/* * librdkafka - Apache Kafka C library * * Copyright (c) 2012,2013 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 "rd.h" #include "rdkafka_int.h" #include "rdkafka_msg.h" #include "rdkafka_topic.h" #include "rdkafka_partition.h" #include "rdkafka_broker.h" #include "rdkafka_cgrp.h" #include "rdkafka_metadata.h" #include "rdlog.h" #include "rdsysqueue.h" #include "rdtime.h" #include "rdregex.h" #if WITH_ZSTD #include #endif const char *rd_kafka_topic_state_names[] = { "unknown", "exists", "notexists", "error" }; static int rd_kafka_topic_metadata_update (rd_kafka_topic_t *rkt, const struct rd_kafka_metadata_topic *mdt, rd_ts_t ts_insert); /** * @brief Increases the app's topic reference count. * * The app refcounts are implemented separately from the librdkafka refcounts, * they are increased/decreased in a separate rkt_app_refcnt to keep track of * its use. * * This only covers topic_new() & topic_destroy(). * The topic_t exposed in rd_kafka_message_t is NOT covered and is handled * like a standard internal -> app pointer conversion (keep_a()). */ static void rd_kafka_topic_keep_app (rd_kafka_topic_t *rkt) { if (rd_refcnt_add(&rkt->rkt_app_refcnt) == 1) rd_kafka_topic_keep(rkt); } /** * @brief drop rkt app reference */ static void rd_kafka_topic_destroy_app (rd_kafka_topic_t *app_rkt) { rd_kafka_topic_t *rkt = app_rkt; rd_assert(!rd_kafka_rkt_is_lw(app_rkt)); if (unlikely(rd_refcnt_sub(&rkt->rkt_app_refcnt) == 0)) rd_kafka_topic_destroy0(rkt); /* final app reference lost, * loose reference from * keep_app() */ } /** * Final destructor for topic. Refcnt must be 0. */ void rd_kafka_topic_destroy_final (rd_kafka_topic_t *rkt) { rd_kafka_assert(rkt->rkt_rk, rd_refcnt_get(&rkt->rkt_refcnt) == 0); rd_kafka_wrlock(rkt->rkt_rk); TAILQ_REMOVE(&rkt->rkt_rk->rk_topics, rkt, rkt_link); rkt->rkt_rk->rk_topic_cnt--; rd_kafka_wrunlock(rkt->rkt_rk); rd_kafka_assert(rkt->rkt_rk, rd_list_empty(&rkt->rkt_desp)); rd_list_destroy(&rkt->rkt_desp); rd_avg_destroy(&rkt->rkt_avg_batchsize); rd_avg_destroy(&rkt->rkt_avg_batchcnt); if (rkt->rkt_topic) rd_kafkap_str_destroy(rkt->rkt_topic); rd_kafka_anyconf_destroy(_RK_TOPIC, &rkt->rkt_conf); rwlock_destroy(&rkt->rkt_lock); rd_refcnt_destroy(&rkt->rkt_app_refcnt); rd_refcnt_destroy(&rkt->rkt_refcnt); rd_free(rkt); } /** * @brief Application topic object destroy. * @warning MUST ONLY BE CALLED BY THE APPLICATION. * Use rd_kafka_topic_destroy0() for all internal use. */ void rd_kafka_topic_destroy (rd_kafka_topic_t *app_rkt) { rd_kafka_lwtopic_t *lrkt; if (unlikely((lrkt = rd_kafka_rkt_get_lw(app_rkt)) != NULL)) rd_kafka_lwtopic_destroy(lrkt); else rd_kafka_topic_destroy_app(app_rkt); } /** * Finds and returns a topic based on its name, or NULL if not found. * The 'rkt' refcount is increased by one and the caller must call * rd_kafka_topic_destroy() when it is done with the topic to decrease * the refcount. * * Locality: any thread */ rd_kafka_topic_t *rd_kafka_topic_find_fl (const char *func, int line, rd_kafka_t *rk, const char *topic, int do_lock) { rd_kafka_topic_t *rkt; if (do_lock) rd_kafka_rdlock(rk); TAILQ_FOREACH(rkt, &rk->rk_topics, rkt_link) { if (!rd_kafkap_str_cmp_str(rkt->rkt_topic, topic)) { rd_kafka_topic_keep(rkt); break; } } if (do_lock) rd_kafka_rdunlock(rk); return rkt; } /** * Same semantics as ..find() but takes a Kafka protocol string instead. */ rd_kafka_topic_t *rd_kafka_topic_find0_fl (const char *func, int line, rd_kafka_t *rk, const rd_kafkap_str_t *topic) { rd_kafka_topic_t *rkt; rd_kafka_rdlock(rk); TAILQ_FOREACH(rkt, &rk->rk_topics, rkt_link) { if (!rd_kafkap_str_cmp(rkt->rkt_topic, topic)) { rd_kafka_topic_keep(rkt); break; } } rd_kafka_rdunlock(rk); return rkt; } /** * @brief rd_kafka_topic_t comparator. */ int rd_kafka_topic_cmp_rkt (const void *_a, const void *_b) { rd_kafka_topic_t *rkt_a = (void *)_a, *rkt_b = (void *)_b; if (rkt_a == rkt_b) return 0; return rd_kafkap_str_cmp(rkt_a->rkt_topic, rkt_b->rkt_topic); } /** * @brief Destroy/free a light-weight topic object. */ void rd_kafka_lwtopic_destroy (rd_kafka_lwtopic_t *lrkt) { rd_assert(rd_kafka_rkt_is_lw((const rd_kafka_topic_t *)lrkt)); if (rd_refcnt_sub(&lrkt->lrkt_refcnt) > 0) return; rd_refcnt_destroy(&lrkt->lrkt_refcnt); rd_free(lrkt); } /** * @brief Create a new light-weight topic name-only handle. * * This type of object is a light-weight non-linked alternative * to the proper rd_kafka_itopic_t for outgoing APIs * (such as rd_kafka_message_t) when there is no full topic object available. */ rd_kafka_lwtopic_t *rd_kafka_lwtopic_new (rd_kafka_t *rk, const char *topic) { rd_kafka_lwtopic_t *lrkt; size_t topic_len = strlen(topic); lrkt = rd_malloc(sizeof(*lrkt) + topic_len + 1); memcpy(lrkt->lrkt_magic, "LRKT", 4); lrkt->lrkt_rk = rk; rd_refcnt_init(&lrkt->lrkt_refcnt, 1); lrkt->lrkt_topic = (char *)(lrkt+1); memcpy(lrkt->lrkt_topic, topic, topic_len+1); return lrkt; } /** * @returns a proper rd_kafka_topic_t object (not light-weight) * based on the input rd_kafka_topic_t app object which may * either be a proper topic (which is then returned) or a light-weight * topic in which case it will look up or create the proper topic * object. * * This allows the application to (unknowingly) pass a light-weight * topic object to any proper-aware public API. */ rd_kafka_topic_t *rd_kafka_topic_proper (rd_kafka_topic_t *app_rkt) { rd_kafka_lwtopic_t *lrkt; if (likely(!