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287 lines
12 KiB
C++
287 lines
12 KiB
C++
#pragma once
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#include <Storages/IStorage.h>
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#include <Storages/IStorageCluster.h>
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#include <Storages/Distributed/DistributedAsyncInsertDirectoryQueue.h>
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#include <Storages/Distributed/DistributedSettings.h>
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#include <Storages/getStructureOfRemoteTable.h>
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#include <Common/SimpleIncrement.h>
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#include <Client/ConnectionPool.h>
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#include <Client/ConnectionPoolWithFailover.h>
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#include <Common/ActionBlocker.h>
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#include <Interpreters/Cluster.h>
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#include <pcg_random.hpp>
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namespace DB
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{
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struct Settings;
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class Context;
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class IVolume;
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using VolumePtr = std::shared_ptr<IVolume>;
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class IDisk;
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using DiskPtr = std::shared_ptr<IDisk>;
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class ExpressionActions;
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using ExpressionActionsPtr = std::shared_ptr<ExpressionActions>;
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struct TreeRewriterResult;
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using TreeRewriterResultPtr = std::shared_ptr<const TreeRewriterResult>;
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/** A distributed table that resides on multiple servers.
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* Uses data from the specified database and tables on each server.
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*
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* You can pass one address, not several.
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* In this case, the table can be considered remote, rather than distributed.
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*/
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class StorageDistributed final : public IStorage, WithContext
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{
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friend class DistributedSink;
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friend class DistributedAsyncInsertBatch;
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friend class DistributedAsyncInsertDirectoryQueue;
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friend class StorageSystemDistributionQueue;
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public:
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StorageDistributed(
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const StorageID & id_,
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const ColumnsDescription & columns_,
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const ConstraintsDescription & constraints_,
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const String & comment,
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const String & remote_database_,
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const String & remote_table_,
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const String & cluster_name_,
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ContextPtr context_,
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const ASTPtr & sharding_key_,
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const String & storage_policy_name_,
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const String & relative_data_path_,
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const DistributedSettings & distributed_settings_,
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bool attach_,
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ClusterPtr owned_cluster_ = {},
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ASTPtr remote_table_function_ptr_ = {});
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StorageDistributed(
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const StorageID & id_,
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const ColumnsDescription & columns_,
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const ConstraintsDescription & constraints_,
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ASTPtr remote_table_function_ptr_,
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const String & cluster_name_,
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ContextPtr context_,
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const ASTPtr & sharding_key_,
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const String & storage_policy_name_,
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const String & relative_data_path_,
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const DistributedSettings & distributed_settings_,
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bool attach,
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ClusterPtr owned_cluster_ = {});
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~StorageDistributed() override;
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std::string getName() const override { return "Distributed"; }
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bool supportsSampling() const override { return true; }
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bool supportsFinal() const override { return true; }
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bool supportsPrewhere() const override { return true; }
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bool supportsSubcolumns() const override { return true; }
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bool supportsDynamicSubcolumns() const override { return true; }
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StoragePolicyPtr getStoragePolicy() const override;
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/// Do not apply moving to PREWHERE optimization for distributed tables,
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/// because we can't be sure that underlying table supports PREWHERE.
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bool canMoveConditionsToPrewhere() const override { return false; }
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bool isRemote() const override { return true; }
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/// Snapshot for StorageDistributed contains descriptions
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/// of columns of type Object for each shard at the moment
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/// of the start of query.
