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# include "SSDCacheDictionary.h"
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# include <algorithm>
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# include <Columns/ColumnsNumber.h>
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# include <Common/typeid_cast.h>
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# include <Common/ProfileEvents.h>
# include <Common/ProfilingScopedRWLock.h>
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# include <Common/MemorySanitizer.h>
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# include <DataStreams/IBlockInputStream.h>
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# include "DictionaryBlockInputStream.h"
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# include "DictionaryFactory.h"
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# include <IO/AIO.h>
# include <IO/ReadHelpers.h>
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# include <IO/WriteHelpers.h>
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# include <ext/chrono_io.h>
# include <ext/map.h>
# include <ext/range.h>
# include <ext/size.h>
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# include <ext/bit_cast.h>
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# include <numeric>
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# include <filesystem>
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# include <city.h>
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namespace ProfileEvents
{
extern const Event DictCacheKeysRequested ;
extern const Event DictCacheKeysRequestedMiss ;
extern const Event DictCacheKeysRequestedFound ;
extern const Event DictCacheKeysExpired ;
extern const Event DictCacheKeysNotFound ;
extern const Event DictCacheKeysHit ;
extern const Event DictCacheRequestTimeNs ;
extern const Event DictCacheRequests ;
extern const Event DictCacheLockWriteNs ;
extern const Event DictCacheLockReadNs ;
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extern const Event FileOpen ;
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extern const Event WriteBufferAIOWrite ;
extern const Event WriteBufferAIOWriteBytes ;
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}
namespace CurrentMetrics
{
extern const Metric DictCacheRequests ;
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extern const Metric Write ;
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}
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namespace DB
{
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namespace ErrorCodes
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{
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extern const int AIO_READ_ERROR ;
extern const int AIO_WRITE_ERROR ;
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extern const int BAD_ARGUMENTS ;
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extern const int CANNOT_ALLOCATE_MEMORY ;
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extern const int CANNOT_FSYNC ;
extern const int CANNOT_IO_GETEVENTS ;
extern const int CANNOT_IO_SUBMIT ;
extern const int CANNOT_OPEN_FILE ;
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extern const int CORRUPTED_DATA ;
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extern const int FILE_DOESNT_EXIST ;
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extern const int LOGICAL_ERROR ;
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extern const int NOT_IMPLEMENTED ;
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extern const int TYPE_MISMATCH ;
extern const int UNSUPPORTED_METHOD ;
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}
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namespace
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{
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constexpr size_t DEFAULT_SSD_BLOCK_SIZE = DEFAULT_AIO_FILE_BLOCK_SIZE ;
constexpr size_t DEFAULT_FILE_SIZE = 4 * 1024 * 1024 * 1024ULL ;
constexpr size_t DEFAULT_PARTITIONS_COUNT = 16 ;
constexpr size_t DEFAULT_READ_BUFFER_SIZE = 16 * DEFAULT_SSD_BLOCK_SIZE ;
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constexpr size_t DEFAULT_WRITE_BUFFER_SIZE = DEFAULT_SSD_BLOCK_SIZE ;
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constexpr size_t DEFAULT_MAX_STORED_KEYS = 100000 ;
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constexpr size_t BUFFER_ALIGNMENT = DEFAULT_AIO_FILE_BLOCK_SIZE ;
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constexpr size_t BLOCK_CHECKSUM_SIZE = 8 ;
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constexpr size_t BLOCK_SPECIAL_FIELDS_SIZE = 4 ;
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constexpr UInt64 KEY_METADATA_EXPIRES_AT_MASK = std : : numeric_limits < std : : chrono : : system_clock : : time_point : : rep > : : max ( ) ;
constexpr UInt64 KEY_METADATA_IS_DEFAULT_MASK = ~ KEY_METADATA_EXPIRES_AT_MASK ;
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//constexpr size_t KEY_RECENTLY_USED_BIT = 63;
//constexpr size_t KEY_RECENTLY_USED = (1ULL << KEY_RECENTLY_USED_BIT);
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constexpr size_t KEY_IN_MEMORY_BIT = 63 ;
constexpr size_t KEY_IN_MEMORY = ( 1ULL < < KEY_IN_MEMORY_BIT ) ;
constexpr size_t BLOCK_INDEX_BITS = 32 ;
constexpr size_t INDEX_IN_BLOCK_BITS = 16 ;
constexpr size_t INDEX_IN_BLOCK_MASK = ( 1ULL < < INDEX_IN_BLOCK_BITS ) - 1 ;
constexpr size_t BLOCK_INDEX_MASK = ( ( 1ULL < < ( BLOCK_INDEX_BITS + INDEX_IN_BLOCK_BITS ) ) - 1 ) ^ INDEX_IN_BLOCK_MASK ;
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constexpr size_t NOT_EXISTS = - 1 ;
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constexpr UInt8 HAS_NOT_FOUND = 2 ;
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const std : : string BIN_FILE_EXT = " .bin " ;
const std : : string IND_FILE_EXT = " .idx " ;
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int preallocateDiskSpace ( int fd , size_t len )
{
# if defined(__FreeBSD__)
return posix_fallocate ( fd , 0 , len ) ;
# else
return fallocate ( fd , 0 , 0 , len ) ;
# endif
}
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}
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SSDCachePartition : : Metadata : : time_point_t SSDCachePartition : : Metadata : : expiresAt ( ) const
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{
return ext : : safe_bit_cast < time_point_t > ( data & KEY_METADATA_EXPIRES_AT_MASK ) ;
}
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void SSDCachePartition : : Metadata : : setExpiresAt ( const time_point_t & t )
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{
data = ext : : safe_bit_cast < time_point_urep_t > ( t ) ;
}
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bool SSDCachePartition : : Metadata : : isDefault ( ) const
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{
return ( data & KEY_METADATA_IS_DEFAULT_MASK ) = = KEY_METADATA_IS_DEFAULT_MASK ;
}
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void SSDCachePartition : : Metadata : : setDefault ( )
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{
data | = KEY_METADATA_IS_DEFAULT_MASK ;
}
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bool SSDCachePartition : : Index : : inMemory ( ) const
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{
return ( index & KEY_IN_MEMORY ) = = KEY_IN_MEMORY ;
}
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bool SSDCachePartition : : Index : : exists ( ) const
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{
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return index ! = NOT_EXISTS ;
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}
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void SSDCachePartition : : Index : : setNotExists ( )
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{
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index = NOT_EXISTS ;
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}
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void SSDCachePartition : : Index : : setInMemory ( const bool in_memory )
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{
index = ( index & ~ KEY_IN_MEMORY ) | ( static_cast < size_t > ( in_memory ) < < KEY_IN_MEMORY_BIT ) ;
}
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size_t SSDCachePartition : : Index : : getAddressInBlock ( ) const
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{
return index & INDEX_IN_BLOCK_MASK ;
}
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void SSDCachePartition : : Index : : setAddressInBlock ( const size_t address_in_block )
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{
index = ( index & ~ INDEX_IN_BLOCK_MASK ) | address_in_block ;
}
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size_t SSDCachePartition : : Index : : getBlockId ( ) const
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{
return ( index & BLOCK_INDEX_MASK ) > > INDEX_IN_BLOCK_BITS ;
}
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void SSDCachePartition : : Index : : setBlockId ( const size_t block_id )
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{
index = ( index & ~ BLOCK_INDEX_MASK ) | ( block_id < < INDEX_IN_BLOCK_BITS ) ;
}
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SSDCachePartition : : SSDCachePartition (
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const AttributeUnderlyingType & /* key_structure */ ,
const std : : vector < AttributeUnderlyingType > & attributes_structure_ ,
const std : : string & dir_path ,
const size_t file_id_ ,
const size_t max_size_ ,
const size_t block_size_ ,
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const size_t read_buffer_size_ ,
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const size_t write_buffer_size_ ,
const size_t max_stored_keys_ )
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: file_id ( file_id_ )
, max_size ( max_size_ )
, block_size ( block_size_ )
, read_buffer_size ( read_buffer_size_ )
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, write_buffer_size ( write_buffer_size_ )
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, max_stored_keys ( max_stored_keys_ )
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, path ( dir_path + " / " + std : : to_string ( file_id ) )
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, key_to_index ( max_stored_keys )
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, attributes_structure ( attributes_structure_ )
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{
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keys_buffer . type = AttributeUnderlyingType : : utUInt64 ;
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keys_buffer . values = SSDCachePartition : : Attribute : : Container < UInt64 > ( ) ;
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std : : filesystem : : create_directories ( std : : filesystem : : path { dir_path } ) ;
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{
ProfileEvents : : increment ( ProfileEvents : : FileOpen ) ;
const std : : string filename = path + BIN_FILE_EXT ;
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fd = : : open ( filename . c_str ( ) , O_RDWR | O_CREAT | O_TRUNC | O_DIRECT , 0666 ) ;
if ( fd = = - 1 )
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{
auto error_code = ( errno = = ENOENT ) ? ErrorCodes : : FILE_DOESNT_EXIST : ErrorCodes : : CANNOT_OPEN_FILE ;
throwFromErrnoWithPath ( " Cannot open file " + filename , filename , error_code ) ;
}
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if ( preallocateDiskSpace ( fd , max_size * block_size ) < 0 )
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{
throwFromErrnoWithPath ( " Cannot preallocate space for the file " + filename , filename , ErrorCodes : : CANNOT_ALLOCATE_MEMORY ) ;
}
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}
}
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SSDCachePartition : : ~ SSDCachePartition ( )
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{
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std : : unique_lock lock ( rw_lock ) ;
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: : close ( fd ) ;
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}
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size_t SSDCachePartition : : appendDefaults (
