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/* SPU2-X, A plugin for Emulating the Sound Processing Unit of the Playstation 2
* Developed and maintained by the Pcsx2 Development Team .
*
* Original portions from SPU2ghz are ( c ) 2008 by David Quintana [ gigaherz ]
*
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* SPU2 - X is free software : you can redistribute it and / or modify it under the terms
* of the GNU Lesser General Public License as published by the Free Software Found -
* ation , either version 3 of the License , or ( at your option ) any later version .
*
* SPU2 - X is distributed in the hope that it will be useful , but WITHOUT ANY WARRANTY ;
* without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
* PURPOSE . See the GNU Lesser General Public License for more details .
*
* You should have received a copy of the GNU Lesser General Public License
* along with SPU2 - X . If not , see < http : //www.gnu.org/licenses/>.
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*/
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# include "Global.h"
# include "dma.h"
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# include "PS2E-spu2.h" // temporary until I resolve cyclePtr/TimeUpdate dependencies.
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extern u8 callirq ;
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static FILE * DMA4LogFile = NULL ;
static FILE * DMA7LogFile = NULL ;
static FILE * ADMA4LogFile = NULL ;
static FILE * ADMA7LogFile = NULL ;
static FILE * ADMAOutLogFile = NULL ;
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static FILE * REGWRTLogFile [ 2 ] = { 0 , 0 } ;
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void DMALogOpen ( )
{
if ( ! DMALog ( ) ) return ;
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DMA4LogFile = fopen ( Unicode : : Convert ( DMA4LogFileName ) . c_str ( ) , " wb " ) ;
DMA7LogFile = fopen ( Unicode : : Convert ( DMA7LogFileName ) . c_str ( ) , " wb " ) ;
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ADMA4LogFile = fopen ( " logs/adma4.raw " , " wb " ) ;
ADMA7LogFile = fopen ( " logs/adma7.raw " , " wb " ) ;
ADMAOutLogFile = fopen ( " logs/admaOut.raw " , " wb " ) ;
//REGWRTLogFile[0]=fopen("logs/RegWrite0.raw","wb");
//REGWRTLogFile[1]=fopen("logs/RegWrite1.raw","wb");
}
void DMA4LogWrite ( void * lpData , u32 ulSize ) {
if ( ! DMALog ( ) ) return ;
if ( ! DMA4LogFile ) return ;
fwrite ( lpData , ulSize , 1 , DMA4LogFile ) ;
}
void DMA7LogWrite ( void * lpData , u32 ulSize ) {
if ( ! DMALog ( ) ) return ;
if ( ! DMA7LogFile ) return ;
fwrite ( lpData , ulSize , 1 , DMA7LogFile ) ;
}
void ADMAOutLogWrite ( void * lpData , u32 ulSize ) {
if ( ! DMALog ( ) ) return ;
if ( ! ADMAOutLogFile ) return ;
fwrite ( lpData , ulSize , 1 , ADMAOutLogFile ) ;
}
void RegWriteLog ( u32 core , u16 value )
{
if ( ! DMALog ( ) ) return ;
if ( ! REGWRTLogFile [ core ] ) return ;
fwrite ( & value , 2 , 1 , REGWRTLogFile [ core ] ) ;
}
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void DMALogClose ( )
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{
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safe_fclose ( DMA4LogFile ) ;
safe_fclose ( DMA7LogFile ) ;
safe_fclose ( REGWRTLogFile [ 0 ] ) ;
safe_fclose ( REGWRTLogFile [ 1 ] ) ;
safe_fclose ( ADMA4LogFile ) ;
safe_fclose ( ADMA7LogFile ) ;
safe_fclose ( ADMAOutLogFile ) ;
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}
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void V_Core : : LogAutoDMA ( FILE * fp )
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{
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if ( ! DMALog ( ) | | ! fp ) return ;
fwrite ( DMAPtr + InputDataProgress , 0x400 , 1 , fp ) ;
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}
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void V_Core : : AutoDMAReadBuffer ( int mode ) //mode: 0= split stereo; 1 = do not split stereo
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{
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int spos = ( ( InputPos + 0xff ) & 0x100 ) ; //starting position of the free buffer
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LogAutoDMA ( Index ? ADMA7LogFile : ADMA4LogFile ) ;
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// HACKFIX!! DMAPtr can be invalid after a savestate load, so the savestate just forces it
// to NULL and we ignore it here. (used to work in old VM editions of PCSX2 with fixed
// addressing, but new PCSX2s have dynamic memory addressing).
