lxdream.org :: lxdream/src/aica/aica.c r241:776e46e58d6d (annotated)

tree revision 241:776e46e58d6d

filename	src/aica/aica.c
changeset	241:776e46e58d6d
prev	173:b006aaba9dff
next	301:1ace395139c3
author	nkeynes
date	Fri Dec 15 10:19:06 2006 +0000 (17 years ago)
permissions	-rw-r--r--
last change	Comment out the AICA debug line for now

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nkeynes@11	1	/**
nkeynes@241	2	* $Id: aica.c,v 1.20 2006-12-15 10:19:06 nkeynes Exp $
nkeynes@11	3	*
nkeynes@11	4	* This is the core sound system (ie the bit which does the actual work)
nkeynes@11	5	*
nkeynes@11	6	* Copyright (c) 2005 Nathan Keynes.
nkeynes@11	7	*
nkeynes@11	8	* This program is free software; you can redistribute it and/or modify
nkeynes@11	9	* it under the terms of the GNU General Public License as published by
nkeynes@11	10	* the Free Software Foundation; either version 2 of the License, or
nkeynes@11	11	* (at your option) any later version.
nkeynes@11	12	*
nkeynes@11	13	* This program is distributed in the hope that it will be useful,
nkeynes@11	14	* but WITHOUT ANY WARRANTY; without even the implied warranty of
nkeynes@11	15	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
nkeynes@11	16	* GNU General Public License for more details.
nkeynes@11	17	*/
nkeynes@11	18
nkeynes@35	19	#define MODULE aica_module
nkeynes@35	20
nkeynes@131	21	#include <time.h>
nkeynes@11	22	#include "dream.h"
nkeynes@66	23	#include "dreamcast.h"
nkeynes@15	24	#include "mem.h"
nkeynes@106	25	#include "aica/aica.h"
nkeynes@61	26	#include "armcore.h"
nkeynes@106	27	#include "aica/audio.h"
nkeynes@11	28	#define MMIO_IMPL
nkeynes@11	29	#include "aica.h"
nkeynes@11	30
nkeynes@11	31	MMIO_REGION_READ_DEFFN( AICA0 )
nkeynes@11	32	MMIO_REGION_READ_DEFFN( AICA1 )
nkeynes@11	33	MMIO_REGION_READ_DEFFN( AICA2 )
nkeynes@11	34
nkeynes@23	35	void aica_init( void );
nkeynes@23	36	void aica_reset( void );
nkeynes@23	37	void aica_start( void );
nkeynes@23	38	void aica_stop( void );
nkeynes@35	39	void aica_save_state( FILE *f );
nkeynes@35	40	int aica_load_state( FILE *f );
nkeynes@30	41	uint32_t aica_run_slice( uint32_t );
nkeynes@23	42
nkeynes@23	43	struct dreamcast_module aica_module = { "AICA", aica_init, aica_reset,
nkeynes@23	44	aica_start, aica_run_slice, aica_stop,
nkeynes@35	45	aica_save_state, aica_load_state };
nkeynes@15	46
nkeynes@173	47	/* 20 years in seconds */
nkeynes@173	48	#define RTC_OFFSET 631152000
nkeynes@173	49	unsigned int aica_time_of_day = 0;
nkeynes@173	50
nkeynes@11	51	/**
nkeynes@11	52	* Initialize the AICA subsystem. Note requires that
nkeynes@11	53	*/
nkeynes@11	54	void aica_init( void )
nkeynes@11	55	{
nkeynes@11	56	register_io_regions( mmio_list_spu );
nkeynes@11	57	MMIO_NOTRACE(AICA0);
nkeynes@11	58	MMIO_NOTRACE(AICA1);
nkeynes@11	59	arm_mem_init();
nkeynes@66	60	aica_reset();
nkeynes@11	61	}
nkeynes@11	62
nkeynes@11	63	void aica_reset( void )
nkeynes@11	64	{
nkeynes@173	65	struct timeval tv;
nkeynes@35	66	arm_reset();
nkeynes@66	67	aica_event(2); /* Pre-deliver a timer interrupt */
nkeynes@173	68
nkeynes@173	69	// gettimeofday( &tv, NULL );
nkeynes@173	70	// aica_time_of_day = tv.tv_sec + RTC_OFFSET;
nkeynes@173	71	aica_time_of_day = 0x5bfc8900;
nkeynes@11	72	}
nkeynes@11	73
nkeynes@23	74	void aica_start( void )
nkeynes@23	75	{
nkeynes@23	76
nkeynes@23	77	}
nkeynes@23	78
nkeynes@66	79	/**
nkeynes@66	80	* Keep track of what we've done so far this second, to try to keep the
nkeynes@66	81	* precision of samples/second.
