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# include <boost/range/algorithm_ext/erase.hpp>
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# include <Interpreters/InterpreterSelectQuery.h>
# include <Interpreters/InterpreterInsertQuery.h>
# include <Interpreters/InterpreterAlterQuery.h>
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# include <Interpreters/castColumn.h>
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# include <Interpreters/evaluateConstantExpression.h>
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# include <Processors/QueryPlan/AddingMissedStep.h>
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# include <DataStreams/IBlockInputStream.h>
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# include <Storages/StorageBuffer.h>
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# include <Storages/StorageFactory.h>
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# include <Storages/AlterCommands.h>
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# include <Parsers/ASTInsertQuery.h>
# include <Parsers/ASTIdentifier.h>
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# include <Parsers/ASTLiteral.h>
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# include <Parsers/ASTExpressionList.h>
# include <Common/CurrentMetrics.h>
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# include <Common/MemoryTracker.h>
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# include <Common/FieldVisitors.h>
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# include <Common/quoteString.h>
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# include <Common/typeid_cast.h>
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# include <Common/ProfileEvents.h>
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# include <common/logger_useful.h>
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# include <common/getThreadId.h>
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# include <ext/range.h>
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# include <Processors/QueryPlan/ConvertingStep.h>
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# include <Processors/Transforms/FilterTransform.h>
# include <Processors/Transforms/ExpressionTransform.h>
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# include <Processors/Sources/SourceFromInputStream.h>
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# include <Processors/QueryPlan/SettingQuotaAndLimitsStep.h>
# include <Processors/QueryPlan/ReadFromPreparedSource.h>
# include <Processors/QueryPlan/UnionStep.h>
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namespace ProfileEvents
{
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extern const Event StorageBufferFlush ;
extern const Event StorageBufferErrorOnFlush ;
extern const Event StorageBufferPassedAllMinThresholds ;
extern const Event StorageBufferPassedTimeMaxThreshold ;
extern const Event StorageBufferPassedRowsMaxThreshold ;
extern const Event StorageBufferPassedBytesMaxThreshold ;
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}
namespace CurrentMetrics
{
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extern const Metric StorageBufferRows ;
extern const Metric StorageBufferBytes ;
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}
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namespace DB
{
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namespace ErrorCodes
{
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extern const int BAD_ARGUMENTS ;
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extern const int NOT_IMPLEMENTED ;
extern const int LOGICAL_ERROR ;
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extern const int INFINITE_LOOP ;
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extern const int NUMBER_OF_ARGUMENTS_DOESNT_MATCH ;
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}
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StorageBuffer : : StorageBuffer (
const StorageID & table_id_ ,
const ColumnsDescription & columns_ ,
const ConstraintsDescription & constraints_ ,
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Context & context_ ,
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size_t num_shards_ ,
const Thresholds & min_thresholds_ ,
const Thresholds & max_thresholds_ ,
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const StorageID & destination_id_ ,
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bool allow_materialized_ )
: IStorage ( table_id_ )
, global_context ( context_ )
, num_shards ( num_shards_ ) , buffers ( num_shards_ )
, min_thresholds ( min_thresholds_ )
, max_thresholds ( max_thresholds_ )
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, destination_id ( destination_id_ )
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, allow_materialized ( allow_materialized_ )
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, log ( & Poco : : Logger : : get ( " StorageBuffer ( " + table_id_ . getFullTableName ( ) + " ) " ) )
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, bg_pool ( global_context . getBufferFlushSchedulePool ( ) )
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{
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StorageInMemoryMetadata storage_metadata ;
storage_metadata . setColumns ( columns_ ) ;
storage_metadata . setConstraints ( constraints_ ) ;
setInMemoryMetadata ( storage_metadata ) ;
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}
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/// Reads from one buffer (from one block) under its mutex.
