc = zmq_msg_close (&stats_msg);
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assert (rc == 0);
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int more;
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size_t moresz = sizeof more;
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rc = zmq_getsockopt (sock_, ZMQ_RCVMORE, &more, &moresz);
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assert (rc == 0);
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assert ((last_ && !more) || (!last_ && more));
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return true;
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}
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// Utility function to interrogate the proxy:
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typedef struct
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{
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uint64_t msg_in;
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uint64_t bytes_in;
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uint64_t msg_out;
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uint64_t bytes_out;
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} zmq_socket_stats_t;
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typedef struct
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{
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zmq_socket_stats_t frontend;
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zmq_socket_stats_t backend;
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} zmq_proxy_stats_t;
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bool check_proxy_stats (void *control_proxy_)
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{
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zmq_proxy_stats_t total_stats;
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int rc;
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rc = zmq_send (control_proxy_, "STATISTICS", 10, ZMQ_DONTWAIT);
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assert (rc == 10 || (rc == -1 && errno == EAGAIN));
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if (rc == -1 && errno == EAGAIN) {
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return false;
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}
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// first frame of the reply contains FRONTEND stats:
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if (!recv_stat (control_proxy_, false, &total_stats.frontend.msg_in)) {
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return false;
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}
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recv_stat (control_proxy_, false, &total_stats.frontend.bytes_in);
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recv_stat (control_proxy_, false, &total_stats.frontend.msg_out);
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recv_stat (control_proxy_, false, &total_stats.frontend.bytes_out);
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// second frame of the reply contains BACKEND stats:
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recv_stat (control_proxy_, false, &total_stats.backend.msg_in);
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recv_stat (control_proxy_, false, &total_stats.backend.bytes_in);
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recv_stat (control_proxy_, false, &total_stats.backend.msg_out);
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recv_stat (control_proxy_, true, &total_stats.backend.bytes_out);
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return true;
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}
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static void proxy_stats_asker_thread_main (void *pvoid_)
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{
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proxy_hwm_cfg_t *cfg = static_cast<proxy_hwm_cfg_t *> (pvoid_);
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// CONTROL REQ
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void *control_req =
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zmq_socket (cfg->context,
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ZMQ_REQ); // this one can be used to send command to the proxy
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assert (control_req);
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// connect CONTROL-REQ: a socket to which send commands
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int rc = zmq_connect (control_req, cfg->control_endpoint);
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assert (rc == 0);
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// IMPORTANT: by setting the tx/rx timeouts, we avoid getting blocked when interrogating a proxy which is
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// itself blocked in a zmq_msg_send() on its XPUB socket having ZMQ_XPUB_NODROP=1!
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int optval = 10;
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rc = zmq_setsockopt (control_req, ZMQ_SNDTIMEO, &optval, sizeof (optval));
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assert (rc == 0);
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rc = zmq_setsockopt (control_req, ZMQ_RCVTIMEO, &optval, sizeof (optval));
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assert (rc == 0);
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optval = 10;
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rc =
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zmq_setsockopt (control_req, ZMQ_REQ_CORRELATE, &optval, sizeof (optval));
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assert (rc == 0);
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rc =
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zmq_setsockopt (control_req, ZMQ_REQ_RELAXED, &optval, sizeof (optval));
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assert (rc == 0);
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// Start!
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while (!zmq_atomic_counter_value (cfg->subscriber_received_all)) {
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check_proxy_stats (control_req);
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usleep (1000); // 1ms -> in best case we will get 1000updates/second
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}
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// Ask the proxy to exit: the subscriber has received all messages
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rc = zmq_send (control_req, "TERMINATE", 9, 0);
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assert (rc == 9);
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zmq_close (control_req);
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}
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static void proxy_thread_main (void *pvoid_)
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{
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proxy_hwm_cfg_t *cfg = static_cast<proxy_hwm_cfg_t *> (pvoid_);
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int rc;
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// FRONTEND SUB
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void *frontend_xsub = zmq_socket (
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cfg->context,
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ZMQ_XSUB); // the frontend is the one exposed to internal threads (INPROC)
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assert (frontend_xsub);
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lower_hwm (frontend_xsub);
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// bind FRONTEND
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rc = zmq_bind (frontend_xsub, cfg->frontend_endpoint);
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assert (rc == 0);
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// BACKEND PUB
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void *backend_xpub = zmq_socket (
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cfg->context,
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ZMQ_XPUB); // the backend is the one exposed to the external world (TCP)
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assert (backend_xpub);
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int optval = 1;
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rc =
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zmq_setsockopt (backend_xpub, ZMQ_XPUB_NODROP, &optval, sizeof (optval));
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assert (rc == 0);
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lower_hwm (backend_xpub);
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// bind BACKEND
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rc = zmq_bind (backend_xpub, cfg->backend_endpoint);
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assert (rc == 0);
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// CONTROL REP
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void *control_rep = zmq_socket (
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cfg->context,
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ZMQ_REP); // this one is used by the proxy to receive&reply to commands
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assert (control_rep);
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// bind CONTROL
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rc = zmq_bind (control_rep, cfg->control_endpoint);
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assert (rc == 0);
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// start proxying!
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zmq_proxy_steerable (frontend_xsub, backend_xpub, NULL, control_rep);
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zmq_close (frontend_xsub);
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zmq_close (backend_xpub);
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zmq_close (control_rep);
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}
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// The main thread simply starts several clients and a server, and then
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// waits for the server to finish.
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int main (void)
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{
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setup_test_environment ();
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void *context = zmq_ctx_new ();
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assert (context);
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// START ALL SECONDARY THREADS
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proxy_hwm_cfg_t cfg;
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cfg.context = context;
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cfg.frontend_endpoint = "inproc://frontend";
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cfg.backend_endpoint = "inproc://backend";
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cfg.control_endpoint = "inproc://ctrl";
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cfg.subscriber_received_all = zmq_atomic_counter_new ();
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void *proxy = zmq_threadstart (&proxy_thread_main, (void *) &cfg);
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assert (proxy != 0);
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void *publisher = zmq_threadstart (&publisher_thread_main, (void *) &cfg);
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assert (publisher != 0);
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void *subscriber = zmq_threadstart (&subscriber_thread_main, (void *) &cfg);
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assert (subscriber != 0);
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void *asker =
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zmq_threadstart (&proxy_stats_asker_thread_main, (void *) &cfg);
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assert (asker != 0);
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// CLEANUP
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zmq_threadclose (publisher);
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zmq_threadclose (subscriber);
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zmq_threadclose (asker);
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zmq_threadclose (proxy);
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int rc = zmq_ctx_term (context);
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assert (rc == 0);
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zmq_atomic_counter_destroy (&cfg.subscriber_received_all);
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return 0;
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}
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