libzmq/tests/test_hwm_pubsub.cpp

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/* SPDX-License-Identifier: MPL-2.0 */
#include "testutil.hpp"
#include "testutil_unity.hpp"
#include <string.h>
// NOTE: on OSX the endpoint returned by ZMQ_LAST_ENDPOINT may be quite long,
// ensure we have extra space for that:
#define SOCKET_STRING_LEN (MAX_SOCKET_STRING * 4)
SETUP_TEARDOWN_TESTCONTEXT
int test_defaults (int send_hwm_, int msg_cnt_, const char *endpoint_)
{
char pub_endpoint[SOCKET_STRING_LEN];
// Set up and bind XPUB socket
void *pub_socket = test_context_socket (ZMQ_XPUB);
test_bind (pub_socket, endpoint_, pub_endpoint, sizeof pub_endpoint);
// Set up and connect SUB socket
void *sub_socket = test_context_socket (ZMQ_SUB);
TEST_ASSERT_SUCCESS_ERRNO (zmq_connect (sub_socket, pub_endpoint));
//set a hwm on publisher
TEST_ASSERT_SUCCESS_ERRNO (
zmq_setsockopt (pub_socket, ZMQ_SNDHWM, &send_hwm_, sizeof (send_hwm_)));
TEST_ASSERT_SUCCESS_ERRNO (
zmq_setsockopt (sub_socket, ZMQ_SUBSCRIBE, 0, 0));
// Wait before starting TX operations till 1 subscriber has subscribed
// (in this test there's 1 subscriber only)
const char subscription_to_all_topics[] = {1, 0};
recv_string_expect_success (pub_socket, subscription_to_all_topics, 0);
// Send until we reach "mute" state
int send_count = 0;
while (send_count < msg_cnt_
&& zmq_send (pub_socket, "test message", 13, ZMQ_DONTWAIT) == 13)
++send_count;
TEST_ASSERT_EQUAL_INT (send_hwm_, send_count);
msleep (SETTLE_TIME);
// Now receive all sent messages
int recv_count = 0;
char dummybuff[64];
while (13 == zmq_recv (sub_socket, &dummybuff, 64, ZMQ_DONTWAIT)) {
++recv_count;
}
TEST_ASSERT_EQUAL_INT (send_hwm_, recv_count);
// Clean up
test_context_socket_close (sub_socket);
test_context_socket_close (pub_socket);
return recv_count;
}
int receive (void *socket_, int *is_termination_)
{
int recv_count = 0;
*is_termination_ = 0;
// Now receive all sent messages
char buffer[255];
int len;
while ((len = zmq_recv (socket_, buffer, sizeof (buffer), 0)) >= 0) {
++recv_count;
if (len == 3 && strncmp (buffer, "end", len) == 0) {
*is_termination_ = 1;
return recv_count;
}
}
return recv_count;
}
int test_blocking (int send_hwm_, int msg_cnt_, const char *endpoint_)
{
char pub_endpoint[SOCKET_STRING_LEN];
// Set up bind socket
void *pub_socket = test_context_socket (ZMQ_XPUB);
test_bind (pub_socket, endpoint_, pub_endpoint, sizeof pub_endpoint);
// Set up connect socket
void *sub_socket = test_context_socket (ZMQ_SUB);
TEST_ASSERT_SUCCESS_ERRNO (zmq_connect (sub_socket, pub_endpoint));
//set a hwm on publisher
TEST_ASSERT_SUCCESS_ERRNO (
zmq_setsockopt (pub_socket, ZMQ_SNDHWM, &send_hwm_, sizeof (send_hwm_)));
int wait = 1;
TEST_ASSERT_SUCCESS_ERRNO (
zmq_setsockopt (pub_socket, ZMQ_XPUB_NODROP, &wait, sizeof (wait)));
int timeout_ms = 10;
TEST_ASSERT_SUCCESS_ERRNO (zmq_setsockopt (
sub_socket, ZMQ_RCVTIMEO, &timeout_ms, sizeof (timeout_ms)));
TEST_ASSERT_SUCCESS_ERRNO (
zmq_setsockopt (sub_socket, ZMQ_SUBSCRIBE, 0, 0));
// Wait before starting TX operations till 1 subscriber has subscribed
// (in this test there's 1 subscriber only)
const uint8_t subscription_to_all_topics[] = {1};
recv_array_expect_success (pub_socket, subscription_to_all_topics, 0);
// Send until we block
int send_count = 0;
int recv_count = 0;
int blocked_count = 0;
int is_termination = 0;
while (send_count < msg_cnt_) {
const int rc = zmq_send (pub_socket, NULL, 0, ZMQ_DONTWAIT);
if (rc == 0) {
++send_count;
} else if (-1 == rc) {
// if the PUB socket blocks due to HWM, errno should be EAGAIN:
blocked_count++;
TEST_ASSERT_FAILURE_ERRNO (EAGAIN, -1);
recv_count += receive (sub_socket, &is_termination);
}
}
// if send_hwm_ < msg_cnt_, we should block at least once:
char counts_string[128];
snprintf (counts_string, sizeof counts_string - 1,
"sent = %i, received = %i", send_count, recv_count);
