Linux Audio

Check our new training course

Embedded Linux Audio

Check our new training course
with Creative Commons CC-BY-SA
lecture materials

Bootlin logo

Elixir Cross Referencer

Loading...
/*
 * sound/awe_hw.h
 *
 * Access routines and definitions for the low level driver for the 
 * AWE32/Sound Blaster 32 wave table synth.
 *   version 0.4.2; Sep. 15, 1997
 *
 * Copyright (C) 1996,1997 Takashi Iwai
 *
 * 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., 675 Mass Ave, Cambridge, MA 02139, USA.
 */

#ifndef AWE_HW_H_DEF
#define AWE_HW_H_DEF

/*
 * Emu-8000 control registers
 * name(channel)	reg, port
 */

#define awe_cmd_idx(reg,ch)	(((reg)<< 5) | (ch))

#define Data0    0x620	/* doubleword r/w */
#define Data1    0xA20	/* doubleword r/w */
#define Data2    0xA22	/* word r/w */
#define Data3    0xE20	/* word r/w */
#define Pointer  0xE22	/* register pointer r/w */

#define AWE_CPF(ch)	awe_cmd_idx(0,ch), Data0	/* DW: current pitch and fractional address */
#define AWE_PTRX(ch)	awe_cmd_idx(1,ch), Data0	/* DW: pitch target and reverb send */
#define AWE_CVCF(ch)	awe_cmd_idx(2,ch), Data0	/* DW: current volume and filter cutoff */
#define AWE_VTFT(ch)	awe_cmd_idx(3,ch), Data0	/* DW: volume and filter cutoff targets */
#define AWE_PSST(ch)	awe_cmd_idx(6,ch), Data0	/* DW: pan send and loop start address */
#define AWE_CSL(ch)	awe_cmd_idx(7,ch), Data0	/* DW: chorus send and loop end address */
#define AWE_CCCA(ch)	awe_cmd_idx(0,ch), Data1	/* DW: Q, control bits, and current address */
#define AWE_HWCF4	awe_cmd_idx(1,9),  Data1	/* DW: config dw 4 */
#define AWE_HWCF5	awe_cmd_idx(1,10), Data1	/* DW: config dw 5 */
#define AWE_HWCF6	awe_cmd_idx(1,13), Data1	/* DW: config dw 6 */
#define AWE_HWCF7	awe_cmd_idx(1,14), Data1	/* DW: config dw 7? (not documented) */
#define AWE_SMALR	awe_cmd_idx(1,20), Data1	/* DW: sound memory address for left read */
#define AWE_SMARR	awe_cmd_idx(1,21), Data1	/* DW:    for right read */
#define AWE_SMALW	awe_cmd_idx(1,22), Data1	/* DW: sound memory address for left write */
#define AWE_SMARW	awe_cmd_idx(1,23), Data1	/* DW:    for right write */
#define AWE_SMLD	awe_cmd_idx(1,26), Data1	/* W: sound memory left data */
#define AWE_SMRD	awe_cmd_idx(1,26), Data2	/* W:    right data */
#define AWE_WC		awe_cmd_idx(1,27), Data2	/* W: sample counter */
#define AWE_WC_Cmd	awe_cmd_idx(1,27)
#define AWE_WC_Port	Data2
#define AWE_HWCF1	awe_cmd_idx(1,29), Data1	/* W: config w 1 */
#define AWE_HWCF2	awe_cmd_idx(1,30), Data1	/* W: config w 2 */
#define AWE_HWCF3	awe_cmd_idx(1,31), Data1	/* W: config w 3 */
#define AWE_INIT1(ch)	awe_cmd_idx(2,ch), Data1	/* W: init array 1 */
#define AWE_INIT2(ch)	awe_cmd_idx(2,ch), Data2	/* W: init array 2 */
#define AWE_INIT3(ch)	awe_cmd_idx(3,ch), Data1	/* W: init array 3 */
#define AWE_INIT4(ch)	awe_cmd_idx(3,ch), Data2	/* W: init array 4 */
#define AWE_ENVVOL(ch)	awe_cmd_idx(4,ch), Data1	/* W: volume envelope delay */
#define AWE_DCYSUSV(ch)	awe_cmd_idx(5,ch), Data1	/* W: volume envelope sustain and decay */
#define AWE_ENVVAL(ch)	awe_cmd_idx(6,ch), Data1	/* W: modulation envelope delay */
#define AWE_DCYSUS(ch)	awe_cmd_idx(7,ch), Data1	/* W: modulation envelope sustain and decay */
#define AWE_ATKHLDV(ch)	awe_cmd_idx(4,ch), Data2	/* W: volume envelope attack and hold */
#define AWE_LFO1VAL(ch)	awe_cmd_idx(5,ch), Data2	/* W: LFO#1 Delay */
#define AWE_ATKHLD(ch)	awe_cmd_idx(6,ch), Data2	/* W: modulation envelope attack and hold */
#define AWE_LFO2VAL(ch)	awe_cmd_idx(7,ch), Data2	/* W: LFO#2 Delay */
#define AWE_IP(ch)	awe_cmd_idx(0,ch), Data3	/* W: initial pitch */
#define AWE_IFATN(ch)	awe_cmd_idx(1,ch), Data3	/* W: initial filter cutoff and attenuation */
#define AWE_PEFE(ch)	awe_cmd_idx(2,ch), Data3	/* W: pitch and filter envelope heights */
#define AWE_FMMOD(ch)	awe_cmd_idx(3,ch), Data3	/* W: vibrato and filter modulation freq */
#define AWE_TREMFRQ(ch)	awe_cmd_idx(4,ch), Data3	/* W: LFO#1 tremolo amount and freq */
#define AWE_FM2FRQ2(ch)	awe_cmd_idx(5,ch), Data3	/* W: LFO#2 vibrato amount and freq */

/* used during detection (returns ROM version?; not documented in ADIP) */
#define AWE_U1		0xE0, Data3	  /* (R)(W) used in initialization */
#define AWE_U2(ch)	0xC0+(ch), Data3  /* (W)(W) used in init envelope  */


#define AWE_MAX_VOICES		32
#define AWE_NORMAL_VOICES	30	/*30&31 are reserved for DRAM refresh*/

#define AWE_MAX_CHANNELS	32	/* max midi channels (must >= voices) */
#define AWE_MAX_LAYERS	AWE_MAX_VOICES	/* maximum number of multiple layers */

#define AWE_DRAM_OFFSET		0x200000
#define AWE_MAX_DRAM_SIZE	(28 * 1024)	/* 28 MB is max onboard memory */

#define AWE_DEFAULT_ATTENUATION	32	/* 12dB below */
#define AWE_DEFAULT_MOD_SENSE	18

#endif