nkeynes@66	82	*/
nkeynes@66	83	int samples_done = 0;
nkeynes@66	84	uint32_t nanosecs_done = 0;
nkeynes@66	85
nkeynes@30	86	uint32_t aica_run_slice( uint32_t nanosecs )
nkeynes@23	87	{
nkeynes@23	88	/* Run arm instructions */
nkeynes@35	89	int reset = MMIO_READ( AICA2, AICA_RESET );
nkeynes@66	90	if( (reset & 1) == 0 ) { /* Running */
nkeynes@76	91	int num_samples = (int)((uint64_t)AICA_SAMPLE_RATE * (nanosecs_done + nanosecs) / 1000000000) - samples_done;
nkeynes@73	92	num_samples = arm_run_slice( num_samples );
nkeynes@73	93	audio_mix_samples( num_samples );
nkeynes@73	94
nkeynes@66	95	samples_done += num_samples;
nkeynes@66	96	nanosecs_done += nanosecs;
nkeynes@35	97	}
nkeynes@73	98	if( nanosecs_done > 1000000000 ) {
nkeynes@73	99	samples_done -= AICA_SAMPLE_RATE;
nkeynes@73	100	nanosecs_done -= 1000000000;
nkeynes@173	101	aica_time_of_day++;
nkeynes@73	102	}
nkeynes@43	103	return nanosecs;
nkeynes@23	104	}
nkeynes@23	105
nkeynes@23	106	void aica_stop( void )
nkeynes@23	107	{
nkeynes@23	108
nkeynes@23	109	}
nkeynes@23	110
nkeynes@35	111	void aica_save_state( FILE *f )
nkeynes@35	112	{
nkeynes@35	113	arm_save_state( f );
nkeynes@35	114	}
nkeynes@35	115
nkeynes@35	116	int aica_load_state( FILE *f )
nkeynes@35	117	{
nkeynes@35	118	return arm_load_state( f );
nkeynes@35	119	}
nkeynes@35	120
nkeynes@61	121	int aica_event_pending = 0;
nkeynes@61	122	int aica_clear_count = 0;
nkeynes@61	123
nkeynes@61	124	/* Note: This is probably not necessarily technically correct but it should
nkeynes@61	125	* work in the meantime.
nkeynes@61	126	*/
nkeynes@61	127
nkeynes@61	128	void aica_event( int event )
nkeynes@61	129	{
nkeynes@61	130	if( aica_event_pending == 0 )
nkeynes@61	131	armr.int_pending \|= CPSR_F;
nkeynes@61	132	aica_event_pending \|= (1<<event);
nkeynes@61	133
nkeynes@61	134	int pending = MMIO_READ( AICA2, AICA_IRQ );
nkeynes@61	135	if( pending == 0 \|\| event < pending )
nkeynes@61	136	MMIO_WRITE( AICA2, AICA_IRQ, event );
nkeynes@61	137	}
nkeynes@61	138
nkeynes@61	139	void aica_clear_event( )
nkeynes@61	140	{
nkeynes@61	141	aica_clear_count++;
nkeynes@61	142	if( aica_clear_count == 4 ) {
nkeynes@61	143	int i;
nkeynes@61	144	aica_clear_count = 0;
nkeynes@61	145
nkeynes@61	146	for( i=0; i<8; i++ ) {
nkeynes@61	147	if( aica_event_pending & (1<<i) ) {
nkeynes@61	148	aica_event_pending &= ~(1<<i);
nkeynes@61	149	break;
nkeynes@61	150	}
nkeynes@61	151	}
nkeynes@61	152	for( ;i<8; i++ ) {
nkeynes@61	153	if( aica_event_pending & (1<<i) ) {
nkeynes@61	154	MMIO_WRITE( AICA2, AICA_IRQ, i );
nkeynes@61	155	break;
nkeynes@61	156	}
nkeynes@61	157	}
nkeynes@61	158	if( aica_event_pending == 0 )
nkeynes@61	159	armr.int_pending &= ~CPSR_F;
nkeynes@61	160	}
nkeynes@61	161	}
nkeynes@66	162
nkeynes@86	163	void aica_enable( void )
nkeynes@86	164	{
nkeynes@86	165	mmio_region_AICA2_write( AICA_RESET, MMIO_READ(AICA2,AICA_RESET) & ~1 );
nkeynes@86	166	}
nkeynes@86	167
nkeynes@11	168	/** Channel register structure:
nkeynes@43	169	* 00 4 Channel config
nkeynes@43	170	* 04 4 Waveform address lo (16 bits)
nkeynes@11	171	* 08 4 Loop start address
nkeynes@11	172	* 0C 4 Loop end address
nkeynes@11	173	* 10 4 Volume envelope
nkeynes@43	174	* 14 4 Init to 0x1F
nkeynes@43	175	* 18 4 Frequency (floating point)
nkeynes@43	176	* 1C 4 ??