TEST_ASSERT_GREATER_THAN_INT_MESSAGE (0, blocked_count, counts_string);
// dequeue SUB socket again, to make sure XPUB has space to send the termination message
recv_count += receive (sub_socket, &is_termination);
// send termination message
send_string_expect_success (pub_socket, "end", 0);
// now block on the SUB side till we get the termination message
while (is_termination == 0)
recv_count += receive (sub_socket, &is_termination);
// remove termination message from the count:
recv_count--;
TEST_ASSERT_EQUAL_INT (send_count, recv_count);
// Clean up
test_context_socket_close (sub_socket);
test_context_socket_close (pub_socket);
return recv_count;
}
// hwm should apply to the messages that have already been received
// with hwm 11024: send 9999 msg, receive 9999, send 1100, receive 1100
void test_reset_hwm ()
{
const int first_count = 9999;
const int second_count = 1100;
int hwm = 11024;
char my_endpoint[SOCKET_STRING_LEN];
// Set up bind socket
void *pub_socket = test_context_socket (ZMQ_PUB);
TEST_ASSERT_SUCCESS_ERRNO (
zmq_setsockopt (pub_socket, ZMQ_SNDHWM, &hwm, sizeof (hwm)));
bind_loopback_ipv4 (pub_socket, my_endpoint, MAX_SOCKET_STRING);
// Set up connect socket
void *sub_socket = test_context_socket (ZMQ_SUB);
TEST_ASSERT_SUCCESS_ERRNO (
zmq_setsockopt (sub_socket, ZMQ_RCVHWM, &hwm, sizeof (hwm)));
TEST_ASSERT_SUCCESS_ERRNO (zmq_connect (sub_socket, my_endpoint));
TEST_ASSERT_SUCCESS_ERRNO (
zmq_setsockopt (sub_socket, ZMQ_SUBSCRIBE, 0, 0));
msleep (SETTLE_TIME);
// Send messages
int send_count = 0;
while (send_count < first_count
&& zmq_send (pub_socket, NULL, 0, ZMQ_DONTWAIT) == 0)
++send_count;
TEST_ASSERT_EQUAL_INT (first_count, send_count);
msleep (SETTLE_TIME);
// Now receive all sent messages
int recv_count = 0;
while (0 == zmq_recv (sub_socket, NULL, 0, ZMQ_DONTWAIT)) {
++recv_count;
}
TEST_ASSERT_EQUAL_INT (first_count, recv_count);
msleep (SETTLE_TIME);
// Send messages
send_count = 0;
while (send_count < second_count
&& zmq_send (pub_socket, NULL, 0, ZMQ_DONTWAIT) == 0)
++send_count;
TEST_ASSERT_EQUAL_INT (second_count, send_count);
msleep (SETTLE_TIME);
// Now receive all sent messages
recv_count = 0;
while (0 == zmq_recv (sub_socket, NULL, 0, ZMQ_DONTWAIT)) {
++recv_count;
}
TEST_ASSERT_EQUAL_INT (second_count, recv_count);
// Clean up
test_context_socket_close (sub_socket);
test_context_socket_close (pub_socket);
}
void test_defaults_large (const char *bind_endpoint_)
{
// send 1000 msg on hwm 1000, receive 1000
TEST_ASSERT_EQUAL_INT (1000, test_defaults (1000, 1000, bind_endpoint_));
}
void test_defaults_small (const char *bind_endpoint_)
{
// send 1000 msg on hwm 100, receive 100
TEST_ASSERT_EQUAL_INT (100, test_defaults (100, 100, bind_endpoint_));
}
void test_blocking (const char *bind_endpoint_)
{
// send 6000 msg on hwm 2000, drops above hwm, only receive hwm:
TEST_ASSERT_EQUAL_INT (6000, test_blocking (2000, 6000, bind_endpoint_));
}
#define DEFINE_REGULAR_TEST_CASES(name, bind_endpoint) \
void test_defaults_large_##name () \
{ \
test_defaults_large (bind_endpoint); \
} \
\
void test_defaults_small_##name () \
{ \
test_defaults_small (bind_endpoint); \
} \
\
void test_blocking_##name () \
{ \
test_blocking (bind_endpoint); \
}
#define RUN_REGULAR_TEST_CASES(name) \
RUN_TEST (test_defaults_large_##name); \
RUN_TEST (test_defaults_small_##name); \
RUN_TEST (test_blocking_##name)
DEFINE_REGULAR_TEST_CASES (tcp, "tcp://127.0.0.1:*")
DEFINE_REGULAR_TEST_CASES (inproc, "inproc://a")
#if !defined(ZMQ_HAVE_WINDOWS) && !defined(ZMQ_HAVE_GNU)
DEFINE_REGULAR_TEST_CASES (ipc, "ipc://*")
#endif
int main ()
{
setup_test_environment ();
UNITY_BEGIN ();
RUN_REGULAR_TEST_CASES (tcp);
RUN_REGULAR_TEST_CASES (inproc);
#if !defined(ZMQ_HAVE_WINDOWS) && !defined(ZMQ_HAVE_GNU)
RUN_REGULAR_TEST_CASES (ipc);
#endif
RUN_TEST (test_reset_hwm);
return UNITY_END ();
}