ref: e029357a195263d878999872a558ff40b02c469b
dir: /src/audiolib/pas16.c/
/* Copyright (C) 1994-1995 Apogee Software, Ltd. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program 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 General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ /********************************************************************** module: PAS16.C author: James R. Dose date: March 27, 1994 Low level routines to support Pro AudioSpectrum and compatible sound cards. (c) Copyright 1994 James R. Dose. All Rights Reserved. **********************************************************************/ #include <dos.h> #include <conio.h> #include <stdlib.h> #include <stdio.h> #include <string.h> #include "dpmi.h" #include "dma.h" #include "interrup.h" #include "irq.h" #include "pas16.h" #include "_pas16.h" #define USESTACK static const int PAS_Interrupts[ PAS_MaxIrq + 1 ] = { INVALID, INVALID, 0xa, 0xb, INVALID, 0xd, INVALID, 0xf, INVALID, INVALID, 0x72, 0x73, 0x74, INVALID, INVALID, 0x77 }; static void ( interrupt far *PAS_OldInt )( void ); static int PAS_IntController1Mask; static int PAS_IntController2Mask; static int PAS_Installed = FALSE; static int PAS_TranslateCode = DEFAULT_BASE; static int PAS_OriginalPCMLeftVolume = 75; static int PAS_OriginalPCMRightVolume = 75; static int PAS_OriginalFMLeftVolume = 75; static int PAS_OriginalFMRightVolume = 75; unsigned int PAS_DMAChannel; static int PAS_Irq; static MVState *PAS_State = NULL; static MVFunc *PAS_Func = NULL; static MVState PAS_OriginalState; static int PAS_SampleSizeConfig; static char *PAS_DMABuffer; static char *PAS_DMABufferEnd; static char *PAS_CurrentDMABuffer; static int PAS_TotalDMABufferSize; static int PAS_TransferLength = 0; static int PAS_MixMode = PAS_DefaultMixMode; static unsigned PAS_SampleRate = PAS_DefaultSampleRate; static int PAS_TimeInterval = 0; volatile int PAS_SoundPlaying; void ( *PAS_CallBack )( void ); // adequate stack size #define kStackSize 2048 static unsigned short StackSelector = NULL; static unsigned long StackPointer; static unsigned short oldStackSelector; static unsigned long oldStackPointer; // This is defined because we can't create local variables in a // function that switches stacks. static int irqstatus; // These declarations are necessary to use the inline assembly pragmas. extern void GetStack(unsigned short *selptr,unsigned long *stackptr); extern void SetStack(unsigned short selector,unsigned long stackptr); // This function will get the current stack selector and pointer and save // them off. #pragma aux GetStack = \ "mov [edi],esp" \ "mov ax,ss" \ "mov [esi],ax" \ parm [esi] [edi] \ modify [eax esi edi]; // This function will set the stack selector and pointer to the specified // values. #pragma aux SetStack = \ "mov ss,ax" \ "mov esp,edx" \ parm [ax] [edx] \ modify [eax edx]; int PAS_ErrorCode = PAS_Ok; #define PAS_SetErrorCode( status ) \ PAS_ErrorCode = ( status ); /*--------------------------------------------------------------------- Function: PAS_ErrorString Returns a pointer to the error message associated with an error number. A -1 returns a pointer the current error. ---------------------------------------------------------------------*/ char *PAS_ErrorString ( int ErrorNumber ) { char *ErrorString; switch( ErrorNumber ) { case PAS_Warning : case PAS_Error : ErrorString = PAS_ErrorString( PAS_ErrorCode ); break; case PAS_Ok : ErrorString = "Pro AudioSpectrum ok."; break; case PAS_DriverNotFound : ErrorString = "MVSOUND.SYS not loaded."; break; case PAS_DmaError : ErrorString = DMA_ErrorString( DMA_Error ); break; case PAS_InvalidIrq : ErrorString = "Invalid Pro AudioSpectrum Irq."; break; case PAS_UnableToSetIrq : ErrorString = "Unable to set Pro AudioSpectrum IRQ. Try selecting an IRQ of 7 or below."; break; case PAS_Dos4gwIrqError : ErrorString = "Unsupported Pro AudioSpectrum Irq."; break; case PAS_NoSoundPlaying : ErrorString = "No sound playing on Pro AudioSpectrum."; break; case PAS_CardNotFound : ErrorString = "Could not find Pro AudioSpectrum."; break; case PAS_DPMI_Error : ErrorString = "DPMI Error in PAS16."; break; case PAS_OutOfMemory : ErrorString = "Out of conventional memory in PAS16."; break; default : ErrorString = "Unknown Pro AudioSpectrum error code."; break; } return( ErrorString ); } /********************************************************************** Memory locked functions: **********************************************************************/ #define PAS_LockStart PAS_CheckForDriver /*--------------------------------------------------------------------- Function: PAS_CheckForDriver Checks to see if MVSOUND.SYS is installed. ---------------------------------------------------------------------*/ int PAS_CheckForDriver ( void ) { union REGS regs; unsigned result; regs.w.ax = MV_CheckForDriver; regs.w.bx = 0x3f3f; #ifdef __386__ int386( MV_SoundInt, ®s, ®s ); #else int86( MV_SoundInt, ®s, ®s ); #endif if ( regs.w.ax != MV_CheckForDriver ) { PAS_SetErrorCode( PAS_DriverNotFound ); return( PAS_Error ); } result = regs.w.bx ^ regs.w.cx ^ regs.w.dx; if ( result != MV_Signature ) { PAS_SetErrorCode( PAS_DriverNotFound ); return( PAS_Error ); } return( PAS_Ok ); } /*--------------------------------------------------------------------- Function: PAS_GetStateTable Returns a pointer to the state table containing hardware state information. The state table is necessary because the Pro Audio- Spectrum contains only write-only registers. ---------------------------------------------------------------------*/ MVState *PAS_GetStateTable ( void ) { union REGS regs; MVState *ptr; regs.w.ax = MV_GetPointerToStateTable; #ifdef __386__ int386( MV_SoundInt, ®s, ®s ); #else int86( MV_SoundInt, ®s, ®s ); #endif if ( regs.w.ax != MV_Signature ) { PAS_SetErrorCode( PAS_DriverNotFound ); return( NULL ); } #if defined(__WATCOMC__) && defined(__FLAT__) ptr = ( MVState * )( ( ( ( unsigned )regs.w.dx ) << 4 ) + ( ( unsigned )regs.w.bx ) ); #else ptr = MK_FP( regs.w.dx, regs.w.bx ); #endif return( ptr ); } /*--------------------------------------------------------------------- Function: PAS_GetFunctionTable Returns a pointer to the function table containing addresses of driver functions. ---------------------------------------------------------------------*/ MVFunc *PAS_GetFunctionTable ( void ) { union REGS regs; MVFunc *ptr; regs.w.ax = MV_GetPointerToFunctionTable; #ifdef __386__ int386( MV_SoundInt, ®s, ®s ); #else int86( MV_SoundInt, ®s, ®s ); #endif if ( regs.w.ax != MV_Signature ) { PAS_SetErrorCode( PAS_DriverNotFound ); return( NULL ); } #if defined(__WATCOMC__) && defined(__FLAT__) ptr = ( MVFunc * )( ( ( ( unsigned )regs.w.dx ) << 4 ) + ( ( unsigned )regs.w.bx ) ); #else ptr = MK_FP( regs.w.dx, regs.w.bx ); #endif return( ptr ); } /*--------------------------------------------------------------------- Function: PAS_GetCardSettings Returns the DMA and the IRQ channels of the sound card. ---------------------------------------------------------------------*/ int PAS_GetCardSettings ( void ) { union REGS regs; int status; regs.w.ax = MV_GetDmaIrqInt; #ifdef __386__ int386( MV_SoundInt, ®s, ®s ); #else int86( MV_SoundInt, ®s, ®s ); #endif if ( regs.w.ax != MV_Signature ) { PAS_SetErrorCode( PAS_DriverNotFound ); return( PAS_Error ); } PAS_DMAChannel = regs.w.bx; PAS_Irq = regs.w.cx; if ( PAS_Irq > PAS_MaxIrq ) { PAS_SetErrorCode( PAS_Dos4gwIrqError ); return( PAS_Error ); } if ( !VALID_IRQ( PAS_Irq ) ) { PAS_SetErrorCode( PAS_InvalidIrq ); return( PAS_Error ); } if ( PAS_Interrupts[ PAS_Irq ] == INVALID ) { PAS_SetErrorCode( PAS_InvalidIrq ); return( PAS_Error ); } status = DMA_VerifyChannel( PAS_DMAChannel ); if ( status == DMA_Error ) { PAS_SetErrorCode( PAS_DmaError ); return( PAS_Error ); } return( PAS_Ok ); } /*--------------------------------------------------------------------- Function: PAS_EnableInterrupt Enables the triggering of the sound card interrupt. ---------------------------------------------------------------------*/ void PAS_EnableInterrupt ( void ) { int mask; int data; unsigned flags; flags = DisableInterrupts(); if ( PAS_Irq < 8 ) { mask = inp( 0x21 ) & ~( 1 << PAS_Irq ); outp( 0x21, mask ); } else { mask = inp( 0xA1 ) & ~( 1 << ( PAS_Irq - 8 ) ); outp( 0xA1, mask ); mask = inp( 0x21 ) & ~( 1 << 2 ); outp( 0x21, mask ); } // Flush any pending interrupts PAS_Write( InterruptStatus, PAS_Read( InterruptStatus ) & 0x40 ); // Enable the interrupt on the PAS data = PAS_State->intrctlr; data |= SampleBufferInterruptFlag; PAS_Write( InterruptControl, data ); PAS_State->intrctlr = data; RestoreInterrupts( flags ); } /*--------------------------------------------------------------------- Function: PAS_DisableInterrupt Disables the triggering of the sound card interrupt. ---------------------------------------------------------------------*/ void PAS_DisableInterrupt ( void ) { int mask; int data; unsigned flags; flags = DisableInterrupts(); // Disable the interrupt on the PAS data = PAS_State->intrctlr; data &= ~( SampleRateInterruptFlag | SampleBufferInterruptFlag ); PAS_Write( InterruptControl, data ); PAS_State->intrctlr = data; // Restore interrupt mask if ( PAS_Irq < 8 ) { mask = inp( 0x21 ) & ~( 1 << PAS_Irq ); mask |= PAS_IntController1Mask & ( 1 << PAS_Irq ); outp( 0x21, mask ); } else { mask = inp( 0x21 ) & ~( 1 << 2 ); mask |= PAS_IntController1Mask & ( 1 << 2 ); outp( 0x21, mask ); mask = inp( 0xA1 ) & ~( 1 << ( PAS_Irq - 8 ) ); mask |= PAS_IntController2Mask & ( 1 << ( PAS_Irq - 8 ) ); outp( 0xA1, mask ); } RestoreInterrupts( flags ); } /*--------------------------------------------------------------------- Function: PAS_ServiceInterrupt Handles interrupt generated by sound card at the end of a voice transfer. Calls the user supplied callback function. ---------------------------------------------------------------------*/ void interrupt far PAS_ServiceInterrupt ( void ) { #ifdef USESTACK // save stack GetStack( &oldStackSelector, &oldStackPointer ); // set our stack SetStack( StackSelector, StackPointer ); #endif irqstatus = PAS_Read( InterruptStatus ); if ( ( irqstatus & SampleBufferInterruptFlag ) == 0 ) { #ifdef USESTACK // restore stack SetStack( oldStackSelector, oldStackPointer ); #endif _chain_intr( PAS_OldInt ); } // Clear the interrupt irqstatus &= ~SampleBufferInterruptFlag; PAS_Write( InterruptStatus, irqstatus ); // send EOI to Interrupt Controller if ( PAS_Irq > 7 ) { outp( 0xA0, 0x20 ); } outp( 0x20, 0x20 ); // Keep track of current buffer PAS_CurrentDMABuffer += PAS_TransferLength; if ( PAS_CurrentDMABuffer >= PAS_DMABufferEnd ) { PAS_CurrentDMABuffer = PAS_DMABuffer; } // Call the caller's callback function if ( PAS_CallBack != NULL ) { PAS_CallBack(); } #ifdef USESTACK // restore stack SetStack( oldStackSelector, oldStackPointer ); #endif } /*--------------------------------------------------------------------- Function: PAS_Write Writes a byte of data to the sound card. ---------------------------------------------------------------------*/ void PAS_Write ( int Register, int Data ) { int port; port = Register ^ PAS_TranslateCode; outp( port, Data ); } /*--------------------------------------------------------------------- Function: PAS_Read Reads a byte of data from the sound card. ---------------------------------------------------------------------*/ int PAS_Read ( int Register ) { int port; int data; port = Register ^ PAS_TranslateCode; data = inp( port ); return( data ); } /*--------------------------------------------------------------------- Function: PAS_SetSampleRateTimer Programs the Sample Rate Timer. ---------------------------------------------------------------------*/ void PAS_SetSampleRateTimer ( void ) { int LoByte; int HiByte; int data; unsigned flags; flags = DisableInterrupts(); // Disable the Sample Rate Timer data = PAS_State->audiofilt; data &= ~SampleRateTimerGateFlag; PAS_Write( AudioFilterControl, data ); PAS_State->audiofilt = data; // Select the Sample Rate Timer data = SelectSampleRateTimer; PAS_Write( LocalTimerControl, data ); PAS_State->tmrctlr = data; LoByte = lobyte( PAS_TimeInterval ); HiByte = hibyte( PAS_TimeInterval ); // Program the Sample Rate Timer PAS_Write( SampleRateTimer, LoByte ); PAS_Write( SampleRateTimer, HiByte ); PAS_State->samplerate = PAS_TimeInterval; RestoreInterrupts( flags ); } /*--------------------------------------------------------------------- Function: PAS_SetSampleBufferCount Programs the Sample Buffer Count. ---------------------------------------------------------------------*/ void PAS_SetSampleBufferCount ( void ) { int LoByte; int HiByte; int count; int data; unsigned flags; flags = DisableInterrupts(); // Disable the Sample Buffer Count data = PAS_State->audiofilt; data &= ~SampleBufferCountGateFlag; PAS_Write( AudioFilterControl, data ); PAS_State->audiofilt = data; // Select the Sample Buffer Count data = SelectSampleBufferCount; PAS_Write( LocalTimerControl, data ); PAS_State->tmrctlr = data; count = PAS_TransferLength; // Check if we're using a 16-bit DMA channel if ( PAS_DMAChannel > 3 ) { count >>= 1; } LoByte = lobyte( count ); HiByte = hibyte( count ); // Program the Sample Buffer Count PAS_Write( SampleBufferCount, LoByte ); PAS_Write( SampleBufferCount, HiByte ); PAS_State->samplecnt = count; RestoreInterrupts( flags ); } /*--------------------------------------------------------------------- Function: PAS_SetPlaybackRate Sets the rate at which the digitized sound will be played in hertz. ---------------------------------------------------------------------*/ void PAS_SetPlaybackRate ( unsigned rate ) { if ( rate < PAS_MinSamplingRate ) { rate = PAS_MinSamplingRate; } if ( rate > PAS_MaxSamplingRate ) { rate = PAS_MaxSamplingRate; } PAS_TimeInterval = ( unsigned )CalcTimeInterval( rate ); if ( PAS_MixMode & STEREO ) { PAS_TimeInterval /= 2; } // Keep track of what the actual rate is PAS_SampleRate = CalcSamplingRate( PAS_TimeInterval ); if ( PAS_MixMode & STEREO ) { PAS_SampleRate /= 2; } } /*--------------------------------------------------------------------- Function: PAS_GetPlaybackRate Returns the rate at which the digitized sound will be played in