#pragma once #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include namespace DB { /** The engine that uses the merge tree (see MergeTreeData) and replicated through ZooKeeper. * * ZooKeeper is used for the following things: * - the structure of the table (/ metadata, /columns) * - action log with data (/log/log-...,/replicas/replica_name/queue/queue-...); * - a replica list (/replicas), and replica activity tag (/replicas/replica_name/is_active), replica addresses (/replicas/replica_name/host); * - select the leader replica (/leader_election) - this is the replica that assigns the merge; * - a set of parts of data on each replica (/replicas/replica_name/parts); * - list of the last N blocks of data with checksum, for deduplication (/blocks); * - the list of incremental block numbers (/block_numbers) that we are about to insert, * to ensure the linear order of data insertion and data merge only on the intervals in this sequence; * - coordinates writes with quorum (/quorum). * - Storage of mutation entries (ALTER DELETE, ALTER UPDATE etc.) to execute (/mutations). * See comments in StorageReplicatedMergeTree::mutate() for details. */ /** The replicated tables have a common log (/log/log-...). * Log - a sequence of entries (LogEntry) about what to do. * Each entry is one of: * - normal data insertion (GET), * - merge (MERGE), * - delete the partition (DROP). * * Each replica copies (queueUpdatingTask, pullLogsToQueue) entries from the log to its queue (/replicas/replica_name/queue/queue-...) * and then executes them (queueTask). * Despite the name of the "queue", execution can be reordered, if necessary (shouldExecuteLogEntry, executeLogEntry). * In addition, the records in the queue can be generated independently (not from the log), in the following cases: * - when creating a new replica, actions are put on GET from other replicas (createReplica); * - if the part is corrupt (removePartAndEnqueueFetch) or absent during the check (at start - checkParts, while running - searchForMissingPart), * actions are put on GET from other replicas; * * The replica to which INSERT was made in the queue will also have an entry of the GET of this data. * Such an entry is considered to be executed as soon as the queue handler sees it. * * The log entry has a creation time. This time is generated by the clock of server that created entry * - the one on which the corresponding INSERT or ALTER query came. * * For the entries in the queue that the replica made for itself, * as the time will take the time of creation the appropriate part on any of the replicas. */ class StorageReplicatedMergeTree : public ext::shared_ptr_helper, public IStorage { public: void startup() override; void shutdown() override; ~StorageReplicatedMergeTree() override; std::string getName() const override { return "Replicated" + data.merging_params.getModeName() + "MergeTree"; } std::string getTableName() const override { return table_name; } bool supportsSampling() const override { return data.supportsSampling(); } bool supportsFinal() const override { return data.supportsFinal(); } bool supportsPrewhere() const override { return data.supportsPrewhere(); } bool supportsReplication() const override { return true; } bool supportsDeduplication() const override { return true; } const ColumnsDescription & getColumns() const override { return data.getColumns(); } void setColumns(ColumnsDescription columns_) override { return data.setColumns(std::move(columns_)); } NameAndTypePair getColumn(const String & column_name) const override { return data.getColumn(column_name); } bool hasColumn(const String & column_name) const override { return data.hasColumn(column_name); } BlockInputStreams read( const Names & column_names, const SelectQueryInfo & query_info, const Context & context, QueryProcessingStage::Enum & processed_stage, size_t max_block_size, unsigned num_streams) override; BlockOutputStreamPtr write(const ASTPtr & query, const Settings & settings) override; bool optimize(const ASTPtr & query, const ASTPtr & partition, bool final, bool deduplicate, const Context & context) override; void alter(const AlterCommands & params, const String & database_name, const String & table_name, const Context & context) override; void clearColumnInPartition(const ASTPtr & partition, const Field & column_name, const Context & context) override; void dropPartition(const ASTPtr & query, const ASTPtr & partition, bool detach, const Context & context) override; void attachPartition(const ASTPtr & partition, bool part, const Context & context) override; void replacePartitionFrom(const StoragePtr & source_table, const ASTPtr & partition, bool replace, const Context & context) override; void fetchPartition(const ASTPtr & partition, const String & from, const Context & context) override; void freezePartition(const ASTPtr & partition, const String & with_name, const Context & context) override; void mutate(const MutationCommands & commands, const Context & context) override; std::vector