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/*
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* Copyright ( c ) 2016 - present , Yann Collet , Facebook , Inc .
* All rights reserved .
*
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* This source code is licensed under both the BSD - style license ( found in the
* LICENSE file in the root directory of this source tree ) and the GPLv2 ( found
* in the COPYING file in the root directory of this source tree ) .
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* You may select , at your option , one of the above - listed licenses .
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*/
/* ====== Compiler specifics ====== */
# if defined(_MSC_VER)
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# pragma warning(disable : 4204) /* disable: C4204: non-constant aggregate initializer */
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# endif
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/* ====== Constants ====== */
# define ZSTDMT_OVERLAPLOG_DEFAULT 0
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/* ====== Dependencies ====== */
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# include <string.h> /* memcpy, memset */
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# include <limits.h> /* INT_MAX, UINT_MAX */
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# include "mem.h" /* MEM_STATIC */
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# include "pool.h" /* threadpool */
# include "threading.h" /* mutex */
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# include "zstd_compress_internal.h" /* MIN, ERROR, ZSTD_*, ZSTD_highbit32 */
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# include "zstd_ldm.h"
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# include "zstdmt_compress.h"
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/* Guards code to support resizing the SeqPool.
* We will want to resize the SeqPool to save memory in the future .
* Until then , comment the code out since it is unused .
*/
# define ZSTD_RESIZE_SEQPOOL 0
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/* ====== Debug ====== */
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# if defined(DEBUGLEVEL) && (DEBUGLEVEL>=2) \
& & ! defined ( _MSC_VER ) \
& & ! defined ( __MINGW32__ )
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# include <stdio.h>
# include <unistd.h>
# include <sys / times.h>
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# define DEBUG_PRINTHEX(l,p,n) { \
unsigned debug_u ; \
for ( debug_u = 0 ; debug_u < ( n ) ; debug_u + + ) \
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RAWLOG ( l , " %02X " , ( ( const unsigned char * ) ( p ) ) [ debug_u ] ) ; \
RAWLOG ( l , " \n " ) ; \
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}
static unsigned long long GetCurrentClockTimeMicroseconds ( void )
{
static clock_t _ticksPerSecond = 0 ;
if ( _ticksPerSecond < = 0 ) _ticksPerSecond = sysconf ( _SC_CLK_TCK ) ;
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{ struct tms junk ; clock_t newTicks = ( clock_t ) times ( & junk ) ;
return ( ( ( ( unsigned long long ) newTicks ) * ( 1000000 ) ) / _ticksPerSecond ) ;
} }
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# define MUTEX_WAIT_TIME_DLEVEL 6
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# define ZSTD_PTHREAD_MUTEX_LOCK(mutex) { \
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if ( DEBUGLEVEL > = MUTEX_WAIT_TIME_DLEVEL ) { \
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unsigned long long const beforeTime = GetCurrentClockTimeMicroseconds ( ) ; \
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ZSTD_pthread_mutex_lock ( mutex ) ; \
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{ unsigned long long const afterTime = GetCurrentClockTimeMicroseconds ( ) ; \
unsigned long long const elapsedTime = ( afterTime - beforeTime ) ; \
if ( elapsedTime > 1000 ) { /* or whatever threshold you like; I'm using 1 millisecond here */ \
DEBUGLOG ( MUTEX_WAIT_TIME_DLEVEL , " Thread took %llu microseconds to acquire mutex %s \n " , \
elapsedTime , # mutex ) ; \
} } \
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} else { \
ZSTD_pthread_mutex_lock ( mutex ) ; \
} \
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}
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# else
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# define ZSTD_PTHREAD_MUTEX_LOCK(m) ZSTD_pthread_mutex_lock(m)
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# define DEBUG_PRINTHEX(l,p,n) {}
# endif
/* ===== Buffer Pool ===== */
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/* a single Buffer Pool can be invoked from multiple threads in parallel */
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typedef struct buffer_s {
void * start ;
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size_t capacity ;
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} buffer_t ;
static const buffer_t g_nullBuffer = { NULL , 0 } ;
typedef struct ZSTDMT_bufferPool_s {
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ZSTD_pthread_mutex_t poolMutex ;
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size_t bufferSize ;
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unsigned totalBuffers ;
unsigned nbBuffers ;
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ZSTD_customMem cMem ;
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buffer_t bTable [ 1 ] ; /* variable size */
} ZSTDMT_bufferPool ;
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static ZSTDMT_bufferPool * ZSTDMT_createBufferPool ( unsigned nbWorkers , ZSTD_customMem cMem )
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{
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unsigned const maxNbBuffers = 2 * nbWorkers + 3 ;
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ZSTDMT_bufferPool * const bufPool = ( ZSTDMT_bufferPool * ) ZSTD_calloc (
sizeof ( ZSTDMT_bufferPool ) + ( maxNbBuffers - 1 ) * sizeof ( buffer_t ) , cMem ) ;
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if ( bufPool = = NULL ) return NULL ;
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if ( ZSTD_pthread_mutex_init ( & bufPool - > poolMutex , NULL ) ) {
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ZSTD_free ( bufPool , cMem ) ;
return NULL ;
}
bufPool - > bufferSize = 64 KB ;
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bufPool - > totalBuffers = maxNbBuffers ;
bufPool - > nbBuffers = 0 ;
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bufPool - > cMem = cMem ;
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return bufPool ;
}
static void ZSTDMT_freeBufferPool ( ZSTDMT_bufferPool * bufPool )
{
unsigned u ;
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DEBUGLOG ( 3 , " ZSTDMT_freeBufferPool (address:%08X) " , ( U32 ) ( size_t ) bufPool ) ;
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if ( ! bufPool ) return ; /* compatibility with free on NULL */
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for ( u = 0 ; u < bufPool - > totalBuffers ; u + + ) {
DEBUGLOG ( 4 , " free buffer %2u (address:%08X) " , u , ( U32 ) ( size_t ) bufPool - > bTable [ u ] . start ) ;
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ZSTD_free ( bufPool - > bTable [ u ] . start , bufPool - > cMem ) ;
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}
ZSTD_pthread_mutex_destroy ( & bufPool - > poolMutex ) ;
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ZSTD_free ( bufPool , bufPool - > cMem ) ;
}
/* only works at initialization, not during compression */
static size_t ZSTDMT_sizeof_bufferPool ( ZSTDMT_bufferPool * bufPool )
{
size_t const poolSize = sizeof ( * bufPool )
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+ ( bufPool - > totalBuffers - 1 ) * sizeof ( buffer_t ) ;
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unsigned u ;
size_t totalBufferSize = 0 ;
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ZSTD_pthread_mutex_lock ( & bufPool - > poolMutex ) ;
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for ( u = 0 ; u < bufPool - > totalBuffers ; u + + )
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totalBufferSize + = bufPool - > bTable [ u ] . capacity ;
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ZSTD_pthread_mutex_unlock ( & bufPool - > poolMutex ) ;
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return poolSize + totalBufferSize ;
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}
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/* ZSTDMT_setBufferSize() :
* all future buffers provided by this buffer pool will have _at least_ this size
* note : it ' s better for all buffers to have same size ,
* as they become freely interchangeable , reducing malloc / free usages and memory fragmentation */
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static void ZSTDMT_setBufferSize ( ZSTDMT_bufferPool * const bufPool , size_t const bSize )
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{
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ZSTD_pthread_mutex_lock ( & bufPool - > poolMutex ) ;
DEBUGLOG ( 4 , " ZSTDMT_setBufferSize: bSize = %u " , ( U32 ) bSize ) ;
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bufPool - > bufferSize = bSize ;
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ZSTD_pthread_mutex_unlock ( & bufPool - > poolMutex ) ;
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}
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static ZSTDMT_bufferPool * ZSTDMT_expandBufferPool ( ZSTDMT_bufferPool * srcBufPool , U32 nbWorkers )
{
unsigned const maxNbBuffers = 2 * nbWorkers + 3 ;
if ( srcBufPool = = NULL ) return NULL ;
if ( srcBufPool - > totalBuffers > = maxNbBuffers ) /* good enough */
return srcBufPool ;
/* need a larger buffer pool */
{ ZSTD_customMem const cMem = srcBufPool - > cMem ;
size_t const bSize = srcBufPool - > bufferSize ; /* forward parameters */
ZSTDMT_bufferPool * newBufPool ;
ZSTDMT_freeBufferPool ( srcBufPool ) ;
newBufPool = ZSTDMT_createBufferPool ( nbWorkers , cMem ) ;
if ( newBufPool = = NULL ) return newBufPool ;
ZSTDMT_setBufferSize ( newBufPool , bSize ) ;
return newBufPool ;
}
}
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/** ZSTDMT_getBuffer() :
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* assumption : bufPool must be valid
* @ return : a buffer , with start pointer and size
* note : allocation may fail , in this case , start = = NULL and size = = 0 */
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static buffer_t ZSTDMT_getBuffer ( ZSTDMT_bufferPool * bufPool )
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{
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size_t const bSize = bufPool - > bufferSize ;
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DEBUGLOG ( 5 , " ZSTDMT_getBuffer: bSize = %u " , ( U32 ) bufPool - > bufferSize ) ;
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ZSTD_pthread_mutex_lock ( & bufPool - > poolMutex ) ;
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if ( bufPool - > nbBuffers ) { /* try to use an existing buffer */
buffer_t const buf = bufPool - > bTable [ - - ( bufPool - > nbBuffers ) ] ;
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size_t const availBufferSize = buf . capacity ;
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bufPool - > bTable [ bufPool - > nbBuffers ] = g_nullBuffer ;
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if ( ( availBufferSize > = bSize ) & ( ( availBufferSize > > 3 ) < = bSize ) ) {
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/* large enough, but not too much */
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DEBUGLOG ( 5 , " ZSTDMT_getBuffer: provide buffer %u of size %u " ,
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bufPool - > nbBuffers , ( U32 ) buf . capacity ) ;
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ZSTD_pthread_mutex_unlock ( & bufPool - > poolMutex ) ;
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return buf ;
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}
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/* size conditions not respected : scratch this buffer, create new one */
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DEBUGLOG ( 5 , " ZSTDMT_getBuffer: existing buffer does not meet size conditions => freeing " ) ;
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ZSTD_free ( buf . start , bufPool - > cMem ) ;
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}
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ZSTD_pthread_mutex_unlock ( & bufPool - > poolMutex ) ;
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/* create new buffer */
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DEBUGLOG ( 5 , " ZSTDMT_getBuffer: create a new buffer " ) ;
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{ buffer_t buffer ;
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void * const start = ZSTD_malloc ( bSize , bufPool - > cMem ) ;
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buffer . start = start ; /* note : start can be NULL if malloc fails ! */
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buffer . capacity = ( start = = NULL ) ? 0 : bSize ;
if ( start = = NULL ) {
DEBUGLOG ( 5 , " ZSTDMT_getBuffer: buffer allocation failure !! " ) ;
} else {
DEBUGLOG ( 5 , " ZSTDMT_getBuffer: created buffer of size %u " , ( U32 ) bSize ) ;
}
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return buffer ;
}
}
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# if ZSTD_RESIZE_SEQPOOL
/** ZSTDMT_resizeBuffer() :
* assumption : bufPool must be valid
* @ return : a buffer that is at least the buffer pool buffer size .
* If a reallocation happens , the data in the input buffer is copied .