nkeynes@43	177	* 20 4 ??
nkeynes@11	178	* 24 1 Pan
nkeynes@11	179	* 25 1 ??
nkeynes@11	180	* 26
nkeynes@11	181	* 27
nkeynes@11	182	* 28 1 ??
nkeynes@11	183	* 29 1 Volume
nkeynes@11	184	* 2C
nkeynes@11	185	* 30
nkeynes@11	186	*
nkeynes@11	187
nkeynes@11	188	/* Write to channels 0-31 */
nkeynes@11	189	void mmio_region_AICA0_write( uint32_t reg, uint32_t val )
nkeynes@11	190	{
nkeynes@35	191	MMIO_WRITE( AICA0, reg, val );
nkeynes@66	192	aica_write_channel( reg >> 7, reg % 128, val );
nkeynes@37	193	// DEBUG( "AICA0 Write %08X => %08X", val, reg );
nkeynes@11	194	}
nkeynes@11	195
nkeynes@11	196	/* Write to channels 32-64 */
nkeynes@11	197	void mmio_region_AICA1_write( uint32_t reg, uint32_t val )
nkeynes@11	198	{
nkeynes@35	199	MMIO_WRITE( AICA1, reg, val );
nkeynes@66	200	aica_write_channel( (reg >> 7) + 32, reg % 128, val );
nkeynes@37	201	// DEBUG( "AICA1 Write %08X => %08X", val, reg );
nkeynes@11	202	}
nkeynes@11	203
nkeynes@66	204	/**
nkeynes@66	205	* AICA control registers
nkeynes@66	206	*/
nkeynes@11	207	void mmio_region_AICA2_write( uint32_t reg, uint32_t val )
nkeynes@11	208	{
nkeynes@35	209	uint32_t tmp;
nkeynes@35	210	switch( reg ) {
nkeynes@35	211	case AICA_RESET:
nkeynes@35	212	tmp = MMIO_READ( AICA2, AICA_RESET );
nkeynes@37	213	if( (tmp & 1) == 1 && (val & 1) == 0 ) {
nkeynes@35	214	/* ARM enabled - execute a core reset */
nkeynes@37	215	DEBUG( "ARM enabled" );
nkeynes@35	216	arm_reset();
nkeynes@66	217	samples_done = 0;
nkeynes@66	218	nanosecs_done = 0;
nkeynes@37	219	} else if( (tmp&1) == 0 && (val&1) == 1 ) {
nkeynes@37	220	DEBUG( "ARM disabled" );
nkeynes@35	221	}
nkeynes@35	222	MMIO_WRITE( AICA2, AICA_RESET, val );
nkeynes@35	223	break;
nkeynes@61	224	case AICA_IRQCLEAR:
nkeynes@61	225	aica_clear_event();
nkeynes@61	226	break;
nkeynes@35	227	default:
nkeynes@35	228	MMIO_WRITE( AICA2, reg, val );
nkeynes@35	229	break;
nkeynes@35	230	}
nkeynes@11	231	}
nkeynes@66	232
nkeynes@131	233
nkeynes@131	234	int32_t mmio_region_AICARTC_read( uint32_t reg )
nkeynes@131	235	{
nkeynes@131	236	struct timeval tv;
nkeynes@173	237	int32_t rv = 0;
nkeynes@131	238	switch( reg ) {
nkeynes@131	239	case AICA_RTCHI:
nkeynes@173	240	rv = (aica_time_of_day >> 16) & 0xFFFF;
nkeynes@131	241	break;
nkeynes@131	242	case AICA_RTCLO:
nkeynes@173	243	rv = aica_time_of_day & 0xFFFF;
nkeynes@131	244	break;
nkeynes@131	245	}
nkeynes@241	246	// DEBUG( "Read AICA RTC %d => %08X", reg, rv );
nkeynes@173	247	return rv;
nkeynes@131	248	}
nkeynes@131	249
nkeynes@131	250	MMIO_REGION_WRITE_STUBFN( AICARTC )