getMutationsStatus() const; /** Removes a replica from ZooKeeper. If there are no other replicas, it deletes the entire table from ZooKeeper. */ void drop() override; void truncate(const ASTPtr &) override; void rename(const String & new_path_to_db, const String & new_database_name, const String & new_table_name) override; bool supportsIndexForIn() const override { return true; } bool mayBenefitFromIndexForIn(const ASTPtr & left_in_operand) const override { return data.mayBenefitFromIndexForIn(left_in_operand); } bool checkTableCanBeDropped() const override; ActionLock getActionLock(StorageActionBlockType action_type) override; /// Wait when replication queue size becomes less or equal than queue_size /// If timeout is exceeded returns false bool waitForShrinkingQueueSize(size_t queue_size = 0, UInt64 max_wait_milliseconds = 0); MergeTreeData & getData() { return data; } const MergeTreeData & getData() const { return data; } /** For the system table replicas. */ struct Status { bool is_leader; bool is_readonly; bool is_session_expired; ReplicatedMergeTreeQueue::Status queue; UInt32 parts_to_check; String zookeeper_path; String replica_name; String replica_path; Int32 columns_version; UInt64 log_max_index; UInt64 log_pointer; UInt64 absolute_delay; UInt8 total_replicas; UInt8 active_replicas; }; /// Get the status of the table. If with_zk_fields = false - do not fill in the fields that require queries to ZK. void getStatus(Status & res, bool with_zk_fields = true); using LogEntriesData = std::vector; void getQueue(LogEntriesData & res, String & replica_name); /// Get replica delay relative to current time. time_t getAbsoluteDelay() const; /// If the absolute delay is greater than min_relative_delay_to_yield_leadership, /// will also calculate the difference from the unprocessed time of the best replica. /// NOTE: Will communicate to ZooKeeper to calculate relative delay. void getReplicaDelays(time_t & out_absolute_delay, time_t & out_relative_delay); /// Add a part to the queue of parts whose data you want to check in the background thread. void enqueuePartForCheck(const String & part_name, time_t delay_to_check_seconds = 0) { part_check_thread.enqueuePart(part_name, delay_to_check_seconds); } String getDataPath() const override { return full_path; } private: /// Delete old parts from disk and from ZooKeeper. void clearOldPartsAndRemoveFromZK(); friend class ReplicatedMergeTreeBlockOutputStream; friend class ReplicatedMergeTreeRestartingThread; friend class ReplicatedMergeTreePartCheckThread; friend class ReplicatedMergeTreeCleanupThread; friend class ReplicatedMergeTreeAlterThread; friend class ReplicatedMergeTreeRestartingThread; friend struct ReplicatedMergeTreeLogEntry; friend class ScopedPartitionMergeLock; friend class ReplicatedMergeTreeQueue; friend class MergeTreeData; using LogEntry = ReplicatedMergeTreeLogEntry; using LogEntryPtr = LogEntry::Ptr; Context & context; zkutil::ZooKeeperPtr current_zookeeper; /// Use only the methods below. std::mutex current_zookeeper_mutex; /// To recreate the session in the background thread. zkutil::ZooKeeperPtr tryGetZooKeeper(); zkutil::ZooKeeperPtr getZooKeeper(); void setZooKeeper(zkutil::ZooKeeperPtr zookeeper); /// If true, the table is offline and can not be written to it. std::atomic_bool is_readonly {false}; String database_name; String table_name; String full_path; String zookeeper_path; String replica_name; String replica_path; /** /replicas/me/is_active. */ zkutil::EphemeralNodeHolderPtr replica_is_active_node; /** Version node /columns in ZooKeeper corresponding to the current data.columns. * Read and modify along with the data.columns - under TableStructureLock. */ int columns_version = -1; /** Is this replica "leading". The leader replica selects the parts to merge. */ std::atomic is_leader {false}; zkutil::LeaderElectionPtr leader_election; InterserverIOEndpointHolderPtr data_parts_exchange_endpoint_holder; MergeTreeData data; MergeTreeDataSelectExecutor reader; MergeTreeDataWriter writer; MergeTreeDataMergerMutator merger_mutator; /** The queue of what needs to be done on this replica to catch up with everyone. It is taken from ZooKeeper (/replicas/me/queue/). * In ZK entries in chronological order. Here it is not necessary. */ ReplicatedMergeTreeQueue queue; std::atomic last_queue_update_start_time{0}; std::atomic last_queue_update_finish_time{0}; DataPartsExchange::Fetcher fetcher; /// When activated, replica is initialized and startup() method could exit Poco::Event startup_event; /// Do I need to complete background threads (except restarting_thread)? std::atomic partial_shutdown_called {false}; /// Event that is signalled (and is reset) by the restarting_thread when the ZooKeeper session expires. Poco::Event partial_shutdown_event {Poco::Event::EVENT_MANUALRESET}; /// Limiting parallel fetches per one table std::atomic_uint current_table_fetches {0}; /// Threads. /// A task that keeps track of the updates in the logs of all