(lrkt = rd_kafka_rkt_get_lw(app_rkt)))) return app_rkt; /* Create proper topic object */ return rd_kafka_topic_new0(lrkt->lrkt_rk, lrkt->lrkt_topic, NULL, NULL, 0); } /** * @brief Create new topic handle. * * @locality any */ rd_kafka_topic_t *rd_kafka_topic_new0 (rd_kafka_t *rk, const char *topic, rd_kafka_topic_conf_t *conf, int *existing, int do_lock) { rd_kafka_topic_t *rkt; const struct rd_kafka_metadata_cache_entry *rkmce; const char *conf_err; const char *used_conf_str; /* Verify configuration. * Maximum topic name size + headers must never exceed message.max.bytes * which is min-capped to 1000. * See rd_kafka_broker_produce_toppar() and rdkafka_conf.c */ if (!topic || strlen(topic) > 512) { if (conf) rd_kafka_topic_conf_destroy(conf); rd_kafka_set_last_error(RD_KAFKA_RESP_ERR__INVALID_ARG, EINVAL); return NULL; } if (do_lock) rd_kafka_wrlock(rk); if ((rkt = rd_kafka_topic_find(rk, topic, 0/*no lock*/))) { if (do_lock) rd_kafka_wrunlock(rk); if (conf) rd_kafka_topic_conf_destroy(conf); if (existing) *existing = 1; return rkt; } if (!conf) { if (rk->rk_conf.topic_conf) { conf = rd_kafka_topic_conf_dup(rk->rk_conf.topic_conf); used_conf_str = "default_topic_conf"; } else { conf = rd_kafka_topic_conf_new(); used_conf_str = "empty"; } } else { used_conf_str = "user-supplied"; } /* Verify and finalize topic configuration */ if ((conf_err = rd_kafka_topic_conf_finalize(rk->rk_type, &rk->rk_conf, conf))) { if (do_lock) rd_kafka_wrunlock(rk); /* Incompatible configuration settings */ rd_kafka_log(rk, LOG_ERR, "TOPICCONF", "Incompatible configuration settings " "for topic \"%s\": %s", topic, conf_err); rd_kafka_topic_conf_destroy(conf); rd_kafka_set_last_error(RD_KAFKA_RESP_ERR__INVALID_ARG, EINVAL); return NULL; } if (existing) *existing = 0; rkt = rd_calloc(1, sizeof(*rkt)); memcpy(rkt->rkt_magic, "IRKT", 4); rkt->rkt_topic = rd_kafkap_str_new(topic, -1); rkt->rkt_rk = rk; rkt->rkt_ts_create = rd_clock(); rkt->rkt_conf = *conf; rd_free(conf); /* explicitly not rd_kafka_topic_destroy() * since we dont want to rd_free internal members, * just the placeholder. The internal members * were copied on the line above. */ /* Partitioner */ if (!rkt->rkt_conf.partitioner) { const struct { const char *str; void *part; } part_map[] = { { "random", (void *)rd_kafka_msg_partitioner_random }, { "consistent", (void *)rd_kafka_msg_partitioner_consistent }, { "consistent_random", (void *)rd_kafka_msg_partitioner_consistent_random }, { "murmur2", (void *)rd_kafka_msg_partitioner_murmur2 }, { "murmur2_random", (void *)rd_kafka_msg_partitioner_murmur2_random }, { "fnv1a", (void *)rd_kafka_msg_partitioner_fnv1a }, { "fnv1a_random", (void *)rd_kafka_msg_partitioner_fnv1a_random }, { NULL } }; int i; /* Use "partitioner" configuration property string, if set */ for (i = 0 ; rkt->rkt_conf.partitioner_str && part_map[i].str ; i++) { if (!strcmp(rkt->rkt_conf.partitioner_str, part_map[i].str)) { rkt->rkt_conf.partitioner = part_map[i].part; break; } } /* Default partitioner: consistent_random */ if (!rkt->rkt_conf.partitioner) { /* Make sure part_map matched something, otherwise * there is a discreprency between this code * and the validator in rdkafka_conf.c */ assert(!rkt->rkt_conf.partitioner_str); rkt->rkt_conf.partitioner = rd_kafka_msg_partitioner_consistent_random; } } if (rkt->rkt_rk->rk_conf.sticky_partition_linger_ms > 0 && rkt->rkt_conf.partitioner != rd_kafka_msg_partitioner_consistent && rkt->rkt_conf.partitioner != rd_kafka_msg_partitioner_murmur2 && rkt->rkt_conf.partitioner != rd_kafka_msg_partitioner_fnv1a) { rkt->rkt_conf.random_partitioner = rd_false; } else { rkt->rkt_conf.random_partitioner = rd_true; } /* Sticky partition assignment interval */ rd_interval_init(&rkt->rkt_sticky_intvl); if (rkt->rkt_conf.queuing_strategy == RD_KAFKA_QUEUE_FIFO) rkt->rkt_conf.msg_order_cmp = rd_kafka_msg_cmp_msgid; else rkt->rkt_conf.msg_order_cmp = rd_kafka_msg_cmp_msgid_lifo; if (rkt->rkt_conf.compression_codec == RD_KAFKA_COMPRESSION_INHERIT) rkt->rkt_conf.compression_codec = rk->rk_conf.compression_codec; /* Translate compression level to library-specific level and check * upper bound */ switch (rkt->rkt_conf.compression_codec) { #if WITH_ZLIB case RD_KAFKA_COMPRESSION_GZIP: if (rkt->rkt_conf.compression_level == RD_KAFKA_COMPLEVEL_DEFAULT) rkt->rkt_conf.compression_level = Z_DEFAULT_COMPRESSION; else if (rkt->rkt_conf.compression_level > RD_KAFKA_COMPLEVEL_GZIP_MAX) rkt->rkt_conf.compression_level = RD_KAFKA_COMPLEVEL_GZIP_MAX; break; #endif case RD_KAFKA_COMPRESSION_LZ4: if (rkt->rkt_conf.compression_level == RD_KAFKA_COMPLEVEL_DEFAULT) /* LZ4 has no notion of system-wide default compression * level, use zero in this case */ rkt->rkt_conf.compression_level = 0; else if (rkt->rkt_conf.compression_level > RD_KAFKA_COMPLEVEL_LZ4_MAX) rkt->rkt_conf.compression_level = RD_KAFKA_COMPLEVEL_LZ4_MAX; break; #if WITH_ZSTD case RD_KAFKA_COMPRESSION_ZSTD: if (rkt->rkt_conf.compression_level == RD_KAFKA_COMPLEVEL_DEFAULT) rkt->rkt_conf.compression_level = 3; else if (rkt->rkt_conf.compression_level > RD_KAFKA_COMPLEVEL_ZSTD_MAX) rkt->rkt_conf.compression_level = RD_KAFKA_COMPLEVEL_ZSTD_MAX; break; #endif case RD_KAFKA_COMPRESSION_SNAPPY: default: /* Compression level has no effect in this case */ rkt->rkt_conf.compression_level = RD_KAFKA_COMPLEVEL_DEFAULT; } rd_avg_init(&rkt->rkt_avg_batchsize, RD_AVG_GAUGE, 0, rk->rk_conf.max_msg_size, 2, rk->rk_conf.stats_interval_ms ? 1 : 0); rd_avg_init(&rkt->rkt_avg_batchcnt, RD_AVG_GAUGE, 0, rk->rk_conf.batch_num_messages, 2, rk->rk_conf.stats_interval_ms ? 