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const Attribute & new_keys , const PaddedPODArray < Metadata > & metadata , const size_t begin )
{
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return appendBlock ( new_keys , Attributes { } , metadata , begin ) ;
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}
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size_t SSDCachePartition : : appendBlock (
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const Attribute & new_keys , const Attributes & new_attributes , const PaddedPODArray < Metadata > & metadata , const size_t begin )
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{
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std : : unique_lock lock ( rw_lock ) ;
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if ( ! new_attributes . empty ( ) & & new_attributes . size ( ) ! = attributes_structure . size ( ) )
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throw Exception { " Wrong columns number in block. " , ErrorCodes : : BAD_ARGUMENTS } ;
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const auto & ids = std : : get < Attribute : : Container < UInt64 > > ( new_keys . values ) ;
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auto & ids_buffer = std : : get < Attribute : : Container < UInt64 > > ( keys_buffer . values ) ;
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if ( ! memory )
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memory . emplace ( block_size * write_buffer_size , BUFFER_ALIGNMENT ) ;
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auto init_write_buffer = [ & ] ( )
{
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write_buffer . emplace ( memory - > data ( ) + current_memory_block_id * block_size , block_size ) ;
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uint64_t tmp = 0 ;
write_buffer - > write ( reinterpret_cast < char * > ( & tmp ) , BLOCK_CHECKSUM_SIZE ) ;
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write_buffer - > write ( reinterpret_cast < char * > ( & tmp ) , BLOCK_SPECIAL_FIELDS_SIZE ) ;
keys_in_block = 0 ;
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} ;
if ( ! write_buffer )
{
init_write_buffer ( ) ;
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}
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bool flushed = false ;
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auto finish_block = [ & ] ( )
{
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write_buffer . reset ( ) ;
std : : memcpy ( memory - > data ( ) + block_size * current_memory_block_id + BLOCK_CHECKSUM_SIZE , & keys_in_block , sizeof ( keys_in_block ) ) ; // set count
uint64_t checksum = CityHash_v1_0_2 : : CityHash64 ( memory - > data ( ) + block_size * current_memory_block_id + BLOCK_CHECKSUM_SIZE , block_size - BLOCK_CHECKSUM_SIZE ) ; // checksum
std : : memcpy ( memory - > data ( ) + block_size * current_memory_block_id , & checksum , sizeof ( checksum ) ) ;
if ( + + current_memory_block_id = = write_buffer_size )
flush ( ) ;
flushed = true ;
} ;
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for ( size_t index = begin ; index < ids . size ( ) ; )
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{
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Index cache_index ;
cache_index . setInMemory ( true ) ;
cache_index . setBlockId ( current_memory_block_id ) ;
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// Poco::Logger::get("wr").information(" block mem: " + std::to_string(current_memory_block_id) + " wb: " + std::to_string(write_buffer_size));
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if ( current_memory_block_id > = write_buffer_size )
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throw DB : : Exception ( " lel " + std : : to_string ( current_memory_block_id ) + " " +
std : : to_string ( write_buffer_size ) + " " + std : : to_string ( index ) , ErrorCodes : : LOGICAL_ERROR ) ;
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cache_index . setAddressInBlock ( write_buffer - > offset ( ) ) ;
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flushed = false ;
if ( 2 * sizeof ( UInt64 ) > write_buffer - > available ( ) ) // place for key and metadata
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{
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finish_block ( ) ;
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}
else
{
writeBinary ( ids [ index ] , * write_buffer ) ;
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writeBinary ( metadata [ index ] . data , * write_buffer ) ;
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}
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for ( const auto & attribute : new_attributes )
{
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if ( flushed )
break ;
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switch ( attribute . type )
{
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# define DISPATCH(TYPE) \
case AttributeUnderlyingType : : ut # # TYPE : \
{ \
if ( sizeof ( TYPE ) > write_buffer - > available ( ) ) \
{ \
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finish_block ( ) ; \
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continue ; \
} \
else \
{ \
const auto & values = std : : get < Attribute : : Container < TYPE > > ( attribute . values ) ; \
writeBinary ( values [ index ] , * write_buffer ) ; \
} \
} \
break ;
DISPATCH ( UInt8 )
DISPATCH ( UInt16 )
DISPATCH ( UInt32 )
DISPATCH ( UInt64 )
DISPATCH ( UInt128 )
DISPATCH ( Int8 )
DISPATCH ( Int16 )
DISPATCH ( Int32 )
DISPATCH ( Int64 )
DISPATCH ( Decimal32 )
DISPATCH ( Decimal64 )
DISPATCH ( Decimal128 )
DISPATCH ( Float32 )
DISPATCH ( Float64 )
# undef DISPATCH
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case AttributeUnderlyingType : : utString :
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{
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const auto & value = std : : get < Attribute : : Container < String > > ( attribute . values ) [ index ] ;
if ( sizeof ( UInt64 ) + value . size ( ) > write_buffer - > available ( ) )
{
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finish_block ( ) ;
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continue ;
}
else
{
writeStringBinary ( value , * write_buffer ) ;
}
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}
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break ;
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}
}
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if ( ! flushed )
{
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// Poco::Logger::get("wr").information(" set: " + std::to_string(cache_index.getBlockId()) + " " + std::to_string(cache_index.getAddressInBlock()));
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key_to_index . set ( ids [ index ] , cache_index ) ;
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ids_buffer . push_back ( ids [ index ] ) ;
+ + index ;
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+ + keys_in_block ;
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}
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else // next block in write buffer or flushed to ssd
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{
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init_write_buffer ( ) ;
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}
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}
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// Poco::Logger::get("wr").information("exit");
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return ids . size ( ) - begin ;
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}
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void SSDCachePartition : : flush ( )
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{
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if ( current_file_block_id > = max_size )
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clearOldestBlocks ( ) ;
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const auto & ids = std : : get < Attribute : : Container < UInt64 > > ( keys_buffer . values ) ;
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if ( ids . empty ( ) )
return ;
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Poco : : Logger : : get ( " paritiiton " ) . information ( " flushing to SSD. " ) ;
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// Poco::Logger::get("paritiiton").information("@@@@@@@@@@@@@@@@@@@@ FLUSH!!! " + std::to_string(file_id) + " block: " + std::to_string(current_file_block_id));
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AIOContext aio_context { 1 } ;
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iocb write_request { } ;
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iocb * write_request_ptr { & write_request } ;
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# if defined(__FreeBSD__)
write_request . aio . aio_lio_opcode = LIO_WRITE ;
write_request . aio . aio_fildes = fd ;
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write_request . aio . aio_buf = reinterpret_cast < volatile void * > ( memory - > data ( ) ) ;
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write_request . aio . aio_nbytes = block_size * write_buffer_size ;
write_request . aio . aio_offset = ( current_file_block_id % max_size ) * block_size ;
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# else
write_request . aio_lio_opcode = IOCB_CMD_PWRITE ;
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write_request . aio_fildes = fd ;
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write_request . aio_buf = reinterpret_cast < UInt64 > ( memory - > data ( ) ) ;
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write_request . aio_nbytes = block_size * write_buffer_size ;
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write_request . aio_offset = ( current_file_block_id % max_size ) * block_size ;
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# endif
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while ( io_submit ( aio_context . ctx , 1 , & write_request_ptr ) < 0 )
{
if ( errno ! = EINTR )
throw Exception ( " Cannot submit request for asynchronous IO on file " + path + BIN_FILE_EXT , ErrorCodes : : CANNOT_IO_SUBMIT ) ;
}
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CurrentMetrics : : Increment metric_increment_write { CurrentMetrics : : Write } ;
io_event event ;
while ( io_getevents ( aio_context . ctx , 1 , 1 , & event , nullptr ) < 0 )
{
if ( errno ! = EINTR )
throw Exception ( " Failed to wait for asynchronous IO completion on file " + path + BIN_FILE_EXT , ErrorCodes : : CANNOT_IO_GETEVENTS ) ;
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}
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// Unpoison the memory returned from an uninstrumented system function.
__msan_unpoison ( & event , sizeof ( event ) ) ;
ssize_t bytes_written ;
# if defined(__FreeBSD__)
bytes_written = aio_return ( reinterpret_cast < struct aiocb * > ( event . udata ) ) ;
# else
bytes_written = event . res ;
# endif
ProfileEvents : : increment ( ProfileEvents : : WriteBufferAIOWrite ) ;
ProfileEvents : : increment ( ProfileEvents : : WriteBufferAIOWriteBytes , bytes_written ) ;
if ( bytes_written ! = static_cast < decltype ( bytes_written ) > ( write_request . aio_nbytes ) )
throw Exception ( " Not all data was written for asynchronous IO on file " + path + BIN_FILE_EXT + " . returned: " + std : : to_string ( bytes_written ) , ErrorCodes : : AIO_WRITE_ERROR ) ;
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if ( : : fsync ( fd ) < 0 )
throwFromErrnoWithPath ( " Cannot fsync " + path + BIN_FILE_EXT , path + BIN_FILE_EXT , ErrorCodes : : CANNOT_FSYNC ) ;
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/// commit changes in index
for ( size_t row = 0 ; row < ids . size ( ) ; + + row )
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{
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Index index ;
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if ( key_to_index . get ( ids [ row ] , index ) )
{
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if ( index . inMemory ( ) ) // Row can be inserted in the buffer twice, so we need to move to ssd only the last index.
