/* * librdkafka - Apache Kafka C library * * Copyright (c) 2017, 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" #include "rdkafka.h" #include /** * Verify interceptor functionality. * * Producer MO: * - create a chain of N interceptors * - allocate a state struct with unique id for each message produced, * provide as msg_opaque and reference from payload. * - in on_send: verify expected interceptor order by counting number * of consecutive bits. * - in on_acknowledge: same * - produce message to invalid topic which should trigger on_send+on_ack.. * from within produce(). * * Consumer MO: * - create a chain of M interceptors * - subscribe to the previously produced topic * - in on_consume: find message by id, verify expected order by bit counting. * - on on_commit: just count order per on_commit chain run. */ #define msgcnt 100 static const int producer_ic_cnt = 5; static const int consumer_ic_cnt = 10; /* The base values help differentiating opaque values between interceptors */ static const int on_send_base = 1 << 24; static const int on_ack_base = 1 << 25; static const int on_consume_base = 1 << 26; static const int on_commit_base = 1 << 27; static const int base_mask = 0xff << 24; #define _ON_SEND 0 #define _ON_ACK 1 #define _ON_CONSUME 2 #define _ON_CNT 3 struct msg_state { int id; int bits[_ON_CNT]; /* Bit field, one bit per interceptor */ mtx_t lock; }; /* Per-message state */ static struct msg_state msgs[msgcnt]; /* on_commit bits */ static int on_commit_bits = 0; /** * @brief Verify that \p bits matches the number of expected interceptor * call cnt. * * Verify interceptor order: the lower bits of ic_id * denotes the order in which interceptors were added and it * must be reflected here, meaning that all lower bits must be set, * and no higher ones. */ static void msg_verify_ic_cnt(const struct msg_state *msg, const char *what, int bits, int exp_cnt) { int exp_bits = exp_cnt ? (1 << exp_cnt) - 1 : 0; TEST_ASSERT(bits == exp_bits, "msg #%d: %s: expected bits 0x%x (%d), got 0x%x", msg->id, what, exp_bits, exp_cnt, bits); } /* * @brief Same as msg_verify_ic_cnt() without the msg reliance */ static void verify_ic_cnt(const char *what, int bits, int exp_cnt) { int exp_bits = exp_cnt ? (1 << exp_cnt) - 1 : 0; TEST_ASSERT(bits == exp_bits, "%s: expected bits 0x%x (%d), got 0x%x", what, exp_bits, exp_cnt, bits); } static void verify_msg(const char *what, int base, int bitid, rd_kafka_message_t *rkmessage, void *ic_opaque) { const char *id_str = rkmessage->key; struct msg_state *msg; int id; int ic_id = (int)(intptr_t)ic_opaque; /* Verify opaque (base | ic id) */ TEST_ASSERT((ic_id & base_mask) == base); ic_id &= ~base_mask; /* Find message by id */ TEST_ASSERT(rkmessage->key && rkmessage->key_len > 0 && id_str[(int)rkmessage->key_len - 1] == '\0' && strlen(id_str) > 0 && isdigit(*id_str)); id = atoi(id_str); TEST_ASSERT(id >= 0 && id < msgcnt, "%s: bad message id %s", what, id_str); msg = &msgs[id]; mtx_lock(&msg->lock); TEST_ASSERT(msg->id == id, "expected msg #%d has wrong id %d", id, msg->id); /* Verify message opaque */ if (!strcmp(what, "on_send") || !strncmp(what, "on_ack", 6)) TEST_ASSERT(rkmessage->_private == (void *)msg); TEST_SAYL(3, "%s: interceptor #%d called for message #%d (%d)\n", what, ic_id, id, msg->id); msg_verify_ic_cnt(msg, what, msg->bits[bitid], ic_id); /* Set this interceptor's bit */ msg->bits[bitid] |= 1 << ic_id; mtx_unlock(&msg->lock); } static rd_kafka_resp_err_t on_send(rd_kafka_t *rk, rd_kafka_message_t *rkmessage, void *ic_opaque) { TEST_ASSERT(ic_opaque != NULL); verify_msg("on_send", on_send_base, _ON_SEND, rkmessage, ic_opaque); return RD_KAFKA_RESP_ERR_NO_ERROR; } static rd_kafka_resp_err_t on_ack(rd_kafka_t *rk, rd_kafka_message_t *rkmessage, void *ic_opaque) { TEST_ASSERT(ic_opaque != NULL); verify_msg("on_ack", on_ack_base, _ON_ACK, rkmessage, ic_opaque); return RD_KAFKA_RESP_ERR_NO_ERROR; } static rd_kafka_resp_err_t on_consume(rd_kafka_t *rk, rd_kafka_message_t *rkmessage, void *ic_opaque) { TEST_ASSERT(ic_opaque != NULL); verify_msg("on_consume", on_consume_base, _ON_CONSUME, rkmessage, ic_opaque); return RD_KAFKA_RESP_ERR_NO_ERROR; } static rd_kafka_resp_err_t on_commit(rd_kafka_t *rk, const rd_kafka_topic_partition_list_t *offsets, rd_kafka_resp_err_t err, void *ic_opaque) { int ic_id = (int)(intptr_t)ic_opaque; /* Since on_commit is triggered a bit randomly and not per * message we only try to make sure it gets fully set at least once. */ TEST_ASSERT(ic_opaque != NULL); /* Verify opaque (base | ic id) */ TEST_ASSERT((ic_id & base_mask) == on_commit_base); ic_id &= ~base_mask; TEST_ASSERT(ic_opaque != NULL); TEST_SAYL(3, "on_commit: interceptor #%d called: %s\n", ic_id, rd_kafka_err2str(err)); if (test_level >= 4) test_print_partition_list(offsets); /* Check for rollover where a previous on_commit stint was * succesful and it just now started over */ if (on_commit_bits > 0 && ic_id == 0) { /* Verify completeness of previous stint */ verify_ic_cnt("on_commit", on_commit_bits, consumer_ic_cnt); /* Reset */ on_commit_bits = 0; } verify_ic_cnt("on_commit", on_commit_bits, ic_id); /* Set this interceptor's bit */ on_commit_bits |= 1 << ic_id; return RD_KAFKA_RESP_ERR_NO_ERROR; } static void do_test_produce(rd_kafka_t *rk, const char *topic, int32_t partition, int msgid, int exp_fail, int exp_ic_cnt) { rd_kafka_resp_err_t err; char key[16]; struct msg_state *msg = &msgs[msgid]; int i; /* Message state should be empty, no interceptors should have * been called yet.. */ for (i = 0; i < _ON_CNT; i++) TEST_ASSERT(msg->bits[i] == 0); mtx_init(&msg->lock, mtx_plain); msg->id = msgid; rd_snprintf(key, sizeof(key), "%d", msgid); err = rd_kafka_producev(rk, RD_KAFKA_V_TOPIC(topic), RD_KAFKA_V_PARTITION(partition), RD_KAFKA_V_KEY(key, strlen(key) + 1), RD_KAFKA_V_MSGFLAGS(RD_KAFKA_MSG_F_COPY), RD_KAFKA_V_OPAQUE(msg), RD_KAFKA_V_END); mtx_lock(&msg->lock); msg_verify_ic_cnt(msg, "on_send", msg->bits[_ON_SEND], exp_ic_cnt); if (err) { msg_verify_ic_cnt(msg, "on_ack", msg->bits[_ON_ACK], exp_ic_cnt); TEST_ASSERT(exp_fail, "producev() failed: %s", rd_kafka_err2str(err)); } else { msg_verify_ic_cnt(msg, "on_ack", msg->bits[_ON_ACK], 0); TEST_ASSERT(!exp_fail, "expected produce failure for msg #%d, not %s", msgid, rd_kafka_err2str(err)); } mtx_unlock(&msg->lock); } static rd_kafka_resp_err_t on_new_producer(rd_kafka_t *rk, const rd_kafka_conf_t *conf, void *ic_opaque, char *errstr, size_t errstr_size) { int i; for (i = 0; i < producer_ic_cnt; i++) { rd_kafka_resp_err_t err; err = rd_kafka_interceptor_add_on_send( rk, tsprintf("on_send:%d", i), on_send, (void *)(intptr_t)(on_send_base | i)); TEST_ASSERT(!err, "add_on_send failed: %s", rd_kafka_err2str(err)); err = rd_kafka_interceptor_add_on_acknowledgement( rk, tsprintf("on_acknowledgement:%d", i), on_ack, (void *)(intptr_t)(on_ack_base | i)); TEST_ASSERT(!err, "add_on_ack.. failed: %s", rd_kafka_err2str(err)); /* Add consumer interceptors as well to make sure * they are not called. */ err = rd_kafka_interceptor_add_on_consume( rk, tsprintf("on_consume:%d", i), on_consume, NULL); TEST_ASSERT(!err, "add_on_consume failed: %s", rd_kafka_err2str(err)); err = rd_kafka_interceptor_add_on_commit( rk, tsprintf("on_commit:%d", i), on_commit, NULL); TEST_ASSERT(!err, "add_on_commit failed: %s", rd_kafka_err2str(err)); } return RD_KAFKA_RESP_ERR_NO_ERROR; } static void do_test_producer(const char *topic) { rd_kafka_conf_t *conf; int i; rd_kafka_t *rk; TEST_SAY(_C_MAG "[ %s ]\n" _C_CLR, __FUNCTION__); test_conf_init(&conf, NULL, 0); rd_kafka_conf_interceptor_add_on_new(conf, "on_new_prodcer", on_new_producer, NULL); /* Create