1 : 0); rd_kafka_dbg(rk, TOPIC, "TOPIC", "New local topic: %.*s", RD_KAFKAP_STR_PR(rkt->rkt_topic)); rd_list_init(&rkt->rkt_desp, 16, NULL); rd_interval_init(&rkt->rkt_desp_refresh_intvl); rd_refcnt_init(&rkt->rkt_refcnt, 0); rd_refcnt_init(&rkt->rkt_app_refcnt, 0); rd_kafka_topic_keep(rkt); rwlock_init(&rkt->rkt_lock); /* Create unassigned partition */ rkt->rkt_ua = rd_kafka_toppar_new(rkt, RD_KAFKA_PARTITION_UA); TAILQ_INSERT_TAIL(&rk->rk_topics, rkt, rkt_link); rk->rk_topic_cnt++; /* Populate from metadata cache. */ if ((rkmce = rd_kafka_metadata_cache_find(rk, topic, 1/*valid*/)) && !rkmce->rkmce_mtopic.err) { if (existing) *existing = 1; rd_kafka_topic_metadata_update(rkt, &rkmce->rkmce_mtopic, rkmce->rkmce_ts_insert); } if (do_lock) rd_kafka_wrunlock(rk); if (rk->rk_conf.debug & RD_KAFKA_DBG_CONF) { char desc[256]; rd_snprintf(desc, sizeof(desc), "Topic \"%s\" configuration (%s)", topic, used_conf_str); rd_kafka_anyconf_dump_dbg(rk, _RK_TOPIC, &rkt->rkt_conf, desc); } return rkt; } /** * @brief Create new app topic handle. * * @locality application thread */ rd_kafka_topic_t *rd_kafka_topic_new (rd_kafka_t *rk, const char *topic, rd_kafka_topic_conf_t *conf) { rd_kafka_topic_t *rkt; int existing; rkt = rd_kafka_topic_new0(rk, topic, conf, &existing, 1/*lock*/); if (!rkt) return NULL; /* Increase application refcount. */ rd_kafka_topic_keep_app(rkt); /* Query for the topic leader (async) */ if (!existing) rd_kafka_topic_leader_query(rk, rkt); /* Drop our reference since there is already/now an app refcnt */ rd_kafka_topic_destroy0(rkt); return rkt; } /** * Sets the state for topic. * NOTE: rd_kafka_topic_wrlock(rkt) MUST be held */ static void rd_kafka_topic_set_state (rd_kafka_topic_t *rkt, int state) { if ((int)rkt->rkt_state == state) return; rd_kafka_dbg(rkt->rkt_rk, TOPIC, "STATE", "Topic %s changed state %s -> %s", rkt->rkt_topic->str, rd_kafka_topic_state_names[rkt->rkt_state], rd_kafka_topic_state_names[state]); if (rkt->rkt_state == RD_KAFKA_TOPIC_S_ERROR) rkt->rkt_err = RD_KAFKA_RESP_ERR_NO_ERROR; rkt->rkt_state = state; } /** * Returns the name of a topic. * NOTE: * The topic Kafka String representation is crafted with an extra byte * at the end for the Nul that is not included in the length, this way * we can use the topic's String directly. * This is not true for Kafka Strings read from the network. */ const char *rd_kafka_topic_name (const rd_kafka_topic_t *app_rkt) { if (rd_kafka_rkt_is_lw(app_rkt)) return rd_kafka_rkt_lw_const(app_rkt)->lrkt_topic; else return app_rkt->rkt_topic->str; } /** * @brief Update the broker that a topic+partition is delegated to. * * @param broker_id The id of the broker to associate the toppar with. * @param rkb A reference to the broker to delegate to (must match * broker_id) or NULL if the toppar should be undelegated for * any reason. * @param reason Human-readable reason for the update, included in debug log. * * @returns 1 if the broker delegation was changed, -1 if the broker * delegation was changed and is now undelegated, else 0. * * @locks caller must have rd_kafka_toppar_lock(rktp) * @locality any */ int rd_kafka_toppar_broker_update (rd_kafka_toppar_t *rktp, int32_t broker_id, rd_kafka_broker_t *rkb, const char *reason) { rktp->rktp_broker_id = broker_id; if (!rkb) { int had_broker = rktp->rktp_broker ? 1 : 0; rd_kafka_toppar_broker_delegate(rktp, NULL); return had_broker ? -1 : 0; } if (rktp->rktp_broker) { if (rktp->rktp_broker == rkb) { /* No change in broker */ return 0; } rd_kafka_dbg(rktp->rktp_rkt->rkt_rk, TOPIC|RD_KAFKA_DBG_FETCH, "TOPICUPD", "Topic %s [%"PRId32"]: migrating from " "broker %"PRId32" to %"PRId32" (leader is " "%"PRId32"): %s", rktp->rktp_rkt->rkt_topic->str, rktp->rktp_partition, rktp->rktp_broker->rkb_nodeid, rkb->rkb_nodeid, rktp->rktp_leader_id, reason); } rd_kafka_toppar_broker_delegate(rktp, rkb); return 1; } /** * @brief Update a topic+partition for a new leader. * * @remark If a toppar is currently delegated to a preferred replica, * it will not be delegated to the leader broker unless there * has been a leader change. * * @param leader_id The id of the new leader broker. * @param leader A reference to the leader broker or NULL if the * toppar should be undelegated for any reason. * * @returns 1 if the broker delegation was changed, -1 if the broker * delegation was changed and is now undelegated, else 0. * * @locks caller must have rd_kafka_topic_wrlock(rkt) * AND NOT rd_kafka_toppar_lock(rktp) * @locality any */ static int rd_kafka_toppar_leader_update (rd_kafka_topic_t *rkt, int32_t partition, int32_t leader_id, rd_kafka_broker_t *leader) { rd_kafka_toppar_t *rktp; rd_bool_t fetching_from_follower; int r = 0; rktp = rd_kafka_toppar_get(rkt, partition, 0); if (unlikely(!rktp)) { /* Have only seen this in issue #132. * Probably caused by corrupt broker state. */ rd_kafka_log(rkt->rkt_rk, LOG_WARNING, "BROKER", "%s [%"PRId32"] is unknown " "(partition_cnt %i): " "ignoring leader (%"PRId32") update", rkt->rkt_topic->str, partition, rkt->rkt_partition_cnt, leader_id); return -1; } rd_kafka_toppar_lock(rktp); fetching_from_follower = leader != NULL && rktp->rktp_broker != NULL && rktp->rktp_broker->rkb_source != RD_KAFKA_INTERNAL && rktp->rktp_broker != leader; if (fetching_from_follower && rktp->rktp_leader_id == leader_id) { rd_kafka_dbg(rktp->rktp_rkt->rkt_rk, TOPIC, "BROKER", "Topic %s [%"PRId32"]: leader %"PRId32" unchanged, " "not migrating away from