{
index . setInMemory ( false ) ;
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// Poco::Logger::get("pt").information("block: " + std::to_string(index.getBlockId()) + " " + std::to_string(current_file_block_id) + " ");
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index . setBlockId ( ( current_file_block_id % max_size ) + index . getBlockId ( ) ) ;
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}
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key_to_index . set ( ids [ row ] , index ) ;
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}
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}
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current_file_block_id + = write_buffer_size ;
current_memory_block_id = 0 ;
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/// clear buffer
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std : : visit ( [ ] ( auto & attr ) { attr . clear ( ) ; } , keys_buffer . values ) ;
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}
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template < typename Out , typename GetDefault >
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void SSDCachePartition : : getValue ( const size_t attribute_index , const PaddedPODArray < UInt64 > & ids ,
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ResultArrayType < Out > & out , std : : vector < bool > & found , GetDefault & get_default ,
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std : : chrono : : system_clock : : time_point now ) const
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{
auto set_value = [ & ] ( const size_t index , ReadBuffer & buf )
{
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buf . ignore ( sizeof ( Key ) ) ; // key
Metadata metadata ;
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readBinary ( metadata . data , buf ) ;
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if ( metadata . expiresAt ( ) > now )
{
if ( metadata . isDefault ( ) )
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out [ index ] = get_default ( index ) ;
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else
{
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ignoreFromBufferToAttributeIndex ( attribute_index , buf ) ;
readBinary ( out [ index ] , buf ) ;
}
found [ index ] = true ;
}
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} ;
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getImpl ( ids , set_value , found ) ;
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}
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void SSDCachePartition : : getString ( const size_t attribute_index , const PaddedPODArray < UInt64 > & ids ,
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StringRefs & refs , ArenaWithFreeLists & arena , std : : vector < bool > & found , std : : vector < size_t > & default_ids ,
std : : chrono : : system_clock : : time_point now ) const
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{
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auto set_value = [ & ] ( const size_t index , ReadBuffer & buf )
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{
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buf . ignore ( sizeof ( Key ) ) ; // key
Metadata metadata ;
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readBinary ( metadata . data , buf ) ;
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if ( metadata . expiresAt ( ) > now )
{
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if ( metadata . isDefault ( ) )
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default_ids . push_back ( index ) ;
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else
{
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ignoreFromBufferToAttributeIndex ( attribute_index , buf ) ;
size_t size = 0 ;
readVarUInt ( size , buf ) ;
char * string_ptr = arena . alloc ( size ) ;
memcpy ( string_ptr , buf . position ( ) , size ) ;
refs [ index ] . data = string_ptr ;
refs [ index ] . size = size ;
}
found [ index ] = true ;
}
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} ;
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getImpl ( ids , set_value , found ) ;
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}
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void SSDCachePartition : : has ( const PaddedPODArray < UInt64 > & ids , ResultArrayType < UInt8 > & out ,
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std : : vector < bool > & found , std : : chrono : : system_clock : : time_point now ) const
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{
auto set_value = [ & ] ( const size_t index , ReadBuffer & buf )
{
buf . ignore ( sizeof ( Key ) ) ; // key
Metadata metadata ;
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readBinary ( metadata . data , buf ) ;
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if ( metadata . expiresAt ( ) > now )
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out [ index ] = ! metadata . isDefault ( ) ;
} ;
getImpl ( ids , set_value , found ) ;
}
template < typename SetFunc >
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void SSDCachePartition : : getImpl ( const PaddedPODArray < UInt64 > & ids , SetFunc & set ,
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std : : vector < bool > & found ) const
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{
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std : : shared_lock lock ( rw_lock ) ;
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PaddedPODArray < Index > indices ( ids . size ( ) ) ;
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for ( size_t i = 0 ; i < ids . size ( ) ; + + i )
{
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Index index ;
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if ( found [ i ] )
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indices [ i ] . setNotExists ( ) ;
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else if ( key_to_index . get ( ids [ i ] , index ) )
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{
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indices [ i ] = index ;
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}
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else
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indices [ i ] . setNotExists ( ) ;
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}
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getValueFromMemory ( indices , set ) ;
getValueFromStorage ( indices , set ) ;
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}
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template < typename SetFunc >
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void SSDCachePartition : : getValueFromMemory ( const PaddedPODArray < Index > & indices , SetFunc & set ) const
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{
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// Do not check checksum while reading from memory.
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for ( size_t i = 0 ; i < indices . size ( ) ; + + i )
{
const auto & index = indices [ i ] ;
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if ( index . exists ( ) & & index . inMemory ( ) )
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{
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const size_t offset = index . getBlockId ( ) * block_size + index . getAddressInBlock ( ) ;
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ReadBufferFromMemory read_buffer ( memory - > data ( ) + offset , block_size * write_buffer_size - offset ) ;
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set ( i , read_buffer ) ;
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}
}
}
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template < typename SetFunc >
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void SSDCachePartition : : getValueFromStorage ( const PaddedPODArray < Index > & indices , SetFunc & set ) const
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{
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std : : vector < std : : pair < Index , size_t > > index_to_out ;
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for ( size_t i = 0 ; i < indices . size ( ) ; + + i )
{
const auto & index = indices [ i ] ;
if ( index . exists ( ) & & ! index . inMemory ( ) )
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index_to_out . emplace_back ( index , i ) ;
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}
if ( index_to_out . empty ( ) )
return ;
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/// sort by (block_id, offset_in_block)
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std : : sort ( std : : begin ( index_to_out ) , std : : end ( index_to_out ) ) ;
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Memory read_buffer ( block_size * read_buffer_size , BUFFER_ALIGNMENT ) ;
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// TODO: merge requests
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std : : vector < iocb > requests ;
std : : vector < iocb * > pointers ;
std : : vector < std : : vector < size_t > > blocks_to_indices ;
requests . reserve ( index_to_out . size ( ) ) ;
pointers . reserve ( index_to_out . size ( ) ) ;
blocks_to_indices . reserve ( index_to_out . size ( ) ) ;
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for ( size_t i = 0 ; i < index_to_out . size ( ) ; + + i )
{
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if ( ! requests . empty ( ) & &
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static_cast < size_t > ( requests . back ( ) . aio_offset ) = = index_to_out [ i ] . first . getBlockId ( ) * block_size )
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{
blocks_to_indices . back ( ) . push_back ( i ) ;
continue ;
}
iocb request { } ;
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# if defined(__FreeBSD__)
request . aio . aio_lio_opcode = LIO_READ ;
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request . aio . aio_fildes = fd ;
request . aio . aio_buf = reinterpret_cast < volatile void * > (
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reinterpret_cast < UInt64 > ( read_buffer . data ( ) ) + SSD_BLOCK_SIZE * ( requests . size ( ) % READ_BUFFER_SIZE_BLOCKS ) ) ;
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request . aio . aio_nbytes = SSD_BLOCK_SIZE ;
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request . aio . aio_offset = index_to_out [ i ] . first ;
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request . aio_data = requests . size ( ) ;
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# else
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request . aio_lio_opcode = IOCB_CMD_PREAD ;
request . aio_fildes = fd ;
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request . aio_buf = reinterpret_cast < UInt64 > ( read_buffer . data ( ) ) + block_size * ( requests . size ( ) % read_buffer_size ) ;
request . aio_nbytes = block_size ;
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// Poco::Logger::get("RR").information("block found" + std::to_string(index_to_out[i].first.getBlockId()) + " max_size" + std::to_string(max_size));
// if (index_to_out[i].first.getBlockId() > max_size) {
// throw DB::Exception("kek", ErrorCodes::LOGICAL_ERROR);
// }
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request . aio_offset = index_to_out [ i ] . first . getBlockId ( ) * block_size ;
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request . aio_data = requests . size ( ) ;
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# endif
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requests . push_back ( request ) ;
pointers . push_back ( & requests . back ( ) ) ;
blocks_to_indices . emplace_back ( ) ;
blocks_to_indices . back ( ) . push_back ( i ) ;
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}
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AIOContext aio_context ( read_buffer_size ) ;
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std : : vector < bool > processed ( requests . size ( ) , false ) ;
std : : vector < io_event > events ( requests . size ( ) ) ;
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for ( auto & event : events )
event . res = - 1 ; // TODO: remove
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size_t to_push = 0 ;
size_t to_pop = 0 ;
while ( to_pop < requests . size ( ) )
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{
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// Poco::Logger::get("RR").information(
// "push = " + std::to_string(to_push) + " pop=" + std::to_string(to_pop) +
// "bi = " + std::to_string(blocks_to_indices.size()) + " req = " + std::to_string(requests.size()));
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/// get io tasks from previous iteration
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int popped = 0 ;
