/** * Copyright (c) 2021 OceanBase * OceanBase CE is licensed under Mulan PubL v2. * You can use this software according to the terms and conditions of the Mulan PubL v2. * You may obtain a copy of Mulan PubL v2 at: * http://license.coscl.org.cn/MulanPubL-2.0 * THIS SOFTWARE IS PROVIDED ON AN "AS IS" BASIS, WITHOUT WARRANTIES OF ANY KIND, * EITHER EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO NON-INFRINGEMENT, * MERCHANTABILITY OR FIT FOR A PARTICULAR PURPOSE. * See the Mulan PubL v2 for more details. */ #define USING_LOG_PREFIX CLOG #include "ob_partition_log_service.h" #include #include "share/ob_lease_struct.h" #include "share/allocator/ob_tenant_mutil_allocator.h" #include "lib/objectpool/ob_concurrency_objpool.h" #include "lib/io/ob_io_manager.h" #include "share/ob_cluster_version.h" #include "share/ob_multi_cluster_util.h" #include "election/ob_election.h" #include "election/ob_election_mgr.h" #include "election/ob_election_priority.h" #include "storage/ob_storage_log_type.h" #include "storage/transaction/ob_trans_log.h" #include "storage/transaction/ob_trans_ctx.h" #include "storage/transaction/ob_trans_log.h" #include "observer/ob_server.h" #include "ob_fetch_log_engine.h" #include "ob_i_log_engine.h" #include "ob_log_event_task_V2.h" #include "ob_log_replay_engine_wrapper.h" #include "ob_log_req.h" #include "ob_remote_log_query_engine.h" #include "common/ob_clock_generator.h" #include "storage/transaction/ob_weak_read_util.h" #include "archive/ob_archive_mgr.h" #include "archive/ob_archive_restore_engine.h" #include "observer/ob_server_event_history_table_operator.h" #include "share/ob_server_blacklist.h" #include "lib/resource/ob_resource_mgr.h" #include "share/ob_bg_thread_monitor.h" namespace oceanbase { using namespace common; using namespace share; using namespace archive; using namespace transaction; using namespace election; namespace clog { void ObCandidateInfo::reset() { role_ = INVALID_ROLE; is_tenant_active_ = false; is_dest_splitting_ = false; on_revoke_blacklist_ = false; on_loop_blacklist_ = false; replica_type_ = REPLICA_TYPE_MAX; server_status_ = share::RSS_INVALID; is_clog_disk_full_ = false; is_offline_ = false; is_need_rebuild_ = false; is_partition_candidate_ = false; is_disk_error_ = false; memstore_percent_ = -1; } int ObCursorArrayCache::init() { int ret = OB_SUCCESS; for (int64_t i = 0; i < SCAN_THREAD_CNT; i++) { cursor_start_log_id_[i] = OB_INVALID_ID; cursor_end_log_id_[i] = OB_INVALID_ID; } return ret; } ObPartitionLogService::ObPartitionLogService() : is_inited_(false), lock_(ObLatchIds::PARTITION_LOG_LOCK), sw_(), ms_task_mgr_(), state_mgr_(), reconfirm_(), log_engine_(NULL), replay_engine_(NULL), election_(NULL), election_mgr_(NULL), partition_service_(NULL), partition_key_(), mm_(), cascading_mgr_(), restore_mgr_(), broadcast_info_mgr_(NULL), fetch_log_engine_(NULL), alloc_mgr_(NULL), event_scheduler_(NULL), self_(), checksum_(), saved_base_storage_info_(), zone_priority_(UINT64_MAX), is_candidate_(true), // default true for recording change last_rebuild_time_(OB_INVALID_TIMESTAMP), ack_log_time_(OB_INVALID_TIMESTAMP), recv_child_next_ilog_ts_time_(OB_INVALID_TIMESTAMP), submit_log_mc_time_(OB_INVALID_TIMESTAMP), in_sync_check_time_(OB_INVALID_TIMESTAMP), update_next_replay_log_time_(OB_INVALID_TIMESTAMP), need_rebuild_(false), send_reject_msg_warn_time_(OB_INVALID_TIMESTAMP), leader_max_log_interval_(OB_INVALID_TIMESTAMP), cannot_slide_sw_interval_(OB_INVALID_TIMESTAMP), remote_log_query_engine_(NULL), archive_mgr_(NULL), log_archive_status_(), is_in_leader_member_list_(true), last_leader_keepalive_time_(OB_INVALID_TIMESTAMP), last_check_state_time_(OB_INVALID_TIMESTAMP), event_task_lock_(), has_event_task_(false), max_flushed_ilog_id_(0), scan_confirmed_log_cnt_(0), election_has_removed_(true), cursor_array_cache_(NULL) {} int ObPartitionLogService::init(ObILogEngine* log_engine, ObLogReplayEngineWrapper* replay_engine, ObIFetchLogEngine* fetch_log_engine, election::ObIElectionMgr* election_mgr, storage::ObPartitionService* partition_service, ObILogCallbackEngine* cb_engine, common::ObILogAllocator* alloc_mgr, ObLogEventScheduler* event_scheduler, const ObAddr& self, const ObVersion& data_version, const ObPartitionKey& partition_key, const ObReplicaType replica_type, const ObReplicaProperty replica_property, const ObBaseStorageInfo& base_storage_info, const int16_t archive_restore_state, const bool need_skip_mlist_check, ObRemoteLogQueryEngine* remote_log_query_engine, ObArchiveMgr* archive_mgr, ObArchiveRestoreEngine* archive_restore_engine, const enum ObCreatePlsType& create_pls_type) { int ret = OB_SUCCESS; if (is_inited_) { ret = OB_INIT_TWICE; } else if (OB_ISNULL(log_engine) || OB_ISNULL(replay_engine) || OB_ISNULL(fetch_log_engine) || OB_ISNULL(election_mgr) || OB_ISNULL(partition_service) || OB_ISNULL(cb_engine) || OB_ISNULL(alloc_mgr) || OB_ISNULL(event_scheduler) || !self.is_valid() || !data_version.is_valid() || !partition_key.is_valid() || OB_ISNULL(remote_log_query_engine) || OB_ISNULL(archive_mgr) || OB_ISNULL(archive_restore_engine)) { ret = OB_INVALID_ARGUMENT; CLOG_LOG(WARN, "invalid argument", K(partition_key), KP(archive_mgr), KP(archive_restore_engine)); } else if (OB_FAIL(checksum_.init(base_storage_info.get_last_replay_log_id() + 1, base_storage_info.get_accumulate_checksum(), partition_key))) { CLOG_LOG(WARN, "checksum init failed", K(partition_key), K(ret)); } else if (OB_FAIL( election_mgr->add_partition(partition_key, base_storage_info.get_replica_num(), this, election_))) { CLOG_LOG(WARN, "election_mgr->add_partition failed", K(partition_key), K(ret)); } else if (OB_FAIL(state_mgr_.init(&sw_, &reconfirm_, log_engine, &mm_, &cascading_mgr_, &restore_mgr_, election_, replay_engine, partition_service, alloc_mgr, self, base_storage_info.get_proposal_id(), data_version, partition_key, create_pls_type))) { CLOG_LOG(WARN, "state_mgr init failed", K(partition_key), K(ret)); } else if (OB_FAIL(ms_task_mgr_.init(log_engine, &state_mgr_, &mm_, &cascading_mgr_, cb_engine, &restore_mgr_, partition_service, alloc_mgr, self, partition_key))) { CLOG_LOG(WARN, "ms_task_mgr init failed", K(partition_key), K(ret)); } else if (OB_FAIL(reconfirm_.init(&sw_, &state_mgr_, &mm_, &cascading_mgr_, log_engine, alloc_mgr, partition_key, self, base_storage_info.get_submit_timestamp()))) { CLOG_LOG(WARN, "reconfirm init failed", K(partition_key), K(ret)); } else if (OB_FAIL(sw_.init(replay_engine, log_engine, &state_mgr_, &mm_, &cascading_mgr_, partition_service, alloc_mgr, &checksum_, cb_engine, &restore_mgr_, self, partition_key, base_storage_info.get_epoch_id(), base_storage_info.get_last_replay_log_id(), base_storage_info.get_submit_timestamp(), base_storage_info.get_accumulate_checksum()))) { CLOG_LOG(WARN, "sliding_window init failed", K(partition_key), K(ret)); } else if (OB_FAIL(restore_mgr_.init(partition_service, archive_restore_engine, &sw_, log_engine, &mm_, partition_key, self, archive_restore_state))) { CLOG_LOG(WARN, "restore_mgr init failed", K(partition_key), K(ret)); } else if (OB_FAIL(mm_.init(base_storage_info.get_curr_member_list(), base_storage_info.get_membership_timestamp(), base_storage_info.get_membership_log_id(), base_storage_info.get_ms_proposal_id(), replica_type, replica_property, base_storage_info.get_replica_num(), need_skip_mlist_check, self, partition_key, &sw_, &ms_task_mgr_, &state_mgr_, &cascading_mgr_, cb_engine, partition_service, alloc_mgr))) { CLOG_LOG(WARN, "membership_mgr init failed", K(partition_key), K(base_storage_info), K(ret)); } else if (OB_FAIL( cascading_mgr_.init(self, partition_key, &sw_, &state_mgr_, &mm_, log_engine, partition_service))) { CLOG_LOG(WARN, "cascading_mgr_ init failed", K(partition_key), K(ret)); } else if (OB_FAIL(saved_base_storage_info_.deep_copy(base_storage_info))) { CLOG_LOG(WARN, "base_storage_info deep_copy failed", K(partition_key), K(ret)); } else if (REPLICA_TYPE_LOGONLY == replica_type && OB_FAIL(alloc_broadcast_info_mgr_(partition_key))) { CLOG_LOG(WARN, "alloc_broadcast_info_mgr_ failed", K(partition_key), K(ret)); } else if (ASSIGN_PARTITION == create_pls_type && OB_FAIL(alloc_cursor_array_cache_(partition_key))) { CLOG_LOG(WARN, "alloc_cursor_array_cache_ failed", K(partition_key), K(ret)); } else { log_engine_ = log_engine; replay_engine_ = replay_engine; election_mgr_ = election_mgr; partition_service_ = partition_service; partition_key_ = partition_key; fetch_log_engine_ = fetch_log_engine; alloc_mgr_ = alloc_mgr; event_scheduler_ = event_scheduler; self_ = self; remote_log_query_engine_ = remote_log_query_engine; archive_mgr_ = archive_mgr; max_flushed_ilog_id_ = 0; scan_confirmed_log_cnt_ = 0; // priority of log replica include encrypted log replica should be initialize with UINT64_MAX, // while other replica types with 0. const uint64_t zone_priority = ObReplicaTypeCheck::is_log_replica(replica_type) ? UINT64_MAX : 0; ATOMIC_STORE(&zone_priority_, zone_priority); is_inited_ = true; election_has_removed_ = false; } if (OB_SUCCESS != ret && !is_inited_) { // election obj need to be removed when pls init failed // state_mgr_ need to destroy before remove election, because it holds election pointer if (state_mgr_.is_inited()) { state_mgr_.destroy(); } // remove election int tmp_ret = OB_SUCCESS; if (NULL != election_mgr && NULL != election_ && OB_SUCCESS != (tmp_ret = election_mgr->remove_partition(partition_key))) { CLOG_LOG(WARN, "remove_partition from election_mgr failed", K(tmp_ret), K(partition_key)); } // revert election if (NULL != election_mgr && NULL != election_) { election_mgr->revert_election(election_); election_ = NULL; } else { CLOG_LOG(WARN, "revert election to election_mgr failed", K_(partition_key), KP(election_mgr), KP_(election)); } free_cursor_array_cache_(); free_broadcast_info_mgr_(); } FLOG_INFO("ObPartitionLogService init finished", K_(partition_key), K(ret), K(self), K(base_storage_info), K_(election_has_removed), K_(election), KP(this)); return ret; } int ObPartitionLogService::get_log_id_timestamp(const int64_t base_timestamp, ObLogMeta& log_meta) { int ret = OB_SUCCESS; #ifdef ERRSIM static int64_t retry_count = 1; ret = E(EventTable::EN_BIG_ROW_REPLAY_FOR_MINORING) OB_SUCCESS; if (OB_SUCCESS != ret) { ATOMIC_FAA(&retry_count, 1); if (0 == (retry_count % 3)) { ret = OB_SUCCESS; } else { // ERRSIM: make retry times at least 3 TRANS_LOG(WARN, "get log id and timestamp need retry", K(retry_count)); return ret; } } #endif if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (base_timestamp <= 0) { ret = OB_INVALID_ARGUMENT; CLOG_LOG(WARN, "invalid argument", K(ret), K(base_timestamp)); } else if (!log_engine_->is_disk_space_enough()) { ret = OB_LOG_OUTOF_DISK_SPACE; if (REACH_TIME_INTERVAL(1000 * 1000)) { CLOG_LOG(WARN, "log outof disk space", K(ret), K(partition_key_)); } } else if (lock_.try_rdlock()) { uint64_t log_id = 0; int64_t timestamp = 0; if (OB_FAIL(state_mgr_.check_role_leader_and_state())) { CLOG_LOG(WARN, "check_role_leader_and_state false", K_(partition_key), K(ret)); } else if (state_mgr_.is_switching_cluster_replica(partition_key_.get_table_id())) { // non-private table's leader is in switching state, return -4203 to trigger retry in transaction module ret = OB_EAGAIN; } else if (!state_mgr_.can_submit_log()) { ret = OB_NOT_MASTER; CLOG_LOG(WARN, "can_submit_log return false", K_(partition_key), K(ret), "role", state_mgr_.get_role(), "state", state_mgr_.get_state()); } else if (!mm_.is_state_init() || state_mgr_.is_pre_member_changing()) { if (partition_reach_time_interval(2 * 1000, submit_log_mc_time_)) { CLOG_LOG(INFO, "member change is going on", K_(partition_key), K(mm_.is_state_init()), K(state_mgr_.is_pre_member_changing())); } ret = OB_EAGAIN; } else if (OB_FAIL(sw_.alloc_log_id(base_timestamp, log_id, timestamp))) { if (OB_EAGAIN == ret) { ret = OB_TOO_LARGE_LOG_ID; } } else if (OB_FAIL(log_meta.set(log_id, timestamp, state_mgr_.get_proposal_id()))) { CLOG_LOG(WARN, "set log meta failed", K(ret), K(log_id), K(timestamp), K(state_mgr_.get_proposal_id())); } else { } lock_.rdunlock(); } else { ret = OB_EAGAIN; } return ret; } int ObPartitionLogService::submit_aggre_log(ObAggreBuffer* buffer, const int64_t base_timestamp) { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (!log_engine_->is_disk_space_enough()) { ret = OB_LOG_OUTOF_DISK_SPACE; if (REACH_TIME_INTERVAL(1000 * 1000)) { CLOG_LOG(WARN, "log outof disk space", K(ret), K(partition_key_)); } } else if (lock_.try_rdlock()) { if (OB_FAIL(state_mgr_.check_role_leader_and_state())) { CLOG_LOG(WARN, "check_role_leader_and_state false", K_(partition_key), K(ret)); } else if (state_mgr_.is_switching_cluster_replica(partition_key_.get_table_id())) { // non-private table's leader is in switching state, return -4203 to trigger retry in transaction module ret = OB_EAGAIN; } else if (!state_mgr_.can_submit_log()) { ret = OB_NOT_MASTER; CLOG_LOG(WARN, "can_submit_log return false", K_(partition_key), K(ret), "role", state_mgr_.get_role(), "state", state_mgr_.get_state()); } else if (!mm_.is_state_init() || state_mgr_.is_pre_member_changing()) { if (partition_reach_time_interval(2 * 1000, submit_log_mc_time_)) { CLOG_LOG(INFO, "member change is going on", K_(partition_key), K(mm_.is_state_init()), K(state_mgr_.is_pre_member_changing())); } ret = OB_EAGAIN; } else if (OB_FAIL(sw_.submit_aggre_log(buffer, base_timestamp))) { if (REACH_TIME_INTERVAL(1000 * 1000)) { CLOG_LOG(WARN, "submit_log failed", K(ret), K_(partition_key), "role", state_mgr_.get_role(), "state", state_mgr_.get_state()); } } if (OB_ALLOCATE_MEMORY_FAILED == ret) { int tmp_ret = OB_SUCCESS; const uint32_t revoke_type = ObElection::RevokeType::SUBMIT_LOG_MEMORY_ALLOC_FAIL; if (OB_SUCCESS != (tmp_ret = election_mgr_->leader_revoke(partition_key_, revoke_type))) { CLOG_LOG(ERROR, "election_mgr_ leader_revoke failed", K(ret), K(tmp_ret), K(partition_key_), K(revoke_type)); } } lock_.rdunlock(); } else { ret = OB_EAGAIN; } return ret; } int ObPartitionLogService::submit_log(const char* buff, const int64_t size, const int64_t base_timestamp, ObISubmitLogCb* submit_cb, const bool is_trans_log, uint64_t& log_id, int64_t& log_timestamp) { int ret = OB_SUCCESS; const ObLogType log_type = OB_LOG_SUBMIT; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (OB_ISNULL(buff) || size > OB_MAX_LOG_ALLOWED_SIZE || base_timestamp < 0 || base_timestamp > INT64_MAX / 2 || OB_ISNULL(submit_cb)) { ret = OB_INVALID_ARGUMENT; CLOG_LOG(WARN, "invalid argument", K(ret), K_(partition_key), KP(buff), K(size), K(base_timestamp), KP(submit_cb)); } else if (!log_engine_->is_disk_space_enough()) { ret = OB_LOG_OUTOF_DISK_SPACE; if (REACH_TIME_INTERVAL(1000 * 1000)) { CLOG_LOG(WARN, "log outof disk space", K(ret), K(partition_key_)); } } else if (lock_.try_rdlock()) { if (NULL != submit_cb) { submit_cb->base_class_reset(); } if (OB_FAIL(state_mgr_.check_role_leader_and_state())) { CLOG_LOG(WARN, "check_role_leader_and_state false", K_(partition_key), K(ret)); } else if (state_mgr_.is_switching_cluster_replica(partition_key_.get_table_id())) { // non-private table's leader is in switching state, return -4203 to trigger retry in transaction module ret = OB_EAGAIN; } else if (!state_mgr_.can_submit_log()) { ret = OB_NOT_MASTER; CLOG_LOG(WARN, "can_submit_log return false", K_(partition_key), K(ret), "role", state_mgr_.get_role(), "state", state_mgr_.get_state()); } else if (!mm_.is_state_init() || state_mgr_.is_pre_member_changing()) { if (partition_reach_time_interval(2 * 1000, submit_log_mc_time_)) { CLOG_LOG(INFO, "member change is going on", K_(partition_key), K(mm_.is_state_init()), K(state_mgr_.is_pre_member_changing())); } ret = OB_EAGAIN; } else if (OB_FAIL(sw_.submit_log( log_type, buff, size, base_timestamp, is_trans_log, submit_cb, log_id, log_timestamp))) { const int tmp_ret = ret; if (OB_ALLOCATE_MEMORY_FAILED != ret) { ret = OB_EAGAIN; } if (REACH_TIME_INTERVAL(1000 * 1000)) { CLOG_LOG(WARN, "submit_log failed", K(ret), K(tmp_ret), K_(partition_key), KP(buff), K(size), "role", state_mgr_.get_role(), "state", state_mgr_.get_state()); } } if (OB_ALLOCATE_MEMORY_FAILED == ret) { int tmp_ret = OB_SUCCESS; const uint32_t revoke_type = ObElection::RevokeType::SUBMIT_LOG_MEMORY_ALLOC_FAIL; if (OB_SUCCESS != (tmp_ret = election_mgr_->leader_revoke(partition_key_, revoke_type))) { CLOG_LOG(ERROR, "election_mgr_ leader_revoke failed", K(ret), K(tmp_ret), K(partition_key_), K(revoke_type)); } } lock_.rdunlock(); } else { ret = OB_EAGAIN; } if (OB_FAIL(ret) && OB_NOT_INIT != ret && OB_INVALID_ARGUMENT != ret && OB_NOT_MASTER != ret && OB_EAGAIN != ret && OB_ALLOCATE_MEMORY_FAILED != ret) { CLOG_LOG(ERROR, "submit_log failed", K(ret), K_(partition_key), KP(buff), K(size), K(base_timestamp), K(is_trans_log), "role", state_mgr_.get_role(), "state", state_mgr_.get_state()); } return ret; } int ObPartitionLogService::get_role(common::ObRole& role) const { // this func returns real role int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else { RLockGuard guard(lock_); role = FOLLOWER; if (!restore_mgr_.is_archive_restoring()) { int64_t unused_epoch = 0; ObTsWindows unused_windows; if (OB_SUCCESS == get_role_unlock(unused_epoch, unused_windows)) { // LEADER or STANDBY_LEADER or RESTORE_LEADER, and lease is valid role = state_mgr_.get_role(); } else { // lease is expired or FOLLOWER role role = FOLLOWER; } } else { role = restore_mgr_.get_role(); } } return ret; } int ObPartitionLogService::get_role_unsafe(int64_t& leader_epoch, ObTsWindows& changing_leader_windows) const { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (!state_mgr_.is_leader_active() || state_mgr_.is_offline()) { ret = OB_NOT_MASTER; } else if (state_mgr_.is_changing_leader() && !check_election_leader_(leader_epoch, changing_leader_windows)) { // it is changing leader or lease is expired ret = OB_NOT_MASTER; } else { leader_epoch = state_mgr_.get_leader_epoch(); if (!election::ObElection::is_valid_leader_epoch(leader_epoch)) { // leader_epoch is invalid ret = OB_NOT_MASTER; TRANS_LOG(WARN, "leader epoch not big than 0, unexpected error", K(ret), K(leader_epoch)); } } return ret; } int ObPartitionLogService::get_role_unlock(int64_t& leader_epoch, ObTsWindows& changing_leader_windows) const { // return -4038 when state is not ACTIVE or role is not LEADER, STANDBY_LEADER or RESTORE_LEADER int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (OB_SUCCESS != (ret = state_mgr_.check_role_elect_leader_and_state())) { ret = OB_NOT_MASTER; } else if (!check_election_leader_(leader_epoch, changing_leader_windows)) { ret = OB_NOT_MASTER; } else { ret = OB_SUCCESS; } return ret; } int ObPartitionLogService::get_role_and_last_leader_active_time(common::ObRole& role, int64_t& timestamp) const { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else { RLockGuard guard(lock_); role = FOLLOWER; timestamp = OB_INVALID_TIMESTAMP; if (!restore_mgr_.is_archive_restoring()) { int64_t unused_epoch = 0; ObTsWindows unused_windows; if (OB_SUCC(get_role_unlock(unused_epoch, unused_windows))) { role = state_mgr_.get_role(); } else if (OB_NOT_MASTER == ret) { ret = OB_SUCCESS; } else { // do nothing } timestamp = state_mgr_.get_last_leader_active_time(); } else { role = restore_mgr_.get_role(); timestamp = restore_mgr_.get_last_takeover_time(); } } return ret; } int ObPartitionLogService::get_role_and_leader_epoch(common::ObRole& role, int64_t& leader_epoch) { int64_t unused_takeover_time = 0; return get_role_and_leader_epoch(role, leader_epoch, unused_takeover_time); } int ObPartitionLogService::get_role_and_leader_epoch( common::ObRole& role, int64_t& leader_epoch, int64_t& takeover_time) { int ret = OB_SUCCESS; takeover_time = OB_INVALID_TIMESTAMP; if (IS_NOT_INIT) { ret = OB_SUCCESS; } else { RLockGuard guard(lock_); (void)(get_role_and_leader_epoch_unlock_(role, leader_epoch, takeover_time)); } return ret; } int ObPartitionLogService::add_member(const ObMember& member, const int64_t quorum, obrpc::ObMCLogInfo& log_info) { int ret = OB_SUCCESS; if (!member.is_valid() || quorum <= 0 || quorum > OB_MAX_MEMBER_NUMBER) { ret = OB_INVALID_ARGUMENT; CLOG_LOG(WARN, "invalid argument", K(ret), K(member)); } else { ret = change_member_(member, true, quorum, log_info); } return ret; } int ObPartitionLogService::remove_member(const ObMember& member, const int64_t quorum, obrpc::ObMCLogInfo& log_info) { int ret = OB_SUCCESS; if (!member.is_valid() || quorum <= 0 || quorum > OB_MAX_MEMBER_NUMBER) { ret = OB_INVALID_ARGUMENT; CLOG_LOG(WARN, "invalid argument", K(ret), K(member), K(quorum)); } else { ret = change_member_(member, false, quorum, log_info); } return ret; } // for migrate to check if remove member is done //------------------------------------ // return value | meaning // OB_SUCCESS | remove member finished, can add replica // OB_EAGAIN | just retry check // OB_MEMBER_CHANGE_FAILED | remove member failed, retry remove member // OB_INVALID_ARGUMENT | not invalid arguments // OTHER | bug!!!! int ObPartitionLogService::is_member_change_done(const obrpc::ObMCLogInfo& log_info) { int ret = OB_SUCCESS; int tmp_ret = OB_SUCCESS; ObLogTask* task = NULL; const int64_t* ref = NULL; uint64_t last_replay_log_id = OB_INVALID_ID; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (!log_info.is_valid()) { ret = OB_INVALID_ARGUMENT; CLOG_LOG(WARN, "invalid argument", K(ret), K(partition_key_), K(log_info)); } else if (state_mgr_.is_can_elect_standby_leader()) { // member change for standby cluster if (ms_task_mgr_.is_renew_ms_log_majority_success(log_info.log_id_, log_info.timestamp_)) { CLOG_LOG(INFO, "standby member change finished", K(ret), K(partition_key_), K(log_info)); } else { ret = OB_EAGAIN; } } else { if (OB_FAIL(get_storage_last_replay_log_id_(last_replay_log_id))) { CLOG_LOG(WARN, "get_storage_last_replay_log_id_ failed", K(ret), K(partition_key_)); } else if (OB_ERROR_OUT_OF_RANGE == (ret = sw_.get_log_task(log_info.log_id_, task, ref))) { ObLogCursorExt log_cursor; log_cursor.reset(); ret = OB_SUCCESS; if (OB_FAIL(log_engine_->get_cursor(partition_key_, log_info.log_id_, log_cursor))) { CLOG_LOG(WARN, "not hit in cursor cache", K_(partition_key), K(ret), K(log_info)); if ((OB_CURSOR_NOT_EXIST == ret && log_info.log_id_ > last_replay_log_id) || OB_ERR_OUT_OF_UPPER_BOUND == ret || OB_NEED_RETRY == ret) { ret = OB_EAGAIN; } } else { ObLogEntry log_entry; ObReadParam read_param; read_param.file_id_ = log_cursor.get_file_id(); read_param.offset_ = log_cursor.get_offset(); read_param.read_len_ = log_cursor.get_size(); ObReadBufGuard guard(ObModIds::OB_LOG_DIRECT_READER_CACHE_ID); ObReadBuf& rbuf = guard.get_read_buf(); if (OB_UNLIKELY(!rbuf.is_valid())) { ret = OB_ALLOCATE_MEMORY_FAILED; CLOG_LOG(WARN, "failed to alloc read_buf", K_(partition_key), K(log_info), K(read_param), K(ret)); } else if (OB_FAIL(log_engine_->read_log_by_location(read_param, rbuf, log_entry))) { CLOG_LOG(WARN, "read_log_by_location failed", K_(partition_key), K(ret), K(read_param)); } else if (OB_LOG_MEMBERSHIP == log_entry.get_header().get_log_type() && log_info.timestamp_ == log_entry.get_header().get_submit_timestamp()) { CLOG_LOG(INFO, "member ship log is slide out", K_(partition_key), K(ret), K(log_entry)); // SUCCESS } else { ret = OB_MEMBER_CHANGE_FAILED; CLOG_LOG(INFO, "log rewritten, member change failed", K_(partition_key), K(ret), K(log_info), K(log_entry)); } } } else { RLockGuard guard(lock_); const uint64_t max_log_id = sw_.get_max_log_id(); if (!state_mgr_.is_leader_active()) { ret = OB_EAGAIN; } else if (OB_ERR_NULL_VALUE == ret && log_info.log_id_ > max_log_id) { ret = OB_MEMBER_CHANGE_FAILED; CLOG_LOG(INFO, "leader active got null value, member change failed", K_(partition_key), K(ret), K(log_info), K(max_log_id)); } else if (OB_ERR_NULL_VALUE == ret && log_info.log_id_ <= max_log_id) { ret = OB_EAGAIN; CLOG_LOG(INFO, "leader active got null value and log_id is less than max_log_id, need retry", K(ret), K(partition_key_), K(log_info), K(max_log_id)); } else if (OB_SUCC(ret)) { task->lock(); if (task->is_submit_log_exist()) { if (OB_LOG_MEMBERSHIP != task->get_log_type() || log_info.timestamp_ != task->get_submit_timestamp()) { ret = OB_MEMBER_CHANGE_FAILED; CLOG_LOG(INFO, "log in sliding window rewritten, member change failed", K_(partition_key), K(ret), K(log_info), K(task)); } else { if (task->is_log_confirmed()) { CLOG_LOG(INFO, "member ship log in sliding window confirmed, member change success", K_(partition_key), K(ret), K(log_info), K(task)); // SUCCESS } else { ret = OB_EAGAIN; CLOG_LOG(TRACE, "member ship log in sliding window not confirmed, need check again", K_(partition_key), K(ret), K(log_info), K(task)); } } } else { ret = OB_MEMBER_CHANGE_FAILED; CLOG_LOG(INFO, "leader active just got confirm info, must not be member ship log", K_(partition_key), K(ret), K(log_info), K(task)); } task->unlock(); } else { CLOG_LOG(WARN, "get_log_task failed", K_(partition_key), K(ret), K(log_info)); } } if (NULL != ref && OB_SUCCESS != (tmp_ret = sw_.revert_log_task(ref))) { CLOG_LOG(ERROR, "revert log task failed", K_(partition_key), K(tmp_ret), K(ref)); } else { ref = NULL; } } // unexpected error code, please check it ! if (OB_SUCCESS != ret && OB_EAGAIN != ret && OB_MEMBER_CHANGE_FAILED != ret && OB_INVALID_ARGUMENT != ret) { CLOG_LOG( ERROR, "is_member_change_done unexpected error code, please check it!", K(ret), K(partition_key_), K(log_info)); } return ret; } int ObPartitionLogService::change_member_( const ObMember& member, const bool is_add_member, const int64_t quorum, obrpc::ObMCLogInfo& log_info) { int ret = OB_SUCCESS; int64_t mc_timestamp = OB_INVALID_TIMESTAMP; ObMemberList member_list; ObProposalID proposal_id; bool is_standby_op = false; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (!member.is_valid()) { ret = OB_INVALID_ARGUMENT; CLOG_LOG(WARN, "invalid argument", K(member), K(quorum), K(ret)); } else { // ========== step 1 =========== // 1) check it can do change member // 2) get current membership_ts and member_list // 3) get current proposal_id // // step 1: both remove_member/add_member need exec do { RLockGuard guard(lock_); if (!state_mgr_.can_change_member()) { CLOG_LOG(WARN, "can not change_member", K_(partition_key), K(member), "role", state_mgr_.get_role(), "state", state_mgr_.get_state(), "is_changing_leader", state_mgr_.is_changing_leader(), K(is_add_member)); ret = OB_STATE_NOT_MATCH; } else { mc_timestamp = mm_.get_timestamp(); is_standby_op = (STANDBY_LEADER == state_mgr_.get_role() ? true : false); if (!is_standby_op) { proposal_id = state_mgr_.get_proposal_id(); } else { proposal_id = mm_.get_ms_proposal_id(); } if (OB_SUCCESS != (ret = member_list.deep_copy(mm_.get_curr_member_list()))) { CLOG_LOG(WARN, "member_list deep_copy failed", K_(partition_key), K(ret)); } else { const int64_t member_num = member_list.get_member_number(); if (is_add_member && quorum < (member_num + 1)) { // quorum is smaller than the number of new member_list ret = OB_NOT_SUPPORTED; } else if (!is_add_member && quorum < (member_num - 1)) { // quorum is smaller than the number of new member_list ret = OB_NOT_SUPPORTED; } else { // do nothing } } } } while (0); if (OB_SUCC(ret) && !is_add_member) { if (OB_FAIL(block_partition_split_())) { CLOG_LOG(WARN, "failed to block partition split", K(ret), K_(partition_key)); } } // ========== step 2 =========== // check follower's state, it requires that follower's lags is behind leader's within 1000 entries // // step 2: both remove_member/add_member need exec if (OB_SUCCESS == ret && !check_remote_mc_ts_(member_list, member.get_server(), mc_timestamp)) { CLOG_LOG(WARN, "check_remote_mc_ts_ false", K_(partition_key), K(member_list), K(member), K(mc_timestamp)); ret = OB_LOG_NOT_SYNC; } // ========== step 3 =========== // 1) Check that there are no ongoing membership changes // 2) stop submitting log // // step 3: only remove_member need exec if (OB_SUCC(ret) && !is_add_member) { WLockGuardWithTimeout guard(lock_, WRLOCK_TIMEOUT_US + ObTimeUtility::current_time(), ret); if (OB_FAIL(ret)) { CLOG_LOG( WARN, "change_member wrlock failed", K(ret), K_(partition_key), K(member), K(is_add_member), K(quorum)); } else if (state_mgr_.is_pre_member_changing()) { CLOG_LOG(WARN, "is_pre_member_changing true", K_(partition_key), K(member_list), K(member)); ret = OB_STATE_NOT_MATCH; } else { state_mgr_.set_pre_member_changing(); } } // ========== step 4 =========== // wait local logs confirmed, waiting 200ms at most without lock // // step 4: only remove_member need exec if (OB_SUCC(ret) && !is_add_member) { if (OB_FAIL(wait_log_confirmed_())) { CLOG_LOG(WARN, "wait_log_confirmed failed", K_(partition_key), K(ret), K(member_list), K(member)); WLockGuardWithRetry guard(lock_, WRLOCK_TIMEOUT_US + ObTimeUtility::current_time()); state_mgr_.reset_pre_member_changing(); ret = OB_STATE_NOT_MATCH; } } // ========== step 5 =========== // check Follower' state, whether its logs are already confirmed by using sync RPC // // step 5: only remove_member need exec if (OB_SUCC(ret) && !is_add_member) { if (!check_remote_mc_ts_sync_(member_list, member.get_server(), mc_timestamp)) { CLOG_LOG(WARN, "check_remote_mc_ts_sync_ false", K_(partition_key), K(member_list), K(member), K(mc_timestamp)); ret = OB_LOG_NOT_SYNC; WLockGuardWithRetry guard(lock_, WRLOCK_TIMEOUT_US + ObTimeUtility::current_time()); state_mgr_.reset_pre_member_changing(); } } // ========== step 6 =========== // 1) double check it can do member change // 2) double check current membership_ts is same with step 1 // 3) double check current proposal_id is same with step 1 // 4) execute member change // // step 6: both remove_member/add_member need exec if (OB_SUCC(ret)) { WLockGuardWithRetry guard(lock_, WRLOCK_TIMEOUT_US + ObTimeUtility::current_time()); if (!state_mgr_.can_change_member()) { CLOG_LOG(WARN, "can not change_member", K_(partition_key), K(member), "role", state_mgr_.get_role(), "state", state_mgr_.get_state(), "is_changing_leader", state_mgr_.is_changing_leader(), K(is_add_member)); ret = OB_STATE_NOT_MATCH; } else if (mc_timestamp != mm_.get_timestamp()) { CLOG_LOG(WARN, "timestamp not match", K_(partition_key), K(member), K(mc_timestamp), "current_timestamp", mm_.get_timestamp()); ret = OB_STATE_NOT_MATCH; } else if (!is_standby_op && proposal_id != state_mgr_.get_proposal_id()) { ret = OB_STATE_NOT_MATCH; CLOG_LOG(WARN, "proposal_id not match", K(ret), K_(partition_key), K(member), K(proposal_id), "current_proposal_id", state_mgr_.get_proposal_id()); } else if (is_standby_op && proposal_id != mm_.get_ms_proposal_id()) { ret = OB_STATE_NOT_MATCH; CLOG_LOG(WARN, "ms_proposal_id not match", K(ret), K_(partition_key), K(member), K(proposal_id), "current_proposal_id", mm_.get_ms_proposal_id()); } else { if (is_add_member) { if (OB_SUCCESS != (ret = mm_.add_member(member, quorum, log_info))) { CLOG_LOG(WARN, "add member failed", K_(partition_key), K(ret), K(member_list), K(member)); } } else { if (OB_SUCCESS != (ret = mm_.remove_member(member, quorum, log_info))) { CLOG_LOG(WARN, "remove member failed", K_(partition_key), K(ret), K(member_list), K(member)); } } } if (!is_add_member) { // only remove_member need exec state_mgr_.reset_pre_member_changing(); } } if (OB_SUCC(ret) && !is_add_member) { if (OB_FAIL(unblock_partition_split_())) { CLOG_LOG(WARN, "failed to block partition split", K(ret), K_(partition_key)); } } } CLOG_LOG(INFO, "change_member function finished", K_(partition_key), K(ret), K(member), K(quorum), K(is_add_member)); return ret; } int ObPartitionLogService::fill_base_storage_info( common::ObBaseStorageInfo& base_storage_info, uint64_t& sw_last_replay_log_id) { int ret = OB_SUCCESS; uint64_t max_flushed_ilog_id = OB_INVALID_ID; if (OB_FAIL(query_max_flushed_ilog_id(max_flushed_ilog_id))) { CLOG_LOG(WARN, "query_max_flushed_ilog_id failed", K(ret), K(partition_key_)); } else { // get max_flushed_ilog_id firstly #ifdef ERRSIM if (ObServerConfig::get_instance()._ob_enable_rebuild_on_purpose) { // ERRSIM mode: if open _ob_enable_rebuild_on_purpose, skip checking max_flushed_ilog_id max_flushed_ilog_id = UINT64_MAX; } #endif sw_last_replay_log_id = sw_.get_last_replay_log_id(); const uint64_t last_replay_log_id = std::min(sw_last_replay_log_id, max_flushed_ilog_id); const int64_t last_submit_timestamp = 0; // invalid timestamp const int64_t accumulate_checksum = 0; // invalid checksum const int64_t epoch_id = sw_.get_epoch_id(); const ObProposalID proposal_id = state_mgr_.get_proposal_id(); int64_t replica_num = mm_.get_replica_num(); int64_t ms_timestamp = mm_.get_timestamp(); uint64_t mc_log_id = mm_.get_log_id(); const ObProposalID ms_proposal_id = mm_.get_ms_proposal_id(); common::ObMemberList member_list; if (mm_.get_curr_member_list().is_valid()) { if (OB_FAIL(member_list.deep_copy(mm_.get_curr_member_list()))) { CLOG_LOG(WARN, "member_list.deep_copy failed", K(ret), K_(partition_key)); } } else if (restore_mgr_.is_standby_restore_state()) { // mock member_list for standby restoring replica ObAddr fake_server; if (OB_FAIL(fake_server.parse_from_cstring("127.0.0.1:12345"))) { STORAGE_LOG(WARN, "failed to parse fake server ip", K(ret), K_(partition_key)); } else if (OB_FAIL(member_list.add_server(fake_server))) { STORAGE_LOG(WARN, "failed to add server", K(ret), K_(partition_key)); } else { replica_num = 1; // mock replica_num to 1 ms_timestamp = 0; // mock ms_timestamp to 0 } } if (OB_SUCC(ret)) { ret = base_storage_info.init(epoch_id, proposal_id, last_replay_log_id, last_submit_timestamp, accumulate_checksum, replica_num, ms_timestamp, mc_log_id, member_list, ms_proposal_id); } } CLOG_LOG(INFO, "get_current_base_storage_info", K(ret), K_(partition_key), K(base_storage_info)); return ret; } int ObPartitionLogService::get_base_storage_info( common::ObBaseStorageInfo& base_storage_info, uint64_t& sw_last_replay_log_id) { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else { RLockGuard guard(lock_); if (OB_FAIL(fill_base_storage_info(base_storage_info, sw_last_replay_log_id))) { CLOG_LOG(WARN, "fill base storage info failed", K_(partition_key), K(ret)); } } return ret; } common::ObPartitionKey ObPartitionLogService::get_partition_key() const { return partition_key_; } int ObPartitionLogService::get_saved_base_storage_info(common::ObBaseStorageInfo& base_storage_info) const { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (OB_FAIL(base_storage_info.deep_copy(saved_base_storage_info_))) { CLOG_LOG(WARN, "base_storage_info deep_copy failed", K_(partition_key), K(ret), K(saved_base_storage_info_)); } CLOG_LOG(INFO, "get_saved_base_storage_info", K_(partition_key), K(ret), K(base_storage_info)); return ret; } int ObPartitionLogService::change_leader(const common::ObAddr& leader, ObTsWindows& changing_leader_windows) { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (leader == self_) { CLOG_LOG(INFO, "leader is self, do not need to change", K_(partition_key), K(leader), K_(self)); } else { WLockGuardWithTimeout guard(lock_, WRLOCK_TIMEOUT_US + ObTimeUtility::current_time(), ret); if (OB_FAIL(ret)) { CLOG_LOG(WARN, "change leader wrlock failed", K(ret), K_(partition_key), K(leader)); } else if (!mm_.get_curr_member_list().contains(leader)) { ret = OB_ELECTION_WARN_NOT_CANDIDATE; } else if (!state_mgr_.can_change_leader()) { ret = OB_STATE_NOT_MATCH; CLOG_LOG(WARN, "can not change leader", K(ret), K_(partition_key), "role", state_mgr_.get_role(), "state", state_mgr_.get_state(), "membership_mgr