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class BufferSource : public SourceWithProgress
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{
public :
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BufferSource ( const Names & column_names_ , StorageBuffer : : Buffer & buffer_ , const StorageBuffer & storage , const StorageMetadataPtr & metadata_snapshot )
: SourceWithProgress (
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metadata_snapshot - > getSampleBlockForColumns ( column_names_ , storage . getVirtuals ( ) , storage . getStorageID ( ) ) )
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, column_names ( column_names_ . begin ( ) , column_names_ . end ( ) )
, buffer ( buffer_ ) { }
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String getName ( ) const override { return " Buffer " ; }
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protected :
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Chunk generate ( ) override
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{
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Chunk res ;
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if ( has_been_read )
return res ;
has_been_read = true ;
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std : : lock_guard lock ( buffer . mutex ) ;
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if ( ! buffer . data . rows ( ) )
return res ;
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Columns columns ;
columns . reserve ( column_names . size ( ) ) ;
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for ( const auto & name : column_names )
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columns . push_back ( buffer . data . getByName ( name ) . column ) ;
UInt64 size = columns . at ( 0 ) - > size ( ) ;
res . setColumns ( std : : move ( columns ) , size ) ;
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return res ;
}
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private :
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Names column_names ;
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StorageBuffer : : Buffer & buffer ;
bool has_been_read = false ;
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} ;
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QueryProcessingStage : : Enum StorageBuffer : : getQueryProcessingStage ( const Context & context , QueryProcessingStage : : Enum to_stage , const ASTPtr & query_ptr ) const
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{
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if ( destination_id )
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{
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auto destination = DatabaseCatalog : : instance ( ) . getTable ( destination_id , context ) ;
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if ( destination . get ( ) = = this )
throw Exception ( " Destination table is myself. Read will cause infinite loop. " , ErrorCodes : : INFINITE_LOOP ) ;
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return destination - > getQueryProcessingStage ( context , to_stage , query_ptr ) ;
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}
return QueryProcessingStage : : FetchColumns ;
}
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Pipe StorageBuffer : : read (
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const Names & column_names ,
const StorageMetadataPtr & metadata_snapshot ,
const SelectQueryInfo & query_info ,
const Context & context ,
QueryProcessingStage : : Enum processed_stage ,
const size_t max_block_size ,
const unsigned num_streams )
{
QueryPlan plan ;
read ( plan , column_names , metadata_snapshot , query_info , context , processed_stage , max_block_size , num_streams ) ;
return QueryPipeline : : getPipe ( std : : move ( * plan . buildQueryPipeline ( ) ) ) ;
}
void StorageBuffer : : read (
QueryPlan & query_plan ,
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const Names & column_names ,
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const StorageMetadataPtr & metadata_snapshot ,
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const SelectQueryInfo & query_info ,
const Context & context ,
QueryProcessingStage : : Enum processed_stage ,
size_t max_block_size ,
unsigned num_streams )
{
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if ( destination_id )
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{
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auto destination = DatabaseCatalog : : instance ( ) . getTable ( destination_id , context ) ;
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if ( destination . get ( ) = = this )
throw Exception ( " Destination table is myself. Read will cause infinite loop. " , ErrorCodes : : INFINITE_LOOP ) ;
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auto destination_lock = destination - > lockForShare ( context . getCurrentQueryId ( ) , context . getSettingsRef ( ) . lock_acquire_timeout ) ;
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auto destination_metadata_snapshot = destination - > getInMemoryMetadataPtr ( ) ;
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const bool dst_has_same_structure = std : : all_of ( column_names . begin ( ) , column_names . end ( ) , [ metadata_snapshot , destination_metadata_snapshot ] ( const String & column_name )
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{
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const auto & dest_columns = destination_metadata_snapshot - > getColumns ( ) ;
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const auto & our_columns = metadata_snapshot - > getColumns ( ) ;
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return dest_columns . hasPhysical ( column_name ) & &
dest_columns . get ( column_name ) . type - > equals ( * our_columns . get ( column_name ) . type ) ;
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} ) ;
if ( dst_has_same_structure )
{
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if ( query_info . order_optimizer )
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query_info . input_order_info = query_info . order_optimizer - > getInputOrder ( destination , destination_metadata_snapshot ) ;
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/// The destination table has the same structure of the requested columns and we can simply read blocks from there.
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destination - > read (
query_plan , column_names , destination_metadata_snapshot , query_info ,
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context , processed_stage , max_block_size , num_streams ) ;
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}
else
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{
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/// There is a struct mismatch and we need to convert read blocks from the destination table.
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const Block header = metadata_snapshot - > getSampleBlock ( ) ;
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Names columns_intersection = column_names ;
Block header_after_adding_defaults = header ;
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const auto & dest_columns = destination_metadata_snapshot - > getColumns ( ) ;
const auto & our_columns = metadata_snapshot - > getColumns ( ) ;
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for ( const String & column_name : column_names )
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{
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if ( ! dest_columns . hasPhysical ( column_name ) )
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{
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LOG_WARNING ( log , " Destination table {} doesn't have column {}. The default values are used. " , destination_id . getNameForLogs ( ) , backQuoteIfNeed ( column_name ) ) ;
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boost : : range : : remove_erase ( columns_intersection , column_name ) ;
continue ;
}
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const auto & dst_col = dest_columns . getPhysical ( column_name ) ;
const auto & col = our_columns . getPhysical ( column_name ) ;
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if ( ! dst_col . type - > equals ( * col . type ) )
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{
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LOG_WARNING ( log , " Destination table {} has different type of column {} ({} != {}). Data from destination table are converted. " , destination_id . getNameForLogs ( ) , backQuoteIfNeed ( column_name ) , dst_col . type - > getName ( ) , col . type - > getName ( ) ) ;
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header_after_adding_defaults . getByName ( column_name ) = ColumnWithTypeAndName ( dst_col . type , column_name ) ;
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}
}
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if ( columns_intersection . empty ( ) )
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{
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LOG_WARNING ( log , " Destination table {} has no common columns with block in buffer. Block of data is skipped. " , destination_id . getNameForLogs ( ) ) ;
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}
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else
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{
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destination - > read (
query_plan , columns_intersection , destination_metadata_snapshot , query_info ,
context , processed_stage , max_block_size , num_streams ) ;
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if ( query_plan . isInitialized ( ) )
{
auto adding_missed = std : : make_unique < AddingMissedStep > (
query_plan . getCurrentDataStream ( ) ,
header_after_adding_defaults ,
metadata_snapshot - > getColumns ( ) . getDefaults ( ) , context ) ;
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adding_missed - > setStepDescription ( " Add columns missing in destination table " ) ;
query_plan . addStep ( std : : move ( adding_missed ) ) ;
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auto converting = std : : make_unique < ConvertingStep > (
query_plan . getCurrentDataStream ( ) ,
header ) ;
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converting - > setStepDescription ( " Convert destination table columns to Buffer table structure " ) ;
query_plan . addStep ( std : : move ( converting ) ) ;
}
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}
}
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if ( query_plan . isInitialized ( ) )
{
StreamLocalLimits limits ;
SizeLimits leaf_limits ;
/// Add table lock for destination table.
