/* * librdkafka - Apache Kafka C library * * Copyright (c) 2012-2015, 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. */ #ifndef _TEST_H_ #define _TEST_H_ #include "../src/rd.h" #include #include #include #ifndef _WIN32 #include #endif #include #include #include #include #if HAVE_GETRUSAGE #include #include #endif #include "rdkafka.h" #include "rdkafka_mock.h" #include "tinycthread.h" #include "rdlist.h" #if WITH_SOCKEM #include "sockem.h" #endif #include "testshared.h" #ifdef _WIN32 #define sscanf(...) sscanf_s(__VA_ARGS__) #endif /** * Test output is controlled through "TEST_LEVEL=N" environemnt variable. * N < 2: TEST_SAY() is quiet. */ extern int test_seed; extern char test_mode[64]; extern RD_TLS struct test *test_curr; extern int test_assert_on_fail; extern int tests_running_cnt; extern int test_concurrent_max; extern int test_rusage; extern double test_rusage_cpu_calibration; extern double test_timeout_multiplier; extern int test_session_timeout_ms; /* Group session timeout */ extern int test_flags; extern int test_neg_flags; extern int test_idempotent_producer; extern mtx_t test_mtx; #define TEST_LOCK() mtx_lock(&test_mtx) #define TEST_UNLOCK() mtx_unlock(&test_mtx) /* Forward decl */ typedef struct test_msgver_s test_msgver_t; /** @struct Resource usage thresholds */ struct rusage_thres { double ucpu; /**< Max User CPU in percentage */ double scpu; /**< Max Sys CPU in percentage */ double rss; /**< Max RSS (memory) increase in MB */ int ctxsw; /**< Max number of voluntary context switches, i.e. * syscalls. */ }; typedef enum { TEST_NOT_STARTED, TEST_SKIPPED, TEST_RUNNING, TEST_PASSED, TEST_FAILED, } test_state_t; struct test { /** * Setup */ const char *name; /**< e.g. Same as filename minus extension */ int (*mainfunc)(int argc, char **argv); /**< test's main func */ const int flags; /**< Test flags */ #define TEST_F_LOCAL 0x1 /**< Test is local, no broker requirement */ #define TEST_F_KNOWN_ISSUE \ 0x2 /**< Known issue, can fail without affecting \ * total test run status. */ #define TEST_F_MANUAL \ 0x4 /**< Manual test, only started when specifically \ * stated */ #define TEST_F_SOCKEM 0x8 /**< Test requires socket emulation. */ int minver; /**< Limit tests to broker version range. */ int maxver; const char *extra; /**< Extra information to print in test_summary. */ const char *scenario; /**< Test scenario */ char * *report_arr; /**< Test-specific reporting, JSON array of objects. */ int report_cnt; int report_size; rd_bool_t ignore_dr_err; /**< Ignore delivery report errors */ rd_kafka_resp_err_t exp_dr_err; /* Expected error in test_dr_cb */ rd_kafka_msg_status_t exp_dr_status; /**< Expected delivery status, * or -1 for not checking. */ int produce_sync; /**< test_produce_sync() call in action */ rd_kafka_resp_err_t produce_sync_err; /**< DR error */ test_msgver_t *dr_mv; /**< MsgVer that delivered messages will be * added to (if not NULL). * Must be set and freed by test. */ /** * Runtime */ thrd_t thrd; int64_t start; int64_t duration; FILE *stats_fp; int64_t timeout; test_state_t state; int failcnt; /**< Number of failures, useful with FAIL_LATER */ char failstr[512 + 1]; /**< First test failure reason */ char subtest[400]; /**< Current subtest, if any */ test_timing_t subtest_duration; /**< Subtest duration timing */ rd_bool_t