/* * pas.h,v 1.6 1994/10/01 12:42:17 ache Exp */ /* */ /* Port addresses and bit fields for the Media Vision Pro AudioSpectrum second generation sound cards. */ /* */ /* Feel free to use this header file in any application you create that has support for the Media Vision */ /* Pro AudioSpectrum second generation sound cards. Other uses prohibited without prior permission. */ /* */ /* - cmetz@thor.tjhsst.edu */ /* */ /* Notes: */ /* */ /* * All of these ports go into the MVD101 multimedia controller chip, which then signals the other chips to do */ /* the actual work. Many ports like the FM ones functionally attach directly to the destination chip though */ /* they don't actually have a direct connection. */ /* */ /* * The PAS2 series cards have an MVD101 multimedia controller chip, the original PAS cards don't. The original */ /* PAS cards are pretty defunct now, so no attempt is made here to support them. */ /* */ /* * The PAS2 series cards are all really different at the hardware level, though the MVD101 hides some of the */ /* incompatibilities, there still are differences that need to be accounted for. */ /* */ /* Card CD-ROM interface PCM chip Mixer chip FM chip */ /* PAS Plus Sony proprietary (Crystal?) 8-bit DAC National OPL3 */ /* PAS 16 Zilog SCSI MVA416 16-bit Codec MVA508 OPL3 */ /* CDPC Sony proprietary Sony 16-bit Codec National OPL3 */ /* Fusion CD 16 Sony proprietary MVA416 16-bit Codec MVA508 OPL3 */ /* Fusion CD Sony proprietary (Crystal?) 8-bit DAC National OPL3 */ /* */ #define PAS_DEFAULT_BASE 0x388 /* Symbolic Name Value R W Subsystem Description */ #define SPEAKER_CONTROL 0x61 /* W PC speaker Control register */ #define SPEAKER_CONTROL_GHOST 0x738B /* R W PC speaker Control ghost register */ #define SPEAKER_TIMER_CONTROL 0x43 /* W PC speaker Timer control register */ #define SPEAKER_TIMER_CONTROL_GHOST 0x778B /* R W PC speaker Timer control register ghost */ #define SPEAKER_TIMER_DATA 0x42 /* W PC speaker Timer data register */ #define SPEAKER_TIMER_DATA_GHOST 0x138A /* R W PC speaker Timer data register ghost */ #define WARM_BOOT 0x41 /* W Control Used to detect system warm boot */ #define WARM_BOOT_GHOST 0x7789 /* ? W Control Use to get the card to fake warm boot */ #define MASTER_DECODE 0x9A01 /* W Control Address >> 2 of card base address */ #define PRESCALE_DIVIDER 0xBF8A /* R W PCM Ration between Codec clock and master clock */ #define WAIT_STATE 0xBF88 /* R W Control Four-bit bus wait-state count (~140ns ea.) */ #define BOARD_REV_ID 0x2789 /* R Control Extended Board Revision ID */ #define SYSTEM_CONFIGURATION_1 0x8388 /* R W Control */ #define S_C_1_PCS_ENABLE 0x01 /* R W PC speaker 1=enable, 0=disable PC speaker emulation */ #define S_C_1_PCM_CLOCK_SELECT 0x02 /* R W PCM 1=14.31818Mhz/12, 0=28.224Mhz master clock */ #define S_C_1_FM_EMULATE_CLOCK 0x04 /* R W FM 1=use 28.224Mhz/2, 0=use 14.31818Mhz clock */ #define S_C_1_PCS_STEREO 0x10 /* R W PC speaker 1=enable PC speaker stereo effect, 0=disable */ #define