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if ( mode )
{
if ( DMAPtr ! = NULL )
memcpy ( ( ADMATempBuffer + ( spos < < 1 ) ) , DMAPtr + InputDataProgress , 0x400 ) ;
MADR + = 0x400 ;
InputDataLeft - = 0x200 ;
InputDataProgress + = 0x200 ;
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}
else
{
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if ( DMAPtr ! = NULL )
memcpy ( ( ADMATempBuffer + spos ) , DMAPtr + InputDataProgress , 0x200 ) ;
//memcpy((spu2mem+0x2000+(core<<10)+spos),DMAPtr+InputDataProgress,0x200);
MADR + = 0x200 ;
InputDataLeft - = 0x100 ;
InputDataProgress + = 0x100 ;
if ( DMAPtr ! = NULL )
memcpy ( ( ADMATempBuffer + spos + 0x200 ) , DMAPtr + InputDataProgress , 0x200 ) ;
//memcpy((spu2mem+0x2200+(core<<10)+spos),DMAPtr+InputDataProgress,0x200);
MADR + = 0x200 ;
InputDataLeft - = 0x100 ;
InputDataProgress + = 0x100 ;
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}
// See ReadInput at mixer.cpp for explanation on the commented out lines
//
}
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void V_Core : : StartADMAWrite ( u16 * pMem , u32 sz )
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{
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int size = ( sz ) & ( ~ 511 ) ;
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if ( MsgAutoDMA ( ) ) ConLog ( " * SPU2: DMA%c AutoDMA Transfer of %d bytes to %x (%02x %x %04x). \n " ,
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GetDmaIndexChar ( ) , size < < 1 , TSA , DMABits , AutoDMACtrl , ( ~ Regs . ATTR ) & 0x7fff ) ;
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InputDataProgress = 0 ;
if ( ( AutoDMACtrl & ( Index + 1 ) ) = = 0 )
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{
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TSA = 0x2000 + ( Index < < 10 ) ;
DMAICounter = size ;
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}
else if ( size > = 512 )
{
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InputDataLeft = size ;
if ( AdmaInProgress = = 0 )
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{
# ifdef PCM24_S1_INTERLEAVE
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if ( ( Index = = 1 ) & & ( ( PlayMode & 8 ) = = 8 ) )
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{
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AutoDMAReadBuffer ( Index , 1 ) ;
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}
else
{
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AutoDMAReadBuffer ( Index , 0 ) ;
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}
# else
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if ( ( ( PlayMode & 4 ) = = 4 ) & & ( Index = = 0 ) )
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Cores [ 0 ] . InputPos = 0 ;
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AutoDMAReadBuffer ( 0 ) ;
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# endif
if ( size = = 512 )
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DMAICounter = size ;
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}
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AdmaInProgress = 1 ;
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}
else
{
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InputDataLeft = 0 ;
DMAICounter = 1 ;
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}
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TADR = MADR + ( size < < 1 ) ;
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}
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void V_Core : : PlainDMAWrite ( u16 * pMem , u32 size )
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{
// Perform an alignment check.
// Not really important. Everything should work regardless,
// but it could be indicative of an emulation foopah elsewhere.
#if 0
uptr pa = ( ( uptr ) pMem ) & 7 ;
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uptr pm = TSA & 0x7 ;
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if ( pa )
{
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fprintf ( stderr , " * SPU2 DMA Write > Missaligned SOURCE! Core: %d TSA: 0x%x TDA: 0x%x Size: 0x%x \n " , core , TSA , TDA , size ) ;
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}
if ( pm )
{
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fprintf ( stderr , " * SPU2 DMA Write > Missaligned TARGET! Core: %d TSA: 0x%x TDA: 0x%x Size: 0x%x \n " , core , TSA , TDA , size ) ;
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}
# endif
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if ( Index = = 0 )
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DMA4LogWrite ( pMem , size < < 1 ) ;
else
DMA7LogWrite ( pMem , size < < 1 ) ;
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if ( MsgDMA ( ) ) ConLog ( " * SPU2: DMA%c Transfer of %d bytes to %x (%02x %x %04x). \n " , GetDmaIndexChar ( ) , size < < 1 , TSA , DMABits , AutoDMACtrl , ( ~ Regs . ATTR ) & 0x7fff ) ;
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TSA & = 0xfffff ;
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u32 buff1end = TSA + size ;
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u32 buff2end = 0 ;
if ( buff1end > 0x100000 )
{
buff2end = buff1end - 0x100000 ;
buff1end = 0x100000 ;
}
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const int cacheIdxStart = TSA / pcm_WordsPerBlock ;
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const int cacheIdxEnd = ( buff1end + pcm_WordsPerBlock - 1 ) / pcm_WordsPerBlock ;
PcmCacheEntry * cacheLine = & pcm_cache_data [ cacheIdxStart ] ;
PcmCacheEntry & cacheEnd = pcm_cache_data [ cacheIdxEnd ] ;
do
{
cacheLine - > Validated = false ;
cacheLine + + ;
} while ( cacheLine ! = & cacheEnd ) ;
//ConLog( " * SPU2 : Cache Clear Range! TSA=0x%x, TDA=0x%x (low8=0x%x, high8=0x%x, len=0x%x)\n",
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// TSA, buff1end, flagTSA, flagTDA, clearLen );
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// First Branch needs cleared:
// It starts at TSA and goes to buff1end.
