pcsx2/plugins/spu2-x/src/DllInterface.cpp

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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]
*
* 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/>.
*/
#include "Spu2.h"
#include "Dialogs.h"
#include "RegTable.h"
#ifdef _MSC_VER
#include "svnrev.h"
#else
#include <stdio.h>
#include <string.h>
#endif
// [Air]: Adding the spu2init boolean wasn't necessary except to help me in
// debugging the spu2 suspend/resume behavior (when user hits escape).
static bool spu2open=false; // has spu2open plugin interface been called?
static bool spu2init=false; // has spu2init plugin interface been called?
//static s32 logvolume[16384];
static u32 pClocks=0;
// Pcsx2 expects ASNI, not unicode, so this MUST always be char...
static char libraryName[256];
#ifdef _MSC_VER
BOOL WINAPI DllMain(HINSTANCE hinstDLL,DWORD dwReason,LPVOID lpvReserved)
{
if( dwReason == DLL_PROCESS_ATTACH )
hInstance = hinstDLL;
return TRUE;
}
#endif
static void InitLibraryName()
{
if( !IsDevBuild )
{
// Public Release!
// Output a simplified string that's just our name:
strcpy( libraryName, "SPU2-X" );
}
else
{
#ifdef SVN_REV_UNKNOWN
// Unknown revision.
// Output a name that includes devbuild status but not
// subversion revision tags:
strcpy( libraryName, "SPU2-X"
#ifdef DEBUG_FAST
"-Debug"
#elif defined( PCSX2_DEBUG )
"-Debug/Strict" // strict debugging is slow!
#else
"-Dev"
#endif
);
#else
// Use TortoiseSVN's SubWCRev utility's output
// to label the specific revision:
sprintf_s( libraryName, "SPU2-X r%d%s"
#ifdef DEBUG_FAST
"-Debug"
#elif defined( PCSX2_DEBUG )
"-Debug/Strict" // strict debugging is slow!
#else
"-Dev"
#endif
,SVN_REV,
SVN_MODS ? "m" : ""
);
#endif
}
}
EXPORT_C_(u32) PS2EgetLibType()
{
return PS2E_LT_SPU2;
}
EXPORT_C_(char*) PS2EgetLibName()
{
InitLibraryName();
return libraryName;
}
EXPORT_C_(u32) PS2EgetLibVersion2(u32 type)
{
return (VersionInfo::PluginApi<<16) | (VersionInfo::Release<<8) | VersionInfo::Revision;
}
EXPORT_C_(void) SPU2configure()
{
configure();
}
EXPORT_C_(void) SPU2about()
{
//InitLibraryName();
//SysMessage( libraryName );
AboutBox();
}
EXPORT_C_(s32) SPU2test()
{
return SndBuffer::Test();
}
EXPORT_C_(s32) SPU2init()
{
#define MAKESURE(a,b) \
/*fprintf(stderr,"%08p: %08p == %08p\n",&(regtable[a>>1]),regtable[a>>1],U16P(b));*/ \
assert(regtable[(a)>>1]==U16P(b))
MAKESURE(0x800,zero);
s32 c=0,v=0;
ReadSettings();
#ifdef SPU2_LOG
if(AccessLog())
{
spu2Log = fopen( Unicode::Convert( AccessLogFileName ).c_str(), "w" );
setvbuf(spu2Log, NULL, _IONBF, 0);
FileLog("SPU2init\n");
}
#endif
srand((unsigned)time(NULL));
if (spu2init)
{
ConLog( " * SPU2: Already initialized - Ignoring SPU2init signal." );
return 0;
}
spu2init=true;
spu2regs = (short*)malloc(0x010000);
_spu2mem = (short*)malloc(0x200000);
// adpcm decoder cache:
// the cache data size is determined by taking the number of adpcm blocks
// (2MB / 16) and multiplying it by the decoded block size (28 samples).
// Thus: pcm_cache_data = 7,340,032 bytes (ouch!)
// Expanded: 16 bytes expands to 56 bytes [3.5:1 ratio]
// Resulting in 2MB * 3.5.