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while ( to_pop < to_push & & ( popped = io_getevents ( aio_context . ctx , to_push - to_pop , to_push - to_pop , & events [ to_pop ] , nullptr ) ) < = 0 )
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{
if ( errno ! = EINTR )
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throwFromErrno ( " io_getevents: Failed to get an event for asynchronous IO " , ErrorCodes : : CANNOT_IO_GETEVENTS ) ;
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}
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for ( size_t i = to_pop ; i < to_pop + popped ; + + i )
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{
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const auto request_id = events [ i ] . data ;
const auto & request = requests [ request_id ] ;
if ( events [ i ] . res ! = static_cast < ssize_t > ( request . aio_nbytes ) )
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{
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throw Exception ( " AIO failed to read file " + path + BIN_FILE_EXT + " . " +
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" request_id= " + std : : to_string ( request . aio_data ) + " / " + std : : to_string ( requests . size ( ) ) +
" , aio_nbytes= " + std : : to_string ( request . aio_nbytes ) + " , aio_offset= " + std : : to_string ( request . aio_offset ) +
" , returned= " + std : : to_string ( events [ i ] . res ) + " , errno= " + std : : to_string ( errno ) , ErrorCodes : : AIO_READ_ERROR ) ;
}
2020-04-22 06:23:25 +00:00
uint64_t checksum = 0 ;
ReadBufferFromMemory buf_special ( reinterpret_cast < char * > ( request . aio_buf ) , block_size ) ;
readBinary ( checksum , buf_special ) ;
uint64_t calculated_checksum = CityHash_v1_0_2 : : CityHash64 ( reinterpret_cast < char * > ( request . aio_buf ) + BLOCK_CHECKSUM_SIZE , block_size - BLOCK_CHECKSUM_SIZE ) ;
if ( checksum ! = calculated_checksum )
{
throw Exception ( " Cache data corrupted. From block = " + std : : to_string ( checksum ) + " calculated = " + std : : to_string ( calculated_checksum ) + " . " , ErrorCodes : : CORRUPTED_DATA ) ;
}
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for ( const size_t idx : blocks_to_indices [ request_id ] )
{
const auto & [ file_index , out_index ] = index_to_out [ idx ] ;
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ReadBufferFromMemory buf (
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reinterpret_cast < char * > ( request . aio_buf ) + file_index . getAddressInBlock ( ) ,
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block_size - file_index . getAddressInBlock ( ) ) ;
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set ( out_index , buf ) ;
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}
processed [ request_id ] = true ;
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}
2020-01-07 17:55:32 +00:00
while ( to_pop < requests . size ( ) & & processed [ to_pop ] )
+ + to_pop ;
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2020-01-07 17:55:32 +00:00
/// add new io tasks
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const int new_tasks_count = std : : min ( read_buffer_size - ( to_push - to_pop ) , requests . size ( ) - to_push ) ;
2020-01-07 17:55:32 +00:00
2020-04-23 11:44:12 +00:00
int pushed = 0 ;
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while ( new_tasks_count > 0 & & ( pushed = io_submit ( aio_context . ctx , new_tasks_count , & pointers [ to_push ] ) ) < = 0 )
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{
if ( errno ! = EINTR )
throwFromErrno ( " io_submit: Failed to submit a request for asynchronous IO " , ErrorCodes : : CANNOT_IO_SUBMIT ) ;
}
to_push + = pushed ;
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// Poco::Logger::get("RR").information("fin iter");
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}
}
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void SSDCachePartition : : clearOldestBlocks ( )
2020-03-30 07:12:12 +00:00
{
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// Poco::Logger::get("GC").information("GC clear -----------------");
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// write_buffer_size, because we need to erase the whole buffer.
Memory read_buffer_memory ( block_size * write_buffer_size , BUFFER_ALIGNMENT ) ;
iocb request { } ;
# if defined(__FreeBSD__)
request . aio . aio_lio_opcode = LIO_READ ;
request . aio . aio_fildes = fd ;
request . aio . aio_buf = reinterpret_cast < volatile void * > ( reinterpret_cast < UInt64 > ( read_buffer_memory . data ( ) ) ) ;
request . aio . aio_nbytes = block_size * write_buffer_size ;
request . aio . aio_offset = ( current_file_block_id % max_size ) * block_size ;
request . aio_data = 0 ;
# else
request . aio_lio_opcode = IOCB_CMD_PREAD ;
request . aio_fildes = fd ;
request . aio_buf = reinterpret_cast < UInt64 > ( read_buffer_memory . data ( ) ) ;
request . aio_nbytes = block_size * write_buffer_size ;
request . aio_offset = ( current_file_block_id % max_size ) * block_size ;
request . aio_data = 0 ;
# endif
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// Poco::Logger::get("GC").information("GC offset=" + std::to_string(request.aio_offset));
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2020-03-30 07:12:12 +00:00
{
iocb * request_ptr = & request ;
io_event event { } ;
AIOContext aio_context ( 1 ) ;
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while ( io_submit ( aio_context . ctx , 1 , & request_ptr ) ! = 1 )
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{
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if ( errno ! = EINTR )
throwFromErrno ( " io_submit: Failed to submit a request for asynchronous IO " , ErrorCodes : : CANNOT_IO_SUBMIT ) ;
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}
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while ( io_getevents ( aio_context . ctx , 1 , 1 , & event , nullptr ) ! = 1 )
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{
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if ( errno ! = EINTR )
throwFromErrno ( " io_getevents: Failed to get an event for asynchronous IO " , ErrorCodes : : CANNOT_IO_GETEVENTS ) ;
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}
if ( event . res ! = static_cast < ssize_t > ( request . aio_nbytes ) )
{
throw Exception ( " GC: AIO failed to read file " + path + BIN_FILE_EXT + " . " +
" aio_nbytes= " + std : : to_string ( request . aio_nbytes ) +
" , returned= " + std : : to_string ( event . res ) + " . " , ErrorCodes : : AIO_READ_ERROR ) ;
}
}
std : : vector < UInt64 > keys ;
keys . reserve ( write_buffer_size ) ;
// TODO: писать кол-во значений
for ( size_t i = 0 ; i < write_buffer_size ; + + i )
{
ReadBufferFromMemory read_buffer ( read_buffer_memory . data ( ) + i * block_size , block_size ) ;
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uint64_t checksum = 0 ;
readBinary ( checksum , read_buffer ) ;
uint64_t calculated_checksum = CityHash_v1_0_2 : : CityHash64 ( read_buffer_memory . data ( ) + i * block_size + BLOCK_CHECKSUM_SIZE , block_size - BLOCK_CHECKSUM_SIZE ) ;
if ( checksum ! = calculated_checksum )
{
throw Exception ( " Cache data corrupted. From block = " + std : : to_string ( checksum ) + " calculated = " + std : : to_string ( calculated_checksum ) + " . " , ErrorCodes : : CORRUPTED_DATA ) ;
}
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uint32_t keys_in_current_block = 0 ;
readBinary ( keys_in_current_block , read_buffer ) ;
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// Poco::Logger::get("GC").information("keys in block: " + std::to_string(keys_in_current_block) + " offset=" + std::to_string(read_buffer.offset()));
2020-04-23 11:44:12 +00:00
2020-03-30 07:12:12 +00:00
for ( uint32_t j = 0 ; j < keys_in_current_block ; + + j )
{
keys . emplace_back ( ) ;
readBinary ( keys . back ( ) , read_buffer ) ;
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Metadata metadata ;
readBinary ( metadata . data , read_buffer ) ;
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if ( ! metadata . isDefault ( ) )
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{
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for ( size_t attr = 0 ; attr < attributes_structure . size ( ) ; + + attr )
2020-03-30 07:12:12 +00:00
{
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switch ( attributes_structure [ attr ] )
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{
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# define DISPATCH(TYPE) \
case AttributeUnderlyingType : : ut # # TYPE : \
read_buffer . ignore ( sizeof ( TYPE ) ) ; \
break ;
DISPATCH ( UInt8 )
DISPATCH ( UInt16 )
DISPATCH ( UInt32 )
DISPATCH ( UInt64 )
DISPATCH ( UInt128 )
DISPATCH ( Int8 )
DISPATCH ( Int16 )
DISPATCH ( Int32 )
DISPATCH ( Int64 )
DISPATCH ( Decimal32 )
DISPATCH ( Decimal64 )
DISPATCH ( Decimal128 )
DISPATCH ( Float32 )
DISPATCH ( Float64 )
# undef DISPATCH
case AttributeUnderlyingType : : utString :
{
size_t size = 0 ;
readVarUInt ( size , read_buffer ) ;
read_buffer . ignore ( size ) ;
}
break ;
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}
}
}
}
}
const size_t start_block = current_file_block_id % max_size ;
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const size_t finish_block = start_block + write_buffer_size ;
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Poco : : Logger : : get ( " partition gc " ) . information ( " erasing keys start = " + std : : to_string ( start_block ) + " end = " + std : : to_string ( finish_block ) ) ;
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for ( const auto & key : keys )
{
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Index index ;
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if ( key_to_index . get ( key , index ) )
{
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size_t block_id = index . getBlockId ( ) ;
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if ( start_block < = block_id & & block_id < finish_block )
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key_to_index . erase ( key ) ;
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}
}
}
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void SSDCachePartition : : ignoreFromBufferToAttributeIndex ( const size_t attribute_index , ReadBuffer & buf ) const
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{
for ( size_t i = 0 ; i < attribute_index ; + + i )
{
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switch ( attributes_structure [ i ] )
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{
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# define DISPATCH(TYPE) \
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case AttributeUnderlyingType : : ut # # TYPE : \
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buf . ignore ( sizeof ( TYPE ) ) ; \
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break ;
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DISPATCH ( UInt8 )
DISPATCH ( UInt16 )
DISPATCH ( UInt32 )
DISPATCH ( UInt64 )
DISPATCH ( UInt128 )
DISPATCH ( Int8 )
DISPATCH ( Int16 )
DISPATCH ( Int32 )
DISPATCH ( Int64 )
DISPATCH ( Decimal32 )
DISPATCH ( Decimal64 )
DISPATCH ( Decimal128 )
DISPATCH ( Float32 )
DISPATCH ( Float64 )
# undef DISPATCH
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case AttributeUnderlyingType : : utString :
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{
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size_t size = 0 ;
readVarUInt ( size , buf ) ;
buf . ignore ( size ) ;
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}
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break ;
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}
}
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}
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size_t SSDCachePartition : : getId ( ) const
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{
return file_id ;
}
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double SSDCachePartition : : getLoadFactor ( ) const
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{
std : : shared_lock lock ( rw_lock ) ;
return static_cast < double > ( current_file_block_id ) / max_size ;
}
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size_t SSDCachePartition : : getElementCount ( ) const
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{
std : : shared_lock lock ( rw_lock ) ;
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return key_to_index . size ( ) ;
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}
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PaddedPODArray < SSDCachePartition : : Key > SSDCachePartition : : getCachedIds ( const std : : chrono : : system_clock : : time_point /* now */ ) const
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{
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std : : unique_lock lock ( rw_lock ) ; // Begin and end iterators can be changed.
