static void do_test_non_exist_and_partchange (void) {
char *topic_a = rd_strdup(test_mk_topic_name("topic_a", 1));
rd_kafka_t *rk;
rd_kafka_conf_t *conf;
rd_kafka_queue_t *queue;
/**
* Test #1:
* - Subscribe to non-existing topic.
* - Verify empty assignment
* - Create topic
* - Verify new assignment containing topic
*/
TEST_SAY("#1 & #2 testing\n");
test_conf_init(&conf, NULL, 60);
/* Decrease metadata interval to speed up topic change discovery. */
test_conf_set(conf, "metadata.max.age.ms", "5000");
rd_kafka_conf_set_events(conf, RD_KAFKA_EVENT_REBALANCE);
rk = test_create_consumer(test_str_id_generate_tmp(),
NULL, conf, NULL, NULL);
queue = rd_kafka_queue_get_consumer(rk);
TEST_SAY("#1: Subscribing to %s\n", topic_a);
test_consumer_subscribe(rk, topic_a);
/* Should not see a rebalance since no topics are matched. */
await_no_rebalance("#1: empty", rk, queue, 10000);
TEST_SAY("#1: creating topic %s\n", topic_a);
test_create_topic(topic_a, 2, 1);
await_assignment("#1: proper", rk, queue, 1,
topic_a, 2);
/**
* Test #2 (continue with #1 consumer)
* - Increase the partition count
* - Verify updated assignment
*/
test_kafka_topics("--alter --topic %s --partitions 4",
topic_a);
await_revoke("#2", rk, queue);
await_assignment("#2: more partitions", rk, queue, 1,
topic_a, 4);
test_consumer_close(rk);
rd_kafka_queue_destroy(queue);
rd_kafka_destroy(rk);
rd_free(topic_a);
}
/**
* @brief Local test: test event generation
*/
int main_0039_event (int argc, char **argv) {
rd_kafka_t *rk;
rd_kafka_conf_t *conf;
rd_kafka_queue_t *eventq;
int waitevent = 1;
/* Set up a config with ERROR events enabled and
* configure an invalid broker so that _TRANSPORT or ALL_BROKERS_DOWN
* is promptly generated. */
conf = rd_kafka_conf_new();
rd_kafka_conf_set_events(conf, RD_KAFKA_EVENT_ERROR);
rd_kafka_conf_set(conf, "bootstrap.servers", "0:65534", NULL, 0);
/* Create kafka instance */
rk = test_create_handle(RD_KAFKA_PRODUCER, conf);
eventq = rd_kafka_queue_get_main(rk);
while (waitevent) {
rd_kafka_event_t *rkev;
rkev = rd_kafka_queue_poll(eventq, 1000);
switch (rd_kafka_event_type(rkev))
{
case RD_KAFKA_EVENT_ERROR:
TEST_SAY("Got %s%s event: %s: %s\n",
rd_kafka_event_error_is_fatal(rkev) ?
"FATAL " : "",
rd_kafka_event_name(rkev),
rd_kafka_err2name(rd_kafka_event_error(rkev)),
rd_kafka_event_error_string(rkev));
waitevent = 0;
break;
default:
TEST_SAY("Unhandled event: %s\n",
rd_kafka_event_name(rkev));
break;
}
rd_kafka_event_destroy(rkev);
}
rd_kafka_queue_destroy(eventq);
/* Destroy rdkafka instance */
TEST_SAY("Destroying kafka instance %s\n", rd_kafka_name(rk));
rd_kafka_destroy(rk);
return 0;
}
/* @remark This test will fail if auto topic creation is enabled on the broker
* since the client will issue a topic-creating metadata request to find
* a new leader when the topic is removed.
*
* To run with trivup, do:
* ./interactive_broker_version.py .. -conf '{"auto_create_topics":"false"}' ..