S_C_1_PCS_REALSOUND 0x20 /* R W PC speaker 1=enable RealSound enhancement, 0=disable */ #define S_C_1_FORCE_EXT_RESET 0x40 /* R W Control Force external reset */ #define S_C_1_FORCE_INT_RESET 0x80 /* R W Control Force internal reset */ #define SYSTEM_CONFIGURATION_2 0x8389 /* R W Control */ #define S_C_2_PCM_OVERSAMPLING 0x03 /* R W PCM 00=0x, 01=2x, 10=4x, 11=reserved */ #define S_C_2_PCM_16_BIT 0x04 /* R W PCM 1=16-bit, 0=8-bit samples */ #define SYSTEM_CONFIGURATION_3 0x838A /* R W Control */ #define S_C_3_PCM_CLOCK_SELECT 0x02 /* R W PCM 1=use 1.008Mhz clock for PCM, 0=don't */ #define SYSTEM_CONFIGURATION_4 0x838B /* R W Control CD-ROM interface controls */ #define IO_CONFIGURATION_1 0xF388 /* R W Control */ #define I_C_1_BOOT_RESET_ENABLE 0x80 /* R W Control 1=reset board on warm boot, 0=don't */ #define IO_CONFIGURATION_2 0xF389 /* R W Control */ #define I_C_2_PCM_DMA_DISABLED 0x00 /* R W PCM PCM DMA disabled */ #define IO_CONFIGURATION_3 0xF38A /* R W Control */ #define I_C_3_PCM_IRQ_DISABLED 0x00 /* R W PCM PCM IRQ disabled */ #define COMPATIBILITY_ENABLE 0xF788 /* R W Control */ #define C_E_MPU401_ENABLE 0x01 /* R W MIDI 1=enable, 0=disable MPU401 MIDI emulation */ #define C_E_SB_ENABLE 0x02 /* R W PCM 1=enable, 0=disable Sound Blaster emulation */ #define C_E_SB_ACTIVE 0x04 /* R PCM "Sound Blaster Interrupt active" */ #define C_E_MPU401_ACTIVE 0x08 /* R MIDI "MPU UART mode active" */ #define C_E_PCM_COMPRESSION 0x10 /* R W PCM 1=enable, 0=disabled compression */ #define EMULATION_ADDRESS 0xF789 /* R W Control */ #define E_A_SB_BASE 0x0f /* R W PCM bits A4-A7 for SB base port */ #define E_A_MPU401_BASE 0xf0 /* R W MIDI bits A4-A7 for MPU401 base port */ #define EMULATION_CONFIGURATION 0xFB8A /* R W ***** Only valid on newer PAS2 cards (?) ***** */ #define E_C_MPU401_IRQ 0x07 /* R W MIDI MPU401 emulation IRQ */ #define E_C_SB_IRQ 0x38 /* R W PCM SB emulation IRQ */ #define E_C_SB_DMA 0xC0 /* R W PCM SB emulation DMA */ #define OPERATION_MODE_1 0xEF8B /* R Control */ #define O_M_1_CDROM_TYPE 0x03 /* R CD-ROM 3=SCSI, 2=Sony, 0=no CD-ROM interface */ #define O_M_1_FM_TYPE 0x04 /* R FM 1=stereo, 0=mono FM chip */ #define O_M_1_PCM_TYPE 0x08 /* R PCM 1=16-bit Codec, 0=8-bit DAC */ #define OPERATION_MODE_2 0xFF8B /* R Control */ #define O_M_2_PCS_ENABLED 0x02 /* R PC speaker PC speaker emulation 1=enabled, 0=disabled */ #define O_M_2_BUS_TIMING 0x10 /* R Control 1=AT bus timing, 0=XT bus timing */ #define O_M_2_BOARD_REVISION 0xe0 /* R Control Board revision */ #define INTERRUPT_MASK 0x0B8B /* R W Control */ #define I_M_FM_LEFT_IRQ_ENABLE 0x01 /* R W FM Enable FM left interrupt */ #define I_M_FM_RIGHT_IRQ_ENABLE 0x02 /* R W FM Enable FM right interrupt */ #define I_M_PCM_RATE_IRQ_ENABLE 0x04 /* R W PCM Enable Sample Rate interrupt */ #define I_M_PCM_BUFFER_IRQ_ENABLE 0x08 /* R W PCM Enable Sample Buffer interrupt */ #define I_M_MIDI_IRQ_ENABLE 0x10 /* R W MIDI Enable MIDI interrupt */ #define I_M_BOARD_REV 0xE0 /* R Control Board revision */ #define