subtest_quick; /**< Subtest is marked as QUICK */ #if WITH_SOCKEM rd_list_t sockets; int (*connect_cb)(struct test *test, sockem_t *skm, const char *id); #endif int (*is_fatal_cb)(rd_kafka_t *rk, rd_kafka_resp_err_t err, const char *reason); /**< Resource usage thresholds */ struct rusage_thres rusage_thres; /**< Usage thresholds */ #if HAVE_GETRUSAGE struct rusage rusage; /**< Monitored process CPU/mem usage */ #endif }; #ifdef _WIN32 #define TEST_F_KNOWN_ISSUE_WIN32 TEST_F_KNOWN_ISSUE #else #define TEST_F_KNOWN_ISSUE_WIN32 0 #endif #ifdef __APPLE__ #define TEST_F_KNOWN_ISSUE_OSX TEST_F_KNOWN_ISSUE #else #define TEST_F_KNOWN_ISSUE_OSX 0 #endif #define TEST_SAY0(...) fprintf(stderr, __VA_ARGS__) #define TEST_SAYL(LVL, ...) \ do { \ if (test_level >= LVL) { \ fprintf( \ stderr, "\033[36m[%-28s/%7.3fs] ", \ test_curr->name, \ test_curr->start \ ? ((float)(test_clock() - test_curr->start) / \ 1000000.0f) \ : 0); \ fprintf(stderr, __VA_ARGS__); \ fprintf(stderr, "\033[0m"); \ } \ } while (0) #define TEST_SAY(...) TEST_SAYL(2, __VA_ARGS__) /** * Append JSON object (as string) to this tests' report array. */ #define TEST_REPORT(...) test_report_add(test_curr, __VA_ARGS__) static RD_INLINE RD_UNUSED void rtrim(char *str) { size_t len = strlen(str); char *s; if (len == 0) return; s = str + len - 1; while (isspace((int)*s)) { *s = '\0'; s--; } } /* Skip the current test. Argument is textual reason (printf format) */ #define TEST_SKIP(...) \ do { \ TEST_WARN("SKIPPING TEST: " __VA_ARGS__); \ TEST_LOCK(); \ test_curr->state = TEST_SKIPPED; \ if (!*test_curr->failstr) { \ rd_snprintf(test_curr->failstr, \ sizeof(test_curr->failstr), __VA_ARGS__); \ rtrim(test_curr->failstr); \ } \ TEST_UNLOCK(); \ } while (0) void test_conf_init(rd_kafka_conf_t **conf, rd_kafka_topic_conf_t **topic_conf, int timeout); void test_msg_fmt(char *dest, size_t dest_size, uint64_t testid, int32_t partition, int msgid); void test_msg_parse0(const char *func, int line, uint64_t testid, rd_kafka_message_t *rkmessage, int32_t exp_partition, int *msgidp); #define test_msg_parse(testid, rkmessage, exp_partition, msgidp) \ test_msg_parse0(__FUNCTION__, __LINE__, testid, rkmessage, \ exp_partition, msgidp) static RD_INLINE int jitter(int low, int high) RD_UNUSED; static RD_INLINE int jitter(int low, int high) { return (low + (rand() % ((high - low) + 1))); } /****************************************************************************** * * Helpers * ******************************************************************************/ /**************************************************************** * Message verification services * * * * * * * ****************************************************************/ /** * A test_msgver_t is first fed with messages from any number of * topics and partitions, it is then checked for expected messages, such as: * - all messages received, based on message payload information. * - messages received in order * - EOF */ struct test_msgver_s { struct test_mv_p **p; /* Partitions array */ int p_cnt; /* Partition count */ int p_size; /* p size */ int msgcnt; /* Total message count */ uint64_t testid; /* Only accept messages for this testid */ rd_bool_t ignore_eof; /* Don't end PARTITION_EOF messages */ struct test_msgver_s *fwd; /* Also forward add_msg() to this mv */ int