is_state_init", mm_.is_state_init(), "is_changing_leader", state_mgr_.is_changing_leader(), K_(self), "dst_server", leader); } else { ret = state_mgr_.change_leader_async(partition_key_, leader, changing_leader_windows); } } if (REACH_TIME_INTERVAL(10 * 1000)) { CLOG_LOG(INFO, "change leader async", K_(partition_key), K(ret), K_(self), K(leader)); } return ret; } int ObPartitionLogService::change_restore_leader(const common::ObAddr& leader) { int ret = OB_SUCCESS; RLockGuard guard(lock_); if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (!leader.is_valid()) { ret = OB_INVALID_ARGUMENT; CLOG_LOG(WARN, "invalid argument", K(ret), K_(partition_key), K(leader)); } else if (!restore_mgr_.is_archive_restoring() || RESTORE_LEADER != restore_mgr_.get_role()) { ret = OB_STATE_NOT_MATCH; } else if (OB_FAIL(restore_mgr_.change_restore_leader(leader))) { CLOG_LOG(WARN, "change_restore_leader failed", K(ret), K_(partition_key), K(leader)); } else { CLOG_LOG(INFO, "change_restore_leader success", K(ret), K_(partition_key), K(leader)); } return ret; } int ObPartitionLogService::report_physical_restore_unexpected_error_() { int ret = OB_SUCCESS; int64_t job_id = 0; const uint64_t tenant_id = partition_key_.get_tenant_id(); if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (OB_FAIL(ObBackupInfoMgr::get_instance().get_restore_job_id(tenant_id, job_id))) { if (OB_ENTRY_NOT_EXIST != ret) { CLOG_LOG(WARN, "failed to get restore info", KR(ret), K(ret), K(tenant_id)); } else { CLOG_LOG(INFO, "physical restore info not exist", K(tenant_id), K(ret)); } } else if (OB_FAIL(ObRestoreFatalErrorReporter::get_instance().add_restore_error_task( tenant_id, PHYSICAL_RESTORE_MOD_CLOG, OB_ERR_UNEXPECTED, job_id, MYADDR))) { CLOG_LOG(INFO, "failed to report restore error", KR(ret), K(tenant_id), KR(ret)); } else { } return ret; } int ObPartitionLogService::check_and_set_restore_progress() { // responsible for switching state: RESTORE_LOG->NOT_RESTORE int ret = OB_SUCCESS; RLockGuard guard(lock_); if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (OB_SYS_TENANT_ID == partition_key_.get_tenant_id()) { ret = OB_ERR_UNEXPECTED; CLOG_LOG(ERROR, "sys partitions do not need to check restore progress", K(ret), K(partition_key_)); } else if (OB_ISNULL(partition_service_)) { ret = OB_INVALID_ARGUMENT; CLOG_LOG(WARN, "invalid partition_service_ is NULL", K(ret), K_(partition_key)); } else if (restore_mgr_.is_archive_restoring_log()) { bool has_replayed = false; bool has_pending_task = false; // RESTORE_LOG->DUMP_MEMTABLE if (!restore_mgr_.has_finished_fetching_log()) { // do nothing } else if (OB_FAIL(mm_.check_follower_has_pending_entry(has_pending_task))) { CLOG_LOG(WARN, "failed to check_follower_has_pending_entry", K(ret), K_(partition_key)); } else if (has_pending_task) { } else if (OB_FAIL(sw_.check_if_all_log_replayed(has_replayed))) { CLOG_LOG(WARN, "failed to check_if_all_log_replayed", K(ret), K_(partition_key)); } else if (!has_replayed) { } else { // check whether archived offline_log if (!restore_mgr_.has_fetched_enough_log()) { uint64_t offline_log_id = OB_INVALID_ID; if (OB_FAIL(partition_service_->get_offline_log_id(partition_key_, offline_log_id))) { CLOG_LOG(WARN, "failed to get_offline_log_id ", K_(partition_key), KR(ret)); } else if (offline_log_id != OB_INVALID_ID) { restore_mgr_.set_fetch_log_result(OB_ARCHIVE_FETCH_LOG_FINISH_AND_ENOUGH); CLOG_LOG(INFO, "partition has been dropped", K_(partition_key), K(offline_log_id)); } else { ret = OB_ERR_UNEXPECTED; CLOG_LOG(ERROR, "log is not enough for restoring", K_(partition_key)); SERVER_EVENT_ADD("clog_restore", "clog is not enough", "partition", partition_key_); (void)report_physical_restore_unexpected_error_(); } } if (OB_SUCC(ret) && restore_mgr_.has_fetched_enough_log()) { if (OB_FAIL(set_restore_flag_after_restore_log_())) { CLOG_LOG(WARN, "failed to check_and_set_restore_flag_after_restore_log", KR(ret), K_(partition_key)); } } } } else if (restore_mgr_.is_archive_restoring_mlist()) { // RESTORE_MEMBER_LIST->NOT_RESTORE int tmp_ret = OB_SUCCESS; uint64_t last_restore_log_id = OB_INVALID_ID; int64_t last_restore_log_ts = OB_INVALID_TIMESTAMP; int64_t unused_version = OB_INVALID_TIMESTAMP; const uint64_t last_slide_log_id = get_start_log_id_unsafe() - 1; const uint64_t ms_log_id = mm_.get_log_id(); if (OB_SUCCESS != (tmp_ret = partition_service_->check_all_trans_in_trans_table_state(partition_key_)) && (OB_ENTRY_NOT_EXIST != tmp_ret) && (OB_PARTITION_NOT_EXIST != tmp_ret)) { CLOG_LOG(WARN, "failed to wait_all_trans_clear", K_(partition_key), KR(tmp_ret)); } else if (OB_SUCCESS != (tmp_ret = partition_service_->get_restore_replay_info(partition_key_, last_restore_log_id, last_restore_log_ts, unused_version))) { CLOG_LOG(WARN, "failed to get_restore_replay_info", K(tmp_ret), K_(partition_key), K(last_restore_log_id)); } else if (OB_INVALID_ID == last_restore_log_id || OB_INVALID_TIMESTAMP == last_restore_log_ts) { CLOG_LOG(WARN, "unexpected last_restore_log_info", K_(partition_key), K(last_restore_log_id), K(last_restore_log_ts)); } else if (last_slide_log_id <= last_restore_log_id) { CLOG_LOG(INFO, "need wait start_working log slide out", K_(partition_key), K(last_slide_log_id), K(last_restore_log_id)); } else if (ms_log_id > last_slide_log_id) { CLOG_LOG(INFO, "need wait membership_log_id slide out", K_(partition_key), K(last_slide_log_id), K(ms_log_id)); } else if (OB_FAIL(restore_mgr_.check_last_restore_id_majority_equal(mm_.get_curr_member_list()))) { // all replicas need check majority's last_restore_log_id equal before update state to NOT_RESTORE. CLOG_LOG(INFO, "check_last_restore_id_majority_equal failed, need retry", K_(partition_key), K(last_restore_log_id), K(ret)); if (OB_EAGAIN == ret) { // rewrite ret to SUCCESS ret = OB_SUCCESS; } } else { ObReplicaRestoreStatus flag = ObReplicaRestoreStatus::REPLICA_NOT_RESTORE; if (OB_FAIL(partition_service_->set_restore_flag(partition_key_, flag))) { CLOG_LOG(WARN, "failed to set_restore_flag", K_(partition_key), K(flag), KR(ret)); } else { CLOG_LOG(INFO, "success to set_restore_flag", K_(partition_key), K(flag), KR(ret)); } } } else { /*do nothing*/ } return ret; } int ObPartitionLogService::set_restore_fetch_log_finished(ObArchiveFetchLogResult fetch_log_result) { int ret = OB_SUCCESS; RLockGuard guard(lock_); if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (OB_FAIL(restore_mgr_.set_fetch_log_result(fetch_log_result))) { CLOG_LOG(WARN, "failed to set_fetch_log_result", K_(partition_key), K(fetch_log_result), KR(ret)); } else { /*do nothing*/ } return ret; } int ObPartitionLogService::process_restore_takeover_msg(const int64_t send_ts) { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (!restore_mgr_.is_archive_restoring()) { ret = OB_STATE_NOT_MATCH; } else if (ObTimeUtility::current_time() - send_ts > CASCAD_MSG_DELAY_TIME_THRESHOLD) { CLOG_LOG(WARN, "msg delay too much time, ignore", K_(partition_key), K(send_ts)); } else if (OB_FAIL(restore_mgr_.leader_takeover())) { CLOG_LOG(WARN, "leader_takeover failed", K(ret), K_(partition_key)); } else { } return ret; } int ObPartitionLogService::get_leader(common::ObAddr& leader) const { int ret = OB_SUCCESS; RLockGuard guard(lock_); if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else { leader = state_mgr_.get_leader(); } // CLOG_LOG(INFO, "get leader", K(ret), K_(partition_key), K(leader)); return ret; } int ObPartitionLogService::get_clog_parent_for_migration(common::ObAddr &parent, int64_t &cluster_id) const { int ret = OB_SUCCESS; RLockGuard guard(lock_); parent.reset(); if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (restore_mgr_.is_archive_restoring()) { parent = restore_mgr_.get_restore_leader(); cluster_id = state_mgr_.get_self_cluster_id(); } else { const bool is_paxos_replica = ObReplicaTypeCheck::is_paxos_replica(mm_.get_replica_type()); const share::ObCascadMember parent_member = cascading_mgr_.get_parent(); const share::ObCascadMember prev_parent_member = cascading_mgr_.get_prev_parent(); share::ObCascadMember cascad_leader; (void)state_mgr_.get_cascad_leader(cascad_leader); if (parent_member.is_valid()) { parent = parent_member.get_server(); cluster_id = parent_member.get_cluster_id(); } else if (!is_paxos_replica && prev_parent_member.is_valid()) { // prev_parent is preferred choice for non-paxos replica parent = prev_parent_member.get_server(); cluster_id = prev_parent_member.get_cluster_id(); } else if (cascad_leader.is_valid()) { // returns corresponding leader when parent is invalid parent = cascad_leader.get_server(); cluster_id = cascad_leader.get_cluster_id(); } else if (prev_parent_member.is_valid()) { // at last return prev_parent parent = prev_parent_member.get_server(); cluster_id = prev_parent_member.get_cluster_id(); } else { // it does not have valid parent } } if (!parent.is_valid()) { ret = OB_NEED_RETRY; } CLOG_LOG(INFO, "get clog parent", K(ret), K_(partition_key), K(parent), K(cluster_id)); return ret; } int ObPartitionLogService::get_leader_curr_member_list(common::ObMemberList& member_list) const { int ret = OB_SUCCESS; RLockGuard guard(lock_); if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (!state_mgr_.can_get_leader_curr_member_list()) { CLOG_LOG(WARN, "it is not leader", K_(partition_key)); ret = OB_STATE_NOT_MATCH; } else { ret = member_list.deep_copy(mm_.get_curr_member_list()); } return ret; } int ObPartitionLogService::get_curr_member_list(common::ObMemberList& member_list) const { int ret = OB_SUCCESS; RLockGuard guard(lock_); if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else { ret = member_list.deep_copy(mm_.get_curr_member_list()); } return ret; } int ObPartitionLogService::get_curr_member_list_for_report(common::ObMemberList& member_list) const { // used for reporting meta table int ret = OB_SUCCESS; RLockGuard guard(lock_); if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (state_mgr_.has_valid_member_list()) { ret = member_list.deep_copy(mm_.get_curr_member_list()); CLOG_LOG(DEBUG, "get_curr_member_list_for_report", K_(partition_key), K(member_list)); } else { if (REACH_TIME_INTERVAL(1000 * 1000)) { CLOG_LOG(INFO, "get_curr_member_list_for_report return empty", K_(partition_key)); } } return ret; } int ObPartitionLogService::try_get_curr_member_list(common::ObMemberList& member_list) const { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (lock_.try_rdlock()) { ret = member_list.deep_copy(mm_.get_curr_member_list()); lock_.rdunlock(); } else { ret = OB_EAGAIN; } return ret; } int ObPartitionLogService::get_replica_num(int64_t& replica_num) const { int ret = OB_SUCCESS; RLockGuard guard(lock_); if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else { replica_num = mm_.get_replica_num(); } return ret; } int ObPartitionLogService::try_get_replica_num(int64_t& replica_num) const { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (lock_.try_rdlock()) { replica_num = mm_.get_replica_num(); lock_.rdunlock(); } else { ret = OB_EAGAIN; } return ret; } int ObPartitionLogService::receive_log(const ObLogEntry& log_entry, const ObAddr& server, const int64_t cluster_id, const ObProposalID& proposal_id, const ObPushLogMode push_mode, const ReceiveLogType type) { int ret = OB_SUCCESS; const uint64_t log_id = log_entry.get_header().get_log_id(); const ObLogType log_type = log_entry.get_header().get_log_type(); uint32_t protection_level = 0; bool is_tenant_out_of_mem = false; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (!server.is_valid() || (!proposal_id.is_valid() && !restore_mgr_.is_archive_restoring()) || OB_ISNULL(log_engine_)) { ret = OB_INVALID_ARGUMENT; CLOG_LOG(WARN, "invalid argument", K_(partition_key), K(server), K(proposal_id)); } else if (!log_entry.check_integrity() || log_entry.get_header().get_partition_key() != partition_key_) { ret = OB_INVALID_DATA; CLOG_LOG(ERROR, "receive_log invalid log", K_(partition_key), K(ret), K(log_entry), K(server)); } else if (OB_FAIL(replay_engine_->is_tenant_out_of_memory(partition_key_, is_tenant_out_of_mem))) { CLOG_LOG(WARN, "is_tenant_out_of_memory failed", K(ret), K_(partition_key)); } else if (is_tenant_out_of_mem) { ret = OB_TENANT_OUT_OF_MEM; if (REACH_TIME_INTERVAL(1000 * 1000)) { CLOG_LOG(WARN, "tenant is out of memory, cannot receive log", K(ret), K_(partition_key)); } } else if (OB_LOG_RENEW_MEMBERSHIP == log_type) { // it should not receive renew_ms_log here ret = OB_ERR_UNEXPECTED; CLOG_LOG(ERROR, "receive_log encounter renew_ms_log, unexpected", K_(partition_key), K(ret), K(log_entry), K(server), K(proposal_id), K(type)); } else if (proposal_id > state_mgr_.get_proposal_id()) { WLockGuardWithTimeout guard(lock_, WRLOCK_TIMEOUT_US + ObTimeUtility::current_time(), ret); if (OB_FAIL(ret)) { CLOG_LOG(WARN, "receive log wrlock failed", K(ret), K_(partition_key), K(log_entry), K(server), K(proposal_id), K(type)); } else if (!restore_mgr_.is_archive_restoring()) { if (state_mgr_.can_handle_prepare_rqst(proposal_id, cluster_id)) { ret = state_mgr_.handle_prepare_rqst(proposal_id, server, cluster_id); } } else { // update proposal_id directly during physical restoring if (OB_FAIL(state_mgr_.update_proposal_id(proposal_id))) { CLOG_LOG(WARN, "update_proposal_id failed", K_(partition_key), K(ret), K(log_entry)); } } } else { // do nothing } if (OB_SUCC(ret)) { RLockGuard guard(lock_); // check src server const common::ObAddr parent = cascading_mgr_.get_parent_addr(); bool is_valid_src = false; if (!parent.is_valid() || server == parent || cascading_mgr_.is_in_reregister_period()) { // When my parent is invalid(may be migrating dest) or src is my parent or // I'm in reregister period, I can receive log. is_valid_src = true; } if (!is_valid_src) { // sender is not valid src, cannot receive log ret = OB_STATE_NOT_MATCH; CLOG_LOG(WARN, "sender is an unexpected src, cannot receive log", K_(partition_key), K(ret), K(server), K(proposal_id), K(cluster_id), K(type), K(parent), "self_cluster_id", state_mgr_.get_self_cluster_id()); } else if (cluster_id != state_mgr_.get_self_cluster_id() && STANDBY_LEADER != state_mgr_.get_role()) { // only STANDBY_LEADER can receive logs from different cluster ret = OB_STATE_NOT_MATCH; CLOG_LOG(WARN, "receive diff cluster log in unexpected role", K_(partition_key), K(ret), K(server), K(proposal_id), K(cluster_id), K(type), "self_cluster_id", state_mgr_.get_self_cluster_id()); } else if (OB_FAIL(state_mgr_.get_standby_protection_level(protection_level))) { CLOG_LOG(WARN, "get_standby_protection_level failed", K_(partition_key), K(ret)); } else if (PUSH_LOG_ASYNC == push_mode && STANDBY_LEADER == state_mgr_.get_role() && (MAXIMUM_PROTECTION_LEVEL == protection_level || RESYNCHRONIZATION_LEVEL == protection_level)) { // standby_leader cannot receive ASYNC logs in max protection_mode to keep data consistent // this may occur when primary cluster switches its protection mode ret = OB_STATE_NOT_MATCH; CLOG_LOG(WARN, "receive log in unexpected protection_level, ignore", K_(partition_key), K(ret), K(log_entry), K(server), K(proposal_id), K(push_mode), K(type), K(protection_level)); } else { } } if (OB_SUCC(ret)) { bool follower_can_receive_log = true; ObProposalID pid_in_log = log_entry.get_header().get_proposal_id(); if (OB_LOG_MEMBERSHIP != log_entry.get_header().get_log_type() && OB_LOG_START_MEMBERSHIP != log_entry.get_header().get_log_type()) { RLockGuard guard(lock_); if (!log_engine_->is_disk_space_enough()) { ret = OB_LOG_OUTOF_DISK_SPACE; if (REACH_TIME_INTERVAL(1000 * 1000)) { CLOG_LOG(WARN, "log outof disk space", K_(partition_key), K(server), K(ret)); } } else if (!restore_mgr_.is_archive_restoring() && !state_mgr_.can_receive_log(proposal_id, pid_in_log, cluster_id)) { ret = OB_STATE_NOT_MATCH; CLOG_LOG(WARN, "can not receive_log", K(ret), K_(partition_key), K(server), "log_type", log_entry.get_header().get_log_type(), "log_id", log_entry.get_header().get_log_id(), "role", state_mgr_.get_role(), "state", state_mgr_.get_state()); } else if (state_mgr_.get_role() == LEADER && state_mgr_.get_state() == RECONFIRM && try_update_freeze_version_(log_entry) && OB_SUCCESS != (ret = reconfirm_.receive_log(log_entry, server))) { CLOG_LOG(WARN, "reconfirm receive log failed", K_(partition_key), K(ret), K(server)); reconfirm_.reset(); } else if (!state_mgr_.is_standby_leader_can_receive_log_id(log_id)) { // standby_leader cannot receive log/confirmed_info beyond max_log_id when it is doing member change ret = OB_STATE_NOT_MATCH; CLOG_LOG(WARN, "standby_leader is changing member, can not receive log larger than max_log_id", K(ret), K_(partition_key), K(server), K(log_id), "max_log_id", sw_.get_max_log_id()); } else if (LEADER != state_mgr_.get_role() && (follower_can_receive_log = sw_.check_can_receive_larger_log(log_id)) && try_update_freeze_version_(log_entry) && OB_SUCCESS != (ret = sw_.receive_log(log_entry, server, cluster_id, type))) { CLOG_LOG(WARN, "follower active receive log failed", K_(partition_key), K(ret), K(server), K(log_entry)); } else { } } else { WLockGuardWithTimeout guard(lock_, WRLOCK_TIMEOUT_US + ObTimeUtility::current_time(), ret); if (OB_FAIL(ret)) { CLOG_LOG(WARN, "receive log wrlock failed", K(ret), K_(partition_key), K(log_entry), K(server), K(proposal_id), K(type)); } else if (!log_engine_->is_disk_space_enough()) { ret = OB_LOG_OUTOF_DISK_SPACE; if (REACH_TIME_INTERVAL(1000 * 1000)) { CLOG_LOG(WARN, "log outof disk space", K_(partition_key), K(server), K(ret)); } } else if (!restore_mgr_.is_archive_restoring() && !state_mgr_.can_receive_log(proposal_id, pid_in_log, cluster_id)) { ret = OB_STATE_NOT_MATCH; CLOG_LOG(WARN, "can not receive_log", K(ret), K_(partition_key), "log_type", log_entry.get_header().get_log_type(), "role", state_mgr_.get_role(), "state", state_mgr_.get_state()); } else if (state_mgr_.get_role() == LEADER && state_mgr_.get_state() == RECONFIRM && try_update_freeze_version_(log_entry) && OB_SUCCESS != (ret = reconfirm_.receive_log(log_entry, server))) { CLOG_LOG(WARN, "reconfirm receive log failed", K_(partition_key), K(ret), K(server)); reconfirm_.reset(); } else if (!state_mgr_.is_standby_leader_can_receive_log_id(log_id)) { // standby_leader cannot receive log/confirmed_info beyond max_log_id when it is doing member change ret = OB_STATE_NOT_MATCH; CLOG_LOG(WARN, "standby_leader is changing member, can not receive log larger than max_log_id", K(ret), K_(partition_key), K(server), K(log_id), "max_log_id", sw_.get_max_log_id()); } else if (LEADER != state_mgr_.get_role() && (follower_can_receive_log = sw_.check_can_receive_larger_log(log_id)) && try_update_freeze_version_(log_entry) && OB_SUCCESS != (ret = mm_.receive_log(log_entry, server, cluster_id, type))) { CLOG_LOG(WARN, "follower active receive log failed", K_(partition_key), K(ret), K(server), K(log_entry)); } else { } } } return ret; } // used for receiving renew_ms_log by standby replica int ObPartitionLogService::receive_renew_ms_log(const ObLogEntry& log_entry, const ObAddr& server, const int64_t cluster_id, const ObProposalID& proposal_id, const ReceiveLogType type) { int ret = OB_SUCCESS; const ObProposalID& header_proposal_id = log_entry.get_header().get_proposal_id(); if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (!server.is_valid() || (!proposal_id.is_valid() && !restore_mgr_.is_archive_restoring()) || OB_ISNULL(log_engine_)) { ret = OB_INVALID_ARGUMENT; CLOG_LOG(WARN, "invalid argument", K_(partition_key), K(server), K(proposal_id)); } else if (!log_entry.check_integrity() || log_entry.get_header().get_partition_key() != partition_key_) { ret = OB_INVALID_DATA; CLOG_LOG(ERROR, "receive_log invalid log", K_(partition_key), K(ret), K(log_entry), K(server)); } else if (header_proposal_id <= mm_.get_ms_proposal_id()) { // no need update proposal_id } else { WLockGuardWithTimeout guard(lock_, WRLOCK_TIMEOUT_US + ObTimeUtility::current_time(), ret); if (OB_FAIL(ret)) { CLOG_LOG(WARN, "receive log wrlock failed", K(ret), K_(partition_key), K(log_entry), K(server), K(proposal_id), K(header_proposal_id), K(type)); } else if (!restore_mgr_.is_archive_restoring()) { if (state_mgr_.can_handle_standby_prepare_rqst(header_proposal_id, cluster_id)) { // The new leader is subject to the proposal_id, because parent may not be leader when it transfer log to child ret = state_mgr_.handle_standby_prepare_rqst(header_proposal_id, server, cluster_id); } else { // update proposal_id if (OB_FAIL(mm_.update_ms_proposal_id(header_proposal_id))) { CLOG_LOG(WARN, "mm_ update_ms_proposal_id failed", K_(partition_key), K(ret), K(log_entry)); } } } else { // physical_restoring state, update proposal_id if (OB_FAIL(mm_.update_ms_proposal_id(header_proposal_id))) { CLOG_LOG(WARN, "mm_ update_ms_proposal_id failed", K_(partition_key), K(ret), K(log_entry)); } } } if (OB_SUCC(ret)) { ObProposalID pid_in_log = log_entry.get_header().get_proposal_id(); WLockGuardWithTimeout guard(lock_, WRLOCK_TIMEOUT_US + ObTimeUtility::current_time(), ret); if (OB_FAIL(ret)) { CLOG_LOG(WARN, "receive log wrlock failed", K(ret), K_(partition_key), K(log_entry), K(server), K(proposal_id), K(type)); } else if (!log_engine_->is_disk_space_enough()) { ret = OB_LOG_OUTOF_DISK_SPACE; if (REACH_TIME_INTERVAL(1000 * 1000)) { CLOG_LOG(WARN, "log outof disk space", K_(partition_key), K(server), K(ret)); } } else if (!state_mgr_.can_receive_renew_ms_log(proposal_id, pid_in_log, cluster_id)) { ret = OB_STATE_NOT_MATCH; CLOG_LOG(WARN, "can not receive_log", K(ret), K_(partition_key), "log_type", log_entry.get_header().get_log_type(), "role", state_mgr_.get_role(), "state", state_mgr_.get_state()); } else if (try_update_freeze_version_(log_entry) && OB_SUCCESS != (ret = mm_.receive_log(log_entry, server, cluster_id, type))) { CLOG_LOG(WARN, "follower active receive log failed", K_(partition_key), K(ret), K(server), K(log_entry)); } else { } } return ret; } int ObPartitionLogService::receive_archive_log(const ObLogEntry& log_entry, const bool is_accum_checksum_valid, const int64_t accum_checksum, const bool is_batch_committed) { int ret = OB_SUCCESS; const ObAddr fake_server = self_; const ReceiveLogType fake_type = PUSH_LOG; const uint64_t log_id = log_entry.get_header().get_log_id(); const ObProposalID proposal_id = log_entry.get_header().get_proposal_id(); if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (!log_entry.check_integrity() || log_entry.get_header().get_partition_key() != partition_key_) { ret = OB_INVALID_DATA; CLOG_LOG(ERROR, "receive_log invalid log", K_(partition_key), K(ret), K(log_entry)); } else if (!restore_mgr_.is_archive_restoring() || state_mgr_.is_offline() || !state_mgr_.is_follower_active() || RESTORE_LEADER != restore_mgr_.get_role()) { ret = OB_STATE_NOT_MATCH; CLOG_LOG(WARN, "receive_archive_log in unexpected state", K_(partition_key), K(ret), "is_archive_restoring", restore_mgr_.is_archive_restoring(), "role", restore_mgr_.get_role(), "is_offline", state_mgr_.is_offline()); } else if (proposal_id > state_mgr_.get_proposal_id()) { WLockGuardWithTimeout guard(lock_, WRLOCK_TIMEOUT_US + ObTimeUtility::current_time(), ret); if (OB_FAIL(state_mgr_.update_proposal_id(proposal_id))) { CLOG_LOG(WARN, "update_proposal_id failed", K_(partition_key), K(ret), K(log_entry)); } } else { // do nothing } if (OB_SUCC(ret)) { const int64_t self_cluster_id = state_mgr_.get_self_cluster_id(); if (OB_LOG_MEMBERSHIP != log_entry.get_header().get_log_type() && OB_LOG_START_MEMBERSHIP != log_entry.get_header().get_log_type()) { RLockGuard guard(lock_); if (!log_engine_->is_disk_space_enough()) { ret = OB_LOG_OUTOF_DISK_SPACE; if (REACH_TIME_INTERVAL(1000 * 1000)) { CLOG_LOG(WARN, "log outof disk space", K_(partition_key), K(ret)); } } else if (state_mgr_.get_role() == FOLLOWER && sw_.check_can_receive_larger_log(log_id)) { if (try_update_freeze_version_(log_entry) && OB_FAIL(sw_.receive_log(log_entry, fake_server, self_cluster_id, fake_type))) { CLOG_LOG(WARN, "follower active receive log failed", K_(partition_key), K(ret), K(log_entry)); } else if (is_accum_checksum_valid && OB_FAIL(sw_.set_log_archive_accum_checksum(log_id, accum_checksum))) { CLOG_LOG(WARN, "sw_ set_log_archive_accum_checksum failed", K(ret), K_(partition_key), K(is_accum_checksum_valid), K(accum_checksum), K(log_entry)); } else if (OB_FAIL(sw_.set_log_confirmed(log_id, is_batch_committed))) { if (OB_ERROR_OUT_OF_RANGE != ret) { CLOG_LOG(WARN, "sw_.set_log_confirmed failed", K_(partition_key), K(ret), K(log_entry)); } else { // Its role may switch to LEADER during fetching log, // it may alredy received this log and slide it out, so we need avoid reporting error here ret = OB_SUCCESS; } } else { if (REACH_TIME_INTERVAL(1000 * 1000)) { CLOG_LOG(INFO, "receive_archive_log succ", K_(partition_key), K(ret), K(log_entry)); } } } else { ret = OB_EAGAIN; } } else { WLockGuardWithTimeout guard(lock_, WRLOCK_TIMEOUT_US + ObTimeUtility::current_time(), ret); if (OB_FAIL(ret)) { CLOG_LOG(WARN, "receive log wrlock failed", K(ret), K_(partition_key), K(log_entry)); } else if (!log_engine_->is_disk_space_enough()) { ret = OB_LOG_OUTOF_DISK_SPACE; if (REACH_TIME_INTERVAL(1000 * 1000)) { CLOG_LOG(WARN, "log outof disk space", K_(partition_key), K(ret)); } } else if (state_mgr_.get_role() == FOLLOWER && sw_.check_can_receive_larger_log(log_id)) { if (try_update_freeze_version_(log_entry) && OB_FAIL(mm_.receive_log(log_entry, fake_server, self_cluster_id, fake_type))) { CLOG_LOG(WARN, "follower active receive log failed", K_(partition_key), K(ret), K(log_entry)); } else if (is_accum_checksum_valid && OB_FAIL(sw_.set_log_archive_accum_checksum(log_id, accum_checksum))) { CLOG_LOG(WARN, "sw_ set_log_archive_accum_checksum failed", K(ret), K_(partition_key), K(is_accum_checksum_valid), K(accum_checksum), K(log_entry)); } else { int tmp_ret = OB_SUCCESS; if (OB_SUCCESS != (tmp_ret = sw_.set_log_confirmed(log_id, false))) { CLOG_LOG(WARN, "sw_.set_log_confirmed failed", K_(partition_key), K(tmp_ret), K(log_entry)); } if (REACH_TIME_INTERVAL(1000 * 1000)) { CLOG_LOG(INFO, "receive_archive_log succ", K_(partition_key), K(ret), K(log_entry)); } } } else { ret = OB_EAGAIN; } } } if (OB_ALLOCATE_MEMORY_FAILED == ret) { ret = OB_EAGAIN; if (REACH_TIME_INTERVAL(1 * 1000 * 1000L)) { CLOG_LOG(WARN, "failed because of lack of memory", K_(partition_key), K(ret), K(log_entry)); } } return ret; } int ObPartitionLogService::process_archive_checkpoint(const uint64_t next_log_id, const int64_t next_log_ts) { int ret = OB_SUCCESS; RLockGuard guard(lock_); if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (OB_INVALID_ID == next_log_id || OB_INVALID_TIMESTAMP == next_log_ts) { ret = OB_INVALID_ARGUMENT; CLOG_LOG(WARN, "invalid arguments", K(ret), K_(partition_key), K(next_log_id), K(next_log_ts)); } else if (!restore_mgr_.is_archive_restoring() || state_mgr_.is_offline() || !state_mgr_.is_follower_active() || RESTORE_LEADER != restore_mgr_.get_role()) { ret = OB_STATE_NOT_MATCH; CLOG_LOG(WARN, "process_archive_checkpoint in unexpected state", K_(partition_key), K(ret), "is_archive_resorting", restore_mgr_.is_archive_restoring(), "role", restore_mgr_.get_role(), "is_offline", state_mgr_.is_offline()); } else { uint64_t curr_leader_next_log_id = OB_INVALID_ID; int64_t curr_leader_next_log_ts = OB_INVALID_TIMESTAMP; sw_.get_next_replay_log_id_info(curr_leader_next_log_id, curr_leader_next_log_ts); if (next_log_id != curr_leader_next_log_id) { ret = OB_EAGAIN; if (REACH_TIME_INTERVAL(1 * 1000 * 1000)) { CLOG_LOG(WARN, "pre logs have not slide out", K(ret), K_(partition_key), K(next_log_id), K(next_log_ts), K(curr_leader_next_log_id)); } } else if (OB_FAIL(sw_.follower_update_leader_next_log_info(next_log_id, next_log_ts))) { CLOG_LOG(WARN, "sw_.follower_update_leader_next_log_info failed", K(ret), K_(partition_key)); } else { // do nothing } } return ret; } int ObPartitionLogService::get_restore_leader_info(bool& is_restore_leader, int64_t& leader_takeover_ts) { int ret = OB_SUCCESS; RLockGuard guard(lock_); if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (!restore_mgr_.is_archive_restoring()) { ret = OB_STATE_NOT_MATCH; CLOG_LOG(WARN, "state not match", K(ret), K_(partition_key)); } else { is_restore_leader = (RESTORE_LEADER == restore_mgr_.get_role()); leader_takeover_ts = restore_mgr_.get_last_takeover_time(); } return ret; } int ObPartitionLogService::fake_receive_log( const ObAddr& server, const uint64_t log_id, const ObProposalID& proposal_id) { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (!server.is_valid() || !proposal_id.is_valid() || OB_INVALID_ID == log_id) { ret = OB_INVALID_ARGUMENT; CLOG_LOG(WARN, "invalid argument", K_(partition_key), K(server), K(proposal_id), K(log_id)); } else { RLockGuard guard(lock_); if (proposal_id != state_mgr_.get_proposal_id()) { // proposal_id not match, skip } else if (state_mgr_.get_role() == FOLLOWER && ObReplicaTypeCheck::is_paxos_replica(mm_.get_replica_type()) && state_mgr_.is_cluster_allow_vote()) { if (!log_engine_->is_disk_space_enough() || !sw_.check_can_receive_larger_log(log_id)) { // paxos replica need feedback to leader when it cannot receive log const ObProposalID self_proposal_id = state_mgr_.get_proposal_id(); if (OB_FAIL(log_engine_->submit_fake_ack(server, partition_key_, log_id, self_proposal_id))) { CLOG_LOG(WARN, "notify_cannot_receive_log failed", K(ret), K_(partition_key), K(server), K(log_id)); } } else { // follower need execute fetching immediately when it can receive log bool is_fetched = false; sw_.do_fetch_log(log_id, log_id + 1, POINT_FETCH_LOG_EXECUTE_TYPE, is_fetched); } } } return ret; } int ObPartitionLogService::ack_log(const ObAddr& server, const uint64_t log_id, const ObProposalID& proposal_id) { int ret = OB_SUCCESS; RLockGuard guard(lock_); bool is_in_curr_member_list = mm_.get_curr_member_list().contains(server); if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (!state_mgr_.can_receive_log_ack(proposal_id) || self_ == server) { if (partition_reach_time_interval(1000 * 1000, ack_log_time_)) { CLOG_LOG(WARN, "can not ack log", K_(partition_key), "role", state_mgr_.get_role(), "state", state_mgr_.get_state(), "current_proposal_id", state_mgr_.get_proposal_id(), K(server), K_(self), K(log_id), K(proposal_id)); } ret = OB_STATE_NOT_MATCH; } else if (!is_in_curr_member_list) { // if not paxos member, record ts and skip majority count } else if (LEADER == state_mgr_.get_role() || STANDBY_LEADER == state_mgr_.get_role()) { // only leader need to count majority, other parent skip CLOG_LOG(DEBUG, "ack_log", K_(partition_key), K(server), K(log_id)); bool majority = false; bool is_lease_valid = true; if (OB_SUCCESS != (ret = sw_.ack_log(log_id, server, majority))) { if (OB_CLOG_INVALID_ACK != ret) { CLOG_LOG(WARN, "sw ack_log failed", K_(partition_key), K(ret), K(log_id)); } } else if (majority && is_lease_valid) { // this log has been majority if (state_mgr_.can_majority_cb(proposal_id)) { // LEADER executes majority_cb if (OB_SUCCESS != (ret = majority_cb_(log_id))) { CLOG_LOG(WARN, "majority cb failed", K_(partition_key), K(ret), K(log_id)); } } else if (state_mgr_.can_standby_majority_cb(proposal_id)) { // STANDBY_LEADER executes standby_majority_cb share::ObCascadMember primary_leader = state_mgr_.get_primary_leader(); if (!primary_leader.is_valid()) { // if current primary_leader is invalid, it can use prepared_primary_leader primary_leader = state_mgr_.get_prepared_primary_leader(); if (primary_leader.is_valid() && primary_leader.get_server() != proposal_id.addr_) { CLOG_LOG(WARN, "prepared_primary_leader is not match with curr_proposal_id, ignore", K_(partition_key), K(ret), K(log_id), K(primary_leader), K(proposal_id)); // reset it when it is not same with proposal_id primary_leader.reset(); } } if (OB_FAIL(standby_majority_cb_( primary_leader.get_server(), primary_leader.get_cluster_id(), proposal_id, log_id))) { CLOG_LOG(WARN, "standby_majority_cb_ failed", K_(partition_key), K(ret), K(primary_leader), K(log_id)); } } else { // do nothing } } else { } } else { } return ret; } int ObPartitionLogService::standby_ack_log( const ObAddr& server, const int64_t cluster_id, const uint64_t log_id, const ObProposalID& proposal_id) { int ret = OB_SUCCESS; RLockGuard guard(lock_); if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (LEADER != state_mgr_.get_role()) { // self is not leader, ignore standby_ack // standby replica can be child of primary follower replica since 2.2.70 } else if (!state_mgr_.can_receive_log_ack(proposal_id) || self_ == server) { ret = OB_STATE_NOT_MATCH; if (REACH_TIME_INTERVAL(1000 * 1000)) { CLOG_LOG(WARN, "can not standby_ack_log", K(ret), K_(partition_key), "role", state_mgr_.get_role(), "state", state_mgr_.get_state(), "current_proposal_id", state_mgr_.get_proposal_id(), K(server), K_(self), K(log_id), K(proposal_id)); } } else if (!GCTX.need_sync_to_standby() || ObMultiClusterUtil::is_cluster_private_table(partition_key_.get_table_id())) { if (REACH_TIME_INTERVAL(1000 * 1000)) { CLOG_LOG(INFO, "need ignore standby_ack", K_(partition_key), K(server), K(cluster_id), K(log_id)); } } else { share::ObCascadMember sync_child = cascading_mgr_.get_sync_standby_child(); if (sync_child.get_server() != server) { if (REACH_TIME_INTERVAL(100 * 1000)) { CLOG_LOG(WARN, "server is not curr sync_child, ignore", K_(partition_key), K(server), K(sync_child)); } } else { bool majority = false; if (OB_SUCCESS != (ret = sw_.standby_ack_log(log_id, server, majority))) { if (OB_CLOG_INVALID_ACK != ret) { CLOG_LOG(WARN, "sw ack_log failed", K_(partition_key), K(ret), K(log_id)); } } else if (majority && state_mgr_.can_majority_cb(proposal_id) && OB_SUCCESS != (ret = majority_cb_(log_id))) { CLOG_LOG(WARN, "majority cb failed", K_(partition_key), K(ret), K(log_id)); } else { } CLOG_LOG(DEBUG, "standby_ack_log", K_(partition_key), K(server), K(cluster_id), K(log_id)); } } return ret; } int ObPartitionLogService::fake_ack_log(const ObAddr& server, const uint64_t log_id, const ObProposalID& proposal_id) { int ret = OB_SUCCESS; RLockGuard guard(lock_); bool is_in_curr_member_list = mm_.get_curr_member_list().contains(server); if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (!state_mgr_.can_receive_log_ack(proposal_id) || self_ == server) { ret = OB_STATE_NOT_MATCH; } else if (LEADER != state_mgr_.get_role() || !is_in_curr_member_list) { // self is not leader or sender is not paxos member, ignore } else if (log_id != sw_.get_start_id()) { // log_id not match with current start_id, skip } else { const int64_t receive_ts = ObTimeUtility::current_time(); if (OB_SUCCESS != (ret = sw_.fake_ack_log(log_id, server, receive_ts))) { CLOG_LOG(WARN, "sw fake_ack_log failed", K_(partition_key), K(ret), K(log_id)); } } CLOG_LOG(DEBUG, "fake_ack_log finished", K(ret), K_(partition_key), K(server), K(proposal_id), K(log_id), "start_id", sw_.get_start_id()); return ret; } int ObPartitionLogService::ack_renew_ms_log( const ObAddr& server, const uint64_t log_id, const int64_t submit_ts, const ObProposalID& ms_proposal_id) { int ret = OB_SUCCESS; RLockGuard guard(lock_); bool is_in_curr_member_list = mm_.get_curr_member_list().contains(server); if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (!state_mgr_.can_receive_renew_ms_log_ack(ms_proposal_id) || self_ == server) { if (partition_reach_time_interval(1000 * 1000, ack_log_time_)) { CLOG_LOG(WARN, "can not ack