*/
static buffer_t ZSTDMT_resizeBuffer ( ZSTDMT_bufferPool * bufPool , buffer_t buffer )
{
size_t const bSize = bufPool - > bufferSize ;
if ( buffer . capacity < bSize ) {
void * const start = ZSTD_malloc ( bSize , bufPool - > cMem ) ;
buffer_t newBuffer ;
newBuffer . start = start ;
newBuffer . capacity = start = = NULL ? 0 : bSize ;
if ( start ! = NULL ) {
assert ( newBuffer . capacity > = buffer . capacity ) ;
memcpy ( newBuffer . start , buffer . start , buffer . capacity ) ;
DEBUGLOG ( 5 , " ZSTDMT_resizeBuffer: created buffer of size %u " , ( U32 ) bSize ) ;
return newBuffer ;
}
DEBUGLOG ( 5 , " ZSTDMT_resizeBuffer: buffer allocation failure !! " ) ;
}
return buffer ;
}
# endif
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/* store buffer for later re-use, up to pool capacity */
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static void ZSTDMT_releaseBuffer ( ZSTDMT_bufferPool * bufPool , buffer_t buf )
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{
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DEBUGLOG ( 5 , " ZSTDMT_releaseBuffer " ) ;
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if ( buf . start = = NULL ) return ; /* compatible with release on NULL */
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ZSTD_pthread_mutex_lock ( & bufPool - > poolMutex ) ;
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if ( bufPool - > nbBuffers < bufPool - > totalBuffers ) {
bufPool - > bTable [ bufPool - > nbBuffers + + ] = buf ; /* stored for later use */
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DEBUGLOG ( 5 , " ZSTDMT_releaseBuffer: stored buffer of size %u in slot %u " ,
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( U32 ) buf . capacity , ( U32 ) ( bufPool - > nbBuffers - 1 ) ) ;
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ZSTD_pthread_mutex_unlock ( & bufPool - > poolMutex ) ;
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return ;
}
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ZSTD_pthread_mutex_unlock ( & bufPool - > poolMutex ) ;
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/* Reached bufferPool capacity (should not happen) */
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DEBUGLOG ( 5 , " ZSTDMT_releaseBuffer: pool capacity reached => freeing " ) ;
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ZSTD_free ( buf . start , bufPool - > cMem ) ;
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}
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/* ===== Seq Pool Wrapper ====== */
static rawSeqStore_t kNullRawSeqStore = { NULL , 0 , 0 , 0 } ;
typedef ZSTDMT_bufferPool ZSTDMT_seqPool ;
static size_t ZSTDMT_sizeof_seqPool ( ZSTDMT_seqPool * seqPool )
{
return ZSTDMT_sizeof_bufferPool ( seqPool ) ;
}
static rawSeqStore_t bufferToSeq ( buffer_t buffer )
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{
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rawSeqStore_t seq = { NULL , 0 , 0 , 0 } ;
seq . seq = ( rawSeq * ) buffer . start ;
seq . capacity = buffer . capacity / sizeof ( rawSeq ) ;
return seq ;
}
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static buffer_t seqToBuffer ( rawSeqStore_t seq )
{
buffer_t buffer ;
buffer . start = seq . seq ;
buffer . capacity = seq . capacity * sizeof ( rawSeq ) ;
return buffer ;
}
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static rawSeqStore_t ZSTDMT_getSeq ( ZSTDMT_seqPool * seqPool )
{
if ( seqPool - > bufferSize = = 0 ) {
return kNullRawSeqStore ;
}
return bufferToSeq ( ZSTDMT_getBuffer ( seqPool ) ) ;
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}
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# if ZSTD_RESIZE_SEQPOOL
static rawSeqStore_t ZSTDMT_resizeSeq ( ZSTDMT_seqPool * seqPool , rawSeqStore_t seq )
{
return bufferToSeq ( ZSTDMT_resizeBuffer ( seqPool , seqToBuffer ( seq ) ) ) ;
}
# endif
static void ZSTDMT_releaseSeq ( ZSTDMT_seqPool * seqPool , rawSeqStore_t seq )
{
ZSTDMT_releaseBuffer ( seqPool , seqToBuffer ( seq ) ) ;
}
static void ZSTDMT_setNbSeq ( ZSTDMT_seqPool * const seqPool , size_t const nbSeq )
{
ZSTDMT_setBufferSize ( seqPool , nbSeq * sizeof ( rawSeq ) ) ;
}
static ZSTDMT_seqPool * ZSTDMT_createSeqPool ( unsigned nbWorkers , ZSTD_customMem cMem )
{
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ZSTDMT_seqPool * const seqPool = ZSTDMT_createBufferPool ( nbWorkers , cMem ) ;
if ( seqPool = = NULL ) return NULL ;
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ZSTDMT_setNbSeq ( seqPool , 0 ) ;
return seqPool ;
}
static void ZSTDMT_freeSeqPool ( ZSTDMT_seqPool * seqPool )
{
ZSTDMT_freeBufferPool ( seqPool ) ;
}
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static ZSTDMT_seqPool * ZSTDMT_expandSeqPool ( ZSTDMT_seqPool * pool , U32 nbWorkers )
{
return ZSTDMT_expandBufferPool ( pool , nbWorkers ) ;
}
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/* ===== CCtx Pool ===== */
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/* a single CCtx Pool can be invoked from multiple threads in parallel */
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typedef struct {
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ZSTD_pthread_mutex_t poolMutex ;
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int totalCCtx ;
int availCCtx ;
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ZSTD_customMem cMem ;
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ZSTD_CCtx * cctx [ 1 ] ; /* variable size */
} ZSTDMT_CCtxPool ;
/* note : all CCtx borrowed from the pool should be released back to the pool _before_ freeing the pool */
static void ZSTDMT_freeCCtxPool ( ZSTDMT_CCtxPool * pool )
{
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int cid ;
for ( cid = 0 ; cid < pool - > totalCCtx ; cid + + )
ZSTD_freeCCtx ( pool - > cctx [ cid ] ) ; /* note : compatible with free on NULL */
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ZSTD_pthread_mutex_destroy ( & pool - > poolMutex ) ;
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ZSTD_free ( pool , pool - > cMem ) ;
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}
/* ZSTDMT_createCCtxPool() :
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* implies nbWorkers > = 1 , checked by caller ZSTDMT_createCCtx ( ) */
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static ZSTDMT_CCtxPool * ZSTDMT_createCCtxPool ( int nbWorkers ,
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ZSTD_customMem cMem )
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{
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ZSTDMT_CCtxPool * const cctxPool = ( ZSTDMT_CCtxPool * ) ZSTD_calloc (
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sizeof ( ZSTDMT_CCtxPool ) + ( nbWorkers - 1 ) * sizeof ( ZSTD_CCtx * ) , cMem ) ;
assert ( nbWorkers > 0 ) ;
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if ( ! cctxPool ) return NULL ;
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if ( ZSTD_pthread_mutex_init ( & cctxPool - > poolMutex , NULL ) ) {
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ZSTD_free ( cctxPool , cMem ) ;
return NULL ;
}
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cctxPool - > cMem = cMem ;
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cctxPool - > totalCCtx = nbWorkers ;
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cctxPool - > availCCtx = 1 ; /* at least one cctx for single-thread mode */
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cctxPool - > cctx [ 0 ] = ZSTD_createCCtx_advanced ( cMem ) ;
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if ( ! cctxPool - > cctx [ 0 ] ) { ZSTDMT_freeCCtxPool ( cctxPool ) ; return NULL ; }
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DEBUGLOG ( 3 , " cctxPool created, with %u workers " , nbWorkers ) ;
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return cctxPool ;
}
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static ZSTDMT_CCtxPool * ZSTDMT_expandCCtxPool ( ZSTDMT_CCtxPool * srcPool ,
int nbWorkers )
{
if ( srcPool = = NULL ) return NULL ;
if ( nbWorkers < = srcPool - > totalCCtx ) return srcPool ; /* good enough */
/* need a larger cctx pool */
{ ZSTD_customMem const cMem = srcPool - > cMem ;
ZSTDMT_freeCCtxPool ( srcPool ) ;
return ZSTDMT_createCCtxPool ( nbWorkers , cMem ) ;
}
}
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/* only works during initialization phase, not during compression */
static size_t ZSTDMT_sizeof_CCtxPool ( ZSTDMT_CCtxPool * cctxPool )
{
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ZSTD_pthread_mutex_lock ( & cctxPool - > poolMutex ) ;
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{ unsigned const nbWorkers = cctxPool - > totalCCtx ;
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size_t const poolSize = sizeof ( * cctxPool )
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+ ( nbWorkers - 1 ) * sizeof ( ZSTD_CCtx * ) ;
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unsigned u ;
size_t totalCCtxSize = 0 ;
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for ( u = 0 ; u < nbWorkers ; u + + ) {
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totalCCtxSize + = ZSTD_sizeof_CCtx ( cctxPool - > cctx [ u ] ) ;
}
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ZSTD_pthread_mutex_unlock ( & cctxPool - > poolMutex ) ;
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assert ( nbWorkers > 0 ) ;
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return poolSize + totalCCtxSize ;
}
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}
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static ZSTD_CCtx * ZSTDMT_getCCtx ( ZSTDMT_CCtxPool * cctxPool )
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{
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DEBUGLOG ( 5 , " ZSTDMT_getCCtx " ) ;
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ZSTD_pthread_mutex_lock ( & cctxPool - > poolMutex ) ;
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if ( cctxPool - > availCCtx ) {
cctxPool - > availCCtx - - ;
{ ZSTD_CCtx * const cctx = cctxPool - > cctx [ cctxPool - > availCCtx ] ;
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ZSTD_pthread_mutex_unlock ( & cctxPool - > poolMutex ) ;
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return cctx ;
} }
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ZSTD_pthread_mutex_unlock ( & cctxPool - > poolMutex ) ;
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DEBUGLOG ( 5 , " create one more CCtx " ) ;
return ZSTD_createCCtx_advanced ( cctxPool - > cMem ) ; /* note : can be NULL, when creation fails ! */
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}
static void ZSTDMT_releaseCCtx ( ZSTDMT_CCtxPool * pool , ZSTD_CCtx * cctx )
{
if ( cctx = = NULL ) return ; /* compatibility with release on NULL */
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ZSTD_pthread_mutex_lock ( & pool - > poolMutex ) ;
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if ( pool - > availCCtx < pool - > totalCCtx )
pool - > cctx [ pool - > availCCtx + + ] = cctx ;
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else {
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/* pool overflow : should not happen, since totalCCtx==nbWorkers */
DEBUGLOG ( 4 , " CCtx pool overflow : free cctx " ) ;
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ZSTD_freeCCtx ( cctx ) ;
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}
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ZSTD_pthread_mutex_unlock ( & pool - > poolMutex ) ;
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}
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/* ==== Serial State ==== */
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typedef struct {
void const * start ;
size_t size ;
} range_t ;
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typedef struct {
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/* All variables in the struct are protected by mutex. */
ZSTD_pthread_mutex_t mutex ;
ZSTD_pthread_cond_t cond ;
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ZSTD_CCtx_params params ;
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ldmState_t ldmState ;
XXH64_state_t xxhState ;
unsigned nextJobID ;
/* Protects ldmWindow.
* Must be acquired after the main mutex when acquiring both .
*/
ZSTD_pthread_mutex_t ldmWindowMutex ;
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ZSTD_pthread_cond_t ldmWindowCond ; /* Signaled when ldmWindow is updated */
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ZSTD_window_t ldmWindow ; /* A thread-safe copy of ldmState.window */
} serialState_t ;
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static int ZSTDMT_serialState_reset ( serialState_t * serialState , ZSTDMT_seqPool * seqPool , ZSTD_CCtx_params params , size_t jobSize )
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{
/* Adjust parameters */
if ( params . ldmParams . enableLdm ) {
DEBUGLOG ( 4 , " LDM window size = %u KB " , ( 1U < < params . cParams . windowLog ) > > 10 ) ;
ZSTD_ldm_adjustParameters ( & params . ldmParams , & params . cParams ) ;
assert ( params . ldmParams . hashLog > = params . ldmParams . bucketSizeLog ) ;
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assert ( params . ldmParams . hashRateLog < 32 ) ;
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serialState - > ldmState . hashPower =
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ZSTD_rollingHash_primePower ( params . ldmParams . minMatchLength ) ;
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} else {
memset ( & params . ldmParams , 0 , sizeof ( params . ldmParams ) ) ;
}
serialState - > nextJobID = 0 ;
if ( params . fParams . checksumFlag )
XXH64_reset ( & serialState - > xxhState , 0 ) ;
if ( params . ldmParams . enableLdm ) {
ZSTD_customMem cMem = params . customMem ;
unsigned const hashLog = params . ldmParams . hashLog ;
size_t const hashSize = ( ( size_t ) 1 < < hashLog ) * sizeof ( ldmEntry_t ) ;
unsigned const bucketLog =
params . ldmParams . hashLog - params . ldmParams . bucketSizeLog ;
size_t const bucketSize = ( size_t ) 1 < < bucketLog ;
unsigned const prevBucketLog =
serialState - > params . ldmParams . hashLog -
serialState - > params . ldmParams . bucketSizeLog ;
/* Size the seq pool tables */
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ZSTDMT_setNbSeq ( seqPool , ZSTD_ldm_getMaxNbSeq ( params . ldmParams , jobSize ) ) ;
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/* Reset the window */
ZSTD_window_clear ( & serialState - > ldmState . window ) ;
serialState - > ldmWindow = serialState - > ldmState . window ;
/* Resize tables and output space if necessary. */
if ( serialState - > ldmState . hashTable = = NULL | | serialState - > params . ldmParams . hashLog < hashLog ) {
ZSTD_free ( serialState - > ldmState . hashTable , cMem ) ;
serialState - > ldmState . hashTable = ( ldmEntry_t * ) ZSTD_malloc ( hashSize , cMem ) ;
}
if ( serialState - > ldmState . bucketOffsets = = NULL | | prevBucketLog < bucketLog ) {
ZSTD_free ( serialState - > ldmState . bucketOffsets , cMem ) ;
serialState - > ldmState . bucketOffsets = ( BYTE * ) ZSTD_malloc ( bucketSize , cMem ) ;
}
if ( ! serialState - > ldmState . hashTable | | ! serialState - > ldmState . bucketOffsets )
return 1 ;
/* Zero the tables */
memset ( serialState - > ldmState . hashTable , 0 , hashSize ) ;
memset ( serialState - > ldmState . bucketOffsets , 0 , bucketSize ) ;
}
serialState - > params = params ;
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serialState - > params . jobSize = ( U32 ) jobSize ;
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return 0 ;
}
static int ZSTDMT_serialState_init ( serialState_t * serialState )
{
int initError = 0 ;
memset ( serialState , 0 , sizeof ( * serialState ) ) ;
initError | = ZSTD_pthread_mutex_init ( & serialState - > mutex , NULL ) ;
initError | = ZSTD_pthread_cond_init ( & serialState - > cond , NULL ) ;
initError | = ZSTD_pthread_mutex_init ( & serialState - > ldmWindowMutex , NULL ) ;
initError | = ZSTD_pthread_cond_init ( & serialState - > ldmWindowCond , NULL ) ;
return initError ;
}
static void ZSTDMT_serialState_free ( serialState_t * serialState )
{
ZSTD_customMem cMem = serialState - > params . customMem ;
ZSTD_pthread_mutex_destroy ( & serialState - > mutex ) ;
ZSTD_pthread_cond_destroy ( & serialState - > cond ) ;
ZSTD_pthread_mutex_destroy ( & serialState - > ldmWindowMutex ) ;
ZSTD_pthread_cond_destroy ( & serialState - > ldmWindowCond ) ;
ZSTD_free ( serialState - > ldmState . hashTable , cMem ) ;
ZSTD_free ( serialState - > ldmState . bucketOffsets , cMem ) ;
}
static void ZSTDMT_serialState_update ( serialState_t * serialState ,
ZSTD_CCtx * jobCCtx , rawSeqStore_t seqStore ,
range_t src , unsigned jobID )
{
/* Wait for our turn */
ZSTD_PTHREAD_MUTEX_LOCK ( & serialState - > mutex ) ;
while ( serialState - > nextJobID < jobID ) {
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DEBUGLOG ( 5 , " wait for serialState->cond " ) ;
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ZSTD_pthread_cond_wait ( & serialState - > cond , & serialState - > mutex ) ;
}
/* A future job may error and skip our job */
if ( serialState - > nextJobID = = jobID ) {
/* It is now our turn, do any processing necessary */
if ( serialState - > params . ldmParams . enableLdm ) {
size_t error ;
assert ( seqStore . seq ! = NULL & & seqStore . pos = = 0 & &
seqStore . size = = 0 & & seqStore . capacity > 0 ) ;
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assert ( src . size < = serialState - > params . jobSize ) ;
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ZSTD_window_update ( & serialState - > ldmState . window , src . start , src . size ) ;
error = ZSTD_ldm_generateSequences (
& serialState - > ldmState , & seqStore ,
& serialState - > params . ldmParams , src . start , src . size ) ;
/* We provide a large enough buffer to never fail. */
assert ( ! ZSTD_isError ( error ) ) ; ( void ) error ;
/* Update ldmWindow to match the ldmState.window and signal the main
* thread if it is waiting for a buffer .