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PaddedPODArray < Key > array ;
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for ( const auto & key : key_to_index . keys ( ) )
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array . push_back ( key ) ; // TODO: exclude default
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return array ;
}
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void SSDCachePartition : : remove ( )
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{
std : : unique_lock lock ( rw_lock ) ;
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std : : filesystem : : remove ( std : : filesystem : : path ( path + BIN_FILE_EXT ) ) ;
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}
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SSDCacheStorage : : SSDCacheStorage (
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const AttributeTypes & attributes_structure_ ,
const std : : string & path_ ,
const size_t max_partitions_count_ ,
const size_t partition_size_ ,
const size_t block_size_ ,
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const size_t read_buffer_size_ ,
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const size_t write_buffer_size_ ,
const size_t max_stored_keys_ )
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: attributes_structure ( attributes_structure_ )
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, path ( path_ )
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, max_partitions_count ( max_partitions_count_ )
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, partition_size ( partition_size_ )
, block_size ( block_size_ )
, read_buffer_size ( read_buffer_size_ )
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, write_buffer_size ( write_buffer_size_ )
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, max_stored_keys ( max_stored_keys_ )
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, log ( & Poco : : Logger : : get ( " SSDCacheStorage " ) )
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{
}
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SSDCacheStorage : : ~ SSDCacheStorage ( )
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{
std : : unique_lock lock ( rw_lock ) ;
partition_delete_queue . splice ( std : : end ( partition_delete_queue ) , partitions ) ;
collectGarbage ( ) ;
}
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template < typename Out , typename GetDefault >
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void SSDCacheStorage : : getValue ( const size_t attribute_index , const PaddedPODArray < UInt64 > & ids ,
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ResultArrayType < Out > & out , std : : unordered_map < Key , std : : vector < size_t > > & not_found ,
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GetDefault & get_default , std : : chrono : : system_clock : : time_point now ) const
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{
std : : vector < bool > found ( ids . size ( ) , false ) ;
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{
std : : shared_lock lock ( rw_lock ) ;
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for ( const auto & partition : partitions )
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partition - > getValue < Out > ( attribute_index , ids , out , found , get_default , now ) ;
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}
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for ( size_t i = 0 ; i < ids . size ( ) ; + + i )
if ( ! found [ i ] )
not_found [ ids [ i ] ] . push_back ( i ) ;
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query_count . fetch_add ( ids . size ( ) , std : : memory_order_relaxed ) ;
hit_count . fetch_add ( ids . size ( ) - not_found . size ( ) , std : : memory_order_release ) ;
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}
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void SSDCacheStorage : : getString ( const size_t attribute_index , const PaddedPODArray < UInt64 > & ids ,
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StringRefs & refs , ArenaWithFreeLists & arena , std : : unordered_map < Key , std : : vector < size_t > > & not_found ,
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std : : vector < size_t > & default_ids , std : : chrono : : system_clock : : time_point now ) const
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{
std : : vector < bool > found ( ids . size ( ) , false ) ;
{
std : : shared_lock lock ( rw_lock ) ;
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for ( const auto & partition : partitions )
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partition - > getString ( attribute_index , ids , refs , arena , found , default_ids , now ) ;
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}
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for ( size_t i = 0 ; i < ids . size ( ) ; + + i )
if ( ! found [ i ] )
not_found [ ids [ i ] ] . push_back ( i ) ;
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query_count . fetch_add ( ids . size ( ) , std : : memory_order_relaxed ) ;
hit_count . fetch_add ( ids . size ( ) - not_found . size ( ) , std : : memory_order_release ) ;
}
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void SSDCacheStorage : : has ( const PaddedPODArray < UInt64 > & ids , ResultArrayType < UInt8 > & out ,
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std : : unordered_map < Key , std : : vector < size_t > > & not_found , std : : chrono : : system_clock : : time_point now ) const
{
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for ( size_t i = 0 ; i < ids . size ( ) ; + + i )
out [ i ] = HAS_NOT_FOUND ;
std : : vector < bool > found ( ids . size ( ) , false ) ;
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{
std : : shared_lock lock ( rw_lock ) ;
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for ( const auto & partition : partitions )
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partition - > has ( ids , out , found , now ) ;
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for ( size_t i = 0 ; i < ids . size ( ) ; + + i )
if ( out [ i ] = = HAS_NOT_FOUND )
not_found [ ids [ i ] ] . push_back ( i ) ;
}
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query_count . fetch_add ( ids . size ( ) , std : : memory_order_relaxed ) ;
hit_count . fetch_add ( ids . size ( ) - not_found . size ( ) , std : : memory_order_release ) ;
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}
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template < typename PresentIdHandler , typename AbsentIdHandler >
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void SSDCacheStorage : : update ( DictionarySourcePtr & source_ptr , const std : : vector < Key > & requested_ids ,
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PresentIdHandler & & on_updated , AbsentIdHandler & & on_id_not_found ,
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const DictionaryLifetime lifetime )
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{
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auto append_block = [ this ] ( const SSDCachePartition : : Attribute & new_keys ,
const SSDCachePartition : : Attributes & new_attributes , const PaddedPODArray < SSDCachePartition : : Metadata > & metadata )
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{
size_t inserted = 0 ;
while ( inserted < metadata . size ( ) )
{
if ( ! partitions . empty ( ) )
inserted + = partitions . front ( ) - > appendBlock ( new_keys , new_attributes , metadata , inserted ) ;
if ( inserted < metadata . size ( ) )
{
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partitions . emplace_front ( std : : make_unique < SSDCachePartition > (
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AttributeUnderlyingType : : utUInt64 , attributes_structure , path ,
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( partitions . empty ( ) ? 0 : partitions . front ( ) - > getId ( ) + 1 ) ,
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partition_size , block_size , read_buffer_size , write_buffer_size , max_stored_keys ) ) ;
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}
}
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collectGarbage ( ) ;
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} ;
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CurrentMetrics : : Increment metric_increment { CurrentMetrics : : DictCacheRequests } ;
ProfileEvents : : increment ( ProfileEvents : : DictCacheKeysRequested , requested_ids . size ( ) ) ;
std : : unordered_map < Key , UInt8 > remaining_ids { requested_ids . size ( ) } ;
for ( const auto id : requested_ids )
remaining_ids . insert ( { id , 0 } ) ;
const auto now = std : : chrono : : system_clock : : now ( ) ;
{
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const ProfilingScopedWriteRWLock write_lock { rw_lock , ProfileEvents : : DictCacheLockWriteNs } ;
if ( now > backoff_end_time )
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{
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try
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{
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if ( update_error_count )
{
/// Recover after error: we have to clone the source here because
/// it could keep connections which should be reset after error.