log", K_(partition_key), "role", state_mgr_.get_role(), "state", state_mgr_.get_state(), "curr_proposal_id", state_mgr_.get_proposal_id(), "curr_ms_proposal_id", mm_.get_ms_proposal_id(), K(server), K_(self), K(log_id), K(ms_proposal_id)); } ret = OB_STATE_NOT_MATCH; } else if (!is_in_curr_member_list) { // if not paxos member, record ts and skip majority count } else { // only leader need to count majority, other parent skip bool majority = false; if (OB_SUCCESS != (ret = ms_task_mgr_.ack_renew_ms_log(log_id, submit_ts, ms_proposal_id, server, majority))) { if (OB_CLOG_INVALID_ACK != ret) { CLOG_LOG(WARN, "sw ack_log failed", K_(partition_key), K(ret), K(log_id), K(ms_proposal_id)); } } else if (majority && OB_SUCCESS != (ret = renew_ms_log_majority_cb_(log_id, submit_ts, ms_proposal_id))) { CLOG_LOG(WARN, "majority cb failed", K_(partition_key), K(ret), K(log_id)); } else { } CLOG_LOG(INFO, "ack_renew_ms_log finished", K_(partition_key), K(server), K(log_id), K(ms_proposal_id), K(majority)); } return ret; } int ObPartitionLogService::resp_sw_info_when_get_log_(const ObAddr& server, const int64_t cluster_id) { int ret = OB_SUCCESS; RLockGuard rdlock_guard(lock_); bool is_leader = (LEADER == state_mgr_.get_role() || STANDBY_LEADER == state_mgr_.get_role()); if (is_leader || cascading_mgr_.is_valid_child(server)) { uint64_t next_log_id = OB_INVALID_ID; int64_t next_log_ts = OB_INVALID_TIMESTAMP; sw_.get_next_replay_log_id_info(next_log_id, next_log_ts); if (OB_FAIL(log_engine_->send_keepalive_msg( server, cluster_id, partition_key_, next_log_id, next_log_ts, 0 /* deliver_cnt */))) { CLOG_LOG(WARN, "send_keepalive_msg failed", K(ret), K_(partition_key), K(server)); } } return ret; } bool ObPartitionLogService::is_primary_need_sync_to_standby_() const { bool bool_ret = false; if (GCTX.is_primary_cluster() && GCTX.need_sync_to_standby() && !ObMultiClusterUtil::is_cluster_private_table(partition_key_.get_table_id())) { bool_ret = true; } return bool_ret; } int ObPartitionLogService::process_restore_check_req( const common::ObAddr& server, const int64_t cluster_id, const ObRestoreCheckType restore_type) { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (!server.is_valid() || OB_INVALID_CLUSTER_ID == cluster_id || OB_CHECK_UNKNOWN == restore_type) { ret = OB_INVALID_ARGUMENT; } else if (OB_CHECK_STANDBY_RESTORE == restore_type) { RLockGuard guard(lock_); if (restore_mgr_.is_standby_restore_state()) { if (REACH_TIME_INTERVAL(100 * 1000)) { CLOG_LOG(INFO, "self is still in restore state, ignore check restore msg", K_(partition_key), K(server)); } } else if (STANDBY_LEADER == state_mgr_.get_role()) { // STANDBY_LEADER notify follower to exec restore bool is_in_member_list = mm_.get_curr_member_list().contains(server); const uint64_t fake_start_id = OB_INVALID_ID; if (OB_FAIL(log_engine_->notify_follower_log_missing( server, cluster_id, partition_key_, fake_start_id, is_in_member_list, OB_STANDBY_RESTORE_MSG))) { CLOG_LOG(WARN, "notify_follower_log_missing failed", K_(partition_key), K(server)); } else { if (REACH_TIME_INTERVAL(100 * 1000)) { CLOG_LOG(INFO, "notify follower restore finished", K_(partition_key), K(server)); } } } else { // other role, do nothing } } else if (OB_CHECK_RESTORE_END_ID == restore_type) { if (OB_FAIL(process_query_restore_end_id_req_(server, cluster_id))) { CLOG_LOG(WARN, "process_query_restore_end_id_req_ failed", K(ret), K_(partition_key), K(server)); } } else { } return ret; } int ObPartitionLogService::process_query_restore_end_id_req_(const common::ObAddr& server, const int64_t cluster_id) { int ret = OB_SUCCESS; uint64_t local_restore_end_id = OB_INVALID_ID; int64_t unused_log_ts = OB_INVALID_TIMESTAMP; int64_t unused_version = OB_INVALID_TIMESTAMP; RLockGuard guard(lock_); if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (OB_FAIL( partition_service_->get_restore_replay_info(partition_key_, local_restore_end_id, unused_log_ts, unused_version))) { CLOG_LOG(WARN, "failed to get_restore_replay_info", K(ret), K_(partition_key), K(local_restore_end_id)); } else if (OB_INVALID_ID == local_restore_end_id) { CLOG_LOG(WARN, "local_restore_end_id is invalid, cannot response", K_(partition_key), K(local_restore_end_id)); } else if (OB_FAIL(log_engine_->send_query_restore_end_id_resp( server, cluster_id, partition_key_, local_restore_end_id))) { CLOG_LOG( WARN, "send_query_restore_end_id_resp failed", K(ret), K_(partition_key), K(server), K(local_restore_end_id)); } else { } return ret; } int ObPartitionLogService::process_query_restore_end_id_resp( const common::ObAddr& server, const uint64_t last_restore_log_id) { int ret = OB_SUCCESS; uint64_t local_restore_end_id = OB_INVALID_ID; int64_t unused_log_ts = OB_INVALID_TIMESTAMP; int64_t unused_version = OB_INVALID_TIMESTAMP; RLockGuard guard(lock_); if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (!server.is_valid() || OB_INVALID_ID == last_restore_log_id) { ret = OB_INVALID_ARGUMENT; CLOG_LOG(WARN, "invalid arguments", K(ret), K_(partition_key), K(server), K(last_restore_log_id)); } else if (!restore_mgr_.is_archive_restoring_mlist()) { // self is not in restoring mlist state, ignore } else if (!mm_.get_curr_member_list().contains(server)) { CLOG_LOG(WARN, "server is not in member_list, ignore it", K_(partition_key), K(server), K(last_restore_log_id)); } else if (OB_FAIL( partition_service_->get_restore_replay_info(partition_key_, local_restore_end_id, unused_log_ts, unused_version))) { CLOG_LOG(WARN, "failed to get_restore_replay_info", K(ret), K_(partition_key), K(local_restore_end_id)); } else if (last_restore_log_id != local_restore_end_id) { // last_restore_log_id is not match with local, unexpected error (void)report_physical_restore_unexpected_error_(); SERVER_EVENT_ADD("clog_restore", "last_restore_log_id not match", "partition", partition_key_, "last_restore_log_id", local_restore_end_id); ret = OB_ERR_UNEXPECTED; CLOG_LOG(ERROR, "last_restore_log_id is not match with local, unexpected", K(ret), K_(partition_key), K(local_restore_end_id), K(last_restore_log_id), K(server)); } else if (OB_FAIL(restore_mgr_.process_restore_end_id_resp(server))) { CLOG_LOG(WARN, "process_restore_end_id_resp failed", K(ret), K_(partition_key), K(server), K(last_restore_log_id)); } else { } return ret; } int ObPartitionLogService::get_log(const common::ObAddr& server, const uint64_t start_log_id, const int64_t log_num, const ObFetchLogType fetch_type, const ObProposalID& proposal_id, const int64_t cluster_id, const common::ObReplicaType replica_type, const int64_t network_limit, const uint64_t max_confirmed_log_id) { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (OB_UNLIKELY(!server.is_valid()) || OB_UNLIKELY(start_log_id <= 0) || OB_UNLIKELY(log_num < 0) || OB_FETCH_LOG_UNKNOWN == fetch_type || OB_ISNULL(log_engine_) || OB_ISNULL(fetch_log_engine_) || OB_ISNULL(partition_service_) || network_limit < 0 || OB_INVALID_CLUSTER_ID == cluster_id) { ret = OB_INVALID_ARGUMENT; CLOG_LOG(WARN, "invalid arguments", K(ret), K_(partition_key), K(server), K(start_log_id), K(log_num), K(fetch_type), KP_(log_engine), KP_(fetch_log_engine), KP_(partition_service), K(network_limit), K(cluster_id)); } else if (server == self_) { // ignore self_ } else if (OB_FETCH_LOG_STANDBY_REPLICA == fetch_type && cluster_id == state_mgr_.get_self_cluster_id()) { CLOG_LOG( WARN, "receive same cluster_id standby fetch log req, unexpected", K_(partition_key), K(server), K(cluster_id)); } else if (!state_mgr_.can_get_log(cluster_id)) { if (REACH_TIME_INTERVAL(100 * 1000)) { CLOG_LOG(WARN, "cannot get_log", K_(partition_key), K(server), K(cluster_id), K(fetch_type)); } } else if (OB_FETCH_LOG_STANDBY_RESTORE == fetch_type) { RLockGuard guard(lock_); if (restore_mgr_.is_standby_restore_state()) { if (REACH_TIME_INTERVAL(100 * 1000)) { CLOG_LOG(INFO, "self is still in restore state, ignore check restore msg", K_(partition_key), K(server)); } } else if (LEADER == state_mgr_.get_role()) { if (REACH_TIME_INTERVAL(100 * 1000)) { CLOG_LOG(INFO, "leader receive standby restore replica's fetch req, ignore", K_(partition_key), K(server), K(cluster_id)); } } else if (STANDBY_LEADER == state_mgr_.get_role()) { bool is_in_member_list = mm_.get_curr_member_list().contains(server); if (OB_FAIL(log_engine_->notify_follower_log_missing( server, cluster_id, partition_key_, start_log_id, is_in_member_list, OB_STANDBY_RESTORE_MSG))) { CLOG_LOG(WARN, "notify_follower_log_missing failed", K_(partition_key), K(server)); } else { if (REACH_TIME_INTERVAL(100 * 1000)) { CLOG_LOG(INFO, "notify follower restore finished", K_(partition_key), K(server)); } } } else { // do nothing } } else if (OB_FETCH_LOG_LEADER_RECONFIRM == fetch_type && (restore_mgr_.is_archive_restoring() || restore_mgr_.is_archive_restoring_mlist())) { // Restoring replica cannot response reconfirm fetch log req, because its last_restore_log_id maybe is // not match with current leader. // fix issue #35207594 if (REACH_TIME_INTERVAL(1000 * 1000)) { CLOG_LOG(INFO, "self is still in archive restore state, cannot response reconfirm fetch log req", K_(partition_key), K(server)); } } else { bool is_in_member_list = mm_.get_curr_member_list().contains(server); bool is_in_children_list = (cascading_mgr_.is_valid_child(server)); if (OB_FETCH_LOG_FOLLOWER_ACTIVE == fetch_type || OB_FETCH_LOG_STANDBY_REPLICA == fetch_type) { RLockGuard guard(lock_); ret = cascading_mgr_.check_child_legal(server, cluster_id, replica_type); } // primary leader try set standby_ack according to standby_leader's max_confirmed_log_id // in leader reconfirm state if (OB_FETCH_LOG_STANDBY_REPLICA == fetch_type) { RLockGuard guard(lock_); ObCascadMember sync_child = cascading_mgr_.get_sync_standby_child(); if (state_mgr_.is_leader_reconfirm() && is_primary_need_sync_to_standby_() && OB_INVALID_ID != max_confirmed_log_id && server == sync_child.get_server() && cluster_id == sync_child.get_cluster_id()) { int tmp_ret = OB_SUCCESS; uint64_t reconfirm_next_id = OB_INVALID_ID; if (OB_INVALID_ID == (reconfirm_next_id = reconfirm_.get_next_id())) { // reconfirm is initializing, skip } else if (OB_SUCCESS != (tmp_ret = sw_.process_sync_standby_max_confirmed_id(max_confirmed_log_id, reconfirm_next_id))) { CLOG_LOG(WARN, "process_sync_standby_max_confirmed_id failed", K(tmp_ret), K_(partition_key), K(server), K(cluster_id), K(max_confirmed_log_id), K(reconfirm_next_id)); } else { } } } if (start_log_id > sw_.get_max_log_id() && OB_FETCH_LOG_LEADER_RECONFIRM != fetch_type) { // no log can be supplied for followers in this server, do nothing if (REACH_TIME_INTERVAL(5 * 1000 * 1000)) { CLOG_LOG(INFO, "wanted log are not supplied in this server", K(start_log_id), "sw_max_log_id", sw_.get_max_log_id(), K(server), K(fetch_type), K_(partition_key), K(is_in_member_list), K(is_in_children_list)); } } else if (check_if_need_rebuild_(start_log_id, fetch_type)) { if (OB_FETCH_LOG_LEADER_RECONFIRM == fetch_type) { // new leader lagged behind too many, let the leader reconfirm fail // do nothing if (REACH_TIME_INTERVAL(2 * 1000 * 1000)) { CLOG_LOG(WARN, "new leader lagged behind too many", K_(partition_key), K(server), K(start_log_id), K(is_in_member_list), K(is_in_children_list)); } } else { CLOG_LOG(INFO, "follower try to fetch too old log, need rebuild", K_(partition_key), K(server), K(start_log_id), K(is_in_member_list), K(is_in_children_list)); (void)log_engine_->notify_follower_log_missing( server, cluster_id, partition_key_, start_log_id, is_in_member_list, OB_REBUILD_MSG); } } else if (log_num > 0) { uint64_t end_log_id = start_log_id + static_cast(log_num); // [start, end); const bool is_learner_fetching = (OB_FETCH_LOG_LEADER_RECONFIRM != fetch_type && !is_in_member_list && !is_in_children_list); const uint64_t end_limit_log_id = (is_learner_fetching ? (sw_.get_next_index_log_id()) : (sw_.get_max_log_id() + 1)); if (OB_FETCH_LOG_LEADER_RECONFIRM != fetch_type) { end_log_id = MIN(end_log_id, end_limit_log_id); } uint64_t round_start_log_id = start_log_id; while (OB_SUCC(ret) && round_start_log_id < end_log_id) { uint64_t round_end_log_id = MIN(round_start_log_id + CLOG_ST_FETCH_LOG_COUNT, end_log_id); ObFetchLogTask* task = NULL; if (OB_UNLIKELY(NULL == (task = alloc_mgr_->alloc_fetch_log_task()))) { ret = OB_ALLOCATE_MEMORY_FAILED; CLOG_LOG(WARN, "alloc fetch_log_task failed", K(ret), K_(partition_key)); } else if (OB_FAIL(task->init(partition_key_, server, cluster_id, round_start_log_id, round_end_log_id, fetch_type, proposal_id, network_limit))) { CLOG_LOG(WARN, "init fetch log task error", K(ret), K_(partition_key), K(round_start_log_id), K(round_end_log_id), K(fetch_type), K(proposal_id)); } else if (OB_FAIL(fetch_log_engine_->submit_fetch_log_task(task))) { CLOG_LOG(WARN, "submit fetch log task error", K(ret), K_(partition_key)); } else { round_start_log_id = round_end_log_id; if (REACH_TIME_INTERVAL(50 * 1000)) { CLOG_LOG(INFO, "submit fetch log task succ", K_(partition_key), K(*task)); } } if (OB_FAIL(ret) && NULL != task) { ob_slice_free_fetch_log_task(task); task = NULL; } } } if (!is_in_member_list && !is_in_children_list && cluster_version_before_2250_()) { (void)resp_sw_info_when_get_log_(server, cluster_id); } if (OB_FETCH_LOG_RESTORE_FOLLOWER == fetch_type) { int tmp_ret = OB_SUCCESS; if (start_log_id > sw_.get_max_log_id() && sw_.get_max_log_id() <= sw_.get_max_confirmed_log_id() && restore_mgr_.is_restore_log_finished()) { if (OB_SUCCESS != (tmp_ret = log_engine_->notify_restore_log_finished(server, cluster_id, partition_key_, start_log_id))) { CLOG_LOG(WARN, "notify_restore_log_finished failed", K(tmp_ret), K(partition_key_), K(server)); } else { CLOG_LOG(DEBUG, "notify_restore_log_finished", K(partition_key_), K(server)); } } } } return ret; } int ObPartitionLogService::async_get_log(const common::ObAddr& server, const int64_t cluster_id, const uint64_t start_log_id, const uint64_t end_log_id, const ObFetchLogType fetch_type, const common::ObProposalID& proposal_id, const int64_t network_limit) { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else { uint32_t log_attr = ObFetchLogAttr::NO_DEMAND; if (OB_FETCH_LOG_STANDBY_REPLICA == fetch_type) { // standby replica's fetch log request, need guarantees log has reach majority in local cluster log_attr = ObFetchLogAttr::NEED_MAJORITY; } bool need_send_confirm_info = false; if (OB_FETCH_LOG_FOLLOWER_ACTIVE == fetch_type || OB_FETCH_LOG_RESTORE_FOLLOWER == fetch_type || OB_FETCH_LOG_STANDBY_REPLICA == fetch_type) { need_send_confirm_info = true; } switch (fetch_type) { case OB_FETCH_LOG_FOLLOWER_ACTIVE: case OB_FETCH_LOG_RESTORE_FOLLOWER: case OB_FETCH_LOG_STANDBY_REPLICA: ret = get_log_follower_active_( server, cluster_id, start_log_id, end_log_id, fetch_type, log_attr, need_send_confirm_info, network_limit); break; case OB_FETCH_LOG_LEADER_RECONFIRM: ret = get_log_leader_reconfirm_( server, start_log_id, end_log_id, log_attr, need_send_confirm_info, proposal_id, network_limit); break; default: CLOG_LOG(ERROR, "wrong fetch log type", K_(partition_key), K(fetch_type)); ret = OB_ERR_UNEXPECTED; break; } } return ret; } int ObPartitionLogService::get_log_follower_active_(const common::ObAddr& server, const int64_t cluster_id, const uint64_t start_log_id, const uint64_t end_log_id, const ObFetchLogType& fetch_type, const uint32_t log_attr, const bool need_send_confirm_info, const int64_t network_limit) { int ret = OB_SUCCESS; ObProposalID curr_proposal_id; bool can_get_log = false; do { RLockGuard guard(lock_); curr_proposal_id = state_mgr_.get_proposal_id(); can_get_log = (state_mgr_.can_get_log(cluster_id) || restore_mgr_.is_archive_restoring() || cascading_mgr_.is_valid_child(server)); // need_log_confirmed = (state_mgr_.get_state() == RECONFIRM); } while (0); if (can_get_log) { ret = internal_fetch_log_(start_log_id, end_log_id, fetch_type, curr_proposal_id, server, cluster_id, log_attr, need_send_confirm_info, network_limit); } return ret; } int ObPartitionLogService::get_log_leader_reconfirm_(const common::ObAddr& server, const uint64_t start_log_id, const uint64_t end_log_id, const uint32_t log_attr, const bool need_send_confirm_info, const common::ObProposalID& proposal_id, const int64_t network_limit) { int ret = OB_SUCCESS; ObProposalID curr_proposal_id; bool can_get_log = false; do { RLockGuard guard(lock_); curr_proposal_id = state_mgr_.get_proposal_id(); can_get_log = state_mgr_.can_get_log_for_reconfirm(proposal_id); } while (0); if (can_get_log) { const int64_t cluster_id = obrpc::ObRpcNetHandler::CLUSTER_ID; ret = internal_fetch_log_(start_log_id, end_log_id, OB_FETCH_LOG_LEADER_RECONFIRM, curr_proposal_id, server, cluster_id, log_attr, need_send_confirm_info, network_limit); } return ret; } int ObPartitionLogService::internal_fetch_log_(const uint64_t start_log_id, const uint64_t end_log_id, const ObFetchLogType& fetch_type, const ObProposalID& proposal_id, const common::ObAddr& server, const int64_t cluster_id, const uint32_t log_attr, const bool need_send_confirm_info, const int64_t network_limit) { int ret = OB_SUCCESS; ObLogCursorExt cursor_array[ObCursorArrayCache::CURSOR_ARRAY_SIZE]; ObGetCursorResult result; result.csr_arr_ = cursor_array; result.arr_len_ = ObCursorArrayCache::CURSOR_ARRAY_SIZE; result.ret_len_ = 0; uint64_t cursor_start_log_id = OB_INVALID_ID; for (uint64_t log_id = start_log_id; OB_SUCC(ret) && log_id < end_log_id; log_id++) { if (log_id < sw_.get_start_id()) { if (OB_FAIL(fetch_log_from_ilog_storage_(log_id, fetch_type, proposal_id, server, cluster_id, need_send_confirm_info, network_limit, result, cursor_start_log_id))) { CLOG_LOG(WARN, "fetch_log_from_ilog_storage_ failed", K(ret), K(partition_key_), K(log_id), K(proposal_id), K(server), K(need_send_confirm_info)); } } else { if (OB_FAIL(fetch_log_from_sw_( log_id, fetch_type, proposal_id, server, cluster_id, log_attr, need_send_confirm_info, network_limit)) && OB_ERROR_OUT_OF_RANGE != ret) { CLOG_LOG(WARN, "fetch_log_from_sw_ failed", K(ret), K(partition_key_), K(log_id), K(proposal_id), K(server), K(need_send_confirm_info)); } else if (OB_ERROR_OUT_OF_RANGE == ret) { if (OB_FAIL(fetch_log_from_ilog_storage_(log_id, fetch_type, proposal_id, server, cluster_id, need_send_confirm_info, network_limit, result, cursor_start_log_id))) { CLOG_LOG(WARN, "fetch_log_from_ilog_storage_ failed", K(ret), K(partition_key_), K(log_id), K(proposal_id), K(server), K(need_send_confirm_info)); } } else { // do nothing } } } return ret; } int ObPartitionLogService::fetch_log_from_sw_(const uint64_t log_id, const ObFetchLogType& fetch_type, const ObProposalID& proposal_id, const common::ObAddr& server, const int64_t cluster_id, const uint32_t log_attr, const bool need_send_confirm_info, const int64_t network_limit) { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; CLOG_LOG(WARN, "ObPartitionLogService is not inited", K(ret), K(partition_key_)); } else if (OB_INVALID_ID == log_id || OB_FETCH_LOG_UNKNOWN == fetch_type || (!proposal_id.is_valid() && !restore_mgr_.is_archive_restoring()) || !server.is_valid()) { ret = OB_INVALID_ARGUMENT; CLOG_LOG(WARN, "invalid arguments", K(ret), K(partition_key_), K(log_id), K(fetch_type), K(proposal_id), K(server)); } else { ObLogCursor log_cursor; bool log_confirmed = false; int64_t accum_checksum = 0; bool batch_committed = false; if (OB_SUCCESS == (ret = sw_.get_log(log_id, log_attr, log_confirmed, log_cursor, accum_checksum, batch_committed))) { ret = OB_ERR_UNEXPECTED; CLOG_LOG(ERROR, "get_log return value unexpected", K(ret), K(partition_key_), K(log_id)); } else if (OB_LOG_MISSING == ret && log_cursor.is_valid()) { const bool need_send_confirm_info_tmp = (need_send_confirm_info && log_confirmed); ret = get_log_with_cursor_(server, cluster_id, fetch_type, proposal_id, need_send_confirm_info_tmp, log_confirmed, log_cursor, accum_checksum, batch_committed, network_limit); } else if (OB_LOG_MISSING == ret || OB_ERR_NULL_VALUE == ret) { if (REACH_TIME_INTERVAL(100 * 1000)) { CLOG_LOG(INFO, "getlog failed, log is not in sw", K(ret), K(partition_key_), K(log_id), K(fetch_type), K(proposal_id), K(server)); } if (OB_FETCH_LOG_LEADER_RECONFIRM == fetch_type && OB_ERR_NULL_VALUE == ret) { ret = send_null_log_(server, cluster_id, log_id, proposal_id, network_limit); } else { // do nothing ret = OB_SUCCESS; } } else if (OB_EAGAIN == ret) { CLOG_LOG(INFO, "get log not confirmed or pinned", K(ret), K(partition_key_), K(log_id), K(fetch_type), K(proposal_id), K(server), K(log_attr), K(log_confirmed)); ret = OB_SUCCESS; } else if (OB_ERROR_OUT_OF_RANGE == ret) { CLOG_LOG(INFO, "log is not in sw, error_out_of_range", K(ret), K(partition_key_), K(log_id), K(fetch_type), K(proposal_id), K(server)); } else { CLOG_LOG(ERROR, "get log failed", K(ret), K(partition_key_), K(log_id), K(fetch_type), K(proposal_id), K(server)); } } CLOG_LOG(TRACE, "fetch_log_from_sw_", K(ret), K(partition_key_), K(log_id), K(fetch_type), K(proposal_id), K(server), K(log_attr), K(need_send_confirm_info)); return ret; } bool ObPartitionLogService::check_if_need_rebuild_(const uint64_t start_log_id, const ObFetchLogType fetch_type) const { // caller guarantees (start_log_id <= max_log_id) bool need_rebuild = false; int ret = OB_SUCCESS; uint64_t last_replay_log_id = OB_INVALID_ID; file_id_t min_file_id = OB_INVALID_FILE_ID; file_id_t max_file_id = OB_INVALID_FILE_ID; ObLogCursorExt log_cursor_ext; const uint64_t start_id = sw_.get_start_id(); UNUSED(fetch_type); if (OB_FAIL(get_storage_last_replay_log_id_(last_replay_log_id))) { CLOG_LOG(WARN, "get_storage_last_replay_log_id_ failed", K(ret), K(partition_key_)); } else if (start_log_id >= start_id) { need_rebuild = false; CLOG_LOG(INFO, "wanted log_id is greater than start_id, no need rebuild", K(start_log_id), K(start_id), K_(partition_key)); } else if (start_log_id > last_replay_log_id) { need_rebuild = false; CLOG_LOG(INFO, "wanted log_id is greater than last_replay_log_id, no need rebuild", K(start_log_id), K(last_replay_log_id), K(start_id), K_(partition_key)); #ifdef ERRSIM } else if (ObServerConfig::get_instance()._ob_enable_rebuild_on_purpose && start_log_id < last_replay_log_id) { need_rebuild = true; CLOG_LOG(INFO, "req server need rebuild", K(ret), K(start_log_id), K(last_replay_log_id)); #endif } else if (OB_FAIL(log_engine_->get_cursor(partition_key_, start_log_id, log_cursor_ext))) { if (OB_ERR_OUT_OF_UPPER_BOUND == ret && start_log_id < start_id) { // this log does not have ilog and log_id is smaller than sw->start_id, need rebuild need_rebuild = true; CLOG_LOG(INFO, "fetch log err out of upper bound, need rebuild", K(ret), K(need_rebuild), K(partition_key_), K(start_log_id), K(start_id)); } else if (OB_CURSOR_NOT_EXIST == ret) { // log cursor does not exist, need rebuild need_rebuild = true; CLOG_LOG(INFO, "fetch log cursor not exist, need rebuild", K(ret), K(need_rebuild), K(partition_key_), K(start_log_id), K(start_id)); } else { CLOG_LOG(WARN, "get_cursor failed", K(ret), K(need_rebuild), K(partition_key_), K(start_log_id), K(start_id)); } } else { const int64_t data_lag_threshold = ObServerConfig::get_instance().rebuild_replica_data_lag_threshold; if (data_lag_threshold > 0) { const uint32_t CLOG_FILE_AHEAD = (uint32_t)(data_lag_threshold / CLOG_FILE_SIZE); // check if need rebuild when config value is set min_file_id = log_engine_->get_clog_min_file_id(); max_file_id = log_engine_->get_clog_max_file_id(); file_id_t start_file_id = log_cursor_ext.get_file_id(); if (max_file_id < start_file_id) { CLOG_LOG(WARN, "invalid max_file_id", K(partition_key_), K(max_file_id)); } else if (start_file_id < min_file_id) { need_rebuild = true; CLOG_LOG(INFO, "log file of start_log_id is already recycled, need rebuild", K(partition_key_), K(start_log_id), K(start_file_id), K(min_file_id)); } else if (max_file_id - start_file_id < CLOG_FILE_AHEAD) { // not reach threshold } else { need_rebuild = true; } } } #ifdef ERRSIM if (ObServerConfig::get_instance()._ob_enable_rebuild_on_purpose && (start_log_id < sw_.get_start_id() || OB_FETCH_LOG_RESTORE_FOLLOWER == fetch_type)) { need_rebuild = true; CLOG_LOG(INFO, "req server need rebuild", K(ret), K(start_log_id)); } #endif return need_rebuild; } int ObPartitionLogService::fetch_log_from_ilog_storage_(const uint64_t log_id, const ObFetchLogType& fetch_type, const ObProposalID& proposal_id, const ObAddr& server, const int64_t cluster_id, const bool need_send_confirm_info, const int64_t network_limit, ObGetCursorResult& result, uint64_t& cursor_start_log_id) { int ret = OB_SUCCESS; ObLogCursorExt log_cursor_ext; bool read_from_clog = true; if (IS_NOT_INIT) { ret = OB_NOT_INIT; CLOG_LOG(WARN, "ObPartitionLogService is not inited", K(ret), K(partition_key_)); } else if (OB_INVALID_ID == log_id || OB_FETCH_LOG_UNKNOWN == fetch_type || (!proposal_id.is_valid() && !restore_mgr_.is_archive_restoring()) || !server.is_valid()) { ret = OB_INVALID_ARGUMENT; CLOG_LOG(WARN, "invalid arguments", K(ret), K(partition_key_), K(log_id), K(fetch_type), K(proposal_id), K(server), K(need_send_confirm_info)); } else if (OB_FAIL( log_engine_->get_cursor_batch(partition_key_, log_id, log_cursor_ext, result, cursor_start_log_id))) { CLOG_LOG(WARN, "log_engine get_cursor_batch failed", K(ret), K(partition_key_), K(log_id), K(fetch_type), K(proposal_id), K(server), K(need_send_confirm_info)); } else { ObLogEntry log_entry; ObReadParam read_param; read_param.file_id_ = log_cursor_ext.get_file_id(); read_param.offset_ = log_cursor_ext.get_offset(); read_param.read_len_ = log_cursor_ext.get_size(); const uint64_t acc_cksm = log_cursor_ext.get_accum_checksum(); const bool batch_committed = log_cursor_ext.is_batch_committed(); ObReadBufGuard guard(ObModIds::OB_LOG_DIRECT_READER_CACHE_ID); ObReadBuf& rbuf = guard.get_read_buf(); if (OB_UNLIKELY(!rbuf.is_valid())) { ret = OB_ALLOCATE_MEMORY_FAILED; CLOG_LOG(WARN, "failed to alloc read_buf", K_(partition_key), K(log_id), K(read_param), K(ret)); } else if (OB_FAIL(log_engine_->read_log_by_location(read_param, rbuf, log_entry))) { CLOG_LOG(WARN, "read log by cursor failed", K(ret), K(partition_key_), K(read_param), K(log_id), K(fetch_type), K(proposal_id), K(server), K(need_send_confirm_info)); read_from_clog = false; } else if (OB_FETCH_LOG_STANDBY_REPLICA == fetch_type && OB_FAIL(log_entry.update_header_proposal_id(proposal_id))) { // fix issue #29473286 CLOG_LOG(WARN, "update_header_proposal_id failed", K(ret), K_(partition_key), K(log_id), K(fetch_type), K(proposal_id), K(log_entry)); } else if (OB_FAIL(send_log_(server, cluster_id, log_entry, proposal_id, network_limit))) { CLOG_LOG(WARN, "send log to server failed", K(ret), K(partition_key_), K(log_id), K(fetch_type), K(proposal_id), K(server), K(need_send_confirm_info)); } else if (need_send_confirm_info) { if (OB_FAIL(send_confirm_info_(server, cluster_id, log_entry, acc_cksm, batch_committed))) { CLOG_LOG(WARN, "send confirm info failed", K(ret), K(partition_key_), K(log_id), K(fetch_type), K(proposal_id), K(server), K(need_send_confirm_info)); } } } if ((OB_CURSOR_NOT_EXIST == ret || !read_from_clog) && OB_FETCH_LOG_LEADER_RECONFIRM != fetch_type) { const bool is_in_member_list = mm_.get_curr_member_list().contains(server); CLOG_LOG(INFO, "this replica need rebuild", K(ret), K(server), K(partition_key_), K(log_id), K(read_from_clog)); uint64_t last_replay_log_id = OB_INVALID_ID; if (OB_FAIL(get_storage_last_replay_log_id_(last_replay_log_id))) { CLOG_LOG(WARN, "get_storage_last_replay_log_id_ failed", K(ret), K(partition_key_), K(log_id), K(fetch_type), K(proposal_id), K(server), K(need_send_confirm_info)); } else if (log_id > last_replay_log_id) { ret = OB_ERR_UNEXPECTED; CLOG_LOG(ERROR, "log_id is larger than last_replay_log_id, unexpected", K(ret), K(partition_key_), K(log_id), K(last_replay_log_id)); } else if (OB_FAIL(log_engine_->notify_follower_log_missing( server, cluster_id, partition_key_, log_id, is_in_member_list, OB_REBUILD_MSG))) { CLOG_LOG(WARN, "notify follower log missing", K(ret), K(partition_key_), K(log_id), K(fetch_type), K(proposal_id), K(server), K(need_send_confirm_info), K(is_in_member_list)); } else { ret = OB_LOG_NEED_REBUILD; } } CLOG_LOG(TRACE, "fetch_log_from_ilog_storage_", K(ret), K(partition_key_), K(log_id), K(fetch_type), K(proposal_id), K(server), K(need_send_confirm_info)); return ret; } int ObPartitionLogService::get_log_with_cursor_(const common::ObAddr& server, const int64_t cluster_id, const ObFetchLogType& fetch_type, const common::ObProposalID& proposal_id, const bool need_send_confirm_info, const bool log_confirmed, const ObLogCursor& log_cursor, const int64_t accum_checksum, const bool batch_committed, const int64_t network_limit) { int ret = OB_SUCCESS; ObLogEntry log_entry; ObReadParam read_param; read_param.file_id_ = log_cursor.file_id_; read_param.offset_ = log_cursor.offset_; read_param.read_len_ = log_cursor.size_; ObReadBufGuard guard(ObModIds::OB_LOG_DIRECT_READER_CACHE_ID); ObReadBuf& rbuf = guard.get_read_buf(); if (OB_UNLIKELY(!rbuf.is_valid())) { ret = OB_ALLOCATE_MEMORY_FAILED; CLOG_LOG(WARN, "failed to alloc read_buf", K_(partition_key), K(log_cursor), K(ret)); } else if (OB_FAIL(log_engine_->read_log_by_location(read_param, rbuf, log_entry))) { CLOG_LOG(WARN, "read_log_by_location failed", K_(partition_key), K(ret), K(log_cursor)); } else if (log_entry.get_header().get_partition_key() != partition_key_) { ret = OB_ERR_UNEXPECTED; CLOG_LOG( ERROR, "read_log_by_location wrong log", K_(partition_key), K(ret), K(log_entry), K(server), K(log_cursor)); } else { bool is_reconfirm_allow_send = true; common::ObProposalID log_proposal_id = log_entry.get_header().get_proposal_id(); if (!log_confirmed && state_mgr_.get_state() == RECONFIRM && (reconfirm_.get_proposal_id() != proposal_id || log_proposal_id != proposal_id)) { is_reconfirm_allow_send = false; } if (!log_confirmed && !is_reconfirm_allow_send) { CLOG_LOG(WARN, "in reconfirm state, not allow send unconfirmed log with old proposal_id", K_(partition_key), K(server), "state_mgr proposal_id", proposal_id, "reconfirm proposal_id", reconfirm_.get_proposal_id(), K(log_proposal_id)); } else if (OB_FETCH_LOG_STANDBY_REPLICA == fetch_type && OB_FAIL(log_entry.update_header_proposal_id(proposal_id))) { // fix issue #29473286 // Log header's proposal_id need be updated to current proposal_id when it is send by primary cluster to standby. CLOG_LOG(WARN, "update_header_proposal_id failed", K(ret), K_(partition_key), K(fetch_type), K(proposal_id), K(log_entry)); } else if (OB_SUCCESS != (ret = send_log_(server, cluster_id, log_entry, proposal_id, network_limit))) { CLOG_LOG(WARN, "send_log failed", K_(partition_key), K(ret), K(server), K(proposal_id), K(log_cursor)); } else if (need_send_confirm_info && (OB_SUCCESS != (ret = send_confirm_info_(server, cluster_id, log_entry, accum_checksum, batch_committed)))) { CLOG_LOG(WARN, "send_confirm_info failed", K_(partition_key), K(ret), K(server), K(proposal_id), K(log_cursor)); } } return ret; } // handle leader_prepare request int ObPartitionLogService::get_max_log_id( const ObAddr& server, const int64_t cluster_id, const ObProposalID& proposal_id) { int ret = OB_SUCCESS; WLockGuardWithTimeout guard(lock_, WRLOCK_TIMEOUT_US + ObTimeUtility::current_time(), ret); if (OB_FAIL(ret)) { CLOG_LOG(WARN, "get_max_log_id wrlock failed", K(ret), K_(partition_key), K(server), K(proposal_id)); } else if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (!server.is_valid() || !proposal_id.is_valid()) { ret = OB_INVALID_ARGUMENT; CLOG_LOG(WARN, "invalid arguments", K(ret), K_(partition_key), K(server), K(proposal_id)); } else if (state_mgr_.can_handle_prepare_rqst(proposal_id, cluster_id)) { ret = state_mgr_.handle_prepare_rqst(proposal_id, server, cluster_id); CLOG_LOG(INFO, "handle_prepare_rqst finished", K(ret), K(partition_key_), K(server), K(cluster_id), K(proposal_id)); } CLOG_LOG(INFO, "get_max_log_id finished", K(ret), K(partition_key_), K(server), K(proposal_id)); return ret; } int ObPartitionLogService::receive_max_log_id( const ObAddr& server, const uint64_t log_id, const ObProposalID& proposal_id, const int64_t max_log_ts) { int ret = OB_SUCCESS; RLockGuard guard(lock_); if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (!server.is_valid() || !proposal_id.is_valid()) { ret = OB_INVALID_ARGUMENT; } else if (!state_mgr_.can_receive_max_log_id(proposal_id)) { ret = OB_STATE_NOT_MATCH; if (REACH_TIME_INTERVAL(1000 * 1000)) { CLOG_LOG(INFO, "stale prepare_resp, discard", K(ret), K_(partition_key), K(server), K(proposal_id)); } } else { ret = reconfirm_.receive_max_log_id(server, log_id, max_log_ts); } CLOG_LOG(INFO, "receive_max_log_id", K_(partition_key), K(ret), K(server), K(log_id), K(proposal_id), K(max_log_ts)); return ret; } int ObPartitionLogService::handle_standby_prepare_req( const ObAddr& server, const int64_t cluster_id, const ObProposalID& proposal_id) { int ret = OB_SUCCESS; WLockGuardWithTimeout guard(lock_, WRLOCK_TIMEOUT_US + ObTimeUtility::current_time(), ret); if (OB_FAIL(ret)) { CLOG_LOG(WARN, "handle_standby_prepare_req wrlock failed", K(ret), K_(partition_key), K(server), K(proposal_id)); } else if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (!server.is_valid() || !proposal_id.is_valid()) { ret = OB_INVALID_ARGUMENT; CLOG_LOG(WARN, "invalid arguments", K(ret), K_(partition_key), K(server), K(proposal_id)); } else if (state_mgr_.can_handle_standby_prepare_rqst(proposal_id, cluster_id)) { ret = state_mgr_.handle_standby_prepare_rqst(proposal_id, server, cluster_id); CLOG_LOG(INFO, "handle_standby_prepare_rqst finished", K(ret), K(partition_key_), K(server), K(cluster_id), K(proposal_id)); } else { // do nothing } CLOG_LOG(INFO, "handle_standby_prepare_req finished", K(ret), K(partition_key_), K(server), K(proposal_id)); return ret; } int ObPartitionLogService::handle_standby_prepare_resp(const ObAddr& server, const ObProposalID& proposal_id, const uint64_t ms_log_id, const int64_t membership_version, const ObMemberList& member_list) { int ret = OB_SUCCESS; RLockGuard guard(lock_); if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (!server.is_valid() || !proposal_id.is_valid()) { ret = OB_INVALID_ARGUMENT; CLOG_LOG(WARN, "invalid arguments", K(ret), K_(partition_key), K(server), K(proposal_id)); } else if (!state_mgr_.can_handle_standby_prepare_resp(proposal_id)) { ret = OB_STATE_NOT_MATCH; if (REACH_TIME_INTERVAL(1000 * 1000)) { CLOG_LOG(INFO, "stale standby_prepare_response, ignore", K(ret), K_(partition_key), K(server), K(proposal_id)); } } else { ret = reconfirm_.handle_standby_prepare_resp(server, proposal_id, ms_log_id, membership_version, member_list); } CLOG_LOG(INFO, "handle_standby_prepare_resp finished", K_(partition_key), K(ret), K(server), K(proposal_id), K(ms_log_id), K(membership_version), K(member_list)); return ret; } int ObPartitionLogService::handle_query_sync_start_id_req( const ObAddr& server, const int64_t cluster_id, const int64_t send_ts) { int ret = OB_SUCCESS; const int64_t now = ObTimeUtility::current_time(); int64_t sync_cluster_id = OB_INVALID_CLUSTER_ID; RLockGuard guard(lock_); if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (!server.is_valid() || OB_INVALID_TIMESTAMP == send_ts) { ret = OB_INVALID_ARGUMENT; CLOG_LOG(WARN, "invalid arguments", K(ret), K_(partition_key), K(server), K(cluster_id), K(send_ts)); } else if (now - send_ts > CASCAD_MSG_DELAY_TIME_THRESHOLD) { CLOG_LOG(WARN, "msg delay too much time, ignore", K_(partition_key), K(send_ts), "delay", now - send_ts); } else if (state_mgr_.get_self_cluster_id() == cluster_id || !GCTX.need_sync_to_standby() || ObMultiClusterUtil::is_cluster_private_table(partition_key_.get_table_id()) || LEADER != state_mgr_.get_role()) { ret = OB_STATE_NOT_MATCH; CLOG_LOG(WARN, "recv unexpected query sync_start_id req", K(ret), K_(partition_key), K(server), K(cluster_id), "role", state_mgr_.get_role(), "mode", GCTX.get_protection_mode()); } else if (OB_FAIL(cascading_mgr_.get_sync_standby_cluster_id(sync_cluster_id))) { CLOG_LOG(WARN, "get_sync_standby_cluster_id failed", K(ret), K_(partition_key)); } else if (sync_cluster_id != cluster_id) { CLOG_LOG(WARN, "arg server is not sync cluster, ignore", K(ret), K_(partition_key), K(sync_cluster_id), K(server), K(cluster_id)); } else { ObCascadMember sync_child = cascading_mgr_.get_sync_standby_child(); if (!sync_child.is_valid() || sync_child.get_server() != server) { // update sync_standby_child (void)cascading_mgr_.update_sync_standby_child(server, cluster_id); } const uint64_t max_log_id = sw_.get_max_log_id(); if (OB_FAIL(log_engine_->submit_sync_start_id_resp(server, cluster_id, partition_key_, send_ts, max_log_id))) { CLOG_LOG( WARN, "submit_sync_start_id_resp failed", K(ret), K_(partition_key), K(max_log_id), K(server), K(cluster_id)); } } CLOG_LOG(INFO, "handle_query_sync_start_id_req finished", K_(partition_key), K(ret), K(server), K(cluster_id)); return ret; } int ObPartitionLogService::handle_sync_start_id_resp( const ObAddr& server, const int64_t cluster_id, const int64_t original_send_ts, const uint64_t sync_start_id) { int ret = OB_SUCCESS; RLockGuard guard(lock_); if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (!server.is_valid() || OB_INVALID_TIMESTAMP == original_send_ts || OB_INVALID_ID == sync_start_id) { ret = OB_INVALID_ARGUMENT; CLOG_LOG(WARN, "invalid arguments", K(ret), K_(partition_key), K(server), K(cluster_id), K(original_send_ts), K(sync_start_id)); } else if (OB_FAIL(state_mgr_.handle_sync_start_id_resp(server, cluster_id, original_send_ts, sync_start_id))) { CLOG_LOG(WARN, "handle_sync_start_id_resp failed", K_(partition_key), K(ret), K(server), K(original_send_ts), K(sync_start_id)); } else { } return ret; } int ObPartitionLogService::standby_update_protection_level() { int ret = OB_SUCCESS; RLockGuard guard(lock_); if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (GCTX.is_primary_cluster() || ObMultiClusterUtil::is_cluster_private_table(partition_key_.get_table_id())) { // primary cluster or private tbl, skip } else if (OB_FAIL(state_mgr_.standby_update_protection_level())) { CLOG_LOG(INFO, "standby_update_protection_level failed", K_(partition_key), K(ret)); } else { } return ret; } int ObPartitionLogService::get_standby_leader_protection_level(uint32_t& protection_level) { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else { RLockGuard guard(lock_); int64_t unused_epoch = 0; ObTsWindows unused_windows; if (OB_FAIL(get_role_unlock(unused_epoch, unused_windows))) { // check self is elected leader CLOG_LOG(WARN, "get_role failed or not master", K(ret), K(partition_key_)); } else if (OB_FAIL(state_mgr_.get_standby_protection_level(protection_level))) { CLOG_LOG(WARN, "get_standby_protection_level failed", K_(partition_key), K(ret)); } else { CLOG_LOG(DEBUG, "get_standby_protection_level success", K_(partition_key), K(protection_level)); } } return ret; } int ObPartitionLogService::primary_process_protect_mode_switch() { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (!GCTX.is_primary_cluster() || ObMultiClusterUtil::is_cluster_private_table(partition_key_.get_table_id())) { // skip primary or private replica } else { common::ObTimeGuard timeguard("primary_protect_mode_switch", 1000 * 1000); // need use wlock to protect role // Because it may be concurrent with standby_ack_log(), if sync_standby_child changes, // it will cause primary leader incorrectly advance the log_task state WLockGuard guard(lock_); timeguard.click(); if (LEADER != state_mgr_.get_role()) { // skip } else if (OB_FAIL(cascading_mgr_.primary_process_protect_mode_switch())) { CLOG_LOG(WARN, "primary_process_protect_mode_switch failed", K_(partition_key), K(ret)); } else if (OB_FAIL(state_mgr_.primary_process_protect_mode_switch())) { CLOG_LOG(WARN, "primary_process_protect_mode_switch failed", K_(partition_key), K(ret)); } else { // do nothing } } CLOG_LOG(INFO, "primary_process_protect_mode_switch finished", K_(partition_key), K(ret)); return ret; } int ObPartitionLogService::receive_confirmed_info(const common::ObAddr& server, const int64_t src_cluster_id, const uint64_t log_id, const ObConfirmedInfo& confirmed_info, const bool batch_committed) { int ret = OB_SUCCESS; RLockGuard guard(lock_); if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (log_id <= 0) { ret = OB_INVALID_ARGUMENT; } else if (!log_engine_->is_disk_space_enough()) { ret = OB_LOG_OUTOF_DISK_SPACE; if (REACH_TIME_INTERVAL(1000 * 1000)) { CLOG_LOG(WARN, "log outof disk space", K_(partition_key), K(server), K(ret)); } } else if (!state_mgr_.can_receive_confirmed_info(src_cluster_id)) { ret = OB_STATE_NOT_MATCH; CLOG_LOG(WARN, "can not receive_confirmed_info", K(ret), K_(partition_key), K(server), K(src_cluster_id), "role", state_mgr_.get_role(), "state", state_mgr_.get_state(), K(log_id), K(confirmed_info)); } else if (!sw_.check_can_receive_larger_log(log_id)) { ret = OB_TOO_LARGE_LOG_ID; } else if (!state_mgr_.is_standby_leader_can_receive_log_id(log_id)) { // standby_leader is doing member change, cannot receive log/confirmed_info beyond max_log_id } else { ret = sw_.receive_confirmed_info(log_id, confirmed_info, batch_committed); } return ret; } int ObPartitionLogService::receive_renew_ms_log_confirmed_info(const common::ObAddr& server, const uint64_t log_id, const common::ObProposalID& ms_proposal_id, const ObConfirmedInfo& confirmed_info) { int ret = OB_SUCCESS; RLockGuard guard(lock_); if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (log_id <= 0 || !ms_proposal_id.is_valid()) { ret = OB_INVALID_ARGUMENT; } else if (!state_mgr_.can_receive_renew_ms_log_confirmed_info()) { ret = OB_STATE_NOT_MATCH; CLOG_LOG(WARN, "can not receive_renew_ms_log_confirmed_info", K(ret), K_(partition_key), "role", state_mgr_.get_role(), "state", state_mgr_.get_state(), K(log_id), K(ms_proposal_id), K(confirmed_info)); } else { ret = ms_task_mgr_.receive_renew_ms_log_confirmed_info(log_id, ms_proposal_id, confirmed_info); } CLOG_LOG(INFO, "receive_renew_ms_log_confirmed_info finished", K(ret), K_(partition_key), K(server), K(log_id), K(ms_proposal_id), K(confirmed_info)); return ret; } int ObPartitionLogService::append_disk_log( const ObLogEntry& log, const ObLogCursor& log_cursor, const int64_t accum_checksum, const bool batch_committed) { int ret = OB_SUCCESS; int tmp_ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (!state_mgr_.can_append_disk_log()) { ret = OB_STATE_NOT_MATCH; } else { if ((OB_LOG_NOP == log.get_header().get_log_type()) || (OB_LOG_START_MEMBERSHIP == log.get_header().get_log_type()) || (OB_LOG_TRUNCATE == log.get_header().get_log_type()) || (OB_LOG_RENEW_MEMBERSHIP == log.get_header().get_log_type()) || (OB_LOG_SUBMIT == log.get_header().get_log_type()) || (OB_LOG_AGGRE == log.get_header().get_log_type()) || (OB_LOG_MEMBERSHIP == log.get_header().get_log_type())) { uint64_t freeze_id = saved_base_storage_info_.get_last_replay_log_id(); if (freeze_id != OB_INVALID_ID && log.get_header().get_log_id() <= freeze_id) { CLOG_LOG(DEBUG, "append disk log before freeze point, abort it", K_(partition_key), K(log.get_header()), K(freeze_id)); } else if (OB_LOG_MEMBERSHIP != log.get_header().get_log_type() && OB_LOG_START_MEMBERSHIP != log.get_header().get_log_type() && OB_LOG_RENEW_MEMBERSHIP != log.get_header().get_log_type()) { // sw append_disk_log handles thread safety issues ret = sw_.append_disk_log(log, log_cursor, accum_checksum, batch_committed); } else { // ensure that the processing of multiple member changes are mutually exclusive WLockGuardWithRetry guard(lock_, WRLOCK_TIMEOUT_US + ObTimeUtility::current_time()); ret = mm_.append_disk_log(log, log_cursor, accum_checksum, batch_committed); } } else if (OB_LOG_PREPARED == log.get_header().get_log_type()) { WLockGuardWithRetry guard(lock_, WRLOCK_TIMEOUT_US + ObTimeUtility::current_time()); if (OB_SUCCESS != (tmp_ret = state_mgr_.update_proposal_id(log.get_header().get_proposal_id()))) { CLOG_LOG(INFO, "update_proposal_id failed", K_(partition_key), K(tmp_ret)); } } else if (OB_LOG_STANDBY_PREPARED == log.get_header().get_log_type()) { WLockGuardWithRetry guard(lock_, WRLOCK_TIMEOUT_US + ObTimeUtility::current_time()); if (OB_SUCCESS != (tmp_ret = mm_.update_ms_proposal_id(log.get_header().get_proposal_id()))) { CLOG_LOG(INFO, "update_ms_proposal_id failed", K_(partition_key), K(tmp_ret)); } } else { ret = OB_ERR_UNEXPECTED; CLOG_LOG(ERROR, "unexpected log type", K(ret), "log_type", log.get_header().get_log_type()); } if (OB_SUCC(ret) && log.get_header().get_log_id() < get_next_index_log_id()) { ATOMIC_INC(&scan_confirmed_log_cnt_); } } return ret; } int ObPartitionLogService::set_scan_disk_log_finished() { int ret = OB_SUCCESS; WLockGuardWithRetry guard(lock_, WRLOCK_TIMEOUT_US + ObTimeUtility::current_time()); if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else { if (sw_.get_max_log_id() + 1 < sw_.get_next_index_log_id()) { CLOG_LOG(ERROR, "scan clog error", K_(partition_key), "start_id", sw_.get_start_id(), "max_log_id", sw_.get_max_log_id(), "next_index_log_id", sw_.get_next_index_log_id()); ret = OB_ERR_UNEXPECTED; } else { ret = state_mgr_.set_scan_disk_log_finished(); // record last_update_next_replay_log_id_info_ts_ sw_.record_last_update_next_replay_log_id_info_ts(); free_cursor_array_cache_(); } } return ret; } int ObPartitionLogService::on_election_role_change() { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (OB_FAIL(add_role_change_task_())) { CLOG_LOG(WARN, "add_role_change_task_ failed", K(ret), K(partition_key_)); } else { CLOG_LOG(TRACE, "add_role_change_task_ success", K(ret), K(partition_key_)); } return ret; } int ObPartitionLogService::on_change_leader_retry(const common::ObAddr& server, ObTsWindows& changing_leader_windows) { int ret = OB_SUCCESS; storage::ObIPartitionGroupGuard guard; storage::ObIPartitionGroup* partition = NULL; if (IS_NOT_INIT) { ret = OB_NOT_INIT; CLOG_LOG(WARN, "ObPartitionLogService is not inited", K(ret), K(partition_key_)); } else if (OB_FAIL(partition_service_->get_partition(partition_key_, guard)) || NULL == (partition = guard.get_partition_group())) { ret = OB_ERR_UNEXPECTED; CLOG_LOG(WARN, "this partition not existed", K(ret), K(partition_key_)); } else if (OB_FAIL(partition->register_txs_change_leader(server, changing_leader_windows))) { CLOG_LOG( WARN, "register txs change leader failed", K(ret), K(partition_key_), K(server), K(changing_leader_windows)); } else { CLOG_LOG(INFO, "partition on change leader fail and reregister windows", K(ret), K(partition_key_), K(server), K(changing_leader_windows)); } return ret; } int ObPartitionLogService::switch_state() { int ret = OB_SUCCESS; bool need_retry = false; ret = switch_state(need_retry); return ret; } int ObPartitionLogService::switch_state(bool& need_retry) { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else { bool state_changed = false; need_retry = false; do { RLockGuard guard(lock_); state_changed = state_mgr_.is_state_changed(need_retry); } while (0); if (state_changed) { WLockGuardWithTimeout guard(lock_, WRLOCK_TIMEOUT_US + ObTimeUtility::current_time(), ret); if (OB_FAIL(ret)) { CLOG_LOG(WARN, "switch_state wrlock failed", K(ret), K_(partition_key)); } else { ret = state_mgr_.switch_state(need_retry); } } } return ret; } int ObPartitionLogService::check_mc_and_sliding_window_state() { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else { check_state_(); } return ret; } int ObPartitionLogService::check_state_() { int ret = OB_SUCCESS; int mc_ret = OB_SUCCESS; int state_ret = OB_SUCCESS; const int64_t now = ObClockGenerator::getClock(); if (now - last_check_state_time_ > CLOG_CHECK_STATE_INTERVAL) { bool state_changed = false; do { RLockGuard guard(lock_); state_changed = mm_.is_state_changed(); } while (0); if (state_changed) { WLockGuardWithTimeout guard(lock_, WRLOCK_TIMEOUT_US + now, ret); if (OB_FAIL(ret)) { CLOG_LOG(WARN, "check_sliding_window_state wrlock failed", K(ret), K_(partition_key)); } else if (OB_SUCCESS != (mc_ret = mm_.switch_state())) { CLOG_LOG(WARN, "ObLogMembershipMgr switch state failed", K_(partition_key), K(mc_ret)); } else { } } do { RLockGuard guard(lock_); state_changed = state_mgr_.check_sliding_window_state(); } while (0); if (state_changed) { if (OB_SUCCESS != (state_ret = add_role_change_task_())) { CLOG_LOG(WARN, "add_state_change_event failed", K_(partition_key), K(state_ret)); } else { CLOG_LOG(TRACE, "add_state_change_event succeed", K_(partition_key), K(state_ret)); } } if (OB_SUCCESS != mc_ret || OB_SUCCESS != state_ret) { ret = OB_ERR_UNEXPECTED; } int tmp_ret = OB_SUCCESS; if (restore_mgr_.is_archive_restoring() && state_mgr_.is_follower_active()) { if (OB_SUCCESS != (tmp_ret = restore_mgr_.check_state())) { CLOG_LOG(WARN, "restore_mgr_.check_state failed", K_(partition_key), K(tmp_ret)); } } // update check time last_check_state_time_ = now; } return ret; } int ObPartitionLogService::try_exec_standby_restore_(const share::ObCascadMember& src_member) { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (!src_member.is_valid()) { ret = OB_INVALID_ARGUMENT; } else { if (ATOMIC_LOAD(&last_rebuild_time_) == OB_INVALID_TIMESTAMP || ObTimeUtility::current_time() - ATOMIC_LOAD(&last_rebuild_time_) >= REBUILD_REPLICA_INTERVAL) { if (OB_FAIL(partition_service_->restore_standby_replica( partition_key_, src_member.get_server(), src_member.get_cluster_id()))) { CLOG_LOG(WARN, "restore_standby_replica failed", K(ret), K_(partition_key), K(src_member)); } else { ATOMIC_STORE(&last_rebuild_time_, ObTimeUtility::current_time()); CLOG_LOG(INFO, "restore_standby_replica success", K(ret), K_(partition_key), K(src_member)); } } } return ret; } int ObPartitionLogService::check_cascading_state() { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else { RLockGuard guard(lock_); ret = cascading_mgr_.check_cascading_state(); } return ret; } int ObPartitionLogService::flush_cb(const ObLogFlushCbArg& arg) { int ret = OB_SUCCESS; int tmp_ret = OB_SUCCESS; ObAddr arg_leader = arg.leader_; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (OB_ISNULL(log_engine_)) { ret = OB_INVALID_ARGUMENT; } else if (OB_LOG_PREPARED == arg.log_type_) { common::ObReplicaType replica_type = REPLICA_TYPE_MAX; ObProposalID proposal_id = arg.proposal_id_; uint64_t max_log_id = OB_INVALID_ID; int64_t max_log_ts = OB_INVALID_TIMESTAMP; common::ObRole role = INVALID_ROLE; do { RLockGuard guard(lock_); replica_type = mm_.get_replica_type(); sw_.get_max_log_id_info(max_log_id, max_log_ts); role = state_mgr_.get_role(); } while (0); if (arg_leader != self_ && arg_leader.is_valid() && FOLLOWER == role && ObReplicaTypeCheck::is_paxos_replica_V2(replica_type)) { tmp_ret = log_engine_->prepare_response( arg_leader, arg.cluster_id_, partition_key_, proposal_id, max_log_id, max_log_ts); CLOG_LOG(INFO, "update proposal id succ, submit prepare response", K_(partition_key), K(tmp_ret), K(arg_leader), K(proposal_id), K(replica_type), K(max_log_id), K(max_log_ts)); } else { CLOG_LOG(INFO, "refuse to submit prepare response", K_(partition_key), K(arg_leader), K_(self), K(replica_type)); } } else if (OB_LOG_STANDBY_PREPARED == arg.log_type_) { common::ObReplicaType replica_type = REPLICA_TYPE_MAX; ObProposalID proposal_id = arg.proposal_id_; do { RLockGuard guard(lock_); replica_type = mm_.get_replica_type(); } while (0); if (arg_leader != self_ && arg_leader.is_valid() && ObReplicaTypeCheck::is_paxos_replica_V2(replica_type) && state_mgr_.is_can_elect_standby_leader()) { // standby-active non-private table ObProposalID ms_proposal_id = mm_.get_ms_proposal_id(); if (proposal_id == ms_proposal_id) { // reply response only when proposal_id and ms_proposal_id are same const uint64_t ms_log_id = mm_.get_log_id(); const int64_t membership_version = mm_.get_timestamp(); const ObMemberList member_list = mm_.get_curr_member_list(); tmp_ret = log_engine_->standby_prepare_response( arg_leader, arg.cluster_id_, partition_key_, proposal_id, ms_log_id, membership_version, member_list); CLOG_LOG(INFO, "update proposal id succ, submit standby prepare response", K_(partition_key), K(tmp_ret), K(arg_leader), K(proposal_id), K(ms_proposal_id), K(membership_version), K(member_list)); } } else { CLOG_LOG(INFO, "refuse to submit prepare response", K_(partition_key), K(arg_leader), K_(self), K(replica_type)); } } else if (OB_LOG_RENEW_MEMBERSHIP == arg.log_type_) { bool majority = false; RLockGuard guard(lock_); const int64_t begin_time = ObClockGenerator::getClock(); if (OB_SUCCESS != (ret = ms_task_mgr_.set_renew_ms_log_flushed_succ( arg.log_id_, arg.submit_timestamp_, arg.proposal_id_, majority))) { CLOG_LOG( WARN, "set_renew_ms_log_flushed_succ failed", K_(partition_key), K(ret), K(arg.log_type_), K(arg.log_id_)); } else if (majority && state_mgr_.can_majority_cb_for_renew_ms_log(arg.proposal_id_) && (OB_SUCCESS != (ret = renew_ms_log_majority_cb_(arg.log_id_, arg.submit_timestamp_, arg.proposal_id_)))) { CLOG_LOG(WARN, "majority_cb failed", K_(partition_key), K(ret)); } else if (state_mgr_.can_send_renew_ms_log_ack(arg.proposal_id_) && arg_leader.is_valid()) { if (OB_SUCCESS != (tmp_ret = log_engine_->submit_renew_ms_log_ack( arg_leader, arg.cluster_id_, partition_key_, arg.log_id_, arg.submit_timestamp_, arg.proposal_id_))) { CLOG_LOG(WARN, "submit_renew_ms_log_ack failed", K(tmp_ret), K(arg_leader), K(arg.log_id_), K(arg.proposal_id_), K_(partition_key)); } else { CLOG_LOG(INFO, "submit_renew_ms_log_ack success", K(tmp_ret), K(arg_leader), K(arg.log_id_), K(arg.proposal_id_), K_(partition_key)); } const int64_t end_time = ObClockGenerator::getClock(); if (end_time - begin_time >= CLOG_PERF_WARN_THRESHOLD) { CLOG_LOG(WARN, "flush_cb cost too much time", K(partition_key_), K(arg), K(end_time), K(begin_time), "cost_time", end_time - begin_time); } } else { } } else { bool majority = false; RLockGuard guard(lock_); const int64_t begin_time = ObClockGenerator::getClock(); bool is_lease_valid = true; if (OB_SUCCESS != (ret = sw_.set_log_flushed_succ( arg.log_id_, arg.proposal_id_, arg.log_cursor_, arg.after_consume_timestamp_, majority))) { CLOG_LOG(WARN, "sw set_log_flushed_succ failed", K_(partition_key), K(ret), K(arg.log_type_), K(arg.log_id_)); } else if (majority && ((state_mgr_.can_majority_cb(arg.proposal_id_) && is_lease_valid)) && (OB_SUCCESS != (ret = majority_cb_(arg.log_id_)))) { CLOG_LOG(WARN, "majority_cb failed", K_(partition_key), K(ret)); } else if (majority && state_mgr_.can_standby_majority_cb(arg.proposal_id_) && (OB_SUCCESS != (ret = standby_majority_cb_(arg_leader, arg.cluster_id_, arg.proposal_id_, arg.log_id_)))) { CLOG_LOG(WARN, "majority_cb failed", K_(partition_key), K(ret)); } else if (state_mgr_.can_send_log_ack(arg.proposal_id_) && arg_leader.is_valid()) { if (OB_SUCCESS != (tmp_ret = log_engine_->submit_log_ack( arg_leader, arg.cluster_id_, partition_key_, arg.log_id_, arg.proposal_id_))) { CLOG_LOG(WARN, "submit_log_ack failed", K(tmp_ret), K(arg_leader), K(arg.log_id_), K(arg.proposal_id_), K_(partition_key)); } } else { } const int64_t end_time = ObClockGenerator::getClock(); if (end_time - begin_time >= CLOG_PERF_WARN_THRESHOLD) { CLOG_LOG(WARN, "flush_cb cost too much time", K(partition_key_), K(arg), K(end_time), K(begin_time), "cost_time", end_time - begin_time); } } return ret; } int ObPartitionLogService::renew_ms_log_flush_cb(const ObMsInfoTask& arg) { int ret = OB_SUCCESS; int tmp_ret = OB_SUCCESS; const int64_t begin_time = ObClockGenerator::getClock(); ObAddr server = arg.get_server(); if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (OB_ISNULL(log_engine_)) { ret = OB_INVALID_ARGUMENT; } else { bool majority = false; RLockGuard guard(lock_); if (OB_FAIL(ms_task_mgr_.set_renew_ms_log_flushed_succ( arg.get_ms_log_id(), arg.get_mc_timestamp(), arg.get_ms_proposal_id(), majority))) { CLOG_LOG(WARN, "set_renew_ms_log_flushed_succ failed", K_(partition_key), K(ret), K(arg)); } else if (majority && state_mgr_.can_majority_cb_for_renew_ms_log(arg.get_ms_proposal_id()) && (OB_FAIL( renew_ms_log_majority_cb_(arg.get_ms_log_id(), arg.get_mc_timestamp(), arg.get_ms_proposal_id())))) { CLOG_LOG(WARN, "majority_cb failed", K_(partition_key), K(ret)); } else if (state_mgr_.can_send_renew_ms_log_ack(arg.get_ms_proposal_id()) && server.is_valid() && self_ != server) { if (OB_SUCCESS != (tmp_ret = log_engine_->submit_renew_ms_log_ack(server, arg.get_cluster_id(), partition_key_, arg.get_ms_log_id(), arg.get_mc_timestamp(), arg.get_ms_proposal_id()))) { CLOG_LOG(WARN, "submit_renew_ms_log_ack failed", K(tmp_ret), K(server), K(arg), K_(partition_key)); } else { CLOG_LOG(INFO, "submit_renew_ms_log_ack success", K(tmp_ret), K(server), K(arg), K_(partition_key)); } const int64_t end_time = ObClockGenerator::getClock(); if (end_time - begin_time >= CLOG_PERF_WARN_THRESHOLD) { CLOG_LOG(WARN, "renew_ms_log_flush_cb cost too much time", K(partition_key_), K(arg), "cost_time", end_time - begin_time); } } else { } } CLOG_LOG(INFO, "renew_ms_log_flush_cb finished", K(partition_key_), K(ret), K(arg)); return ret; } int ObPartitionLogService::query_max_flushed_ilog_id(uint64_t& ret_max_ilog_id) { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; CLOG_LOG(WARN, "ObPartitionLogService is not inited", K(ret)); } else if (OB_FAIL(log_engine_->query_max_flushed_ilog_id(partition_key_, ret_max_ilog_id)) && OB_PARTITION_NOT_EXIST != ret) { CLOG_LOG(ERROR, "query_max_flushed_ilog_id failed", K(ret), K(partition_key_)); } else if (OB_PARTITION_NOT_EXIST == ret) { ret_max_ilog_id = 0; ret = OB_SUCCESS; } if (OB_SUCC(ret)) { ret_max_ilog_id = std::max(ret_max_ilog_id, saved_base_storage_info_.get_last_replay_log_id()); ret_max_ilog_id = std::max(ret_max_ilog_id, ATOMIC_LOAD(&max_flushed_ilog_id_)); } return ret; } // Because member change and switch leader are mutable ops, so this function can execute without lock int ObPartitionLogService::on_get_election_priority(election::ObElectionPriority& priority) { int ret = OB_SUCCESS; int tmp_ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (OB_ISNULL(partition_service_)) { ret = OB_INVALID_ARGUMENT; } else { priority.reset(); const uint64_t zone_priority = get_zone_priority(); const bool is_need_rebuild = state_mgr_.is_need_rebuild(); const bool is_partition_candidate = partition_service_->is_election_candidate(partition_key_); const bool is_leader_revoke_recently = state_mgr_.is_leader_revoke_recently(); bool is_standby_restore_finished = true; if (GCTX.can_be_parent_cluster() && !ObMultiClusterUtil::is_cluster_private_table(partition_key_.get_table_id()) && restore_mgr_.is_standby_restore_state()) { // restoring replicas cannot be strong leader, // because its last_submit_ts maybe invalid, which will lead to reconfirm failure is_standby_restore_finished = false; } bool is_candidate = partition_service_->is_tenant_active(partition_key_) && ObReplicaTypeCheck::is_can_elected_replica(mm_.get_replica_type()) && OBSERVER.get_gctx().rs_server_status_ == share::RSS_IS_WORKING && is_partition_candidate && is_standby_restore_finished; #ifdef ERRSIM if (ObServerConfig::get_instance()._ob_enable_rebuild_on_purpose) { is_candidate = is_candidate && (!is_need_rebuild); } #endif bool is_tenant_out_of_mem = is_tenant_out_of_memory_(); bool is_data_disk_error = false; bool is_disk_space_enough = log_engine_->is_disk_space_enough(); bool is_clog_disk_hang = log_engine_->is_clog_disk_hang(); const bool is_slog_disk_warning = SLOGGER.is_disk_warning(); const ObReplicaProperty replica_property = mm_.get_replica_property(); const uint64_t log_id = sw_.get_max_confirmed_log_id(); if (OB_SUCCESS != (tmp_ret = ObIOManager::get_instance().is_disk_error(is_data_disk_error))) { CLOG_LOG(WARN, "is_data_disk_error failed", K(tmp_ret), K_(partition_key)); } if (is_candidate_ != is_candidate) { is_candidate_ = is_candidate; CLOG_LOG(INFO, "whether is_candidate changed", K_(partition_key), K(is_candidate), K(partition_service_->is_tenant_active(partition_key_)), "replica_type", mm_.get_replica_type(), K(zone_priority), "rs_server_status", OBSERVER.get_gctx().rs_server_status_, "is_service_started", partition_service_->is_service_started(), K(is_partition_candidate)); } if (OB_SUCCESS != (ret = priority.init(is_candidate, mm_.get_timestamp(), log_id, zone_priority))) { CLOG_LOG(WARN, "priority init error", K_(partition_key), K(ret)); } else { if (!is_disk_space_enough) { priority.set_system_disk_full(); } if (is_clog_disk_hang) { priority.set_system_clog_disk_hang(); } if (is_data_disk_error) { priority.set_system_data_disk_error(); } if (is_slog_disk_warning) { priority.set_system_slog_disk_warning(); } if (is_tenant_out_of_mem) { priority.set_system_tenant_out_of_memory(); } if (is_leader_revoke_recently) { priority.set_system_in_election_blacklist(); } if (0 == replica_property.get_memstore_percent()) { priority.set_system_without_memstore(); } if (!partition_service_->is_service_started()) { priority.set_system_service_not_started(); } if (is_need_rebuild) { priority.set_system_need_rebuild(); } } } return ret; } int ObPartitionLogService::majority_cb_(const uint64_t log_id) { int ret = OB_SUCCESS; const bool batch_committed = false; const bool batch_first_participant = false; BG_MONITOR_GUARD_DEFAULT(1000 * 1000); if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (OB_SUCCESS != (ret = sw_.majority_cb(log_id, batch_committed, batch_first_participant))) { CLOG_LOG(WARN, "majority_cb failed", K_(partition_key), K(ret), K(log_id)); } else if (OB_SUCCESS != (ret = sw_.set_log_confirmed(log_id, batch_committed))) { CLOG_LOG(WARN, "set_log_confirmed failed!", K_(partition_key), K(ret), K(log_id)); } else { } return ret; } int ObPartitionLogService::standby_majority_cb_(const common::ObAddr& server, const int64_t cluster_id, const common::ObProposalID& proposal_id, const uint64_t log_id) { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (OB_INVALID_ID == log_id) { ret = OB_INVALID_ARGUMENT; CLOG_LOG(WARN, "invalid arguments", K(ret), K(server), K(cluster_id), K(log_id)); } else { // standby_leader send ack to primary parent int tmp_ret = OB_SUCCESS; if (server.is_valid() && OB_SUCCESS != (tmp_ret = log_engine_->submit_standby_log_ack( server, cluster_id, partition_key_, log_id, proposal_id))) { CLOG_LOG(WARN, "submit_standby_log_ack failed", K(tmp_ret), K(server), K(cluster_id), K(log_id), K(proposal_id), K_(partition_key)); } const bool batch_committed = false; if (OB_SUCCESS != (tmp_ret = sw_.set_log_confirmed(log_id, batch_committed))) { if (OB_ERROR_OUT_OF_RANGE != tmp_ret) { // The standby leader has to wait for the confirmed info from primary to execute set_log_confirmed after // majority In a concurrent scenario, after this thread executes try_set_majority_finished, other threads may // execute set_log_confirmed, which triggers the log to slide out, so it is possible to encounter -4175 here ret = tmp_ret; } CLOG_LOG(WARN, "submit_confirm_log failed!", K_(partition_key), K(tmp_ret), K(ret), K(log_id)); } } return ret; } int ObPartitionLogService::renew_ms_log_majority_cb_( const uint64_t log_id, const int64_t submit_timestamp, const common::ObProposalID& proposal_id) { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (OB_SUCCESS != (ret = ms_task_mgr_.renew_ms_log_majority_cb(log_id, submit_timestamp, proposal_id))) { CLOG_LOG(WARN, "majority_cb failed", K_(partition_key), K(ret), K(log_id), K(submit_timestamp)); } else if (OB_SUCCESS != (ret = ms_task_mgr_.set_renew_ms_log_confirmed(log_id, submit_timestamp, proposal_id))) { CLOG_LOG(WARN, "set_renew_ms_log_confirmed failed", K_(partition_key), K(ret), K(log_id), K(submit_timestamp)); } else { CLOG_LOG(INFO, "renew_ms_log_majority_cb_ success", K_(partition_key), K(ret), K(log_id), K(submit_timestamp)); } return ret; } int ObPartitionLogService::stop_election() { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else { do { RLockGuard guard(lock_); ret = state_mgr_.stop_election(); } while (false); while (OB_SUCC(ret) && state_mgr_.is_leader_active()) { if (OB_FAIL(switch_state())) { CLOG_LOG(WARN, "switch_state failed after stop election", K(ret), K_(partition_key)); } else if (state_mgr_.is_leader_active()) { // election should return not running // should be leader active after one cycle // sleep for further modify // should not come to this branch CLOG_LOG(ERROR, "still leader active after stop election", K(ret), K_(partition_key)); usleep(100); } } } return ret; } int ObPartitionLogService::remove_election() { int ret = OB_SUCCESS; if (IS_NOT_INIT) { // The reason why ret is not modified here is // According to the existing process of the upper layer, after the partition is deserialized from the file during // the recovery process There is a process of adding to pg_mgr without initialization And maybe before the // initialization, the partition is removed, and this interface is called at the same time At this time, if this // interface returns an error, the operation of removing the partition from the upper layer will fail CLOG_LOG(WARN, "pls not inited yet, just warn, return OB_SUCCESS", K_(partition_key)); } else { // The reason for adding a write lock here is to hope that all read locks will be released when remove, and remove // when the old election is no longer used in other locations In order to provide a clear semantics to the outside // world That is, after remove_election, no one will hold an expired object Otherwise, it may happen that the same // pkey has a new object created, but the old object is still in use The outside may expect this interface to // provide the above-mentioned strict semantics, otherwise unexpected behavior may occur WLockGuardWithRetry guard(lock_, WRLOCK_TIMEOUT_US + ObTimeUtility::current_time()); if (true == election_has_removed_) { CLOG_LOG(WARN, "election has been marked removed, should not call this again", K_(partition_key)); } else if (NULL == election_mgr_) { // After the expected initialization, the election_mgr_ should not be empty when the function is called, // and the call stack needs to be checked when an incorrect calling method occurs CLOG_LOG(ERROR, "wrong way to call remove_election(), election_mgr_ is NULL", K_(partition_key)); } else if (OB_FAIL(election_mgr_->remove_partition(partition_key_))) { CLOG_LOG(WARN, "remove partition from election_mgr failed", K(ret), K_(partition_key)); } else { election_has_removed_ = true; FLOG_INFO( "remove partition from election_mgr success", K_(partition_key), K_(election_has_removed), K_(election)); } } return ret; } void ObPartitionLogService::destroy() { WLockGuardWithRetry guard(lock_, WRLOCK_TIMEOUT_US + ObTimeUtility::current_time()); if (is_inited_) { is_inited_ = false; int tmp_ret = OB_SUCCESS; if (sw_.is_inited()) { sw_.destroy(); } // Election is not removed from mgr, it may be because the addition to pg_mgr failed if (!election_has_removed_) { int tmp_ret = OB_SUCCESS; if (OB_SUCCESS != (tmp_ret = election_mgr_->remove_partition(partition_key_))) { CLOG_LOG(WARN, "remove_partition from election_mgr failed", K(tmp_ret), K_(partition_key)); } else { election_has_removed_ = true; CLOG_LOG(WARN, "remove election in destroy(), probably add to pg_mgr failed", K(tmp_ret), K_(partition_key)); } } else { FLOG_INFO("election has been removed", K_(partition_key), K_(election_has_removed), K_(election)); } if (state_mgr_.is_inited()) { state_mgr_.destroy(); if (NULL != election_) { if (NULL == election_mgr_) { CLOG_LOG(ERROR, "could not revert election, cause election_mgr_ is NULL", K_(partition_key), KP_(election_mgr), KP_(election)); } else { election_mgr_->revert_election(election_); election_ = NULL; } } else { // do nothing } } else { } restore_mgr_.destroy(); remote_log_query_engine_ = NULL; reconfirm_.reset(); log_engine_ = NULL; replay_engine_ = NULL; // partition_service_ is a global singleton obj, no need set NULL // partition_service_ = NULL; if (mm_.is_inited()) { mm_.destroy(); } if (cascading_mgr_.is_inited()) { cascading_mgr_.destroy(); } fetch_log_engine_ = NULL; alloc_mgr_ = NULL; event_scheduler_ = NULL; self_.reset(); // checksum_.destroy() saved_base_storage_info_.reset(); zone_priority_ = 0; is_candidate_ = false; free_cursor_array_cache_(); free_broadcast_info_mgr_(); FLOG_INFO( "ObPartitionLogService destroy finished", K_(partition_key), K(lbt()), K_(election_has_removed), K_(election)); } else { CLOG_LOG(WARN, "ObPartitionLogService destroy, no need exec", K_(partition_key), KP(this), K(lbt())); } } int ObPartitionLogService::set_election_leader(const common::ObAddr& leader, const int64_t lease_start) { int ret = OB_SUCCESS; WLockGuardWithTimeout guard(lock_, WRLOCK_TIMEOUT_US + ObTimeUtility::current_time(), ret); if (OB_FAIL(ret)) { CLOG_LOG(WARN, "wrlock failed", K(ret), K_(partition_key)); } else if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (!leader.is_valid() || lease_start <= 0) { ret = OB_INVALID_ARGUMENT; } else if (!restore_mgr_.is_archive_restoring()) { ret = state_mgr_.set_election_leader(leader, lease_start); } else { if (self_ == leader) { ret = restore_mgr_.leader_takeover(); } } return ret; } bool ObPartitionLogService::check_election_leader_(int64_t& leader_epoch, ObTsWindows& changing_leader_windows) const { // It returns OB_SUCCESS when changing leader int ret = OB_SUCCESS; bool bool_ret = false; ObAddr leader; if (!ObReplicaTypeCheck::is_paxos_replica_V2(mm_.get_replica_type())) { ret = OB_NOT_MASTER; } else if (OB_SUCCESS != (ret = state_mgr_.get_election_leader(leader, leader_epoch, changing_leader_windows))) { CLOG_LOG(WARN, "get leader from election failed", K_(partition_key), K(ret)); } else if (!leader.is_valid() || (self_ != leader) || (leader_epoch != state_mgr_.get_leader_epoch())) { CLOG_LOG(INFO, "now election has another leader", K_(partition_key), K(leader), K_(self), "current_leader_epoch", leader_epoch, "saved_leader_epoch", state_mgr_.get_leader_epoch()); } else { bool_ret = true; } return bool_ret; } int ObPartitionLogService::set_next_index_log_id(const uint64_t log_id, const int64_t accum_checksum) { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else { WLockGuardWithRetry guard(lock_, WRLOCK_TIMEOUT_US + ObTimeUtility::current_time()); sw_.set_next_index_log_id(log_id, accum_checksum); } return ret; } int ObPartitionLogService::is_offline(bool& is_offline) { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else { RLockGuard guard(lock_); is_offline = state_mgr_.is_offline(); } return ret; } int ObPartitionLogService::set_offline() { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else { WLockGuardWithRetry guard(lock_, WRLOCK_TIMEOUT_US + ObTimeUtility::current_time()); state_mgr_.set_offline(); const uint32_t reset_type = ObLogCascadingMgr::ResetPType::SELF_OFFLINE; cascading_mgr_.reset_parent(reset_type); share::ObCascadMemberList prev_children_list; int tmp_ret = OB_SUCCESS; if (OB_SUCCESS != (tmp_ret = cascading_mgr_.get_children_list(prev_children_list))) { CLOG_LOG(WARN, "get_children_list failed", K_(partition_key), K(tmp_ret)); } cascading_mgr_.reset_children_list(); cascading_mgr_.notify_change_parent(prev_children_list); } CLOG_LOG(INFO, "set_offline", K(ret), K_(partition_key)); return