*/
ZSTD_PTHREAD_MUTEX_LOCK ( & serialState - > ldmWindowMutex ) ;
serialState - > ldmWindow = serialState - > ldmState . window ;
ZSTD_pthread_cond_signal ( & serialState - > ldmWindowCond ) ;
ZSTD_pthread_mutex_unlock ( & serialState - > ldmWindowMutex ) ;
}
if ( serialState - > params . fParams . checksumFlag & & src . size > 0 )
XXH64_update ( & serialState - > xxhState , src . start , src . size ) ;
}
/* Now it is the next jobs turn */
serialState - > nextJobID + + ;
ZSTD_pthread_cond_broadcast ( & serialState - > cond ) ;
ZSTD_pthread_mutex_unlock ( & serialState - > mutex ) ;
if ( seqStore . size > 0 ) {
size_t const err = ZSTD_referenceExternalSequences (
jobCCtx , seqStore . seq , seqStore . size ) ;
assert ( serialState - > params . ldmParams . enableLdm ) ;
assert ( ! ZSTD_isError ( err ) ) ;
( void ) err ;
}
}
static void ZSTDMT_serialState_ensureFinished ( serialState_t * serialState ,
unsigned jobID , size_t cSize )
{
ZSTD_PTHREAD_MUTEX_LOCK ( & serialState - > mutex ) ;
if ( serialState - > nextJobID < = jobID ) {
assert ( ZSTD_isError ( cSize ) ) ; ( void ) cSize ;
DEBUGLOG ( 5 , " Skipping past job %u because of error " , jobID ) ;
serialState - > nextJobID = jobID + 1 ;
ZSTD_pthread_cond_broadcast ( & serialState - > cond ) ;
ZSTD_PTHREAD_MUTEX_LOCK ( & serialState - > ldmWindowMutex ) ;
ZSTD_window_clear ( & serialState - > ldmWindow ) ;
ZSTD_pthread_cond_signal ( & serialState - > ldmWindowCond ) ;
ZSTD_pthread_mutex_unlock ( & serialState - > ldmWindowMutex ) ;
}
ZSTD_pthread_mutex_unlock ( & serialState - > mutex ) ;
}
/* ------------------------------------------ */
/* ===== Worker thread ===== */
/* ------------------------------------------ */
static const range_t kNullRange = { NULL , 0 } ;
typedef struct {
size_t consumed ; /* SHARED - set0 by mtctx, then modified by worker AND read by mtctx */
size_t cSize ; /* SHARED - set0 by mtctx, then modified by worker AND read by mtctx, then set0 by mtctx */
ZSTD_pthread_mutex_t job_mutex ; /* Thread-safe - used by mtctx and worker */
ZSTD_pthread_cond_t job_cond ; /* Thread-safe - used by mtctx and worker */
ZSTDMT_CCtxPool * cctxPool ; /* Thread-safe - used by mtctx and (all) workers */
ZSTDMT_bufferPool * bufPool ; /* Thread-safe - used by mtctx and (all) workers */
ZSTDMT_seqPool * seqPool ; /* Thread-safe - used by mtctx and (all) workers */
serialState_t * serial ; /* Thread-safe - used by mtctx and (all) workers */
buffer_t dstBuff ; /* set by worker (or mtctx), then read by worker & mtctx, then modified by mtctx => no barrier */
range_t prefix ; /* set by mtctx, then read by worker & mtctx => no barrier */
range_t src ; /* set by mtctx, then read by worker & mtctx => no barrier */
unsigned jobID ; /* set by mtctx, then read by worker => no barrier */
unsigned firstJob ; /* set by mtctx, then read by worker => no barrier */
unsigned lastJob ; /* set by mtctx, then read by worker => no barrier */
ZSTD_CCtx_params params ; /* set by mtctx, then read by worker => no barrier */
const ZSTD_CDict * cdict ; /* set by mtctx, then read by worker => no barrier */
unsigned long long fullFrameSize ; /* set by mtctx, then read by worker => no barrier */
size_t dstFlushed ; /* used only by mtctx */
unsigned frameChecksumNeeded ; /* used only by mtctx */
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} ZSTDMT_jobDescription ;
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# define JOB_ERROR(e) { \
ZSTD_PTHREAD_MUTEX_LOCK ( & job - > job_mutex ) ; \
job - > cSize = e ; \
ZSTD_pthread_mutex_unlock ( & job - > job_mutex ) ; \
goto _endJob ; \
}
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/* ZSTDMT_compressionJob() is a POOL_function type */
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static void ZSTDMT_compressionJob ( void * jobDescription )
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{
ZSTDMT_jobDescription * const job = ( ZSTDMT_jobDescription * ) jobDescription ;
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ZSTD_CCtx_params jobParams = job - > params ; /* do not modify job->params ! copy it, modify the copy */
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ZSTD_CCtx * const cctx = ZSTDMT_getCCtx ( job - > cctxPool ) ;
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rawSeqStore_t rawSeqStore = ZSTDMT_getSeq ( job - > seqPool ) ;
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buffer_t dstBuff = job - > dstBuff ;
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size_t lastCBlockSize = 0 ;
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/* resources */
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if ( cctx = = NULL ) JOB_ERROR ( ERROR ( memory_allocation ) ) ;
if ( dstBuff . start = = NULL ) { /* streaming job : doesn't provide a dstBuffer */
dstBuff = ZSTDMT_getBuffer ( job - > bufPool ) ;
if ( dstBuff . start = = NULL ) JOB_ERROR ( ERROR ( memory_allocation ) ) ;
job - > dstBuff = dstBuff ; /* this value can be read in ZSTDMT_flush, when it copies the whole job */
}
if ( jobParams . ldmParams . enableLdm & & rawSeqStore . seq = = NULL )
JOB_ERROR ( ERROR ( memory_allocation ) ) ;
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/* Don't compute the checksum for chunks, since we compute it externally,
* but write it in the header .
*/
if ( job - > jobID ! = 0 ) jobParams . fParams . checksumFlag = 0 ;
/* Don't run LDM for the chunks, since we handle it externally */
jobParams . ldmParams . enableLdm = 0 ;
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/* init */
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if ( job - > cdict ) {
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size_t const initError = ZSTD_compressBegin_advanced_internal ( cctx , NULL , 0 , ZSTD_dct_auto , ZSTD_dtlm_fast , job - > cdict , jobParams , job - > fullFrameSize ) ;
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assert ( job - > firstJob ) ; /* only allowed for first job */
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if ( ZSTD_isError ( initError ) ) JOB_ERROR ( initError ) ;
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} else { /* srcStart points at reloaded section */
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U64 const pledgedSrcSize = job - > firstJob ? job - > fullFrameSize : job - > src . size ;
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{ size_t const forceWindowError = ZSTD_CCtxParams_setParameter ( & jobParams , ZSTD_c_forceMaxWindow , ! job - > firstJob ) ;
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if ( ZSTD_isError ( forceWindowError ) ) JOB_ERROR ( forceWindowError ) ;
}
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{ size_t const initError = ZSTD_compressBegin_advanced_internal ( cctx ,
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job - > prefix . start , job - > prefix . size , ZSTD_dct_rawContent , /* load dictionary in "content-only" mode (no header analysis) */
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ZSTD_dtlm_fast ,
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NULL , /*cdict*/
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jobParams , pledgedSrcSize ) ;
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if ( ZSTD_isError ( initError ) ) JOB_ERROR ( initError ) ;
} }
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/* Perform serial step as early as possible, but after CCtx initialization */
ZSTDMT_serialState_update ( job - > serial , cctx , rawSeqStore , job - > src , job - > jobID ) ;
if ( ! job - > firstJob ) { /* flush and overwrite frame header when it's not first job */
size_t const hSize = ZSTD_compressContinue ( cctx , dstBuff . start , dstBuff . capacity , job - > src . start , 0 ) ;
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if ( ZSTD_isError ( hSize ) ) JOB_ERROR ( hSize ) ;
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DEBUGLOG ( 5 , " ZSTDMT_compressionJob: flush and overwrite %u bytes of frame header (not first job) " , ( U32 ) hSize ) ;
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ZSTD_invalidateRepCodes ( cctx ) ;
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}
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/* compress */
{ size_t const chunkSize = 4 * ZSTD_BLOCKSIZE_MAX ;
int const nbChunks = ( int ) ( ( job - > src . size + ( chunkSize - 1 ) ) / chunkSize ) ;
const BYTE * ip = ( const BYTE * ) job - > src . start ;
BYTE * const ostart = ( BYTE * ) dstBuff . start ;
BYTE * op = ostart ;
BYTE * oend = op + dstBuff . capacity ;
int chunkNb ;
if ( sizeof ( size_t ) > sizeof ( int ) ) assert ( job - > src . size < ( ( size_t ) INT_MAX ) * chunkSize ) ; /* check overflow */
DEBUGLOG ( 5 , " ZSTDMT_compressionJob: compress %u bytes in %i blocks " , ( U32 ) job - > src . size , nbChunks ) ;
assert ( job - > cSize = = 0 ) ;
for ( chunkNb = 1 ; chunkNb < nbChunks ; chunkNb + + ) {
size_t const cSize = ZSTD_compressContinue ( cctx , op , oend - op , ip , chunkSize ) ;
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if ( ZSTD_isError ( cSize ) ) JOB_ERROR ( cSize ) ;
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ip + = chunkSize ;
op + = cSize ; assert ( op < oend ) ;
/* stats */
ZSTD_PTHREAD_MUTEX_LOCK ( & job - > job_mutex ) ;
job - > cSize + = cSize ;
job - > consumed = chunkSize * chunkNb ;
DEBUGLOG ( 5 , " ZSTDMT_compressionJob: compress new block : cSize==%u bytes (total: %u) " ,
( U32 ) cSize , ( U32 ) job - > cSize ) ;
ZSTD_pthread_cond_signal ( & job - > job_cond ) ; /* warns some more data is ready to be flushed */
ZSTD_pthread_mutex_unlock ( & job - > job_mutex ) ;
}
/* last block */
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assert ( chunkSize > 0 ) ;
assert ( ( chunkSize & ( chunkSize - 1 ) ) = = 0 ) ; /* chunkSize must be power of 2 for mask==(chunkSize-1) to work */
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if ( ( nbChunks > 0 ) | job - > lastJob /*must output a "last block" flag*/ ) {
size_t const lastBlockSize1 = job - > src . size & ( chunkSize - 1 ) ;
size_t const lastBlockSize = ( ( lastBlockSize1 = = 0 ) & ( job - > src . size > = chunkSize ) ) ? chunkSize : lastBlockSize1 ;
size_t const cSize = ( job - > lastJob ) ?
ZSTD_compressEnd ( cctx , op , oend - op , ip , lastBlockSize ) :
ZSTD_compressContinue ( cctx , op , oend - op , ip , lastBlockSize ) ;
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if ( ZSTD_isError ( cSize ) ) JOB_ERROR ( cSize ) ;
lastCBlockSize = cSize ;
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} }
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_endJob :
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ZSTDMT_serialState_ensureFinished ( job - > serial , job - > jobID , job - > cSize ) ;
if ( job - > prefix . size > 0 )
DEBUGLOG ( 5 , " Finished with prefix: %zx " , ( size_t ) job - > prefix . start ) ;
DEBUGLOG ( 5 , " Finished with source: %zx " , ( size_t ) job - > src . start ) ;
/* release resources */
ZSTDMT_releaseSeq ( job - > seqPool , rawSeqStore ) ;
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ZSTDMT_releaseCCtx ( job - > cctxPool , cctx ) ;
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/* report */
ZSTD_PTHREAD_MUTEX_LOCK ( & job - > job_mutex ) ;
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if ( ZSTD_isError ( job - > cSize ) ) assert ( lastCBlockSize = = 0 ) ;
job - > cSize + = lastCBlockSize ;
job - > consumed = job - > src . size ; /* when job->consumed == job->src.size , compression job is presumed completed */
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ZSTD_pthread_cond_signal ( & job - > job_cond ) ;
ZSTD_pthread_mutex_unlock ( & job - > job_mutex ) ;
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}
/* ------------------------------------------ */
/* ===== Multi-threaded compression ===== */
/* ------------------------------------------ */
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typedef struct {
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range_t prefix ; /* read-only non-owned prefix buffer */
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buffer_t buffer ;
size_t filled ;
} inBuff_t ;
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typedef struct {
BYTE * buffer ; /* The round input buffer. All jobs get references
* to pieces of the buffer . ZSTDMT_tryGetInputRange ( )
* handles handing out job input buffers , and makes
* sure it doesn ' t overlap with any pieces still in use .
*/
size_t capacity ; /* The capacity of buffer. */
size_t pos ; /* The position of the current inBuff in the round
* buffer . Updated past the end if the inBuff once
* the inBuff is sent to the worker thread .
* pos < = capacity .
*/
} roundBuff_t ;
static const roundBuff_t kNullRoundBuff = { NULL , 0 , 0 } ;
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# define RSYNC_LENGTH 32
typedef struct {
U64 hash ;
U64 hitMask ;
U64 primePower ;
} rsyncState_t ;
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struct ZSTDMT_CCtx_s {
POOL_ctx * factory ;
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ZSTDMT_jobDescription * jobs ;
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ZSTDMT_bufferPool * bufPool ;
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ZSTDMT_CCtxPool * cctxPool ;
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ZSTDMT_seqPool * seqPool ;
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ZSTD_CCtx_params params ;
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size_t targetSectionSize ;
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size_t targetPrefixSize ;
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int jobReady ; /* 1 => one job is already prepared, but pool has shortage of workers. Don't create a new job. */
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inBuff_t inBuff ;
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roundBuff_t roundBuff ;
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serialState_t serial ;
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rsyncState_t rsync ;
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unsigned singleBlockingThread ;
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unsigned jobIDMask ;
unsigned doneJobID ;
unsigned nextJobID ;
unsigned frameEnded ;
unsigned allJobsCompleted ;
unsigned long long frameContentSize ;
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unsigned long long consumed ;
unsigned long long produced ;
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ZSTD_customMem cMem ;
ZSTD_CDict * cdictLocal ;
const ZSTD_CDict * cdict ;
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} ;
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static void ZSTDMT_freeJobsTable ( ZSTDMT_jobDescription * jobTable , U32 nbJobs , ZSTD_customMem cMem )
{
U32 jobNb ;
if ( jobTable = = NULL ) return ;
for ( jobNb = 0 ; jobNb < nbJobs ; jobNb + + ) {
ZSTD_pthread_mutex_destroy ( & jobTable [ jobNb ] . job_mutex ) ;
ZSTD_pthread_cond_destroy ( & jobTable [ jobNb ] . job_cond ) ;
}
ZSTD_free ( jobTable , cMem ) ;
}
/* ZSTDMT_allocJobsTable()
* allocate and init a job table .