hertz. ---------------------------------------------------------------------*/ unsigned PAS_GetPlaybackRate ( void ) { return( PAS_SampleRate ); } /*--------------------------------------------------------------------- Function: PAS_SetMixMode Sets the sound card to play samples in mono or stereo. ---------------------------------------------------------------------*/ int PAS_SetMixMode ( int mode ) { mode &= PAS_MaxMixMode; // Check board revision. Revision # 0 can't play 16-bit data. if ( ( PAS_State->intrctlr & 0xe0 ) == 0 ) { // Force the mode to 8-bit data. mode &= ~SIXTEEN_BIT; } PAS_MixMode = mode; PAS_SetPlaybackRate( PAS_SampleRate ); return( mode ); } /*--------------------------------------------------------------------- Function: PAS_StopPlayback Ends the DMA transfer of digitized sound to the sound card. ---------------------------------------------------------------------*/ void PAS_StopPlayback ( void ) { int data; // Don't allow anymore interrupts PAS_DisableInterrupt(); // Stop the transfer of digital data data = PAS_State->crosschannel; data &= PAS_PCMStopMask; PAS_Write( CrossChannelControl, data ); PAS_State->crosschannel = data; // Turn off 16-bit unsigned data data = PAS_Read( SampleSizeConfiguration ); data &= PAS_SampleSizeMask; PAS_Write( SampleSizeConfiguration, data ); // Disable the DMA channel DMA_EndTransfer( PAS_DMAChannel ); PAS_SoundPlaying = FALSE; PAS_DMABuffer = NULL; } /*--------------------------------------------------------------------- Function: PAS_SetupDMABuffer Programs the DMAC for sound transfer. ---------------------------------------------------------------------*/ int PAS_SetupDMABuffer ( char *BufferPtr, int BufferSize, int mode ) { int DmaStatus; int data; // Enable PAS Dma data = PAS_State->crosschannel; data |= PAS_DMAEnable; PAS_Write( CrossChannelControl, data ); PAS_State->crosschannel = data; DmaStatus = DMA_SetupTransfer( PAS_DMAChannel, BufferPtr, BufferSize, mode ); if ( DmaStatus == DMA_Error ) { PAS_SetErrorCode( PAS_DmaError ); return( PAS_Error ); } PAS_DMABuffer = BufferPtr; PAS_CurrentDMABuffer = BufferPtr; PAS_TotalDMABufferSize = BufferSize; PAS_DMABufferEnd = BufferPtr + BufferSize; return( PAS_Ok ); } /*--------------------------------------------------------------------- Function: PAS_GetCurrentPos Returns the offset within the current sound being played. ---------------------------------------------------------------------*/ int PAS_GetCurrentPos ( void ) { char *CurrentAddr; int offset; if ( !PAS_SoundPlaying ) { PAS_SetErrorCode( PAS_NoSoundPlaying ); return( PAS_Error ); } CurrentAddr = DMA_GetCurrentPos( PAS_DMAChannel ); if ( CurrentAddr == NULL ) { PAS_SetErrorCode( PAS_DmaError ); return( PAS_Error ); } offset = ( int )( ( ( unsigned long )CurrentAddr ) - ( ( unsigned long )PAS_CurrentDMABuffer ) ); if ( PAS_MixMode & SIXTEEN_BIT ) { offset >>= 1; } if ( PAS_MixMode & STEREO ) { offset >>= 1; } return( offset ); } /*--------------------------------------------------------------------- Function: PAS_GetFilterSetting Returns the bit settings for the appropriate filter level. ---------------------------------------------------------------------*/ int PAS_GetFilterSetting ( int rate ) { /* CD Quality 17897hz */ if ( ( unsigned long )rate > ( unsigned long )17897L * 2 ) { /* 00001b 20hz to 17.8khz */ return( 0x01 ); } /* Cassette Quality 15090hz */ if ( ( unsigned long )rate > ( unsigned long )15909L * 2 ) { /* 00010b 20hz to 15.9khz */ return( 0x02 ); } /* FM Radio Quality 11931hz */ if ( ( unsigned long )rate > ( unsigned long )11931L * 2 ) { /* 01001b 20hz to 11.9khz */ return( 0x09 ); } /* AM Radio Quality 8948hz */ if ( ( unsigned long )rate > ( unsigned long )8948L * 2 ) { /* 10001b 20hz to 8.9khz */ return( 0x11 ); } /* Telphone Quality 5965hz */ if ( ( unsigned long )rate > ( unsigned long )5965L * 2 ) { /* 00100b 20hz to 5.9khz */ return( 0x19 ); } /* Male voice quality 2982hz */ /* 111001b 20hz to 2.9khz */ return( 0x04 ); } /*--------------------------------------------------------------------- Function: PAS_BeginTransfer Starts playback of digitized sound on the sound card. ---------------------------------------------------------------------*/ void PAS_BeginTransfer ( int mode ) { int data; PAS_SetSampleRateTimer(); PAS_SetSampleBufferCount(); PAS_EnableInterrupt(); // Get sample size configuration data = PAS_Read( SampleSizeConfiguration ); // Check board revision. Revision # 0 can't play 16-bit data. if ( PAS_State->intrctlr & 0xe0 ) { data &= PAS_SampleSizeMask; // set sample size bit if ( PAS_MixMode & SIXTEEN_BIT ) { data |= PAS_16BitSampleFlag; } } // set oversampling rate data &= PAS_OverSamplingMask; data |= PAS_4xOverSampling; // Set sample size configuration PAS_Write( SampleSizeConfiguration, data ); // Get Cross channel setting data = PAS_State->crosschannel; data &= PAS_ChannelConnectMask; if ( mode == RECORD ) { data |= PAS_PCMStartADC; } else { data |= PAS_PCMStartDAC; } // set stereo mode bit if ( !