* TESTS=0045 ./run-test.sh -k ./merged
*/
static void do_test_topic_remove (void) {
char *topic_f = rd_strdup(test_mk_topic_name("topic_f", 1));
char *topic_g = rd_strdup(test_mk_topic_name("topic_g", 1));
int parts_f = 5;
int parts_g = 9;
rd_kafka_t *rk;
rd_kafka_conf_t *conf;
rd_kafka_queue_t *queue;
rd_kafka_topic_partition_list_t *topics;
rd_kafka_resp_err_t err;
/**
* Topic removal test:
* - Create topic f & g
* - Subscribe to f & g
* - Verify f & g assignment
* - Remove topic f
* - Verify g assignment
* - Remove topic g
* - Verify empty assignment
*/
TEST_SAY("Topic removal testing\n");
test_conf_init(&conf, NULL, 60);
/* Decrease metadata interval to speed up topic change discovery. */
test_conf_set(conf, "metadata.max.age.ms", "5000");
rd_kafka_conf_set_events(conf, RD_KAFKA_EVENT_REBALANCE);
rk = test_create_consumer(test_str_id_generate_tmp(),
NULL, conf, NULL, NULL);
queue = rd_kafka_queue_get_consumer(rk);
TEST_SAY("Topic removal: creating topic %s (subscribed)\n", topic_f);
test_create_topic(topic_f, parts_f, 1);
TEST_SAY("Topic removal: creating topic %s (subscribed)\n", topic_g);
test_create_topic(topic_g, parts_g, 1);
rd_sleep(1); // FIXME: do check&wait loop instead
TEST_SAY("Topic removal: Subscribing to %s & %s\n", topic_f, topic_g);
topics = rd_kafka_topic_partition_list_new(2);
rd_kafka_topic_partition_list_add(topics, topic_f, RD_KAFKA_PARTITION_UA);
rd_kafka_topic_partition_list_add(topics, topic_g, RD_KAFKA_PARTITION_UA);
err = rd_kafka_subscribe(rk, topics);
TEST_ASSERT(err == RD_KAFKA_RESP_ERR_NO_ERROR,
"%s", rd_kafka_err2str(err));
rd_kafka_topic_partition_list_destroy(topics);
await_assignment("Topic removal: both topics exist", rk, queue, 2,
topic_f, parts_f,
topic_g, parts_g);
TEST_SAY("Topic removal: removing %s\n", topic_f);
test_kafka_topics("--delete --topic %s", topic_f);
await_revoke("Topic removal: rebalance after topic removal", rk, queue);
await_assignment("Topic removal: one topic exists", rk, queue, 1,
topic_g, parts_g);
TEST_SAY("Topic removal: removing %s\n", topic_g);
test_kafka_topics("--delete --topic %s", topic_g);
await_revoke("Topic removal: rebalance after 2nd topic removal",
rk, queue);
/* Should not see another rebalance since all topics now removed */
await_no_rebalance("Topic removal: empty", rk, queue, 10000);
test_consumer_close(rk);
rd_kafka_queue_destroy(queue);
rd_kafka_destroy(rk);
rd_free(topic_f);
rd_free(topic_g);
}
static void do_test_regex (void) {
char *base_topic = rd_strdup(test_mk_topic_name("topic", 1));
char *topic_b = rd_strdup(tsprintf("%s_b", base_topic));
char *topic_c = rd_strdup(tsprintf("%s_c", base_topic));
char *topic_d = rd_strdup(tsprintf("%s_d", base_topic));
char *topic_e = rd_strdup(tsprintf("%s_e", base_topic));
rd_kafka_t *rk;
rd_kafka_conf_t *conf;
rd_kafka_queue_t *queue;
/**
* Regex test:
* - Create topic b
* - Subscribe to b & d & e
* - Verify b assignment
* - Create topic c
* - Verify no rebalance
* - Create topic d
