/* $NetBSD: sbreg.h,v 1.27 1999/02/18 07:08:36 mycroft Exp $ */ /* * Copyright (c) 1991-1993 Regents of the University of California. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by the Computer Systems * Engineering Group at Lawrence Berkeley Laboratory. * 4. Neither the name of the University nor of the Laboratory may be used * to endorse or promote products derived from this software without * specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * * From: Header: sbreg.h,v 1.3 93/07/18 14:07:28 mccanne Exp (LBL) */ /* * SoundBlaster register definitions. * See "The Developer Kit for Sound Blaster Series, User's Guide" for more * complete information (avialable from Creative Labs, Inc.). We refer * to this documentation as "SBK". * * We handle two types of cards: the basic SB version 2.0+, and * the SB PRO. There are several distinct pieces of the hardware: * * joystick port (independent of I/O base address) * FM synth (stereo on PRO) * mixer (PRO only) * DSP (sic) * CD-ROM (PRO only) * * The MIDI capabilities are handled by the DSP unit. */ /* * Address map. The SoundBlaster can be configured (via jumpers) for * either base I/O address 0x220 or 0x240. The encodings below give * the offsets to specific SB ports. SBP stands for SB port offset. */ #define SBP_LFM_STATUS 0 /* R left FM status port */ #define SBP_LFM_ADDR 0 /* W left FM address register */ #define SBP_LFM_DATA 1 /* RW left FM data port */ #define SBP_RFM_STATUS 2 /* R right FM status port */ #define SBP_RFM_ADDR 2 /* W right FM address register */ #define SBP_RFM_DATA 3 /* RW right FM data port */ #define SBP_FM_STATUS 8 /* R FM status port */ #define SBP_FM_ADDR 8 /* W FM address register */ #define SBP_FM_DATA 9 /* RW FM data port */ #define SBP_MIXER_ADDR 4 /* W mixer address register */ #define SBP_MIXER_DATA 5 /* RW mixer data port */ #define SBP_MIX_RESET 0x00 /* mixer reset port, value */ #define SBP_1335_MASTER_VOL 0x02 #define SBP_1335_MIDI_VOL 0x06 #define SBP_1335_CD_VOL 0x08 #define SBP_1335_VOICE_VOL 0x0A #define SBP_VOICE_VOL 0x04 #define SBP_MIC_VOL 0x0A /* warning: only one channel of volume... */ #define SBP_MASTER_VOL 0x22 #define SBP_MIDI_VOL 0x26 #define SBP_CD_VOL 0x28 #define SBP_LINE_VOL 0x2E #define SBP_RECORD_SOURCE 0x0C #define SBP_STEREO 0x0E #define SBP_PLAYMODE_STEREO 0x2 #define SBP_PLAYMODE_MONO 0x0 #define SBP_PLAYMODE_MASK 0x2 #define SBP_OUTFILTER 0x0E #define SBP_INFILTER 0x0C #define SBP_RECORD_FROM(src, filteron, high) ((src) | (filteron) | (high)) #define SBP_FILTER_ON 0x0 #define SBP_FILTER_OFF 0x20 #define SBP_IFILTER_MASK 0x28 #define SBP_OFILTER_MASK 0x20 #define SBP_IFILTER_LOW 0 #define SBP_IFILTER_HIGH 0x08 #define SBP_FROM_MIC 0x00 #define SBP_FROM_CD 0x02 #define SBP_FROM_LINE 0x06 #define SBP_SET_IRQ 0x80 /* Soft-configured irq (SB16-) */ #define SBP_SET_DRQ 0x81 /* Soft-configured drq (SB16-) */ #define SBP_IRQ_STATUS 0x82 /* Pending IRQ status (SB16-) */ #define SBP_IRQ_MPU401 0x04 #define SBP_IRQ_DMA16 0x02 #define SBP_IRQ_DMA8 0x01 #define SBP_MPU_ADDR 0x84 /* Vibra16 register */ #define SB16P_MASTER_L 0x30 #define SB16P_VOICE_L 0x32 #define SB16P_MIDI_L 0x34 #define SB16P_CD_L 0x36 #define SB16P_LINE_L 0x38 #define SB16P_MIC_L 0x3a #define SB16P_PCSPEAKER 0x3b #define SB16P_OSWITCH 0x3c #define SB16P_ISWITCH_L 0x3d #define SB16P_ISWITCH_R 0x3e #define SB16P_SW_MIC 0x01 #define SB16P_SW_CD_R 