INTERRUPT_STATUS 0x0B89 /* R W Control */ #define I_S_FM_LEFT_IRQ 0x01 /* R W FM Left FM Interrupt Pending */ #define I_S_FM_RIGHT_IRQ 0x02 /* R W FM Right FM Interrupt Pending */ #define I_S_PCM_SAMPLE_RATE_IRQ 0x04 /* R W PCM Sample Rate Interrupt Pending */ #define I_S_PCM_SAMPLE_BUFFER_IRQ 0x08 /* R W PCM Sample Buffer Interrupt Pending */ #define I_S_MIDI_IRQ 0x10 /* R W MIDI MIDI Interrupt Pending */ #define I_S_PCM_CHANNEL 0x20 /* R W PCM 1=right, 0=left */ #define I_S_RESET_ACTIVE 0x40 /* R W Control Reset is active (Timed pulse not finished) */ #define I_S_PCM_CLIPPING 0x80 /* R W PCM Clipping has occurred */ #define FILTER_FREQUENCY 0x0B8A /* R W Control */ #define F_F_FILTER_DISABLED 0x00 /* R W Mixer No filter */ #if 0 struct { /* R W Mixer Filter translation */ unsigned int freq:24; unsigned int value:8; } F_F_FILTER_translate[] = { { 73500, 0x01 }, /* 73500Hz - divide by 16 */ { 65333, 0x02 }, /* 65333Hz - divide by 18 */ { 49000, 0x09 }, /* 49000Hz - divide by 24 */ { 36750, 0x11 }, /* 36750Hz - divide by 32 */ { 24500, 0x19 }, /* 24500Hz - divide by 48 */ { 18375, 0x07 }, /* 18375Hz - divide by 64 */ { 12783, 0x0f }, /* 12783Hz - divide by 92 */ { 12250, 0x04 }, /* 12250Hz - divide by 96 */ { 9188, 0x17 }, /* 9188Hz - divide by 128 */ { 6125, 0x1f }, /* 6125Hz - divide by 192 */ }; #endif #define F_F_MIXER_UNMUTE 0x20 /* R W Mixer 1=disable, 0=enable board mute */ #define F_F_PCM_RATE_COUNTER 0x40 /* R W PCM 1=enable, 0=disable sample rate counter */ #define F_F_PCM_BUFFER_COUNTER 0x80 /* R W PCM 1=enable, 0=disable sample buffer counter */ #define CHIP_REV 0xFF88 /* R Control 0=PAS, 1=PAS+, 2=CDPC, 3=PAS16C, 4=PAS16D */ #define PAS_NONE 0 #define PAS_PLUS 1 #define PAS_CDPC 2 #define PAS_16 3 #define PAS_16D 4 #ifdef DEFINE_TRANSLATIONS unsigned char I_C_2_PCM_DMA_translate[] = /* R W PCM PCM DMA channel value translations */ { 4, 1, 2, 3, 0, 5, 6, 7 }; unsigned char I_C_3_PCM_IRQ_translate[] = /* R W PCM PCM IRQ level value translation */ { 0, 0, 1, 2, 3, 4, 5, 6, 0, 1, 7, 8, 9, 0, 10, 11 }; unsigned char E_C_MPU401_IRQ_translate[] = /* R W MIDI MPU401 emulation IRQ value translation */ { 0x00, 0x00, 0x01, 0x02, 0x00, 0x03, 0x00, 0x04, 0x00, 0x01, 0x05, 0x06, 0x07 }; unsigned char E_C_SB_IRQ_translate[] = /* R W PCM SB emulation IRQ translate */ { 0x00, 0x00, 0x08, 0x10, 0x00, 0x18, 0x00, 0x20, 0x00, 0x08, 0x28, 0x30, 0x38, 0, 0 }; unsigned char E_C_SB_DMA_translate[] = /* R W PCM SB emulation DMA translate */ { 0x00, 0x40, 0x80, 0xC0, 0, 0, 0, 0 }; unsigned char O_M_1_to_card[] = /* R W Control Translate (OM1 & 0x0f) to card type */ { 0, 0, 0, 0, 0, 0, 1, 0, 0, 0, 0, 0, 4, 0, 2, 3 }; #else extern unsigned char I_C_2_PCM_DMA_translate[]; /* R W PCM PCM DMA channel value translations */ extern unsigned char I_C_3_PCM_IRQ_translate[]; /* R W PCM PCM IRQ level value translation */ extern unsigned char E_C_MPU401_IRQ_translate[]; /* R W MIDI MPU401 emulation IRQ value translation */ extern unsigned char E_C_SB_IRQ_translate[]; /* R W