* update * nbJobsPtr to next power of 2 value , as size of table */
static ZSTDMT_jobDescription * ZSTDMT_createJobsTable ( U32 * nbJobsPtr , ZSTD_customMem cMem )
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{
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U32 const nbJobsLog2 = ZSTD_highbit32 ( * nbJobsPtr ) + 1 ;
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U32 const nbJobs = 1 < < nbJobsLog2 ;
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U32 jobNb ;
ZSTDMT_jobDescription * const jobTable = ( ZSTDMT_jobDescription * )
ZSTD_calloc ( nbJobs * sizeof ( ZSTDMT_jobDescription ) , cMem ) ;
int initError = 0 ;
if ( jobTable = = NULL ) return NULL ;
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* nbJobsPtr = nbJobs ;
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for ( jobNb = 0 ; jobNb < nbJobs ; jobNb + + ) {
initError | = ZSTD_pthread_mutex_init ( & jobTable [ jobNb ] . job_mutex , NULL ) ;
initError | = ZSTD_pthread_cond_init ( & jobTable [ jobNb ] . job_cond , NULL ) ;
}
if ( initError ! = 0 ) {
ZSTDMT_freeJobsTable ( jobTable , nbJobs , cMem ) ;
return NULL ;
}
return jobTable ;
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}
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static size_t ZSTDMT_expandJobsTable ( ZSTDMT_CCtx * mtctx , U32 nbWorkers ) {
U32 nbJobs = nbWorkers + 2 ;
if ( nbJobs > mtctx - > jobIDMask + 1 ) { /* need more job capacity */
ZSTDMT_freeJobsTable ( mtctx - > jobs , mtctx - > jobIDMask + 1 , mtctx - > cMem ) ;
mtctx - > jobIDMask = 0 ;
mtctx - > jobs = ZSTDMT_createJobsTable ( & nbJobs , mtctx - > cMem ) ;
if ( mtctx - > jobs = = NULL ) return ERROR ( memory_allocation ) ;
assert ( ( nbJobs ! = 0 ) & & ( ( nbJobs & ( nbJobs - 1 ) ) = = 0 ) ) ; /* ensure nbJobs is a power of 2 */
mtctx - > jobIDMask = nbJobs - 1 ;
}
return 0 ;
}
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/* ZSTDMT_CCtxParam_setNbWorkers():
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* Internal use only */
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size_t ZSTDMT_CCtxParam_setNbWorkers ( ZSTD_CCtx_params * params , unsigned nbWorkers )
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{
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return ZSTD_CCtxParams_setParameter ( params , ZSTD_c_nbWorkers , ( int ) nbWorkers ) ;
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}
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MEM_STATIC ZSTDMT_CCtx * ZSTDMT_createCCtx_advanced_internal ( unsigned nbWorkers , ZSTD_customMem cMem )
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{
ZSTDMT_CCtx * mtctx ;
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U32 nbJobs = nbWorkers + 2 ;
int initError ;
DEBUGLOG ( 3 , " ZSTDMT_createCCtx_advanced (nbWorkers = %u) " , nbWorkers ) ;
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if ( nbWorkers < 1 ) return NULL ;
nbWorkers = MIN ( nbWorkers , ZSTDMT_NBWORKERS_MAX ) ;
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if ( ( cMem . customAlloc ! = NULL ) ^ ( cMem . customFree ! = NULL ) )
/* invalid custom allocator */
return NULL ;
mtctx = ( ZSTDMT_CCtx * ) ZSTD_calloc ( sizeof ( ZSTDMT_CCtx ) , cMem ) ;
if ( ! mtctx ) return NULL ;
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ZSTDMT_CCtxParam_setNbWorkers ( & mtctx - > params , nbWorkers ) ;
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mtctx - > cMem = cMem ;
mtctx - > allJobsCompleted = 1 ;
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mtctx - > factory = POOL_create_advanced ( nbWorkers , 0 , cMem ) ;
mtctx - > jobs = ZSTDMT_createJobsTable ( & nbJobs , cMem ) ;
assert ( nbJobs > 0 ) ; assert ( ( nbJobs & ( nbJobs - 1 ) ) = = 0 ) ; /* ensure nbJobs is a power of 2 */
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mtctx - > jobIDMask = nbJobs - 1 ;
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mtctx - > bufPool = ZSTDMT_createBufferPool ( nbWorkers , cMem ) ;
mtctx - > cctxPool = ZSTDMT_createCCtxPool ( nbWorkers , cMem ) ;
mtctx - > seqPool = ZSTDMT_createSeqPool ( nbWorkers , cMem ) ;
initError = ZSTDMT_serialState_init ( & mtctx - > serial ) ;
mtctx - > roundBuff = kNullRoundBuff ;
if ( ! mtctx - > factory | ! mtctx - > jobs | ! mtctx - > bufPool | ! mtctx - > cctxPool | ! mtctx - > seqPool | initError ) {
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ZSTDMT_freeCCtx ( mtctx ) ;
return NULL ;
}
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DEBUGLOG ( 3 , " mt_cctx created, for %u threads " , nbWorkers ) ;
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return mtctx ;
}
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ZSTDMT_CCtx * ZSTDMT_createCCtx_advanced ( unsigned nbWorkers , ZSTD_customMem cMem )
{
# ifdef ZSTD_MULTITHREAD
return ZSTDMT_createCCtx_advanced_internal ( nbWorkers , cMem ) ;
# else
( void ) nbWorkers ;
( void ) cMem ;
return NULL ;
# endif
}
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ZSTDMT_CCtx * ZSTDMT_createCCtx ( unsigned nbWorkers )
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{
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return ZSTDMT_createCCtx_advanced ( nbWorkers , ZSTD_defaultCMem ) ;
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}
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/* ZSTDMT_releaseAllJobResources() :
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* note : ensure all workers are killed first ! */
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static void ZSTDMT_releaseAllJobResources ( ZSTDMT_CCtx * mtctx )
{
unsigned jobID ;
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DEBUGLOG ( 3 , " ZSTDMT_releaseAllJobResources " ) ;
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for ( jobID = 0 ; jobID < = mtctx - > jobIDMask ; jobID + + ) {
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DEBUGLOG ( 4 , " job%02u: release dst address %08X " , jobID , ( U32 ) ( size_t ) mtctx - > jobs [ jobID ] . dstBuff . start ) ;
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ZSTDMT_releaseBuffer ( mtctx - > bufPool , mtctx - > jobs [ jobID ] . dstBuff ) ;
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mtctx - > jobs [ jobID ] . dstBuff = g_nullBuffer ;
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mtctx - > jobs [ jobID ] . cSize = 0 ;
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}
memset ( mtctx - > jobs , 0 , ( mtctx - > jobIDMask + 1 ) * sizeof ( ZSTDMT_jobDescription ) ) ;
mtctx - > inBuff . buffer = g_nullBuffer ;
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mtctx - > inBuff . filled = 0 ;
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mtctx - > allJobsCompleted = 1 ;
}
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static void ZSTDMT_waitForAllJobsCompleted ( ZSTDMT_CCtx * mtctx )
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{
DEBUGLOG ( 4 , " ZSTDMT_waitForAllJobsCompleted " ) ;
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while ( mtctx - > doneJobID < mtctx - > nextJobID ) {
unsigned const jobID = mtctx - > doneJobID & mtctx - > jobIDMask ;
ZSTD_PTHREAD_MUTEX_LOCK ( & mtctx - > jobs [ jobID ] . job_mutex ) ;
while ( mtctx - > jobs [ jobID ] . consumed < mtctx - > jobs [ jobID ] . src . size ) {
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DEBUGLOG ( 4 , " waiting for jobCompleted signal from job %u " , mtctx - > doneJobID ) ; /* we want to block when waiting for data to flush */
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ZSTD_pthread_cond_wait ( & mtctx - > jobs [ jobID ] . job_cond , & mtctx - > jobs [ jobID ] . job_mutex ) ;
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}
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ZSTD_pthread_mutex_unlock ( & mtctx - > jobs [ jobID ] . job_mutex ) ;
mtctx - > doneJobID + + ;
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}
}
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size_t ZSTDMT_freeCCtx ( ZSTDMT_CCtx * mtctx )
{
if ( mtctx = = NULL ) return 0 ; /* compatible with free on NULL */
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POOL_free ( mtctx - > factory ) ; /* stop and free worker threads */
ZSTDMT_releaseAllJobResources ( mtctx ) ; /* release job resources into pools first */
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ZSTDMT_freeJobsTable ( mtctx - > jobs , mtctx - > jobIDMask + 1 , mtctx - > cMem ) ;
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ZSTDMT_freeBufferPool ( mtctx - > bufPool ) ;
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ZSTDMT_freeCCtxPool ( mtctx - > cctxPool ) ;
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ZSTDMT_freeSeqPool ( mtctx - > seqPool ) ;
ZSTDMT_serialState_free ( & mtctx - > serial ) ;
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ZSTD_freeCDict ( mtctx - > cdictLocal ) ;
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if ( mtctx - > roundBuff . buffer )
ZSTD_free ( mtctx - > roundBuff . buffer , mtctx - > cMem ) ;
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ZSTD_free ( mtctx , mtctx - > cMem ) ;
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return 0 ;
}
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size_t ZSTDMT_sizeof_CCtx ( ZSTDMT_CCtx * mtctx )
{
if ( mtctx = = NULL ) return 0 ; /* supports sizeof NULL */
return sizeof ( * mtctx )
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+ POOL_sizeof ( mtctx - > factory )
+ ZSTDMT_sizeof_bufferPool ( mtctx - > bufPool )
+ ( mtctx - > jobIDMask + 1 ) * sizeof ( ZSTDMT_jobDescription )
+ ZSTDMT_sizeof_CCtxPool ( mtctx - > cctxPool )
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+ ZSTDMT_sizeof_seqPool ( mtctx - > seqPool )
+ ZSTD_sizeof_CDict ( mtctx - > cdictLocal )
+ mtctx - > roundBuff . capacity ;
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}
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/* Internal only */
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size_t
ZSTDMT_CCtxParam_setMTCtxParameter ( ZSTD_CCtx_params * params ,
ZSTDMT_parameter parameter ,
int value )
{
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DEBUGLOG ( 4 , " ZSTDMT_CCtxParam_setMTCtxParameter " ) ;
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switch ( parameter )
{
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case ZSTDMT_p_jobSize :
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DEBUGLOG ( 4 , " ZSTDMT_CCtxParam_setMTCtxParameter : set jobSize to %i " , value ) ;
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return ZSTD_CCtxParams_setParameter ( params , ZSTD_c_jobSize , value ) ;
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case ZSTDMT_p_overlapLog :
DEBUGLOG ( 4 , " ZSTDMT_p_overlapLog : %i " , value ) ;
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return ZSTD_CCtxParams_setParameter ( params , ZSTD_c_overlapLog , value ) ;
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case ZSTDMT_p_rsyncable :
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DEBUGLOG ( 4 , " ZSTD_p_rsyncable : %i " , value ) ;
return ZSTD_CCtxParams_setParameter ( params , ZSTD_c_rsyncable , value ) ;
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default :
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return ERROR ( parameter_unsupported ) ;
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}
}
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size_t ZSTDMT_setMTCtxParameter ( ZSTDMT_CCtx * mtctx , ZSTDMT_parameter parameter , int value )
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{
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DEBUGLOG ( 4 , " ZSTDMT_setMTCtxParameter " ) ;
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return ZSTDMT_CCtxParam_setMTCtxParameter ( & mtctx - > params , parameter , value ) ;
}
size_t ZSTDMT_getMTCtxParameter ( ZSTDMT_CCtx * mtctx , ZSTDMT_parameter parameter , int * value )
{
switch ( parameter ) {
case ZSTDMT_p_jobSize :
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return ZSTD_CCtxParams_getParameter ( & mtctx - > params , ZSTD_c_jobSize , value ) ;
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case ZSTDMT_p_overlapLog :
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return ZSTD_CCtxParams_getParameter ( & mtctx - > params , ZSTD_c_overlapLog , value ) ;
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case ZSTDMT_p_rsyncable :
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return ZSTD_CCtxParams_getParameter ( & mtctx - > params , ZSTD_c_rsyncable , value ) ;
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default :
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return ERROR ( parameter_unsupported ) ;
}
}
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/* Sets parameters relevant to the compression job,
* initializing others to default values . */
static ZSTD_CCtx_params ZSTDMT_initJobCCtxParams ( ZSTD_CCtx_params const params )
{
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ZSTD_CCtx_params jobParams = params ;
/* Clear parameters related to multithreading */
jobParams . forceWindow = 0 ;
jobParams . nbWorkers = 0 ;
jobParams . jobSize = 0 ;
jobParams . overlapLog = 0 ;
jobParams . rsyncable = 0 ;
memset ( & jobParams . ldmParams , 0 , sizeof ( ldmParams_t ) ) ;
memset ( & jobParams . customMem , 0 , sizeof ( ZSTD_customMem ) ) ;
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return jobParams ;
}
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/* ZSTDMT_resize() :
* @ return : error code if fails , 0 on success */
static size_t ZSTDMT_resize ( ZSTDMT_CCtx * mtctx , unsigned nbWorkers )
{
if ( POOL_resize ( mtctx - > factory , nbWorkers ) ) return ERROR ( memory_allocation ) ;
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FORWARD_IF_ERROR ( ZSTDMT_expandJobsTable ( mtctx , nbWorkers ) ) ;
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mtctx - > bufPool = ZSTDMT_expandBufferPool ( mtctx - > bufPool , nbWorkers ) ;
if ( mtctx - > bufPool = = NULL ) return ERROR ( memory_allocation ) ;
mtctx - > cctxPool = ZSTDMT_expandCCtxPool ( mtctx - > cctxPool , nbWorkers ) ;
if ( mtctx - > cctxPool = = NULL ) return ERROR ( memory_allocation ) ;
mtctx - > seqPool = ZSTDMT_expandSeqPool ( mtctx - > seqPool , nbWorkers ) ;
if ( mtctx - > seqPool = = NULL ) return ERROR ( memory_allocation ) ;
ZSTDMT_CCtxParam_setNbWorkers ( & mtctx - > params , nbWorkers ) ;
return 0 ;
}
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/*! ZSTDMT_updateCParams_whileCompressing() :
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* Updates a selected set of compression parameters , remaining compatible with currently active frame .
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* New parameters will be applied to next compression job . */
void ZSTDMT_updateCParams_whileCompressing ( ZSTDMT_CCtx * mtctx , const ZSTD_CCtx_params * cctxParams )
{
U32 const saved_wlog = mtctx - > params . cParams . windowLog ; /* Do not modify windowLog while compressing */
int const compressionLevel = cctxParams - > compressionLevel ;
DEBUGLOG ( 5 , " ZSTDMT_updateCParams_whileCompressing (level:%i) " ,
compressionLevel ) ;
mtctx - > params . compressionLevel = compressionLevel ;
{ ZSTD_compressionParameters cParams = ZSTD_getCParamsFromCCtxParams ( cctxParams , 0 , 0 ) ;
cParams . windowLog = saved_wlog ;
mtctx - > params . cParams = cParams ;
}
}
/* ZSTDMT_getFrameProgression():
* tells how much data has been consumed ( input ) and produced ( output ) for current frame .
* able to count progression inside worker threads .