ret; } int ObPartitionLogService::set_online(const ObBaseStorageInfo& base_storage_info, const ObVersion& memstore_version) { int ret = OB_SUCCESS; WLockGuardWithRetry guard(lock_, WRLOCK_TIMEOUT_US + ObTimeUtility::current_time()); if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (!state_mgr_.is_offline()) { CLOG_LOG(INFO, "self is already online, skip", K(ret), K_(partition_key)); } else { uint64_t next_replay_log_id = base_storage_info.get_last_replay_log_id() + 1; int64_t next_replay_log_ts = base_storage_info.get_submit_timestamp() + 1; sw_.set_next_replay_log_id_info(next_replay_log_id, next_replay_log_ts); if (base_storage_info.get_last_replay_log_id() + 1 >= sw_.get_start_id()) { // The migration logic guarantees that PartitionLogService must be offline when truncate_sw is executed // Partition in the offline state will not be elected as Leader, and will not submit_log // The thread that executes truncate is the thread of the migration task. // Since this operation may take a long time, the write lock needs to be released; lock_.wrunlock(); if (OB_FAIL(truncate_first_stage_(base_storage_info))) { CLOG_LOG(WARN, "truncate_first_stage_ failed", K(ret), K_(partition_key), K(base_storage_info)); } lock_.wrlock_with_retry(WRLOCK_TIMEOUT_US + ObTimeUtility::current_time()); if (OB_SUCC(ret) && OB_FAIL(truncate_second_stage_(base_storage_info))) { CLOG_LOG(WARN, "truncate_second_stage_ failed", K(ret), K(partition_key_), K(base_storage_info)); } } else { // do nothing } if (OB_SUCC(ret)) { (void)state_mgr_.update_freeze_version(memstore_version); state_mgr_.reset_need_rebuild(); state_mgr_.set_online(); in_sync_check_time_ = OB_INVALID_TIMESTAMP; common::ObAddr leader = state_mgr_.get_leader(); if (!leader.is_valid()) { // leader is invalid, do nothing } else if (!cascading_mgr_.get_parent().is_valid() && FOLLOWER == state_mgr_.get_role()) { // request allocating parent when it is online int tmp_ret = OB_SUCCESS; const int64_t dst_cluster_id = state_mgr_.get_leader_cluster_id(); if (OB_SUCCESS != (tmp_ret = cascading_mgr_.fetch_register_server( leader, dst_cluster_id, state_mgr_.get_region(), state_mgr_.get_idc(), true, false))) { CLOG_LOG(WARN, "call fetch_register_server failed", K_(partition_key), K(tmp_ret), K(leader)); } else { (void)cascading_mgr_.reset_last_request_state(); } } else { // do nothing } } } CLOG_LOG(INFO, "set_online", K(ret), K_(partition_key), K(base_storage_info), K(memstore_version)); return ret; } int ObPartitionLogService::is_in_sync(bool& is_sync) const { // if there are too many partitions in one observer, // user can change max_safe_stale_time to avoid unsync ret int ret = OB_SUCCESS; is_sync = false; int64_t tenant_id = partition_key_.get_tenant_id(); int64_t max_safe_stale_time = transaction::ObWeakReadUtil::max_stale_time_for_weak_consistency(tenant_id); max_safe_stale_time = std::min(max_safe_stale_time, MAX_SYNC_FALLBACK_INTERVAL); if (IS_NOT_INIT) { ret = OB_NOT_INIT; CLOG_LOG(WARN, "ObPartitionLogService is not inited", K_(partition_key), K(ret)); } else if (state_mgr_.is_need_rebuild()) { ret = OB_LOG_NOT_SYNC; CLOG_LOG(WARN, "partition_log_service need rebuild", K(ret), K_(partition_key)); } else { int64_t next_replay_log_timestamp = OB_INVALID_TIMESTAMP; if (OB_FAIL(sw_.get_next_replay_log_timestamp(next_replay_log_timestamp))) { CLOG_LOG(WARN, "sw get_next_replay_log_timestamp failed", K(ret), K_(partition_key)); } else { is_sync = ((ObTimeUtility::current_time() - next_replay_log_timestamp) < max_safe_stale_time); } } return ret; } int ObPartitionLogService::is_log_sync_with_leader(bool& is_sync) const { int ret = OB_SUCCESS; is_sync = false; ObAddr leader; int64_t dst_cluster_id = OB_INVALID_CLUSTER_ID; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else { RLockGuard guard(lock_); leader = state_mgr_.get_leader(); dst_cluster_id = state_mgr_.get_leader_cluster_id(); } if (OB_SUCC(ret)) { int64_t unused_timestamp = OB_INVALID_TIMESTAMP; uint64_t leader_max_confirmed_log_id = OB_INVALID_ID; bool unused_remote_replica_is_normal = false; if (OB_FAIL(is_in_sync(is_sync))) { CLOG_LOG(WARN, "is_in_sync failed", K(ret), K(partition_key_)); } else if (is_sync) { // already sync, do nothing } else if (!leader.is_valid()) { // leader is invalid, return false is_sync = false; } else if (OB_FAIL(log_engine_->get_remote_membership_status(leader, dst_cluster_id, partition_key_, unused_timestamp, leader_max_confirmed_log_id, unused_remote_replica_is_normal))) { // return OB_SUCCESS when rpc failed to avoid migrate failure, this may occur when local leader is out of date CLOG_LOG(WARN, "get_remote_membership_status from leader failed", K(ret), K(leader), K(dst_cluster_id), K(partition_key_), K(unused_timestamp), K(leader_max_confirmed_log_id)); is_sync = false; ret = OB_SUCCESS; } else { // 1000 is to set aside a sufficient threshold to be consistent with the pre-check for member changes is_sync = (leader_max_confirmed_log_id <= (get_next_index_log_id() - 1 + 1000)); } } return ret; } int ObPartitionLogService::is_log_sync_with_primary(const int64_t switchover_epoch, bool& is_sync) const { // caller guarantees self is non-private table int ret = OB_SUCCESS; int64_t local_switchover_epoch = OB_INVALID_TIMESTAMP; uint64_t leader_max_log_id = OB_INVALID_ID; int64_t leader_next_log_ts = OB_INVALID_TIMESTAMP; is_sync = false; if (IS_NOT_INIT) { ret = OB_NOT_INIT; CLOG_LOG(WARN, "ObPartitionLogService is not inited", K_(partition_key), K(ret)); } else if (switchover_epoch <= 0) { ret = OB_INVALID_ARGUMENT; CLOG_LOG(WARN, "invalid arguments", K_(partition_key), K(ret), K(switchover_epoch)); } else if (OB_FAIL(sw_.get_switchover_info(local_switchover_epoch, leader_max_log_id, leader_next_log_ts))) { CLOG_LOG(WARN, "sw_.get_switchover_info failed", K_(partition_key), K(ret)); } else if (switchover_epoch != local_switchover_epoch) { ret = OB_STATE_NOT_MATCH; CLOG_LOG( WARN, "switchover_epoch not match", K_(partition_key), K(ret), K(switchover_epoch), K(local_switchover_epoch)); } else { int64_t local_max_confirmed_log_id = sw_.get_max_confirmed_log_id(); uint64_t next_replay_log_id = OB_INVALID_ID; int64_t next_replay_log_ts = OB_INVALID_TIMESTAMP; sw_.get_next_replay_log_id_info(next_replay_log_id, next_replay_log_ts); if (local_max_confirmed_log_id != leader_max_log_id) { CLOG_LOG(WARN, "max_log_id not match with leader", K_(partition_key), K(ret), K(leader_max_log_id), K(local_max_confirmed_log_id)); } else if (OB_INVALID_TIMESTAMP == next_replay_log_ts || next_replay_log_ts < leader_next_log_ts) { CLOG_LOG(WARN, "next_replay_log_ts not match with leader", K_(partition_key), K(ret), K(leader_next_log_ts), K(next_replay_log_ts), K(next_replay_log_id)); } else { is_sync = true; } } if (OB_SUCC(ret) && !is_sync) { CLOG_LOG(INFO, "self is not sync with leader", K(ret), K_(partition_key), K(is_sync), "max_confirmed_log_id", sw_.get_max_confirmed_log_id(), K(leader_max_log_id)); } return ret; } int ObPartitionLogService::is_need_rebuild(bool& need_rebuild) const { int ret = OB_SUCCESS; need_rebuild = false; RLockGuard guard(lock_); if (IS_NOT_INIT) { ret = OB_NOT_INIT; CLOG_LOG(WARN, "ObPartitionLogService is not inited", K_(partition_key), K(ret)); } else { need_rebuild = state_mgr_.is_need_rebuild(); } return ret; } bool ObPartitionLogService::is_leader_active() const { bool is_leader_active = false; RLockGuard guard(lock_); is_leader_active = state_mgr_.is_leader_active(); return is_leader_active; } int ObPartitionLogService::check_self_is_election_leader_() const { int ret = OB_SUCCESS; common::ObAddr election_leader; int64_t epoch = OB_INVALID_TIMESTAMP; if (OB_FAIL(state_mgr_.get_election_leader(election_leader, epoch))) { CLOG_LOG(WARN, "get_leader_from_election failed", K_(partition_key), K(ret)); } else if (!election_leader.is_valid() || election_leader != self_ || epoch != state_mgr_.get_leader_epoch()) { // already not leader, do nothing ret = OB_NOT_MASTER; } else { // self is leader } return ret; } bool ObPartitionLogService::is_paxos_offline_replica_() const { bool bool_ret = false; RLockGuard guard(lock_); if (ObReplicaTypeCheck::is_paxos_replica_V2(mm_.get_replica_type()) && state_mgr_.is_cluster_allow_vote() && false == ATOMIC_LOAD(&is_in_leader_member_list_)) { bool_ret = true; } return bool_ret; } bool ObPartitionLogService::has_valid_member_list() const { bool bool_ret = false; if (IS_NOT_INIT) { } else { RLockGuard guard(lock_); bool_ret = state_mgr_.has_valid_member_list(); } return bool_ret; } bool ObPartitionLogService::has_valid_next_replay_log_ts() const { // Whether the data replica has not generated memtable, mainly includes the following situations: // 1. The follower of D replica, returns false; // 2. The leader of D replica: the active state returns true, // restoring status returns true, // Restore has not started in other states, and returns false. int bool_ret = false; if (IS_NOT_INIT) { } else { RLockGuard guard(lock_); if (0 != mm_.get_replica_property().get_memstore_percent()) { bool_ret = true; } else if (FOLLOWER == state_mgr_.get_role()) { bool_ret = false; } else if (LEADER == state_mgr_.get_role()) { if (state_mgr_.is_leader_active()) { bool_ret = true; } else if (state_mgr_.is_restoring()) { bool_ret = true; } else { bool_ret = false; } } } return bool_ret; } int ObPartitionLogService::get_next_replay_info_for_data_replica_( uint64_t& next_replay_log_id, int64_t& next_replay_log_ts) { int ret = OB_SUCCESS; if (LEADER == state_mgr_.get_role()) { if (state_mgr_.is_leader_active()) { // leader active state, return next_replay_ts (void)sw_.get_next_replay_log_id_info(next_replay_log_id, next_replay_log_ts); } else if (state_mgr_.is_restoring()) { // self is restoring, return last_replay_log_ts uint64_t last_replay_log_id = OB_INVALID_ID; int64_t last_replay_log_ts = OB_INVALID_TIMESTAMP; (void)sw_.get_last_replay_log(last_replay_log_id, last_replay_log_ts); if (OB_INVALID_ID == last_replay_log_id) { } else { next_replay_log_id = last_replay_log_id + 1; next_replay_log_ts = last_replay_log_ts + 1; } } else { // leader is not restoring, no need get from clog } } else { // empty pg or D replica (void)sw_.get_next_replay_log_id_info(next_replay_log_id, next_replay_log_ts); } return ret; } int ObPartitionLogService::get_next_replay_log_info(uint64_t& next_replay_log_id, int64_t& next_replay_log_timestamp) { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else { RLockGuard guard(lock_); if (state_mgr_.is_offline()) { ret = OB_STATE_NOT_MATCH; } else if (0 == mm_.get_replica_property().get_memstore_percent()) { // If it is a replica of D, when obtaining the standby machine-readable timestamp, the following situations need // to be distinguished: 1) In the non- and non-restore state, the time stamp read by the standby // machine needs to take the right boundary of its static data; 2) During the restore process (only the leader // will execute), the read timestamp of the standby machine needs to be the submit_timestamp of the // last_replay_log that has been submitted for playback; 3) In the state of , take // next_replay_log_ts. if (OB_FAIL(get_next_replay_info_for_data_replica_(next_replay_log_id, next_replay_log_timestamp))) { CLOG_LOG(WARN, "get_next_replay_info_for_data_replica_ failed", K_(partition_key), K(ret), K(next_replay_log_id), K(next_replay_log_timestamp)); } } else if (state_mgr_.is_restoring()) { // self is restoring, return last_replay_log_ts uint64_t last_replay_log_id = OB_INVALID_ID; int64_t last_replay_log_ts = OB_INVALID_TIMESTAMP; (void)sw_.get_last_replay_log(last_replay_log_id, last_replay_log_ts); if (OB_INVALID_ID == last_replay_log_id) { } else { next_replay_log_id = last_replay_log_id + 1; next_replay_log_timestamp = last_replay_log_ts + 1; } } else { // normal replica, take next_replay_log_ts. (void)sw_.get_next_replay_log_id_info(next_replay_log_id, next_replay_log_timestamp); } if (OB_FAIL(ret)) { if (EXECUTE_COUNT_PER_SEC(10)) { CLOG_LOG(DEBUG, "get_next_replay_log_info error", K(ret), K_(partition_key), "is_offline", state_mgr_.is_offline(), "role", state_mgr_.get_role(), "state", state_mgr_.get_state()); } } } return ret; } int ObPartitionLogService::get_follower_log_delay(int64_t& log_delay) { int ret = OB_SUCCESS; int64_t next_replay_log_timestamp = OB_INVALID_TIMESTAMP; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else { RLockGuard guard(lock_); if (state_mgr_.is_offline() || state_mgr_.is_need_rebuild() || FOLLOWER != state_mgr_.get_role()) { ret = OB_STATE_NOT_MATCH; } else if (OB_FAIL(sw_.get_next_replay_log_timestamp(next_replay_log_timestamp))) { CLOG_LOG(WARN, "get_next_replay_log_timestamp failed", K_(partition_key), K(ret), K(next_replay_log_timestamp)); } else { log_delay = ObTimeUtility::current_time() - next_replay_log_timestamp; } } return ret; } int ObPartitionLogService::process_keepalive_msg(const common::ObAddr& server, const int64_t cluster_id, const uint64_t next_log_id, const int64_t next_log_ts_lb, const uint64_t deliver_cnt) { int ret = OB_SUCCESS; RLockGuard guard(lock_); const common::ObAddr parent = cascading_mgr_.get_parent_addr(); const common::ObAddr restore_leader = restore_mgr_.get_restore_leader(); const common::ObReplicaType replica_type = mm_.get_replica_type(); bool is_valid_parent = false; if (server == parent || cascading_mgr_.is_in_reregister_period()) { // parent match or in reregister period, allow to process is_valid_parent = true; } if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (LEADER == state_mgr_.get_role() || (parent.is_valid() && !is_valid_parent) || state_mgr_.is_diff_cluster_req_in_disabled_state(cluster_id)) { if (partition_reach_time_interval(30 * 1000 * 1000, send_reject_msg_warn_time_)) { CLOG_LOG(WARN, "sender is unexpected, need reject", K_(partition_key), K(server), K(cluster_id), K(parent), K(restore_leader), K(next_log_id), K(next_log_ts_lb), "replica_type", replica_type, "self_cluster_id", state_mgr_.get_self_cluster_id()); } ObReplicaMsgType msg_type = OB_REPLICA_MSG_TYPE_NOT_CHILD; (void)cascading_mgr_.reject_server(server, cluster_id, msg_type); } else if (deliver_cnt > MAX_DELIVER_CNT) { // Because every cascading msg is async, a replica A is added to its new parent B's children_list firstly, // and then A is noticed to update parent to B. There is a time gap between these two events. // During this time gap, B may assign A as other replica C's parent, and the typo maybe is C->D->A before A update // parent. So in order to support smooth switching of parent, we need to accept short-term loop case and just break // it immediately. ObCascadMemberList children_list; (void)cascading_mgr_.get_children_list(children_list); CLOG_LOG(WARN, "deliver_cnt is larger than MAX_DELIVER_CNT, maybe loop appears", K(ret), K_(partition_key), K(next_log_id), K(next_log_ts_lb), K(deliver_cnt), "parent", cascading_mgr_.get_parent(), K(children_list)); // if predict there is loop, reset children_list to break it cascading_mgr_.reset_children_list(); } else if (OB_FAIL(sw_.follower_update_leader_next_log_info(next_log_id, next_log_ts_lb))) { CLOG_LOG(WARN, "sw_.follower_update_leader_next_log_info failed", K(ret), K_(partition_key)); } else if (!restore_mgr_.is_archive_restoring()) { // transfer keepalive to children in non-restoring state (void)send_keepalive_msg_to_children_(next_log_id, next_log_ts_lb, deliver_cnt); if (STANDBY_LEADER == state_mgr_.get_role()) { // standby_leader transfer keepalive to member_list (void)send_keepalive_msg_to_mlist_(next_log_id, next_log_ts_lb, deliver_cnt); } } else { // do nothing } return ret; } int ObPartitionLogService::send_keepalive_msg_to_mlist_( const uint64_t next_log_id, const int64_t next_log_ts_lb, const uint64_t deliver_cnt) const { UNUSED(deliver_cnt); int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (LEADER == state_mgr_.get_role() || STANDBY_LEADER == state_mgr_.get_role()) { // send to curr_member_list and children_list const int64_t self_cluster_id = obrpc::ObRpcNetHandler::CLUSTER_ID; const common::ObMemberList member_list = mm_.get_curr_member_list(); const int64_t member_cnt = member_list.get_member_number(); for (int64_t i = 0; i < member_cnt && OB_SUCC(ret); ++i) { common::ObAddr server; if (OB_FAIL(member_list.get_server_by_index(i, server))) { CLOG_LOG(WARN, "get_server_by_index failed", K(ret), K_(partition_key), K(server)); } else if (server == self_) { // skip self } else if (OB_FAIL(log_engine_->send_keepalive_msg( server, self_cluster_id, partition_key_, next_log_id, next_log_ts_lb, 0 /* deliver_cnt */))) { CLOG_LOG(WARN, "send_keepalive_msg failed", K(ret), K_(partition_key), K(server)); } else { // do nothing } } } else { } return ret; } int ObPartitionLogService::send_keepalive_msg_to_children_( const uint64_t next_log_id, const int64_t next_log_ts_lb, const uint64_t deliver_cnt) const { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else { ObCascadMemberList children; if (OB_FAIL(cascading_mgr_.get_children_list(children))) { CLOG_LOG(WARN, "get_children_list failed", K_(partition_key), K(ret)); } else { const int64_t child_cnt = children.get_member_number(); for (int64_t i = 0; i < child_cnt; ++i) { share::ObCascadMember child; if (OB_FAIL(children.get_member_by_index(i, child))) { CLOG_LOG(WARN, "get_member_by_index failed", K(ret), K_(partition_key), K(child)); } else if (!child.is_valid()) { CLOG_LOG(WARN, "invalid child", K(ret), K_(partition_key), K(child)); } else if (OB_FAIL(log_engine_->send_keepalive_msg(child.get_server(), child.get_cluster_id(), partition_key_, next_log_id, next_log_ts_lb, deliver_cnt + 1))) { CLOG_LOG(WARN, "send_keepalive_msg failed", K(ret), K_(partition_key), K(child)); } else { // do nothing } } } if (OB_SUCC(ret)) { ObCascadMemberList async_standby_children; if (OB_FAIL(cascading_mgr_.get_async_standby_children(async_standby_children))) { CLOG_LOG(WARN, "get_async_standby_children failed", K_(partition_key), K(ret)); } else { const int64_t child_cnt = async_standby_children.get_member_number(); for (int64_t i = 0; i < child_cnt; ++i) { share::ObCascadMember child; if (OB_FAIL(async_standby_children.get_member_by_index(i, child))) { CLOG_LOG(WARN, "get_member_by_index failed", K(ret), K_(partition_key), K(child)); } else if (!child.is_valid()) { CLOG_LOG(WARN, "invalid child", K(ret), K_(partition_key), K(child)); } else if (OB_FAIL(log_engine_->send_keepalive_msg(child.get_server(), child.get_cluster_id(), partition_key_, next_log_id, next_log_ts_lb, deliver_cnt + 1))) { CLOG_LOG(WARN, "send_keepalive_msg failed", K(ret), K_(partition_key), K(child)); } else { // do nothing } } } } } return ret; } int ObPartitionLogService::process_sync_log_archive_progress_msg( const common::ObAddr& server, const int64_t cluster_id, const ObPGLogArchiveStatus& status) { int ret = OB_SUCCESS; RLockGuard guard(lock_); const common::ObReplicaType replica_type = mm_.get_replica_type(); const common::ObAddr parent = cascading_mgr_.get_parent_addr(); bool is_valid_parent = false; if (server == parent || cascading_mgr_.is_in_reregister_period()) { // parent match or in reregister period, allow to process is_valid_parent = true; } if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (LEADER == state_mgr_.get_role() || (!parent.is_valid()) || (parent.is_valid() && !is_valid_parent)) { if (partition_reach_time_interval(30 * 1000 * 1000, send_reject_msg_warn_time_)) { CLOG_LOG(WARN, "sender is not my leader", K_(partition_key), K(server), K(cluster_id), K(parent), K(status), "replica_type", replica_type); } } else if (OB_FAIL(follower_update_log_archive_progress_(status))) { CLOG_LOG(WARN, "sw_.follower_update_log_archive_progress failed", K(ret), K_(partition_key), K(status)); } else if (OB_FAIL(send_archive_progress_msg_to_children_(status))) { CLOG_LOG(WARN, "failed to send_archive_progress_msg_to_children_", K(ret), K_(partition_key), K(status)); } else { /*do nothing*/ } return ret; } int ObPartitionLogService::follower_update_log_archive_progress_(const ObPGLogArchiveStatus& status) { int ret = OB_SUCCESS; SpinWLockGuard wlock_guard(log_archive_status_rwlock_); if (log_archive_status_ < status) { log_archive_status_ = status; } return ret; } int ObPartitionLogService::process_leader_max_log_msg(const common::ObAddr& server, const int64_t switchover_epoch, const uint64_t leader_max_log_id, const int64_t leader_next_log_ts) { int ret = OB_SUCCESS; RLockGuard guard(lock_); const common::ObAddr parent = cascading_mgr_.get_parent_addr(); const common::ObReplicaType replica_type = mm_.get_replica_type(); if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else { if (LEADER == state_mgr_.get_role() || server != parent) { if (partition_reach_time_interval(30 * 1000 * 1000, send_reject_msg_warn_time_)) { CLOG_LOG(WARN, "sender is not my parent", K_(partition_key), K(server), "parent", parent, K(leader_max_log_id), K(replica_type)); } } else if (OB_FAIL( sw_.follower_update_leader_max_log_info(switchover_epoch, leader_max_log_id, leader_next_log_ts))) { CLOG_LOG(WARN, "sw_.follower_update_leader_max_log_info failed", K(ret), K_(partition_key)); } else { // do nothing } (void)send_max_log_msg_to_children_(switchover_epoch, leader_max_log_id, leader_next_log_ts); if (STANDBY_LEADER == state_mgr_.get_role()) { (void)send_max_log_msg_to_mlist_(switchover_epoch, leader_max_log_id, leader_next_log_ts); } } return ret; } int ObPartitionLogService::send_max_log_msg_to_children_( const int64_t switchover_epoch, const uint64_t leader_max_log_id, const int64_t next_log_ts) const { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else { ObCascadMemberList children; if (OB_FAIL(cascading_mgr_.get_children_list(children))) { CLOG_LOG(WARN, "get_children_list failed", K_(partition_key), K(ret)); } else { const int64_t child_cnt = children.get_member_number(); for (int64_t i = 0; i < child_cnt; ++i) { share::ObCascadMember child; if (OB_FAIL(children.get_member_by_index(i, child))) { CLOG_LOG(WARN, "get_member_by_index failed", K(ret), K_(partition_key), K(child)); } else if (!child.is_valid()) { CLOG_LOG(WARN, "invalid child", K(ret), K_(partition_key), K(child)); } else if (OB_FAIL(log_engine_->send_leader_max_log_msg(child.get_server(), child.get_cluster_id(), partition_key_, switchover_epoch, leader_max_log_id, next_log_ts))) { CLOG_LOG(WARN, "send_leader_max_log_msg failed", K(ret), K_(partition_key), K(child)); } else { CLOG_LOG(DEBUG, "send_max_log_msg_to_children_ succ", K(ret), K_(partition_key), K(children), K(switchover_epoch), K(leader_max_log_id), K(next_log_ts)); } } } if (OB_SUCC(ret)) { // send to sync standby child in max protection mode ObCascadMember sync_child = cascading_mgr_.get_sync_standby_child(); if (sync_child.is_valid() && OB_FAIL(log_engine_->send_leader_max_log_msg(sync_child.get_server(), sync_child.get_cluster_id(), partition_key_, switchover_epoch, leader_max_log_id, next_log_ts))) { CLOG_LOG(WARN, "send_leader_max_log_msg failed", K(ret), K_(partition_key), K(sync_child)); } } if (OB_SUCC(ret)) { // send to other standby children ObCascadMemberList async_standby_children; if (OB_FAIL(cascading_mgr_.get_async_standby_children(async_standby_children))) { CLOG_LOG(WARN, "get_async_standby_children failed", K_(partition_key), K(ret)); } else { const int64_t child_cnt = async_standby_children.get_member_number(); for (int64_t i = 0; i < child_cnt; ++i) { share::ObCascadMember child; if (OB_FAIL(async_standby_children.get_member_by_index(i, child))) { CLOG_LOG(WARN, "get_member_by_index failed", K(ret), K_(partition_key), K(child)); } else if (!child.is_valid()) { CLOG_LOG(WARN, "invalid child", K(ret), K_(partition_key), K(child)); } else if (OB_FAIL(log_engine_->send_leader_max_log_msg(child.get_server(), child.get_cluster_id(), partition_key_, switchover_epoch, leader_max_log_id, next_log_ts))) { CLOG_LOG(WARN, "send_leader_max_log_msg failed", K(ret), K_(partition_key), K(child)); } else { CLOG_LOG(DEBUG, "[HAOFAN] send_max_log_msg_to_children_ succ", K(ret), K_(partition_key), K(async_standby_children), K(switchover_epoch), K(leader_max_log_id), K(next_log_ts)); } } } } } return ret; } int ObPartitionLogService::send_max_log_msg_to_mlist_( const int64_t switchover_epoch, const uint64_t leader_max_log_id, const int64_t next_log_ts) const { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else { const int64_t self_cluster_id = obrpc::ObRpcNetHandler::CLUSTER_ID; // send to paxos member_list const ObMemberList member_list = mm_.get_curr_member_list(); const int64_t member_cnt = member_list.get_member_number(); for (int64_t i = 0; i < member_cnt && OB_SUCC(ret); ++i) { ObMember member; if (OB_FAIL(member_list.get_member_by_index(i, member))) { CLOG_LOG(WARN, "get_server_by_index failed", K(ret), K_(partition_key)); } else if (!member.is_valid()) { CLOG_LOG(WARN, "invalid member", K(ret), K_(partition_key), K(member)); } else if (member.get_server() == self_) { // skip self } else if (OB_FAIL(log_engine_->send_leader_max_log_msg(member.get_server(), self_cluster_id, partition_key_, switchover_epoch, leader_max_log_id, next_log_ts))) { CLOG_LOG(WARN, "send_leader_max_log_msg failed", K(ret), K_(partition_key), K(member)); } else { CLOG_LOG(DEBUG, "leader_send_max_log_msg_to_mlist_ succ", K(ret), K_(partition_key), K(member_list), K(switchover_epoch), K(leader_max_log_id), K(next_log_ts)); } } } return ret; } int ObPartitionLogService::migrate_set_base_storage_info(const common::ObBaseStorageInfo& base_storage_info) { int ret = OB_SUCCESS; WLockGuardWithRetry guard(lock_, WRLOCK_TIMEOUT_US + ObTimeUtility::current_time()); if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (!state_mgr_.is_offline()) { ret = OB_ERR_UNEXPECTED; CLOG_LOG(ERROR, "not offline", K(ret), K_(partition_key)); } else { // At this point, an empty memstore has been created using the parameter base_storage_info // In this case the dump must return base_storage_info based on this const uint64_t last_replay_log_id = base_storage_info.get_last_replay_log_id(); const int64_t last_submit_timestamp = base_storage_info.get_submit_timestamp(); const int64_t accum_checksum = base_storage_info.get_accumulate_checksum(); sw_.set_last_replay_log(last_replay_log_id, last_submit_timestamp); sw_.set_saved_accum_checksum(accum_checksum); CLOG_LOG(INFO, "migrate_set_base_storage_info finished", K(ret), K_(partition_key), K(base_storage_info)); } return ret; } int ObPartitionLogService::restore_replayed_log(const common::ObBaseStorageInfo& base_storage_info) { int ret = OB_SUCCESS; CLOG_LOG(INFO, "restore_replayed_log begin", K_(partition_key), K(base_storage_info)); WLockGuardWithRetry guard(lock_, WRLOCK_TIMEOUT_US + ObTimeUtility::current_time()); // At this point, an empty memstore has been created using the parameter base_storage_info // In this case the dump must return base_storage_info based on this sw_.set_last_replay_log(base_storage_info.get_last_replay_log_id(), base_storage_info.get_submit_timestamp()); sw_.set_saved_accum_checksum(base_storage_info.get_accumulate_checksum()); if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (OB_FAIL(disable_replay_())) { CLOG_LOG(WARN, "disable_replay_ failed", K(ret), K_(partition_key)); } else if (OB_FAIL(replay_engine_->reset_partition(partition_key_))) { CLOG_LOG(WARN, "reset_partition failed", K(ret), K_(partition_key)); } else if (!state_mgr_.set_restoring()) { ret = OB_ERR_UNEXPECTED; } else if (OB_ISNULL(replay_engine_) || OB_ISNULL(log_engine_)) { ret = OB_INVALID_ARGUMENT; } else if (base_storage_info.get_last_replay_log_id() + 1 >= sw_.get_start_id()) { // The migration logic guarantees that PartitionLogService must be offline when truncate_sw is executed // Partition in the offline state will not be elected as Leader, and will not submit_log // The thread that executes truncate is the thread of the migration task. Since this operation may take a long time, // the write lock needs to be released; lock_.wrunlock(); if (OB_FAIL(truncate_first_stage_(base_storage_info))) { CLOG_LOG(WARN, "truncate_first_stage_ failed", K(ret), K_(partition_key), K(base_storage_info)); } lock_.wrlock_with_retry(WRLOCK_TIMEOUT_US + ObTimeUtility::current_time()); if (OB_SUCC(ret) && OB_FAIL(truncate_second_stage_(base_storage_info))) { CLOG_LOG(WARN, "truncate_second_stage_ failed", K(ret), K(partition_key_), K(base_storage_info)); } } else { uint64_t start_id = base_storage_info.get_last_replay_log_id() + 1; const uint64_t max_log_id_to_submit = sw_.get_start_id() - 1; lock_.wrunlock(); // Release locks when iterating data to avoid reading locks for a long time and blocking other // processes const int64_t start_ts = ObTimeUtility::current_time(); bool is_not_timeout = false; const int64_t RETRY_SLEEP_TIME = 1 * 1000 * 1000; // 1s const int64_t MAX_RETRY_COST_TIME = 10 * 60 * 1000 * 1000; // 10min ObReplicaReplayType replay_type = INVALID_REPLICA_REPLAY_TYPE; if (OB_FAIL(sw_.get_replica_replay_type(replay_type))) { CLOG_LOG(WARN, "failed to get replica type", K(ret), K(partition_key_)); } else if (REPLICA_REPLAY_ALL_LOG == replay_type) { do { if (OB_EAGAIN == ret) { usleep(RETRY_SLEEP_TIME); } ObLogCursorExt log_cursor_ext; if (OB_FAIL(log_engine_->get_cursor(partition_key_, max_log_id_to_submit, log_cursor_ext))) { if (OB_CURSOR_NOT_EXIST == ret) { // The first log ilog written by Partition has not been flushed or loaded by ilog_storage, // if a minor freeze occurs at this time // When the content of this log needs to be read, log_engine will return OB_CURSOR_NOT_EXIST; // In this scenario, OB_EAGAIN is also returned, and the upper layer will try again to read this data ret = OB_EAGAIN; CLOG_LOG(WARN, "ilog_storage get invalid log, cursor not exist", K(ret), K(partition_key_), K(max_log_id_to_submit)); } else if (OB_NEED_RETRY == ret || OB_ERR_OUT_OF_UPPER_BOUND == ret) { ret = OB_EAGAIN; } else { CLOG_LOG(WARN, "log_engine get_cursor failed", K(ret), K(partition_key_), K(max_log_id_to_submit)); } } else if (OB_FAIL(replay_engine_->submit_replay_log_task_by_restore( partition_key_, max_log_id_to_submit, log_cursor_ext.get_submit_timestamp()))) { if (OB_EAGAIN == ret) { if (REACH_TIME_INTERVAL(100 * 1000)) { CLOG_LOG( WARN, "failed to submit replay task by restore", K(ret), K_(partition_key), K(max_log_id_to_submit)); } } else { CLOG_LOG( WARN, "failed to submit replay task by restore", K(ret), K_(partition_key), K(max_log_id_to_submit)); } } else { sw_.set_last_replay_log(max_log_id_to_submit, log_cursor_ext.get_submit_timestamp()); sw_.set_saved_accum_checksum(log_cursor_ext.get_accum_checksum()); CLOG_LOG(INFO, "succ to submit replay task by restore", K_(partition_key), K(max_log_id_to_submit), K(log_cursor_ext)); } } while (OB_EAGAIN == ret && (is_not_timeout = (ObTimeUtility::current_time() - start_ts) < MAX_RETRY_COST_TIME)); } else if (REPLICA_REPLAY_PARTITIAL_LOG == replay_type) { uint64_t cur_log_id = start_id; bool need_replay = false; int64_t log_submit_timestamp = OB_INVALID_TIMESTAMP; int64_t next_replay_log_ts_for_rg = OB_INVALID_TIMESTAMP; int64_t accum_checksum = 0; do { if (OB_EAGAIN == ret) { usleep(RETRY_SLEEP_TIME); } bool is_meta_log = false; ObLogType log_type = OB_LOG_UNKNOWN; if (OB_FAIL(sw_.get_log_meta_info( cur_log_id, is_meta_log, log_submit_timestamp, next_replay_log_ts_for_rg, accum_checksum, log_type))) { if (OB_EAGAIN == ret) { if (REACH_TIME_INTERVAL(100 * 1000)) { CLOG_LOG(WARN, "failed to check is meta log", K(partition_key_), K(cur_log_id), K(ret)); } } else { CLOG_LOG(WARN, "failed to check is meta log", K(partition_key_), K(cur_log_id), K(ret)); } } else { need_replay = is_meta_log; } uint64_t last_replay_log_id = OB_INVALID_ID; if (OB_FAIL(ret)) { } else if (OB_FAIL(replay_engine_->submit_replay_log_task_sequentially(partition_key_, cur_log_id, log_submit_timestamp, need_replay, log_type, next_replay_log_ts_for_rg))) { if (OB_EAGAIN == ret) { if (REACH_TIME_INTERVAL(100 * 1000)) { CLOG_LOG(WARN, "failed to submit replay task step by step", K(ret), K_(partition_key), K(cur_log_id)); } } else { CLOG_LOG(WARN, "failed to submit replay task step by step", K(ret), K_(partition_key), K(cur_log_id)); } } else { sw_.set_last_replay_log(cur_log_id, log_submit_timestamp); sw_.set_saved_accum_checksum(accum_checksum); cur_log_id++; } } while ((OB_SUCC(ret) || OB_EAGAIN == ret) && (cur_log_id <= max_log_id_to_submit) && (is_not_timeout = (ObTimeUtility::current_time() - start_ts < MAX_RETRY_COST_TIME))); if (OB_SUCC(ret) && cur_log_id > max_log_id_to_submit) { CLOG_LOG(INFO, "finished submitting log to replay engine ", K(ret), K(partition_key_), K(replay_type), K(max_log_id_to_submit), K(is_not_timeout)); } else if (OB_FAIL(ret) && OB_EAGAIN != ret) { // do nothing } else { int64_t tmp_ret = ret; ret = OB_REPLAY_EAGAIN_TOO_MUCH_TIME; CLOG_LOG(WARN, "waiting too much time before finishing submitting log to replay engine ", KR(tmp_ret), KR(ret), K(partition_key_), K(replay_type), K(max_log_id_to_submit), K(is_not_timeout)); } } else { ret = OB_ERR_UNEXPECTED; CLOG_LOG(WARN, "unexpected replica type", K(ret), K(partition_key_), K(replay_type)); } if (OB_SUCC(ret)) { // Wait for all log submission tasks to be completed bool is_submit_finished = false; do { if (OB_EAGAIN == ret) { // tenant maybe out of memory usleep(RETRY_SLEEP_TIME); } if (OB_FAIL(replay_engine_->is_submit_finished(partition_key_, is_submit_finished))) { CLOG_LOG(WARN, "failed to check is_submit_finished", K(ret), K_(partition_key), K(max_log_id_to_submit)); } else if (!is_submit_finished) { ret = OB_EAGAIN; if (REACH_TIME_INTERVAL(1 * 1000 * 1000)) { CLOG_LOG(INFO, "wait submit finished", K(partition_key_), K(max_log_id_to_submit), K(ret)); } } else { /*do nothing */ } } while ((OB_SUCC(ret) || OB_EAGAIN == ret) && !is_submit_finished && (is_not_timeout = ObTimeUtility::current_time() - start_ts < MAX_RETRY_COST_TIME)); if (OB_SUCC(ret) && is_submit_finished) { CLOG_LOG( INFO, "finished submitting replay log task", K(partition_key_), K(replay_type), K(max_log_id_to_submit)); } else if (OB_FAIL(ret) && OB_EAGAIN != ret) { // do nothing } else { int64_t tmp_ret = ret; ret = OB_REPLAY_EAGAIN_TOO_MUCH_TIME; CLOG_LOG(WARN, "waiting too much time before finishing submitting replay_task", K(ret), K(tmp_ret), K(partition_key_), K(replay_type), K(max_log_id_to_submit), K(is_not_timeout), K(is_submit_finished)); } } lock_.wrlock_with_retry(WRLOCK_TIMEOUT_US + ObTimeUtility::current_time()); } int tmp_ret = OB_SUCCESS; if (OB_SUCCESS != (tmp_ret = enable_replay_())) { CLOG_LOG(ERROR, "enable_replay_ failed", K(tmp_ret), K_(partition_key)); } #ifdef ERRSIM if (OB_SUCC(ret)) { ret = E(EventTable::EN_CLOG_RESTORE_REPLAYED_LOG) OB_SUCCESS; if (OB_FAIL(ret)) { CLOG_LOG(ERROR, "fake restore_replayed_log", K_(partition_key), K(ret)); } } #endif if (0 == mm_.get_replica_property().get_memstore_percent() && state_mgr_.is_leader_taking_over() && OB_SUCC(ret)) { // When D replica performs restore in the leader_taking_over phase, // it needs to be delayed until the active phase and then reset } else { state_mgr_.reset_restoring(); } CLOG_LOG(INFO, "restore_replayed_log finished", K_(partition_key), K(ret), K(base_storage_info)); return ret; } int ObPartitionLogService::truncate_first_stage_(const common::ObBaseStorageInfo& base_storage_info) { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (OB_FAIL(sw_.truncate_first_stage(base_storage_info))) { CLOG_LOG(WARN, "sw truncate_first_stage