PCM SB emulation IRQ translate */ extern unsigned char E_C_SB_DMA_translate[]; /* R W PCM SB emulation DMA translate */ extern unsigned char O_M_1_to_card[]; /* R W Control Translate (OM1 & 0x0f) to card type */ #endif #define PARALLEL_MIXER 0x078B /* W Mixer Documented for MVD101 as FM Mono Right decode?? */ #define P_M_MV508_ADDRESS 0x80 /* W Mixer MVD508 Address/mixer select */ #define P_M_MV508_DATA 0x00 #define P_M_MV508_LEFT 0x20 /* W Mixer MVD508 Left channel select */ #define P_M_MV508_RIGHT 0x40 /* W Mixer MVD508 Right channel select */ #define P_M_MV508_BOTH 0x00 /* W Mixer MVD508 Both channel select */ #define P_M_MV508_MIXER 0x10 /* W Mixer MVD508 Select a mixer (rather than a volume) */ #define P_M_MV508_VOLUME 0x00 #define P_M_MV508_INPUTMIX 0x20 /* W Mixer MVD508 Select mixer A */ #define P_M_MV508_OUTPUTMIX 0x00 /* W Mixer MVD508 Select mixer B */ #define P_M_MV508_MASTER_A 0x01 /* W Mixer MVD508 Master volume control A (output) */ #define P_M_MV508_MASTER_B 0x02 /* W Mixer MVD508 Master volume control B (DSP input) */ #define P_M_MV508_BASS 0x03 /* W Mixer MVD508 Bass control */ #define P_M_MV508_TREBLE 0x04 /* W Mixer MVD508 Treble control */ #define P_M_MV508_MODE 0x05 /* W Mixer MVD508 Master mode control */ #define P_M_MV508_LOUDNESS 0x04 /* W Mixer MVD508 Mode control - Loudness filter */ #define P_M_MV508_ENHANCE_BITS 0x03 #define P_M_MV508_ENHANCE_NONE 0x00 /* W Mixer MVD508 Mode control - No stereo enhancement */ #define P_M_MV508_ENHANCE_40 0x01 /* W Mixer MVD508 Mode control - 40% stereo enhancement */ #define P_M_MV508_ENHANCE_60 0x02 /* W Mixer MVD508 Mode control - 60% stereo enhancement */ #define P_M_MV508_ENHANCE_80 0x03 /* W Mixer MVD508 Mode control - 80% stereo enhancement */ #define P_M_MV508_FM 0x00 /* W Mixer MVD508 Channel 0 - FM */ #define P_M_MV508_IMIXER 0x01 /* W Mixer MVD508 Channel 1 - Input mixer (rec monitor) */ #define P_M_MV508_LINE 0x02 /* W Mixer MVD508 Channel 2 - Line in */ #define P_M_MV508_CDROM 0x03 /* W Mixer MVD508 Channel 3 - CD-ROM */ #define P_M_MV508_MIC 0x04 /* W Mixer MVD508 Channel 4 - Microphone */ #define P_M_MV508_PCM 0x05 /* W Mixer MVD508 Channel 5 - PCM */ #define P_M_MV508_SPEAKER 0x06 /* W Mixer MVD508 Channel 6 - PC Speaker */ #define P_M_MV508_SB 0x07 /* W Mixer MVD508 Channel 7 - SB DSP */ #define SERIAL_MIXER 0xB88 /* R W Control Serial mixer control (used other ways) */ #define S_M_PCM_RESET 0x01 /* R W PCM Codec/DSP reset */ #define S_M_FM_RESET 0x02 /* R W FM FM chip reset */ #define S_M_SB_RESET 0x04 /* R W PCM SB emulation chip reset */ #define S_M_MIXER_RESET 0x10 /* R W Mixer Mixer chip reset */ #define S_M_INTEGRATOR_ENABLE 0x40 /* R W Speaker Enable PC speaker integrator (FORCE RealSound) */ #define S_M_OPL3_DUAL_MONO 0x80 /* R W FM Set the OPL-3 to dual mono mode */ #define PCM_CONTROL 0xF8A /* R W PCM PCM Control Register */ #define P_C_MIXER_CROSS_FIELD 0x0f #define P_C_MIXER_CROSS_R_TO_R 0x01 /* R W Mixer Connect Right to Right */ #define P_C_MIXER_CROSS_L_TO_R 