/* * librdkafka - Apache Kafka C library * * Copyright (c) 2022, Magnus Edenhill * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright notice, * this list of conditions and the following disclaimer in the documentation * and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ #include "test.h" /* Typical include path would be , but this program * is built from within the librdkafka source tree and thus differs. */ #include "rdkafka.h" /* for Kafka driver */ typedef struct consumer_s { const char *what; rd_kafka_queue_t *rkq; int timeout_ms; int consume_msg_cnt; int expected_msg_cnt; rd_kafka_t *rk; uint64_t testid; test_msgver_t *mv; struct test *test; } consumer_t; static int consumer_batch_queue(void *arg) { consumer_t *arguments = arg; int msg_cnt = 0; int i; test_timing_t t_cons; rd_kafka_queue_t *rkq = arguments->rkq; int timeout_ms = arguments->timeout_ms; const int consume_msg_cnt = arguments->consume_msg_cnt; rd_kafka_t *rk = arguments->rk; uint64_t testid = arguments->testid; rd_kafka_message_t **rkmessage = malloc(consume_msg_cnt * sizeof(*rkmessage)); if (arguments->test) test_curr = arguments->test; TEST_SAY( "%s calling consume_batch_queue(timeout=%d, msgs=%d) " "and expecting %d messages back\n", rd_kafka_name(rk), timeout_ms, consume_msg_cnt, arguments->expected_msg_cnt); TIMING_START(&t_cons, "CONSUME"); msg_cnt = (int)rd_kafka_consume_batch_queue(rkq, timeout_ms, rkmessage, consume_msg_cnt); TIMING_STOP(&t_cons); TEST_SAY("%s consumed %d/%d/%d message(s)\n", rd_kafka_name(rk), msg_cnt, arguments->consume_msg_cnt, arguments->expected_msg_cnt); TEST_ASSERT(msg_cnt == arguments->expected_msg_cnt, "consumed %d messages, expected %d", msg_cnt, arguments->expected_msg_cnt); for (i = 0; i < msg_cnt; i++) { if (test_msgver_add_msg(rk, arguments->mv, rkmessage[i]) == 0) TEST_FAIL( "The message is not from testid " "%" PRId64, testid); rd_kafka_message_destroy(rkmessage[i]); } rd_free(rkmessage); return 0; } static void do_test_consume_batch_with_seek(void) { rd_kafka_queue_t *rkq; const char *topic; rd_kafka_t *consumer; int p; uint64_t testid; rd_kafka_conf_t *conf; consumer_t consumer_args = RD_ZERO_INIT; test_msgver_t mv; thrd_t thread_id; rd_kafka_error_t *err; rd_kafka_topic_partition_list_t *seek_toppars; const int partition_cnt = 2; const int timeout_ms = 10000; const int consume_msg_cnt = 10; const int produce_msg_cnt = 8; const int32_t seek_partition = 0; const int64_t seek_offset = 1; const int expected_msg_cnt = produce_msg_cnt - seek_offset; SUB_TEST(); test_conf_init(&conf, NULL, 60); test_conf_set(conf, "enable.auto.commit", "false"); test_conf_set(conf, "auto.offset.reset", "earliest"); testid = test_id_generate(); test_msgver_init(&mv, testid); /* Produce messages */ topic = test_mk_topic_name("0137-barrier_batch_consume", 1); test_create_topic(NULL, topic, partition_cnt, 1); for (p = 0; p < partition_cnt; p++) test_produce_msgs_easy(topic, testid, p, produce_msg_cnt / partition_cnt); /* Create consumers */ consumer = test_create_consumer(topic, NULL, conf, NULL); test_consumer_subscribe(consumer, topic); test_consumer_wait_assignment(consumer, rd_false); /* Create generic consume queue */ rkq = rd_kafka_queue_get_consumer(consumer); consumer_args.what = "CONSUMER"; consumer_args.rkq = rkq; consumer_args.timeout_ms = timeout_ms; consumer_args.consume_msg_cnt = consume_msg_cnt; consumer_args.expected_msg_cnt = expected_msg_cnt; consumer_args.rk = consumer; consumer_args.testid = testid; consumer_args.mv = &mv; consumer_args.test = test_curr; if (thrd_create(&thread_id, consumer_batch_queue, &consumer_args) != thrd_success) TEST_FAIL("Failed to create thread for %s", "CONSUMER"); seek_toppars = rd_kafka_topic_partition_list_new(1); rd_kafka_topic_partition_list_add(seek_toppars, topic, seek_partition); rd_kafka_topic_partition_list_set_offset(seek_toppars, topic, seek_partition, seek_offset); err = rd_kafka_seek_partitions(consumer, seek_toppars, 2000); TEST_ASSERT( !err, "Failed to seek partition %d for topic %s to offset %" PRId64, seek_partition, topic, seek_offset); thrd_join(thread_id, NULL); test_msgver_verify("CONSUME", &mv, TEST_MSGVER_ORDER | TEST_MSGVER_DUP | TEST_MSGVER_BY_OFFSET, 0, expected_msg_cnt); test_msgver_clear(&mv); rd_kafka_topic_partition_list_destroy(seek_toppars); rd_kafka_queue_destroy(rkq); test_consumer_close(consumer); rd_kafka_destroy(consumer); SUB_TEST_PASS(); } static void do_test_consume_batch_with_pause_and_resume_different_batch(void) { rd_kafka_queue_t *rkq; const char *topic; rd_kafka_t *consumer; int p; uint64_t testid; rd_kafka_conf_t *conf; consumer_t consumer_args = RD_ZERO_INIT; test_msgver_t mv; thrd_t thread_id; rd_kafka_resp_err_t err; rd_kafka_topic_partition_list_t *pause_partition_list; const int timeout_ms = 2000; const int consume_msg_cnt = 10; const int produce_msg_cnt = 8; const int partition_cnt = 2; const int expected_msg_cnt = 4; int32_t pause_partition = 0; int32_t running_partition = 1; SUB_TEST(); test_conf_init(&conf, NULL, 60); test_conf_set(conf, "enable.auto.commit", "false"); test_conf_set(conf, "auto.offset.reset", "earliest"); testid = test_id_generate(); test_msgver_init(&mv, testid); /* Produce messages */ topic = test_mk_topic_name("0137-barrier_batch_consume", 1); test_create_topic(NULL, topic, partition_cnt, 1); for (p = 0; p < partition_cnt; p++) test_produce_msgs_easy(topic, testid, p, produce_msg_cnt / partition_cnt); /* Create consumers */ consumer = test_create_consumer(topic, NULL, conf, NULL); test_consumer_subscribe(consumer, topic); test_consumer_wait_assignment(consumer, rd_false); /* Create generic consume queue */ rkq = rd_kafka_queue_get_consumer(consumer); consumer_args.what = "CONSUMER"; consumer_args.rkq = rkq; consumer_args.timeout_ms = timeout_ms; consumer_args.consume_msg_cnt = consume_msg_cnt; consumer_args.expected_msg_cnt = expected_msg_cnt; consumer_args.rk = consumer; consumer_args.testid = testid; consumer_args.mv = &mv; consumer_args.test = test_curr; if (thrd_create(&thread_id, consumer_batch_queue, &consumer_args) != thrd_success) TEST_FAIL("Failed to create thread for %s", "CONSUMER"); pause_partition_list = rd_kafka_topic_partition_list_new(1); rd_kafka_topic_partition_list_add(pause_partition_list, topic, pause_partition); rd_sleep(1); err = rd_kafka_pause_partitions(consumer, pause_partition_list); TEST_ASSERT(!err, "Failed to pause partition %d for topic %s", pause_partition, topic); thrd_join(thread_id, NULL); test_msgver_verify_part("CONSUME", &mv, TEST_MSGVER_ORDER | TEST_MSGVER_DUP | TEST_MSGVER_BY_OFFSET, topic, running_partition, 0, expected_msg_cnt); test_msgver_clear(&mv); test_msgver_init(&mv, testid); consumer_args.mv = &mv; err = rd_kafka_resume_partitions(consumer, pause_partition_list); TEST_ASSERT(!err, "Failed to resume partition %d for topic %s", pause_partition, topic); consumer_batch_queue(&consumer_args); test_msgver_verify_part("CONSUME", &mv, TEST_MSGVER_ORDER | TEST_MSGVER_DUP | TEST_MSGVER_BY_OFFSET, topic, pause_partition, 0, expected_msg_cnt); rd_kafka_topic_partition_list_destroy(pause_partition_list); test_msgver_clear(&mv); rd_kafka_queue_destroy(rkq); test_consumer_close(consumer); rd_kafka_destroy(consumer); SUB_TEST_PASS(); } static void do_test_consume_batch_with_pause_and_resume_same_batch(void) { rd_kafka_queue_t *rkq; const char *topic; rd_kafka_t *consumer; int p; uint64_t testid; rd_kafka_conf_t *conf; consumer_t consumer_args = RD_ZERO_INIT; test_msgver_t mv; thrd_t thread_id; rd_kafka_resp_err_t err; rd_kafka_topic_partition_list_t *pause_partition_list; const int timeout_ms = 10000; const int consume_msg_cnt = 10; const int produce_msg_cnt = 8; const int partition_cnt = 2; int32_t pause_partition = 0; SUB_TEST(); test_conf_init(&conf, NULL, 