nkeynes@131	251
nkeynes@66	252	/**
nkeynes@66	253	* Translate the channel frequency to a sample rate. The frequency is a
nkeynes@66	254	* 14-bit floating point number, where bits 0..9 is the mantissa,
nkeynes@66	255	* 11..14 is the signed exponent (-8 to +7). Bit 10 appears to
nkeynes@66	256	* be unused.
nkeynes@66	257	*
nkeynes@66	258	* @return sample rate in samples per second.
nkeynes@66	259	*/
nkeynes@66	260	uint32_t aica_frequency_to_sample_rate( uint32_t freq )
nkeynes@66	261	{
nkeynes@66	262	uint32_t exponent = (freq & 0x3800) >> 11;
nkeynes@66	263	uint32_t mantissa = freq & 0x03FF;
nkeynes@82	264	uint32_t rate;
nkeynes@66	265	if( freq & 0x4000 ) {
nkeynes@66	266	/* neg exponent - rate < 44100 */
nkeynes@66	267	exponent = 8 - exponent;
nkeynes@82	268	rate = (44100 >> exponent) +
nkeynes@66	269	((44100 * mantissa) >> (10+exponent));
nkeynes@66	270	} else {
nkeynes@66	271	/* pos exponent - rate > 44100 */
nkeynes@82	272	rate = (44100 << exponent) +
nkeynes@66	273	((44100 * mantissa) >> (10-exponent));
nkeynes@66	274	}
nkeynes@82	275	return rate;
nkeynes@66	276	}
nkeynes@66	277
nkeynes@82	278	/**
nkeynes@82	279	* Derived directly from Dan Potter's log table
nkeynes@82	280	*/
nkeynes@82	281	uint8_t aica_volume_table[256] = {
nkeynes@82	282	0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1,
nkeynes@82	283	1, 1, 1, 1, 1, 1, 2, 2, 2, 2, 2, 3, 3, 3, 3, 4,
nkeynes@82	284	4, 4, 4, 5, 5, 5, 5, 6, 6, 6, 7, 7, 7, 8, 8, 9,
nkeynes@82	285	9, 9, 10, 10, 11, 11, 11, 12, 12, 13, 13, 14, 14, 15, 15, 16,
nkeynes@82	286	16, 17, 17, 18, 18, 19, 19, 20, 20, 21, 22, 22, 23, 23, 24, 25,
nkeynes@82	287	25, 26, 27, 27, 28, 29, 29, 30, 31, 31, 32, 33, 34, 34, 35, 36,
nkeynes@82	288	37, 37, 38, 39, 40, 40, 41, 42, 43, 44, 45, 45, 46, 47, 48, 49,
nkeynes@82	289	50, 51, 52, 52, 53, 54, 55, 56, 57, 58, 59, 60, 61, 62, 63, 64,
nkeynes@82	290	65, 66, 67, 68, 69, 70, 71, 72, 73, 74, 76, 77, 78, 79, 80, 81,
nkeynes@82	291	82, 83, 85, 86, 87, 88, 89, 90, 92, 93, 94, 95, 97, 98, 99, 100,
nkeynes@82	292	102, 103, 104, 105, 107, 108, 109, 111, 112, 113, 115, 116, 117, 119, 120, 121,
nkeynes@82	293	123, 124, 126, 127, 128, 130, 131, 133, 134, 136, 137, 139, 140, 142, 143, 145,
nkeynes@82	294	146, 148, 149, 151, 152, 154, 155, 157, 159, 160, 162, 163, 165, 167, 168, 170,
nkeynes@82	295	171, 173, 175, 176, 178, 180, 181, 183, 185, 187, 188, 190, 192, 194, 195, 197,
nkeynes@82	296	199, 201, 202, 204, 206, 208, 210, 211, 213, 215, 217, 219, 221, 223, 224, 226,