failed", K(ret), K(partition_key_), K(base_storage_info)); } CLOG_LOG(INFO, "truncate_first_stage_", K(ret), K(partition_key_), K(base_storage_info)); return ret; } int ObPartitionLogService::truncate_second_stage_(const common::ObBaseStorageInfo& base_storage_info) { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (OB_SUCCESS != (ret = mm_.set_membership_info(base_storage_info.get_curr_member_list(), base_storage_info.get_membership_timestamp(), base_storage_info.get_membership_log_id(), base_storage_info.get_replica_num(), base_storage_info.get_ms_proposal_id()))) { CLOG_LOG(WARN, "set_membership_info failed", K_(partition_key), K(ret), K(base_storage_info)); } else if (OB_SUCCESS != (ret = sw_.truncate_second_stage(base_storage_info))) { CLOG_LOG(WARN, "sw truncate_second_stage failed", K_(partition_key), K(ret), K(base_storage_info)); } else if (OB_SUCCESS != (ret = saved_base_storage_info_.deep_copy(base_storage_info))) { CLOG_LOG(WARN, "base_storage_info deep_copy failed", K_(partition_key), K(ret), K(base_storage_info)); } else { // do nothing } CLOG_LOG(INFO, "truncate_second_stage_", K_(partition_key), K(ret), "last_replay_log_id", base_storage_info.get_last_replay_log_id(), "start_id", sw_.get_start_id()); return ret; } bool ObPartitionLogService::is_freeze_log_(const char* buff, const int64_t size) const { bool bool_ret = false; int64_t log_type = storage::OB_LOG_UNKNOWN; int64_t pos = 0; if (OB_SUCCESS != (serialization::decode_i64(buff, size, pos, &log_type))) { CLOG_LOG(ERROR, "deserialize failed", K_(partition_key)); bool_ret = true; // if error, try update data version } else { bool_ret = storage::ObStorageLogTypeChecker::is_freeze_log(log_type); } return bool_ret; } bool ObPartitionLogService::try_update_freeze_version_(const ObLogEntry& log_entry) { bool bool_ret = true; ObLogType log_type = log_entry.get_header().get_log_type(); if (OB_LOG_SUBMIT == log_type) { if (is_freeze_log_(log_entry.get_buf(), log_entry.get_header().get_data_len())) { state_mgr_.update_freeze_version(log_entry.get_header().get_freeze_version()); } } else if (OB_LOG_MEMBERSHIP == log_type || OB_LOG_START_MEMBERSHIP == log_type || OB_LOG_NOP == log_type) { state_mgr_.update_freeze_version(log_entry.get_header().get_freeze_version()); } return bool_ret; } int64_t ObPartitionLogService::get_membership_timestamp() const { RLockGuard guard(lock_); return mm_.get_timestamp(); } bool ObPartitionLogService::internal_check_remote_mc_ts_( const ObMemberList& member_list, const ObAddr& addr, const int64_t mc_timestamp, const uint64_t follower_max_gap) { int tmp_ret = OB_SUCCESS; int64_t valid_num = 0; if (!addr.is_valid() || OB_ISNULL(log_engine_)) { tmp_ret = OB_INVALID_ARGUMENT; } else { ObAddr server; for (int64_t i = 0; i < member_list.get_member_number(); ++i) { server.reset(); int64_t timestamp = OB_INVALID_TIMESTAMP; uint64_t follower_max_confirmed_log_id = OB_INVALID_ID; bool remote_replica_is_normal = false; if (OB_SUCCESS != (tmp_ret = member_list.get_server_by_index(i, server))) { CLOG_LOG(ERROR, "get_server_by_index failed", K_(partition_key), K(tmp_ret)); } else if (server == self_ || server == addr) { CLOG_LOG(INFO, "server do not need check", K_(partition_key), K(server), K(addr), K_(self)); } else if (OB_SUCCESS != (tmp_ret = log_engine_->get_remote_membership_status(server, state_mgr_.get_self_cluster_id(), partition_key_, timestamp, follower_max_confirmed_log_id, remote_replica_is_normal))) { CLOG_LOG(WARN, "get_remote_membership_status failed", K_(partition_key), K(tmp_ret), K(server)); } else if (mc_timestamp != timestamp) { CLOG_LOG( INFO, "timestamp do not match", K_(partition_key), K(tmp_ret), K(server), K(mc_timestamp), K(timestamp)); } else if (sw_.get_max_log_id() > follower_max_confirmed_log_id + follower_max_gap) { CLOG_LOG(INFO, "follower is not in sync", K_(partition_key), K(tmp_ret), K(server), K(follower_max_confirmed_log_id), "leader_max_log_id", sw_.get_max_log_id()); } else if (!remote_replica_is_normal) { CLOG_LOG(INFO, "remote replica may be out_of_memory or disk is not enough", K_(partition_key), K(server)); } else { valid_num++; } } } CLOG_LOG(INFO, "check_remote_mc_ts_", K_(partition_key), K(tmp_ret), K(valid_num), K(addr), K(member_list), K(mc_timestamp)); return valid_num >= (mm_.get_replica_num() / 2); } int ObPartitionLogService::try_replay(const bool need_async, bool& is_replayed, bool& is_replay_failed) { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else { RLockGuard guard(lock_); ret = sw_.submit_replay_task(need_async, is_replayed, is_replay_failed); if (!state_mgr_.can_slide_sw()) { if (partition_reach_time_interval(5 * 1000 * 1000, cannot_slide_sw_interval_)) { CLOG_LOG(WARN, "can_slide_sw return false", K_(partition_key), "role", state_mgr_.get_role(), "state", state_mgr_.get_state(), "is_replay_enabled", state_mgr_.is_replay_enabled()); } } } return ret; } uint64_t ObPartitionLogService::get_last_slide_log_id() { uint64_t last_slide_log_id = OB_INVALID_ID; RLockGuard guard(lock_); if (state_mgr_.is_offline()) { last_slide_log_id = OB_INVALID_ID; } else { last_slide_log_id = sw_.get_start_id() - 1; } return last_slide_log_id; } void ObPartitionLogService::get_last_replay_log(uint64_t& log_id, int64_t& ts) { RLockGuard guard(lock_); sw_.get_last_replay_log(log_id, ts); } int64_t ObPartitionLogService::get_last_submit_timestamp() const { RLockGuard guard(lock_); return sw_.get_last_submit_timestamp(); } uint64_t ObPartitionLogService::get_start_log_id() { RLockGuard guard(lock_); return sw_.get_start_id(); } uint64_t ObPartitionLogService::get_start_log_id_unsafe() { return sw_.get_start_id(); } bool ObPartitionLogService::is_svr_in_member_list(const ObAddr& server) const { bool bool_ret = false; if (IS_NOT_INIT) { CLOG_LOG(WARN, "not init", K_(partition_key), K_(is_inited)); } else if (!server.is_valid()) { CLOG_LOG(WARN, "invalid arguments", K_(partition_key), K(server)); } else { RLockGuard guard(lock_); bool_ret = mm_.get_curr_member_list().contains(server); } return bool_ret; } int ObPartitionLogService::get_dst_leader_candidate(common::ObMemberList& member_list) const { int ret = OB_SUCCESS; member_list.reset(); ObAddr addr; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (!ObReplicaTypeCheck::is_paxos_replica_V2(mm_.get_replica_type())) { ret = OB_NOT_MASTER; } else { RLockGuard guard(lock_); ObMemberList elect_valid_candidates; if (OB_SUCCESS != (ret = state_mgr_.get_election_valid_candidates(elect_valid_candidates))) { CLOG_LOG(WARN, "get_election_valid_candidates failed", K_(partition_key), K(ret)); } else { const common::ObMemberList& curr_member_list = mm_.get_curr_member_list(); for (int64_t i = 0; i < curr_member_list.get_member_number() && (OB_SUCC(ret)); ++i) { addr.reset(); if (OB_FAIL(curr_member_list.get_server_by_index(i, addr))) { CLOG_LOG(ERROR, "get_server_by_index failed", K(ret), K_(partition_key), K(curr_member_list), K(i)); } else if (addr != self_ && elect_valid_candidates.contains(addr)) { if (OB_FAIL(member_list.add_server(addr))) { // should not be entry exist CLOG_LOG(ERROR, "member_list add_server failed", K(ret), K_(partition_key), K(member_list)); } } else { // do nothing } } } } if (OB_SUCC(ret)) { RLockGuard guard(lock_); if (!state_mgr_.can_change_leader()) { ret = OB_STATE_NOT_MATCH; CLOG_LOG(WARN, "can not change leader", K(ret), K_(partition_key), "role", state_mgr_.get_role(), "state", state_mgr_.get_state(), "membership_mgr is_state_init", mm_.is_state_init(), "is_changing_leader", state_mgr_.is_changing_leader(), K_(self)); } } return ret; } int ObPartitionLogService::get_max_data_version(ObVersion& max_data_version) const { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else { RLockGuard guard(lock_); max_data_version = state_mgr_.get_freeze_version(); } return ret; } int ObPartitionLogService::set_follower_active() { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else { CLOG_LOG(INFO, "set_follower_active", K_(partition_key)); WLockGuardWithRetry guard(lock_, WRLOCK_TIMEOUT_US + ObTimeUtility::current_time()); state_mgr_.set_follower_active(); } return ret; } int ObPartitionLogService::get_log_id_range( uint64_t& start_log_id, int64_t& start_ts, uint64_t& end_log_id, int64_t& end_ts) { int ret = OB_SUCCESS; common::ObTimeGuard timeguard("get_log_id_range", 1000 * 1000); RLockGuard guard(lock_); if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else { start_log_id = saved_base_storage_info_.get_last_replay_log_id(); start_ts = saved_base_storage_info_.get_submit_timestamp(); sw_.get_last_replay_log(end_log_id, end_ts); } CLOG_LOG( TRACE, "get log id range", K(ret), K_(partition_key), K(start_log_id), K(start_ts), K(end_log_id), K(end_ts)); return ret; } int ObPartitionLogService::get_sw_max_log_id_info(uint64_t& sw_max_log_id, int64_t& sw_max_log_ts) { int ret = OB_SUCCESS; RLockGuard guard(lock_); if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else { sw_.get_max_log_id_info(sw_max_log_id, sw_max_log_ts); } CLOG_LOG(TRACE, "get sw max_log_id_info", K(ret), K_(partition_key), K(sw_max_log_id), K(sw_max_log_ts)); return ret; } int ObPartitionLogService::get_sw_max_log_id(uint64_t& sw_max_log_id) { int64_t sw_max_log_ts = OB_INVALID_TIMESTAMP; return get_sw_max_log_id_info(sw_max_log_id, sw_max_log_ts); } ObClogVirtualStat* ObPartitionLogService::alloc_clog_virtual_stat() { int ret = OB_SUCCESS; ObClogVirtualStat* vitual_stat = NULL; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (NULL == (vitual_stat = op_reclaim_alloc(ObClogVirtualStat))) { CLOG_LOG(WARN, "alloc memory for vitual_stat failed", K(ret)); ret = OB_ALLOCATE_MEMORY_FAILED; } else if (OB_FAIL(vitual_stat->init(self_, partition_key_, &state_mgr_, &sw_, &mm_, &cascading_mgr_, this))) { CLOG_LOG(WARN, "vitual_stat init failed", K(ret), K_(partition_key)); op_reclaim_free(vitual_stat); vitual_stat = NULL; } else { } return vitual_stat; } int ObPartitionLogService::revert_clog_virtual_stat(ObClogVirtualStat* virtual_stat) { int ret = OB_SUCCESS; if (NULL == virtual_stat) { ret = OB_INVALID_ARGUMENT; } else { op_reclaim_free(virtual_stat); virtual_stat = NULL; } return ret; } int ObPartitionLogService::set_member_list(const ObMemberList& member_list, const int64_t replica_num, const common::ObAddr& assigned_leader, const int64_t lease_start) { // used for creating tenant in standby cluster or physical restoring int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (!member_list.is_valid() || member_list.get_member_number() > replica_num) { ret = OB_INVALID_ARGUMENT; CLOG_LOG(WARN, "invalid arguments", K(ret), K_(partition_key), K(member_list)); } else { WLockGuardWithRetry guard(lock_, WRLOCK_TIMEOUT_US + ObTimeUtility::current_time()); if (GCTX.is_standby_cluster()) { int tmp_ret = OB_SUCCESS; ObAddr cur_leader; int64_t cur_leader_epoch = -1; if (OB_SUCCESS == (tmp_ret = state_mgr_.get_election_leader(cur_leader, cur_leader_epoch)) && member_list.contains(cur_leader)) { // leader is valid, no need set CLOG_LOG(INFO, "leader is valid and in member_list, no need set election leader", K(ret), K_(partition_key), K(cur_leader), K(cur_leader_epoch), K(member_list)); } else if (assigned_leader.is_valid() && lease_start >= 0) { // There is currently no leader, first set leader and then set member_list to avoid election devoting a new // leader The lease_start value may have expired when the retry is performed, and a check will be made in the // election Therefore, the set election leader may fail when retrying, and tmp_ret is used here to avoid // blocking the set_member_list later if (OB_SUCCESS != (tmp_ret = state_mgr_.standby_set_election_leader(assigned_leader, lease_start))) { CLOG_LOG(WARN, "standby_set_election_leader failed", K(tmp_ret), K_(partition_key), K(assigned_leader), K(lease_start)); } else { CLOG_LOG(INFO, "standby_set_election_leader success", K(ret), K_(partition_key), K(assigned_leader), K(lease_start)); } } else { // assigned_leader is invalid, skip CLOG_LOG(WARN, "assigned_leader is invlaid", K(ret), K_(partition_key), K(member_list), K(assigned_leader), K(lease_start)); } } else { // assigned_leader maybe invalid in physical restoring scenario, skip CLOG_LOG(WARN, "assigned_leader is invlaid", K(ret), K_(partition_key), K(member_list), K(assigned_leader), K(lease_start)); } if (OB_SUCC(ret)) { if (OB_FAIL(mm_.force_set_member_list(member_list, replica_num))) { CLOG_LOG(WARN, "mm_.force_set_member_list failed", K(ret), K_(partition_key), K(member_list), K(replica_num)); } else if (OB_FAIL(state_mgr_.start_election())) { CLOG_LOG(WARN, "start_election failed", K_(partition_key), K(ret)); } else if (OB_FAIL(state_mgr_.set_scan_disk_log_finished())) { CLOG_LOG(WARN, "set_scan_disk_log_finished failed", K_(partition_key), K(ret)); } else { // do nothing } } } CLOG_LOG(INFO, "set_member_list finished", K(ret), K_(partition_key), K(member_list), K(replica_num)); return ret; } int ObPartitionLogService::check_if_start_log_task_empty(bool& is_empty) { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; CLOG_LOG(WARN, "not inited", K(ret), K_(partition_key)); } else if (OB_FAIL(sw_.check_left_bound_empty(is_empty))) { if (OB_EAGAIN == ret) { if (REACH_TIME_INTERVAL(1 * 1000 * 1000)) { CLOG_LOG(WARN, "failed to check_left_bound_empty", K(ret), K_(partition_key)); } } else { CLOG_LOG(WARN, "failed to check_left_bound_empty", K(ret), K_(partition_key)); } } else { /*do nothing*/ } return ret; } int ObPartitionLogService::try_freeze_aggre_buffer() { int ret = OB_SUCCESS; RLockGuard guard(lock_); ret = sw_.try_freeze_aggre_buffer(); return ret; } int ObPartitionLogService::get_last_archived_log_id( const int64_t incarnation, const int64_t archive_round, uint64_t& last_archived_log_id) { int ret = OB_SUCCESS; SpinRLockGuard rlock_guard(log_archive_status_rwlock_); if (incarnation != log_archive_status_.archive_incarnation_ || archive_round != log_archive_status_.log_archive_round_) { ret = OB_EAGAIN; CLOG_LOG(WARN, "incarnation or archive round is not the same, need retry", K(ret), K_(partition_key), K(incarnation), K(archive_round), K(log_archive_status_)); } else { last_archived_log_id = log_archive_status_.last_archived_log_id_; } return ret; } int ObPartitionLogService::force_set_as_single_replica() { int ret = OB_SUCCESS; WLockGuardWithRetry guard(lock_, WRLOCK_TIMEOUT_US + ObTimeUtility::current_time()); ret = mm_.force_set_as_single_replica(); return ret; } int ObPartitionLogService::force_set_replica_num(const int64_t replica_num) { int ret = OB_SUCCESS; WLockGuardWithRetry guard(lock_, WRLOCK_TIMEOUT_US + ObTimeUtility::current_time()); ret = mm_.force_set_replica_num(replica_num); return ret; } int ObPartitionLogService::force_set_parent(const common::ObAddr& new_parent) { int ret = OB_SUCCESS; if (!new_parent.is_valid()) { ret = OB_INVALID_ARGUMENT; } else { WLockGuardWithRetry guard(lock_, WRLOCK_TIMEOUT_US + ObTimeUtility::current_time()); const uint32_t reset_type = ObLogCascadingMgr::ResetPType::ADMIN_CMD; cascading_mgr_.reset_parent(reset_type); const int64_t dst_cluster_id = state_mgr_.get_leader_cluster_id(); int64_t next_replay_log_ts = OB_INVALID_TIMESTAMP; if (OB_FAIL(sw_.get_next_replay_log_timestamp(next_replay_log_ts))) { CLOG_LOG(WARN, "sw get_next_replay_log_timestamp failed", K(ret), K_(partition_key)); } else if (OB_FAIL(log_engine_->fetch_register_server(new_parent, dst_cluster_id, partition_key_, state_mgr_.get_region(), state_mgr_.get_idc(), mm_.get_replica_type(), next_replay_log_ts, false, false))) { CLOG_LOG(WARN, "fetch_register_server failed", K_(partition_key), K(ret)); } else { // do nothing } } return ret; } int ObPartitionLogService::force_reset_parent() { int ret = OB_SUCCESS; WLockGuardWithRetry guard(lock_, WRLOCK_TIMEOUT_US + ObTimeUtility::current_time()); const uint32_t reset_type = ObLogCascadingMgr::ResetPType::ADMIN_CMD; cascading_mgr_.reset_parent(reset_type); return ret; } int ObPartitionLogService::force_set_server_list(const obrpc::ObServerList& server_list, const int64_t replica_num) { int ret = OB_SUCCESS; int64_t unused_epoch = 0; ObTsWindows unused_windows; WLockGuardWithRetry guard(lock_, WRLOCK_TIMEOUT_US + ObTimeUtility::current_time()); CLOG_LOG(INFO, "force_set_server_list", K(partition_key_), K(server_list), K(replica_num)); if (OB_NOT_MASTER != (ret = get_role_unlock(unused_epoch, unused_windows))) { ret = OB_NOT_SUPPORTED; CLOG_LOG(WARN, "this replica is Leader, not allow to force_set_server_list", K(ret), K(partition_key_), K(server_list), K(replica_num)); } else { ret = mm_.force_set_server_list(server_list, replica_num); } return ret; } int ObPartitionLogService::send_log_(const common::ObAddr& server, const int64_t cluster_id, const ObLogEntry& log_entry, const common::ObProposalID& proposal_id, const int64_t network_limit) { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (!server.is_valid() || (!proposal_id.is_valid() && !restore_mgr_.is_archive_restoring()) || OB_ISNULL(log_engine_) || OB_ISNULL(alloc_mgr_)) { ret = OB_INVALID_ARGUMENT; } else { ObPushLogMode push_mode = PUSH_LOG_ASYNC; if (GCTX.need_sync_to_standby() && LEADER == state_mgr_.get_role() && !ObMultiClusterUtil::is_cluster_private_table(partition_key_.get_table_id()) && cascading_mgr_.get_sync_standby_child().get_server() == server) { // in max_protection mode, all logs that primary leader send to standby are set PUSH_LOG_SYNC push_mode = PUSH_LOG_SYNC; } int64_t pos = 0; char* serialize_buff = NULL; int64_t serialize_size = log_entry.get_serialize_size(); if (NULL == (serialize_buff = static_cast(alloc_mgr_->ge_alloc(serialize_size)))) { CLOG_LOG(ERROR, "alloc failed", K_(partition_key)); ret = OB_ALLOCATE_MEMORY_FAILED; } else if (OB_SUCCESS != (ret = log_entry.serialize(serialize_buff, serialize_size, pos))) { CLOG_LOG(WARN, "submit_log serialize failed", K_(partition_key), K(ret)); } else { ObLogNetTask net_task(proposal_id, serialize_buff, serialize_size); if (OB_SUCCESS != (ret = log_engine_->submit_fetch_log_resp( server, cluster_id, partition_key_, network_limit, push_mode, &net_task))) { CLOG_LOG(WARN, "submit_fetch_log_resp failed", K_(partition_key), K(ret), K(log_entry)); } else { if (REACH_TIME_INTERVAL(100 * 1000)) { CLOG_LOG(INFO, "submit_fetch_log_resp succ", K(server), K(partition_key_), K(network_limit), "log_id", log_entry.get_header().get_log_id(), K(push_mode)); } } } if (NULL != serialize_buff) { alloc_mgr_->ge_free(serialize_buff); serialize_buff = NULL; } } return ret; } int ObPartitionLogService::send_null_log_(const common::ObAddr& server, const int64_t cluster_id, const uint64_t log_id, const common::ObProposalID& proposal_id, const int64_t network_limit) { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (!server.is_valid() || log_id <= 0 || (!proposal_id.is_valid() && !restore_mgr_.is_archive_restoring())) { ret = OB_INVALID_ARGUMENT; } else { ObLogEntryHeader header; ObLogEntry log_entry; ObProposalID invalid_proposal_id; const bool is_trans_log = false; if (OB_SUCCESS != (ret = header.generate_header(OB_LOG_NOT_EXIST, // log_type partition_key_, // partition_key log_id, // log_id NULL, // buf 0, // data_len ObTimeUtility::current_time(), // generation_timestamp OB_INVALID_TIMESTAMP, // epoch_id invalid_proposal_id, // proposal_id OB_INVALID_TIMESTAMP, // submit_timestamp ObVersion(), is_trans_log))) { CLOG_LOG(WARN, "generate_header failed", K_(partition_key), K(ret)); } else if (OB_SUCCESS != (ret = log_entry.generate_entry(header, NULL))) { CLOG_LOG(WARN, "generate_entry failed", K_(partition_key), K(ret)); } else if (OB_SUCCESS != (ret = send_log_(server, cluster_id, log_entry, proposal_id, network_limit))) { CLOG_LOG(WARN, "submit_log failed", K_(partition_key), K(ret), K(log_entry), K(proposal_id)); } else { } } return ret; } int ObPartitionLogService::send_confirm_info_(const common::ObAddr& server, const int64_t cluster_id, const ObLogEntry& log_entry, const int64_t accum_checksum, const bool batch_committed) { int ret = OB_SUCCESS; ObCascadMemberList list; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (!server.is_valid() || OB_ISNULL(log_engine_)) { ret = OB_INVALID_ARGUMENT; } else if (OB_FAIL(list.add_member(ObCascadMember(server, cluster_id)))) { CLOG_LOG(WARN, "add_member failed", K_(partition_key), K(ret), K(server)); } else { const uint64_t log_id = log_entry.get_header().get_log_id(); ObConfirmedInfo confirmed_info; if (OB_SUCCESS != (ret = confirmed_info.init(log_entry.get_header().get_data_checksum(), log_entry.get_header().get_epoch_id(), accum_checksum, log_entry.get_header().get_submit_timestamp()))) { CLOG_LOG(WARN, "confirmed_info init failed", K_(partition_key), K(ret)); } else if (OB_SUCCESS != (ret = log_engine_->submit_confirmed_info( list, partition_key_, log_id, confirmed_info, batch_committed))) { CLOG_LOG(WARN, "log_engine submit_confirmed_info", K_(partition_key), K(ret), K(list), K(log_id), K(confirmed_info), K(batch_committed)); } } return ret; } int ObPartitionLogService::try_update_next_replay_log_ts_in_restore(const int64_t new_ts) { int ret = OB_SUCCESS; RLockGuard guard(lock_); if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (restore_mgr_.can_update_next_replay_log_ts_in_restore()) { sw_.try_update_next_replay_log_info_on_leader(new_ts); } else { /*dp nothing*/ } return ret; } int ObPartitionLogService::leader_update_next_replay_log_ts_under_lock() { int ret = OB_SUCCESS; // lock to avoid leader switch RLockGuard guard(lock_); const int64_t now = ObClockGenerator::getClock(); bool is_cluster_status_allow_update = false; if (!ObMultiClusterUtil::is_cluster_private_table(partition_key_.get_table_id())) { if (GCTX.is_primary_cluster() || GCTX.is_in_flashback_state() || GCTX.is_in_cleanup_state()) { // non-private leader only in flashback/cleanup state can advance next_log_ts // it cannot do this in switching state, which may lead conflict with new primary cluster is_cluster_status_allow_update = true; } else { is_cluster_status_allow_update = false; } } else { // cluster private table, allow leader update is_cluster_status_allow_update = true; } if (is_cluster_status_allow_update) { if (OB_FAIL(leader_update_next_replay_log_ts_(now))) { CLOG_LOG(WARN, "leader_update_next_replay_log_ts_ failed", K(ret), K(partition_key_), K(now)); } } return ret; } int ObPartitionLogService::get_next_served_log_info_for_leader( uint64_t& next_served_log_id, int64_t& next_served_log_ts) { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else { // try update next_log_ts firstly int tmp_ret = leader_update_next_replay_log_ts_under_lock(); if (OB_SUCCESS != tmp_ret) { CLOG_LOG(WARN, "update next replay log ts fail when get_next_served_log_info_for_leader", K(tmp_ret), K(partition_key_)); } ret = sw_.get_next_served_log_info_by_next_replay_log_info(next_served_log_id, next_served_log_ts); } return ret; } int ObPartitionLogService::get_pls_epoch(int64_t& pls_epoch) const { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (OB_FAIL(state_mgr_.get_pls_epoch(pls_epoch))) { CLOG_LOG(WARN, "get_pls_epoch failed", K(partition_key_), K(ret)); } else { // do_nothing } return ret; } int ObPartitionLogService::allow_gc(bool& allowed) { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (OB_ISNULL(log_engine_)) { ret = OB_ERR_UNEXPECTED; } else if (state_mgr_.is_pre_member_changing()) { CLOG_LOG(INFO, "this partition is member changing , not allow gc", K(partition_key_)); allowed = false; } else { allowed = true; } return ret; } int ObPartitionLogService::notify_log_missing( const common::ObAddr& src_server, const uint64_t start_log_id, const bool is_in_member_list, const int32_t msg_type) { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; CLOG_LOG(WARN, "ObPartitionLogService is not inited", K_(partition_key), K(ret)); } else if (OB_INVALID_MSG_TYPE == msg_type) { ret = OB_INVALID_ARGUMENT; CLOG_LOG(WARN, "invalid argument", K_(partition_key), K(ret), K(src_server), K(start_log_id), K(is_in_member_list), K(msg_type)); } else if (OB_REBUILD_MSG == msg_type) { ATOMIC_STORE(&is_in_leader_member_list_, is_in_member_list); const common::ObAddr parent = cascading_mgr_.get_parent_addr(); const common::ObReplicaType replica_type = mm_.get_replica_type(); do { WLockGuardWithTimeout guard(lock_, WRLOCK_TIMEOUT_US + ObTimeUtility::current_time(), ret); if (OB_FAIL(ret)) { CLOG_LOG(WARN, "notify_log_missing wlock failed", K(ret)); } else if (start_log_id != sw_.get_start_id()) { ret = OB_STATE_NOT_MATCH; CLOG_LOG(INFO, "notify_log_missing, log id not match", K(ret), K_(partition_key), K(start_log_id), K(sw_.get_start_id())); } else if ((!ObReplicaTypeCheck::is_paxos_replica_V2(replica_type) && !parent.is_valid()) || (parent.is_valid() && src_server != parent)) { ret = OB_STATE_NOT_MATCH; CLOG_LOG( INFO, "notify_log_missing, parent not match", K_(partition_key), K(src_server), K(parent), K(replica_type)); } else { // do nothing } // Set the need_rebuild state must be under write lock protection, and the above check conditions are passed // Otherwise, it is possible that after the judgment condition is passed, before the set_need_rebuild is executed, // the log is received, sliding_cb is executed, and the rebuild is no longer needed Need to ensure mutual // exclusion between set_need_rebuild and sliding_cb if (OB_SUCC(ret)) { state_mgr_.set_need_rebuild(); } } while (0); if (OB_SUCC(ret)) { bool need_exec_rebuild = true; if (ObReplicaTypeCheck::is_paxos_replica_V2(replica_type) && !is_in_member_list) { if (GCTX.is_standby_cluster() && !ObMultiClusterUtil::is_cluster_private_table(partition_key_.get_table_id())) { // non-private paxos replica in standby cluster, can do rebuild } else if (restore_mgr_.is_archive_restoring()) { // physical_restoring replica can do rebuild } else { // other paxos replicas that not in member_list, cannot do rebuild need_exec_rebuild = false; CLOG_LOG(INFO, "self is paxos replica, but not in leader's member_list, no need exec rebuild", K(ret), K_(partition_key), K_(self), K(replica_type), K(src_server), K(is_in_member_list)); } } if (!need_exec_rebuild) { // no need exec rebuild } else if (ATOMIC_LOAD(&last_rebuild_time_) == OB_INVALID_TIMESTAMP || ObTimeUtility::current_time() - ATOMIC_LOAD(&last_rebuild_time_) >= REBUILD_REPLICA_INTERVAL) { if (OB_FAIL(partition_service_->handle_log_missing(partition_key_, self_))) { CLOG_LOG(WARN, "handle_log_missing failed", K(ret), K_(partition_key), K_(self)); } else { ATOMIC_STORE(&last_rebuild_time_, ObTimeUtility::current_time()); CLOG_LOG(INFO, "handle_log_missing success", K(ret), K_(partition_key), K_(self)); } } } CLOG_LOG(INFO, "handle_log_missing finished", K(ret), K_(partition_key), K_(self), K(src_server), K(is_in_member_list), K(start_log_id), K(replica_type)); } else if (OB_STANDBY_RESTORE_MSG == msg_type) { RLockGuard guard(lock_); const common::ObReplicaType replica_type = mm_.get_replica_type(); if (!restore_mgr_.is_standby_restore_state()) { CLOG_LOG(INFO, "self is not in restore state, ignore msg", K_(partition_key), K(src_server)); } else if (FOLLOWER != state_mgr_.get_role()) { CLOG_LOG(WARN, "self is not follower, ignore msg", K_(partition_key), K(src_server)); } else if (ObReplicaTypeCheck::is_paxos_replica_V2(replica_type) && !is_in_member_list) { CLOG_LOG(INFO, "self is paxos replica, but not in standby_leader's member_list, cannot exec restore", K(ret), K_(partition_key), K_(self), K(replica_type), K(src_server), K(is_in_member_list)); } else { share::ObCascadMember leader_member = state_mgr_.get_leader_member(); if (leader_member.is_valid()) { if (OB_FAIL(try_exec_standby_restore_(leader_member))) { CLOG_LOG(WARN, "try_exec_standby_restore_ failed", K_(partition_key), K(ret)); } } } } else { // do nothing } return ret; } int ObPartitionLogService::try_update_leader_from_loc_cache() { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else { bool is_self_strong_leader = false; do { // It need RDLock here, because state_mgr_ may update role concurrently. RLockGuard guard(lock_); if (LEADER == state_mgr_.get_role()) { is_self_strong_leader = true; } } while (0); if (is_self_strong_leader) { // strong leader no need check location cache } else { // WRLock is needed here, because staet_mgr_ may update leader_ member. WLockGuardWithTimeout guard(lock_, WRLOCK_TIMEOUT_US + ObTimeUtility::current_time(), ret); if (OB_FAIL(ret)) { CLOG_LOG(WARN, "wrlock failed", K(ret), K(partition_key_)); } else if (state_mgr_.try_update_leader_from_loc_cache()) { CLOG_LOG(WARN, "try_update_leader_from_loc_cache failed", K_(partition_key), K(ret)); } else { } } CLOG_LOG(DEBUG, "try_update_leader_from_loc_cache", K_(partition_key), K(is_self_strong_leader)); } return ret; } bool ObPartitionLogService::is_self_lag_behind_(const int64_t arg_next_replay_log_ts) { bool bool_ret = false; int tmp_ret = OB_SUCCESS; bool is_sync = false; if (OB_SUCCESS == (tmp_ret = is_in_sync(is_sync)) && is_sync) { // self sync } else { // self unsync, compare next_replay_log_ts int64_t self_next_replay_log_ts = OB_INVALID_TIMESTAMP; if (OB_SUCCESS != (tmp_ret = sw_.get_next_replay_log_timestamp(self_next_replay_log_ts))) { CLOG_LOG(WARN, "sw get_next_replay_log_timestamp failed", K(tmp_ret), K_(partition_key)); } else if (OB_INVALID_TIMESTAMP != self_next_replay_log_ts && self_next_replay_log_ts <= arg_next_replay_log_ts) { bool_ret = true; if (REACH_TIME_INTERVAL(100 * 1000)) { CLOG_LOG(WARN, "is_self_lag_behind_ return true", K(self_next_replay_log_ts), K(arg_next_replay_log_ts), K_(partition_key)); } } else { // do nothing } } return bool_ret; } int ObPartitionLogService::fetch_register_server(const common::ObAddr& server, const common::ObReplicaType replica_type, const int64_t next_replay_log_ts, const bool is_request_leader, const bool is_need_force_register, const ObRegion& region, const int64_t cluster_id, const ObIDC& idc) { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (!server.is_valid() || region.is_empty() || !ObReplicaTypeCheck::is_replica_type_valid(replica_type)) { ret = OB_INVALID_ARGUMENT; CLOG_LOG(WARN, "invalid argument", K_(partition_key), K(ret), K(server), K(replica_type), K(next_replay_log_ts), K(is_request_leader), K(is_need_force_register), K(region), K(cluster_id)); } else if (server == self_) { // ignore self } else { const bool is_self_lag_behind = is_self_lag_behind_(next_replay_log_ts); const common::ObRegion self_region = state_mgr_.get_region(); // lock to avoid role change RLockGuard guard(lock_); if (is_request_leader && LEADER != state_mgr_.get_role() && STANDBY_LEADER != state_mgr_.get_role()) { // self is not leader, ignore } else if (OB_FAIL(cascading_mgr_.process_fetch_reg_server_req(server, replica_type, is_self_lag_behind, is_request_leader, is_need_force_register, region, cluster_id, idc, self_region))) { CLOG_LOG(WARN, "process_fetch_reg_server_req failed", K_(partition_key), K(ret), K(server), K(idc), K(region), K(next_replay_log_ts), K(is_request_leader), K(is_need_force_register), K(cluster_id), K(self_region)); } else { // do nothing } } return ret; } int ObPartitionLogService::fetch_register_server_resp_v2(const common::ObAddr& sender, const bool is_assign_parent_succeed, const ObCascadMemberList& candidate_list, const int32_t msg_type) { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (!sender.is_valid()) { ret = OB_INVALID_ARGUMENT; CLOG_LOG(WARN, "invalid argument", K_(partition_key), K(ret), K(is_assign_parent_succeed), K(candidate_list)); } else { const common::ObRegion self_region = state_mgr_.get_region(); RLockGuard guard(lock_); if (OB_FAIL(cascading_mgr_.process_fetch_reg_server_resp( sender, is_assign_parent_succeed, candidate_list, msg_type, self_region))) { CLOG_LOG(WARN, "process_fetch_reg_server_resp failed", K_(partition_key), K(ret), K(is_assign_parent_succeed), K(candidate_list), K(msg_type), K(self_region)); } } return ret; } int ObPartitionLogService::replace_sick_child( const common::ObAddr& sender, const int64_t cluster_id, const common::ObAddr& sick_child) { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (!sender.is_valid() || !sick_child.is_valid()) { ret = OB_INVALID_ARGUMENT; CLOG_LOG(WARN, "invalid argument", K_(partition_key), K(ret), K(sender), K(sick_child)); } else { RLockGuard guard(lock_); if (OB_FAIL(cascading_mgr_.try_replace_sick_child(sender, cluster_id, sick_child))) { CLOG_LOG(WARN, "try_replace_sick_child failed", K_(partition_key), K(ret), K(sender), K(sick_child)); } } return ret; } int ObPartitionLogService::get_curr_leader_and_memberlist(common::ObAddr& leader, common::ObRole& role, common::ObMemberList& curr_member_list, common::ObChildReplicaList& children_list) const { int ret = OB_SUCCESS; leader.reset(); curr_member_list.reset(); children_list.reset(); if (IS_NOT_INIT) { ret = OB_NOT_INIT; CLOG_LOG(WARN, "ObPartitionLogService is not inited", K_(partition_key), K(ret)); } else if (restore_mgr_.is_archive_restoring()) { ret = OB_STATE_NOT_MATCH; CLOG_LOG(WARN, "self is archive restoring, cannot handle this req", K_(partition_key), K(ret)); } else { RLockGuard guard(lock_); leader = state_mgr_.get_leader(); role = state_mgr_.get_role(); if (OB_FAIL(curr_member_list.deep_copy(mm_.get_curr_member_list()))) { CLOG_LOG(WARN, "copy curr_member_list failed", K(ret), K_(partition_key)); } else if (OB_FAIL(cascading_mgr_.get_lower_level_replica_list(children_list))) { CLOG_LOG(WARN, "fail to deep copy member list", K(ret)); } else { } } return ret; } bool ObPartitionLogService::check_remote_mc_ts_( const ObMemberList& member_list, const ObAddr& addr, const int64_t mc_timestamp) { const uint64_t FOLLOWER_MAX_GAP = 1000; return internal_check_remote_mc_ts_(member_list, addr, mc_timestamp, FOLLOWER_MAX_GAP); } bool ObPartitionLogService::check_remote_mc_ts_sync_( const ObMemberList& member_list, const ObAddr& addr, const int64_t mc_timestamp) { const uint64_t FOLLOWER_MAX_GAP = 0; return internal_check_remote_mc_ts_(member_list, addr, mc_timestamp, FOLLOWER_MAX_GAP); } int ObPartitionLogService::wait_log_confirmed_() { int ret = OB_LOG_NOT_SYNC; const int64_t begin_time = ObTimeUtility::current_time(); const int64_t MAX_WAIT_TIME = 400 * 1000; // 400 ms, 200 ms for rpc, 200 ms for flush_log const int64_t MIN_WAIT_TIME = 100 * 1000; // 100 ms while (OB_LOG_NOT_SYNC == ret) { if (sw_.get_next_index_log_id() >= sw_.get_max_log_id() + 1) { ret = OB_SUCCESS; } else if (ObTimeUtility::current_time() - begin_time >= MAX_WAIT_TIME) { break; } else { usleep(100); } } const int64_t wait_time = ObTimeUtility::current_time() - begin_time; if (wait_time < MIN_WAIT_TIME && wait_time >= 0) { usleep(static_cast(MIN_WAIT_TIME - wait_time)); } return ret; } int64_t ObPartitionLogService::get_zone_priority() const { return ATOMIC_LOAD(&zone_priority_); } void ObPartitionLogService::set_zone_priority(const uint64_t zone_priority) { const uint64_t final_zone_priority = ObReplicaTypeCheck::is_log_replica(mm_.get_replica_type()) ? UINT64_MAX : zone_priority; ATOMIC_STORE(&zone_priority_, final_zone_priority); } int ObPartitionLogService::set_region(const common::ObRegion& region) { int ret = OB_SUCCESS; bool is_changed = false; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (region.is_empty()) { ret = OB_INVALID_ARGUMENT; CLOG_LOG(WARN, "invalid argument", K_(partition_key), K(ret), K(region)); } else { common::ObRegion old_region = state_mgr_.get_region(); if (region != old_region) { if (OB_FAIL(state_mgr_.set_region(region, is_changed))) { CLOG_LOG(WARN, "state_mgr set_region failed", K_(partition_key), K(ret)); } else