0x02 /* R W Mixer Connect Left to Right */ #define P_C_MIXER_CROSS_R_TO_L 0x04 /* R W Mixer Connect Right to Left */ #define P_C_MIXER_CROSS_L_TO_L 0x08 /* R W Mixer Connect Left to Left */ #define P_C_PCM_DAC_MODE 0x10 /* R W PCM Playback (DAC) mode */ #define P_C_PCM_ADC_MODE 0x00 /* R W PCM Record (ADC) mode */ #define P_C_PCM_MONO 0x20 /* R W PCM Mono mode */ #define P_C_PCM_STEREO 0x00 /* R W PCM Stereo mode */ #define P_C_PCM_ENABLE 0x40 /* R W PCM Enable PCM engine */ #define P_C_PCM_DMA_ENABLE 0x80 /* R W PCM Enable DRQ */ #define SAMPLE_COUNTER_CONTROL 0x138B /* R W PCM Sample counter control register */ #define S_C_C_SQUARE_WAVE 0x04 /* R W PCM Square wave generator (use for sample rate) */ #define S_C_C_RATE 0x06 /* R W PCM Rate generator (use for sample buffer count) */ #define S_C_C_LSB_THEN_MSB 0x30 /* R W PCM Change all 16 bits, LSB first, then MSB */ /* MVD101 and SDK documentations have S_C_C_SAMPLE_RATE and S_C_C_SAMPLE_BUFFER transposed. Only one works :-) */ #define S_C_C_SAMPLE_RATE 0x00 /* R W PCM Select sample rate timer */ #define S_C_C_SAMPLE_BUFFER 0x40 /* R W PCM Select sample buffer counter */ #define S_C_C_PC_SPEAKER 0x80 /* R W PCM Select PC speaker counter */ #define SAMPLE_RATE_TIMER 0x1388 /* W PCM Sample rate timer register (PCM wait interval) */ #define SAMPLE_BUFFER_COUNTER 0x1389 /* R W PCM Sample buffer counter (DMA buffer size) */ #define MIDI_CONTROL 0x178b /* R W MIDI Midi control register */ #define M_C_ENA_TSTAMP_IRQ 0x01 /* R W MIDI Enable Time Stamp Interrupts */ #define M_C_ENA_TME_COMP_IRQ 0x02 /* R W MIDI Enable time compare interrupts */ #define M_C_ENA_INPUT_IRQ 0x04 /* R W MIDI Enable input FIFO interrupts */ #define M_C_ENA_OUTPUT_IRQ 0x08 /* R W MIDI Enable output FIFO interrupts */ #define M_C_ENA_OUTPUT_HALF_IRQ 0x10 /* R W MIDI Enable output FIFO half full interrupts */ #define M_C_RESET_INPUT_FIFO 0x20 /* R W MIDI Reset input FIFO pointer */ #define M_C_RESET_OUTPUT_FIFO 0x40 /* R W MIDI Reset output FIFO pointer */ #define M_C_ENA_THRU_MODE 0x80 /* R W MIDI Echo input to output (THRU) */ #define MIDI_STATUS 0x1B88 /* R W MIDI Midi (interrupt) status register */ #define M_S_TIMESTAMP 0x01 /* R W MIDI Midi time stamp interrupt occurred */ #define M_S_COMPARE 0x02 /* R W MIDI Midi compare time interrupt occurred */ #define M_S_INPUT_AVAIL 0x04 /* R W MIDI Midi input data available interrupt occurred */ #define M_S_OUTPUT_EMPTY 0x08 /* R W MIDI Midi output FIFO empty interrupt occurred */ #define M_S_OUTPUT_HALF_EMPTY 0x10 /* R W MIDI Midi output FIFO half empty interrupt occurred */ #define M_S_INPUT_OVERRUN 0x20 /* R W MIDI Midi input overrun error occurred */ #define M_S_OUTPUT_OVERRUN 0x40 /* R W MIDI Midi output overrun error occurred */ #define M_S_FRAMING_ERROR 0x80 /* R W MIDI Midi input framing error occurred */ #define MIDI_FIFO_STATUS 0x1B89 /* R W MIDI Midi fifo status */ #define MIDI_DATA 0x178A /* R W MIDI Midi data register */ #define MIDI_INPUT_AVAILABLE 0x0f /* RW MIDI */