replicas and loads them into the queue. bool queue_update_in_progress = false; BackgroundSchedulePool::TaskHolder queue_updating_task; BackgroundSchedulePool::TaskHolder mutations_updating_task; /// A task that performs actions from the queue. BackgroundProcessingPool::TaskHandle queue_task_handle; /// A task that selects parts to merge. BackgroundSchedulePool::TaskHolder merge_selecting_task; /// It is acquired for each iteration of the selection of parts to merge or each OPTIMIZE query. std::mutex merge_selecting_mutex; /// A task that marks finished mutations as done. BackgroundSchedulePool::TaskHolder mutations_finalizing_task; /// A thread that removes old parts, log entries, and blocks. ReplicatedMergeTreeCleanupThread cleanup_thread; /// A thread monitoring changes to the column list in ZooKeeper and updating the parts in accordance with these changes. ReplicatedMergeTreeAlterThread alter_thread; /// A thread that checks the data of the parts, as well as the queue of the parts to be checked. ReplicatedMergeTreePartCheckThread part_check_thread; /// A thread that processes reconnection to ZooKeeper when the session expires. std::unique_ptr restarting_thread; /// An event that awakens `alter` method from waiting for the completion of the ALTER query. zkutil::EventPtr alter_query_event = std::make_shared(); Logger * log; /** Creates the minimum set of nodes in ZooKeeper. */ void createTableIfNotExists(); /** Creates a replica in ZooKeeper and adds to the queue all that it takes to catch up with the rest of the replicas. */ void createReplica(); /** Create nodes in the ZK, which must always be, but which might not exist when older versions of the server are running. */ void createNewZooKeeperNodes(); /** Verify that the list of columns and table settings match those specified in ZK (/metadata). * If not, throw an exception. */ void checkTableStructure(bool skip_sanity_checks, bool allow_alter); /** Check that the set of parts corresponds to that in ZK (/replicas/me/parts/). * If any parts described in ZK are not locally, throw an exception. * If any local parts are not mentioned in ZK, remove them. * But if there are too many, throw an exception just in case - it's probably a configuration error. */ void checkParts(bool skip_sanity_checks); /** Check that the part's checksum is the same as the checksum of the same part on some other replica. * If no one has such a part, nothing checks. * Not very reliable: if two replicas add a part almost at the same time, no checks will occur. * Adds actions to `ops` that add data about the part into ZooKeeper. * Call under TableStructureLock. */ void checkPartChecksumsAndAddCommitOps(const zkutil::ZooKeeperPtr & zookeeper, const MergeTreeData::DataPartPtr & part, zkutil::Requests & ops, String part_name = "", NameSet * absent_replicas_paths = nullptr); String getChecksumsForZooKeeper(const MergeTreeDataPartChecksums & checksums) const; /// Accepts a PreComitted part, atomically checks its checksums with ones on other replicas and commit the part MergeTreeData::DataPartsVector checkPartChecksumsAndCommit(MergeTreeData::Transaction & transaction, const MergeTreeData::DataPartPtr & part); void getCommitPartOps( zkutil::Requests & ops, MergeTreeData::MutableDataPartPtr & part, const String & block_id_path = "") const; /// Adds actions to `ops` that remove a part from ZooKeeper. void removePartFromZooKeeper(const String & part_name, zkutil::Requests & ops); /// Quickly removes big set of parts from ZooKeeper (using async multi queries) void removePartsFromZooKeeper(zkutil::ZooKeeperPtr & zookeeper, const Strings & part_names, NameSet * parts_should_be_retried = nullptr); bool tryRemovePartsFromZooKeeperWithRetries(const Strings & part_names, size_t max_retries = 5); bool tryRemovePartsFromZooKeeperWithRetries(MergeTreeData::DataPartsVector & parts, size_t max_retries = 5); /// Removes a part from ZooKeeper and adds a task to the queue to download it. It is supposed to do this with broken parts. void removePartAndEnqueueFetch(const String & part_name); /// Running jobs from the queue. /** Execute the action from the queue. Throws an exception if something is wrong. * Returns whether or not it succeeds. If it did not work, write it to the end of the queue. */ bool executeLogEntry(LogEntry & entry); void writePartLog( PartLogElement::Type type, const ExecutionStatus & execution_status, UInt64 elapsed_ns, const String & new_part_name, const MergeTreeData::DataPartPtr & result_part, const MergeTreeData::DataPartsVector & source_parts, const MergeListEntry * merge_entry) const; void executeDropRange(const LogEntry & entry); /// Do the merge or recommend to make the fetch instead of the merge bool tryExecuteMerge(const LogEntry & entry); bool tryExecutePartMutation(const LogEntry & entry); bool executeFetch(LogEntry & entry); void executeClearColumnInPartition(const LogEntry & entry); bool executeReplaceRange(const LogEntry & entry); /** Updates the queue. */ void queueUpdatingTask(); void