60); test_conf_set(conf, "enable.auto.commit", "false"); test_conf_set(conf, "auto.offset.reset", "earliest"); testid = test_id_generate(); test_msgver_init(&mv, testid); /* Produce messages */ topic = test_mk_topic_name("0137-barrier_batch_consume", 1); test_create_topic(NULL, topic, partition_cnt, 1); for (p = 0; p < partition_cnt; p++) test_produce_msgs_easy(topic, testid, p, produce_msg_cnt / partition_cnt); /* Create consumers */ consumer = test_create_consumer(topic, NULL, conf, NULL); test_consumer_subscribe(consumer, topic); test_consumer_wait_assignment(consumer, rd_false); /* Create generic consume queue */ rkq = rd_kafka_queue_get_consumer(consumer); consumer_args.what = "CONSUMER"; consumer_args.rkq = rkq; consumer_args.timeout_ms = timeout_ms; consumer_args.consume_msg_cnt = consume_msg_cnt; consumer_args.expected_msg_cnt = produce_msg_cnt; consumer_args.rk = consumer; consumer_args.testid = testid; consumer_args.mv = &mv; consumer_args.test = test_curr; if (thrd_create(&thread_id, consumer_batch_queue, &consumer_args) != thrd_success) TEST_FAIL("Failed to create thread for %s", "CONSUMER"); pause_partition_list = rd_kafka_topic_partition_list_new(1); rd_kafka_topic_partition_list_add(pause_partition_list, topic, pause_partition); rd_sleep(1); err = rd_kafka_pause_partitions(consumer, pause_partition_list); TEST_ASSERT(!err, "Failed to pause partition %d for topic %s", pause_partition, topic); rd_sleep(1); err = rd_kafka_resume_partitions(consumer, pause_partition_list); TEST_ASSERT(!err, "Failed to resume partition %d for topic %s", pause_partition, topic); thrd_join(thread_id, NULL); test_msgver_verify("CONSUME", &mv, TEST_MSGVER_ORDER | TEST_MSGVER_DUP | TEST_MSGVER_BY_OFFSET, 0, produce_msg_cnt); rd_kafka_topic_partition_list_destroy(pause_partition_list); test_msgver_clear(&mv); rd_kafka_queue_destroy(rkq); test_consumer_close(consumer); rd_kafka_destroy(consumer); SUB_TEST_PASS(); } static void do_test_consume_batch_store_offset(void) { rd_kafka_queue_t *rkq; const char *topic; rd_kafka_t *consumer; int p; int i; uint64_t testid; rd_kafka_conf_t *conf; consumer_t consumer_args = RD_ZERO_INIT; test_msgver_t mv; const int partition_cnt = 1; const int timeout_ms = 10000; const int consume_msg_cnt = 4; const int no_of_consume = 2; const int produce_msg_cnt = 8; const int expected_msg_cnt = produce_msg_cnt; SUB_TEST(); test_conf_init(&conf, NULL, 60); test_conf_set(conf, "enable.auto.commit", "false"); test_conf_set(conf, "enable.auto.offset.store", "true"); test_conf_set(conf, "auto.offset.reset", "earliest"); testid = test_id_generate(); test_msgver_init(&mv, testid); /* Produce messages */ topic = test_mk_topic_name("0137-barrier_batch_consume", 1); test_create_topic(NULL, topic, partition_cnt, 1); for (p = 0; p < partition_cnt; p++) test_produce_msgs_easy(topic, testid, p, produce_msg_cnt / partition_cnt); for (i = 0; i < no_of_consume; i++) { /* Create consumers */ consumer = test_create_consumer(topic, NULL, rd_kafka_conf_dup(conf), NULL); test_consumer_subscribe(consumer, topic); test_consumer_wait_assignment(consumer, rd_false); /* Create generic consume queue */ rkq = rd_kafka_queue_get_consumer(consumer); consumer_args.what = "CONSUMER"; consumer_args.rkq = rkq; consumer_args.timeout_ms = timeout_ms; consumer_args.consume_msg_cnt = consume_msg_cnt; consumer_args.expected_msg_cnt = produce_msg_cnt / no_of_consume; consumer_args.rk = consumer; consumer_args.testid = testid; consumer_args.mv = &mv; consumer_args.test = test_curr; consumer_batch_queue(&consumer_args); rd_kafka_commit(consumer, NULL, rd_false); rd_kafka_queue_destroy(rkq); test_consumer_close(consumer); rd_kafka_destroy(consumer); } test_msgver_verify("CONSUME", &mv, TEST_MSGVER_ORDER | TEST_MSGVER_DUP | TEST_MSGVER_BY_OFFSET, 0, expected_msg_cnt); test_msgver_clear(&mv); rd_kafka_conf_destroy(conf); SUB_TEST_PASS(); } static void