nkeynes@82	297	228, 230, 232, 234, 236, 238, 240, 242, 244, 246, 248, 250, 252, 253, 254, 255 };
nkeynes@82	298
nkeynes@82	299
nkeynes@66	300	void aica_write_channel( int channelNo, uint32_t reg, uint32_t val )
nkeynes@66	301	{
nkeynes@66	302	val &= 0x0000FFFF;
nkeynes@66	303	audio_channel_t channel = audio_get_channel(channelNo);
nkeynes@66	304	switch( reg ) {
nkeynes@66	305	case 0x00: /* Config + high address bits*/
nkeynes@66	306	channel->start = (channel->start & 0xFFFF) \| ((val&0x1F) << 16);
nkeynes@66	307	if( val & 0x200 )
nkeynes@73	308	channel->loop = TRUE;
nkeynes@66	309	else
nkeynes@73	310	channel->loop = FALSE;
nkeynes@66	311	switch( (val >> 7) & 0x03 ) {
nkeynes@66	312	case 0:
nkeynes@66	313	channel->sample_format = AUDIO_FMT_16BIT;
nkeynes@66	314	break;
nkeynes@66	315	case 1:
nkeynes@66	316	channel->sample_format = AUDIO_FMT_8BIT;
nkeynes@66	317	break;
nkeynes@66	318	case 2:
nkeynes@66	319	case 3:
nkeynes@66	320	channel->sample_format = AUDIO_FMT_ADPCM;
nkeynes@66	321	break;
nkeynes@66	322	}
nkeynes@66	323	switch( (val >> 14) & 0x03 ) {
nkeynes@66	324	case 2:
nkeynes@66	325	audio_stop_channel( channelNo );
nkeynes@66	326	break;
nkeynes@66	327	case 3:
nkeynes@66	328	audio_start_channel( channelNo );
nkeynes@66	329	break;
nkeynes@66	330	default:
nkeynes@66	331	break;
nkeynes@66	332	/* Hrmm... */
nkeynes@66	333	}
nkeynes@66	334	break;
nkeynes@66	335	case 0x04: /* Low 16 address bits */
nkeynes@66	336	channel->start = (channel->start & 0x001F0000) \| val;
nkeynes@66	337	break;
nkeynes@66	338	case 0x08: /* Loop start */
nkeynes@66	339	channel->loop_start = val;
nkeynes@66	340	break;
nkeynes@73	341	case 0x0C: /* End */
nkeynes@73	342	channel->end = val;
nkeynes@66	343	break;
nkeynes@66	344	case 0x10: /* Envelope register 1 */
nkeynes@66	345	break;
nkeynes@66	346	case 0x14: /* Envelope register 2 */
nkeynes@66	347	break;
nkeynes@66	348	case 0x18: /* Frequency */
nkeynes@66	349	channel->sample_rate = aica_frequency_to_sample_rate ( val );
nkeynes@66	350	break;
nkeynes@66	351	case 0x1C: /* ??? */
nkeynes@66	352	case 0x20: /* ??? */
nkeynes@66	353	case 0x24: /* Volume? /pan */
nkeynes@82	354	val = val & 0x1F;
nkeynes@82	355	if( val <= 0x0F )
nkeynes@82	356	val = 0x0F - val; /* Convert to smooth pan over 0..31 */
nkeynes@82	357	channel->pan = val;
nkeynes@66	358	break;
nkeynes@66	359	case 0x28: /* Volume */
nkeynes@82	360	channel->vol = aica_volume_table[val & 0xFF];
nkeynes@66	361	break;
nkeynes@66	362	default: /* ??? */
nkeynes@66	363	break;
nkeynes@66	364	}
nkeynes@66	365
nkeynes@66	366	}