preferred replica %"PRId32, rktp->rktp_rkt->rkt_topic->str, rktp->rktp_partition, leader_id, rktp->rktp_broker_id); r = 0; } else { if (rktp->rktp_leader_id != leader_id || rktp->rktp_leader != leader) { /* Update leader if it has changed */ rktp->rktp_leader_id = leader_id; if (rktp->rktp_leader) rd_kafka_broker_destroy(rktp->rktp_leader); if (leader) rd_kafka_broker_keep(leader); rktp->rktp_leader = leader; } /* Update handling broker */ r = rd_kafka_toppar_broker_update(rktp, leader_id, leader, "leader updated"); } rd_kafka_toppar_unlock(rktp); rd_kafka_toppar_destroy(rktp); /* from get() */ return r; } /** * @brief Revert the topic+partition delegation to the leader from * a preferred replica. * * @returns 1 if the broker delegation was changed, -1 if the broker * delegation was changed and is now undelegated, else 0. * * @locks none * @locality any */ int rd_kafka_toppar_delegate_to_leader (rd_kafka_toppar_t *rktp) { rd_kafka_broker_t *leader; int r; rd_kafka_rdlock(rktp->rktp_rkt->rkt_rk); rd_kafka_toppar_lock(rktp); rd_assert(rktp->rktp_leader_id != rktp->rktp_broker_id); rd_kafka_dbg(rktp->rktp_rkt->rkt_rk, TOPIC, "BROKER", "Topic %s [%"PRId32"]: Reverting from preferred " "replica %"PRId32" to leader %"PRId32, rktp->rktp_rkt->rkt_topic->str, rktp->rktp_partition, rktp->rktp_broker_id, rktp->rktp_leader_id); leader = rd_kafka_broker_find_by_nodeid(rktp->rktp_rkt->rkt_rk, rktp->rktp_leader_id); rd_kafka_toppar_unlock(rktp); rd_kafka_rdunlock(rktp->rktp_rkt->rkt_rk); rd_kafka_toppar_lock(rktp); r = rd_kafka_toppar_broker_update( rktp, rktp->rktp_leader_id, leader, "reverting from preferred replica to leader"); rd_kafka_toppar_unlock(rktp); if (leader) rd_kafka_broker_destroy(leader); return r; } /** * @brief Update the number of partitions for a topic and takes actions * accordingly. * * @returns 1 if the partition count changed, else 0. * * @locks rd_kafka_topic_wrlock(rkt) MUST be held. */ static int rd_kafka_topic_partition_cnt_update (rd_kafka_topic_t *rkt, int32_t partition_cnt) { rd_kafka_t *rk = rkt->rkt_rk; rd_kafka_toppar_t **rktps; rd_kafka_toppar_t *rktp; int32_t i; if (likely(rkt->rkt_partition_cnt == partition_cnt)) return 0; /* No change in partition count */ if (unlikely(rkt->rkt_partition_cnt != 0 && !rd_kafka_terminating(rkt->rkt_rk))) rd_kafka_log(rk, LOG_NOTICE, "PARTCNT", "Topic %s partition count changed " "from %"PRId32" to %"PRId32, rkt->rkt_topic->str, rkt->rkt_partition_cnt, partition_cnt); else rd_kafka_dbg(rk, TOPIC, "PARTCNT", "Topic %s partition count changed " "from %"PRId32" to %"PRId32, rkt->rkt_topic->str, rkt->rkt_partition_cnt, partition_cnt); /* Create and assign new partition list */ if (partition_cnt > 0) rktps = rd_calloc(partition_cnt, sizeof(*rktps)); else rktps = NULL; for (i = 0 ; i < partition_cnt ; i++) { if (i >= rkt->rkt_partition_cnt) { /* New partition. Check if its in the list of * desired partitions first. */ rktp = rd_kafka_toppar_desired_get(rkt, i); if (rktp) { rd_kafka_toppar_lock(rktp); rktp->rktp_flags &= ~(RD_KAFKA_TOPPAR_F_UNKNOWN | RD_KAFKA_TOPPAR_F_REMOVE); /* Remove from desp list since the * partition is now known. */ rd_kafka_toppar_desired_unlink(rktp); rd_kafka_toppar_unlock(rktp); } else { rktp = rd_kafka_toppar_new(rkt, i); rd_kafka_toppar_lock(rktp); rktp->rktp_flags &= ~(RD_KAFKA_TOPPAR_F_UNKNOWN | RD_KAFKA_TOPPAR_F_REMOVE); rd_kafka_toppar_unlock(rktp); } rktps[i] = rktp; } else { /* Existing partition, grab our own reference. */ rktps[i] = rd_kafka_toppar_keep(rkt->rkt_p[i]); /* Loose previous ref */ rd_kafka_toppar_destroy(rkt->rkt_p[i]); } } /* Propagate notexist errors for desired partitions */ RD_LIST_FOREACH(rktp, &rkt->rkt_desp, i) { rd_kafka_dbg(rkt->rkt_rk, TOPIC, "DESIRED", "%s [%"PRId32"]: " "desired partition does not exist in cluster", rkt->rkt_topic->str, rktp->rktp_partition); rd_kafka_toppar_enq_error(rktp, rkt->rkt_err ? rkt->rkt_err : RD_KAFKA_RESP_ERR__UNKNOWN_PARTITION, "desired partition is not available"); } /* Remove excessive partitions */ for (i = partition_cnt ; i < rkt->rkt_partition_cnt ; i++) { rktp = rkt->rkt_p[i]; rd_kafka_dbg(rkt->rkt_rk, TOPIC, "REMOVE", "%s [%"PRId32"] no longer reported in metadata", rkt->rkt_topic->str, rktp->rktp_partition); rd_kafka_toppar_lock(rktp); rktp->rktp_flags |= RD_KAFKA_TOPPAR_F_UNKNOWN; if (rktp->rktp_flags & RD_KAFKA_TOPPAR_F_DESIRED) { rd_kafka_dbg(rkt->rkt_rk, TOPIC, "DESIRED", "Topic %s [%"PRId32"] is desired " "but no longer known: " "moving back on desired list", rkt->rkt_topic->str, rktp->rktp_partition); /* If this is a desired partition move it back on to * the desired list since partition is no longer known*/ rd_kafka_toppar_desired_link(rktp); if (!rd_kafka_terminating(rkt->rkt_rk)) rd_kafka_toppar_enq_error( rktp, rkt->rkt_err ? rkt->rkt_err : RD_KAFKA_RESP_ERR__UNKNOWN_PARTITION, "desired partition is no longer " "available"); rd_kafka_toppar_broker_delegate(rktp, NULL); } else { /* Tell handling broker to let go of the toppar */ rd_kafka_toppar_broker_leave_for_remove(rktp); } rd_kafka_toppar_unlock(rktp); rd_kafka_toppar_destroy(rktp); } if (rkt->rkt_p) rd_free(rkt->rkt_p); rkt->rkt_p = rktps; rkt->rkt_partition_cnt = partition_cnt; return 1; } /** * Topic 'rkt' does not exist: propagate to interested parties. * The topic's state must have been set to NOTEXISTS and * rd_kafka_topic_partition_cnt_update() must have been called prior to * calling this function. * * Locks: rd_kafka_topic_*lock() must be held. */ static void rd_kafka_topic_propagate_notexists (rd_kafka_topic_t *rkt, rd_kafka_resp_err_t err) { rd_kafka_toppar_t *rktp; int i; if (rkt->rkt_rk->rk_type != RD_KAFKA_CONSUMER) return; /* Notify consumers that the topic doesn't exist. */ RD_LIST_FOREACH(rktp, &rkt->rkt_desp, i) rd_kafka_toppar_enq_error(rktp, err, "topic does not exist"); } /** * Assign messages on the UA partition to available partitions. * Locks: rd_kafka_topic_*lock() must be held. */ static void rd_kafka_topic_assign_uas (rd_kafka_topic_t *rkt, rd_kafka_resp_err_t err) { rd_kafka_t *rk = rkt->rkt_rk; rd_kafka_toppar_t *rktp_ua; rd_kafka_msg_t *rkm, *tmp; rd_kafka_msgq_t uas = RD_KAFKA_MSGQ_INITIALIZER(uas); rd_kafka_msgq_t failed = RD_KAFKA_MSGQ_INITIALIZER(failed); rd_kafka_resp_err_t err_all = RD_KAFKA_RESP_ERR_NO_ERROR; int cnt; if (rkt->rkt_rk->rk_type != RD_KAFKA_PRODUCER) return; rktp_ua = rd_kafka_toppar_get(rkt, RD_KAFKA_PARTITION_UA, 0); if (unlikely(!rktp_ua)) { rd_kafka_dbg(rk, TOPIC, "ASSIGNUA", "No UnAssigned partition available for %s", rkt->rkt_topic->str); return; } /* Assign all unassigned messages to new topics. */ rd_kafka_toppar_lock(rktp_ua); if (rkt->rkt_state == RD_KAFKA_TOPIC_S_ERROR) { err_all = rkt->rkt_err; rd_kafka_dbg(rk, TOPIC, "PARTCNT", "Failing all %i unassigned messages in " "topic %.*s due to permanent topic error: %s", rktp_ua->rktp_msgq.rkmq_msg_cnt, RD_KAFKAP_STR_PR(rkt->rkt_topic), rd_kafka_err2str(err_all)); } else if (rkt->rkt_state == RD_KAFKA_TOPIC_S_NOTEXISTS) { err_all = err; rd_kafka_dbg(rk, TOPIC, "PARTCNT", "Failing all %i unassigned messages in " "topic %.*s since topic does not exist: %s", rktp_ua->rktp_msgq.rkmq_msg_cnt, RD_KAFKAP_STR_PR(rkt->rkt_topic), rd_kafka_err2str(err_all)); } else { rd_kafka_dbg(rk, TOPIC, "PARTCNT", "Partitioning %i unassigned messages in " "topic %.*s to %"PRId32" partitions", rktp_ua->rktp_msgq.rkmq_msg_cnt, RD_KAFKAP_STR_PR(rkt->rkt_topic), rkt->rkt_partition_cnt); } rd_kafka_msgq_move(&uas, &rktp_ua->rktp_msgq); cnt = uas.rkmq_msg_cnt; rd_kafka_toppar_unlock(rktp_ua); TAILQ_FOREACH_SAFE(rkm, &uas.rkmq_msgs, rkm_link, tmp) { /* Fast-path for failing messages with forced partition or * when all messages are to fail. */ if (err_all || (rkm->rkm_partition != RD_KAFKA_PARTITION_UA && rkm->rkm_partition >= rkt->rkt_partition_cnt && rkt->rkt_state != RD_KAFKA_TOPIC_S_UNKNOWN)) { rd_kafka_msgq_enq(&failed, rkm); continue; } if (unlikely(rd_kafka_msg_partitioner(rkt, rkm, 0) != 0)) { /* Desired partition not available */ rd_kafka_msgq_enq(&failed, rkm); } } rd_kafka_dbg(rk, TOPIC, "UAS", "%i/%i messages were partitioned in topic %s", cnt - failed.rkmq_msg_cnt, cnt, rkt->rkt_topic->str); if (failed.rkmq_msg_cnt > 0) { /* Fail the messages */ rd_kafka_dbg(rk, TOPIC, "UAS", "%"PRId32"/%i messages failed partitioning " "in topic %s", failed.rkmq_msg_cnt, cnt, rkt->rkt_topic->str); rd_kafka_dr_msgq(rkt, &failed, err_all ? err_all : RD_KAFKA_RESP_ERR__UNKNOWN_PARTITION); } rd_kafka_toppar_destroy(rktp_ua); /* from get() */ } /** * @brief Mark topic as non-existent, unless metadata propagation configuration * disallows it. * * @param err Propagate non-existent topic using this error code. * If \p err is RD_KAFKA_RESP_ERR_TOPIC_EXCEPTION it means the * topic is invalid and no propagation delay will be used. * * @returns true if the topic was marked as non-existent, else false. * * @locks topic_wrlock() MUST be held. */ rd_bool_t rd_kafka_topic_set_notexists (rd_kafka_topic_t *rkt, rd_kafka_resp_err_t err) { rd_ts_t remains_us; rd_bool_t permanent = err == RD_KAFKA_RESP_ERR_TOPIC_EXCEPTION; if (unlikely(rd_kafka_terminating(rkt->rkt_rk))) { /* Dont update metadata while terminating. */ return rd_false; } rd_assert(err != RD_KAFKA_RESP_ERR_NO_ERROR); remains_us = (rkt->rkt_ts_create + (rkt->rkt_rk->rk_conf.metadata_propagation_max_ms * 1000)) - rkt->rkt_ts_metadata; if (!permanent && rkt->rkt_state == RD_KAFKA_TOPIC_S_UNKNOWN && remains_us > 0) { /* Still allowing topic metadata to propagate. */ rd_kafka_dbg(rkt->rkt_rk, TOPIC|RD_KAFKA_DBG_METADATA, "TOPICPROP", "Topic %.*s does not exist, allowing %dms " "for metadata propagation before marking topic " "as non-existent", RD_KAFKAP_STR_PR(rkt->rkt_topic), (int)(remains_us / 1000)); return rd_false; } rd_kafka_topic_set_state(rkt, RD_KAFKA_TOPIC_S_NOTEXISTS); rkt->rkt_flags &= ~RD_KAFKA_TOPIC_F_LEADER_UNAVAIL; /* Update number of partitions */ rd_kafka_topic_partition_cnt_update(rkt, 0); /* Purge messages with forced partition */ rd_kafka_topic_assign_uas(rkt, err); /* Propagate nonexistent topic info */ rd_kafka_topic_propagate_notexists(rkt, err); return rd_true; } /** * @brief Mark topic as errored, such as when topic authorization fails. * * @param err Propagate error using this error code. * * @returns true if the topic was marked as errored, else false. * * @locality any * @locks topic_wrlock() MUST be held. */ rd_bool_t rd_kafka_topic_set_error (rd_kafka_topic_t *rkt, rd_kafka_resp_err_t err) { if (unlikely(rd_kafka_terminating(rkt->rkt_rk))) { /* Dont update metadata while terminating. */ return rd_false; } rd_assert(err != RD_KAFKA_RESP_ERR_NO_ERROR); /* Same error, ignore. */ if (rkt->rkt_state == RD_KAFKA_TOPIC_S_ERROR && rkt->rkt_err == err) return rd_true; rd_kafka_dbg(rkt->rkt_rk, TOPIC, "TOPICERROR", "Topic %s has permanent error: %s", rkt->rkt_topic->str, rd_kafka_err2str(err)); rd_kafka_topic_set_state(rkt, RD_KAFKA_TOPIC_S_ERROR); rkt->rkt_err = err; /* Update