0x02 #define SB16P_SW_CD_L 0x04 #define SB16P_SW_CD (SB16P_SW_CD_L|SB16P_SW_CD_R) #define SB16P_SW_LINE_R 0x08 #define SB16P_SW_LINE_L 0x10 #define SB16P_SW_LINE (SB16P_SW_LINE_L|SB16P_SW_LINE_R) #define SB16P_SW_MIDI_R 0x20 #define SB16P_SW_MIDI_L 0x40 #define SB16P_SW_MIDI (SB16P_SW_MIDI_L|SB16P_SW_MIDI_R) #define SB16P_INPUT_GAIN_L 0x3f #define SB16P_OUTPUT_GAIN_L 0x41 #define SB16P_TREBLE_L 0x44 #define SB16P_BASS_L 0x46 #define SB16P_L_TO_R(l) ((l)+1) #define SB16P_AGC 0x43 #define SBP_RECORD_SOURCE_L 0x3d #define SBP_RECORD_SOURCE_R 0x3e #define SBP_MIDI_SRC_R 0x20 #define SBP_LINE_SRC_R 0x08 #define SBP_CD_SRC_R 0x02 #define SBP_MIC_SRC 0x01 #define SB_SRC_R_TO_L(x) ((x) << 1) #define SB_STEREO_GAIN(left, right) ((left) | ((right) >> 4)) #define SB_MIC_GAIN(v) ((v) >> 5) #define SB_ADJUST_MIC_GAIN(sc, x) sbdsp_adjust((x), ISSB16CLASS(sc) ? 0xf8 : 0xc0) #define SB_ADJUST_GAIN(sc, x) sbdsp_adjust((x), ISSB16CLASS(sc) ? 0xf8 : 0xe0) #define SB_ADJUST_2_GAIN(sc, x) sbdsp_adjust((x), 0xc0) #define SB_1335_GAIN(x) ((x) >> 4) #define SB_1335_MASTER_GAIN(x) ((x) >> 5) #define SBP_DSP_RESET 6 /* W reset port */ #define SB_MAGIC 0xaa /* card outputs on successful reset */ #define SBP_DSP_READ 10 /* R read port */ #define SBP_DSP_WRITE 12 /* W write port */ #define SBP_DSP_WSTAT 12 /* R write status */ #define SBP_DSP_RSTAT 14 /* R read status */ #define SB_DSP_BUSY 0x80 #define SB_DSP_READY 0x80 #define SBP_DSP_IRQACK8 14 /* R acknowledge DSP IRQ, 8-bit */ #define SBP_DSP_IRQACK16 15 /* R acknowledge DSP IRQ, 16-bit */ #define SBP_CDROM_DATA 16 /* RW send cmds/recv data */ #define SBP_CDROM_STATUS 17 /* R status port */ #define SBP_CDROM_RESET 18 /* W reset register */ #define SBP_CDROM_ENABLE 19 /* W enable register */ #define SBP_NPORT 24 #define SB_NPORT 16 #define SB_NMPUPORT 2 /* * DSP commands. This unit handles MIDI and audio capabilities. * The DSP can be reset, data/commands can be read or written to it, * and it can generate interrupts. Interrupts are generated for MIDI * input or DMA completion. They seem to have neglected the fact * that it would be nice to have a MIDI transmission complete interrupt. * Worse, the DMA engine is half-duplex. This means you need to do * (timed) programmed I/O to be able to record and play simulataneously. */ #define SB_DSP_DACWRITE 0x10 /* programmed I/O write to DAC */ #define SB_DSP_WDMA 0x14 /* begin 8-bit linear DMA output */ #define SB_DSP_WDMA_2 0x16 /* begin 2-bit ADPCM DMA output */ #define SB_DSP_WDMA_LOOP 0x1C /* begin 8-bit linear DMA output loop */ #define SB_DSP_ADCREAD 0x20 /* programmed I/O read from ADC */ #define SB_DSP_RDMA 0x24 /* begin 8-bit linear DMA input */ #define SB_DSP_RDMA_LOOP 0x2C /* begin 8-bit linear DMA input loop */ #define SB_MIDI_POLL 0x30 /* initiate a polling read for MIDI */ #define SB_MIDI_READ 0x31 /* read a MIDI byte on recv intr */ #define SB_MIDI_UART_POLL 0x34 /* enter UART mode w/ read polling */ #define SB_MIDI_UART_INTR 0x35 /* enter UART mode w/ read intrs */ #define SB_MIDI_WRITE 0x38 /* write a MIDI byte (non-UART mode) */ #define SB_DSP_TIMECONST 0x40 /* set ADAC time constant */ #define SB_DSP16_OUTPUTRATE 0x41 /* set ADAC output rate */ #define SB_DSP16_INPUTRATE 0x42 /* set ADAC input rate */ #define SB_DSP_BLOCKSIZE 0x48 /* set blk size for high speed xfer */ #define SB_DSP_WDMA_4 0x74 /* begin 4-bit ADPCM DMA output */ #define SB_DSP_WDMA_2_6 0x76 /* begin 2.6-bit ADPCM DMA output */ #define SB_DSP_SILENCE 0x80 /* send a block of silence */ #define SB_DSP_HS_OUTPUT 0x90 /* set high speed mode for wdma */ #define SB_DSP_HS_INPUT 0x98 /* set high speed mode for rdma */ #define SB_DSP_RECORD_MONO 0xA0 /* set mono recording */ #define SB_DSP_RECORD_STEREO 0xA8 /* set stereo recording */ #define SB_DSP16_WDMA_16 0xB6 /* begin 16-bit linear output */ #define SB_DSP16_RDMA_16 0xBE /* begin 16-bit linear input */ #define SB_DSP16_WDMA_8 0xC6 /* begin 8-bit linear output */ #define SB_DSP16_RDMA_8 0xCE /* begin 8-bit linear input */ #define SB_DSP_HALT 0xd0 /* suspend 8-bit DMA */ #define SB_DSP_SPKR_ON 0xd1 /* turn speaker on */ #define SB_DSP_SPKR_OFF 0xd3 /* turn speaker off */ #define SB_DSP_CONT 0xd4 /* continue 8-bit DMA */ #define SB_DSP16_HALT 0xd5 /* suspend 16-bit DMA */ #define SB_DSP16_CONT 0xd6 /* continue 16-bit DMA */ #define SB_DSP_RD_SPKR 0xd8 /* get speaker status */ #define SB_SPKR_OFF 0x00 #define SB_SPKR_ON 0xff #define SB_DSP_VERSION 0xe1 /* get version number */ #define SB_BMODE_UNSIGNED 0x00 #define SB_BMODE_SIGNED 0x10 #define SB_BMODE_STEREO 0x20 /* Some of these come from linux driver (It serves as convenient unencumbered documentation) */ #define JAZZ16_READ_VER 0xFA /* 0x12 means ProSonic/Jazz16? */ #define JAZZ16_VER_JAZZ 0x12 #define JAZZ16_SET_DMAINTR 0xFB #define JAZZ16_CONFIG_PORT 0x201 #define JAZZ16_WAKEUP 0xAF #define JAZZ16_SETBASE 0x50 #define JAZZ16_RECORD_STEREO 0xAC /* 16-bit record */ #define JAZZ16_RECORD_MONO 0xA4 /* 16-bit record */ /* * These come from Jazz16 chipset documentation, which doesn't include * full register details, alas. Their source code CD-ROM probably includes * details, but it has an NDA attached. */ #define JAZZ16_DIR_PB 0x10 #define JAZZ16_SINGLE_PB 0x14 #define JAZZ16_SINGLE_ALAW_PB 0x17 #define JAZZ16_CONT_PB 0x1C #define JAZZ16_CONT_ALAW_PB 0x1F #define JAZZ16_DIR_PCM_REC 0x20 #define JAZZ16_SINGLE_REC 0x24 #define JAZZ16_SINGLE_ALAW_REC 0x27 #define JAZZ16_CONT_REC 0x2C #define JAZZ16_CONT_ALAW_REC 0x2F #define JAZZ16_SINGLE_ADPCM_PB 0x74 #define JAZZ16_SINGLE_MULAW_PB 0x77 #define JAZZ16_CONT_ADPCM_PB 0x7C #define JAZZ16_SINGLE_ADPCM_REC 0x84 #define JAZZ16_SINGLE_MULAW_REC 0x87 #define JAZZ16_CONT_ADPCM_REC 0x8C #define JAZZ16_CONT_MULAW_REC 0x8F #define JAZZ16_CONT_PB_XX 0x90 #define JAZZ16_SINGLE_PB_XX 0x91 #define JAZZ16_SINGLE_REC_XX 0x98 #define JAZZ16_CONT_REC_XX 0x99 /* * The ADPCM encodings are differential, meaning each sample represents * a difference to add to a running sum. The inital value is called the * reference, or reference byte. Any of the ADPCM DMA transfers can specify * that the given transfer begins with a reference byte by or'ing * in the bit below. */ #define SB_DSP_REFERENCE 1 /* * Macros to detect valid hardware configuration data. */ #define SBP_IRQ_VALID(irq) ((irq) == 5 || (irq) == 7 || (irq) == 9 || (irq) == 10) #define SB_IRQ_VALID(irq) ((irq) == 3 || (irq) == 5 || (irq) == 7 || (irq) == 9) #define SB16_DRQ_VALID(chan) ((chan) == 0 || (chan) == 1 || (chan) == 3 || \ (chan) == 5 || (chan) == 6 || (chan) == 7) #define SBP_DRQ_VALID(chan) ((chan) == 0 || (chan) == 1 || (chan) == 3) #define SB_DRQ_VALID(chan) ((chan) == 1) #define SB_BASE_VALID(base) ((base) == 0x220 || (base) == 0x240) #define SB_INPUT_RATE 0 #define SB_OUTPUT_RATE 1