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struct SnapshotData : public StorageSnapshot::Data
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{
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ColumnsDescriptionByShardNum objects_by_shard;
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};
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StorageSnapshotPtr getStorageSnapshot(const StorageMetadataPtr & metadata_snapshot, ContextPtr query_context) const override;
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StorageSnapshotPtr getStorageSnapshotForQuery(
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const StorageMetadataPtr & metadata_snapshot, const ASTPtr & query, ContextPtr query_context) const override;
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QueryProcessingStage::Enum
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getQueryProcessingStage(ContextPtr, QueryProcessingStage::Enum, const StorageSnapshotPtr &, SelectQueryInfo &) const override;
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void read(
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QueryPlan & query_plan,
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const Names & column_names,
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const StorageSnapshotPtr & storage_snapshot,
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SelectQueryInfo & query_info,
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ContextPtr context,
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QueryProcessingStage::Enum processed_stage,
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size_t /*max_block_size*/,
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size_t /*num_streams*/) override;
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bool supportsParallelInsert() const override { return true; }
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std::optional<UInt64> totalBytes(const Settings &) const override;
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SinkToStoragePtr write(const ASTPtr & query, const StorageMetadataPtr & /*metadata_snapshot*/, ContextPtr context, bool /*async_insert*/) override;
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std::optional<QueryPipeline> distributedWrite(const ASTInsertQuery & query, ContextPtr context) override;
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/// Removes temporary data in local filesystem.
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void truncate(const ASTPtr &, const StorageMetadataPtr &, ContextPtr, TableExclusiveLockHolder &) override;
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void rename(const String & new_path_to_table_data, const StorageID & new_table_id) override;
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void checkAlterIsPossible(const AlterCommands & commands, ContextPtr context) const override;
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/// in the sub-tables, you need to manually add and delete columns
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/// the structure of the sub-table is not checked
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void alter(const AlterCommands & params, ContextPtr context, AlterLockHolder & table_lock_holder) override;
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void initializeFromDisk();
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void shutdown(bool is_drop) override;
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void flushAndPrepareForShutdown() override;
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void drop() override;
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bool storesDataOnDisk() const override { return data_volume != nullptr; }
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Strings getDataPaths() const override;
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ActionLock getActionLock(StorageActionBlockType type) override;
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NamesAndTypesList getVirtuals() const override;
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/// Used by InterpreterInsertQuery
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std::string getRemoteDatabaseName() const { return remote_database; }
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std::string getRemoteTableName() const { return remote_table; }
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ClusterPtr getCluster() const;
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/// Used by InterpreterSystemQuery
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void flushClusterNodesAllData(ContextPtr context);
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/// Used by ClusterCopier
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size_t getShardCount() const;
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bool initializeDiskOnConfigChange(const std::set<String> & new_added_disks) override;
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private:
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void renameOnDisk(const String & new_path_to_table_data);
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const ExpressionActionsPtr & getShardingKeyExpr() const { return sharding_key_expr; }
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const String & getShardingKeyColumnName() const { return sharding_key_column_name; }
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const String & getRelativeDataPath() const { return relative_data_path; }
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/// create directory monitors for each existing subdirectory
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void initializeDirectoryQueuesForDisk(const DiskPtr & disk);
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/// Get directory queue thread and connection pool created by disk and subdirectory name
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///
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/// Used for the INSERT into Distributed in case of distributed_foreground_insert==1, from DistributedSink.
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DistributedAsyncInsertDirectoryQueue & getDirectoryQueue(const DiskPtr & disk, const std::string & name);
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/// Parse the address corresponding to the directory name of the directory queue
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Cluster::Addresses parseAddresses(const std::string & name) const;
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/// Return list of metrics for all created monitors
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/// (note that monitors are created lazily, i.e. until at least one INSERT executed)
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///
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/// Used by StorageSystemDistributionQueue
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std::vector<DistributedAsyncInsertDirectoryQueue::Status> getDirectoryQueueStatuses() const;
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static IColumn::Selector createSelector(ClusterPtr cluster, const ColumnWithTypeAndName & result);
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/// Apply the following settings:
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/// - optimize_skip_unused_shards
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/// - force_optimize_skip_unused_shards
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ClusterPtr getOptimizedCluster(
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ContextPtr local_context,
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const StorageSnapshotPtr & storage_snapshot,
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const SelectQueryInfo & query_info,
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const TreeRewriterResultPtr & syntax_analyzer_result) const;
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ClusterPtr skipUnusedShards(
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ClusterPtr cluster,
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const SelectQueryInfo & query_info,
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const TreeRewriterResultPtr & syntax_analyzer_result,
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const StorageSnapshotPtr & storage_snapshot,
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ContextPtr context) const;
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ClusterPtr skipUnusedShardsWithAnalyzer(
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ClusterPtr cluster, const SelectQueryInfo & query_info, const StorageSnapshotPtr & storage_snapshot, ContextPtr context) const;
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/// This method returns optimal query processing stage.