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* Note : mutex will be acquired during statistics collection inside workers . */
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ZSTD_frameProgression ZSTDMT_getFrameProgression ( ZSTDMT_CCtx * mtctx )
{
ZSTD_frameProgression fps ;
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DEBUGLOG ( 5 , " ZSTDMT_getFrameProgression " ) ;
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fps . ingested = mtctx - > consumed + mtctx - > inBuff . filled ;
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fps . consumed = mtctx - > consumed ;
fps . produced = fps . flushed = mtctx - > produced ;
fps . currentJobID = mtctx - > nextJobID ;
fps . nbActiveWorkers = 0 ;
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{ unsigned jobNb ;
unsigned lastJobNb = mtctx - > nextJobID + mtctx - > jobReady ; assert ( mtctx - > jobReady < = 1 ) ;
DEBUGLOG ( 6 , " ZSTDMT_getFrameProgression: jobs: from %u to <%u (jobReady:%u) " ,
mtctx - > doneJobID , lastJobNb , mtctx - > jobReady )
for ( jobNb = mtctx - > doneJobID ; jobNb < lastJobNb ; jobNb + + ) {
unsigned const wJobID = jobNb & mtctx - > jobIDMask ;
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ZSTDMT_jobDescription * jobPtr = & mtctx - > jobs [ wJobID ] ;
ZSTD_pthread_mutex_lock ( & jobPtr - > job_mutex ) ;
{ size_t const cResult = jobPtr - > cSize ;
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size_t const produced = ZSTD_isError ( cResult ) ? 0 : cResult ;
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size_t const flushed = ZSTD_isError ( cResult ) ? 0 : jobPtr - > dstFlushed ;
assert ( flushed < = produced ) ;
fps . ingested + = jobPtr - > src . size ;
fps . consumed + = jobPtr - > consumed ;
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fps . produced + = produced ;
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fps . flushed + = flushed ;
fps . nbActiveWorkers + = ( jobPtr - > consumed < jobPtr - > src . size ) ;
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}
ZSTD_pthread_mutex_unlock ( & mtctx - > jobs [ wJobID ] . job_mutex ) ;
}
}
return fps ;
}
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size_t ZSTDMT_toFlushNow ( ZSTDMT_CCtx * mtctx )
{
size_t toFlush ;
unsigned const jobID = mtctx - > doneJobID ;
assert ( jobID < = mtctx - > nextJobID ) ;
if ( jobID = = mtctx - > nextJobID ) return 0 ; /* no active job => nothing to flush */
/* look into oldest non-fully-flushed job */
{ unsigned const wJobID = jobID & mtctx - > jobIDMask ;
ZSTDMT_jobDescription * const jobPtr = & mtctx - > jobs [ wJobID ] ;
ZSTD_pthread_mutex_lock ( & jobPtr - > job_mutex ) ;
{ size_t const cResult = jobPtr - > cSize ;
size_t const produced = ZSTD_isError ( cResult ) ? 0 : cResult ;
size_t const flushed = ZSTD_isError ( cResult ) ? 0 : jobPtr - > dstFlushed ;
assert ( flushed < = produced ) ;
toFlush = produced - flushed ;
if ( toFlush = = 0 & & ( jobPtr - > consumed > = jobPtr - > src . size ) ) {
/* doneJobID is not-fully-flushed, but toFlush==0 : doneJobID should be compressing some more data */
assert ( jobPtr - > consumed < jobPtr - > src . size ) ;
}
}
ZSTD_pthread_mutex_unlock ( & mtctx - > jobs [ wJobID ] . job_mutex ) ;
}
return toFlush ;
}
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/* ------------------------------------------ */
/* ===== Multi-threaded compression ===== */
/* ------------------------------------------ */
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static unsigned ZSTDMT_computeTargetJobLog ( ZSTD_CCtx_params const params )
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{
if ( params . ldmParams . enableLdm )
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/* In Long Range Mode, the windowLog is typically oversized.
* In which case , it ' s preferable to determine the jobSize
* based on chainLog instead . */
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return MAX ( 21 , params . cParams . chainLog + 4 ) ;
return MAX ( 20 , params . cParams . windowLog + 2 ) ;
}
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static int ZSTDMT_overlapLog_default ( ZSTD_strategy strat )
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{
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switch ( strat )
{
case ZSTD_btultra2 :
return 9 ;
case ZSTD_btultra :
case ZSTD_btopt :
return 8 ;
case ZSTD_btlazy2 :
case ZSTD_lazy2 :
return 7 ;
case ZSTD_lazy :
case ZSTD_greedy :
case ZSTD_dfast :
case ZSTD_fast :
default : ;
}
return 6 ;
}
static int ZSTDMT_overlapLog ( int ovlog , ZSTD_strategy strat )
{
assert ( 0 < = ovlog & & ovlog < = 9 ) ;
if ( ovlog = = 0 ) return ZSTDMT_overlapLog_default ( strat ) ;
return ovlog ;
}
static size_t ZSTDMT_computeOverlapSize ( ZSTD_CCtx_params const params )
{
int const overlapRLog = 9 - ZSTDMT_overlapLog ( params . overlapLog , params . cParams . strategy ) ;
int ovLog = ( overlapRLog > = 8 ) ? 0 : ( params . cParams . windowLog - overlapRLog ) ;
assert ( 0 < = overlapRLog & & overlapRLog < = 8 ) ;
if ( params . ldmParams . enableLdm ) {
/* In Long Range Mode, the windowLog is typically oversized.
* In which case , it ' s preferable to determine the jobSize
* based on chainLog instead .
* Then , ovLog becomes a fraction of the jobSize , rather than windowSize */
ovLog = MIN ( params . cParams . windowLog , ZSTDMT_computeTargetJobLog ( params ) - 2 )
- overlapRLog ;
}
assert ( 0 < = ovLog & & ovLog < = 30 ) ;
DEBUGLOG ( 4 , " overlapLog : %i " , params . overlapLog ) ;
DEBUGLOG ( 4 , " overlap size : %i " , 1 < < ovLog ) ;
return ( ovLog = = 0 ) ? 0 : ( size_t ) 1 < < ovLog ;
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}
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static unsigned
ZSTDMT_computeNbJobs ( ZSTD_CCtx_params params , size_t srcSize , unsigned nbWorkers )
{
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assert ( nbWorkers > 0 ) ;
{ size_t const jobSizeTarget = ( size_t ) 1 < < ZSTDMT_computeTargetJobLog ( params ) ;
size_t const jobMaxSize = jobSizeTarget < < 2 ;
size_t const passSizeMax = jobMaxSize * nbWorkers ;
unsigned const multiplier = ( unsigned ) ( srcSize / passSizeMax ) + 1 ;
unsigned const nbJobsLarge = multiplier * nbWorkers ;
unsigned const nbJobsMax = ( unsigned ) ( srcSize / jobSizeTarget ) + 1 ;
unsigned const nbJobsSmall = MIN ( nbJobsMax , nbWorkers ) ;
return ( multiplier > 1 ) ? nbJobsLarge : nbJobsSmall ;
} }
/* ZSTDMT_compress_advanced_internal() :
* This is a blocking function : it will only give back control to caller after finishing its compression job .
*/
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static size_t ZSTDMT_compress_advanced_internal (
ZSTDMT_CCtx * mtctx ,
void * dst , size_t dstCapacity ,
const void * src , size_t srcSize ,
const ZSTD_CDict * cdict ,
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ZSTD_CCtx_params params )
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{
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ZSTD_CCtx_params const jobParams = ZSTDMT_initJobCCtxParams ( params ) ;
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size_t const overlapSize = ZSTDMT_computeOverlapSize ( params ) ;
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unsigned const nbJobs = ZSTDMT_computeNbJobs ( params , srcSize , params . nbWorkers ) ;
size_t const proposedJobSize = ( srcSize + ( nbJobs - 1 ) ) / nbJobs ;
size_t const avgJobSize = ( ( ( proposedJobSize - 1 ) & 0x1FFFF ) < 0x7FFF ) ? proposedJobSize + 0xFFFF : proposedJobSize ; /* avoid too small last block */
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const char * const srcStart = ( const char * ) src ;
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size_t remainingSrcSize = srcSize ;
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unsigned const compressWithinDst = ( dstCapacity > = ZSTD_compressBound ( srcSize ) ) ? nbJobs : ( unsigned ) ( dstCapacity / ZSTD_compressBound ( avgJobSize ) ) ; /* presumes avgJobSize >= 256 KB, which should be the case */
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size_t frameStartPos = 0 , dstBufferPos = 0 ;
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assert ( jobParams . nbWorkers = = 0 ) ;
assert ( mtctx - > cctxPool - > totalCCtx = = params . nbWorkers ) ;
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params . jobSize = ( U32 ) avgJobSize ;
DEBUGLOG ( 4 , " ZSTDMT_compress_advanced_internal: nbJobs=%2u (rawSize=%u bytes; fixedSize=%u) " ,
nbJobs , ( U32 ) proposedJobSize , ( U32 ) avgJobSize ) ;
if ( ( nbJobs = = 1 ) | ( params . nbWorkers < = 1 ) ) { /* fallback to single-thread mode : this is a blocking invocation anyway */
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ZSTD_CCtx * const cctx = mtctx - > cctxPool - > cctx [ 0 ] ;
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DEBUGLOG ( 4 , " ZSTDMT_compress_advanced_internal: fallback to single-thread mode " ) ;
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if ( cdict ) return ZSTD_compress_usingCDict_advanced ( cctx , dst , dstCapacity , src , srcSize , cdict , jobParams . fParams ) ;
return ZSTD_compress_advanced_internal ( cctx , dst , dstCapacity , src , srcSize , NULL , 0 , jobParams ) ;
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}
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assert ( avgJobSize > = 256 KB ) ; /* condition for ZSTD_compressBound(A) + ZSTD_compressBound(B) <= ZSTD_compressBound(A+B), required to compress directly into Dst (no additional buffer) */
ZSTDMT_setBufferSize ( mtctx - > bufPool , ZSTD_compressBound ( avgJobSize ) ) ;
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if ( ZSTDMT_serialState_reset ( & mtctx - > serial , mtctx - > seqPool , params , avgJobSize ) )
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return ERROR ( memory_allocation ) ;
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FORWARD_IF_ERROR ( ZSTDMT_expandJobsTable ( mtctx , nbJobs ) ) ; /* only expands if necessary */
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{ unsigned u ;
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for ( u = 0 ; u < nbJobs ; u + + ) {
size_t const jobSize = MIN ( remainingSrcSize , avgJobSize ) ;
size_t const dstBufferCapacity = ZSTD_compressBound ( jobSize ) ;
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buffer_t const dstAsBuffer = { ( char * ) dst + dstBufferPos , dstBufferCapacity } ;
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buffer_t const dstBuffer = u < compressWithinDst ? dstAsBuffer : g_nullBuffer ;
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size_t dictSize = u ? overlapSize : 0 ;
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mtctx - > jobs [ u ] . prefix . start = srcStart + frameStartPos - dictSize ;
mtctx - > jobs [ u ] . prefix . size = dictSize ;
mtctx - > jobs [ u ] . src . start = srcStart + frameStartPos ;
mtctx - > jobs [ u ] . src . size = jobSize ; assert ( jobSize > 0 ) ; /* avoid job.src.size == 0 */
mtctx - > jobs [ u ] . consumed = 0 ;
mtctx - > jobs [ u ] . cSize = 0 ;
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mtctx - > jobs [ u ] . cdict = ( u = = 0 ) ? cdict : NULL ;
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mtctx - > jobs [ u ] . fullFrameSize = srcSize ;
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mtctx - > jobs [ u ] . params = jobParams ;
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/* do not calculate checksum within sections, but write it in header for first section */
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mtctx - > jobs [ u ] . dstBuff = dstBuffer ;
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mtctx - > jobs [ u ] . cctxPool = mtctx - > cctxPool ;
mtctx - > jobs [ u ] . bufPool = mtctx - > bufPool ;
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mtctx - > jobs [ u ] . seqPool = mtctx - > seqPool ;
mtctx - > jobs [ u ] . serial = & mtctx - > serial ;
mtctx - > jobs [ u ] . jobID = u ;
mtctx - > jobs [ u ] . firstJob = ( u = = 0 ) ;
mtctx - > jobs [ u ] . lastJob = ( u = = nbJobs - 1 ) ;
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DEBUGLOG ( 5 , " ZSTDMT_compress_advanced_internal: posting job %u (%u bytes) " , u , ( U32 ) jobSize ) ;
DEBUG_PRINTHEX ( 6 , mtctx - > jobs [ u ] . prefix . start , 12 ) ;
POOL_add ( mtctx - > factory , ZSTDMT_compressionJob , & mtctx - > jobs [ u ] ) ;
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frameStartPos + = jobSize ;
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dstBufferPos + = dstBufferCapacity ;
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remainingSrcSize - = jobSize ;
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} }
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/* collect result */
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{ size_t error = 0 , dstPos = 0 ;
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unsigned jobID ;
for ( jobID = 0 ; jobID < nbJobs ; jobID + + ) {
DEBUGLOG ( 5 , " waiting for job %u " , jobID ) ;
ZSTD_PTHREAD_MUTEX_LOCK ( & mtctx - > jobs [ jobID ] . job_mutex ) ;
while ( mtctx - > jobs [ jobID ] . consumed < mtctx - > jobs [ jobID ] . src . size ) {
DEBUGLOG ( 5 , " waiting for jobCompleted signal from job %u " , jobID ) ;
ZSTD_pthread_cond_wait ( & mtctx - > jobs [ jobID ] . job_cond , & mtctx - > jobs [ jobID ] . job_mutex ) ;
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}
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ZSTD_pthread_mutex_unlock ( & mtctx - > jobs [ jobID ] . job_mutex ) ;
DEBUGLOG ( 5 , " ready to write job %u " , jobID ) ;
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{ size_t const cSize = mtctx - > jobs [ jobID ] . cSize ;
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if ( ZSTD_isError ( cSize ) ) error = cSize ;
if ( ( ! error ) & & ( dstPos + cSize > dstCapacity ) ) error = ERROR ( dstSize_tooSmall ) ;
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if ( jobID ) { /* note : job 0 is written directly at dst, which is correct position */
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if ( ! error )