* - Verify b & d assignment
*/
TEST_SAY("Regex testing\n");
test_conf_init(&conf, NULL, 60);
/* Decrease metadata interval to speed up topic change discovery. */
test_conf_set(conf, "metadata.max.age.ms", "5000");
rd_kafka_conf_set_events(conf, RD_KAFKA_EVENT_REBALANCE);
rk = test_create_consumer(test_str_id_generate_tmp(),
NULL, conf, NULL, NULL);
queue = rd_kafka_queue_get_consumer(rk);
TEST_SAY("Regex: creating topic %s (subscribed)\n", topic_b);
test_create_topic(topic_b, 2, 1);
rd_sleep(1); // FIXME: do check&wait loop instead
TEST_SAY("Regex: Subscribing to %s & %s & %s\n",
topic_b, topic_d, topic_e);
test_consumer_subscribe(rk, tsprintf("^%s_[bde]$", base_topic));
await_assignment("Regex: just one topic exists", rk, queue, 1,
topic_b, 2);
TEST_SAY("Regex: creating topic %s (not subscribed)\n", topic_c);
test_create_topic(topic_c, 4, 1);
/* Should not see a rebalance since no topics are matched. */
await_no_rebalance("Regex: empty", rk, queue, 10000);
TEST_SAY("Regex: creating topic %s (subscribed)\n", topic_d);
test_create_topic(topic_d, 1, 1);
await_revoke("Regex: rebalance after topic creation", rk, queue);
await_assignment("Regex: two topics exist", rk, queue, 2,
topic_b, 2,
topic_d, 1);
test_consumer_close(rk);
rd_kafka_queue_destroy(queue);
rd_kafka_destroy(rk);
rd_free(base_topic);
rd_free(topic_b);
rd_free(topic_c);
rd_free(topic_d);
rd_free(topic_e);
}
int main_0040_io_event (int argc, char **argv) {
rd_kafka_conf_t *conf;
rd_kafka_topic_conf_t *tconf;
rd_kafka_t *rk_p, *rk_c;
const char *topic;
rd_kafka_topic_t *rkt_p;
rd_kafka_queue_t *queue;
uint64_t testid;
int msgcnt = 100;
int recvd = 0;
int fds[2];
int wait_multiplier = 1;
struct pollfd pfd;
int r;
enum {
_NOPE,
_YEP,
_REBALANCE
} expecting_io = _REBALANCE;
testid = test_id_generate();
topic = test_mk_topic_name(__FUNCTION__, 1);
rk_p = test_create_producer();
rkt_p = test_create_producer_topic(rk_p, topic, NULL);
test_auto_create_topic_rkt(rk_p, rkt_p);
test_conf_init(&conf, &tconf, 0);
rd_kafka_conf_set_events(conf, RD_KAFKA_EVENT_REBALANCE);
test_conf_set(conf, "session.timeout.ms", "6000");
test_conf_set(conf, "enable.partition.eof", "false");
/* Speed up propagation of new topics */
test_conf_set(conf, "metadata.max.age.ms", "5000");
test_topic_conf_set(tconf, "auto.offset.reset", "earliest");
rk_c = test_create_consumer(topic, NULL, conf, tconf);
queue = rd_kafka_queue_get_consumer(rk_c);
test_consumer_subscribe(rk_c, topic);
#ifndef _MSC_VER
r = pipe(fds);
#else
r = _pipe(fds, 2, _O_BINARY);
#endif
if (r == -1)
TEST_FAIL("pipe() failed: %s\n", strerror(errno));
rd_kafka_queue_io_event_enable(queue, fds[1], "1", 1);
pfd.fd = fds[0];
pfd.events = POLLIN;
pfd.revents = 0;
/**
* 1) Wait for rebalance event
* 2) Wait 1 interval (1s) expecting no IO (nothing produced).
* 3) Produce half the messages
* 4) Expect IO
* 5) Consume the available messages
* 6) Wait 1 interval expecting no IO.
* 7) Produce remaing half
* 8) Expect IO
* 9) Done.