auto adding_limits_and_quota = std : : make_unique < SettingQuotaAndLimitsStep > (
query_plan . getCurrentDataStream ( ) ,
destination ,
std : : move ( destination_lock ) ,
limits ,
leaf_limits ,
nullptr ,
nullptr ) ;
adding_limits_and_quota - > setStepDescription ( " Lock destination table for Buffer " ) ;
query_plan . addStep ( std : : move ( adding_limits_and_quota ) ) ;
}
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}
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Pipe pipe_from_buffers ;
{
Pipes pipes_from_buffers ;
pipes_from_buffers . reserve ( num_shards ) ;
for ( auto & buf : buffers )
pipes_from_buffers . emplace_back ( std : : make_shared < BufferSource > ( column_names , buf , * this , metadata_snapshot ) ) ;
pipe_from_buffers = Pipe : : unitePipes ( std : : move ( pipes_from_buffers ) ) ;
}
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if ( pipe_from_buffers . empty ( ) )
return ;
QueryPlan buffers_plan ;
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/** If the sources from the table were processed before some non-initial stage of query execution,
* then sources from the buffers must also be wrapped in the processing pipeline before the same stage .
*/
if ( processed_stage > QueryProcessingStage : : FetchColumns )
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{
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auto interpreter = InterpreterSelectQuery (
query_info . query , context , std : : move ( pipe_from_buffers ) ,
SelectQueryOptions ( processed_stage ) ) ;
interpreter . buildQueryPlan ( buffers_plan ) ;
}
else
{
if ( query_info . prewhere_info )
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{
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pipe_from_buffers . addSimpleTransform ( [ & ] ( const Block & header )
{
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return std : : make_shared < FilterTransform > (
header , query_info . prewhere_info - > prewhere_actions ,
query_info . prewhere_info - > prewhere_column_name , query_info . prewhere_info - > remove_prewhere_column ) ;
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} ) ;
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if ( query_info . prewhere_info - > alias_actions )
{
pipe_from_buffers . addSimpleTransform ( [ & ] ( const Block & header )
{
return std : : make_shared < ExpressionTransform > ( header , query_info . prewhere_info - > alias_actions ) ;
} ) ;
}
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}
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auto read_from_buffers = std : : make_unique < ReadFromPreparedSource > ( std : : move ( pipe_from_buffers ) ) ;
read_from_buffers - > setStepDescription ( " Read from buffers of Buffer table " ) ;
buffers_plan . addStep ( std : : move ( read_from_buffers ) ) ;
}
if ( ! query_plan . isInitialized ( ) )
{
query_plan = std : : move ( buffers_plan ) ;
return ;
}
auto result_header = buffers_plan . getCurrentDataStream ( ) . header ;
/// Convert structure from table to structure from buffer.
if ( ! blocksHaveEqualStructure ( query_plan . getCurrentDataStream ( ) . header , result_header ) )
{
auto converting = std : : make_unique < ConvertingStep > ( query_plan . getCurrentDataStream ( ) , result_header ) ;
query_plan . addStep ( std : : move ( converting ) ) ;
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}
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DataStreams input_streams ;
input_streams . emplace_back ( query_plan . getCurrentDataStream ( ) ) ;
input_streams . emplace_back ( buffers_plan . getCurrentDataStream ( ) ) ;
std : : vector < std : : unique_ptr < QueryPlan > > plans ;
plans . emplace_back ( std : : make_unique < QueryPlan > ( std : : move ( query_plan ) ) ) ;
plans . emplace_back ( std : : make_unique < QueryPlan > ( std : : move ( buffers_plan ) ) ) ;
query_plan = QueryPlan ( ) ;
auto union_step = std : : make_unique < UnionStep > ( std : : move ( input_streams ) , result_header ) ;
union_step - > setStepDescription ( " Unite sources from Buffer table " ) ;
query_plan . unitePlans ( std : : move ( union_step ) , std : : move ( plans ) ) ;
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}
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static void appendBlock ( const Block & from , Block & to )
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{
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if ( ! to )
throw Exception ( " Cannot append to empty block " , ErrorCodes : : LOGICAL_ERROR ) ;
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assertBlocksHaveEqualStructure ( from , to , " Buffer " ) ;
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from . checkNumberOfRows ( ) ;
to . checkNumberOfRows ( ) ;
size_t rows = from . rows ( ) ;
size_t bytes = from . bytes ( ) ;
CurrentMetrics : : add ( CurrentMetrics : : StorageBufferRows , rows ) ;
CurrentMetrics : : add ( CurrentMetrics : : StorageBufferBytes , bytes ) ;
size_t old_rows = to . rows ( ) ;
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auto temporarily_disable_memory_tracker = getCurrentMemoryTrackerActionLock ( ) ;
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try
{
for ( size_t column_no = 0 , columns = to . columns ( ) ; column_no < columns ; + + column_no )
{
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const IColumn & col_from = * from . getByPosition ( column_no ) . column . get ( ) ;
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MutableColumnPtr col_to = IColumn : : mutate ( std : : move ( to . getByPosition ( column_no ) . column ) ) ;
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col_to - > insertRangeFrom ( col_from , 0 , rows ) ;
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to . getByPosition ( column_no ) . column = std : : move ( col_to ) ;
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}
}
catch ( . . . )
{
/// Rollback changes.