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memmove ( ( char * ) dst + dstPos , mtctx - > jobs [ jobID ] . dstBuff . start , cSize ) ; /* may overlap when job compressed within dst */
if ( jobID > = compressWithinDst ) { /* job compressed into its own buffer, which must be released */
DEBUGLOG ( 5 , " releasing buffer %u>=%u " , jobID , compressWithinDst ) ;
ZSTDMT_releaseBuffer ( mtctx - > bufPool , mtctx - > jobs [ jobID ] . dstBuff ) ;
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} }
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mtctx - > jobs [ jobID ] . dstBuff = g_nullBuffer ;
mtctx - > jobs [ jobID ] . cSize = 0 ;
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dstPos + = cSize ;
}
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} /* for (jobID=0; jobID<nbJobs; jobID++) */
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DEBUGLOG ( 4 , " checksumFlag : %u " , params . fParams . checksumFlag ) ;
if ( params . fParams . checksumFlag ) {
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U32 const checksum = ( U32 ) XXH64_digest ( & mtctx - > serial . xxhState ) ;
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if ( dstPos + 4 > dstCapacity ) {
error = ERROR ( dstSize_tooSmall ) ;
} else {
DEBUGLOG ( 4 , " writing checksum : %08X \n " , checksum ) ;
MEM_writeLE32 ( ( char * ) dst + dstPos , checksum ) ;
dstPos + = 4 ;
} }
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if ( ! error ) DEBUGLOG ( 4 , " compressed size : %u " , ( U32 ) dstPos ) ;
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return error ? error : dstPos ;
}
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}
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size_t ZSTDMT_compress_advanced ( ZSTDMT_CCtx * mtctx ,
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void * dst , size_t dstCapacity ,
const void * src , size_t srcSize ,
const ZSTD_CDict * cdict ,
ZSTD_parameters params ,
int overlapLog )
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{
ZSTD_CCtx_params cctxParams = mtctx - > params ;
cctxParams . cParams = params . cParams ;
cctxParams . fParams = params . fParams ;
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assert ( ZSTD_OVERLAPLOG_MIN < = overlapLog & & overlapLog < = ZSTD_OVERLAPLOG_MAX ) ;
cctxParams . overlapLog = overlapLog ;
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return ZSTDMT_compress_advanced_internal ( mtctx ,
dst , dstCapacity ,
src , srcSize ,
cdict , cctxParams ) ;
}
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size_t ZSTDMT_compressCCtx ( ZSTDMT_CCtx * mtctx ,
void * dst , size_t dstCapacity ,
const void * src , size_t srcSize ,
int compressionLevel )
{
ZSTD_parameters params = ZSTD_getParams ( compressionLevel , srcSize , 0 ) ;
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int const overlapLog = ZSTDMT_overlapLog_default ( params . cParams . strategy ) ;
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params . fParams . contentSizeFlag = 1 ;
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return ZSTDMT_compress_advanced ( mtctx , dst , dstCapacity , src , srcSize , NULL , params , overlapLog ) ;
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}
/* ====================================== */
/* ======= Streaming API ======= */
/* ====================================== */
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size_t ZSTDMT_initCStream_internal (
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ZSTDMT_CCtx * mtctx ,
const void * dict , size_t dictSize , ZSTD_dictContentType_e dictContentType ,
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const ZSTD_CDict * cdict , ZSTD_CCtx_params params ,
unsigned long long pledgedSrcSize )
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{
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DEBUGLOG ( 4 , " ZSTDMT_initCStream_internal (pledgedSrcSize=%u, nbWorkers=%u, cctxPool=%u) " ,
( U32 ) pledgedSrcSize , params . nbWorkers , mtctx - > cctxPool - > totalCCtx ) ;
/* params supposed partially fully validated at this point */
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assert ( ! ZSTD_isError ( ZSTD_checkCParams ( params . cParams ) ) ) ;
assert ( ! ( ( dict ) & & ( cdict ) ) ) ; /* either dict or cdict, not both */
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/* init */
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if ( params . nbWorkers ! = mtctx - > params . nbWorkers )
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FORWARD_IF_ERROR ( ZSTDMT_resize ( mtctx , params . nbWorkers ) ) ;
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if ( params . jobSize ! = 0 & & params . jobSize < ZSTDMT_JOBSIZE_MIN ) params . jobSize = ZSTDMT_JOBSIZE_MIN ;
if ( params . jobSize > ( size_t ) ZSTDMT_JOBSIZE_MAX ) params . jobSize = ZSTDMT_JOBSIZE_MAX ;
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mtctx - > singleBlockingThread = ( pledgedSrcSize < = ZSTDMT_JOBSIZE_MIN ) ; /* do not trigger multi-threading when srcSize is too small */
if ( mtctx - > singleBlockingThread ) {
ZSTD_CCtx_params const singleThreadParams = ZSTDMT_initJobCCtxParams ( params ) ;
DEBUGLOG ( 5 , " ZSTDMT_initCStream_internal: switch to single blocking thread mode " ) ;
assert ( singleThreadParams . nbWorkers = = 0 ) ;
return ZSTD_initCStream_internal ( mtctx - > cctxPool - > cctx [ 0 ] ,
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dict , dictSize , cdict ,
singleThreadParams , pledgedSrcSize ) ;
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}
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DEBUGLOG ( 4 , " ZSTDMT_initCStream_internal: %u workers " , params . nbWorkers ) ;
if ( mtctx - > allJobsCompleted = = 0 ) { /* previous compression not correctly finished */
ZSTDMT_waitForAllJobsCompleted ( mtctx ) ;
ZSTDMT_releaseAllJobResources ( mtctx ) ;
mtctx - > allJobsCompleted = 1 ;
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}
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mtctx - > params = params ;
mtctx - > frameContentSize = pledgedSrcSize ;
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if ( dict ) {
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ZSTD_freeCDict ( mtctx - > cdictLocal ) ;
mtctx - > cdictLocal = ZSTD_createCDict_advanced ( dict , dictSize ,
ZSTD_dlm_byCopy , dictContentType , /* note : a loadPrefix becomes an internal CDict */
params . cParams , mtctx - > cMem ) ;
mtctx - > cdict = mtctx - > cdictLocal ;
if ( mtctx - > cdictLocal = = NULL ) return ERROR ( memory_allocation ) ;
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} else {
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ZSTD_freeCDict ( mtctx - > cdictLocal ) ;
mtctx - > cdictLocal = NULL ;
mtctx - > cdict = cdict ;
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}
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mtctx - > targetPrefixSize = ZSTDMT_computeOverlapSize ( params ) ;
DEBUGLOG ( 4 , " overlapLog=%i => %u KB " , params . overlapLog , ( U32 ) ( mtctx - > targetPrefixSize > > 10 ) ) ;
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mtctx - > targetSectionSize = params . jobSize ;
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if ( mtctx - > targetSectionSize = = 0 ) {
mtctx - > targetSectionSize = 1ULL < < ZSTDMT_computeTargetJobLog ( params ) ;
}
if ( params . rsyncable ) {
/* Aim for the targetsectionSize as the average job size. */
U32 const jobSizeMB = ( U32 ) ( mtctx - > targetSectionSize > > 20 ) ;
U32 const rsyncBits = ZSTD_highbit32 ( jobSizeMB ) + 20 ;
assert ( jobSizeMB > = 1 ) ;
DEBUGLOG ( 4 , " rsyncLog = %u " , rsyncBits ) ;
mtctx - > rsync . hash = 0 ;
mtctx - > rsync . hitMask = ( 1ULL < < rsyncBits ) - 1 ;
mtctx - > rsync . primePower = ZSTD_rollingHash_primePower ( RSYNC_LENGTH ) ;
}
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if ( mtctx - > targetSectionSize < mtctx - > targetPrefixSize ) mtctx - > targetSectionSize = mtctx - > targetPrefixSize ; /* job size must be >= overlap size */
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DEBUGLOG ( 4 , " Job Size : %u KB (note : set to %u) " , ( U32 ) ( mtctx - > targetSectionSize > > 10 ) , ( U32 ) params . jobSize ) ;
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DEBUGLOG ( 4 , " inBuff Size : %u KB " , ( U32 ) ( mtctx - > targetSectionSize > > 10 ) ) ;
ZSTDMT_setBufferSize ( mtctx - > bufPool , ZSTD_compressBound ( mtctx - > targetSectionSize ) ) ;
{
/* If ldm is enabled we need windowSize space. */
size_t const windowSize = mtctx - > params . ldmParams . enableLdm ? ( 1U < < mtctx - > params . cParams . windowLog ) : 0 ;
/* Two buffers of slack, plus extra space for the overlap
* This is the minimum slack that LDM works with . One extra because
* flush might waste up to targetSectionSize - 1 bytes . Another extra
* for the overlap ( if > 0 ) , then one to fill which doesn ' t overlap
* with the LDM window .
*/
size_t const nbSlackBuffers = 2 + ( mtctx - > targetPrefixSize > 0 ) ;
size_t const slackSize = mtctx - > targetSectionSize * nbSlackBuffers ;
/* Compute the total size, and always have enough slack */
size_t const nbWorkers = MAX ( mtctx - > params . nbWorkers , 1 ) ;
size_t const sectionsSize = mtctx - > targetSectionSize * nbWorkers ;
size_t const capacity = MAX ( windowSize , sectionsSize ) + slackSize ;
if ( mtctx - > roundBuff . capacity < capacity ) {
if ( mtctx - > roundBuff . buffer )
ZSTD_free ( mtctx - > roundBuff . buffer , mtctx - > cMem ) ;
mtctx - > roundBuff . buffer = ( BYTE * ) ZSTD_malloc ( capacity , mtctx - > cMem ) ;
if ( mtctx - > roundBuff . buffer = = NULL ) {
mtctx - > roundBuff . capacity = 0 ;
return ERROR ( memory_allocation ) ;
}
mtctx - > roundBuff . capacity = capacity ;
}
}
DEBUGLOG ( 4 , " roundBuff capacity : %u KB " , ( U32 ) ( mtctx - > roundBuff . capacity > > 10 ) ) ;
mtctx - > roundBuff . pos = 0 ;
mtctx - > inBuff . buffer = g_nullBuffer ;
mtctx - > inBuff . filled = 0 ;
mtctx - > inBuff . prefix = kNullRange ;
mtctx - > doneJobID = 0 ;
mtctx - > nextJobID = 0 ;
mtctx - > frameEnded = 0 ;
mtctx - > allJobsCompleted = 0 ;
mtctx - > consumed = 0 ;
mtctx - > produced = 0 ;
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if ( ZSTDMT_serialState_reset ( & mtctx - > serial , mtctx - > seqPool , params , mtctx - > targetSectionSize ) )
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return ERROR ( memory_allocation ) ;
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return 0 ;
}
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size_t ZSTDMT_initCStream_advanced ( ZSTDMT_CCtx * mtctx ,
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const void * dict , size_t dictSize ,
ZSTD_parameters params ,
unsigned long long pledgedSrcSize )
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{
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ZSTD_CCtx_params cctxParams = mtctx - > params ; /* retrieve sticky params */
DEBUGLOG ( 4 , " ZSTDMT_initCStream_advanced (pledgedSrcSize=%u) " , ( U32 ) pledgedSrcSize ) ;
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cctxParams . cParams = params . cParams ;
cctxParams . fParams = params . fParams ;
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return ZSTDMT_initCStream_internal ( mtctx , dict , dictSize , ZSTD_dct_auto , NULL ,
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cctxParams , pledgedSrcSize ) ;
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}
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size_t ZSTDMT_initCStream_usingCDict ( ZSTDMT_CCtx * mtctx ,
const ZSTD_CDict * cdict ,
ZSTD_frameParameters fParams ,
unsigned long long pledgedSrcSize )
{
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ZSTD_CCtx_params cctxParams = mtctx - > params ;
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if ( cdict = = NULL ) return ERROR ( dictionary_wrong ) ; /* method incompatible with NULL cdict */
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cctxParams . cParams = ZSTD_getCParamsFromCDict ( cdict ) ;
cctxParams . fParams = fParams ;
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return ZSTDMT_initCStream_internal ( mtctx , NULL , 0 /*dictSize*/ , ZSTD_dct_auto , cdict ,
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cctxParams , pledgedSrcSize ) ;
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}
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/* ZSTDMT_resetCStream() :
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* pledgedSrcSize can be zero = = unknown ( for the time being )
* prefer using ZSTD_CONTENTSIZE_UNKNOWN ,
* as ` 0 ` might mean " empty " in the future */
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size_t ZSTDMT_resetCStream ( ZSTDMT_CCtx * mtctx , unsigned long long pledgedSrcSize )
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{
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if ( ! pledgedSrcSize ) pledgedSrcSize = ZSTD_CONTENTSIZE_UNKNOWN ;
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return ZSTDMT_initCStream_internal ( mtctx , NULL , 0 , ZSTD_dct_auto , 0 , mtctx - > params ,
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pledgedSrcSize ) ;
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}
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size_t ZSTDMT_initCStream ( ZSTDMT_CCtx * mtctx , int compressionLevel ) {
ZSTD_parameters const params = ZSTD_getParams ( compressionLevel , ZSTD_CONTENTSIZE_UNKNOWN , 0 ) ;
ZSTD_CCtx_params cctxParams = mtctx - > params ; /* retrieve sticky params */
DEBUGLOG ( 4 , " ZSTDMT_initCStream (cLevel=%i) " , compressionLevel ) ;
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cctxParams . cParams = params . cParams ;
cctxParams . fParams = params . fParams ;
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return ZSTDMT_initCStream_internal ( mtctx , NULL , 0 , ZSTD_dct_auto , NULL , cctxParams , ZSTD_CONTENTSIZE_UNKNOWN ) ;
}
/* ZSTDMT_writeLastEmptyBlock()
* Write a single empty block with an end - of - frame to finish a frame .
* Job must be created from streaming variant .
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* This function is always successful if expected conditions are fulfilled .