pcm_cache_data = (PcmCacheEntry*)calloc( pcm_BlockCount, sizeof(PcmCacheEntry) );
if( (spu2regs == NULL) || (_spu2mem == NULL) ||
(pcm_cache_data == NULL) )
{
SysMessage("SPU2: Error allocating Memory\n"); return -1;
}
for(int mem=0;mem<0x800;mem++)
{
u16 *ptr=regtable[mem>>1];
if(!ptr) {
regtable[mem>>1] = &(spu2Ru16(mem));
}
}
memset(spu2regs,0,0x010000);
memset(_spu2mem,0,0x200000);
Cores[0].Reset();
Cores[1].Reset();
DMALogOpen();
/*for(v=0;v<16384;v++)
{
logvolume[v]=(s32)(s32)floor(log((double)(v+1))*3376.7);
}*/
// Initializes lowpass filter for reverb in mixer.cpp
//LowPassFilterInit();
InitADSR();
#ifdef STREAM_DUMP
il0=fopen("logs/spu2input0.pcm","wb");
il1=fopen("logs/spu2input1.pcm","wb");
#endif
#ifdef EFFECTS_DUMP
el0=fopen("logs/spu2fx0.pcm","wb");
el1=fopen("logs/spu2fx1.pcm","wb");
#endif
#ifdef S2R_ENABLE
if(!replay_mode)
s2r_open("replay_dump.s2r");
#endif
return 0;
}
EXPORT_C_(s32) SPU2open(void *pDsp)
{
if( spu2open ) return 0;
FileLog("[%10d] SPU2 Open\n",Cycles);
/*
if(debugDialogOpen==0)
{
hDebugDialog = CreateDialogParam(hInstance,MAKEINTRESOURCE(IDD_DEBUG),0,DebugProc,0);
ShowWindow(hDebugDialog,SW_SHOWNORMAL);
debugDialogOpen=1;
}*/
spu2open = true;
try
{
SndBuffer::Init();
spdif_init();
DspLoadLibrary(dspPlugin,dspPluginModule);
WaveDump::Open();
}
catch( ... )
{
SPU2close();
return -1;
}
return 0;
}
EXPORT_C_(void) SPU2close()
{
if( !spu2open ) return;
FileLog("[%10d] SPU2 Close\n",Cycles);
#ifndef __LINUX__
DspCloseLibrary();
#endif
spdif_shutdown();
SndBuffer::Cleanup();
spu2open = false;
}
EXPORT_C_(void) SPU2shutdown()
{
if(!spu2init) return;
ConLog( " * SPU2: Shutting down.\n" );
SPU2close();
#ifdef S2R_ENABLE
if(!replay_mode)
s2r_close();
#endif
DoFullDump();
#ifdef STREAM_DUMP
fclose(il0);
fclose(il1);
#endif
#ifdef EFFECTS_DUMP
fclose(el0);
fclose(el1);
#endif
WaveDump::Close();
DMALogClose();
spu2init = false;
SAFE_FREE(spu2regs);
SAFE_FREE(_spu2mem);
SAFE_FREE( pcm_cache_data );
spu2regs = NULL;
_spu2mem = NULL;
pcm_cache_data = NULL;
#ifdef SPU2_LOG
if(!AccessLog()) return;
FileLog("[%10d] SPU2shutdown\n",Cycles);
if(spu2Log) fclose(spu2Log);
#endif
}
EXPORT_C_(void) SPU2setClockPtr(u32 *ptr)
{
cyclePtr = ptr;
}
bool numpad_plus = false, numpad_plus_old = false;
EXPORT_C_(void) SPU2async(u32 cycles)
{
if( IsDevBuild )
{
u32 oldClocks = lClocks;
static u32 timer=0,time1=0,time2=0;
timer++;
if (timer == 1){
time1=timeGetTime();
}
if (timer == 3000){
time2 = timeGetTime()-time1 ;
timer=0;
}
}
DspUpdate();
if( IsDevBuild )
{
/*numpad_plus = (GetAsyncKeyState(VK_ADD)&0x8000)!=0;
if(numpad_plus && !numpad_plus_old)
{
DoFullDump();
}
numpad_plus_old = numpad_plus;*/
}
if(cyclePtr != NULL)
{
TimeUpdate( *cyclePtr );
}
else
{
pClocks += cycles;
TimeUpdate( pClocks );
}
}
EXPORT_C_(void) SPU2irqCallback(void (*SPU2callback)(),void (*DMA4callback)(),void (*DMA7callback)())
{
_irqcallback = SPU2callback;
dma4callback = DMA4callback;
dma7callback = DMA7callback;
}
EXPORT_C_(u16) SPU2read(u32 rmem)
{
// if(!replay_mode)
// s2r_readreg(Cycles,rmem);
u16 ret=0xDEAD; u32 core=0, mem=rmem&0xFFFF, omem=mem;
if (mem & 0x400) { omem^=0x400; core=1; }
if(rmem==0x1f9001AC)
{
ret = DmaRead(core);
}
else
{
if( cyclePtr != NULL )
TimeUpdate( *cyclePtr );
if (rmem>>16 == 0x1f80)
{
ret = SPU_ps1_read(rmem);
}
else if( (mem&0xFFFF) >= 0x800 )
{
ret = spu2Ru16(mem);
ConLog(" * SPU2: Read from reg>=0x800: %x value %x\n",mem,ret);
}
else
{
ret = *(regtable[(mem>>1)]);
//FileLog("[%10d] SPU2 read mem %x (core %d, register %x): %x\n",Cycles, mem, core, (omem & 0x7ff), ret);
SPU2writeLog( "read", rmem, ret );
}
}
return ret;
}
EXPORT_C_(void) SPU2write(u32 rmem, u16 value)
{
#ifdef S2R_ENABLE
if(!replay_mode)
s2r_writereg(Cycles,rmem,value);
#endif
if(rmem==0x1f9001ac)
{
//RegWriteLog(0,value);
if((Cores[0].IRQEnable)&&(Cores[0].TSA==Cores[0].IRQA))
{
Spdif.Info=4;
SetIrqCall();
}
spu2M_Write( Cores[0].TSA++, value );
Cores[0].TSA&=0xfffff;
}
else if(rmem==0x1f9005ac)
{
//RegWriteLog(1,value);
if((Cores[0].IRQEnable)&&(Cores[0].TSA==Cores[0].IRQA))
{
Spdif.Info=4;
SetIrqCall();
}
spu2M_Write( Cores[1].TSA++, value );
Cores[1].TSA&=0xfffff;
}
else
{
// Note: Reverb/Effects are very sensitive to having precise update timings.
// If the SPU2 isn't in in sync with the IOP, samples can end up playing at rather
// incorrect pitches and loop lengths.
if( cyclePtr != NULL )
TimeUpdate( *cyclePtr );
if (rmem>>16 == 0x1f80)
SPU_ps1_write(rmem,value);
else
{
SPU2writeLog( "write", rmem, value );
SPU2_FastWrite( rmem, value );
}
}
}
// if start is 1, starts recording spu2 data, else stops
// returns a non zero value if successful
// for now, pData is not used
EXPORT_C_(int) SPU2setupRecording(int start, void* pData)
{
if(start==0)
RecordStop();
else if(start==1)
RecordStart();
return 0;
}