( PAS_MixMode & STEREO ) ) { data |= PAS_StereoFlag; } PAS_Write( CrossChannelControl, data ); PAS_State->crosschannel = data; // Get the filter appropriate filter setting data = PAS_GetFilterSetting( PAS_SampleRate ); // Enable the Sample Rate Timer and Sample Buffer Count data |= SampleRateTimerGateFlag | SampleBufferCountGateFlag; if ( mode != RECORD ) { // Enable audio (not Audio Mute) data |= PAS_AudioMuteFlag; } PAS_Write( AudioFilterControl, data ); PAS_State->audiofilt = data; PAS_SoundPlaying = TRUE; } /*--------------------------------------------------------------------- Function: PAS_BeginBufferedPlayback Begins multibuffered playback of digitized sound on the sound card. ---------------------------------------------------------------------*/ int PAS_BeginBufferedPlayback ( char *BufferStart, int BufferSize, int NumDivisions, unsigned SampleRate, int MixMode, void ( *CallBackFunc )( void ) ) { int DmaStatus; PAS_StopPlayback(); PAS_SetMixMode( MixMode ); PAS_SetPlaybackRate( SampleRate ); PAS_TransferLength = BufferSize / NumDivisions; PAS_SetCallBack( CallBackFunc ); DmaStatus = PAS_SetupDMABuffer( BufferStart, BufferSize, DMA_AutoInitRead ); if ( DmaStatus == PAS_Error ) { return( PAS_Error ); } PAS_BeginTransfer( PLAYBACK ); return( PAS_Ok ); } /*--------------------------------------------------------------------- Function: PAS_BeginBufferedRecord Begins multibuffered recording of digitized sound on the sound card. ---------------------------------------------------------------------*/ int PAS_BeginBufferedRecord ( char *BufferStart, int BufferSize, int NumDivisions, unsigned SampleRate, int MixMode, void ( *CallBackFunc )( void ) ) { int DmaStatus; PAS_StopPlayback(); PAS_SetMixMode( MixMode ); PAS_SetPlaybackRate( SampleRate ); PAS_TransferLength = BufferSize / NumDivisions; PAS_SetCallBack( CallBackFunc ); DmaStatus = PAS_SetupDMABuffer( BufferStart, BufferSize, DMA_AutoInitWrite ); if ( DmaStatus == PAS_Error ) { return( PAS_Error ); } PAS_BeginTransfer( RECORD ); return( PAS_Ok ); } /*--------------------------------------------------------------------- Function: PAS_CallInt Calls interrupt 2fh. ---------------------------------------------------------------------*/ int PAS_CallInt( int ebx, int ecx, int edx ); #pragma aux PAS_CallInt = \ "int 2fh", \ parm [ ebx ] [ ecx ] [ edx ] modify exact [ eax ebx ecx edx esi edi ] value [ ebx ]; /*--------------------------------------------------------------------- Function: PAS_CallMVFunction Performs a call to a real mode function. ---------------------------------------------------------------------*/ int PAS_CallMVFunction ( unsigned long function, int ebx, int ecx, int edx ) { dpmi_regs callregs; int status; callregs.EBX = ebx; callregs.ECX = ecx; callregs.EDX = edx; callregs.SS = 0; callregs.SP = 0; callregs.DS = 0; callregs.ES = 0; callregs.FS = 0; callregs.GS = 0; callregs.IP = function; callregs.CS = function >> 16; status = DPMI_CallRealModeFunction( &callregs ); if ( status != DPMI_Ok ) { return( PAS_Error ); } return( callregs.EBX & 0xff ); } /*--------------------------------------------------------------------- Function: PAS_SetPCMVolume Sets the volume of digitized sound playback. ---------------------------------------------------------------------*/ int PAS_SetPCMVolume ( int volume ) { int status; volume = max( 0, volume ); volume = min( volume, 255 ); volume *= 100; volume /= 255; status = PAS_CallMVFunction( PAS_Func->SetMixer, volume, OUTPUTMIXER, L_PCM ); if ( status == PAS_Error ) { return( status ); } status = PAS_CallMVFunction( PAS_Func->SetMixer, volume, OUTPUTMIXER, R_PCM ); if ( status == PAS_Error ) { return( status ); } return( PAS_Ok ); } /*--------------------------------------------------------------------- Function: PAS_GetPCMVolume Returns the current volume of digitized sound playback. ---------------------------------------------------------------------*/ int PAS_GetPCMVolume ( void ) { int leftvolume; int rightvolume; int totalvolume; if ( PAS_Func == NULL ) { return( PAS_Error ); } leftvolume = PAS_CallMVFunction( PAS_Func->GetMixer, 0, OUTPUTMIXER, L_PCM ); rightvolume = PAS_CallMVFunction( PAS_Func->GetMixer, 0, OUTPUTMIXER, R_PCM ); if ( ( leftvolume == PAS_Error ) || ( rightvolume == PAS_Error ) ) { return( PAS_Error ); } leftvolume &= 0xff; rightvolume &= 0xff; totalvolume = ( rightvolume + leftvolume ) / 2; totalvolume *= 255; totalvolume /= 100; return( totalvolume ); } /*--------------------------------------------------------------------- Function: PAS_SetFMVolume Sets the volume of FM sound playback. ---------------------------------------------------------------------*/ void PAS_SetFMVolume ( int volume ) { volume = max( 0, volume ); volume = min( volume, 255 ); volume *= 100; volume /= 255; if ( PAS_Func ) { PAS_CallMVFunction( PAS_Func->SetMixer, volume, OUTPUTMIXER, L_FM ); PAS_CallMVFunction( PAS_Func->SetMixer, volume, OUTPUTMIXER, R_FM ); } } /*--------------------------------------------------------------------- Function: PAS_GetFMVolume Returns the current volume of FM sound playback. ---------------------------------------------------------------------*/ int PAS_GetFMVolume ( void ) { int leftvolume; int rightvolume; int totalvolume; if ( PAS_Func == NULL ) { return( 255 ); } leftvolume = PAS_CallMVFunction( PAS_Func->GetMixer, 0, OUTPUTMIXER, L_FM ) & 0xff; rightvolume = PAS_CallMVFunction( PAS_Func->GetMixer, 0, OUTPUTMIXER, R_FM ) & 0xff; totalvolume = ( rightvolume + leftvolume ) / 2; totalvolume *= 255; totalvolume /= 100; totalvolume = min( 255, totalvolume ); return( totalvolume ); } /*--------------------------------------------------------------------- Function: PAS_GetCardInfo Returns the maximum number of bits that can represent a sample (8 or 16) and the number of channels (1 for mono, 2 for stereo). ---------------------------------------------------------------------*/ int PAS_GetCardInfo ( int *MaxSampleBits, int *MaxChannels ) { int status; if ( PAS_State == NULL ) { status = PAS_CheckForDriver(); if ( status != PAS_Ok ) { return( status ); } PAS_State = PAS_GetStateTable(); if ( PAS_State == NULL ) { return( PAS_Error ); } } *MaxChannels = 2; // Check board revision. Revision # 0 can't play 16-bit data. if ( ( PAS_State->intrctlr & 0xe0 ) == 0 ) { *MaxSampleBits = 8; } else { *MaxSampleBits = 16; } return( PAS_Ok ); } /*--------------------------------------------------------------------- Function: PAS_SetCallBack Specifies the user function to call at the end of a sound transfer. ---------------------------------------------------------------------*/ void PAS_SetCallBack ( void ( *func )( void ) ) { PAS_CallBack = func; } /*--------------------------------------------------------------------- Function: PAS_FindCard Auto-detects the port the Pro AudioSpectrum is set for. ---------------------------------------------------------------------*/ int PAS_FindCard ( void ) { int status; status = PAS_TestAddress( DEFAULT_BASE ); if ( status == 0 ) { PAS_TranslateCode = DEFAULT_BASE; return( PAS_Ok ); } status = PAS_TestAddress( ALT_BASE_1 ); if ( status == 0 ) { PAS_TranslateCode = ALT_BASE_1; return( PAS_Ok ); } status = PAS_TestAddress( ALT_BASE_2 ); if ( status == 0 ) { PAS_TranslateCode = ALT_BASE_2; return( PAS_Ok ); } status = PAS_TestAddress( ALT_BASE_3 ); if ( status == 0 ) { PAS_TranslateCode = ALT_BASE_3; return( PAS_Ok ); } PAS_SetErrorCode( PAS_CardNotFound ); return( PAS_Error ); } /*--------------------------------------------------------------------- Function: PAS_SaveMusicVolume Saves the user's FM mixer settings. ---------------------------------------------------------------------*/ int PAS_SaveMusicVolume ( void ) { int status; int data; if ( !PAS_Installed ) { status = PAS_CheckForDriver(); if ( status != PAS_Ok ) { return( status ); } PAS_State = PAS_GetStateTable(); if ( PAS_State == NULL ) { return( PAS_Error ); } PAS_Func = PAS_GetFunctionTable(); if ( PAS_Func == NULL ) { return( PAS_Error ); } status = PAS_GetCardSettings(); if ( status != PAS_Ok ) { return( status ); } status = PAS_FindCard(); if ( status != PAS_Ok ) { return( status ); } // Enable PAS Sound data = PAS_State->audiofilt; data |= PAS_AudioMuteFlag; PAS_Write( AudioFilterControl, data ); PAS_State->audiofilt = data; } status = PAS_CallMVFunction( PAS_Func->GetMixer, 0, OUTPUTMIXER, L_FM ); if ( status != PAS_Error ) { PAS_OriginalFMLeftVolume = PAS_CallMVFunction( PAS_Func->GetMixer, 0, OUTPUTMIXER, L_FM ) & 0xff; PAS_OriginalFMRightVolume = PAS_CallMVFunction( PAS_Func->GetMixer, 0, OUTPUTMIXER, R_FM ) & 0xff; return( PAS_Ok ); } return( PAS_Warning ); } /*--------------------------------------------------------------------- Function: PAS_RestoreMusicVolume Restores the user's FM mixer settings. ---------------------------------------------------------------------*/ void PAS_RestoreMusicVolume ( void ) { if ( PAS_Func ) { PAS_CallMVFunction( PAS_Func->SetMixer, PAS_OriginalFMLeftVolume, OUTPUTMIXER, L_FM ); PAS_CallMVFunction( PAS_Func->SetMixer, PAS_OriginalFMRightVolume, OUTPUTMIXER, R_FM ); } } /*--------------------------------------------------------------------- Function: PAS_SaveState Saves