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*/
static void ZSTDMT_writeLastEmptyBlock ( ZSTDMT_jobDescription * job )
{
assert ( job - > lastJob = = 1 ) ;
assert ( job - > src . size = = 0 ) ; /* last job is empty -> will be simplified into a last empty block */
assert ( job - > firstJob = = 0 ) ; /* cannot be first job, as it also needs to create frame header */
assert ( job - > dstBuff . start = = NULL ) ; /* invoked from streaming variant only (otherwise, dstBuff might be user's output) */
job - > dstBuff = ZSTDMT_getBuffer ( job - > bufPool ) ;
if ( job - > dstBuff . start = = NULL ) {
job - > cSize = ERROR ( memory_allocation ) ;
return ;
}
assert ( job - > dstBuff . capacity > = ZSTD_blockHeaderSize ) ; /* no buffer should ever be that small */
job - > src = kNullRange ;
job - > cSize = ZSTD_writeLastEmptyBlock ( job - > dstBuff . start , job - > dstBuff . capacity ) ;
assert ( ! ZSTD_isError ( job - > cSize ) ) ;
assert ( job - > consumed = = 0 ) ;
}
static size_t ZSTDMT_createCompressionJob ( ZSTDMT_CCtx * mtctx , size_t srcSize , ZSTD_EndDirective endOp )
{
unsigned const jobID = mtctx - > nextJobID & mtctx - > jobIDMask ;
int const endFrame = ( endOp = = ZSTD_e_end ) ;
if ( mtctx - > nextJobID > mtctx - > doneJobID + mtctx - > jobIDMask ) {
DEBUGLOG ( 5 , " ZSTDMT_createCompressionJob: will not create new job : table is full " ) ;
assert ( ( mtctx - > nextJobID & mtctx - > jobIDMask ) = = ( mtctx - > doneJobID & mtctx - > jobIDMask ) ) ;
return 0 ;
}
if ( ! mtctx - > jobReady ) {
BYTE const * src = ( BYTE const * ) mtctx - > inBuff . buffer . start ;
DEBUGLOG ( 5 , " ZSTDMT_createCompressionJob: preparing job %u to compress %u bytes with %u preload " ,
mtctx - > nextJobID , ( U32 ) srcSize , ( U32 ) mtctx - > inBuff . prefix . size ) ;
mtctx - > jobs [ jobID ] . src . start = src ;
mtctx - > jobs [ jobID ] . src . size = srcSize ;
assert ( mtctx - > inBuff . filled > = srcSize ) ;
mtctx - > jobs [ jobID ] . prefix = mtctx - > inBuff . prefix ;
mtctx - > jobs [ jobID ] . consumed = 0 ;
mtctx - > jobs [ jobID ] . cSize = 0 ;
mtctx - > jobs [ jobID ] . params = mtctx - > params ;
mtctx - > jobs [ jobID ] . cdict = mtctx - > nextJobID = = 0 ? mtctx - > cdict : NULL ;
mtctx - > jobs [ jobID ] . fullFrameSize = mtctx - > frameContentSize ;
mtctx - > jobs [ jobID ] . dstBuff = g_nullBuffer ;
mtctx - > jobs [ jobID ] . cctxPool = mtctx - > cctxPool ;
mtctx - > jobs [ jobID ] . bufPool = mtctx - > bufPool ;
mtctx - > jobs [ jobID ] . seqPool = mtctx - > seqPool ;
mtctx - > jobs [ jobID ] . serial = & mtctx - > serial ;
mtctx - > jobs [ jobID ] . jobID = mtctx - > nextJobID ;
mtctx - > jobs [ jobID ] . firstJob = ( mtctx - > nextJobID = = 0 ) ;
mtctx - > jobs [ jobID ] . lastJob = endFrame ;
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mtctx - > jobs [ jobID ] . frameChecksumNeeded = mtctx - > params . fParams . checksumFlag & & endFrame & & ( mtctx - > nextJobID > 0 ) ;
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mtctx - > jobs [ jobID ] . dstFlushed = 0 ;
/* Update the round buffer pos and clear the input buffer to be reset */
mtctx - > roundBuff . pos + = srcSize ;
mtctx - > inBuff . buffer = g_nullBuffer ;
mtctx - > inBuff . filled = 0 ;
/* Set the prefix */
if ( ! endFrame ) {
size_t const newPrefixSize = MIN ( srcSize , mtctx - > targetPrefixSize ) ;
mtctx - > inBuff . prefix . start = src + srcSize - newPrefixSize ;
mtctx - > inBuff . prefix . size = newPrefixSize ;
} else { /* endFrame==1 => no need for another input buffer */
mtctx - > inBuff . prefix = kNullRange ;
mtctx - > frameEnded = endFrame ;
if ( mtctx - > nextJobID = = 0 ) {
/* single job exception : checksum is already calculated directly within worker thread */
mtctx - > params . fParams . checksumFlag = 0 ;
} }
if ( ( srcSize = = 0 )
& & ( mtctx - > nextJobID > 0 ) /*single job must also write frame header*/ ) {
DEBUGLOG ( 5 , " ZSTDMT_createCompressionJob: creating a last empty block to end frame " ) ;
assert ( endOp = = ZSTD_e_end ) ; /* only possible case : need to end the frame with an empty last block */
ZSTDMT_writeLastEmptyBlock ( mtctx - > jobs + jobID ) ;
mtctx - > nextJobID + + ;
return 0 ;
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}
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}
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2018-05-15 17:45:22 +00:00
DEBUGLOG ( 5 , " ZSTDMT_createCompressionJob: posting job %u : %u bytes (end:%u, jobNb == %u (mod:%u)) " ,
mtctx - > nextJobID ,
( U32 ) mtctx - > jobs [ jobID ] . src . size ,
mtctx - > jobs [ jobID ] . lastJob ,
mtctx - > nextJobID ,
jobID ) ;
if ( POOL_tryAdd ( mtctx - > factory , ZSTDMT_compressionJob , & mtctx - > jobs [ jobID ] ) ) {
mtctx - > nextJobID + + ;
mtctx - > jobReady = 0 ;
} else {
DEBUGLOG ( 5 , " ZSTDMT_createCompressionJob: no worker available for job %u " , mtctx - > nextJobID ) ;
mtctx - > jobReady = 1 ;
}
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return 0 ;
}
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/*! ZSTDMT_flushProduced() :
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* flush whatever data has been produced but not yet flushed in current job .
* move to next job if current one is fully flushed .
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* ` output ` : ` pos ` will be updated with amount of data flushed .
* ` blockToFlush ` : if > 0 , the function will block and wait if there is no data available to flush .
* @ return : amount of data remaining within internal buffer , 0 if no more , 1 if unknown but > 0 , or an error code */
static size_t ZSTDMT_flushProduced ( ZSTDMT_CCtx * mtctx , ZSTD_outBuffer * output , unsigned blockToFlush , ZSTD_EndDirective end )
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{
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unsigned const wJobID = mtctx - > doneJobID & mtctx - > jobIDMask ;
DEBUGLOG ( 5 , " ZSTDMT_flushProduced (blocking:%u , job %u <= %u) " ,
blockToFlush , mtctx - > doneJobID , mtctx - > nextJobID ) ;
assert ( output - > size > = output - > pos ) ;
ZSTD_PTHREAD_MUTEX_LOCK ( & mtctx - > jobs [ wJobID ] . job_mutex ) ;
if ( blockToFlush
& & ( mtctx - > doneJobID < mtctx - > nextJobID ) ) {
assert ( mtctx - > jobs [ wJobID ] . dstFlushed < = mtctx - > jobs [ wJobID ] . cSize ) ;
while ( mtctx - > jobs [ wJobID ] . dstFlushed = = mtctx - > jobs [ wJobID ] . cSize ) { /* nothing to flush */
if ( mtctx - > jobs [ wJobID ] . consumed = = mtctx - > jobs [ wJobID ] . src . size ) {
DEBUGLOG ( 5 , " job %u is completely consumed (%u == %u) => don't wait for cond, there will be none " ,
mtctx - > doneJobID , ( U32 ) mtctx - > jobs [ wJobID ] . consumed , ( U32 ) mtctx - > jobs [ wJobID ] . src . size ) ;
break ;
}
DEBUGLOG ( 5 , " waiting for something to flush from job %u (currently flushed: %u bytes) " ,
mtctx - > doneJobID , ( U32 ) mtctx - > jobs [ wJobID ] . dstFlushed ) ;
ZSTD_pthread_cond_wait ( & mtctx - > jobs [ wJobID ] . job_cond , & mtctx - > jobs [ wJobID ] . job_mutex ) ; /* block when nothing to flush but some to come */
} }
/* try to flush something */
{ size_t cSize = mtctx - > jobs [ wJobID ] . cSize ; /* shared */
size_t const srcConsumed = mtctx - > jobs [ wJobID ] . consumed ; /* shared */
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size_t const srcSize = mtctx - > jobs [ wJobID ] . src . size ; /* read-only, could be done after mutex lock, but no-declaration-after-statement */
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ZSTD_pthread_mutex_unlock ( & mtctx - > jobs [ wJobID ] . job_mutex ) ;
if ( ZSTD_isError ( cSize ) ) {
DEBUGLOG ( 5 , " ZSTDMT_flushProduced: job %u : compression error detected : %s " ,
mtctx - > doneJobID , ZSTD_getErrorName ( cSize ) ) ;
ZSTDMT_waitForAllJobsCompleted ( mtctx ) ;
ZSTDMT_releaseAllJobResources ( mtctx ) ;
return cSize ;
}
/* add frame checksum if necessary (can only happen once) */
assert ( srcConsumed < = srcSize ) ;
if ( ( srcConsumed = = srcSize ) /* job completed -> worker no longer active */
& & mtctx - > jobs [ wJobID ] . frameChecksumNeeded ) {
U32 const checksum = ( U32 ) XXH64_digest ( & mtctx - > serial . xxhState ) ;
DEBUGLOG ( 4 , " ZSTDMT_flushProduced: writing checksum : %08X \n " , checksum ) ;
MEM_writeLE32 ( ( char * ) mtctx - > jobs [ wJobID ] . dstBuff . start + mtctx - > jobs [ wJobID ] . cSize , checksum ) ;
cSize + = 4 ;
mtctx - > jobs [ wJobID ] . cSize + = 4 ; /* can write this shared value, as worker is no longer active */
mtctx - > jobs [ wJobID ] . frameChecksumNeeded = 0 ;
}
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if ( cSize > 0 ) { /* compression is ongoing or completed */
size_t const toFlush = MIN ( cSize - mtctx - > jobs [ wJobID ] . dstFlushed , output - > size - output - > pos ) ;
DEBUGLOG ( 5 , " ZSTDMT_flushProduced: Flushing %u bytes from job %u (completion:%u/%u, generated:%u) " ,
( U32 ) toFlush , mtctx - > doneJobID , ( U32 ) srcConsumed , ( U32 ) srcSize , ( U32 ) cSize ) ;
assert ( mtctx - > doneJobID < mtctx - > nextJobID ) ;
assert ( cSize > = mtctx - > jobs [ wJobID ] . dstFlushed ) ;
assert ( mtctx - > jobs [ wJobID ] . dstBuff . start ! = NULL ) ;
memcpy ( ( char * ) output - > dst + output - > pos ,
( const char * ) mtctx - > jobs [ wJobID ] . dstBuff . start + mtctx - > jobs [ wJobID ] . dstFlushed ,
toFlush ) ;
output - > pos + = toFlush ;
mtctx - > jobs [ wJobID ] . dstFlushed + = toFlush ; /* can write : this value is only used by mtctx */
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if ( ( srcConsumed = = srcSize ) /* job is completed */
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& & ( mtctx - > jobs [ wJobID ] . dstFlushed = = cSize ) ) { /* output buffer fully flushed => free this job position */
DEBUGLOG ( 5 , " Job %u completed (%u bytes), moving to next one " ,
mtctx - > doneJobID , ( U32 ) mtctx - > jobs [ wJobID ] . dstFlushed ) ;
ZSTDMT_releaseBuffer ( mtctx - > bufPool , mtctx - > jobs [ wJobID ] . dstBuff ) ;
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DEBUGLOG ( 5 , " dstBuffer released " ) ;
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mtctx - > jobs [ wJobID ] . dstBuff = g_nullBuffer ;
mtctx - > jobs [ wJobID ] . cSize = 0 ; /* ensure this job slot is considered "not started" in future check */
mtctx - > consumed + = srcSize ;
mtctx - > produced + = cSize ;
mtctx - > doneJobID + + ;
} }
/* return value : how many bytes left in buffer ; fake it to 1 when unknown but >0 */
if ( cSize > mtctx - > jobs [ wJobID ] . dstFlushed ) return ( cSize - mtctx - > jobs [ wJobID ] . dstFlushed ) ;
if ( srcSize > srcConsumed ) return 1 ; /* current job not completely compressed */
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}
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if ( mtctx - > doneJobID < mtctx - > nextJobID ) return 1 ; /* some more jobs ongoing */
if ( mtctx - > jobReady ) return 1 ; /* one job is ready to push, just not yet in the list */
if ( mtctx - > inBuff . filled > 0 ) return 1 ; /* input is not empty, and still needs to be converted into a job */
mtctx - > allJobsCompleted = mtctx - > frameEnded ; /* all jobs are entirely flushed => if this one is last one, frame is completed */
if ( end = = ZSTD_e_end ) return ! mtctx - > frameEnded ; /* for ZSTD_e_end, question becomes : is frame completed ? instead of : are internal buffers fully flushed ? */
return 0 ; /* internal buffers fully flushed */
}
/**
* Returns the range of data used by the earliest job that is not yet complete .
* If the data of the first job is broken up into two segments , we cover both
* sections .
*/
static range_t ZSTDMT_getInputDataInUse ( ZSTDMT_CCtx * mtctx )
{
unsigned const firstJobID = mtctx - > doneJobID ;
unsigned const lastJobID = mtctx - > nextJobID ;
unsigned jobID ;
for ( jobID = firstJobID ; jobID < lastJobID ; + + jobID ) {
unsigned const wJobID = jobID & mtctx - > jobIDMask ;
size_t consumed ;
ZSTD_PTHREAD_MUTEX_LOCK ( & mtctx - > jobs [ wJobID ] . job_mutex ) ;
consumed = mtctx - > jobs [ wJobID ] . consumed ;
ZSTD_pthread_mutex_unlock ( & mtctx - > jobs [ wJobID ] . job_mutex ) ;
if ( consumed < mtctx - > jobs [ wJobID ] . src . size ) {
range_t range = mtctx - > jobs [ wJobID ] . prefix ;
if ( range . size = = 0 ) {
/* Empty prefix */
range = mtctx - > jobs [ wJobID ] . src ;
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}
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/* Job source in multiple segments not supported yet */
assert ( range . start < = mtctx - > jobs [ wJobID ] . src . start ) ;
return range ;
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}
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}
return kNullRange ;
}
/**
* Returns non - zero iff buffer and range overlap .
*/
static int ZSTDMT_isOverlapped ( buffer_t buffer , range_t range )
{
BYTE const * const bufferStart = ( BYTE const * ) buffer . start ;
BYTE const * const bufferEnd = bufferStart + buffer . capacity ;
BYTE const * const rangeStart = ( BYTE const * ) range . start ;
BYTE const * const rangeEnd = rangeStart + range . size ;
if ( rangeStart = = NULL | | bufferStart = = NULL )
return 0 ;
/* Empty ranges cannot overlap */
if ( bufferStart = = bufferEnd | | rangeStart = = rangeEnd )
return 0 ;
return bufferStart < rangeEnd & & rangeStart < bufferEnd ;
}
static int ZSTDMT_doesOverlapWindow ( buffer_t buffer , ZSTD_window_t window )
{
range_t extDict ;
range_t prefix ;
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DEBUGLOG ( 5 , " ZSTDMT_doesOverlapWindow " ) ;
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extDict . start = window . dictBase + window . lowLimit ;
extDict . size = window . dictLimit - window . lowLimit ;
prefix . start = window . base + window . dictLimit ;
prefix . size = window . nextSrc - ( window . base + window . dictLimit ) ;
DEBUGLOG ( 5 , " extDict [0x%zx, 0x%zx) " ,
( size_t ) extDict . start ,
( size_t ) extDict . start + extDict . size ) ;
DEBUGLOG ( 5 , " prefix [0x%zx, 0x%zx) " ,
( size_t ) prefix . start ,
( size_t ) prefix . start + prefix . size ) ;
return ZSTDMT_isOverlapped ( buffer , extDict )
| | ZSTDMT_isOverlapped ( buffer , prefix ) ;
}
static void ZSTDMT_waitForLdmComplete ( ZSTDMT_CCtx * mtctx , buffer_t buffer )
{
if ( mtctx - > params . ldmParams . enableLdm ) {
ZSTD_pthread_mutex_t * mutex = & mtctx - > serial . ldmWindowMutex ;
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DEBUGLOG ( 5 , " ZSTDMT_waitForLdmComplete " ) ;
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DEBUGLOG ( 5 , " source [0x%zx, 0x%zx) " ,
( size_t ) buffer . start ,
( size_t ) buffer . start + buffer . capacity ) ;
ZSTD_PTHREAD_MUTEX_LOCK ( mutex ) ;
while ( ZSTDMT_doesOverlapWindow ( buffer , mtctx - > serial . ldmWindow ) ) {
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DEBUGLOG ( 5 , " Waiting for LDM to finish... " ) ;
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ZSTD_pthread_cond_wait ( & mtctx - > serial . ldmWindowCond , mutex ) ;
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}
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DEBUGLOG ( 6 , " Done waiting for LDM to finish " ) ;
ZSTD_pthread_mutex_unlock ( mutex ) ;
}
}
/**
* Attempts to set the inBuff to the next section to fill .
* If any part of the new section is still in use we give up .
* Returns non - zero if the buffer is filled .