log_cnt; /* Current number of warning logs */ int log_max; /* Max warning logs before suppressing. */ int log_suppr_cnt; /* Number of suppressed log messages. */ const char *msgid_hdr; /**< msgid string is in header by this name, * rather than in the payload (default). */ }; /* test_msgver_t; */ /* Message */ struct test_mv_m { int64_t offset; /* Message offset */ int msgid; /* Message id */ int64_t timestamp; /* Message timestamp */ int32_t broker_id; /* Message broker id */ }; /* Message vector */ struct test_mv_mvec { struct test_mv_m *m; int cnt; int size; /* m[] size */ }; /* Partition */ struct test_mv_p { char *topic; int32_t partition; struct test_mv_mvec mvec; int64_t eof_offset; }; /* Verification state */ struct test_mv_vs { int msg_base; int exp_cnt; /* used by verify_range */ int msgid_min; int msgid_max; int64_t timestamp_min; int64_t timestamp_max; /* used by verify_broker_id */ int32_t broker_id; struct test_mv_mvec mvec; /* Correct msgver for comparison */ test_msgver_t *corr; }; void test_msgver_init(test_msgver_t *mv, uint64_t testid); void test_msgver_clear(test_msgver_t *mv); void test_msgver_ignore_eof(test_msgver_t *mv); int test_msgver_add_msg00(const char *func, int line, const char *clientname, test_msgver_t *mv, uint64_t testid, const char *topic, int32_t partition, int64_t offset, int64_t timestamp, int32_t broker_id, rd_kafka_resp_err_t err, int msgnum); int test_msgver_add_msg0(const char *func, int line, const char *clientname, test_msgver_t *mv, const rd_kafka_message_t *rkmessage, const char *override_topic); #define test_msgver_add_msg(rk, mv, rkm) \ test_msgver_add_msg0(__FUNCTION__, __LINE__, rd_kafka_name(rk), mv, \ rkm, NULL) /** * Flags to indicate what to verify. */ #define TEST_MSGVER_ORDER 0x1 /* Order */ #define TEST_MSGVER_DUP 0x2 /* Duplicates */ #define TEST_MSGVER_RANGE 0x4 /* Range of messages */ #define TEST_MSGVER_ALL 0xf /* All verifiers */ #define TEST_MSGVER_BY_MSGID 0x10000 /* Verify by msgid (unique in testid) */ #define TEST_MSGVER_BY_OFFSET \ 0x20000 /* Verify by offset (unique in partition)*/ #define TEST_MSGVER_BY_TIMESTAMP 0x40000 /* Verify by timestamp range */ #define TEST_MSGVER_BY_BROKER_ID 0x80000 /* Verify by broker id */ #define TEST_MSGVER_SUBSET \ 0x100000 /* verify_compare: allow correct mv to be \ * a subset of mv. */ /* Only test per partition, not across all messages received on all partitions. * This is useful when doing incremental verifications with multiple partitions * and the total number of messages has not been received yet. * Can't do range check here since messages may be spread out on multiple * partitions and we might just have read a few partitions. */ #define TEST_MSGVER_PER_PART \ ((TEST_MSGVER_ALL & ~TEST_MSGVER_RANGE) | TEST_MSGVER_BY_MSGID | \ TEST_MSGVER_BY_OFFSET) /* Test on all messages across all partitions. * This can only be used to check with msgid, not offset since that * is partition local. */ #define TEST_MSGVER_ALL_PART (TEST_MSGVER_ALL | TEST_MSGVER_BY_MSGID) int test_msgver_verify_part0(const char *func, int line, const char *what, test_msgver_t *mv, int flags, const char *topic, int partition, int msg_base, int exp_cnt); #define test_msgver_verify_part(what, mv, flags, topic, partition, msg_base, \ exp_cnt) \ test_msgver_verify_part0(__FUNCTION__, __LINE__, what, mv, flags, \ topic, partition, msg_base, exp_cnt) int test_msgver_verify0(const char *func, int line, const char *what, test_msgver_t *mv, int flags, struct test_mv_vs vs); #define test_msgver_verify(what, mv, flags, msgbase, expcnt) \ test_msgver_verify0( \ __FUNCTION__, __LINE__, what, mv, flags, \ (struct test_mv_vs) {.msg_base = msgbase, .exp_cnt = expcnt}) void test_msgver_verify_compare0(const char *func, int line, const char *what, test_msgver_t *mv, test_msgver_t *corr, int flags); #define test_msgver_verify_compare(what, mv, corr, flags) \ test_msgver_verify_compare0(__FUNCTION__, __LINE__, what, mv, corr, \ flags) rd_kafka_t *test_create_handle(int mode, rd_kafka_conf_t *conf); /** * Delivery reported callback. * Called for each message once to signal its delivery status. */ void test_dr_msg_cb(rd_kafka_t *rk, const rd_kafka_message_t *rkmessage, void *opaque); rd_kafka_t *test_create_producer(void); rd_kafka_topic_t * test_create_producer_topic(rd_kafka_t *rk, const char *topic, ...); void test_wait_delivery(rd_kafka_t *rk, int *msgcounterp); void test_produce_msgs_nowait(rd_kafka_t *rk, rd_kafka_topic_t *rkt, uint64_t testid, int32_t partition, int msg_base, int cnt, const char *payload, size_t size, int msgrate, int *msgcounterp); void test_produce_msgs(rd_kafka_t *rk, rd_kafka_topic_t *rkt, uint64_t testid, int32_t partition, int msg_base, int cnt, const char *payload, size_t size); void test_produce_msgs2(rd_kafka_t *rk, const char *topic, uint64_t testid, int32_t partition, int msg_base, int cnt, const char *payload, size_t size); void test_produce_msgs2_nowait(rd_kafka_t *rk, const char *topic, uint64_t testid, int32_t partition, int msg_base, int cnt, const char *payload, size_t size, int *remainsp); void test_produce_msgs_rate(rd_kafka_t *rk, rd_kafka_topic_t *rkt, uint64_t testid, int32_t partition, int msg_base, int cnt, const char *payload, size_t size, int msgrate); rd_kafka_resp_err_t test_produce_sync(rd_kafka_t *rk, rd_kafka_topic_t *rkt, uint64_t testid, int32_t partition); void test_produce_msgs_easy_v(const char *topic, uint64_t testid, int32_t partition, int msg_base, int cnt, size_t size, ...); void test_produce_msgs_easy_multi(uint64_t testid, ...); void test_incremental_rebalance_cb(rd_kafka_t *rk, rd_kafka_resp_err_t err, rd_kafka_topic_partition_list_t *parts, void *opaque); void test_rebalance_cb(rd_kafka_t *rk, rd_kafka_resp_err_t err, rd_kafka_topic_partition_list_t *parts, void *opaque); rd_kafka_t *test_create_consumer( const char *group_id, void (*rebalance_cb)(rd_kafka_t *rk, rd_kafka_resp_err_t err, rd_kafka_topic_partition_list_t *partitions, void *opaque), rd_kafka_conf_t *conf, rd_kafka_topic_conf_t *default_topic_conf); rd_kafka_topic_t *test_create_consumer_topic(rd_kafka_t *rk, const char *topic); rd_kafka_topic_t * test_create_topic_object(rd_kafka_t *rk, const char *topic, ...); void test_consumer_start(const char *what, rd_kafka_topic_t *rkt, int32_t partition, int64_t start_offset); void test_consumer_stop(const char *what, rd_kafka_topic_t *rkt, int32_t partition); void test_consumer_seek(const char *what, rd_kafka_topic_t *rkt, int32_t partition, int64_t offset); #define TEST_NO_SEEK -1 int64_t test_consume_msgs(const char *what, rd_kafka_topic_t *rkt, uint64_t testid, int32_t partition, int64_t