number of partitions */ rd_kafka_topic_partition_cnt_update(rkt, 0); /* Purge messages with forced partition */ rd_kafka_topic_assign_uas(rkt, err); return rd_true; } /** * @brief Update a topic from metadata. * * @param ts_age absolute age (timestamp) of metadata. * @returns 1 if the number of partitions changed, 0 if not, and -1 if the * topic is unknown. * * @locks rd_kafka_*lock() MUST be held. */ static int rd_kafka_topic_metadata_update (rd_kafka_topic_t *rkt, const struct rd_kafka_metadata_topic *mdt, rd_ts_t ts_age) { rd_kafka_t *rk = rkt->rkt_rk; int upd = 0; int j; rd_kafka_broker_t **partbrokers; int leader_cnt = 0; int old_state; if (mdt->err != RD_KAFKA_RESP_ERR_NO_ERROR) rd_kafka_dbg(rk, TOPIC|RD_KAFKA_DBG_METADATA, "METADATA", "Error in metadata reply for " "topic %s (PartCnt %i): %s", rkt->rkt_topic->str, mdt->partition_cnt, rd_kafka_err2str(mdt->err)); if (unlikely(rd_kafka_terminating(rk))) { /* Dont update metadata while terminating, do this * after acquiring lock for proper synchronisation */ return -1; } /* Look up brokers before acquiring rkt lock to preserve lock order */ partbrokers = rd_malloc(mdt->partition_cnt * sizeof(*partbrokers)); for (j = 0 ; j < mdt->partition_cnt ; j++) { if (mdt->partitions[j].leader == -1) { partbrokers[j] = NULL; continue; } partbrokers[j] = rd_kafka_broker_find_by_nodeid(rk, mdt->partitions[j]. leader); } rd_kafka_topic_wrlock(rkt); old_state = rkt->rkt_state; rkt->rkt_ts_metadata = ts_age; /* Set topic state. * UNKNOWN_TOPIC_OR_PART may indicate that auto.create.topics failed */ if (mdt->err == RD_KAFKA_RESP_ERR_TOPIC_EXCEPTION/*invalid topic*/ || mdt->err == RD_KAFKA_RESP_ERR_UNKNOWN_TOPIC_OR_PART) rd_kafka_topic_set_notexists(rkt, mdt->err); else if (mdt->partition_cnt > 0) rd_kafka_topic_set_state(rkt, RD_KAFKA_TOPIC_S_EXISTS); else if (mdt->err) rd_kafka_topic_set_error(rkt, mdt->err); /* Update number of partitions, but not if there are * (possibly intermittent) errors (e.g., "Leader not available"). */ if (mdt->err == RD_KAFKA_RESP_ERR_NO_ERROR) { upd += rd_kafka_topic_partition_cnt_update(rkt, mdt->partition_cnt); /* If the metadata times out for a topic (because all brokers * are down) the state will transition to S_UNKNOWN. * When updated metadata is eventually received there might * not be any change to partition count or leader, * but there may still be messages in the UA partition that * needs to be assigned, so trigger an update for this case too. * Issue #1985. */ if (old_state == RD_KAFKA_TOPIC_S_UNKNOWN) upd++; } /* Update leader for each partition */ for (j = 0 ; j < mdt->partition_cnt ; j++) { int r; rd_kafka_broker_t *leader; rd_kafka_dbg(rk, TOPIC|RD_KAFKA_DBG_METADATA, "METADATA", " Topic %s partition %i Leader %"PRId32, rkt->rkt_topic->str, mdt->partitions[j].id, mdt->partitions[j].leader); leader = partbrokers[j]; partbrokers[j] = NULL; /* Update leader for partition */ r = rd_kafka_toppar_leader_update(rkt, mdt->partitions[j].id, mdt->partitions[j].leader, leader); upd += (r != 0 ? 1 : 0); if (leader) { if (r != -1) leader_cnt++; /* Drop reference to broker (from find()) */ rd_kafka_broker_destroy(leader); } } /* If all partitions have leaders we can turn off fast leader query. */ if (mdt->partition_cnt > 0 && leader_cnt == mdt->partition_cnt) rkt->rkt_flags &= ~RD_KAFKA_TOPIC_F_LEADER_UNAVAIL; if (mdt->err != RD_KAFKA_RESP_ERR_NO_ERROR && rkt->rkt_partition_cnt) { /* (Possibly intermittent) topic-wide error: * remove leaders for partitions */ for (j = 0 ; j < rkt->rkt_partition_cnt ; j++) { rd_kafka_toppar_t *rktp; if (!rkt->rkt_p[j]) continue; rktp = rkt->rkt_p[j]; rd_kafka_toppar_lock(rktp); rd_kafka_toppar_broker_delegate(rktp, NULL); rd_kafka_toppar_unlock(rktp); } } /* If there was an update to the partitions try to assign * unassigned messages to new partitions, or fail them */ if (upd > 0) rd_kafka_topic_assign_uas(rkt, mdt->err ? mdt->err : RD_KAFKA_RESP_ERR__UNKNOWN_TOPIC); rd_kafka_topic_wrunlock(rkt); /* Loose broker references */ for (j = 0 ; j < mdt->partition_cnt ; j++) if (partbrokers[j]) rd_kafka_broker_destroy(partbrokers[j]); rd_free(partbrokers); return upd; } /** * @brief Update topic by metadata, if topic is locally known. * @sa rd_kafka_topic_metadata_update() * @locks none */ int rd_kafka_topic_metadata_update2 (rd_kafka_broker_t *rkb, const struct rd_kafka_metadata_topic *mdt) { rd_kafka_topic_t *rkt; int r; rd_kafka_wrlock(rkb->rkb_rk); if (!(rkt = rd_kafka_topic_find(rkb->rkb_rk, mdt->topic, 0/*!lock*/))) { rd_kafka_wrunlock(rkb->rkb_rk); return -1; /* Ignore topics that we dont have locally. */ } r = rd_kafka_topic_metadata_update(rkt, mdt, rd_clock()); rd_kafka_wrunlock(rkb->rkb_rk); rd_kafka_topic_destroy0(rkt); /* from find() */ return r; } /** * @returns a list of all partitions (rktp's) for a topic. * @remark rd_kafka_topic_*lock() MUST be held. */ static rd_list_t *rd_kafka_topic_get_all_partitions (rd_kafka_topic_t *rkt) { rd_list_t *list; rd_kafka_toppar_t *rktp; int i; list = rd_list_new(rkt->rkt_partition_cnt + rd_list_cnt(&rkt->rkt_desp) + 1/*ua*/, NULL); for (i = 0 ; i < rkt->rkt_partition_cnt ; i++) rd_list_add(list, rd_kafka_toppar_keep(rkt->rkt_p[i])); RD_LIST_FOREACH(rktp, &rkt->rkt_desp, i) rd_list_add(list, rd_kafka_toppar_keep(rktp)); if (rkt->rkt_ua) rd_list_add(list, rd_kafka_toppar_keep(rkt->rkt_ua)); return list; } /** * Remove all partitions from a topic, including the ua. * Must only be called during rd_kafka_t termination. * * Locality: main thread */ void rd_kafka_topic_partitions_remove (rd_kafka_topic_t *rkt) { rd_kafka_toppar_t *rktp; rd_list_t *partitions; int i; /* Purge messages for all partitions outside the topic_wrlock since * a message can hold a reference to the topic_t and thus * would trigger a recursive lock dead-lock. */ rd_kafka_topic_rdlock(rkt); partitions = rd_kafka_topic_get_all_partitions(rkt); rd_kafka_topic_rdunlock(rkt); RD_LIST_FOREACH(rktp, partitions, i) { rd_kafka_toppar_lock(rktp); rd_kafka_msgq_purge(rkt->rkt_rk, &rktp->rktp_msgq); rd_kafka_toppar_purge_and_disable_queues(rktp); rd_kafka_toppar_unlock(rktp); rd_kafka_toppar_destroy(rktp); } rd_list_destroy(partitions); rd_kafka_topic_keep(rkt); rd_kafka_topic_wrlock(rkt); /* Setting the partition count to 0 moves all partitions to * the desired list (rktp_desp). */ rd_kafka_topic_partition_cnt_update(rkt, 0); /* Now clean out the desired partitions list. * Use reverse traversal to avoid excessive memory shuffling * in rd_list_remove() */ RD_LIST_FOREACH_REVERSE(rktp, &rkt->rkt_desp, i) { /* Keep a reference while deleting from desired list */ rd_kafka_toppar_keep(rktp); rd_kafka_toppar_lock(rktp); rd_kafka_toppar_desired_del(rktp); rd_kafka_toppar_unlock(rktp); rd_kafka_toppar_destroy(rktp); } rd_kafka_assert(rkt->rkt_rk, rkt->rkt_partition_cnt == 0); if (rkt->rkt_p) rd_free(rkt->rkt_p); rkt->rkt_p = NULL; rkt->rkt_partition_cnt = 0; if ((rktp = rkt->rkt_ua)) { rkt->rkt_ua = NULL; rd_kafka_toppar_destroy(rktp); } rd_kafka_topic_wrunlock(rkt); rd_kafka_topic_destroy0(rkt); } /** * @returns the broker state (as a human readable string) if a query * for the partition leader is necessary, else NULL. * @locality any * @locks rd_kafka_toppar_lock MUST be held */ static const char *rd_kafka_toppar_needs_query (rd_kafka_t *rk, rd_kafka_toppar_t *rktp) { int broker_state; if (!rktp->rktp_broker) return "not delegated"; if (rktp->rktp_broker->rkb_source == RD_KAFKA_INTERNAL) return "internal"; broker_state = rd_kafka_broker_get_state(rktp->rktp_broker); if (broker_state >= RD_KAFKA_BROKER_STATE_UP) return NULL; if (!rk->rk_conf.sparse_connections) return "down"; /* Partition assigned to broker but broker does not * need a persistent connection, this typically means * the partition is not being fetched or not being produced to, * so there is no need to re-query the leader. */ if (broker_state == RD_KAFKA_BROKER_STATE_INIT) return NULL; /* This is most likely a persistent broker, * which means the partition leader should probably * be re-queried to see if it needs changing. */ return "down"; } /** * @brief Scan all topics and partitions for: * - timed out messages in UA partitions. * - topics that needs to be created on the broker. * - topics who's metadata is too old. * - partitions with unknown leaders that require leader query. * * @locality rdkafka main thread */ void rd_kafka_topic_scan_all (rd_kafka_t *rk, rd_ts_t now) { rd_kafka_topic_t *rkt; rd_kafka_toppar_t *rktp; rd_list_t query_topics; rd_list_init(&query_topics, 0, rd_free); rd_kafka_rdlock(rk); TAILQ_FOREACH(rkt, &rk->rk_topics, rkt_link) { int p; int query_this = 0; rd_kafka_msgq_t timedout = RD_KAFKA_MSGQ_INITIALIZER(timedout); rd_kafka_topic_wrlock(rkt); /* Check if metadata information has timed out. */ if (rkt->rkt_state != RD_KAFKA_TOPIC_S_UNKNOWN && !rd_kafka_metadata_cache_topic_get( rk, rkt->rkt_topic->str, 1/*only valid*/)) { rd_kafka_dbg(rk, TOPIC, "NOINFO", "Topic %s metadata information timed out " "(%"PRId64"ms old)", rkt->rkt_topic->str, (rd_clock() - rkt->rkt_ts_metadata)/1000); rd_kafka_topic_set_state(rkt, RD_KAFKA_TOPIC_S_UNKNOWN); query_this = 1; } else if (rkt->rkt_state == RD_KAFKA_TOPIC_S_UNKNOWN) { rd_kafka_dbg(rk, TOPIC, "NOINFO", "Topic %s metadata information unknown", rkt->rkt_topic->str); query_this = 1; } /* Just need a read-lock from here on. */ rd_kafka_topic_wrunlock(rkt); rd_kafka_topic_rdlock(rkt); if (rkt->rkt_partition_cnt == 0) { /* If this topic is unknown by brokers try * to create it by sending a topic-specific * metadata request. * This requires "auto.create.topics.enable=true" * on the brokers. */ rd_kafka_dbg(rk, TOPIC, "NOINFO", "Topic %s partition count is zero: " "should refresh metadata", rkt->rkt_topic->str); query_this = 1; } else if (!rd_list_empty(&rkt->rkt_desp) && rd_interval_immediate(&rkt->rkt_desp_refresh_intvl, 10*1000*1000, 0) > 0) { /* Query topic metadata if there are * desired (non-existent) partitions. * At most every 10 seconds. */ rd_kafka_dbg(rk, TOPIC, "DESIRED", "Topic %s has %d desired partition(s): " "should refresh metadata", rkt->rkt_topic->str, rd_list_cnt(&rkt->rkt_desp)); query_this = 1; } for (p = RD_KAFKA_PARTITION_UA ; p < rkt->rkt_partition_cnt ; p++) { if (!