if (is_changed) { // self region changed, need notify children RLockGuard guard(lock_); int tmp_ret = OB_SUCCESS; if (OB_SUCCESS != (tmp_ret = cascading_mgr_.process_region_change(region))) { CLOG_LOG(WARN, "process_region_change failed", K_(partition_key), K(tmp_ret)); } if (REACH_TIME_INTERVAL(50 * 1000)) { CLOG_LOG( INFO, "in set_region, region changed", K_(partition_key), "old_region", old_region, "new_region", region); } } else { // do nothing } } } return ret; } const common::ObRegion& ObPartitionLogService::get_region() const { return state_mgr_.get_region(); } int ObPartitionLogService::set_idc(const common::ObIDC& idc) { int ret = OB_SUCCESS; bool is_changed = false; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (idc.is_empty()) { ret = OB_INVALID_ARGUMENT; CLOG_LOG(WARN, "invalid argument", K_(partition_key), K(ret), K(idc)); } else { common::ObIDC old_idc = state_mgr_.get_idc(); if (idc != old_idc) { if (OB_FAIL(state_mgr_.set_idc(idc, is_changed))) { CLOG_LOG(WARN, "state_mgr set_idc failed", K_(partition_key), K(ret)); } else if (is_changed) { if (REACH_TIME_INTERVAL(50 * 1000)) { CLOG_LOG(INFO, "in set_idc, idc changed", K_(partition_key), "old_idc", old_idc, "new_idc", idc); } } else { // do nothing } } } return ret; } const common::ObIDC& ObPartitionLogService::get_idc() const { return state_mgr_.get_idc(); } int ObPartitionLogService::process_replica_type_change_() { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else { if (ObReplicaTypeCheck::is_paxos_replica_V2(mm_.get_replica_type())) { // non_paxos->paxos change, need start election int tmp_ret = OB_SUCCESS; if (OB_SUCCESS != (tmp_ret = state_mgr_.start_election())) { CLOG_LOG(WARN, "start_election failed", K_(partition_key), K(tmp_ret)); } // replica_type is changed to paxos, it need check whether its parent is leader const common::ObAddr leader = state_mgr_.get_leader(); if (leader.is_valid() && ObReplicaTypeCheck::is_paxos_replica_V2(mm_.get_replica_type()) && leader != self_) { // paxos replica set parent to leader directly const int64_t cluster_id = obrpc::ObRpcNetHandler::CLUSTER_ID; (void)cascading_mgr_.set_parent(leader, cluster_id); } } else { // changed to non-paxos type, stop election and reset parent int tmp_ret = OB_SUCCESS; if (OB_SUCCESS != (tmp_ret = state_mgr_.stop_election())) { CLOG_LOG(WARN, "stop_election failed", K_(partition_key), K(tmp_ret)); } const uint32_t reset_type = ObLogCascadingMgr::ResetPType::REPLICA_TYPE_CHANGE; cascading_mgr_.reset_parent(reset_type); } } return ret; } int ObPartitionLogService::process_reject_msg( const common::ObAddr& server, const int64_t cluster_id, const int32_t msg_type, const int64_t send_ts) { int ret = OB_SUCCESS; const int64_t now = ObTimeUtility::current_time(); if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (!server.is_valid() || OB_REPLICA_MSG_TYPE_UNKNOWN == msg_type) { ret = OB_INVALID_ARGUMENT; } else if (OB_INVALID_TIMESTAMP != send_ts && now - send_ts > CASCAD_MSG_DELAY_TIME_THRESHOLD) { CLOG_LOG(WARN, "msg is expired", K(ret), K_(partition_key), K(server), K(msg_type), K(send_ts)); } else { RLockGuard guard(lock_); ret = cascading_mgr_.process_reject_msg(server, cluster_id, msg_type); } return ret; } int ObPartitionLogService::process_restore_log_finish_msg(const common::ObAddr& src_server, const uint64_t log_id) { int ret = OB_SUCCESS; bool is_restore_log_finished = false; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (log_id < sw_.get_start_id()) { CLOG_LOG( WARN, "invalid argument", K(ret), K_(partition_key), K(src_server), K(log_id), "start_id", sw_.get_start_id()); } else if (restore_mgr_.is_restore_log_finished()) { // already finished, skip is_restore_log_finished = true; } else { restore_mgr_.set_fetch_log_result(OB_ARCHIVE_FETCH_LOG_FINISH_AND_ENOUGH); } CLOG_LOG(INFO, "recv restore log finished msg", K(ret), K_(partition_key), K(src_server), K(log_id), K(is_restore_log_finished)); return ret; } // TODO: to be removed by haofan int ObPartitionLogService::process_restore_alive_msg(const common::ObAddr& server, const uint64_t start_log_id) { UNUSED(start_log_id); int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (!restore_mgr_.is_archive_restoring()) { // not in restoring state, ignore } else if (restore_mgr_.get_restore_leader() != server) { // sender is not restore_leader, ignore } else { (void)restore_mgr_.record_leader_resp_time(server); if (REACH_TIME_INTERVAL(1000 * 1000)) { CLOG_LOG(INFO, "recv restore alive msg", K(ret), K_(partition_key), K(server), K(start_log_id)); } } return ret; } int ObPartitionLogService::process_restore_alive_req( const common::ObAddr& server, const int64_t dst_cluster_id, const int64_t send_ts) { int ret = OB_SUCCESS; const int64_t now = ObTimeUtility::current_time(); if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (OB_INVALID_TIMESTAMP == send_ts) { ret = OB_INVALID_ARGUMENT; CLOG_LOG(WARN, "invalid argument", K(ret), K_(partition_key), K(server), K(send_ts)); } else if (now - send_ts > CASCAD_MSG_DELAY_TIME_THRESHOLD) { CLOG_LOG(WARN, "msg is expired", K(ret), K_(partition_key), K(server), K(send_ts)); } else if (!restore_mgr_.is_archive_restoring()) { // not in restoring state, ignore CLOG_LOG(DEBUG, "self is not in archive restoring state", K(ret), K_(partition_key), K(server), K(send_ts)); } else if (restore_mgr_.get_role() != RESTORE_LEADER) { // self is not restore_leader, ignore CLOG_LOG(DEBUG, "self is not restore leader", K(ret), K_(partition_key), K(server), K(send_ts)); } else if (OB_FAIL(log_engine_->send_restore_alive_resp(server, dst_cluster_id, partition_key_))) { CLOG_LOG(WARN, "send_restore_alive_resp failed", K(ret), K_(partition_key), K(server), K(send_ts)); } else { if (REACH_TIME_INTERVAL(100 * 1000)) { CLOG_LOG(INFO, "send_restore_alive_resp success", K_(partition_key), K(server)); } } return ret; } int ObPartitionLogService::process_restore_alive_resp(const common::ObAddr& server, const int64_t send_ts) { int ret = OB_SUCCESS; const int64_t now = ObTimeUtility::current_time(); if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (OB_INVALID_TIMESTAMP == send_ts) { ret = OB_INVALID_ARGUMENT; CLOG_LOG(WARN, "invalid argument", K(ret), K_(partition_key), K(server), K(send_ts)); } else if (now - send_ts > CASCAD_MSG_DELAY_TIME_THRESHOLD) { CLOG_LOG(WARN, "msg is expired", K(ret), K_(partition_key), K(server), K(send_ts)); } else if (!restore_mgr_.is_archive_restoring()) { // not in restoring state, ignore CLOG_LOG(DEBUG, "self is not in archive restoring state", K(ret), K_(partition_key), K(server), K(send_ts)); } else if (restore_mgr_.get_restore_leader() != server) { // sender is not restore_leader, ignore CLOG_LOG(DEBUG, "server is not restore leader", K(ret), K_(partition_key), K(server), K(send_ts)); } else { (void)restore_mgr_.record_leader_resp_time(server); } return ret; } int ObPartitionLogService::process_reregister_msg( const common::ObAddr& src_server, const share::ObCascadMember& new_leader, const int64_t send_ts) { int ret = OB_SUCCESS; const int64_t now = ObTimeUtility::current_time(); if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (!new_leader.is_valid()) { ret = OB_INVALID_ARGUMENT; CLOG_LOG(WARN, "invalid arguments", K(ret), K_(partition_key), K(src_server), K(new_leader)); } else if (OB_INVALID_TIMESTAMP != send_ts && now - send_ts > CASCAD_MSG_DELAY_TIME_THRESHOLD) { CLOG_LOG(WARN, "msg is expired", K(ret), K_(partition_key), K(src_server), K(new_leader), K(send_ts)); } else { RLockGuard guard(lock_); if (src_server != cascading_mgr_.get_parent_addr()) { ret = OB_STATE_NOT_MATCH; CLOG_LOG(WARN, "sender is not my parent", K(ret), K_(partition_key)); } else if (OB_FAIL(cascading_mgr_.process_reregister_msg(new_leader))) { CLOG_LOG(WARN, "process_reregister_msg failed", K(ret), K_(partition_key)); } else { // do nothing } } return ret; } enum ObReplicaType ObPartitionLogService::get_replica_type() { ObReplicaType replica_type = (ObReplicaType)mm_.get_replica_type(); return replica_type; } int ObPartitionLogService::set_replica_type(const enum ObReplicaType replica_type) { int ret = OB_SUCCESS; WLockGuardWithRetry guard(lock_, WRLOCK_TIMEOUT_US + ObTimeUtility::current_time()); ObReplicaType old_replica_type = get_replica_type(); if (!ObReplicaTypeCheck::is_replica_type_valid(replica_type)) { ret = OB_INVALID_ARGUMENT; CLOG_LOG(WARN, "invalid replica type", K(ret), K_(partition_key), K(replica_type)); } else if (old_replica_type == replica_type) { CLOG_LOG(WARN, "replica type already equal, no need change", K(ret), K_(partition_key), K(replica_type), K(old_replica_type)); } else if (!state_mgr_.can_set_replica_type()) { ret = OB_STATE_NOT_MATCH; CLOG_LOG(WARN, "cannot set_replica_type now", K(ret), K(partition_key_)); } else if (REPLICA_TYPE_LOGONLY == replica_type && OB_FAIL(alloc_broadcast_info_mgr_(partition_key_))) { CLOG_LOG(WARN, "alloc_broadcast_info_mgr_ failed", K(ret), K(partition_key_)); } else if (OB_FAIL(mm_.set_replica_type(replica_type))) { CLOG_LOG(WARN, "membership_mgr set_replica_type failed", K(ret), K_(partition_key), K(replica_type)); if (REPLICA_TYPE_LOGONLY != mm_.get_replica_type()) { free_broadcast_info_mgr_(); } } else { if (ObReplicaTypeCheck::is_log_replica(replica_type)) { ATOMIC_STORE(&zone_priority_, UINT64_MAX); } // change success if (REPLICA_TYPE_LOGONLY == mm_.get_replica_type()) { sw_.destroy_aggre_buffer(); } else { free_broadcast_info_mgr_(); } int tmp_ret = OB_SUCCESS; if (OB_SUCCESS != (tmp_ret = process_replica_type_change_())) { CLOG_LOG(WARN, "process_replica_type_change_ failed", K_(partition_key), K(tmp_ret)); } } return ret; } int ObPartitionLogService::check_is_normal_partition(bool& is_normal_partition) const { int ret = OB_SUCCESS; bool is_out_of_memory = false; bool is_disk_not_enough = false; bool is_disk_error = false; bool is_clog_disk_hang = false; bool is_archive_restoring = false; if (IS_NOT_INIT) { ret = OB_NOT_INIT; CLOG_LOG(ERROR, "ObPartitionLogService is not inited", K(ret), K(partition_key_)); } else if (OB_FAIL(replay_engine_->is_tenant_out_of_memory(partition_key_, is_out_of_memory))) { CLOG_LOG(ERROR, "is_tenant_out_of_memory failed", K(ret), K(partition_key_)); } else if (OB_FAIL(ObIOManager::get_instance().is_disk_error(is_disk_error))) { CLOG_LOG(ERROR, "is_disk_error failed", K(ret), K(partition_key_)); } else { is_clog_disk_hang = log_engine_->is_clog_disk_hang(); is_disk_not_enough = !log_engine_->is_disk_space_enough(); // physical restoring replica cannot participate in member change. // because its election module has not been started, it cannot vote. is_archive_restoring = restore_mgr_.is_archive_restoring(); is_normal_partition = !(is_disk_not_enough || is_out_of_memory || is_disk_error || is_clog_disk_hang || is_archive_restoring); } return ret; } //==================== batch change member begin ==================== int ObPartitionLogService::pre_change_member(const int64_t quorum, const bool is_add_member, int64_t& mc_timestamp, ObMemberList& member_list, ObProposalID& proposal_id) { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; CLOG_LOG(WARN, "ObPartitionLogService is not inited", K(ret), K(partition_key_)); } else if (quorum <= 0 || quorum > OB_MAX_MEMBER_NUMBER) { ret = OB_INVALID_ARGUMENT; CLOG_LOG(WARN, "invalid argument", K(ret), K(partition_key_), K(quorum)); } else { RLockGuard guard(lock_); if (!state_mgr_.can_change_member()) { ret = OB_STATE_NOT_MATCH; CLOG_LOG(WARN, "can not change member", K(ret), K(partition_key_), "role", state_mgr_.get_role(), "state", state_mgr_.get_state(), "is_changing_leader", state_mgr_.is_changing_leader()); } else { mc_timestamp = mm_.get_timestamp(); bool is_standby_op = (STANDBY_LEADER == state_mgr_.get_role() ? true : false); if (!is_standby_op) { proposal_id = state_mgr_.get_proposal_id(); } else { // standby non-private table's member change, use ms_proposal_id proposal_id = mm_.get_ms_proposal_id(); } if (OB_SUCCESS != (ret = member_list.deep_copy(mm_.get_curr_member_list()))) { CLOG_LOG(WARN, "member_list deep_copy failed", K(ret), K(partition_key_)); } else { const int64_t member_num = member_list.get_member_number(); if (is_add_member && quorum < (member_num + 1)) { ret = OB_NOT_SUPPORTED; CLOG_LOG( INFO, "not supported operation", K(ret), K(partition_key_), K(is_add_member), K(quorum), K(member_num)); } else if (!is_add_member && quorum < (member_num - 1)) { ret = OB_NOT_SUPPORTED; CLOG_LOG( INFO, "not supported operation", K(ret), K(partition_key_), K(is_add_member), K(quorum), K(member_num)); } else { // do nothing } } } } return ret; } int ObPartitionLogService::set_member_changing() { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; CLOG_LOG(WARN, "ObPartitionLogService is not inited", K(ret), K(partition_key_)); } else { WLockGuardWithTimeout guard(lock_, WRLOCK_TIMEOUT_US + ObTimeUtility::current_time(), ret); if (OB_FAIL(ret)) { CLOG_LOG(WARN, "set_member_changing wrlock failed", K(ret), K(partition_key_)); } else if (state_mgr_.is_pre_member_changing()) { ret = OB_STATE_NOT_MATCH; CLOG_LOG(WARN, "there is another member change operation in process", K(ret), K(partition_key_)); } else { (void)state_mgr_.set_pre_member_changing(); } } return ret; } int ObPartitionLogService::reset_member_changing() { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; CLOG_LOG(WARN, "ObPartitionLogService is not inited", K(ret), K(partition_key_)); } else { WLockGuardWithRetry guard(lock_, WRLOCK_TIMEOUT_US + ObTimeUtility::current_time()); if (!state_mgr_.is_pre_member_changing()) { // Maybe this member change failed in the pre-checking stage and did not enter the pre_member_changing state // So it is possible to come here CLOG_LOG(WARN, "wrong member changing state, maybe mc forward check failed", K(ret), K(partition_key_)); } else { state_mgr_.reset_pre_member_changing(); } } return ret; } int ObPartitionLogService::wait_log_confirmed(const int64_t begin_time, const int64_t max_wait_time) { int ret = OB_LOG_NOT_SYNC; if (IS_NOT_INIT) { ret = OB_NOT_INIT; CLOG_LOG(WARN, "ObPartitionLogService is not inited", K(ret), K(partition_key_)); } else { while (OB_LOG_NOT_SYNC == ret) { if (sw_.get_next_index_log_id() >= sw_.get_max_log_id() + 1) { ret = OB_SUCCESS; } else if (ObClockGenerator::getClock() - begin_time >= max_wait_time) { break; } else { usleep(100); } } } return ret; } int ObPartitionLogService::batch_change_member(const common::ObMember& member, const int64_t quorum, const int64_t mc_timestamp, const common::ObProposalID& proposal_id, const bool is_add_member, obrpc::ObMCLogInfo& mc_log_info) { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; CLOG_LOG(WARN, "ObPartitionLogService is not inited", K(ret), K(partition_key_)); } else if (!member.is_valid() || mc_timestamp <= 0 || !proposal_id.is_valid()) { ret = OB_INVALID_ARGUMENT; CLOG_LOG(WARN, "invalid argument", K(ret), K(partition_key_), K(member), K(mc_timestamp), K(proposal_id)); } else { WLockGuardWithRetry guard(lock_, WRLOCK_TIMEOUT_US + ObTimeUtility::current_time()); bool is_standby_op = (STANDBY_LEADER == state_mgr_.get_role() ? true : false); if (!state_mgr_.can_change_member()) { ret = OB_STATE_NOT_MATCH; CLOG_LOG(WARN, "can not change member", K(ret), K(partition_key_), "role", state_mgr_.get_role(), "state", state_mgr_.get_state(), "is_changing_leader", state_mgr_.is_changing_leader()); } else if (mc_timestamp != mm_.get_timestamp()) { ret = OB_STATE_NOT_MATCH; CLOG_LOG(WARN, "version not match", K(ret), K(partition_key_), K(member), K(is_add_member), K(mc_timestamp), "current_timestamp", mm_.get_timestamp()); } else if (!is_standby_op && proposal_id != state_mgr_.get_proposal_id()) { ret = OB_STATE_NOT_MATCH; CLOG_LOG(WARN, "proposal_id not match", K(ret), K(partition_key_), K(proposal_id), "current_proposal_id", state_mgr_.get_proposal_id()); } else if (is_standby_op && proposal_id != mm_.get_ms_proposal_id()) { ret = OB_STATE_NOT_MATCH; CLOG_LOG(WARN, "ms_proposal_id not match", K(ret), K(partition_key_), K(proposal_id), "current_proposal_id", mm_.get_ms_proposal_id()); } else if (is_add_member) { if (OB_FAIL(mm_.add_member(member, quorum, mc_log_info))) { CLOG_LOG(WARN, "add_member failed", K(ret), K(partition_key_), K(member), K(quorum)); } } else { if (OB_FAIL(mm_.remove_member(member, quorum, mc_log_info))) { CLOG_LOG(WARN, "remove_member failed", K(ret), K(partition_key_), K(member), K(quorum)); } } } return ret; } int ObPartitionLogService::get_partition_max_log_id(uint64_t& partition_max_log_id) { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; CLOG_LOG(WARN, "is_not_inited", K(ret), K(partition_key_)); } else { partition_max_log_id = sw_.get_max_log_id(); } return ret; } //==================== batch change member end ==================== bool ObPartitionLogService::need_skip_when_check_start_service() const { return (is_paxos_offline_replica_() || is_no_update_next_replay_log_id_info_too_long_() || restore_mgr_.is_archive_restoring()); } bool ObPartitionLogService::is_no_update_next_replay_log_id_info_too_long_() const { const int64_t TOO_LONG_TIME = 10 * 60 * 1000 * 1000; // 10 minutes const int64_t last_update_next_replay_log_id_info_ts = sw_.get_last_update_next_replay_log_id_info_ts(); return (last_update_next_replay_log_id_info_ts != OB_INVALID_TIMESTAMP) && (ObTimeUtility::current_time() - last_update_next_replay_log_id_info_ts >= TOO_LONG_TIME); } int ObPartitionLogService::leader_update_next_replay_log_ts_(const int64_t new_ts) { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (OB_INVALID_TIMESTAMP == new_ts) { ret = OB_INVALID_ARGUMENT; } else if (state_mgr_.is_offline() || !state_mgr_.is_leader_active()) { ret = OB_STATE_NOT_MATCH; } else if (OB_FAIL(check_self_is_election_leader_())) { CLOG_LOG(WARN, "check_self_is_election_leader_ failed", K_(partition_key), K(ret)); } else { sw_.try_update_next_replay_log_info_on_leader(new_ts); } return ret; } int ObPartitionLogService::leader_keepalive(const int64_t keepalive_interval) { int ret = OB_SUCCESS; const int64_t now = ObClockGenerator::getClock(); bool need_send_max_log_info = false; // whether leader need send max_log_info to standby cluster if (IS_NOT_INIT) { ret = OB_NOT_INIT; CLOG_LOG(WARN, "ObPartitionLogService is not inited", K(ret), K(partition_key_)); } else { // hold rdlock during keepAlive RLockGuard guard(lock_); if (state_mgr_.is_leader_active() && !state_mgr_.is_offline()) { bool is_cluster_status_allow_update = false; if (!ObMultiClusterUtil::is_cluster_private_table(partition_key_.get_table_id())) { if (GCTX.is_primary_cluster() || GCTX.is_in_flashback_state() || GCTX.is_in_cleanup_state()) { // non-private leader only in flashback/cleanup state can advance next_log_ts // it cannot do this in swiching state, which may lead conflict with new primary cluster is_cluster_status_allow_update = true; } else { is_cluster_status_allow_update = false; if (GCTX.is_in_standby_switching_state()) { // leader need send max_log info to standby replica during switching state need_send_max_log_info = true; } } } else { // cluster private table, allow leader update is_cluster_status_allow_update = true; } if (sw_.is_empty() && now - last_leader_keepalive_time_ < keepalive_interval) { // When the sliding window is empty, it will be sent every 100ms } else if (!sw_.is_empty() && (ObMultiClusterUtil::is_cluster_private_table(partition_key_.get_table_id()) || !GCTX.is_in_standby_switching_state()) && now - last_leader_keepalive_time_ < 10 * CLOG_LEADER_KEEPALIVE_INTERVAL) { // When the sliding window is not empty and it is private table or non-switching state, it will be sent every // 1s } else { if (is_cluster_status_allow_update) { // advance next_log_ts const int64_t new_next_log_ts = now; if (OB_FAIL(leader_update_next_replay_log_ts_(new_next_log_ts))) { CLOG_LOG(WARN, "leader_update_next_replay_log_ts_ failed", K_(partition_key), K(ret)); } } if (OB_SUCC(ret)) { uint64_t next_log_id = OB_INVALID_ID; int64_t next_log_ts = OB_INVALID_TIMESTAMP; sw_.get_next_replay_log_id_info(next_log_id, next_log_ts); // send to curr_member_list and children_list const int64_t self_cluster_id = obrpc::ObRpcNetHandler::CLUSTER_ID; const common::ObMemberList member_list = mm_.get_curr_member_list(); const int64_t member_cnt = member_list.get_member_number(); for (int64_t i = 0; i < member_cnt && OB_SUCC(ret); ++i) { common::ObAddr server; if (OB_FAIL(member_list.get_server_by_index(i, server))) { CLOG_LOG(WARN, "get_server_by_index failed", K(ret), K_(partition_key), K(server)); } else if (server == self_) { // skip self } else if (OB_FAIL(log_engine_->send_keepalive_msg( server, self_cluster_id, partition_key_, next_log_id, next_log_ts, 0 /* deliver_cnt */))) { CLOG_LOG(WARN, "send_keepalive_msg failed", K(ret), K_(partition_key), K(server)); } else { // do nothing } } if (OB_SUCC(ret)) { ObCascadMember sync_child = cascading_mgr_.get_sync_standby_child(); if (sync_child.is_valid() && OB_FAIL(log_engine_->send_keepalive_msg(sync_child.get_server(), sync_child.get_cluster_id(), partition_key_, next_log_id, next_log_ts, 0 /* deliver_cnt */))) { CLOG_LOG(WARN, "send_keepalive_msg failed", K(ret), K_(partition_key), K(sync_child)); } } if (OB_SUCC(ret)) { if (OB_FAIL(send_keepalive_msg_to_children_(next_log_id, next_log_ts, 0))) { CLOG_LOG(WARN, "send_keepalive_msg_to_children_ failed", K(ret), K_(partition_key)); } } } if (OB_SUCC(ret)) { last_leader_keepalive_time_ = now; } } } } if (OB_SUCC(ret) && need_send_max_log_info) { // send max_log info to standby replica, which is used to check sync state int tmp_ret = OB_SUCCESS; if (OB_SUCCESS != (tmp_ret = leader_send_max_log_info())) { CLOG_LOG(WARN, "leader_send_max_log_info failed", K_(partition_key), K(tmp_ret)); } } return ret; } // When primary cluster is switched to the switching state, the leader actively sends relevant information to the // standby cluster, and the standby replica use this information to check whether the synchronization is completed int ObPartitionLogService::leader_send_max_log_info() { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; CLOG_LOG(WARN, "ObPartitionLogService is not inited", K(ret), K(partition_key_)); } else if (!GCTX.is_in_standby_switching_state()) { // cluster not in switching state, skip } else if (ObMultiClusterUtil::is_cluster_private_table(partition_key_.get_table_id())) { // private table no need execute } else { bool is_online_leader = false; uint64_t max_log_id = OB_INVALID_ID; uint64_t next_log_id = OB_INVALID_ID; int64_t next_log_ts = OB_INVALID_TIMESTAMP; { RLockGuard guard(lock_); if (!state_mgr_.is_leader_active() || state_mgr_.is_offline()) { // self is follower or offline, skip is_online_leader = false; } else { is_online_leader = true; } } if (OB_SUCC(ret) && is_online_leader) { // Add a write lock to obtain timestamp. // The write lock can ensure that the value obtained is the last advance value in the switching state. // Because pushing the standby machine to read the timestamp is performed under the read lock. WLockGuardWithTimeout guard(lock_, WRLOCK_TIMEOUT_US + ObTimeUtility::current_time(), ret); sw_.get_next_replay_log_id_info(next_log_id, next_log_ts); // The write lock of pls should also be added when obtaining max_log_id, which is used for mutual exclusion with // alloc_log_id Add a write lock to ensure that you can get the last allocated log_id max_log_id = sw_.get_max_log_id(); } // double check self is leader { RLockGuard guard(lock_); const int64_t switchover_epoch = GCTX.get_pure_switch_epoch(); if (OB_SUCC(ret) && is_online_leader && (state_mgr_.is_leader_active() && !state_mgr_.is_offline())) { if (OB_FAIL(check_self_is_election_leader_())) { CLOG_LOG(WARN, "check_self_is_election_leader_ failed", K_(partition_key), K(ret)); } else if (OB_INVALID_ID == max_log_id) { ret = OB_ERR_UNEXPECTED; CLOG_LOG(ERROR, "max_log_id is invalid", K_(partition_key), K(ret), K(max_log_id)); } else if (OB_FAIL(send_max_log_msg_to_mlist_(switchover_epoch, max_log_id, next_log_ts))) { CLOG_LOG(WARN, "send_max_log_msg_to_mlist_ failed", K(ret), K_(partition_key)); } else if (OB_FAIL(send_max_log_msg_to_children_(switchover_epoch, max_log_id, next_log_ts))) { CLOG_LOG(WARN, "send_max_log_msg_to_children_ failed", K(ret), K_(partition_key)); } else { // do nothing } if (partition_reach_time_interval(5 * 1000 * 1000, leader_max_log_interval_)) { CLOG_LOG(INFO, "leader_send_max_log_info finished", K(ret), K_(partition_key), K(switchover_epoch), K(max_log_id), K(next_log_ts)); } } } } return ret; } int ObPartitionLogService::broadcast_info() { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; CLOG_LOG(WARN, "is not inited", K(ret), K(partition_key_)); } else if (GET_MIN_CLUSTER_VERSION() >= CLUSTER_VERSION_2260 || GCTX.is_primary_cluster()) { // Before the 226 version, the standby cluster did not have its own member_list, // and the logonly replica of the standby cluster can directly reclaim the logs according to the dump location, // so there is no need to broadcast // Starting from version 226, the standby cluster has member_list, which can be like the primary cluster RLockGuard guard(lock_); const ObMemberList member_list = mm_.get_curr_member_list(); const ObReplicaType replica_type = mm_.get_replica_type(); const uint64_t max_confirmed_log_id = sw_.get_max_confirmed_log_id(); if (ObReplicaTypeCheck::is_paxos_replica_V2(replica_type) && member_list.is_valid() // standby replica's member_list maybe invalid && OB_FAIL(log_engine_->broadcast_info(member_list, partition_key_, replica_type, max_confirmed_log_id))) { CLOG_LOG(WARN, "broadcast_info failed", K(ret), K(partition_key_), K(member_list), K(replica_type), K(max_confirmed_log_id)); } } else { // do nothing } return ret; } int ObPartitionLogService::archive_checkpoint(const int64_t archive_checkpoint_interval) { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; CLOG_LOG(WARN, "ObPartitionLogService is not inited", K(ret), K(partition_key_)); } else if (OB_SYS_TENANT_ID == partition_key_.get_tenant_id()) { ret = OB_ERR_UNEXPECTED; CLOG_LOG(ERROR, "sys partitions do not need to archive checkpoint", K(ret), K(partition_key_)); } else { RLockGuard guard(lock_); const int64_t now = ObClockGenerator::getClock(); int64_t last_archive_checkpoint_ts = sw_.get_last_update_archive_checkpoint_time(); if (((now - last_archive_checkpoint_ts) >= archive_checkpoint_interval) && GCTX.is_primary_cluster() && state_mgr_.is_leader_active() && !state_mgr_.is_offline()) { storage::ObIPartitionGroupGuard guard; int64_t checkpoint_ts = OB_INVALID_TIMESTAMP; // The error is generally that the archive mgr has not been initialized or the sending queue is full. // Wait a while and try again to avoid retrying too frequently. const int64_t max_delay_interval = 2 * 1000 * 1000LL; const int64_t wait_interval = std::min((archive_checkpoint_interval / 4), max_delay_interval); int64_t last_checkpoint_ts = sw_.get_last_archive_checkpoint_ts(); ObPartitionLoopWorker* loop_worker = NULL; if ((OB_FAIL(partition_service_->get_partition(partition_key_, guard))) || NULL == guard.get_partition_group()) { CLOG_LOG(WARN, "invalid partition", K(ret), KP(partition_service_), K_(partition_key)); } else if (!(guard.get_partition_group()->is_valid())) { ret = OB_INVALID_PARTITION; CLOG_LOG(WARN, "partition is invalid", K(ret), K_(partition_key)); } else if (NULL == (loop_worker = guard.get_partition_group()->get_partition_loop_worker())) { ret = OB_INVALID_PARTITION; CLOG_LOG(WARN, "partition is invalid", K(ret), K_(partition_key)); } else if (FALSE_IT(checkpoint_ts = loop_worker->get_last_checkpoint())) { CLOG_LOG(WARN, "failed to get_last_checkpoint", K(ret), K_(partition_key)); } else if (0 >= checkpoint_ts) { if (REACH_TIME_INTERVAL(1 * 1000 * 1000)) { CLOG_LOG(WARN, "checkpoint_ts has not been generated", KR(ret), K(partition_key_), K(checkpoint_ts)); } sw_.set_last_update_archive_checkpoint_time(last_archive_checkpoint_ts + wait_interval); } else if (checkpoint_ts > last_checkpoint_ts) { uint64_t max_log_id = OB_INVALID_ID; int64_t max_log_ts = OB_INVALID_TIMESTAMP; sw_.get_max_log_id_info(max_log_id, max_log_ts); if (sw_.is_empty() && max_log_id == sw_.get_last_archive_checkpoint_log_id()) { if (OB_FAIL(archive_mgr_->submit_checkpoint_task(partition_key_, max_log_id, max_log_ts, checkpoint_ts))) { if (OB_ENTRY_NOT_EXIST == ret || OB_LOG_ARCHIVE_NOT_RUNNING == ret || OB_EAGAIN == ret) { if (REACH_TIME_INTERVAL(1 * 1000 * 1000)) { CLOG_LOG(WARN, "failed to submit_checkpoint_task", KR(ret), K(partition_key_)); } } else { CLOG_LOG(WARN, "failed to submit_checkpoint_task", KR(ret), K(partition_key_)); } sw_.set_last_update_archive_checkpoint_time(last_archive_checkpoint_ts + wait_interval); } else { sw_.set_last_archive_checkpoint_ts(checkpoint_ts); sw_.set_last_update_archive_checkpoint_time(now); } } else { // need submit clog checkpoint log loop_worker->set_force_write_checkpoint(true); sw_.set_last_archive_checkpoint_log_id(max_log_id + 1); sw_.set_last_archive_checkpoint_ts(checkpoint_ts); sw_.set_last_update_archive_checkpoint_time(now); } } else { if (REACH_TIME_INTERVAL(5 * 1000 * 1000)) { CLOG_LOG(WARN, "checkpoint has not been pushed up", KR(ret), K(partition_key_), K(last_checkpoint_ts), K(checkpoint_ts)); } } } else { } } return ret; } int ObPartitionLogService::sync_log_archive_progress() { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; CLOG_LOG(WARN, "ObPartitionLogService is not inited", K(ret), K(partition_key_)); } else if (OB_SYS_TENANT_ID == partition_key_.get_tenant_id()) { ret = OB_ERR_UNEXPECTED; CLOG_LOG(ERROR, "sys partitions do not need to sys log archive progress", K(ret), K(partition_key_)); } else { RLockGuard guard(lock_); if (GCTX.is_primary_cluster() && state_mgr_.is_leader_active() && !state_mgr_.is_offline()) { bool need_sync = true; if (OB_FAIL(sync_local_archive_progress_(need_sync))) { CLOG_LOG(WARN, "sync_local_archive_progress_ failed", K(ret), K_(partition_key)); } else if (need_sync) { const int64_t self_cluster_id = obrpc::ObRpcNetHandler::CLUSTER_ID; const common::ObMemberList member_list = mm_.get_curr_member_list(); const int64_t member_cnt = member_list.get_member_number(); for (int64_t i = 0; i < member_cnt && OB_SUCC(ret); ++i) { common::ObAddr server; if (OB_FAIL(member_list.get_server_by_index(i, server))) { CLOG_LOG(WARN, "sync_local_archive_progress_ failed", K(ret), K_(partition_key), K(server)); } else if (server == self_) { // skip self } else if (OB_FAIL(log_engine_->send_sync_log_archive_progress_msg( server, self_cluster_id, partition_key_, log_archive_status_))) { CLOG_LOG(WARN, "send_sync_log_archive_progress_msg failed", K(ret), K_(partition_key), K(server)); } else { /*do nothing*/ } } int tmp_ret = OB_SUCCESS; if (OB_SUCCESS != (tmp_ret = (send_archive_progress_msg_to_children_(log_archive_status_)))) { CLOG_LOG(WARN, "failed to send_archive_progress_msg_to_children_", K(tmp_ret), K_(partition_key), K(log_archive_status_)); ret = (OB_SUCCESS == ret) ? tmp_ret : ret; } } } } return ret; } int ObPartitionLogService::send_archive_progress_msg_to_children_(const ObPGLogArchiveStatus& status) const { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else { ObCascadMemberList children; if (OB_FAIL(cascading_mgr_.get_children_list(children))) { CLOG_LOG(WARN, "get_children_list failed", K_(partition_key), K(ret)); } else { const int64_t child_cnt = children.get_member_number(); int tmp_ret = OB_SUCCESS; for (int64_t i = 0; i < child_cnt; ++i) { share::ObCascadMember child; if (OB_SUCCESS != (tmp_ret = (children.get_member_by_index(i, child)))) { CLOG_LOG(WARN, "get_member_by_index failed", K(tmp_ret), K_(partition_key), K(child)); } else if (!child.is_valid()) { tmp_ret = OB_ERR_UNEXPECTED; CLOG_LOG(WARN, "invalid child", K(tmp_ret), K_(partition_key), K(child)); } else if (child.get_server() == self_) { // skip self } else if (OB_SUCCESS != (tmp_ret = (log_engine_->send_sync_log_archive_progress_msg( child.get_server(), child.get_cluster_id(), partition_key_, status)))) { CLOG_LOG(WARN, "send_sync_log_archive_progress_msg failed", K(tmp_ret), K_(partition_key), K(child)); } else { // do nothing } ret = (OB_SUCCESS == ret) ? tmp_ret : ret; } } } return ret; } int ObPartitionLogService::get_log_archive_status(ObPGLogArchiveStatus& status) { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; CLOG_LOG(WARN, "is not inited", K(ret), K(partition_key_)); } else { SpinRLockGuard rlock_guard(log_archive_status_rwlock_); status = log_archive_status_; } return ret; } int ObPartitionLogService::check_log_exist(const uint64_t log_id, bool &exist) { int ret = OB_SUCCESS; ObLogCursorExt log_cursor; exist = false; if (IS_NOT_INIT) { ret = OB_NOT_INIT; CLOG_LOG(WARN, "is not inited", K(ret), K(partition_key_)); } else if (OB_UNLIKELY(OB_INVALID_ID == log_id)) { ret = OB_INVALID_ARGUMENT; CLOG_LOG(WARN, "invalid argument", K(ret), K(log_id), K(partition_key_)); } else if (OB_FAIL(log_engine_->check_clog_exist(partition_key_, log_id, exist))) { CLOG_LOG(WARN, "check clog exist fail", K(ret), K(log_id), K(partition_key_)); } return ret; } int ObPartitionLogService::update_broadcast_info( const common::ObAddr& server, const common::ObReplicaType& replica_type, const uint64_t max_confirmed_log_id) { int ret = OB_SUCCESS; RLockGuard guard(lock_); if (IS_NOT_INIT) { ret = OB_NOT_INIT; CLOG_LOG(WARN, "is not inited", K(ret), K(partition_key_)); } else if (NULL == broadcast_info_mgr_) { // do nothing } else if (OB_FAIL(broadcast_info_mgr_->update_broadcast_info(server, replica_type, max_confirmed_log_id))) { CLOG_LOG(WARN, "update_broadcast_info failed", K(ret), K(partition_key_), K(server), K(replica_type), K(max_confirmed_log_id)); } return ret; } int ObPartitionLogService::get_recyclable_log_id(uint64_t& log_id) const { int ret = OB_SUCCESS; RLockGuard guard(lock_); if (IS_NOT_INIT) { ret = OB_NOT_INIT; CLOG_LOG(WARN, "is not inited", K(ret), K(partition_key_)); } else if (NULL == broadcast_info_mgr_) { log_id = 0; } else if (OB_FAIL(broadcast_info_mgr_->get_recyclable_log_id(log_id))) { CLOG_LOG(WARN, "get_recyclable_log_id failed", K(ret), K(partition_key_)); } return ret; } int ObPartitionLogService::get_candidate_info(ObCandidateInfo& info) { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else { info.set_role(state_mgr_.get_role()); info.set_tenant_active(partition_service_->is_tenant_active(partition_key_)); info.set_on_revoke_blacklist(state_mgr_.is_leader_revoke_recently()); info.set_replica_type(mm_.get_replica_type()); info.set_server_status(OBSERVER.get_gctx().rs_server_status_); info.set_clog_disk_full(!log_engine_->is_disk_space_enough()); info.set_offline(state_mgr_.is_offline()); info.set_need_rebuild(state_mgr_.is_need_rebuild()); info.set_is_partition_candidate(partition_service_->is_election_candidate(partition_key_)); bool disk_error = false; int tmp_ret = OB_SUCCESS; if (OB_SUCCESS != (tmp_ret = ObIOManager::get_instance().is_disk_error(disk_error))) { CLOG_LOG(WARN, "is_disk_error failed", K(tmp_ret)); } info.set_is_disk_error(disk_error); const ObReplicaProperty replica_property = mm_.get_replica_property(); info.set_memstore_percent(replica_property.get_memstore_percent()); } return ret; } int ObPartitionLogService::enable_replay_() { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else { CLOG_LOG(INFO, "enable_replay", K_(partition_key)); state_mgr_.enable_replay(); } return ret; } int ObPartitionLogService::disable_replay_() { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else { CLOG_LOG(INFO, "disable_replay", K_(partition_key)); state_mgr_.disable_replay(); } return ret; } int ObPartitionLogService::get_storage_last_replay_log_id_(uint64_t& last_replay_log_id) const { int ret = OB_SUCCESS; storage::ObIPartitionGroupGuard guard; storage::ObIPartitionGroup* partition = NULL; int64_t unused = 0; if (IS_NOT_INIT) { ret = OB_NOT_INIT; CLOG_LOG(WARN, "ObPartitionLogService is not inited", K(ret), K(partition_key_)); } else if (OB_FAIL(partition_service_->get_partition(partition_key_, guard)) || NULL == (partition = guard.get_partition_group())) { ret = OB_ERR_UNEXPECTED; CLOG_LOG(WARN, "this partition not existed", K(ret), K(partition_key_)); } else if (OB_FAIL(partition->get_saved_last_log_info(last_replay_log_id, unused))) { CLOG_LOG(ERROR, "partition get_last_replay_log_id failed", K(ret), K(partition_key_)); } else if (OB_INVALID_ID == last_replay_log_id) { ret = OB_ERR_UNEXPECTED; CLOG_LOG(ERROR, "last_replay_log_id is invalid", K(ret), K(partition_key_)); } else { // do nothing } return ret; } int ObPartitionLogService::query_confirmed_log( const uint64_t log_id, transaction::ObTransID& trans_id, int64_t& submit_timestamp) { int ret = OB_SUCCESS; ObTsWindows unused_windows; int64_t leader_epoch1 = 0; int64_t leader_epoch2 = 0; ObLogEntry log_entry; common::ObMemberList member_list; ObReadBufGuard guard(ObModIds::OB_LOG_DIRECT_READER_CACHE_ID); ObReadBuf& rbuf = guard.get_read_buf(); if (IS_NOT_INIT) { ret = OB_NOT_INIT; CLOG_LOG(WARN, "ObPartitionLogService is not inited", K(ret), K(partition_key_)); } else if (OB_INVALID_ID == log_id) { ret = OB_INVALID_ARGUMENT; CLOG_LOG(WARN, "invalid arguments", K(ret), K(partition_key_), K(log_id)); } else if (OB_UNLIKELY(!rbuf.is_valid())) { ret = OB_ALLOCATE_MEMORY_FAILED; CLOG_LOG(WARN, "failed to alloc read_buf", K_(partition_key), K(log_id), K(ret)); } else if (OB_FAIL(try_get_curr_member_list(member_list))) { CLOG_LOG(WARN, "try_get_curr_member_list failed", K(ret), K(partition_key_), K(log_id)); } else if (OB_FAIL(get_role_unlock(leader_epoch1, unused_windows))) { CLOG_LOG(WARN, "get_role failed or not master", K(ret), K(partition_key_), K(log_id)); } else if (OB_SUCC(get_confirmed_log_from_sw_(log_id, rbuf, log_entry))) { uint64_t unused_log_id = OB_INVALID_ID; if (OB_FAIL(transaction::ObTransLogParseUtils::parse_redo_prepare_log( log_entry, unused_log_id, submit_timestamp, trans_id))) { CLOG_LOG(ERROR, "parse_redo_prepare_log failed", K(ret), K(partition_key_), K(log_id)); ret = OB_ERR_UNEXPECTED; } else if (unused_log_id != log_id) { ret = OB_ERR_UNEXPECTED; CLOG_LOG(ERROR, "log_id not match", K(ret), K(partition_key_), K(log_id), K(unused_log_id)); } else { CLOG_LOG(INFO, "get_confirmed_log_from_sw_ finished", K(ret), K(partition_key_), K(log_id), K(trans_id), K(submit_timestamp)); } } else if (OB_EAGAIN == ret || OB_ENTRY_NOT_EXIST == ret) { // do nothing CLOG_LOG(INFO, "get_confirmed_log_from_sw_ eagain or not exist", K(ret), K(partition_key_), K(log_id)); } else if (OB_ERROR_OUT_OF_RANGE == ret) { if (OB_FAIL(get_log_from_ilog_storage_(log_id, member_list, trans_id, submit_timestamp))) { CLOG_LOG(WARN, "get_log_from_ilog_storage_ failed", K(ret), K(partition_key_), K(log_id), K(submit_timestamp)); } else { CLOG_LOG(INFO, "get_log_from_ilog_storage_ finished", K(ret), K(partition_key_), K(log_id), K(trans_id), K(submit_timestamp)); } } else { CLOG_LOG(ERROR, "get_confirmed_log_from_sw_ failed", K(ret), K(partition_key_), K(log_id)); ret = OB_ERR_UNEXPECTED; } if (OB_SUCCESS == ret || OB_EAGAIN == ret || OB_ENTRY_NOT_EXIST == ret) { int tmp_ret = OB_SUCCESS; if (OB_SUCCESS != (tmp_ret = get_role_unlock(leader_epoch2, unused_windows))) { CLOG_LOG(WARN, "get_role failed or not master", K(ret), K(partition_key_), K(log_id)); ret = tmp_ret; } else if (leader_epoch1 != leader_epoch2) { CLOG_LOG(WARN, "leader epoch changed, not master", K(ret), K(partition_key_), K(log_id)); ret = OB_EAGAIN; } } return ret; } int ObPartitionLogService::get_confirmed_log_from_sw_(const uint64_t log_id, ObReadBuf& rbuf, ObLogEntry& log_entry) { int ret = OB_SUCCESS; const uint32_t log_attr = ObFetchLogAttr::NEED_CONFIRMED; bool log_confirmed = false; ObLogCursor log_cursor; int64_t accum_checksum = 0; bool batch_committed = false; ObReadParam read_param; if (OB_SUCCESS == (ret = sw_.get_log(log_id, log_attr, log_confirmed, log_cursor, accum_checksum, batch_committed))) { ret = OB_ERR_UNEXPECTED; CLOG_LOG(ERROR, "get_log return value unexpected", K(ret), K(partition_key_), K(log_id)); } else if (OB_EAGAIN == ret || OB_ERROR_OUT_OF_RANGE == ret) { // do nothing } else if (OB_ERR_NULL_VALUE == ret) { // When log_id is less than sw max_log_id, it means that this log_id has been allocated, so it needs to return // OB_EAGAIN Otherwise, you can safely return to OB_ENTRY_NOT_EXIST; if (log_id <= sw_.get_max_log_id()) { ret = OB_EAGAIN; } else { ret = OB_ENTRY_NOT_EXIST; } } else if (OB_LOG_MISSING == ret && log_cursor.is_valid()) { read_param.file_id_ = log_cursor.file_id_; read_param.offset_ = log_cursor.offset_; read_param.read_len_ = log_cursor.size_; if (OB_FAIL(log_engine_->read_log_by_location(read_param, rbuf, log_entry))) { CLOG_LOG(WARN, "read_log_by_location failed", K(ret), K(partition_key_), K(read_param)); } } else { CLOG_LOG(ERROR, "sw_ get_log error, unexpected error", K(ret), K(partition_key_), K(log_id), K(log_entry), K(log_confirmed), K(log_cursor), K(accum_checksum)); ret = OB_ERR_UNEXPECTED; } return ret; } int ObPartitionLogService::get_log_from_ilog_storage_(const uint64_t log_id, const common::ObMemberList& member_list, transaction::ObTransID& trans_id, int64_t& submit_timestamp) { int ret = OB_SUCCESS; ObLogCursorExt log_cursor; uint64_t unused_log_id = OB_INVALID_ID; if (OB_FAIL(log_engine_->get_cursor(partition_key_, log_id, log_cursor))) { if (OB_CURSOR_NOT_EXIST == ret) { CLOG_LOG(WARN, "ilog_storage get invalid log, cursor not exist", K(ret), K(partition_key_), K(log_id)); if (OB_FAIL(remote_log_query_engine_->get_log(partition_key_, log_id, member_list, trans_id, submit_timestamp))) { if (OB_EAGAIN != ret) { CLOG_LOG( WARN, "remote_log_query_engine_ get_log failed", K(ret), K(partition_key_), K(log_id), K(member_list)); } else if (REACH_TIME_INTERVAL(1000 * 1000)) { CLOG_LOG( WARN, "remote_log_query_engine_ get_log failed", K(ret), K(partition_key_), K(log_id), K(member_list)); } } else { CLOG_LOG(INFO, "remote_log_query_engine_ get_log finished", K(ret), K(partition_key_), K(log_id), K(trans_id), K(submit_timestamp)); } } else if (OB_NEED_RETRY == ret || OB_ERR_OUT_OF_UPPER_BOUND == ret) { ret = OB_EAGAIN; } else { CLOG_LOG(WARN, "ilog_storage_ get_cursor failed", K(ret), K(partition_key_), K(log_id)); } } else { ObReadParam read_param; read_param.file_id_ = log_cursor.get_file_id(); read_param.offset_ = log_cursor.get_offset(); read_param.read_len_ = log_cursor.get_size(); ObLogEntry log_entry; ObReadBufGuard guard(ObModIds::OB_LOG_DIRECT_READER_CACHE_ID); ObReadBuf& rbuf = guard.get_read_buf(); if (OB_UNLIKELY(!rbuf.is_valid())) { ret = OB_ALLOCATE_MEMORY_FAILED; CLOG_LOG(WARN, "failed to alloc read_buf", K_(partition_key), K(log_id), K(read_param), K(ret)); } else if (OB_FAIL(log_engine_->read_log_by_location(read_param, rbuf, log_entry))) { CLOG_LOG(WARN, "read_log_by_location failed", K(ret), K(partition_key_), K(read_param)); } else if (OB_FAIL(transaction::ObTransLogParseUtils::parse_redo_prepare_log( log_entry, unused_log_id, submit_timestamp, trans_id))) { CLOG_LOG(ERROR, "parse_redo_prepare_log failed", K(ret), K(partition_key_), K(log_id)); ret = OB_ERR_UNEXPECTED; } else if (unused_log_id != log_id) { ret = OB_ERR_UNEXPECTED; CLOG_LOG(ERROR, "log_id not match", K(ret), K(partition_key_), K(log_id), K(unused_log_id)); } else { CLOG_LOG(DEBUG, "get_log_from_ilog_storage finished", K(ret), K(partition_key_), K(log_id), K(trans_id), K(submit_timestamp)); } } return ret; } int ObPartitionLogService::add_role_change_task_() { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; CLOG_LOG(WARN, "ObPartitionLogService is not inited", K(ret), K(partition_key_)); } else if (!need_add_event_task()) { // do nothing CLOG_LOG(TRACE, "no need_add_event_task", K(ret), K(partition_key_), K(has_event_task_)); } else { ObLogStateEventTaskV2* task = NULL; while (NULL == (task = alloc_mgr_->alloc_log_event_task())) { if (REACH_TIME_INTERVAL(1000 * 1000)) { CLOG_LOG(ERROR, "alloc ObLogStateEventTaskV2 failed", K(ret), K(partition_key_)); } usleep(1000); } if (OB_FAIL(task->init(partition_key_, event_scheduler_, partition_service_))) { CLOG_LOG(ERROR, "ObLogStateEventTaskV2 init failed", K(ret), K(partition_key_)); } else if (OB_FAIL(event_scheduler_->add_state_change_event(task))) { CLOG_LOG(WARN, "add_state_change_event failed", K(ret), K(partition_key_)); } if (OB_FAIL(ret)) { ob_slice_free_log_event_task(task); task = NULL; } } return ret; } bool ObPartitionLogService::need_add_event_task() { bool bool_ret = false; if (IS_NOT_INIT) { bool_ret = false; CLOG_LOG(WARN, "ObPartitionLogService is not inited"); } else if (is_in_partition_service_()) { ObSpinLockGuard guard(event_task_lock_); if (has_event_task_) { bool_ret = false; } else { bool_ret = true; has_event_task_ = true; } } return bool_ret; } void ObPartitionLogService::reset_has_event_task() { ObSpinLockGuard guard(event_task_lock_); has_event_task_ = false; } int ObPartitionLogService::backfill_log( const ObLogInfo& log_info, const ObLogCursor& log_cursor, const bool is_leader, ObISubmitLogCb* submit_cb) { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; CLOG_LOG(WARN, "ObPartitionLogService is not inited", K(ret), K(partition_key_), K(log_info)); } else if (!log_info.is_valid() || !log_cursor.is_valid() || (is_leader && OB_ISNULL(submit_cb)) || (!is_leader && !OB_ISNULL(submit_cb))) { ret = OB_INVALID_ARGUMENT; CLOG_LOG( WARN, "invalid arguments", K(ret), K(partition_key_), K(log_info), K(log_cursor), K(is_leader), KP(submit_cb)); } else if (!is_leader && !sw_.check_can_receive_larger_log(log_info.get_log_id())) { ret = OB_TOO_LARGE_LOG_ID; if (REACH_TIME_INTERVAL(1000 * 1000)) { CLOG_LOG(WARN, "backfill_log too large log_id", K(ret), K(partition_key_), K(log_info)); } } else { if (NULL != submit_cb) { submit_cb->base_class_reset(); } const char* serialize_buff = log_info.get_buf(); const int64_t serialize_size = log_info.get_size(); const common::ObProposalID& proposal_id = log_info.get_proposal_id(); RLockGuard guard(lock_); if (!state_mgr_.can_backfill_log(is_leader, proposal_id)) { ret = OB_STATE_NOT_MATCH; CLOG_LOG(WARN, "can_backfill_log failed", K(ret), K(partition_key_), K(is_leader), "role", state_mgr_.get_role(), "state", state_mgr_.get_state(), K(proposal_id), "curr_proposal_id", state_mgr_.get_proposal_id()); } else if (OB_FAIL(sw_.backfill_log(log_info.get_log_id(), proposal_id, serialize_buff, serialize_size, log_cursor, is_leader, submit_cb))) { CLOG_LOG(WARN, "sw backfill_log failed", K(ret), K(partition_key_), K(log_info)); } if (is_leader && OB_ALLOCATE_MEMORY_FAILED == ret) { int tmp_ret = OB_SUCCESS; const uint32_t revoke_type = ObElection::RevokeType::SUBMIT_LOG_MEMORY_ALLOC_FAIL; if (OB_SUCCESS != (tmp_ret = election_mgr_->leader_revoke(partition_key_, revoke_type))) { CLOG_LOG(ERROR, "election_mgr_ leader_revoke failed", K(ret), K(tmp_ret), K(partition_key_), K(revoke_type)); } } } return ret; } int ObPartitionLogService::backfill_confirmed(const ObLogInfo& log_info, const bool batch_first_participant) { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; CLOG_LOG(WARN, "ObPartitionLogService is not inited", K(ret), K(partition_key_), K(log_info)); } else if (!log_info.is_valid()) { ret = OB_INVALID_ARGUMENT; CLOG_LOG(WARN, "invalid arguments", K(ret), K(partition_key_), K(log_info)); } else { const uint64_t log_id = log_info.get_log_id(); const common::ObProposalID proposal_id = log_info.get_proposal_id(); RLockGuard guard(lock_); if (!state_mgr_.can_backfill_confirmed(proposal_id)) { ret = OB_STATE_NOT_MATCH; CLOG_LOG(WARN, "can_backfill_confirmed failed", K(ret), K(partition_key_), "role", state_mgr_.get_role(), "state", state_mgr_.get_state(), K(proposal_id), "curr_proposal_id", state_mgr_.get_proposal_id()); } else if (OB_FAIL(sw_.backfill_confirmed(log_id, batch_first_participant))) { CLOG_LOG(WARN, "sw backfill_confirmed failed", K(ret), K(partition_key_), K(log_id)); } } return ret; } int ObPartitionLogService::resubmit_log(const ObLogInfo& log_info, ObISubmitLogCb* submit_cb) { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; CLOG_LOG(WARN, "ObPartitionLogService is not inited", K(ret), K(partition_key_), K(log_info)); } else if (OB_ISNULL(submit_cb) || !log_info.is_valid()) { ret = OB_INVALID_ARGUMENT; CLOG_LOG(WARN, "invalid arguments", K(ret), K(partition_key_), K(log_info), KP(submit_cb)); } else { if (NULL != submit_cb) { submit_cb->base_class_reset(); } const common::ObProposalID proposal_id = log_info.get_proposal_id(); RLockGuard guard(lock_); if (!state_mgr_.can_submit_with_assigned_id()) { ret = OB_STATE_NOT_MATCH; CLOG_LOG(WARN, "can not submit log for assigned log_id", K(ret), K(partition_key_), "role", state_mgr_.get_role(), "is_offline", state_mgr_.is_offline(), "state", state_mgr_.get_state(), K(log_info)); } else if (proposal_id != state_mgr_.get_proposal_id()) { ret = OB_STATE_NOT_MATCH; CLOG_LOG(WARN, "proposal_id not match", K(ret), K(partition_key_), K(proposal_id), "curr_proposal_id", state_mgr_.get_proposal_id(), K(log_info)); } else if (OB_FAIL(sw_.resubmit_log(log_info, submit_cb))) { CLOG_LOG(ERROR, "resubmit_log failed", K(ret), K(partition_key_), K(log_info)); } if (OB_ALLOCATE_MEMORY_FAILED == ret) { int tmp_ret = OB_SUCCESS; const uint32_t revoke_type = ObElection::RevokeType::SUBMIT_LOG_MEMORY_ALLOC_FAIL; if (OB_SUCCESS != (tmp_ret = election_mgr_->leader_revoke(partition_key_, revoke_type))) { CLOG_LOG(ERROR, "election_mgr_ leader_revoke failed", K(ret), K(tmp_ret), K(partition_key_), K(revoke_type)); } } } return ret; } int ObPartitionLogService::backfill_nop_log(const ObLogMeta& log_meta) { int ret = OB_SUCCESS; static const int64_t BUF_SIZE = 2048; ObNopLog nop_log; char body_buffer[BUF_SIZE]; int64_t body_pos = 0; common::ObVersion unused_version = ObVersion(1, 0); ObISubmitLogCb* submit_cb = NULL; ObLogEntryHeader header; const bool is_trans_log = false; if (IS_NOT_INIT) { ret = OB_NOT_INIT; CLOG_LOG(WARN, "ObPartitionLogService is not inited", K(ret)); } else if (!log_meta.is_valid()) { ret = OB_INVALID_ARGUMENT; CLOG_LOG(WARN, "invalid arguments", K(ret), K(partition_key_), K(log_meta)); } else if (lock_.try_rdlock()) { if (!state_mgr_.can_submit_with_assigned_id()) { ret = OB_STATE_NOT_MATCH; CLOG_LOG(WARN, "can not submit log for assigned log_id", K(ret), K(partition_key_), "role", state_mgr_.get_role(), "is_offline", state_mgr_.is_offline(), "state", state_mgr_.get_state(), K(log_meta)); } else if (log_meta.get_proposal_id() != state_mgr_.get_proposal_id()) { ret = OB_STATE_NOT_MATCH; CLOG_LOG(WARN, "proposal_id not match", K(ret), K(partition_key_), "curr_proposal_id", state_mgr_.get_proposal_id(), K(log_meta)); } else if (OB_FAIL(nop_log.serialize(body_buffer, BUF_SIZE, body_pos))) { CLOG_LOG(WARN, "serialize failed", K(ret), K(partition_key_)); } else if (OB_FAIL(header.generate_header(OB_LOG_NOP, // log_type partition_key_, // partition_key log_meta.get_log_id(), body_buffer, // buff body_pos, // data_len ObClockGenerator::getClock(), // generation_timestamp log_meta.get_proposal_id().ts_, // epoch_id, log_meta.get_proposal_id(), // proposal_id, log_meta.get_submit_timestamp(), // submit_timestamp unused_version, // ObVersion is_trans_log))) { CLOG_LOG(ERROR, "generate_header failed", K(ret), K(partition_key_)); } else if (OB_FAIL(sw_.submit_log(header, body_buffer, submit_cb))) { CLOG_LOG(WARN, "submit_log failed", K(ret), K(partition_key_)); } if (OB_ALLOCATE_MEMORY_FAILED == ret) { int tmp_ret = OB_SUCCESS; const uint32_t revoke_type = ObElection::RevokeType::SUBMIT_LOG_MEMORY_ALLOC_FAIL; if (OB_SUCCESS != (tmp_ret = election_mgr_->leader_revoke(partition_key_, revoke_type))) { CLOG_LOG(ERROR, "election_mgr_ leader_revoke failed", K(ret), K(tmp_ret), K(partition_key_), K(revoke_type)); } } lock_.rdunlock(); } else { ret = OB_EAGAIN; } return ret; } int ObPartitionLogService::is_valid_member(const common::ObAddr& addr, bool& is_valid) const { int ret = OB_SUCCESS; RLockGuard guard(lock_); if (IS_NOT_INIT) { ret = OB_NOT_INIT; CLOG_LOG(WARN, "ObPartitionLogService is not inited", K(ret), K(partition_key_)); } else if (!addr.is_valid()) { ret = OB_INVALID_ARGUMENT; CLOG_LOG(ERROR, "invalid arguments", K(ret), K(partition_key_), K(addr)); } else if (!state_mgr_.is_leader_active() && !state_mgr_.is_standby_leader_active()) { ret = OB_NOT_MASTER; } else { is_valid = mm_.get_curr_member_list().contains(addr); } return ret; } int ObPartitionLogService::change_quorum(const common::ObMemberList& curr_member_list, const int64_t curr_quorum, const int64_t new_quorum, obrpc::ObMCLogInfo& log_info) { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; CLOG_LOG(WARN, "ObPartitionLogService is not inited", K(ret), K(partition_key_)); } else if (!curr_member_list.is_valid() || curr_quorum <= 0 || curr_quorum > OB_MAX_MEMBER_NUMBER || new_quorum <= 0 || new_quorum > OB_MAX_MEMBER_NUMBER) { ret = OB_INVALID_ARGUMENT; CLOG_LOG(WARN, "invalid arguments", K(ret), K(partition_key_), K(curr_member_list), K(curr_quorum), K(new_quorum)); } else { WLockGuardWithTimeout guard(lock_, WRLOCK_TIMEOUT_US + ObTimeUtility::current_time(), ret); if (OB_FAIL(ret)) { CLOG_LOG(WARN, "change quorum wrlock failed", K(ret), K(partition_key_)); } else if (!state_mgr_.can_change_member()) { CLOG_LOG(WARN, "can not change_member", K(ret), K(partition_key_), "role", state_mgr_.get_role(), "state", state_mgr_.get_state(), "is_changing_leader", state_mgr_.is_changing_leader()); } else if (OB_FAIL(mm_.change_quorum(curr_member_list, curr_quorum, new_quorum, log_info))) { CLOG_LOG( WARN, "change quorum failed", K(ret), K(partition_key_), K(curr_member_list), K(curr_quorum), K(new_quorum)); } } CLOG_LOG(INFO, "change_quorum finished", K(ret), K(partition_key_), K(curr_quorum), K(new_quorum), K(log_info)); return ret; } int ObPartitionLogService::check_can_receive_batch_log(const uint64_t log_id) { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; CLOG_LOG(WARN, "ObPartitionLogService is not inited", K(ret), K(partition_key_)); } else if (OB_INVALID_ID == log_id) { ret = OB_INVALID_ARGUMENT; CLOG_LOG(WARN, "invalid arguments", K(ret), K(partition_key_), K(log_id)); } else if (!sw_.check_can_receive_larger_log(log_id)) { ret = OB_TOO_LARGE_LOG_ID; } else { // do nothing } return ret; } bool ObPartitionLogService::is_in_partition_service_() const { bool bool_ret = false; int ret = OB_SUCCESS; storage::ObIPartitionGroupGuard guard; ObIPartitionLogService* log_service = NULL; if (OB_FAIL(partition_service_->get_partition(partition_key_, guard))) { CLOG_LOG(WARN, "get_partition failed", K(ret), K(partition_key_)); } else if (NULL == guard.get_partition_group()) { ret = OB_PARTITION_NOT_EXIST; CLOG_LOG(WARN, "partition not exist", K(ret), K(partition_key_)); } else if (NULL == (log_service = guard.get_partition_group()->get_log_service())) { ret = OB_ERR_UNEXPECTED; CLOG_LOG(ERROR, "get partition log service error", K(ret), K(partition_key_)); } else { bool_ret = true; } return bool_ret; } int ObPartitionLogService::update_max_flushed_ilog_id(const uint64_t log_id) { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; CLOG_LOG(ERROR, "ObPartitionLogService is not inited", K(ret)); } else if (!is_valid_log_id(log_id)) { ret = OB_INVALID_ARGUMENT; CLOG_LOG(ERROR, "invalid arguments", K(ret), K(partition_key_), K(log_id)); } else { ATOMIC_STORE(&max_flushed_ilog_id_, log_id); } return ret; } int ObPartitionLogService::get_cursor_with_cache( const int64_t scan_thread_index, const uint64_t log_id, ObLogCursorExt& log_cursor) { int ret = OB_SUCCESS; RLockGuard guard(lock_); ObCursorArrayCache* const c = cursor_array_cache_; if (IS_NOT_INIT) { ret = OB_NOT_INIT; CLOG_LOG(ERROR, "ObPartitionLogService is not inited", K(ret)); } else if (!is_valid_log_id(log_id) || scan_thread_index < 0 || scan_thread_index >= SCAN_THREAD_CNT) { ret = OB_INVALID_ARGUMENT; CLOG_LOG(ERROR, "invalid arguments", K(ret), K(scan_thread_index), K(log_id)); } else if (OB_ISNULL(cursor_array_cache_)) { ret = OB_ERR_UNEXPECTED; CLOG_LOG(ERROR, "cursor_array_cache_ is NULL, unexpected", K(ret), K(partition_key_)); } else if (log_id >= c->cursor_start_log_id_[scan_thread_index] && log_id < c->cursor_end_log_id_[scan_thread_index]) { log_cursor = c->cursor_array_[scan_thread_index][log_id - c->cursor_start_log_id_[scan_thread_index]]; } else { ObGetCursorResult result; result.csr_arr_ = c->cursor_array_[scan_thread_index]; result.arr_len_ = ObCursorArrayCache::CURSOR_ARRAY_SIZE; result.ret_len_ = 0; if (OB_FAIL(log_engine_->get_cursor_batch_from_file(partition_key_, log_id, result))) { CSR_LOG(ERROR, "get_cursor_batch_from_file failed", K(ret), K(partition_key_), K(log_id), K(result)); } else { c->cursor_start_log_id_[scan_thread_index] = log_id; c->cursor_end_log_id_[scan_thread_index] = log_id + result.ret_len_; log_cursor = c->cursor_array_[scan_thread_index][log_id - c->cursor_start_log_id_[scan_thread_index]]; } } return ret; } int ObPartitionLogService::reset_has_pop_task() { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; CLOG_LOG(ERROR, "ObPartitionLogService is not inited", K(ret)); } else { sw_.reset_has_pop_task(); } return ret; } int ObPartitionLogService::process_check_rebuild_req( const common::ObAddr& server, const uint64_t start_log_id, const int64_t cluster_id) { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else if (OB_UNLIKELY(!server.is_valid()) || OB_UNLIKELY(start_log_id <= 0)) { ret = OB_INVALID_ARGUMENT; CLOG_LOG(WARN, "invalid arguments", K(ret), K_(partition_key), K(server), K(start_log_id)); } else if (server == self_) { // ignore self_ } else { if (start_log_id > sw_.get_max_log_id()) { CLOG_LOG(INFO, "wanted log are not supplied in this server", K(start_log_id), "sw_max_log_id", sw_.get_max_log_id(), K(server), K_(partition_key)); } else if (check_if_need_rebuild_(start_log_id, OB_FETCH_LOG_FOLLOWER_ACTIVE)) { bool is_in_member_list = mm_.get_curr_member_list().contains(server); CLOG_LOG(INFO, "follower try to fetch too old log, need rebuild", K_(partition_key), K(server), K(start_log_id), K(is_in_member_list)); (void)log_engine_->notify_follower_log_missing( server, cluster_id, partition_key_, start_log_id, is_in_member_list, OB_REBUILD_MSG); } else { // do nothing } } return ret; } void ObPartitionLogService::get_max_majority_log(uint64_t& log_id, int64_t& log_ts) const { sw_.get_max_majority_log(log_id, log_ts); } uint64_t ObPartitionLogService::get_max_confirmed_log_id() const { return sw_.get_max_confirmed_log_id(); } int ObPartitionLogService::block_partition_split_() { int ret = OB_SUCCESS; storage::ObIPartitionGroupGuard guard; if (OB_FAIL(partition_service_->get_partition(partition_key_, guard))) { CLOG_LOG(WARN, "invalid partition", K(ret), K(partition_service_), K_(partition_key)); } else if ((NULL == guard.get_partition_group()) || (!(guard.get_partition_group()->is_valid()))) { ret = OB_INVALID_PARTITION; CLOG_LOG(WARN, "partition is invalid", K(ret), K_(partition_key)); } else if (OB_FAIL(guard.get_partition_group()->block_partition_split_by_mc())) { CLOG_LOG(WARN, "block partiton split failed", K(ret), K_(partition_key)); } else { CLOG_LOG(INFO, "block partition split success", K_(partition_key)); } return ret; } int ObPartitionLogService::unblock_partition_split_() { int ret = OB_SUCCESS; storage::ObIPartitionGroupGuard guard; if (OB_FAIL(partition_service_->get_partition(partition_key_, guard))) { CLOG_LOG(WARN, "get partition failed", K(ret), K_(partition_key)); } else if (NULL == guard.get_partition_group()) { ret = OB_ERR_UNEXPECTED; CLOG_LOG(WARN, "partition is null", K(ret), K_(partition_key)); } else if (OB_FAIL(guard.get_partition_group()->unblock_partition_split_by_mc())) { CLOG_LOG(WARN, "unblock partition split failed", K(ret), K_(partition_key)); } else { CLOG_LOG(INFO, "unblock partition split success", K_(partition_key)); } return ret; } int ObPartitionLogService::set_archive_restore_state(const int16_t archive_restore_state) { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else { ret = restore_mgr_.set_archive_restore_state(archive_restore_state); } return ret; } int ObPartitionLogService::sync_local_archive_progress_(bool& need_sync) { int ret = OB_SUCCESS; ObPGLogArchiveStatus status; common::ObRole role; int64_t archive_epoch = OB_INVALID_TIMESTAMP; int64_t leader_epoch = OB_INVALID_TIMESTAMP; int64_t unused_takeover_time = OB_INVALID_ARGUMENT; need_sync = false; if (OB_ISNULL(archive_mgr_)) { ret = OB_ERR_UNEXPECTED; CLOG_LOG(ERROR, "archive_mgr is null", KR(ret), K_(partition_key)); } else if (OB_FAIL(archive_mgr_->get_log_archive_status(partition_key_, status, archive_epoch))) { CLOG_LOG(WARN, "failed to get_log_archive_status", KR(ret), K_(partition_key)); } else if (share::ObLogArchiveStatus::INVALID == status.status_) { // do nothing when returned status.status is invalid } else if (OB_FAIL(get_role_and_leader_epoch_unlock_(role, leader_epoch, unused_takeover_time))) { CLOG_LOG(WARN, "failed to get_role_and_leader_epoch", KR(ret), K_(partition_key), K(status), K(archive_epoch)); } else if ((!is_strong_leader(role) || archive_epoch != leader_epoch) && !status.is_stopped() && !status.is_interrupted()) { // skip it } else { SpinWLockGuard wlock_guard(log_archive_status_rwlock_); if (log_archive_status_ < status) { if (status.is_stopped() || status.is_interrupted()) { // If the synchronized state is stopped or interrupted, only incarnation, round, status are updated log_archive_status_.archive_incarnation_ = status.archive_incarnation_; log_archive_status_.log_archive_round_ = status.log_archive_round_; log_archive_status_.status_ = status.status_; } else { log_archive_status_ = status; } } need_sync = true; } return ret; } bool ObPartitionLogService::is_archive_restoring() const { int bool_ret = false; if (IS_NOT_INIT) { } else { bool_ret = restore_mgr_.is_archive_restoring(); } return bool_ret; } common::ObAddr ObPartitionLogService::get_restore_leader() const { common::ObAddr restore_leader; if (IS_NOT_INIT) { } else { restore_leader = restore_mgr_.get_restore_leader(); } return restore_leader; } int ObPartitionLogService::set_restore_flag_after_restore_log_() { int ret = OB_SUCCESS; storage::ObIPartitionGroupGuard guard; ObIPartitionGroup *partition = NULL; uint64_t last_restore_log_id = OB_INVALID_ID; int64_t last_restore_log_ts = OB_INVALID_TIMESTAMP; sw_.get_max_log_id_info(last_restore_log_id, last_restore_log_ts); if (OB_ISNULL(partition_service_)) { ret = OB_ERR_UNEXPECTED; CLOG_LOG(WARN, "invalid partition_service_ is NULL", KR(ret), KP(partition_service_), K_(partition_key)); } else if (OB_FAIL(partition_service_->get_partition(partition_key_, guard))) { CLOG_LOG(WARN, "failed to get_partition", KR(ret), KP(partition_service_), K_(partition_key)); } else if (OB_ISNULL(partition = guard.get_partition_group()) || (!partition->is_valid())) { ret = OB_ERR_UNEXPECTED; CLOG_LOG(WARN, "invalid partition", K(ret), K_(partition_key)); } else if (OB_FAIL(partition->clear_trans_after_restore_log(last_restore_log_id, last_restore_log_ts))) { CLOG_LOG(ERROR, "failed to clear_trans_after_restore_log", K(ret), K_(partition_key), K(last_restore_log_id), K(last_restore_log_ts)); } else { ObReplicaRestoreStatus flag = ObReplicaRestoreStatus::REPLICA_RESTORE_DUMP_MEMTABLE; if (OB_FAIL(partition_service_->set_restore_flag(partition_key_, flag))) { CLOG_LOG(WARN, "failed to set_restore_flag", K_(partition_key), K(flag), K(last_restore_log_id), K(last_restore_log_ts), KR(ret)); } else { CLOG_LOG(INFO, "success to set_restore_flag", K_(partition_key), K(flag), K(last_restore_log_id), K(last_restore_log_ts), KR(ret)); } } return ret; } int ObPartitionLogService::restore_leader_try_confirm_log() { int ret = OB_SUCCESS; if (IS_NOT_INIT) { ret = OB_NOT_INIT; } else { RLockGuard guard(lock_); if (RESTORE_LEADER == restore_mgr_.get_role() && restore_mgr_.is_archive_restoring() && restore_mgr_.is_restore_log_finished()) { (void)sw_.restore_leader_try_confirm_log(); } } return ret; } bool ObPartitionLogService::is_standby_restore_state() const { int bool_ret = false; if (IS_NOT_INIT) { } else { RLockGuard guard(lock_); bool_ret = restore_mgr_.is_standby_restore_state(); } return bool_ret; } int ObPartitionLogService::check_and_try_leader_revoke(const ObElection::RevokeType& revoke_type) { RLockGuard guard(lock_); int ret = OB_SUCCESS; bool need_revoke = false; if (IS_NOT_INIT) { ret = OB_NOT_INIT; CLOG_LOG(ERROR, "ObPartitionLogService not inited", K(ret), K(partition_key_)); } else if (FOLLOWER == state_mgr_.get_role()) { // do nothing } else { // TODO:consider more suitation bool majority_is_clog_disk_full = false; if (OB_FAIL(check_majority_replica_clog_disk_full_(majority_is_clog_disk_full))) { CLOG_LOG(ERROR, "check_majority_replica_clog_disk_full_ failed", K(ret)); } else { need_revoke = !majority_is_clog_disk_full; CLOG_LOG(INFO, "partition may need revoke, ", "need revoke is ", need_revoke, "and revoke type is ", revoke_type); } } if (need_revoke && OB_FAIL(election_mgr_->leader_revoke(partition_key_, revoke_type))) { CLOG_LOG(ERROR, "election_mgr_ leader_revoke failed", K(ret), K(partition_key_)); } return ret; } int ObPartitionLogService::alloc_cursor_array_cache_(const common::ObPartitionKey& partition_key) { int ret = OB_SUCCESS; if (NULL != cursor_array_cache_) { ret = OB_ERR_UNEXPECTED; CLOG_LOG(ERROR, "cursor_array_cache_ is not NULL", K(ret), K(partition_key)); } else if (NULL == (cursor_array_cache_ = (ObCursorArrayCache*)ob_malloc( sizeof(ObCursorArrayCache), ObModIds::OB_PARTITION_LOG_SERVICE))) { ret = OB_ALLOCATE_MEMORY_FAILED; CLOG_LOG(ERROR, "alloc ObCursorArrayCache failed", K(ret), K(partition_key)); } else { cursor_array_cache_ = new (cursor_array_cache_) ObCursorArrayCache(); if (OB_FAIL(cursor_array_cache_->init())) { CLOG_LOG(ERROR, "cursor_array_cache_ init failed", K(ret), K(partition_key)); free_cursor_array_cache_(); } } return ret; } void ObPartitionLogService::free_cursor_array_cache_() { if (cursor_array_cache_ != NULL) { cursor_array_cache_->~ObCursorArrayCache(); ob_free(cursor_array_cache_); cursor_array_cache_ = NULL; } } int ObPartitionLogService::alloc_broadcast_info_mgr_(const common::ObPartitionKey& partition_key) { int ret = OB_SUCCESS; if (NULL != broadcast_info_mgr_) { ret = OB_ERR_UNEXPECTED; CLOG_LOG(ERROR, "broadcast_info_mgr_ is not NULL", K(ret), K(partition_key)); } else if (NULL == (broadcast_info_mgr_ = (ObLogBroadcastInfoMgr*)ob_malloc( sizeof(ObLogBroadcastInfoMgr), ObModIds::OB_PARTITION_LOG_SERVICE))) { ret = OB_ALLOCATE_MEMORY_FAILED; CLOG_LOG(ERROR, "alloc ObLogBroadcastInfoMgr failed", K(ret), K(partition_key)); } else { broadcast_info_mgr_ = new (broadcast_info_mgr_) ObLogBroadcastInfoMgr(); if (OB_FAIL(broadcast_info_mgr_->init(partition_key, &mm_))) { CLOG_LOG(ERROR, "broadcast_info_mgr_ init failed", K(ret), K(partition_key)); free_broadcast_info_mgr_(); } } return ret; } void ObPartitionLogService::free_broadcast_info_mgr_() { if (broadcast_info_mgr_ != NULL) { broadcast_info_mgr_->~ObLogBroadcastInfoMgr(); ob_free(broadcast_info_mgr_); broadcast_info_mgr_ = NULL; } } int ObPartitionLogService::check_majority_replica_clog_disk_full_(bool& majority_is_clog_disk_full) { int ret = OB_SUCCESS; const common::ObMemberList& member_list = mm_.get_curr_member_list(); const int64_t member_number = member_list.get_member_number(); const int64_t replica_num = mm_.get_replica_num(); int64_t disk_full_cnt = 0; majority_is_clog_disk_full = false; for (int64_t i = 0; i < member_number && OB_SUCC(ret); i++) { common::ObAddr server; if (OB_FAIL(member_list.get_server_by_index(i, server))) { CLOG_LOG(ERROR, "get_server_by_index failed", K(ret), K(i), K(member_number)); } else { ObCascadMember member(server, obrpc::ObRpcNetHandler::CLUSTER_ID); if (share::ObServerBlacklist::get_instance().is_clog_disk_full(member)) { disk_full_cnt++; } } } majority_is_clog_disk_full = (disk_full_cnt >= replica_num / 2 + 1); return ret; } // There are 3 conditions to judge if memory reached limit. // 1. tenant's memory is not enough. // 2. memory store's memory is not enough. // 3. clog's memory is not enough. // This function return true if any of conditions above is true. bool ObPartitionLogService::is_tenant_out_of_memory_() const { int ret = OB_SUCCESS; bool bool_ret = false; const uint64_t tenant_id = partition_key_.get_tenant_id(); // expect at least 2MB memory for every reconfirm log constexpr int64_t NEED_MEMORY = RECONFIRM_LOG_ARRAY_LENGTH * OB_MAX_LOG_BUFFER_SIZE; constexpr double MAX_PERCENTAGE = 0.99; if (IS_NOT_INIT) { // do nothing } else { // 1. check if tenant's memory is not enough lib::ObTenantResourceMgrHandle resource_handle; if (OB_FAIL(lib::ObResourceMgr::get_instance().get_tenant_resource_mgr(tenant_id, resource_handle))) { CLOG_LOG(ERROR, "get_tenant_resource_mgr failed", KR(ret), K_(partition_key), K(tenant_id)); } else if (!resource_handle.is_valid()) { ret = OB_ERR_UNEXPECTED; CLOG_LOG(ERROR, "resource_handle is invalid", K_(partition_key), K(tenant_id)); } else { const int64_t limit = resource_handle.get_memory_mgr()->get_limit(); const int64_t hold = resource_handle.get_memory_mgr()->get_sum_hold(); if ((double(hold) / limit) > MAX_PERCENTAGE && limit - hold < NEED_MEMORY) { bool_ret = true; if (REACH_TIME_INTERVAL(1000 * 1000)) { CLOG_LOG(INFO, "tenant's memory not enough", K(limit), K(hold), K_(partition_key), K(tenant_id)); } } else { // do nothing } } // 2. check if memory store's memory is not enough if (false == bool_ret) { bool is_tenant_out_of_mem = false; if (OB_FAIL(replay_engine_->is_tenant_out_of_memory(partition_key_, is_tenant_out_of_mem))) { CLOG_LOG(WARN, "is_tenant_out_of_memory failed", K(ret), K_(partition_key)); } else if (true == is_tenant_out_of_mem) { bool_ret = is_tenant_out_of_mem; if (REACH_TIME_INTERVAL(1000 * 1000)) { CLOG_LOG(INFO, "memory store's memory not enough", K_(partition_key), K(tenant_id)); } } else { // do nothing } } // 3. check if clog's memory is not enough if (false == bool_ret) { if (nullptr != alloc_mgr_) { const int64_t limit = alloc_mgr_->get_clog_blk_alloc_mgr().limit(); const int64_t hold = alloc_mgr_->get_clog_blk_alloc_mgr().hold(); if ((double(hold) / limit) > MAX_PERCENTAGE && limit - hold < NEED_MEMORY) { bool_ret = true; if (REACH_TIME_INTERVAL(1000 * 1000)) { CLOG_LOG(INFO, "clog's memory not enough", K(limit), K(hold), K_(partition_key), K(tenant_id)); } } else { // do nothing } } } } return bool_ret; } int ObPartitionLogService::get_role_and_leader_epoch_unlock_( common::ObRole& role, int64_t& leader_epoch, int64_t& takeover_time) { int ret = OB_SUCCESS; role = FOLLOWER; int64_t unused_epoch = 0; ObTsWindows unused_windows; if (OB_SUCC(get_role_unlock(unused_epoch, unused_windows))) { role = state_mgr_.get_role(); } else if (OB_NOT_MASTER == ret) { ret = OB_SUCCESS; } else { } leader_epoch = state_mgr_.get_leader_epoch(); takeover_time = state_mgr_.get_last_leader_active_time(); return ret; } } // namespace clog } // namespace oceanbase