mutationsUpdatingTask(); /** Performs actions from the queue. */ bool queueTask(); /// Postcondition: /// either leader_election is fully initialized (node in ZK is created and the watching thread is launched) /// or an exception is thrown and leader_election is destroyed. void enterLeaderElection(); /// Postcondition: /// is_leader is false, merge_selecting_thread is stopped, leader_election is nullptr. /// leader_election node in ZK is either deleted, or the session is marked expired. void exitLeaderElection(); /** Selects the parts to merge and writes to the log. */ void mergeSelectingTask(); /// Checks if some mutations are done and marks them as done. void mutationsFinalizingTask(); /** Write the selected parts to merge into the log, * Call when merge_selecting_mutex is locked. * Returns false if any part is not in ZK. */ bool createLogEntryToMergeParts( zkutil::ZooKeeperPtr & zookeeper, const MergeTreeData::DataPartsVector & parts, const String & merged_name, bool deduplicate, ReplicatedMergeTreeLogEntryData * out_log_entry = nullptr); bool createLogEntryToMutatePart(const MergeTreeDataPart & part, Int64 mutation_version); /// Exchange parts. /** Returns an empty string if no one has a part. */ String findReplicaHavingPart(const String & part_name, bool active); /** Find replica having specified part or any part that covers it. * If active = true, consider only active replicas. * If found, returns replica name and set 'entry->actual_new_part_name' to name of found largest covering part. * If not found, returns empty string. */ String findReplicaHavingCoveringPart(LogEntry & entry, bool active); String findReplicaHavingCoveringPart(const String & part_name, bool active, String & found_part_name); /** Download the specified part from the specified replica. * If `to_detached`, the part is placed in the `detached` directory. * If quorum != 0, then the node for tracking the quorum is updated. * Returns false if part is already fetching right now. */ bool fetchPart(const String & part_name, const String & replica_path, bool to_detached, size_t quorum); /// Required only to avoid races between executeLogEntry and fetchPartition std::unordered_set currently_fetching_parts; std::mutex currently_fetching_parts_mutex; /// With the quorum being tracked, add a replica to the quorum for the part. void updateQuorum(const String & part_name); /// Creates new block number if block with such block_id does not exist std::optional allocateBlockNumber( const String & partition_id, zkutil::ZooKeeperPtr & zookeeper, const String & zookeeper_block_id_path = ""); /** Wait until all replicas, including this, execute the specified action from the log. * If replicas are added at the same time, it can not wait the added replica . */ void waitForAllReplicasToProcessLogEntry(const ReplicatedMergeTreeLogEntryData & entry); /** Wait until the specified replica executes the specified action from the log. */ void waitForReplicaToProcessLogEntry(const String & replica_name, const ReplicatedMergeTreeLogEntryData & entry); /// Choose leader replica, send requst to it and wait. void sendRequestToLeaderReplica(const ASTPtr & query, const Settings & settings); /// Throw an exception if the table is readonly. void assertNotReadonly() const; /// Produce an imaginary part info covering all parts in the specified partition (at the call moment). /// Returns false if the partition doesn't exist yet. bool getFakePartCoveringAllPartsInPartition(const String & partition_id, MergeTreePartInfo & part_info); /// Check for a node in ZK. If it is, remember this information, and then immediately answer true. std::unordered_set existing_nodes_cache; std::mutex existing_nodes_cache_mutex; bool existsNodeCached(const std::string & path); /// Remove block IDs from `blocks/` in ZooKeeper for the given partition ID in the given block number range. void clearBlocksInPartition( zkutil::ZooKeeper & zookeeper, const String & partition_id, Int64 min_block_num, Int64 max_block_num); /// Info about how other replicas can access this one. ReplicatedMergeTreeAddress getReplicatedMergeTreeAddress() const; bool dropPartsInPartition(zkutil::ZooKeeper & zookeeper, String & partition_id, StorageReplicatedMergeTree::LogEntry & entry, bool detach); protected: /** If not 'attach', either creates a new table in ZK, or adds a replica to an existing table. */ StorageReplicatedMergeTree( const String & zookeeper_path_, const String & replica_name_, bool attach, const String & path_, const String & database_name_, const String & name_, const ColumnsDescription & columns_, Context & context_, const ASTPtr & primary_expr_ast_, const ASTPtr & secondary_sorting_expr_list_, const String & date_column_name, const ASTPtr & partition_expr_ast_, const ASTPtr & sampling_expression_, const MergeTreeData::MergingParams & merging_params_, const MergeTreeSettings & settings_, bool has_force_restore_data_flag); }; extern const int MAX_AGE_OF_LOCAL_PART_THAT_WASNT_ADDED_TO_ZOOKEEPER; }