(rktp = rd_kafka_toppar_get( rkt, p, p == RD_KAFKA_PARTITION_UA ? rd_true : rd_false))) continue; rd_kafka_toppar_lock(rktp); /* Check that partition is delegated to a broker that * is up, else add topic to query list. */ if (p != RD_KAFKA_PARTITION_UA) { const char *leader_reason = rd_kafka_toppar_needs_query(rk, rktp); if (leader_reason) { rd_kafka_dbg(rk, TOPIC, "QRYLEADER", "Topic %s [%"PRId32"]: " "broker is %s: re-query", rkt->rkt_topic->str, rktp->rktp_partition, leader_reason); query_this = 1; } } else { if (rk->rk_type == RD_KAFKA_PRODUCER) { /* Scan UA partition for message * timeouts. * Proper partitions are scanned by * their toppar broker thread. */ rd_kafka_msgq_age_scan(rktp, &rktp->rktp_msgq, &timedout, now, NULL); } } rd_kafka_toppar_unlock(rktp); rd_kafka_toppar_destroy(rktp); } rd_kafka_topic_rdunlock(rkt); /* Propagate delivery reports for timed out messages */ if (rd_kafka_msgq_len(&timedout) > 0) { rd_kafka_dbg(rk, MSG, "TIMEOUT", "%s: %d message(s) timed out", rkt->rkt_topic->str, rd_kafka_msgq_len(&timedout)); rd_kafka_dr_msgq(rkt, &timedout, RD_KAFKA_RESP_ERR__MSG_TIMED_OUT); } /* Need to re-query this topic's leader. */ if (query_this && !rd_list_find(&query_topics, rkt->rkt_topic->str, (void *)strcmp)) rd_list_add(&query_topics, rd_strdup(rkt->rkt_topic->str)); } rd_kafka_rdunlock(rk); if (!rd_list_empty(&query_topics)) rd_kafka_metadata_refresh_topics( rk, NULL, &query_topics, rd_true/*force even if cached * info exists*/, rk->rk_conf.allow_auto_create_topics, rd_false/*!cgrp_update*/, "refresh unavailable topics"); rd_list_destroy(&query_topics); } /** * Locks: rd_kafka_topic_*lock() must be held. */ int rd_kafka_topic_partition_available (const rd_kafka_topic_t *app_rkt, int32_t partition) { int avail; rd_kafka_toppar_t *rktp; rd_kafka_broker_t *rkb; /* This API must only be called from a partitioner and the * partitioner is always passed a proper topic */ rd_assert(!rd_kafka_rkt_is_lw(app_rkt)); rktp = rd_kafka_toppar_get(app_rkt, partition, 0/*no ua-on-miss*/); if (unlikely(!rktp)) return 0; rkb = rd_kafka_toppar_broker(rktp, 1/*proper broker*/); avail = rkb ? 1 : 0; if (rkb) rd_kafka_broker_destroy(rkb); rd_kafka_toppar_destroy(rktp); return avail; } void *rd_kafka_topic_opaque (const rd_kafka_topic_t *app_rkt) { const rd_kafka_lwtopic_t *lrkt; lrkt = rd_kafka_rkt_get_lw((rd_kafka_topic_t *)app_rkt); if (unlikely(lrkt != NULL)) { void *opaque; rd_kafka_topic_t *rkt; if (!(rkt = rd_kafka_topic_find(lrkt->lrkt_rk, lrkt->lrkt_topic, 1/*lock*/))) return NULL; opaque = rkt->rkt_conf.opaque; rd_kafka_topic_destroy0(rkt); /* loose refcnt from find() */ return opaque; } return app_rkt->rkt_conf.opaque; } int rd_kafka_topic_info_cmp (const void *_a, const void *_b) { const rd_kafka_topic_info_t *a = _a, *b = _b; int r; if ((r = strcmp(a->topic, b->topic))) return r; return RD_CMP(a->partition_cnt, b->partition_cnt); } /** * @brief string compare two topics. * * @param _a topic string (type char *) * @param _b rd_kafka_topic_info_t * pointer. */ int rd_kafka_topic_info_topic_cmp (const void *_a, const void *_b) { const char *a = _a; const rd_kafka_topic_info_t *b = _b; return strcmp(a, b->topic); } /** * Allocate new topic_info. * \p topic is copied. */ rd_kafka_topic_info_t *rd_kafka_topic_info_new (const char *topic, int partition_cnt) { rd_kafka_topic_info_t *ti; size_t tlen = strlen(topic) + 1; /* Allocate space for the topic along with the struct */ ti = rd_malloc(sizeof(*ti) + tlen); ti->topic = (char *)(ti+1); memcpy((char *)ti->topic, topic, tlen); ti->partition_cnt = partition_cnt; return ti; } /** * Destroy/free topic_info */ void rd_kafka_topic_info_destroy (rd_kafka_topic_info_t *ti) { rd_free(ti); } /** * @brief Match \p topic to \p pattern. * * If pattern begins with "^" it is considered a regexp, * otherwise a simple string comparison is performed. * * @returns 1 on match, else 0. */ int rd_kafka_topic_match (rd_kafka_t *rk, const char *pattern, const char *topic) { char errstr[128]; if (*pattern == '^') { int r = rd_regex_match(pattern, topic, errstr, sizeof(errstr)); if (unlikely(r == -1)) rd_kafka_dbg(rk, TOPIC, "TOPICREGEX", "Topic \"%s\" regex \"%s\" " "matching failed: %s", topic, pattern, errstr); return r == 1; } else return !strcmp(pattern, topic); } /** * @brief Trigger broker metadata query for topic leader. * * @locks none */ void rd_kafka_topic_leader_query0 (rd_kafka_t *rk, rd_kafka_topic_t *rkt, int do_rk_lock) { rd_list_t topics; rd_list_init(&topics, 1, rd_free); rd_list_add(&topics, rd_strdup(rkt->rkt_topic->str)); rd_kafka_metadata_refresh_topics(rk, NULL, &topics, rd_false/*dont force*/, rk->rk_conf.allow_auto_create_topics, rd_false/*!cgrp_update*/, "leader query"); rd_list_destroy(&topics); } /** * @brief Populate list \p topics with the topic names (strdupped char *) of * all locally known or cached topics. * * @param cache_cntp is an optional pointer to an int that will be set to the * number of entries added to \p topics from the * metadata cache. * @remark \p rk lock MUST NOT be held */ void rd_kafka_local_topics_to_list (rd_kafka_t *rk, rd_list_t *topics, int *cache_cntp) { rd_kafka_topic_t *rkt; int cache_cnt; rd_kafka_rdlock(rk); rd_list_grow(topics, rk->rk_topic_cnt); TAILQ_FOREACH(rkt, &rk->rk_topics, rkt_link) rd_list_add(topics, rd_strdup(rkt->rkt_topic->str)); cache_cnt = rd_kafka_metadata_cache_topics_to_list(rk, topics); if (cache_cntp) *cache_cntp = cache_cnt; rd_kafka_rdunlock(rk); } /** * @brief Unit test helper to set a topic's state to EXISTS * with the given number of partitions. */ void rd_ut_kafka_topic_set_topic_exists (rd_kafka_topic_t *rkt, int partition_cnt, int32_t leader_id) { struct rd_kafka_metadata_topic mdt = { .topic = (char *)rkt->rkt_topic->str, .partition_cnt = partition_cnt }; int i; mdt.partitions = rd_alloca(sizeof(*mdt.partitions) * partition_cnt); for (i = 0 ; i < partition_cnt ; i++) { memset(&mdt.partitions[i], 0, sizeof(mdt.partitions[i])); mdt.partitions[i].id = i; mdt.partitions[i].leader = leader_id; } rd_kafka_wrlock(rkt->rkt_rk); rd_kafka_metadata_cache_topic_update(rkt->rkt_rk, &mdt, rd_true); rd_kafka_topic_metadata_update(rkt, &mdt, rd_clock()); rd_kafka_wrunlock(rkt->rkt_rk); }