*/
static int ZSTDMT_tryGetInputRange ( ZSTDMT_CCtx * mtctx )
{
range_t const inUse = ZSTDMT_getInputDataInUse ( mtctx ) ;
size_t const spaceLeft = mtctx - > roundBuff . capacity - mtctx - > roundBuff . pos ;
size_t const target = mtctx - > targetSectionSize ;
buffer_t buffer ;
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DEBUGLOG ( 5 , " ZSTDMT_tryGetInputRange " ) ;
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assert ( mtctx - > inBuff . buffer . start = = NULL ) ;
assert ( mtctx - > roundBuff . capacity > = target ) ;
if ( spaceLeft < target ) {
/* ZSTD_invalidateRepCodes() doesn't work for extDict variants.
* Simply copy the prefix to the beginning in that case .
*/
BYTE * const start = ( BYTE * ) mtctx - > roundBuff . buffer ;
size_t const prefixSize = mtctx - > inBuff . prefix . size ;
buffer . start = start ;
buffer . capacity = prefixSize ;
if ( ZSTDMT_isOverlapped ( buffer , inUse ) ) {
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DEBUGLOG ( 5 , " Waiting for buffer... " ) ;
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return 0 ;
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}
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ZSTDMT_waitForLdmComplete ( mtctx , buffer ) ;
memmove ( start , mtctx - > inBuff . prefix . start , prefixSize ) ;
mtctx - > inBuff . prefix . start = start ;
mtctx - > roundBuff . pos = prefixSize ;
}
buffer . start = mtctx - > roundBuff . buffer + mtctx - > roundBuff . pos ;
buffer . capacity = target ;
if ( ZSTDMT_isOverlapped ( buffer , inUse ) ) {
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DEBUGLOG ( 5 , " Waiting for buffer... " ) ;
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return 0 ;
}
assert ( ! ZSTDMT_isOverlapped ( buffer , mtctx - > inBuff . prefix ) ) ;
ZSTDMT_waitForLdmComplete ( mtctx , buffer ) ;
DEBUGLOG ( 5 , " Using prefix range [%zx, %zx) " ,
( size_t ) mtctx - > inBuff . prefix . start ,
( size_t ) mtctx - > inBuff . prefix . start + mtctx - > inBuff . prefix . size ) ;
DEBUGLOG ( 5 , " Using source range [%zx, %zx) " ,
( size_t ) buffer . start ,
( size_t ) buffer . start + buffer . capacity ) ;
mtctx - > inBuff . buffer = buffer ;
mtctx - > inBuff . filled = 0 ;
assert ( mtctx - > roundBuff . pos + buffer . capacity < = mtctx - > roundBuff . capacity ) ;
return 1 ;
}
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typedef struct {
size_t toLoad ; /* The number of bytes to load from the input. */
int flush ; /* Boolean declaring if we must flush because we found a synchronization point. */
} syncPoint_t ;
/**
* Searches through the input for a synchronization point . If one is found , we
* will instruct the caller to flush , and return the number of bytes to load .
* Otherwise , we will load as many bytes as possible and instruct the caller
* to continue as normal .
*/
static syncPoint_t
findSynchronizationPoint ( ZSTDMT_CCtx const * mtctx , ZSTD_inBuffer const input )
{
BYTE const * const istart = ( BYTE const * ) input . src + input . pos ;
U64 const primePower = mtctx - > rsync . primePower ;
U64 const hitMask = mtctx - > rsync . hitMask ;
syncPoint_t syncPoint ;
U64 hash ;
BYTE const * prev ;
size_t pos ;
syncPoint . toLoad = MIN ( input . size - input . pos , mtctx - > targetSectionSize - mtctx - > inBuff . filled ) ;
syncPoint . flush = 0 ;
if ( ! mtctx - > params . rsyncable )
/* Rsync is disabled. */
return syncPoint ;
if ( mtctx - > inBuff . filled + syncPoint . toLoad < RSYNC_LENGTH )
/* Not enough to compute the hash.
* We will miss any synchronization points in this RSYNC_LENGTH byte
* window . However , since it depends only in the internal buffers , if the
* state is already synchronized , we will remain synchronized .
* Additionally , the probability that we miss a synchronization point is
* low : RSYNC_LENGTH / targetSectionSize .
*/
return syncPoint ;
/* Initialize the loop variables. */
if ( mtctx - > inBuff . filled > = RSYNC_LENGTH ) {
/* We have enough bytes buffered to initialize the hash.
* Start scanning at the beginning of the input .
*/
pos = 0 ;
prev = ( BYTE const * ) mtctx - > inBuff . buffer . start + mtctx - > inBuff . filled - RSYNC_LENGTH ;
hash = ZSTD_rollingHash_compute ( prev , RSYNC_LENGTH ) ;
} else {
/* We don't have enough bytes buffered to initialize the hash, but
* we know we have at least RSYNC_LENGTH bytes total .
* Start scanning after the first RSYNC_LENGTH bytes less the bytes
* already buffered .
*/
pos = RSYNC_LENGTH - mtctx - > inBuff . filled ;
prev = ( BYTE const * ) mtctx - > inBuff . buffer . start - pos ;
hash = ZSTD_rollingHash_compute ( mtctx - > inBuff . buffer . start , mtctx - > inBuff . filled ) ;
hash = ZSTD_rollingHash_append ( hash , istart , pos ) ;
}
/* Starting with the hash of the previous RSYNC_LENGTH bytes, roll
* through the input . If we hit a synchronization point , then cut the
* job off , and tell the compressor to flush the job . Otherwise , load
* all the bytes and continue as normal .
* If we go too long without a synchronization point ( targetSectionSize )
* then a block will be emitted anyways , but this is okay , since if we
* are already synchronized we will remain synchronized .
*/
for ( ; pos < syncPoint . toLoad ; + + pos ) {
BYTE const toRemove = pos < RSYNC_LENGTH ? prev [ pos ] : istart [ pos - RSYNC_LENGTH ] ;
/* if (pos >= RSYNC_LENGTH) assert(ZSTD_rollingHash_compute(istart + pos - RSYNC_LENGTH, RSYNC_LENGTH) == hash); */
hash = ZSTD_rollingHash_rotate ( hash , toRemove , istart [ pos ] , primePower ) ;
if ( ( hash & hitMask ) = = hitMask ) {
syncPoint . toLoad = pos + 1 ;
syncPoint . flush = 1 ;
break ;
}
}
return syncPoint ;
}
size_t ZSTDMT_nextInputSizeHint ( const ZSTDMT_CCtx * mtctx )
{
size_t hintInSize = mtctx - > targetSectionSize - mtctx - > inBuff . filled ;
if ( hintInSize = = 0 ) hintInSize = mtctx - > targetSectionSize ;
return hintInSize ;
}
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/** ZSTDMT_compressStream_generic() :
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* internal use only - exposed to be invoked from zstd_compress . c
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* assumption : output and input are valid ( pos < = size )
* @ return : minimum amount of data remaining to flush , 0 if none */
size_t ZSTDMT_compressStream_generic ( ZSTDMT_CCtx * mtctx ,
ZSTD_outBuffer * output ,
ZSTD_inBuffer * input ,
ZSTD_EndDirective endOp )
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{
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unsigned forwardInputProgress = 0 ;
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DEBUGLOG ( 5 , " ZSTDMT_compressStream_generic (endOp=%u, srcSize=%u) " ,
( U32 ) endOp , ( U32 ) ( input - > size - input - > pos ) ) ;
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assert ( output - > pos < = output - > size ) ;
assert ( input - > pos < = input - > size ) ;
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if ( mtctx - > singleBlockingThread ) { /* delegate to single-thread (synchronous) */
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return ZSTD_compressStream2 ( mtctx - > cctxPool - > cctx [ 0 ] , output , input , endOp ) ;
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}
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if ( ( mtctx - > frameEnded ) & & ( endOp = = ZSTD_e_continue ) ) {
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/* current frame being ended. Only flush/end are allowed */
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return ERROR ( stage_wrong ) ;
}
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/* single-pass shortcut (note : synchronous-mode) */
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if ( ( ! mtctx - > params . rsyncable ) /* rsyncable mode is disabled */
& & ( mtctx - > nextJobID = = 0 ) /* just started */
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& & ( mtctx - > inBuff . filled = = 0 ) /* nothing buffered */
& & ( ! mtctx - > jobReady ) /* no job already created */
& & ( endOp = = ZSTD_e_end ) /* end order */
& & ( output - > size - output - > pos > = ZSTD_compressBound ( input - > size - input - > pos ) ) ) { /* enough space in dst */
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size_t const cSize = ZSTDMT_compress_advanced_internal ( mtctx ,
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( char * ) output - > dst + output - > pos , output - > size - output - > pos ,
( const char * ) input - > src + input - > pos , input - > size - input - > pos ,
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mtctx - > cdict , mtctx - > params ) ;
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if ( ZSTD_isError ( cSize ) ) return cSize ;
input - > pos = input - > size ;
output - > pos + = cSize ;
mtctx - > allJobsCompleted = 1 ;
mtctx - > frameEnded = 1 ;
return 0 ;
}
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/* fill input buffer */
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if ( ( ! mtctx - > jobReady )
& & ( input - > size > input - > pos ) ) { /* support NULL input */
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if ( mtctx - > inBuff . buffer . start = = NULL ) {
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assert ( mtctx - > inBuff . filled = = 0 ) ; /* Can't fill an empty buffer */
if ( ! ZSTDMT_tryGetInputRange ( mtctx ) ) {
/* It is only possible for this operation to fail if there are
* still compression jobs ongoing .
*/
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DEBUGLOG ( 5 , " ZSTDMT_tryGetInputRange failed " ) ;
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assert ( mtctx - > doneJobID ! = mtctx - > nextJobID ) ;
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} else
DEBUGLOG ( 5 , " ZSTDMT_tryGetInputRange completed successfully : mtctx->inBuff.buffer.start = %p " , mtctx - > inBuff . buffer . start ) ;
2017-08-27 10:05:17 +00:00
}
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if ( mtctx - > inBuff . buffer . start ! = NULL ) {
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syncPoint_t const syncPoint = findSynchronizationPoint ( mtctx , * input ) ;
if ( syncPoint . flush & & endOp = = ZSTD_e_continue ) {
endOp = ZSTD_e_flush ;
}
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assert ( mtctx - > inBuff . buffer . capacity > = mtctx - > targetSectionSize ) ;
DEBUGLOG ( 5 , " ZSTDMT_compressStream_generic: adding %u bytes on top of %u to buffer of size %u " ,
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( U32 ) syncPoint . toLoad , ( U32 ) mtctx - > inBuff . filled , ( U32 ) mtctx - > targetSectionSize ) ;
memcpy ( ( char * ) mtctx - > inBuff . buffer . start + mtctx - > inBuff . filled , ( const char * ) input - > src + input - > pos , syncPoint . toLoad ) ;
input - > pos + = syncPoint . toLoad ;
mtctx - > inBuff . filled + = syncPoint . toLoad ;
forwardInputProgress = syncPoint . toLoad > 0 ;
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}
if ( ( input - > pos < input - > size ) & & ( endOp = = ZSTD_e_end ) )
endOp = ZSTD_e_flush ; /* can't end now : not all input consumed */
}
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if ( ( mtctx - > jobReady )
| | ( mtctx - > inBuff . filled > = mtctx - > targetSectionSize ) /* filled enough : let's compress */
| | ( ( endOp ! = ZSTD_e_continue ) & & ( mtctx - > inBuff . filled > 0 ) ) /* something to flush : let's go */
| | ( ( endOp = = ZSTD_e_end ) & & ( ! mtctx - > frameEnded ) ) ) { /* must finish the frame with a zero-size block */
size_t const jobSize = mtctx - > inBuff . filled ;
assert ( mtctx - > inBuff . filled < = mtctx - > targetSectionSize ) ;
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FORWARD_IF_ERROR ( ZSTDMT_createCompressionJob ( mtctx , jobSize , endOp ) ) ;
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}
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/* check for potential compressed data ready to be flushed */
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{ size_t const remainingToFlush = ZSTDMT_flushProduced ( mtctx , output , ! forwardInputProgress , endOp ) ; /* block if there was no forward input progress */
if ( input - > pos < input - > size ) return MAX ( remainingToFlush , 1 ) ; /* input not consumed : do not end flush yet */
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DEBUGLOG ( 5 , " end of ZSTDMT_compressStream_generic: remainingToFlush = %u " , ( U32 ) remainingToFlush ) ;
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return remainingToFlush ;
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}
}
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size_t ZSTDMT_compressStream ( ZSTDMT_CCtx * mtctx , ZSTD_outBuffer * output , ZSTD_inBuffer * input )
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{
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FORWARD_IF_ERROR ( ZSTDMT_compressStream_generic ( mtctx , output , input , ZSTD_e_continue ) ) ;
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/* recommended next input size : fill current input buffer */
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return mtctx - > targetSectionSize - mtctx - > inBuff . filled ; /* note : could be zero when input buffer is fully filled and no more availability to create new job */
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}
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static size_t ZSTDMT_flushStream_internal ( ZSTDMT_CCtx * mtctx , ZSTD_outBuffer * output , ZSTD_EndDirective endFrame )
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{
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size_t const srcSize = mtctx - > inBuff . filled ;
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DEBUGLOG ( 5 , " ZSTDMT_flushStream_internal " ) ;
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if ( mtctx - > jobReady /* one job ready for a worker to pick up */
| | ( srcSize > 0 ) /* still some data within input buffer */
| | ( ( endFrame = = ZSTD_e_end ) & & ! mtctx - > frameEnded ) ) { /* need a last 0-size block to end frame */
DEBUGLOG ( 5 , " ZSTDMT_flushStream_internal : create a new job (%u bytes, end:%u) " ,
( U32 ) srcSize , ( U32 ) endFrame ) ;
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FORWARD_IF_ERROR ( ZSTDMT_createCompressionJob ( mtctx , srcSize , endFrame ) ) ;
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}
/* check if there is any data available to flush */
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return ZSTDMT_flushProduced ( mtctx , output , 1 /* blockToFlush */ , endFrame ) ;
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}
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size_t ZSTDMT_flushStream ( ZSTDMT_CCtx * mtctx , ZSTD_outBuffer * output )
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{
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DEBUGLOG ( 5 , " ZSTDMT_flushStream " ) ;
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if ( mtctx - > singleBlockingThread )
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return ZSTD_flushStream ( mtctx - > cctxPool - > cctx [ 0 ] , output ) ;
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return ZSTDMT_flushStream_internal ( mtctx , output , ZSTD_e_flush ) ;
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}
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size_t ZSTDMT_endStream ( ZSTDMT_CCtx * mtctx , ZSTD_outBuffer * output )
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{
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DEBUGLOG ( 4 , " ZSTDMT_endStream " ) ;
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if ( mtctx - > singleBlockingThread )
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return ZSTD_endStream ( mtctx - > cctxPool - > cctx [ 0 ] , output ) ;
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return ZSTDMT_flushStream_internal ( mtctx , output , ZSTD_e_end ) ;
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}