*/
while (recvd < msgcnt) {
int r;
#ifndef _MSC_VER
r = poll(&pfd, 1, 1000 * wait_multiplier);
#else
r = WSAPoll(&pfd, 1, 1000 * wait_multiplier);
#endif
if (r == -1) {
TEST_FAIL("poll() failed: %s", strerror(errno));
} else if (r == 1) {
rd_kafka_event_t *rkev;
char b;
int eventcnt = 0;
if (pfd.events & POLLERR)
TEST_FAIL("Poll error\n");
if (!(pfd.events & POLLIN)) {
TEST_SAY("Stray event 0x%x\n", (int)pfd.events);
continue;
}
TEST_SAY("POLLIN\n");
/* Read signaling token to purge socket queue and
* eventually silence POLLIN */
#ifndef _MSC_VER
r = read(pfd.fd, &b, 1);
#else
r = _read((int)pfd.fd, &b, 1);
#endif
if (r == -1)
TEST_FAIL("read failed: %s\n", strerror(errno));
if (!expecting_io)
TEST_WARN("Got unexpected IO after %d/%d msgs\n",
recvd, msgcnt);
while ((rkev = rd_kafka_queue_poll(queue, 0))) {
eventcnt++;
switch (rd_kafka_event_type(rkev))
{
case RD_KAFKA_EVENT_REBALANCE:
TEST_SAY("Got %s: %s\n", rd_kafka_event_name(rkev),
rd_kafka_err2str(rd_kafka_event_error(rkev)));
if (expecting_io != _REBALANCE)
TEST_FAIL("Got Rebalance when expecting message\n");
if (rd_kafka_event_error(rkev) == RD_KAFKA_RESP_ERR__ASSIGN_PARTITIONS) {
rd_kafka_assign(rk_c, rd_kafka_event_topic_partition_list(rkev));
expecting_io = _NOPE;
} else
rd_kafka_assign(rk_c, NULL);
break;
case RD_KAFKA_EVENT_FETCH:
if (expecting_io != _YEP)
TEST_FAIL("Did not expect more messages at %d/%d\n",
recvd, msgcnt);
recvd++;
if (recvd == (msgcnt / 2) || recvd == msgcnt)
expecting_io = _NOPE;
break;
case RD_KAFKA_EVENT_ERROR:
TEST_FAIL("Error: %s\n", rd_kafka_event_error_string(rkev));
break;
default:
TEST_SAY("Ignoring event %s\n", rd_kafka_event_name(rkev));
}
rd_kafka_event_destroy(rkev);
}
TEST_SAY("%d events, Consumed %d/%d messages\n", eventcnt, recvd, msgcnt);
wait_multiplier = 1;
} else {
if (expecting_io == _REBALANCE) {
continue;
} else if (expecting_io == _YEP) {
TEST_FAIL("Did not see expected IO after %d/%d msgs\n",
recvd, msgcnt);
}
TEST_SAY("IO poll timeout (good)\n");
TEST_SAY("Got idle period, producing\n");
test_produce_msgs(rk_p, rkt_p, testid, 0, recvd, msgcnt/2,
NULL, 10);
expecting_io = _YEP;
/* When running slowly (e.g., valgrind) it might take
* some time before the first message is received
* after producing. */
wait_multiplier = 3;
}
}
TEST_SAY("Done\n");
rd_kafka_topic_destroy(rkt_p);
rd_kafka_destroy(rk_p);
rd_kafka_queue_destroy(queue);
rd_kafka_consumer_close(rk_c);
rd_kafka_destroy(rk_c);
#ifndef _MSC_VER
close(fds[0]);
close(fds[1]);
#else
_close(fds[0]);
_close(fds[1]);
#endif
return 0;
}
/**
* @brief Test delivery report events
*/
int main_0039_event_dr (int argc, char **argv) {
int partition = 0;
int r;
rd_kafka_t *rk;
rd_kafka_topic_t *rkt;
rd_kafka_conf_t *conf;
rd_kafka_topic_conf_t *topic_conf;
char msg[128];
int msgcnt = test_on_ci ? 5000 : 50000;
int i;
test_timing_t t_produce, t_delivery;
rd_kafka_queue_t *eventq;
test_conf_init(&conf, &topic_conf, 10);
/* Set delivery report callback */
rd_kafka_conf_set_dr_msg_cb(conf, test_dr_msg_cb);
rd_kafka_conf_set_events(conf, RD_KAFKA_EVENT_DR);