try
{
for ( size_t column_no = 0 , columns = to . columns ( ) ; column_no < columns ; + + column_no )
{
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ColumnPtr & col_to = to . getByPosition ( column_no ) . column ;
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if ( col_to - > size ( ) ! = old_rows )
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col_to = col_to - > cut ( 0 , old_rows ) ;
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}
}
catch ( . . . )
{
/// In case when we cannot rollback, do not leave incorrect state in memory.
std : : terminate ( ) ;
}
throw ;
}
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}
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class BufferBlockOutputStream : public IBlockOutputStream
{
public :
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explicit BufferBlockOutputStream (
StorageBuffer & storage_ ,
const StorageMetadataPtr & metadata_snapshot_ )
: storage ( storage_ )
, metadata_snapshot ( metadata_snapshot_ )
{ }
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Block getHeader ( ) const override { return metadata_snapshot - > getSampleBlock ( ) ; }
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void write ( const Block & block ) override
{
if ( ! block )
return ;
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// Check table structure.
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metadata_snapshot - > check ( block , true ) ;
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size_t rows = block . rows ( ) ;
if ( ! rows )
return ;
StoragePtr destination ;
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if ( storage . destination_id )
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{
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destination = DatabaseCatalog : : instance ( ) . tryGetTable ( storage . destination_id , storage . global_context ) ;
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if ( destination . get ( ) = = & storage )
throw Exception ( " Destination table is myself. Write will cause infinite loop. " , ErrorCodes : : INFINITE_LOOP ) ;
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}
size_t bytes = block . bytes ( ) ;
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storage . writes . rows + = rows ;
storage . writes . bytes + = bytes ;
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/// If the block already exceeds the maximum limit, then we skip the buffer.
if ( rows > storage . max_thresholds . rows | | bytes > storage . max_thresholds . bytes )
{
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if ( storage . destination_id )
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{
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LOG_TRACE ( storage . log , " Writing block with {} rows, {} bytes directly. " , rows , bytes ) ;
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storage . writeBlockToDestination ( block , destination ) ;
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}
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return ;
}
/// We distribute the load on the shards by the stream number.
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const auto start_shard_num = getThreadId ( ) % storage . num_shards ;
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/// We loop through the buffers, trying to lock mutex. No more than one lap.
auto shard_num = start_shard_num ;
StorageBuffer : : Buffer * least_busy_buffer = nullptr ;
std : : unique_lock < std : : mutex > least_busy_lock ;
size_t least_busy_shard_rows = 0 ;
for ( size_t try_no = 0 ; try_no < storage . num_shards ; + + try_no )
{
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std : : unique_lock lock ( storage . buffers [ shard_num ] . mutex , std : : try_to_lock ) ;
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if ( lock . owns_lock ( ) )
{
size_t num_rows = storage . buffers [ shard_num ] . data . rows ( ) ;
if ( ! least_busy_buffer | | num_rows < least_busy_shard_rows )
{
least_busy_buffer = & storage . buffers [ shard_num ] ;
least_busy_lock = std : : move ( lock ) ;
least_busy_shard_rows = num_rows ;
}
}
shard_num = ( shard_num + 1 ) % storage . num_shards ;
}
/// If you still can not lock anything at once, then we'll wait on mutex.
if ( ! least_busy_buffer )
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{
least_busy_buffer = & storage . buffers [ start_shard_num ] ;
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least_busy_lock = std : : unique_lock ( least_busy_buffer - > mutex ) ;
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}
insertIntoBuffer ( block , * least_busy_buffer ) ;
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least_busy_lock . unlock ( ) ;
storage . reschedule ( ) ;
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}
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private :
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StorageBuffer & storage ;
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StorageMetadataPtr metadata_snapshot ;
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void insertIntoBuffer ( const Block & block , StorageBuffer : : Buffer & buffer )
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{
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time_t current_time = time ( nullptr ) ;
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/// Sort the columns in the block. This is necessary to make it easier to concatenate the blocks later.