do_test_consume_batch_control_msgs(void) { const char *topic = test_mk_topic_name("0137-barrier_batch_consume", 1); const int32_t partition = 0; rd_kafka_conf_t *conf, *c_conf; rd_kafka_t *producer, *consumer; uint64_t testid; const int msgcnt[2] = {2, 3}; test_msgver_t mv; rd_kafka_queue_t *rkq; consumer_t consumer_args = RD_ZERO_INIT; const int partition_cnt = 1; const int timeout_ms = 5000; const int consume_msg_cnt = 10; const int expected_msg_cnt = 2; int32_t pause_partition = 0; int64_t expected_offset = msgcnt[0] + msgcnt[1] + 2; rd_kafka_topic_partition_list_t *pause_partition_list; rd_kafka_resp_err_t err; thrd_t thread_id; SUB_TEST("Testing control msgs flow"); testid = test_id_generate(); test_conf_init(&conf, NULL, 30); test_conf_set(conf, "transactional.id", topic); test_conf_set(conf, "batch.num.messages", "1"); rd_kafka_conf_set_dr_msg_cb(conf, test_dr_msg_cb); producer = test_create_handle(RD_KAFKA_PRODUCER, conf); test_create_topic(producer, topic, partition_cnt, 1); TEST_CALL_ERROR__(rd_kafka_init_transactions(producer, 30 * 1000)); /* * Transaction 1 */ TEST_SAY("Transaction 1: %d msgs\n", msgcnt[0]); TEST_CALL_ERROR__(rd_kafka_begin_transaction(producer)); test_produce_msgs2(producer, topic, testid, partition, 0, msgcnt[0], NULL, 0); TEST_CALL_ERROR__(rd_kafka_commit_transaction(producer, -1)); /* * Transaction 2 */ TEST_SAY("Transaction 2: %d msgs\n", msgcnt[1]); TEST_CALL_ERROR__(rd_kafka_begin_transaction(producer)); test_produce_msgs2(producer, topic, testid, partition, 0, msgcnt[1], NULL, 0); TEST_CALL_ERROR__(rd_kafka_abort_transaction(producer, -1)); rd_kafka_destroy(producer); rd_sleep(2); /* * Consumer */ test_conf_init(&c_conf, NULL, 0); test_conf_set(c_conf, "enable.auto.commit", "false"); test_conf_set(c_conf, "enable.auto.offset.store", "true"); test_conf_set(c_conf, "auto.offset.reset", "earliest"); consumer = test_create_consumer(topic, NULL, c_conf, NULL); test_consumer_subscribe(consumer, topic); test_consumer_wait_assignment(consumer, rd_false); /* Create generic consume queue */ rkq = rd_kafka_queue_get_consumer(consumer); test_msgver_init(&mv, testid); test_msgver_ignore_eof(&mv); consumer_args.what = "CONSUMER"; consumer_args.rkq = rkq; consumer_args.timeout_ms = timeout_ms; consumer_args.consume_msg_cnt = consume_msg_cnt; consumer_args.expected_msg_cnt = expected_msg_cnt; consumer_args.rk = consumer; consumer_args.testid = testid; consumer_args.mv = &mv; consumer_args.test = test_curr; if (thrd_create(&thread_id, consumer_batch_queue, &consumer_args) != thrd_success) TEST_FAIL("Failed to create thread for %s", "CONSUMER"); pause_partition_list = rd_kafka_topic_partition_list_new(1); rd_kafka_topic_partition_list_add(pause_partition_list, topic, pause_partition); rd_sleep(1); err = rd_kafka_pause_partitions(consumer, pause_partition_list); TEST_ASSERT(!err, "Failed to pause partition %d for topic %s", pause_partition, topic); rd_sleep(1); err = rd_kafka_resume_partitions(consumer, pause_partition_list); TEST_ASSERT(!err, "Failed to resume partition %d for topic %s", pause_partition, topic); thrd_join(thread_id, NULL); rd_kafka_commit(consumer, NULL, rd_false); rd_kafka_committed(consumer, pause_partition_list, timeout_ms); TEST_ASSERT(pause_partition_list->elems[0].offset == expected_offset, "Expected offset should be %" PRId64 ", but it is %" PRId64, expected_offset, pause_partition_list->elems[0].offset); rd_kafka_topic_partition_list_destroy(pause_partition_list); rd_kafka_queue_destroy(rkq); test_msgver_clear(&mv); test_consumer_close(consumer); rd_kafka_destroy(consumer); SUB_TEST_PASS(); } int main_0137_barrier_batch_consume(int argc, char **argv) { do_test_consume_batch_with_seek(); do_test_consume_batch_store_offset(); do_test_consume_batch_with_pause_and_resume_different_batch(); do_test_consume_batch_with_pause_and_resume_same_batch(); do_test_consume_batch_control_msgs(); return 0; }