the original state of the PAS prior to use. ---------------------------------------------------------------------*/ void PAS_SaveState ( void ) { PAS_OriginalState.intrctlr = PAS_State->intrctlr; PAS_OriginalState.audiofilt = PAS_State->audiofilt; PAS_OriginalState.tmrctlr = PAS_State->tmrctlr; PAS_OriginalState.samplerate = PAS_State->samplerate; PAS_OriginalState.samplecnt = PAS_State->samplecnt; PAS_OriginalState.crosschannel = PAS_State->crosschannel; PAS_SampleSizeConfig = PAS_Read( SampleSizeConfiguration ); } /*--------------------------------------------------------------------- Function: PAS_RestoreState Restores the original state of the PAS after use. ---------------------------------------------------------------------*/ void PAS_RestoreState ( void ) { int LoByte; int HiByte; // Select the Sample Rate Timer PAS_Write( LocalTimerControl, SelectSampleRateTimer ); PAS_State->tmrctlr = SelectSampleRateTimer; PAS_Write( SampleRateTimer, PAS_OriginalState.samplerate ); PAS_State->samplerate = PAS_OriginalState.samplerate; // Select the Sample Buffer Count PAS_Write( LocalTimerControl, SelectSampleBufferCount ); PAS_State->tmrctlr = SelectSampleBufferCount; LoByte = lobyte( PAS_OriginalState.samplecnt ); HiByte = hibyte( PAS_OriginalState.samplecnt ); PAS_Write( SampleRateTimer, LoByte ); PAS_Write( SampleRateTimer, HiByte ); PAS_State->samplecnt = PAS_OriginalState.samplecnt; PAS_Write( CrossChannelControl, PAS_OriginalState.crosschannel ); PAS_State->crosschannel = PAS_OriginalState.crosschannel; PAS_Write( SampleSizeConfiguration, PAS_SampleSizeConfig ); PAS_Write( InterruptControl, PAS_OriginalState.intrctlr ); PAS_State->intrctlr = PAS_OriginalState.intrctlr; PAS_Write( AudioFilterControl, PAS_OriginalState.audiofilt ); PAS_State->audiofilt = PAS_OriginalState.audiofilt; PAS_Write( LocalTimerControl, PAS_OriginalState.tmrctlr ); PAS_State->tmrctlr = PAS_OriginalState.tmrctlr; } /*--------------------------------------------------------------------- Function: PAS_LockEnd Used for determining the length of the functions to lock in memory. ---------------------------------------------------------------------*/ static void PAS_LockEnd ( void ) { } /*--------------------------------------------------------------------- Function: allocateTimerStack Allocate a block of memory from conventional (low) memory and return the selector (which can go directly into a segment register) of the memory block or 0 if an error occured. ---------------------------------------------------------------------*/ static unsigned short allocateTimerStack ( unsigned short size ) { union REGS regs; // clear all registers memset( ®s, 0, sizeof( regs ) ); // DPMI allocate conventional memory regs.w.ax = 0x100; // size in paragraphs regs.w.bx = ( size + 15 ) / 16; int386( 0x31, ®s, ®s ); if (!regs.w.cflag) { // DPMI call returns selector in dx // (ax contains real mode segment // which is ignored here) return( regs.w.dx ); } // Couldn't allocate memory. return( NULL ); } /*--------------------------------------------------------------------- Function: deallocateTimerStack Deallocate a block of conventional (low) memory given a selector to it. Assumes the block was allocated with DPMI function 0x100. ---------------------------------------------------------------------*/ static void deallocateTimerStack ( unsigned short selector ) { union REGS regs; if ( selector != NULL ) { // clear all registers memset( ®s, 0, sizeof( regs ) ); regs.w.ax = 0x101; regs.w.dx = selector; int386( 0x31, ®s, ®s ); } } /*--------------------------------------------------------------------- Function: PAS_Init Initializes the sound card and prepares the module to play digitized sounds. ---------------------------------------------------------------------*/ int PAS_Init ( void ) { int Interrupt; int status; int data; if ( PAS_Installed ) { return( PAS_Ok ); } PAS_IntController1Mask = inp( 0x21 ); PAS_IntController2Mask = inp( 0xA1 ); status = PAS_CheckForDriver(); if ( status != PAS_Ok ) { return( status ); } PAS_State = PAS_GetStateTable(); if ( PAS_State == NULL ) { return( PAS_Error ); } PAS_Func = PAS_GetFunctionTable(); if ( PAS_Func == NULL ) { return( PAS_Error ); } status = PAS_GetCardSettings(); if ( status != PAS_Ok ) { return( status ); } status = PAS_FindCard(); if ( status != PAS_Ok ) { return( status ); } PAS_SaveState(); PAS_OriginalPCMLeftVolume = PAS_CallMVFunction( PAS_Func->GetMixer, 0, OUTPUTMIXER, L_PCM ) & 0xff; PAS_OriginalPCMRightVolume = PAS_CallMVFunction( PAS_Func->GetMixer, 0, OUTPUTMIXER, R_PCM ) & 0xff; PAS_SoundPlaying = FALSE; PAS_SetCallBack( NULL ); PAS_DMABuffer = NULL; status = PAS_LockMemory(); if ( status != PAS_Ok ) { PAS_UnlockMemory(); return( status ); } StackSelector = allocateTimerStack( kStackSize ); if ( StackSelector == NULL ) { PAS_UnlockMemory(); PAS_SetErrorCode( PAS_OutOfMemory ); return( PAS_Error ); } // Leave a little room at top of stack just for the hell of it... StackPointer = kStackSize - sizeof( long ); // Install our interrupt handler Interrupt = PAS_Interrupts[ PAS_Irq ]; PAS_OldInt = _dos_getvect( Interrupt ); if ( PAS_Irq < 8 ) { _dos_setvect( Interrupt, PAS_ServiceInterrupt ); } else { status = IRQ_SetVector( Interrupt, PAS_ServiceInterrupt ); if ( status != IRQ_Ok ) { PAS_UnlockMemory(); deallocateTimerStack( StackSelector ); StackSelector = NULL; PAS_SetErrorCode( PAS_UnableToSetIrq ); return( PAS_Error ); } } // Enable PAS Sound data = PAS_State->audiofilt; data |= PAS_AudioMuteFlag; PAS_Write( AudioFilterControl, data ); PAS_State->audiofilt = data; PAS_SetPlaybackRate( PAS_DefaultSampleRate ); PAS_SetMixMode( PAS_DefaultMixMode ); PAS_Installed = TRUE; PAS_SetErrorCode( PAS_Ok ); return( PAS_Ok ); } /*--------------------------------------------------------------------- Function: PAS_Shutdown Ends transfer of sound data to the sound card and restores the system resources used by the card. ---------------------------------------------------------------------*/ void PAS_Shutdown ( void ) { int Interrupt; if ( PAS_Installed ) { // Halt the DMA transfer PAS_StopPlayback(); // Restore the original interrupt Interrupt = PAS_Interrupts[ PAS_Irq ]; if ( PAS_Irq >= 8 ) { IRQ_RestoreVector( Interrupt ); } _dos_setvect( Interrupt, PAS_OldInt ); PAS_SoundPlaying = FALSE; PAS_DMABuffer = NULL; PAS_SetCallBack( NULL ); PAS_CallMVFunction( PAS_Func->SetMixer, PAS_OriginalPCMLeftVolume, OUTPUTMIXER, L_PCM ); PAS_CallMVFunction( PAS_Func->SetMixer, PAS_OriginalPCMRightVolume, OUTPUTMIXER, R_PCM ); // DEBUG // PAS_RestoreState(); PAS_UnlockMemory(); deallocateTimerStack( StackSelector ); StackSelector = NULL; PAS_Installed = FALSE; } } /*--------------------------------------------------------------------- Function: PAS_UnlockMemory Unlocks all neccessary data. ---------------------------------------------------------------------*/ void PAS_UnlockMemory ( void ) { DPMI_UnlockMemoryRegion( PAS_LockStart, PAS_LockEnd ); DPMI_Unlock( PAS_Interrupts ); DPMI_Unlock( PAS_OldInt ); DPMI_Unlock( PAS_IntController1Mask ); DPMI_Unlock( PAS_IntController2Mask ); DPMI_Unlock( PAS_Installed ); DPMI_Unlock( PAS_TranslateCode ); DPMI_Unlock( PAS_OriginalPCMLeftVolume ); DPMI_Unlock( PAS_OriginalPCMRightVolume ); DPMI_Unlock( PAS_OriginalFMLeftVolume ); DPMI_Unlock( PAS_OriginalFMRightVolume ); DPMI_Unlock( PAS_DMAChannel ); DPMI_Unlock( PAS_Irq ); DPMI_Unlock( PAS_State ); DPMI_Unlock( PAS_Func ); DPMI_Unlock( PAS_OriginalState ); DPMI_Unlock( PAS_SampleSizeConfig ); DPMI_Unlock( PAS_DMABuffer ); DPMI_Unlock( PAS_DMABufferEnd ); DPMI_Unlock( PAS_CurrentDMABuffer ); DPMI_Unlock( PAS_TotalDMABufferSize ); DPMI_Unlock( PAS_TransferLength ); DPMI_Unlock( PAS_MixMode ); DPMI_Unlock( PAS_SampleRate ); DPMI_Unlock( PAS_TimeInterval ); DPMI_Unlock( PAS_SoundPlaying ); DPMI_Unlock( PAS_CallBack ); DPMI_Unlock( PAS_ErrorCode ); DPMI_Unlock( irqstatus ); } /*--------------------------------------------------------------------- Function: PAS_LockMemory Locks all neccessary data. ---------------------------------------------------------------------*/ int PAS_LockMemory ( void ) { int status; status = DPMI_LockMemoryRegion( PAS_LockStart, PAS_LockEnd ); status |= DPMI_Lock( PAS_Interrupts ); status |= DPMI_Lock( PAS_OldInt ); status |= DPMI_Lock( PAS_IntController1Mask ); status |= DPMI_Lock( PAS_IntController2Mask ); status |= DPMI_Lock( PAS_Installed ); status |= DPMI_Lock( PAS_TranslateCode ); status |= DPMI_Lock( PAS_OriginalPCMLeftVolume ); status |= DPMI_Lock( PAS_OriginalPCMRightVolume ); status |= DPMI_Lock( PAS_OriginalFMLeftVolume ); status |= DPMI_Lock( PAS_OriginalFMRightVolume ); status |= DPMI_Lock( PAS_DMAChannel ); status |= DPMI_Lock( PAS_Irq ); status |= DPMI_Lock( PAS_State ); status |= DPMI_Lock( PAS_Func ); status |= DPMI_Lock( PAS_OriginalState ); status |= DPMI_Lock( PAS_SampleSizeConfig ); status |= DPMI_Lock( PAS_DMABuffer ); status |= DPMI_Lock( PAS_DMABufferEnd ); status |= DPMI_Lock( PAS_CurrentDMABuffer ); status |= DPMI_Lock( PAS_TotalDMABufferSize ); status |= DPMI_Lock( PAS_TransferLength ); status |= DPMI_Lock( PAS_MixMode ); status |= DPMI_Lock( PAS_SampleRate ); status |= DPMI_Lock( PAS_TimeInterval ); status |= DPMI_Lock( PAS_SoundPlaying ); status |= DPMI_Lock( PAS_CallBack ); status |= DPMI_Lock( PAS_ErrorCode ); status |= DPMI_Lock( irqstatus ); if ( status != DPMI_Ok ) { PAS_UnlockMemory(); PAS_SetErrorCode( PAS_DPMI_Error ); return( PAS_Error ); } return( PAS_Ok ); }