source_ptr = source_ptr - > clone ( ) ;
}
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Stopwatch watch ;
auto stream = source_ptr - > loadIds ( requested_ids ) ;
stream - > readPrefix ( ) ;
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while ( const auto block = stream - > read ( ) )
{
const auto new_keys = std : : move ( createAttributesFromBlock ( block , 0 , { AttributeUnderlyingType : : utUInt64 } ) . front ( ) ) ;
const auto new_attributes = createAttributesFromBlock ( block , 1 , attributes_structure ) ;
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const auto & ids = std : : get < SSDCachePartition : : Attribute : : Container < UInt64 > > ( new_keys . values ) ;
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PaddedPODArray < SSDCachePartition : : Metadata > metadata ( ids . size ( ) ) ;
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for ( const auto i : ext : : range ( 0 , ids . size ( ) ) )
{
std : : uniform_int_distribution < UInt64 > distribution { lifetime . min_sec , lifetime . max_sec } ;
metadata [ i ] . setExpiresAt ( now + std : : chrono : : seconds ( distribution ( rnd_engine ) ) ) ;
/// mark corresponding id as found
on_updated ( ids [ i ] , i , new_attributes ) ;
remaining_ids [ ids [ i ] ] = 1 ;
}
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append_block ( new_keys , new_attributes , metadata ) ;
}
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stream - > readSuffix ( ) ;
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update_error_count = 0 ;
last_update_exception = std : : exception_ptr { } ;
backoff_end_time = std : : chrono : : system_clock : : time_point { } ;
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ProfileEvents : : increment ( ProfileEvents : : DictCacheRequestTimeNs , watch . elapsed ( ) ) ;
}
catch ( . . . )
{
+ + update_error_count ;
last_update_exception = std : : current_exception ( ) ;
backoff_end_time = now + std : : chrono : : seconds ( calculateDurationWithBackoff ( rnd_engine , update_error_count ) ) ;
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tryLogException ( last_update_exception , log ,
" Could not update ssd cache dictionary, next update is scheduled at " + ext : : to_string ( backoff_end_time ) ) ;
}
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}
}
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auto append_defaults = [ this ] ( const SSDCachePartition : : Attribute & new_keys , const PaddedPODArray < SSDCachePartition : : Metadata > & metadata )
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{
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size_t inserted = 0 ;
while ( inserted < metadata . size ( ) )
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{
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if ( ! partitions . empty ( ) )
inserted + = partitions . front ( ) - > appendDefaults ( new_keys , metadata , inserted ) ;
if ( inserted < metadata . size ( ) )
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{
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partitions . emplace_front ( std : : make_unique < SSDCachePartition > (
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AttributeUnderlyingType : : utUInt64 , attributes_structure , path ,
( partitions . empty ( ) ? 0 : partitions . front ( ) - > getId ( ) + 1 ) ,
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partition_size , block_size , read_buffer_size , write_buffer_size , max_stored_keys ) ) ;
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}
}
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collectGarbage ( ) ;
} ;
size_t not_found_num = 0 , found_num = 0 ;
/// Check which ids have not been found and require setting null_value
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SSDCachePartition : : Attribute new_keys ;
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new_keys . type = AttributeUnderlyingType : : utUInt64 ;
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new_keys . values = SSDCachePartition : : Attribute : : Container < UInt64 > ( ) ;
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PaddedPODArray < SSDCachePartition : : Metadata > metadata ;
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{
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const ProfilingScopedWriteRWLock write_lock { rw_lock , ProfileEvents : : DictCacheLockWriteNs } ;
for ( const auto & id_found_pair : remaining_ids )
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{
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if ( id_found_pair . second )
{
+ + found_num ;
continue ;
}
+ + not_found_num ;
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const auto id = id_found_pair . first ;
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if ( update_error_count )
{
/// TODO: юзать старые значения.
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/// We don't have expired data for that `id` so all we can do is to rethrow `last_exception`.
std : : rethrow_exception ( last_update_exception ) ;
}
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// Set key
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std : : get < SSDCachePartition : : Attribute : : Container < UInt64 > > ( new_keys . values ) . push_back ( id ) ;
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std : : uniform_int_distribution < UInt64 > distribution { lifetime . min_sec , lifetime . max_sec } ;
metadata . emplace_back ( ) ;
metadata . back ( ) . setExpiresAt ( now + std : : chrono : : seconds ( distribution ( rnd_engine ) ) ) ;
metadata . back ( ) . setDefault ( ) ;
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/// inform caller that the cell has not been found
on_id_not_found ( id ) ;
}
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if ( not_found_num )
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append_defaults ( new_keys , metadata ) ;
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}
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ProfileEvents : : increment ( ProfileEvents : : DictCacheKeysRequestedMiss , not_found_num ) ;
ProfileEvents : : increment ( ProfileEvents : : DictCacheKeysRequestedFound , found_num ) ;
ProfileEvents : : increment ( ProfileEvents : : DictCacheRequests ) ;
}
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PaddedPODArray < SSDCachePartition : : Key > SSDCacheStorage : : getCachedIds ( ) const
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{
PaddedPODArray < Key > array ;
const auto now = std : : chrono : : system_clock : : now ( ) ;
std : : shared_lock lock ( rw_lock ) ;
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for ( const auto & partition : partitions )
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{
const auto cached_in_partition = partition - > getCachedIds ( now ) ;
array . insert ( std : : begin ( cached_in_partition ) , std : : end ( cached_in_partition ) ) ;
}
return array ;
}
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double SSDCacheStorage : : getLoadFactor ( ) const
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{
double result = 0 ;
std : : shared_lock lock ( rw_lock ) ;
for ( const auto & partition : partitions )
result + = partition - > getLoadFactor ( ) ;
return result / partitions . size ( ) ;
}
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size_t SSDCacheStorage : : getElementCount ( ) const
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{
size_t result = 0 ;
std : : shared_lock lock ( rw_lock ) ;
for ( const auto & partition : partitions )
result + = partition - > getElementCount ( ) ;
return result ;
}
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void SSDCacheStorage : : collectGarbage ( )
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{
// add partitions to queue
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while ( partitions . size ( ) > max_partitions_count )
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{
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partition_delete_queue . splice ( std : : end ( partition_delete_queue ) , partitions , std : : prev ( std : : end ( partitions ) ) ) ;
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}
// drop unused partitions
while ( ! partition_delete_queue . empty ( ) & & partition_delete_queue . front ( ) . use_count ( ) = = 1 )
{
partition_delete_queue . front ( ) - > remove ( ) ;
partition_delete_queue . pop_front ( ) ;
}
}
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SSDCachePartition : : Attributes SSDCacheStorage : : createAttributesFromBlock (
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const Block & block , const size_t begin_column , const std : : vector < AttributeUnderlyingType > & structure )
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{
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SSDCachePartition : : Attributes attributes ;
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const auto columns = block . getColumns ( ) ;
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for ( size_t i = 0 ; i < structure . size ( ) ; + + i )
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{
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const auto & column = columns [ i + begin_column ] ;
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switch ( structure [ i ] )
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{
# define DISPATCH(TYPE) \
case AttributeUnderlyingType : : ut # # TYPE : \
{ \
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SSDCachePartition : : Attribute : : Container < TYPE > values ( column - > size ( ) ) ; \
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memcpy ( & values [ 0 ] , column - > getRawData ( ) . data , sizeof ( TYPE ) * values . size ( ) ) ; \
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attributes . emplace_back ( ) ; \
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attributes . back ( ) . type = structure [ i ] ; \
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attributes . back ( ) . values = std : : move ( values ) ; \
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} \
break ;
DISPATCH ( UInt8 )
DISPATCH ( UInt16 )
DISPATCH ( UInt32 )
DISPATCH ( UInt64 )
DISPATCH ( UInt128 )
DISPATCH ( Int8 )
DISPATCH ( Int16 )
DISPATCH ( Int32 )
DISPATCH ( Int64 )
DISPATCH ( Decimal32 )
DISPATCH ( Decimal64 )
DISPATCH ( Decimal128 )
DISPATCH ( Float32 )
DISPATCH ( Float64 )
# undef DISPATCH
case AttributeUnderlyingType : : utString :
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{
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attributes . emplace_back ( ) ;
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SSDCachePartition : : Attribute : : Container < String > values ( column - > size ( ) ) ;
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for ( size_t j = 0 ; j < column - > size ( ) ; + + j )
{
const auto ref = column - > getDataAt ( j ) ;
values [ j ] . resize ( ref . size ) ;
memcpy ( values [ j ] . data ( ) , ref . data , ref . size ) ;
}
attributes . back ( ) . type = structure [ i ] ;
attributes . back ( ) . values = std : : move ( values ) ;
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}
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break ;
}
}
return attributes ;
}
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SSDCacheDictionary : : SSDCacheDictionary (
const std : : string & name_ ,
const DictionaryStructure & dict_struct_ ,
DictionarySourcePtr source_ptr_ ,
const DictionaryLifetime dict_lifetime_ ,
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const std : : string & path_ ,
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const size_t max_partitions_count_ ,
const size_t partition_size_ ,
const size_t block_size_ ,
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const size_t read_buffer_size_ ,