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const u32 buff1size = ( buff1end - TSA ) ;
memcpy ( GetMemPtr ( TSA ) , pMem , buff1size * 2 ) ;
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if ( buff2end > 0 )
{
// second branch needs copied:
// It starts at the beginning of memory and moves forward to buff2end
// endpoint cache should be irrelevant, since it's almost certainly dynamic
// memory below 0x2800 (registers and such)
//const u32 endpt2 = (buff2end + roundUp) / indexer_scalar;
//memset( pcm_cache_flags, 0, endpt2 );
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// Emulation Grayarea: Should addresses wrap around to zero, or wrap around to
// 0x2800? Hard to know for usre (almost no games depend on this)
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memcpy ( GetMemPtr ( 0 ) , & pMem [ buff1size ] , buff2end * 2 ) ;
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TDA = ( buff2end + 1 ) & 0xfffff ;
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}
else
{
// Buffer doesn't wrap/overflow!
// Just set the TDA and check for an IRQ...
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TDA = buff1end ;
}
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// Flag interrupt? If IRQA occurs between start and dest, flag it.
// Important: Test both core IRQ settings for either DMA!
for ( int i = 0 ; i < 2 ; i + + )
{
// Note: (start is inclusive, dest exclusive -- fixes DMC1 FMVs)
if ( Cores [ i ] . IRQEnable & & ( Cores [ i ] . IRQA > = Cores [ i ] . TSA ) & & ( Cores [ i ] . IRQA < Cores [ i ] . TDA ) )
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{
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Spdif . Info = 4 < < i ;
SetIrqCall ( ) ;
}
}
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if ( IRQEnable )
{
if ( ( IRQA > = TSA ) & & ( IRQA < TDA ) )
{
Spdif . Info = 4 < < Index ;
SetIrqCall ( ) ;
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}
}
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TSA = TDA & 0xFFFF0 ;
DMAICounter = size ;
TADR = MADR + ( size < < 1 ) ;
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}
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void V_Core : : DoDMAread ( u16 * pMem , u32 size )
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{
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TSA & = 0xffff8 ;
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u32 buff1end = TSA + size ;
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u32 buff2end = 0 ;
if ( buff1end > 0x100000 )
{
buff2end = buff1end - 0x100000 ;
buff1end = 0x100000 ;
}
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const u32 buff1size = ( buff1end - TSA ) ;
memcpy ( pMem , GetMemPtr ( TSA ) , buff1size * 2 ) ;
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// Note on TSA's position after our copy finishes:
// IRQA should be measured by the end of the writepos+0x20. But the TDA
// should be written back at the precise endpoint of the xfer.
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if ( buff2end > 0 )
{
// second branch needs cleared:
// It starts at the beginning of memory and moves forward to buff2end
memcpy ( & pMem [ buff1size ] , GetMemPtr ( 0 ) , buff2end * 2 ) ;
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TDA = ( buff2end + 0x20 ) & 0xfffff ;
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}
else
{
// Buffer doesn't wrap/overflow!
// Just set the TDA and check for an IRQ...
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TDA = ( buff1end + 0x20 ) & 0xfffff ;
}
// Flag interrupt? If IRQA occurs between start and dest, flag it.
// Important: Test both core IRQ settings for either DMA!
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for ( int i = 0 ; i < 2 ; i + + )
{
if ( Cores [ i ] . IRQEnable & & ( Cores [ i ] . IRQA > = Cores [ i ] . TSA ) & & ( Cores [ i ] . IRQA < Cores [ i ] . TDA ) )
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{
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Spdif . Info = 4 < < i ;
SetIrqCall ( ) ;
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}
}
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TSA = TDA & 0xFFFFF ;
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DMAICounter = size ;
Regs . STATX & = ~ 0x80 ;
//Regs.ATTR |= 0x30;
TADR = MADR + ( size < < 1 ) ;
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}
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void V_Core : : DoDMAwrite ( u16 * pMem , u32 size )
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{
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DMAPtr = pMem ;
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if ( size < 2 ) {
//if(dma7callback) dma7callback();
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Regs . STATX & = ~ 0x80 ;
//Regs.ATTR |= 0x30;
DMAICounter = 1 ;
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return ;
}
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if ( IsDevBuild )
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DebugCores [ Index ] . lastsize = size ;
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TSA & = ~ 7 ;
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bool adma_enable = ( ( AutoDMACtrl & ( Index + 1 ) ) = = ( Index + 1 ) ) ;
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if ( adma_enable )
{
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TSA & = 0x1fff ;
StartADMAWrite ( pMem , size ) ;
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}
else
{
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PlainDMAWrite ( pMem , size ) ;
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}
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Regs . STATX & = ~ 0x80 ;
//Regs.ATTR |= 0x30;
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}