/* Create kafka instance */
rk = test_create_handle(RD_KAFKA_PRODUCER, conf);
eventq = rd_kafka_queue_get_main(rk);
rkt = rd_kafka_topic_new(rk, test_mk_topic_name("0005", 0),
topic_conf);
if (!rkt)
TEST_FAIL("Failed to create topic: %s\n",
rd_strerror(errno));
/* Produce messages */
TIMING_START(&t_produce, "PRODUCE");
for (i = 0 ; i < msgcnt ; i++) {
int *msgidp = malloc(sizeof(*msgidp));
*msgidp = i;
rd_snprintf(msg, sizeof(msg), "%s test message #%i", argv[0], i);
r = rd_kafka_produce(rkt, partition, RD_KAFKA_MSG_F_COPY,
msg, strlen(msg), NULL, 0, msgidp);
if (r == -1)
TEST_FAIL("Failed to produce message #%i: %s\n",
i, rd_strerror(errno));
}
TIMING_STOP(&t_produce);
TEST_SAY("Produced %i messages, waiting for deliveries\n", msgcnt);
/* Wait for messages to be delivered */
TIMING_START(&t_delivery, "DELIVERY");
while (rd_kafka_outq_len(rk) > 0) {
rd_kafka_event_t *rkev;
rkev = rd_kafka_queue_poll(eventq, 1000);
switch (rd_kafka_event_type(rkev))
{
case RD_KAFKA_EVENT_DR:
TEST_SAYL(3, "%s event with %zd messages\n",
rd_kafka_event_name(rkev),
rd_kafka_event_message_count(rkev));
handle_drs(rkev);
break;
default:
TEST_SAY("Unhandled event: %s\n",
rd_kafka_event_name(rkev));
break;
}
rd_kafka_event_destroy(rkev);
}
TIMING_STOP(&t_delivery);
if (fails)
TEST_FAIL("%i failures, see previous errors", fails);
if (msgid_next != msgcnt)
TEST_FAIL("Still waiting for messages: next %i != end %i\n",
msgid_next, msgcnt);
rd_kafka_queue_destroy(eventq);
/* Destroy topic */
rd_kafka_topic_destroy(rkt);
/* Destroy rdkafka instance */
TEST_SAY("Destroying kafka instance %s\n", rd_kafka_name(rk));
rd_kafka_destroy(rk);
return 0;
}
int main_0062_stats_event (int argc, char **argv) {
rd_kafka_t *rk;
rd_kafka_conf_t *conf;
test_timing_t t_delivery;
rd_kafka_queue_t *eventq;
const int iterations = 5;
int i;
test_conf_init(NULL, NULL, 10);
/* Set up a global config object */
conf = rd_kafka_conf_new();
rd_kafka_conf_set(conf,"statistics.interval.ms", "100", NULL, 0);
rd_kafka_conf_set_events(conf, RD_KAFKA_EVENT_STATS);
/* Create kafka instance */
rk = test_create_handle(RD_KAFKA_PRODUCER, conf);
eventq = rd_kafka_queue_get_main(rk);
/* Wait for stats event */
for (i = 0 ; i < iterations ; i++) {
TIMING_START(&t_delivery, "STATS_EVENT");
stats_count = 0;
while (stats_count == 0) {
rd_kafka_event_t *rkev;
rkev = rd_kafka_queue_poll(eventq, 100);
switch (rd_kafka_event_type(rkev))
{
case RD_KAFKA_EVENT_STATS:
TEST_SAY("%s event\n", rd_kafka_event_name(rkev));
handle_stats(rkev);
break;
case RD_KAFKA_EVENT_NONE:
break;
default:
TEST_SAY("Ignore event: %s\n",
rd_kafka_event_name(rkev));
break;
}
rd_kafka_event_destroy(rkev);
}
TIMING_STOP(&t_delivery);
if (!strcmp(test_mode, "bare")) {
/* valgrind is too slow to make this meaningful. */
if (TIMING_DURATION(&t_delivery) < 1000 * 100 * 0.8 ||
TIMING_DURATION(&t_delivery) > 1000 * 100 * 1.2)
TEST_FAIL("Stats duration %.3fms is >= 20%% "
"outside statistics.interval.ms 100",
(float)TIMING_DURATION(&t_delivery)/
1000.0f);
}
}
rd_kafka_queue_destroy(eventq);
rd_kafka_destroy(rk);
return 0;
}