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const size_t write_buffer_size_ ,
const size_t max_stored_keys_ )
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: name ( name_ )
, dict_struct ( dict_struct_ )
, source_ptr ( std : : move ( source_ptr_ ) )
, dict_lifetime ( dict_lifetime_ )
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, path ( path_ )
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, max_partitions_count ( max_partitions_count_ )
, partition_size ( partition_size_ )
, block_size ( block_size_ )
, read_buffer_size ( read_buffer_size_ )
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, write_buffer_size ( write_buffer_size_ )
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, max_stored_keys ( max_stored_keys_ )
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, storage ( ext : : map < std : : vector > ( dict_struct . attributes , [ ] ( const auto & attribute ) { return attribute . underlying_type ; } ) ,
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path , max_partitions_count , partition_size , block_size , read_buffer_size , write_buffer_size , max_stored_keys )
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, log ( & Poco : : Logger : : get ( " SSDCacheDictionary " ) )
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{
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LOG_INFO ( log , " Using storage path ' " < < path < < " '. " ) ;
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if ( ! this - > source_ptr - > supportsSelectiveLoad ( ) )
throw Exception { name + " : source cannot be used with CacheDictionary " , ErrorCodes : : UNSUPPORTED_METHOD } ;
createAttributes ( ) ;
}
# define DECLARE(TYPE) \
void SSDCacheDictionary : : get # # TYPE ( \
const std : : string & attribute_name , const PaddedPODArray < Key > & ids , ResultArrayType < TYPE > & out ) const \
{ \
const auto index = getAttributeIndex ( attribute_name ) ; \
checkAttributeType ( name , attribute_name , dict_struct . attributes [ index ] . underlying_type , AttributeUnderlyingType : : ut # # TYPE ) ; \
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const auto null_value = std : : get < TYPE > ( null_values [ index ] ) ; \
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getItemsNumberImpl < TYPE , TYPE > ( \
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index , \
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ids , \
out , \
[ & ] ( const size_t ) { return null_value ; } ) ; \
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}
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DECLARE ( UInt8 )
DECLARE ( UInt16 )
DECLARE ( UInt32 )
DECLARE ( UInt64 )
DECLARE ( UInt128 )
DECLARE ( Int8 )
DECLARE ( Int16 )
DECLARE ( Int32 )
DECLARE ( Int64 )
DECLARE ( Float32 )
DECLARE ( Float64 )
DECLARE ( Decimal32 )
DECLARE ( Decimal64 )
DECLARE ( Decimal128 )
# undef DECLARE
# define DECLARE(TYPE) \
void SSDCacheDictionary : : get # # TYPE ( \
const std : : string & attribute_name , \
const PaddedPODArray < Key > & ids , \
const PaddedPODArray < TYPE > & def , \
ResultArrayType < TYPE > & out ) const \
{ \
const auto index = getAttributeIndex ( attribute_name ) ; \
checkAttributeType ( name , attribute_name , dict_struct . attributes [ index ] . underlying_type , AttributeUnderlyingType : : ut # # TYPE ) ; \
getItemsNumberImpl < TYPE , TYPE > ( \
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index , \
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ids , \
out , \
[ & ] ( const size_t row ) { return def [ row ] ; } ) ; \
}
DECLARE ( UInt8 )
DECLARE ( UInt16 )
DECLARE ( UInt32 )
DECLARE ( UInt64 )
DECLARE ( UInt128 )
DECLARE ( Int8 )
DECLARE ( Int16 )
DECLARE ( Int32 )
DECLARE ( Int64 )
DECLARE ( Float32 )
DECLARE ( Float64 )
DECLARE ( Decimal32 )
DECLARE ( Decimal64 )
DECLARE ( Decimal128 )
# undef DECLARE
# define DECLARE(TYPE) \
void SSDCacheDictionary : : get # # TYPE ( \
const std : : string & attribute_name , \
const PaddedPODArray < Key > & ids , \
const TYPE def , \
ResultArrayType < TYPE > & out ) const \
{ \
const auto index = getAttributeIndex ( attribute_name ) ; \
checkAttributeType ( name , attribute_name , dict_struct . attributes [ index ] . underlying_type , AttributeUnderlyingType : : ut # # TYPE ) ; \
getItemsNumberImpl < TYPE , TYPE > ( \
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index , \
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ids , \
out , \
[ & ] ( const size_t ) { return def ; } ) ; \
}
DECLARE ( UInt8 )
DECLARE ( UInt16 )
DECLARE ( UInt32 )
DECLARE ( UInt64 )
DECLARE ( UInt128 )
DECLARE ( Int8 )
DECLARE ( Int16 )
DECLARE ( Int32 )
DECLARE ( Int64 )
DECLARE ( Float32 )
DECLARE ( Float64 )
DECLARE ( Decimal32 )
DECLARE ( Decimal64 )
DECLARE ( Decimal128 )
# undef DECLARE
template < typename AttributeType , typename OutputType , typename DefaultGetter >
void SSDCacheDictionary : : getItemsNumberImpl (
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const size_t attribute_index , const PaddedPODArray < Key > & ids , ResultArrayType < OutputType > & out , DefaultGetter & & get_default ) const
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{
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const auto now = std : : chrono : : system_clock : : now ( ) ;
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std : : unordered_map < Key , std : : vector < size_t > > not_found_ids ;
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storage . getValue < OutputType > ( attribute_index , ids , out , not_found_ids , get_default , now ) ;
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if ( not_found_ids . empty ( ) )
return ;
std : : vector < Key > required_ids ( not_found_ids . size ( ) ) ;
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std : : transform ( std : : begin ( not_found_ids ) , std : : end ( not_found_ids ) , std : : begin ( required_ids ) , [ ] ( const auto & pair ) { return pair . first ; } ) ;
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storage . update (
source_ptr ,
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required_ids ,
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[ & ] ( const auto id , const auto row , const auto & new_attributes )
{
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for ( const size_t out_row : not_found_ids [ id ] )
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out [ out_row ] = std : : get < SSDCachePartition : : Attribute : : Container < OutputType > > ( new_attributes [ attribute_index ] . values ) [ row ] ;
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} ,
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[ & ] ( const size_t id )
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{
for ( const size_t row : not_found_ids [ id ] )
out [ row ] = get_default ( row ) ;
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} ,
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getLifetime ( ) ) ;
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}
void SSDCacheDictionary : : getString ( const std : : string & attribute_name , const PaddedPODArray < Key > & ids , ColumnString * out ) const
{
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const auto index = getAttributeIndex ( attribute_name ) ;
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checkAttributeType ( name , attribute_name , dict_struct . attributes [ index ] . underlying_type , AttributeUnderlyingType : : utString ) ;
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const auto null_value = StringRef { std : : get < String > ( null_values [ index ] ) } ;
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getItemsStringImpl ( index , ids , out , [ & ] ( const size_t ) { return null_value ; } ) ;
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}
void SSDCacheDictionary : : getString (
const std : : string & attribute_name , const PaddedPODArray < Key > & ids , const ColumnString * const def , ColumnString * const out ) const
{
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const auto index = getAttributeIndex ( attribute_name ) ;
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checkAttributeType ( name , attribute_name , dict_struct . attributes [ index ] . underlying_type , AttributeUnderlyingType : : utString ) ;
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getItemsStringImpl ( index , ids , out , [ & ] ( const size_t row ) { return def - > getDataAt ( row ) ; } ) ;
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}
void SSDCacheDictionary : : getString (
const std : : string & attribute_name , const PaddedPODArray < Key > & ids , const String & def , ColumnString * const out ) const
{
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const auto index = getAttributeIndex ( attribute_name ) ;
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checkAttributeType ( name , attribute_name , dict_struct . attributes [ index ] . underlying_type , AttributeUnderlyingType : : utString ) ;
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getItemsStringImpl ( index , ids , out , [ & ] ( const size_t ) { return StringRef { def } ; } ) ;
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}
template < typename DefaultGetter >
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void SSDCacheDictionary : : getItemsStringImpl ( const size_t attribute_index , const PaddedPODArray < Key > & ids ,
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ColumnString * out , DefaultGetter & & get_default ) const
{
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const auto now = std : : chrono : : system_clock : : now ( ) ;
std : : unordered_map < Key , std : : vector < size_t > > not_found_ids ;
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StringRefs refs ( ids . size ( ) ) ;
ArenaWithFreeLists string_arena ;
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std : : vector < size_t > default_rows ;
storage . getString ( attribute_index , ids , refs , string_arena , not_found_ids , default_rows , now ) ;
std : : sort ( std : : begin ( default_rows ) , std : : end ( default_rows ) ) ;
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if ( not_found_ids . empty ( ) )
{
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size_t default_index = 0 ;
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for ( size_t row = 0 ; row < ids . size ( ) ; + + row )
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{
if ( unlikely ( default_index ! = default_rows . size ( ) & & default_rows [ default_index ] = = row ) )
{
auto to_insert = get_default ( row ) ;
out - > insertData ( to_insert . data , to_insert . size ) ;
+ + default_index ;
}
else
out - > insertData ( refs [ row ] . data , refs [ row ] . size ) ;
}
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return ;
}
std : : vector < Key > required_ids ( not_found_ids . size ( ) ) ;
std : : transform ( std : : begin ( not_found_ids ) , std : : end ( not_found_ids ) , std : : begin ( required_ids ) , [ ] ( const auto & pair ) { return pair . first ; } ) ;
std : : unordered_map < Key , String > update_result ;
storage . update (
source_ptr ,
required_ids ,
[ & ] ( const auto id , const auto row , const auto & new_attributes )
{
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update_result [ id ] = std : : get < SSDCachePartition : : Attribute : : Container < String > > ( new_attributes [ attribute_index ] . values ) [ row ] ;
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} ,
[ & ] ( const size_t ) { } ,
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getLifetime ( ) ) ;
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size_t default_index = 0 ;
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for ( size_t row = 0 ; row < ids . size ( ) ; + + row )
{
const auto & id = ids [ row ] ;
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if ( unlikely ( default_index ! = default_rows . size ( ) & & default_rows [ default_index ] = = row ) )