Block sorted_block = block . sortColumns ( ) ;
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if ( ! buffer . data )
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{
buffer . data = sorted_block . cloneEmpty ( ) ;
}
else if ( storage . checkThresholds ( buffer , current_time , sorted_block . rows ( ) , sorted_block . bytes ( ) ) )
{
/** If, after inserting the buffer, the constraints are exceeded, then we will reset the buffer.
* This also protects against unlimited consumption of RAM , since if it is impossible to write to the table ,
* an exception will be thrown , and new data will not be added to the buffer .
*/
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storage . flushBuffer ( buffer , false /* check_thresholds */ , true /* locked */ ) ;
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}
if ( ! buffer . first_write_time )
buffer . first_write_time = current_time ;
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appendBlock ( sorted_block , buffer . data ) ;
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}
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} ;
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BlockOutputStreamPtr StorageBuffer : : write ( const ASTPtr & /*query*/ , const StorageMetadataPtr & metadata_snapshot , const Context & /*context*/ )
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{
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return std : : make_shared < BufferBlockOutputStream > ( * this , metadata_snapshot ) ;
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}
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bool StorageBuffer : : mayBenefitFromIndexForIn (
const ASTPtr & left_in_operand , const Context & query_context , const StorageMetadataPtr & /*metadata_snapshot*/ ) const
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{
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if ( ! destination_id )
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return false ;
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auto destination = DatabaseCatalog : : instance ( ) . getTable ( destination_id , query_context ) ;
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if ( destination . get ( ) = = this )
throw Exception ( " Destination table is myself. Read will cause infinite loop. " , ErrorCodes : : INFINITE_LOOP ) ;
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return destination - > mayBenefitFromIndexForIn ( left_in_operand , query_context , destination - > getInMemoryMetadataPtr ( ) ) ;
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}
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void StorageBuffer : : startup ( )
{
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if ( global_context . getSettingsRef ( ) . readonly )
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{
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LOG_WARNING ( log , " Storage {} is run with readonly settings, it will not be able to insert data. Set appropriate system_profile to fix this. " , getName ( ) ) ;
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}
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flush_handle = bg_pool . createTask ( log - > name ( ) + " /Bg " , [ this ] { flushBack ( ) ; } ) ;
flush_handle - > activateAndSchedule ( ) ;
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}
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void StorageBuffer : : shutdown ( )
{
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if ( ! flush_handle )
return ;
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flush_handle - > deactivate ( ) ;
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try
{
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optimize ( nullptr /*query*/ , getInMemoryMetadataPtr ( ) , { } /*partition*/ , false /*final*/ , false /*deduplicate*/ , global_context ) ;
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}
catch ( . . . )
{
tryLogCurrentException ( __PRETTY_FUNCTION__ ) ;
}
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}
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/** NOTE If you do OPTIMIZE after insertion,
* it does not guarantee , that all data will be in destination table at the time of next SELECT just after OPTIMIZE .
*
* Because in case if there was already running flushBuffer method ,
* then call to flushBuffer inside OPTIMIZE will see empty buffer and return quickly ,
* but at the same time , the already running flushBuffer method possibly is not finished ,
* so next SELECT will observe missing data .
*
* This kind of race condition make very hard to implement proper tests .
*/
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bool StorageBuffer : : optimize (
const ASTPtr & /*query*/ ,
const StorageMetadataPtr & /*metadata_snapshot*/ ,
const ASTPtr & partition ,
bool final ,
bool deduplicate ,
const Context & /*context*/ )
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{
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if ( partition )
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throw Exception ( " Partition cannot be specified when optimizing table of type Buffer " , ErrorCodes : : NOT_IMPLEMENTED ) ;
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if ( final )
throw Exception ( " FINAL cannot be specified when optimizing table of type Buffer " , ErrorCodes : : NOT_IMPLEMENTED ) ;
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if ( deduplicate )
throw Exception ( " DEDUPLICATE cannot be specified when optimizing table of type Buffer " , ErrorCodes : : NOT_IMPLEMENTED ) ;
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flushAllBuffers ( false , true ) ;
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return true ;
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}
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bool StorageBuffer : : checkThresholds ( const Buffer & buffer , time_t current_time , size_t additional_rows , size_t additional_bytes ) const
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{
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time_t time_passed = 0 ;
if ( buffer . first_write_time )
time_passed = current_time - buffer . first_write_time ;
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size_t rows = buffer . data . rows ( ) + additional_rows ;
size_t bytes = buffer . data . bytes ( ) + additional_bytes ;
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return checkThresholdsImpl ( rows , bytes , time_passed ) ;
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}