producer */ rk = test_create_handle(RD_KAFKA_PRODUCER, conf); for (i = 0; i < msgcnt - 1; i++) do_test_produce(rk, topic, RD_KAFKA_PARTITION_UA, i, 0, producer_ic_cnt); /* Wait for messages to be delivered */ test_flush(rk, -1); /* Now send a message that will fail in produce() * due to bad partition */ do_test_produce(rk, topic, 1234, i, 1, producer_ic_cnt); /* Verify acks */ for (i = 0; i < msgcnt; i++) { struct msg_state *msg = &msgs[i]; mtx_lock(&msg->lock); msg_verify_ic_cnt(msg, "on_ack", msg->bits[_ON_ACK], producer_ic_cnt); mtx_unlock(&msg->lock); } rd_kafka_destroy(rk); } static rd_kafka_resp_err_t on_new_consumer(rd_kafka_t *rk, const rd_kafka_conf_t *conf, void *ic_opaque, char *errstr, size_t errstr_size) { int i; for (i = 0; i < consumer_ic_cnt; i++) { rd_kafka_interceptor_add_on_consume( rk, tsprintf("on_consume:%d", i), on_consume, (void *)(intptr_t)(on_consume_base | i)); rd_kafka_interceptor_add_on_commit( rk, tsprintf("on_commit:%d", i), on_commit, (void *)(intptr_t)(on_commit_base | i)); /* Add producer interceptors as well to make sure they * are not called. */ rd_kafka_interceptor_add_on_send(rk, tsprintf("on_send:%d", i), on_send, NULL); rd_kafka_interceptor_add_on_acknowledgement( rk, tsprintf("on_acknowledgement:%d", i), on_ack, NULL); } return RD_KAFKA_RESP_ERR_NO_ERROR; } static void do_test_consumer(const char *topic) { rd_kafka_conf_t *conf; int i; rd_kafka_t *rk; TEST_SAY(_C_MAG "[ %s ]\n" _C_CLR, __FUNCTION__); test_conf_init(&conf, NULL, 0); rd_kafka_conf_interceptor_add_on_new(conf, "on_new_consumer", on_new_consumer, NULL); test_conf_set(conf, "auto.offset.reset", "earliest"); /* Create producer */ rk = test_create_consumer(topic, NULL, conf, NULL); test_consumer_subscribe(rk, topic); /* Consume messages (-1 for the one that failed producing) */ test_consumer_poll("interceptors.consume", rk, 0, -1, -1, msgcnt - 1, NULL); /* Verify on_consume */ for (i = 0; i < msgcnt - 1; i++) { struct msg_state *msg = &msgs[i]; mtx_lock(&msg->lock); msg_verify_ic_cnt(msg, "on_consume", msg->bits[_ON_CONSUME], consumer_ic_cnt); mtx_unlock(&msg->lock); } /* Verify that the produce-failed message didnt have * interceptors called */ mtx_lock(&msgs[msgcnt - 1].lock); msg_verify_ic_cnt(&msgs[msgcnt - 1], "on_consume", msgs[msgcnt - 1].bits[_ON_CONSUME], 0); mtx_unlock(&msgs[msgcnt - 1].lock); test_consumer_close(rk); verify_ic_cnt("on_commit", on_commit_bits, consumer_ic_cnt); rd_kafka_destroy(rk); } /** * @brief Interceptors must not be copied automatically by conf_dup() * unless the interceptors have added on_conf_dup(). * This behaviour makes sure an interceptor's instance * is not duplicated without the interceptor's knowledge or * assistance. */ static void do_test_conf_copy(const char *topic) { rd_kafka_conf_t *conf, *conf2; int i; rd_kafka_t *rk; TEST_SAY(_C_MAG "[ %s ]\n" _C_CLR, __FUNCTION__); memset(&msgs[0], 0, sizeof(msgs)); test_conf_init(&conf, NULL, 0); rd_kafka_conf_interceptor_add_on_new(conf, "on_new_conf_copy", on_new_producer, NULL); /* Now copy the configuration to verify that interceptors are * NOT copied. */ conf2 = conf; conf = rd_kafka_conf_dup(conf2); rd_kafka_conf_destroy(conf2); /* Create producer */ rk = test_create_handle(RD_KAFKA_PRODUCER, conf); for (i = 0; i < msgcnt - 1; i++) do_test_produce(rk, topic, RD_KAFKA_PARTITION_UA, i, 0, 0); /* Wait for messages to be delivered */ test_flush(rk, -1); /* Verify acks */ for (i = 0; i < msgcnt; i++) { struct msg_state *msg = &msgs[i]; mtx_lock(&msg->lock); msg_verify_ic_cnt(msg, "on_ack", msg->bits[_ON_ACK], 0); mtx_unlock(&msg->lock); } rd_kafka_destroy(rk); } int main_0064_interceptors(int argc, char **argv) { const char *topic = test_mk_topic_name(__FUNCTION__, 1); do_test_producer(topic); do_test_consumer(topic); do_test_conf_copy(topic); return 0; }