{
auto to_insert = get_default ( row ) ;
out - > insertData ( to_insert . data , to_insert . size ) ;
+ + default_index ;
}
else if ( auto it = not_found_ids . find ( id ) ; it = = std : : end ( not_found_ids ) )
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{
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out - > insertData ( refs [ row ] . data , refs [ row ] . size ) ;
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}
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else if ( auto it_update = update_result . find ( id ) ; it_update ! = std : : end ( update_result ) )
{
out - > insertData ( it_update - > second . data ( ) , it_update - > second . size ( ) ) ;
}
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else
{
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auto to_insert = get_default ( row ) ;
out - > insertData ( to_insert . data , to_insert . size ) ;
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}
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}
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}
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void SSDCacheDictionary : : has ( const PaddedPODArray < Key > & ids , PaddedPODArray < UInt8 > & out ) const
{
const auto now = std : : chrono : : system_clock : : now ( ) ;
std : : unordered_map < Key , std : : vector < size_t > > not_found_ids ;
storage . has ( ids , out , not_found_ids , now ) ;
if ( not_found_ids . empty ( ) )
return ;
std : : vector < Key > required_ids ( not_found_ids . size ( ) ) ;
std : : transform ( std : : begin ( not_found_ids ) , std : : end ( not_found_ids ) , std : : begin ( required_ids ) , [ ] ( const auto & pair ) { return pair . first ; } ) ;
storage . update (
source_ptr ,
required_ids ,
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[ & ] ( const auto id , const auto , const auto & )
{
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for ( const size_t out_row : not_found_ids [ id ] )
out [ out_row ] = true ;
} ,
[ & ] ( const size_t id )
{
for ( const size_t row : not_found_ids [ id ] )
out [ row ] = false ;
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} ,
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getLifetime ( ) ) ;
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}
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BlockInputStreamPtr SSDCacheDictionary : : getBlockInputStream ( const Names & column_names , size_t max_block_size ) const
{
using BlockInputStreamType = DictionaryBlockInputStream < SSDCacheDictionary , Key > ;
return std : : make_shared < BlockInputStreamType > ( shared_from_this ( ) , max_block_size , storage . getCachedIds ( ) , column_names ) ;
}
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size_t SSDCacheDictionary : : getAttributeIndex ( const std : : string & attr_name ) const
{
auto it = attribute_index_by_name . find ( attr_name ) ;
if ( it = = std : : end ( attribute_index_by_name ) )
throw Exception { " Attribute ` " + name + " ` does not exist. " , ErrorCodes : : BAD_ARGUMENTS } ;
return it - > second ;
}
template < typename T >
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AttributeValueVariant SSDCacheDictionary : : createAttributeNullValueWithTypeImpl ( const Field & null_value )
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{
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AttributeValueVariant var_null_value = static_cast < T > ( null_value . get < NearestFieldType < T > > ( ) ) ;
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bytes_allocated + = sizeof ( T ) ;
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return var_null_value ;
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}
template < >
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AttributeValueVariant SSDCacheDictionary : : createAttributeNullValueWithTypeImpl < String > ( const Field & null_value )
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{
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AttributeValueVariant var_null_value = null_value . get < String > ( ) ;
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bytes_allocated + = sizeof ( StringRef ) ;
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return var_null_value ;
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}
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AttributeValueVariant SSDCacheDictionary : : createAttributeNullValueWithType ( const AttributeUnderlyingType type , const Field & null_value )
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{
switch ( type )
{
# define DISPATCH(TYPE) \
case AttributeUnderlyingType : : ut # # TYPE : \
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return createAttributeNullValueWithTypeImpl < TYPE > ( null_value ) ;
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DISPATCH ( UInt8 )
DISPATCH ( UInt16 )
DISPATCH ( UInt32 )
DISPATCH ( UInt64 )
DISPATCH ( UInt128 )
DISPATCH ( Int8 )
DISPATCH ( Int16 )
DISPATCH ( Int32 )
DISPATCH ( Int64 )
DISPATCH ( Decimal32 )
DISPATCH ( Decimal64 )
DISPATCH ( Decimal128 )
DISPATCH ( Float32 )
DISPATCH ( Float64 )
DISPATCH ( String )
# undef DISPATCH
}
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throw Exception { " Unknown attribute type: " + std : : to_string ( static_cast < int > ( type ) ) , ErrorCodes : : TYPE_MISMATCH } ;
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}
void SSDCacheDictionary : : createAttributes ( )
{
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null_values . reserve ( dict_struct . attributes . size ( ) ) ;
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for ( size_t i = 0 ; i < dict_struct . attributes . size ( ) ; + + i )
{
const auto & attribute = dict_struct . attributes [ i ] ;
attribute_index_by_name . emplace ( attribute . name , i ) ;
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null_values . push_back ( createAttributeNullValueWithType ( attribute . underlying_type , attribute . null_value ) ) ;
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if ( attribute . hierarchical )
throw Exception { name + " : hierarchical attributes not supported for dictionary of type " + getTypeName ( ) ,
ErrorCodes : : TYPE_MISMATCH } ;
}
}
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void registerDictionarySSDCache ( DictionaryFactory & factory )
{
auto create_layout = [ = ] ( const std : : string & name ,
const DictionaryStructure & dict_struct ,
const Poco : : Util : : AbstractConfiguration & config ,
const std : : string & config_prefix ,
DictionarySourcePtr source_ptr ) - > DictionaryPtr
{
if ( dict_struct . key )
throw Exception { " 'key' is not supported for dictionary of layout 'cache' " , ErrorCodes : : UNSUPPORTED_METHOD } ;
if ( dict_struct . range_min | | dict_struct . range_max )
throw Exception { name
+ " : elements .structure.range_min and .structure.range_max should be defined only "
" for a dictionary of layout 'range_hashed' " ,
ErrorCodes : : BAD_ARGUMENTS } ;
const auto & layout_prefix = config_prefix + " .layout " ;
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const auto max_partitions_count = config . getInt ( layout_prefix + " .ssd_cache.max_partitions_count " , DEFAULT_PARTITIONS_COUNT ) ;
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if ( max_partitions_count < = 0 )
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throw Exception { name + " : dictionary of layout 'ssd_cache' cannot have 0 (or less) max_partitions_count " , ErrorCodes : : BAD_ARGUMENTS } ;
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const auto block_size = config . getInt ( layout_prefix + " .ssd_cache.block_size " , DEFAULT_SSD_BLOCK_SIZE ) ;
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if ( block_size < = 0 )
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throw Exception { name + " : dictionary of layout 'ssd_cache' cannot have 0 (or less) block_size " , ErrorCodes : : BAD_ARGUMENTS } ;
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const auto partition_size = config . getInt64 ( layout_prefix + " .ssd_cache.partition_size " , DEFAULT_FILE_SIZE ) ;
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if ( partition_size < = 0 )
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throw Exception { name + " : dictionary of layout 'ssd_cache' cannot have 0 (or less) partition_size " , ErrorCodes : : BAD_ARGUMENTS } ;
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if ( partition_size % block_size ! = 0 )
throw Exception { name + " : partition_size must be a multiple of block_size " , ErrorCodes : : BAD_ARGUMENTS } ;
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const auto read_buffer_size = config . getInt64 ( layout_prefix + " .ssd_cache.read_buffer_size " , DEFAULT_READ_BUFFER_SIZE ) ;
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if ( read_buffer_size < = 0 )
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throw Exception { name + " : dictionary of layout 'ssd_cache' cannot have 0 (or less) read_buffer_size " , ErrorCodes : : BAD_ARGUMENTS } ;
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if ( read_buffer_size % block_size ! = 0 )
throw Exception { name + " : read_buffer_size must be a multiple of block_size " , ErrorCodes : : BAD_ARGUMENTS } ;
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const auto write_buffer_size = config . getInt64 ( layout_prefix + " .ssd_cache.write_buffer_size " , DEFAULT_WRITE_BUFFER_SIZE ) ;
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if ( write_buffer_size < = 0 )
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throw Exception { name + " : dictionary of layout 'ssd_cache' cannot have 0 (or less) write_buffer_size " , ErrorCodes : : BAD_ARGUMENTS } ;
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if ( write_buffer_size % block_size ! = 0 )
throw Exception { name + " : write_buffer_size must be a multiple of block_size " , ErrorCodes : : BAD_ARGUMENTS } ;
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auto path = config . getString ( layout_prefix + " .ssd_cache.path " ) ;
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if ( path . empty ( ) )
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throw Exception { name + " : dictionary of layout 'ssd_cache' cannot have empty path " ,
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ErrorCodes : : BAD_ARGUMENTS } ;
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if ( path . at ( 0 ) ! = ' / ' )
path = std : : filesystem : : path { config . getString ( " path " ) } . concat ( path ) . string ( ) ;
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const auto max_stored_keys = config . getInt64 ( layout_prefix + " .ssd_cache.max_stored_keys " , DEFAULT_MAX_STORED_KEYS ) ;
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if ( max_stored_keys < = 0 )
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throw Exception { name + " : dictionary of layout 'ssd_cache' cannot have 0 (or less) max_stored_keys " , ErrorCodes : : BAD_ARGUMENTS } ;
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const DictionaryLifetime dict_lifetime { config , config_prefix + " .lifetime " } ;
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return std : : make_unique < SSDCacheDictionary > (
name , dict_struct , std : : move ( source_ptr ) , dict_lifetime , path ,
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max_partitions_count , partition_size / block_size , block_size ,
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read_buffer_size / block_size , write_buffer_size / block_size ,
max_stored_keys ) ;
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} ;
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factory . registerLayout ( " ssd_cache " , create_layout , false ) ;
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}
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}