bool StorageBuffer : : checkThresholdsImpl ( size_t rows , size_t bytes , time_t time_passed ) const
{
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if ( time_passed > min_thresholds . time & & rows > min_thresholds . rows & & bytes > min_thresholds . bytes )
{
ProfileEvents : : increment ( ProfileEvents : : StorageBufferPassedAllMinThresholds ) ;
return true ;
}
if ( time_passed > max_thresholds . time )
{
ProfileEvents : : increment ( ProfileEvents : : StorageBufferPassedTimeMaxThreshold ) ;
return true ;
}
if ( rows > max_thresholds . rows )
{
ProfileEvents : : increment ( ProfileEvents : : StorageBufferPassedRowsMaxThreshold ) ;
return true ;
}
if ( bytes > max_thresholds . bytes )
{
ProfileEvents : : increment ( ProfileEvents : : StorageBufferPassedBytesMaxThreshold ) ;
return true ;
}
return false ;
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}
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void StorageBuffer : : flushAllBuffers ( bool check_thresholds , bool reset_blocks_structure )
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{
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for ( auto & buf : buffers )
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flushBuffer ( buf , check_thresholds , false , reset_blocks_structure ) ;
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}
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void StorageBuffer : : flushBuffer ( Buffer & buffer , bool check_thresholds , bool locked , bool reset_block_structure )
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{
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Block block_to_write ;
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time_t current_time = time ( nullptr ) ;
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size_t rows = 0 ;
size_t bytes = 0 ;
time_t time_passed = 0 ;
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std : : unique_lock lock ( buffer . mutex , std : : defer_lock ) ;
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if ( ! locked )
lock . lock ( ) ;
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block_to_write = buffer . data . cloneEmpty ( ) ;
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rows = buffer . data . rows ( ) ;
bytes = buffer . data . bytes ( ) ;
if ( buffer . first_write_time )
time_passed = current_time - buffer . first_write_time ;
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if ( check_thresholds )
{
if ( ! checkThresholdsImpl ( rows , bytes , time_passed ) )
return ;
}
else
{
if ( rows = = 0 )
return ;
}
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buffer . data . swap ( block_to_write ) ;
buffer . first_write_time = 0 ;
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CurrentMetrics : : sub ( CurrentMetrics : : StorageBufferRows , block_to_write . rows ( ) ) ;
CurrentMetrics : : sub ( CurrentMetrics : : StorageBufferBytes , block_to_write . bytes ( ) ) ;
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ProfileEvents : : increment ( ProfileEvents : : StorageBufferFlush ) ;
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2020-05-23 22:24:01 +00:00
LOG_TRACE ( log , " Flushing buffer with {} rows, {} bytes, age {} seconds {}. " , rows , bytes , time_passed , ( check_thresholds ? " (bg) " : " (direct) " ) ) ;
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if ( ! destination_id )
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return ;
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/** For simplicity, buffer is locked during write.
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* We could unlock buffer temporary , but it would lead to too many difficulties :
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* - data , that is written , will not be visible for SELECTs ;
* - new data could be appended to buffer , and in case of exception , we must merge it with old data , that has not been written ;
* - this could lead to infinite memory growth .
*/
try
{
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writeBlockToDestination ( block_to_write , DatabaseCatalog : : instance ( ) . tryGetTable ( destination_id , global_context ) ) ;
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if ( reset_block_structure )
buffer . data . clear ( ) ;
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}
catch ( . . . )
{
ProfileEvents : : increment ( ProfileEvents : : StorageBufferErrorOnFlush ) ;
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/// Return the block to its place in the buffer.
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2017-09-07 21:04:48 +00:00
CurrentMetrics : : add ( CurrentMetrics : : StorageBufferRows , block_to_write . rows ( ) ) ;
CurrentMetrics : : add ( CurrentMetrics : : StorageBufferBytes , block_to_write . bytes ( ) ) ;
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buffer . data . swap ( block_to_write ) ;
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if ( ! buffer . first_write_time )
buffer . first_write_time = current_time ;
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/// After a while, the next write attempt will happen.
throw ;
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}
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}
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2014-10-27 04:18:13 +00:00
void StorageBuffer : : writeBlockToDestination ( const Block & block , StoragePtr table )
{
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if ( ! destination_id | | ! block )
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return ;
if ( ! table )
{
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LOG_ERROR ( log , " Destination table {} doesn't exist. Block of data is discarded. " , destination_id . getNameForLogs ( ) ) ;
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return ;
}
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auto destination_metadata_snapshot = table - > getInMemoryMetadataPtr ( ) ;
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2019-10-30 19:58:19 +00:00
auto temporarily_disable_memory_tracker = getCurrentMemoryTrackerActionLock ( ) ;
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auto insert = std : : make_shared < ASTInsertQuery > ( ) ;
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insert - > table_id = destination_id ;
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/** We will insert columns that are the intersection set of columns of the buffer table and the subordinate table.
* This will support some of the cases ( but not all ) when the table structure does not match .
