#pragma once #include #include #include #include #include #include #include #include #include #include namespace DB { class Context; class StorageDistributedDirectoryMonitor; /** A distributed table that resides on multiple servers. * Uses data from the specified database and tables on each server. * * You can pass one address, not several. * In this case, the table can be considered remote, rather than distributed. */ class StorageDistributed : public ext::shared_ptr_helper, public IStorage { friend class DistributedBlockOutputStream; friend class StorageDistributedDirectoryMonitor; public: ~StorageDistributed() override; static StoragePtr createWithOwnCluster( const std::string & table_name_, const ColumnsDescription & columns_, const String & remote_database_, /// database on remote servers. const String & remote_table_, /// The name of the table on the remote servers. ClusterPtr owned_cluster_, const Context & context_); static StoragePtr createWithOwnCluster( const std::string & table_name_, const ColumnsDescription & columns_, ASTPtr & remote_table_function_ptr_, /// Table function ptr. ClusterPtr & owned_cluster_, const Context & context_); std::string getName() const override { return "Distributed"; } std::string getTableName() const override { return table_name; } bool supportsSampling() const override { return true; } bool supportsFinal() const override { return true; } bool supportsPrewhere() const override { return true; } NameAndTypePair getColumn(const String & column_name) const override; bool hasColumn(const String & column_name) const override; bool isRemote() const override { return true; } QueryProcessingStage::Enum getQueryProcessingStage(const Context & context) const override; QueryProcessingStage::Enum getQueryProcessingStage(const Context & context, const ClusterPtr & cluster) const; 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 Context & context) override; void drop() override {} /// Removes temporary data in local filesystem. void truncate(const ASTPtr &, const Context &) override; void rename(const String & /*new_path_to_db*/, const String & /*new_database_name*/, const String & new_table_name) override { table_name = new_table_name; } /// in the sub-tables, you need to manually add and delete columns /// the structure of the sub-table is not checked void alter( const AlterCommands & params, const String & database_name, const String & table_name, const Context & context, TableStructureWriteLockHolder & table_lock_holder) override; void startup() override; void shutdown() override; String getDataPath() const override { return path; } const ExpressionActionsPtr & getShardingKeyExpr() const { return sharding_key_expr; } const String & getShardingKeyColumnName() const { return sharding_key_column_name; } size_t getShardCount() const; const String & getPath() const { return path; } std::string getRemoteDatabaseName() const { return remote_database; } std::string getRemoteTableName() const { return remote_table; } std::string getClusterName() const { return cluster_name; } /// Returns empty string if tables is used by TableFunctionRemote /// create directory monitors for each existing subdirectory void createDirectoryMonitors(); /// ensure directory monitor thread creation by subdirectory name void requireDirectoryMonitor(const std::string & name); /// ensure connection pool creation and return it ConnectionPoolPtr requireConnectionPool(const std::string & name); ClusterPtr getCluster() const; String table_name; String remote_database; String remote_table; ASTPtr remote_table_function_ptr; Context global_context; Logger * log = &Logger::get("StorageDistributed"); /// Used to implement TableFunctionRemote. std::shared_ptr owned_cluster; /// Is empty if this storage implements TableFunctionRemote. const String cluster_name; bool has_sharding_key; ExpressionActionsPtr sharding_key_expr; String sharding_key_column_name; String path; /// Can be empty if data_path_ is empty. In this case, a directory for the data to be sent is not created. struct ClusterNodeData { std::unique_ptr directory_monitor; ConnectionPoolPtr conneciton_pool; /// Creates connection_pool if not exists. void requireConnectionPool(const std::string & name, const StorageDistributed & storage); /// Creates directory_monitor if not exists. void requireDirectoryMonitor(const std::string & name, StorageDistributed & storage); void shutdownAndDropAllData(); }; std::unordered_map cluster_nodes_data; std::mutex cluster_nodes_mutex; /// Used for global monotonic ordering of files to send. SimpleIncrement file_names_increment; protected: StorageDistributed( const String & database_name, const String & table_name_, const ColumnsDescription & columns_, const String & remote_database_, const String & remote_table_, const String & cluster_name_, const Context & context_, const ASTPtr & sharding_key_, const String & data_path_, bool attach); StorageDistributed( const String & database_name, const String & table_name_, const ColumnsDescription & columns_, ASTPtr remote_table_function_ptr_, const String & cluster_name_, const Context & context_, const ASTPtr & sharding_key_, const String & data_path_, bool attach); ClusterPtr skipUnusedShards(ClusterPtr cluster, const SelectQueryInfo & query_info); }; }