offset, int exp_msg_base, int exp_cnt, int parse_fmt); void test_verify_rkmessage0(const char *func, int line, rd_kafka_message_t *rkmessage, uint64_t testid, int32_t partition, int msgnum); #define test_verify_rkmessage(rkmessage, testid, partition, msgnum) \ test_verify_rkmessage0(__FUNCTION__, __LINE__, rkmessage, testid, \ partition, msgnum) void test_consumer_subscribe(rd_kafka_t *rk, const char *topic); void test_consume_msgs_easy_mv0(const char *group_id, const char *topic, rd_bool_t txn, int32_t partition, uint64_t testid, int exp_eofcnt, int exp_msgcnt, rd_kafka_topic_conf_t *tconf, test_msgver_t *mv); #define test_consume_msgs_easy_mv(group_id, topic, partition, testid, \ exp_eofcnt, exp_msgcnt, tconf, mv) \ test_consume_msgs_easy_mv0(group_id, topic, rd_false /*not-txn*/, \ partition, testid, exp_eofcnt, exp_msgcnt, \ tconf, mv) void test_consume_msgs_easy(const char *group_id, const char *topic, uint64_t testid, int exp_eofcnt, int exp_msgcnt, rd_kafka_topic_conf_t *tconf); void test_consume_txn_msgs_easy(const char *group_id, const char *topic, uint64_t testid, int exp_eofcnt, int exp_msgcnt, rd_kafka_topic_conf_t *tconf); void test_consumer_poll_no_msgs(const char *what, rd_kafka_t *rk, uint64_t testid, int timeout_ms); void test_consumer_poll_expect_err(rd_kafka_t *rk, uint64_t testid, int timeout_ms, rd_kafka_resp_err_t err); int test_consumer_poll_once(rd_kafka_t *rk, test_msgver_t *mv, int timeout_ms); int test_consumer_poll_exact_timeout(const char *what, rd_kafka_t *rk, uint64_t testid, int exp_eof_cnt, int exp_msg_base, int exp_cnt, rd_bool_t exact, test_msgver_t *mv, int timeout_ms); int test_consumer_poll_exact(const char *what, rd_kafka_t *rk, uint64_t testid, int exp_eof_cnt, int exp_msg_base, int exp_cnt, rd_bool_t exact, test_msgver_t *mv); int test_consumer_poll(const char *what, rd_kafka_t *rk, uint64_t testid, int exp_eof_cnt, int exp_msg_base, int exp_cnt, test_msgver_t *mv); int test_consumer_poll_timeout(const char *what, rd_kafka_t *rk, uint64_t testid, int exp_eof_cnt, int exp_msg_base, int exp_cnt, test_msgver_t *mv, int timeout_ms); void test_consumer_wait_assignment(rd_kafka_t *rk, rd_bool_t do_poll); void test_consumer_verify_assignment0(const char *func, int line, rd_kafka_t *rk, int fail_immediately, ...); #define test_consumer_verify_assignment(rk, fail_immediately, ...) \ test_consumer_verify_assignment0(__FUNCTION__, __LINE__, rk, \ fail_immediately, __VA_ARGS__) void test_consumer_assign(const char *what, rd_kafka_t *rk, rd_kafka_topic_partition_list_t *parts); void test_consumer_incremental_assign(const char *what, rd_kafka_t *rk, rd_kafka_topic_partition_list_t *parts); void test_consumer_unassign(const char *what, rd_kafka_t *rk); void test_consumer_incremental_unassign(const char *what, rd_kafka_t *rk, rd_kafka_topic_partition_list_t *parts); void test_consumer_assign_partition(const char *what, rd_kafka_t *rk, const char *topic, int32_t partition, int64_t offset); void test_consumer_pause_resume_partition(rd_kafka_t *rk, const char *topic, int32_t partition, rd_bool_t pause); void test_consumer_close(rd_kafka_t *rk); void test_flush(rd_kafka_t *rk, int timeout_ms); void test_conf_set(rd_kafka_conf_t *conf, const char *name, const char *val); char *test_topic_conf_get(const rd_kafka_topic_conf_t *tconf, const char *name); int test_conf_match(rd_kafka_conf_t *conf, const char *name, const char *val); void test_topic_conf_set(rd_kafka_topic_conf_t *tconf, const char *name, const char *val); void test_any_conf_set(rd_kafka_conf_t *conf, rd_kafka_topic_conf_t *tconf, const char *name, const char *val); void test_print_partition_list( const rd_kafka_topic_partition_list_t *partitions); int test_partition_list_cmp(rd_kafka_topic_partition_list_t *al, rd_kafka_topic_partition_list_t *bl); int test_partition_list_and_offsets_cmp(rd_kafka_topic_partition_list_t *al, rd_kafka_topic_partition_list_t *bl); void test_kafka_topics(const char *fmt, ...); void test_admin_create_topic(rd_kafka_t *use_rk, const char *topicname, int partition_cnt, int replication_factor, const char **configs); void test_create_topic(rd_kafka_t *use_rk, const char *topicname, int partition_cnt, int replication_factor); rd_kafka_resp_err_t test_auto_create_topic_rkt(rd_kafka_t *rk, rd_kafka_topic_t *rkt, int timeout_ms); rd_kafka_resp_err_t test_auto_create_topic(rd_kafka_t *rk, const char *name, int timeout_ms); int test_check_auto_create_topic(void); void test_create_partitions(rd_kafka_t *use_rk, const char *topicname, int new_partition_cnt); int test_get_partition_count(rd_kafka_t *rk, const char *topicname, int timeout_ms); char *tsprintf(const char *fmt, ...) RD_FORMAT(printf, 1, 2); void test_report_add(struct test *test, const char *fmt, ...); int test_can_create_topics(int skip); rd_kafka_event_t *test_wait_event(rd_kafka_queue_t *eventq, rd_kafka_event_type_t event_type, int timeout_ms); void test_prepare_msg(uint64_t testid, int32_t partition, int msg_id, char *val, size_t val_size, char *key, size_t key_size); #if WITH_SOCKEM void test_socket_enable(rd_kafka_conf_t *conf); void test_socket_close_all(struct test *test, int reinit); int test_socket_sockem_set_all(const char *key, int val); void test_socket_sockem_set(int s, const char *key, int value); #endif void test_headers_dump(const char *what, int lvl, const rd_kafka_headers_t *hdrs); int32_t *test_get_broker_ids(rd_kafka_t *use_rk, size_t *cntp); void test_wait_metadata_update(rd_kafka_t *rk, rd_kafka_metadata_topic_t *topics, size_t topic_cnt, rd_kafka_metadata_topic_t *not_topics, size_t not_topic_cnt, int tmout); rd_kafka_event_t *test_wait_admin_result(rd_kafka_queue_t *q, rd_kafka_event_type_t evtype, int tmout); rd_kafka_resp_err_t test_wait_topic_admin_result(rd_kafka_queue_t *q, rd_kafka_event_type_t evtype, rd_kafka_event_t **retevent, int tmout); rd_kafka_resp_err_t test_CreateTopics_simple(rd_kafka_t *rk, rd_kafka_queue_t *useq, char **topics, size_t topic_cnt, int num_partitions, void *opaque); rd_kafka_resp_err_t test_CreatePartitions_simple(rd_kafka_t *rk, rd_kafka_queue_t *useq, const char *topic, size_t total_part_cnt, void *opaque); rd_kafka_resp_err_t test_DeleteTopics_simple(rd_kafka_t *rk, rd_kafka_queue_t *useq, char **topics, size_t topic_cnt, void *opaque); rd_kafka_resp_err_t test_AlterConfigs_simple(rd_kafka_t *rk, rd_kafka_ResourceType_t restype, const char *resname, const char **configs, size_t config_cnt); rd_kafka_resp_err_t test_DeleteGroups_simple(rd_kafka_t *rk, rd_kafka_queue_t *useq, char **groups, size_t group_cnt, void *opaque); rd_kafka_resp_err_t test_DeleteRecords_simple(rd_kafka_t *rk, rd_kafka_queue_t *useq, const rd_kafka_topic_partition_list_t *offsets, void *opaque); rd_kafka_resp_err_t test_DeleteConsumerGroupOffsets_simple( rd_kafka_t *rk, rd_kafka_queue_t *useq, const char *group_id, const rd_kafka_topic_partition_list_t *offsets, void *opaque); rd_kafka_resp_err_t test_CreateAcls_simple(rd_kafka_t *rk, rd_kafka_queue_t *useq, rd_kafka_AclBinding_t **acls, size_t acl_cnt, void *opaque); rd_kafka_resp_err_t test_delete_all_test_topics(int timeout_ms); void test_mock_cluster_destroy(rd_kafka_mock_cluster_t *mcluster); rd_kafka_mock_cluster_t *test_mock_cluster_new(int broker_cnt, const char **bootstraps); int test_error_is_not_fatal_cb(rd_kafka_t *rk, rd_kafka_resp_err_t err, const char *reason); /** * @brief Calls rdkafka function (with arguments) * and checks its return value (must be rd_kafka_resp_err_t) for * error, in which case the test fails. * Also times the call. * * @remark The trailing __ makes calling code easier to read. */ #define TEST_CALL__(FUNC_W_ARGS) \ do { \ test_timing_t _timing; \ const char *_desc = RD_STRINGIFY(FUNC_W_ARGS); \ rd_kafka_resp_err_t _err; \ TIMING_START(&_timing, "%s", _desc); \ TEST_SAYL(3, "Begin call %s\n", _desc); \ _err = FUNC_W_ARGS; \ TIMING_STOP(&_timing); \ if (!_err) \ break; \ if (strstr(_desc, "errstr")) \ TEST_FAIL("%s failed: %s: %s\n", _desc, \ rd_kafka_err2name(_err), errstr); \ else \ TEST_FAIL("%s failed: %s\n", _desc, \ rd_kafka_err2str(_err)); \ } while (0) /** * @brief Same as TEST_CALL__() but expects an rd_kafka_error_t * return type. */ #define TEST_CALL_ERROR__(FUNC_W_ARGS) \ do { \ test_timing_t _timing; \ const char *_desc = RD_STRINGIFY(FUNC_W_ARGS); \ const rd_kafka_error_t *_error; \ TIMING_START(&_timing, "%s", _desc); \ TEST_SAYL(3, "Begin call %s\n", _desc); \ _error = FUNC_W_ARGS; \ TIMING_STOP(&_timing); \ if (!_error) \ break; \ TEST_FAIL("%s failed: %s\n", _desc, \ rd_kafka_error_string(_error)); \ } while (0) /** * @brief Same as TEST_CALL__() but expects an rd_kafka_resp_err_t return type * without errstr. */ #define TEST_CALL_ERR__(FUNC_W_ARGS) \ do { \ test_timing_t _timing; \ const char *_desc = RD_STRINGIFY(FUNC_W_ARGS); \ rd_kafka_resp_err_t _err; \ TIMING_START(&_timing, "%s", _desc); \ TEST_SAYL(3, "Begin call %s\n", _desc); \ _err = FUNC_W_ARGS; \ TIMING_STOP(&_timing); \ if (!_err) \ break; \ TEST_FAIL("%s failed: %s\n", _desc, rd_kafka_err2str(_err)); \ } while (0) /** * @brief Print a rich error_t object in all its glory. NULL is ok. * * @param ... Is a prefix format-string+args that is printed with TEST_SAY() * prior to the error details. E.g., "commit() returned: ". * A newline is automatically appended. */ #define TEST_SAY_ERROR(ERROR, ...) \ do { \ rd_kafka_error_t *_e = (ERROR); \ TEST_SAY(__VA_ARGS__); \ if (!_e) { \ TEST_SAY0("No error" _C_CLR "\n"); \ break; \ } \ if (rd_kafka_error_is_fatal(_e)) \ TEST_SAY0(_C_RED "FATAL "); \ if (rd_kafka_error_is_retriable(_e)) \ TEST_SAY0("Retriable "); \ if (rd_kafka_error_txn_requires_abort(_e)) \ TEST_SAY0("TxnRequiresAbort "); \ TEST_SAY0("Error: %s: %s" _C_CLR "\n", \ rd_kafka_error_name(_e), rd_kafka_error_string(_e)); \ } while (0) /** * @name rusage.c * @{ */ void test_rusage_start(struct test *test); int test_rusage_stop(struct test *test, double duration); /**@}*/ #endif /* _TEST_H_ */