*/
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Block structure_of_destination_table = allow_materialized ? destination_metadata_snapshot - > getSampleBlock ( )
: destination_metadata_snapshot - > getSampleBlockNonMaterialized ( ) ;
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Block block_to_write ;
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for ( size_t i : ext : : range ( 0 , structure_of_destination_table . columns ( ) ) )
{
auto dst_col = structure_of_destination_table . getByPosition ( i ) ;
if ( block . has ( dst_col . name ) )
{
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auto column = block . getByName ( dst_col . name ) ;
if ( ! column . type - > equals ( * dst_col . type ) )
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{
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LOG_WARNING ( log , " Destination table {} have different type of column {} ({} != {}). Block of data is converted. " , destination_id . getNameForLogs ( ) , backQuoteIfNeed ( column . name ) , dst_col . type - > getName ( ) , column . type - > getName ( ) ) ;
2020-04-14 21:05:45 +00:00
column . column = castColumn ( column , dst_col . type ) ;
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column . type = dst_col . type ;
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}
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block_to_write . insert ( column ) ;
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}
}
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if ( block_to_write . columns ( ) = = 0 )
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{
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LOG_ERROR ( log , " Destination table {} have no common columns with block in buffer. Block of data is discarded. " , destination_id . getNameForLogs ( ) ) ;
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return ;
}
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if ( block_to_write . columns ( ) ! = block . columns ( ) )
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LOG_WARNING ( log , " Not all columns from block in buffer exist in destination table {}. Some columns are discarded. " , destination_id . getNameForLogs ( ) ) ;
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auto list_of_columns = std : : make_shared < ASTExpressionList > ( ) ;
insert - > columns = list_of_columns ;
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list_of_columns - > children . reserve ( block_to_write . columns ( ) ) ;
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for ( const auto & column : block_to_write )
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list_of_columns - > children . push_back ( std : : make_shared < ASTIdentifier > ( column . name ) ) ;
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2020-07-06 17:24:33 +00:00
auto insert_context = Context ( global_context ) ;
insert_context . makeQueryContext ( ) ;
InterpreterInsertQuery interpreter { insert , insert_context , allow_materialized } ;
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auto block_io = interpreter . execute ( ) ;
block_io . out - > writePrefix ( ) ;
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block_io . out - > write ( block_to_write ) ;
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block_io . out - > writeSuffix ( ) ;
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}
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void StorageBuffer : : flushBack ( )
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{
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try
{
flushAllBuffers ( true ) ;
}
catch ( . . . )
{
tryLogCurrentException ( __PRETTY_FUNCTION__ ) ;
}
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2020-04-16 07:48:49 +00:00
reschedule ( ) ;
}
void StorageBuffer : : reschedule ( )
{
time_t min_first_write_time = std : : numeric_limits < time_t > : : max ( ) ;
time_t rows = 0 ;
for ( auto & buffer : buffers )
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{
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std : : lock_guard lock ( buffer . mutex ) ;
min_first_write_time = buffer . first_write_time ;
rows + = buffer . data . rows ( ) ;
}
/// will be rescheduled via INSERT
if ( ! rows )
return ;
time_t current_time = time ( nullptr ) ;
time_t time_passed = current_time - min_first_write_time ;
size_t min = std : : max < ssize_t > ( min_thresholds . time - time_passed , 1 ) ;
size_t max = std : : max < ssize_t > ( max_thresholds . time - time_passed , 1 ) ;
flush_handle - > scheduleAfter ( std : : min ( min , max ) * 1000 ) ;
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}
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void StorageBuffer : : checkAlterIsPossible ( const AlterCommands & commands , const Settings & /* settings */ ) const
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{
for ( const auto & command : commands )
{
if ( command . type ! = AlterCommand : : Type : : ADD_COLUMN & & command . type ! = AlterCommand : : Type : : MODIFY_COLUMN
& & command . type ! = AlterCommand : : Type : : DROP_COLUMN & & command . type ! = AlterCommand : : Type : : COMMENT_COLUMN )
throw Exception (
" Alter of type ' " + alterTypeToString ( command . type ) + " ' is not supported by storage " + getName ( ) ,
ErrorCodes : : NOT_IMPLEMENTED ) ;
}
}
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std : : optional < UInt64 > StorageBuffer : : totalRows ( ) const
{
std : : optional < UInt64 > underlying_rows ;
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auto underlying = DatabaseCatalog : : instance ( ) . tryGetTable ( destination_id , global_context ) ;
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if ( underlying )
underlying_rows = underlying - > totalRows ( ) ;
if ( ! underlying_rows )
return underlying_rows ;
UInt64 rows = 0 ;
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for ( const auto & buffer : buffers )
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{
std : : lock_guard lock ( buffer . mutex ) ;
rows + = buffer . data . rows ( ) ;
}
return rows + * underlying_rows ;
}
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2020-03-29 08:54:00 +00:00
std : : optional < UInt64 > StorageBuffer : : totalBytes ( ) const
{
UInt64 bytes = 0 ;
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for ( const auto & buffer : buffers )
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{
std : : lock_guard lock ( buffer . mutex ) ;
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bytes + = buffer . data . allocatedBytes ( ) ;
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}
return bytes ;
}
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void StorageBuffer : : alter ( const AlterCommands & params , const Context & context , TableLockHolder & )
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{
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auto table_id = getStorageID ( ) ;
2019-12-26 18:17:05 +00:00
checkAlterIsPossible ( params , context . getSettingsRef ( ) ) ;
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auto metadata_snapshot = getInMemoryMetadataPtr ( ) ;
2019-08-26 14:50:34 +00:00
2020-09-23 12:06:54 +00:00
/// Flush all buffers to storages, so that no non-empty blocks of the old
/// structure remain. Structure of empty blocks will be updated during first
/// insert.