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///
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/// Here is the list of stages (from the less optimal to more optimal):
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/// - WithMergeableState
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/// - WithMergeableStateAfterAggregation
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/// - WithMergeableStateAfterAggregationAndLimit
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/// - Complete
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///
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/// Some simple queries without GROUP BY/DISTINCT can use more optimal stage.
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///
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/// Also in case of optimize_distributed_group_by_sharding_key=1 the queries
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/// with GROUP BY/DISTINCT sharding_key can also use more optimal stage.
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/// (see also optimize_skip_unused_shards/allow_nondeterministic_optimize_skip_unused_shards)
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///
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/// @return QueryProcessingStage or empty std::optoinal
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/// (in this case regular WithMergeableState should be used)
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std::optional<QueryProcessingStage::Enum> getOptimizedQueryProcessingStage(const SelectQueryInfo & query_info, const Settings & settings) const;
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std::optional<QueryProcessingStage::Enum> getOptimizedQueryProcessingStageAnalyzer(const SelectQueryInfo & query_info, const Settings & settings) const;
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size_t getRandomShardIndex(const Cluster::ShardsInfo & shards);
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std::string getClusterName() const { return cluster_name.empty() ? "<remote>" : cluster_name; }
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const DistributedSettings & getDistributedSettingsRef() const { return distributed_settings; }
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void delayInsertOrThrowIfNeeded() const;
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std::optional<QueryPipeline> distributedWriteFromClusterStorage(const IStorageCluster & src_storage_cluster, const ASTInsertQuery & query, ContextPtr context) const;
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std::optional<QueryPipeline> distributedWriteBetweenDistributedTables(const StorageDistributed & src_distributed, const ASTInsertQuery & query, ContextPtr context) const;
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String remote_database;
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String remote_table;
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ASTPtr remote_table_function_ptr;
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Poco::Logger * log;
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/// Used to implement TableFunctionRemote.
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std::shared_ptr<Cluster> owned_cluster;
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/// Is empty if this storage implements TableFunctionRemote.
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const String cluster_name;
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bool has_sharding_key;
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bool sharding_key_is_deterministic = false;
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ExpressionActionsPtr sharding_key_expr;
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String sharding_key_column_name;
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/// Used for global monotonic ordering of files to send.
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SimpleIncrement file_names_increment;
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ActionBlocker async_insert_blocker;
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String relative_data_path;
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/// Can be empty if relative_data_path is empty. In this case, a directory for the data to be sent is not created.
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StoragePolicyPtr storage_policy;
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/// The main volume to store data.
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/// Storage policy may have several configured volumes, but second and other volumes are used for parts movement in MergeTree engine.
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/// For Distributed engine such configuration doesn't make sense and only the first (main) volume will be used to store data.
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/// Other volumes will be ignored. It's needed to allow using the same multi-volume policy both for Distributed and other engines.
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VolumePtr data_volume;
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DistributedSettings distributed_settings;
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struct ClusterNodeData
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{
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std::shared_ptr<DistributedAsyncInsertDirectoryQueue> directory_queue;
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ConnectionPoolPtr connection_pool;
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Cluster::Addresses addresses;
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size_t clusters_version;
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};
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std::unordered_map<std::string, ClusterNodeData> cluster_nodes_data;
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mutable std::mutex cluster_nodes_mutex;
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// For random shard index generation
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mutable std::mutex rng_mutex;
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pcg64 rng;
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};
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}
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