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optimize ( { } /*query*/ , metadata_snapshot , { } /*partition_id*/ , false /*final*/ , false /*deduplicate*/ , context ) ;
2014-10-27 04:18:13 +00:00
2020-06-17 13:39:26 +00:00
StorageInMemoryMetadata new_metadata = * metadata_snapshot ;
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params . apply ( new_metadata , context ) ;
DatabaseCatalog : : instance ( ) . getDatabase ( table_id . database_name ) - > alterTable ( context , table_id , new_metadata ) ;
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setInMemoryMetadata ( new_metadata ) ;
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}
2017-12-28 21:36:27 +00:00
void registerStorageBuffer ( StorageFactory & factory )
{
/** Buffer(db, table, num_buckets, min_time, max_time, min_rows, max_rows, min_bytes, max_bytes)
*
* db , table - in which table to put data from buffer .
* num_buckets - level of parallelism .
* min_time , max_time , min_rows , max_rows , min_bytes , max_bytes - conditions for flushing the buffer .
*/
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factory . registerStorage ( " Buffer " , [ ] ( const StorageFactory : : Arguments & args )
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{
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ASTs & engine_args = args . engine_args ;
if ( engine_args . size ( ) ! = 9 )
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throw Exception ( " Storage Buffer requires 9 parameters: "
" destination_database, destination_table, num_buckets, min_time, max_time, min_rows, max_rows, min_bytes, max_bytes. " ,
ErrorCodes : : NUMBER_OF_ARGUMENTS_DOESNT_MATCH ) ;
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// Table and database name arguments accept expressions, evaluate them.
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engine_args [ 0 ] = evaluateConstantExpressionForDatabaseName ( engine_args [ 0 ] , args . local_context ) ;
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engine_args [ 1 ] = evaluateConstantExpressionOrIdentifierAsLiteral ( engine_args [ 1 ] , args . local_context ) ;
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// After we evaluated all expressions, check that all arguments are
// literals.
for ( size_t i = 0 ; i < 9 ; i + + )
{
if ( ! typeid_cast < ASTLiteral * > ( engine_args [ i ] . get ( ) ) )
{
throw Exception ( ErrorCodes : : BAD_ARGUMENTS ,
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" Storage Buffer expects a literal as an argument #{}, got '{}' "
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" instead " , i , engine_args [ i ] - > formatForErrorMessage ( ) ) ;
}
}
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String destination_database = engine_args [ 0 ] - > as < ASTLiteral & > ( ) . value . safeGet < String > ( ) ;
String destination_table = engine_args [ 1 ] - > as < ASTLiteral & > ( ) . value . safeGet < String > ( ) ;
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UInt64 num_buckets = applyVisitor ( FieldVisitorConvertToNumber < UInt64 > ( ) , engine_args [ 2 ] - > as < ASTLiteral & > ( ) . value ) ;
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Int64 min_time = applyVisitor ( FieldVisitorConvertToNumber < Int64 > ( ) , engine_args [ 3 ] - > as < ASTLiteral & > ( ) . value ) ;
Int64 max_time = applyVisitor ( FieldVisitorConvertToNumber < Int64 > ( ) , engine_args [ 4 ] - > as < ASTLiteral & > ( ) . value ) ;
UInt64 min_rows = applyVisitor ( FieldVisitorConvertToNumber < UInt64 > ( ) , engine_args [ 5 ] - > as < ASTLiteral & > ( ) . value ) ;
UInt64 max_rows = applyVisitor ( FieldVisitorConvertToNumber < UInt64 > ( ) , engine_args [ 6 ] - > as < ASTLiteral & > ( ) . value ) ;
UInt64 min_bytes = applyVisitor ( FieldVisitorConvertToNumber < UInt64 > ( ) , engine_args [ 7 ] - > as < ASTLiteral & > ( ) . value ) ;
UInt64 max_bytes = applyVisitor ( FieldVisitorConvertToNumber < UInt64 > ( ) , engine_args [ 8 ] - > as < ASTLiteral & > ( ) . value ) ;
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/// If destination_id is not set, do not write data from the buffer, but simply empty the buffer.
StorageID destination_id = StorageID : : createEmpty ( ) ;
if ( ! destination_table . empty ( ) )
{
destination_id . database_name = args . context . resolveDatabase ( destination_database ) ;
destination_id . table_name = destination_table ;
}
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return StorageBuffer : : create (
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args . table_id ,
args . columns ,
args . constraints ,
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args . context ,
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num_buckets ,
StorageBuffer : : Thresholds { min_time , min_rows , min_bytes } ,
StorageBuffer : : Thresholds { max_time , max_rows , max_bytes } ,
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destination_id ,
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static_cast < bool > ( args . local_context . getSettingsRef ( ) . insert_allow_materialized_columns ) ) ;
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} ) ;
}
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}