BasiliskII/src/audio.cpp

/*
 *  audio.cpp - Audio support
 *
 *  Basilisk II (C) 1997-1999 Christian Bauer
 *  Portions (C) 1997-1999 Marc Hellwig
 *
 *  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
 */

/*
 *  SEE ALSO
 *    Inside Macintosh: Sound, chapter 5 "Sound Components"
 */

#include "sysdeps.h"
#include "cpu_emulation.h"
#include "macos_util.h"
#include "emul_op.h"
#include "main.h"
#include "audio.h"
#include "audio_defs.h"

#define DEBUG 0
#include "debug.h"


// Global variables
struct audio_status AudioStatus;        // Current audio status (sample rate etc.)
bool audio_open = false;                        // Flag: audio is initialized and ready
int audio_frames_per_block;                     // Number of audio frames per block
uint32 audio_component_flags;           // Component feature flags
uint32 audio_data = 0;                          // Mac address of global data area
static int open_count = 0;                      // Open/close nesting count

bool AudioAvailable = false;            // Flag: audio output available (from the software point of view)


/*
 *  Get audio info
 */

static int32 AudioGetInfo(uint32 infoPtr, uint32 selector, uint32 sourceID)
{
        D(bug(" AudioGetInfo %c%c%c%c, infoPtr %08lx, source ID %08lx\n", selector >> 24, (selector >> 16) & 0xff, (selector >> 8) & 0xff, selector & 0xff, infoPtr, sourceID));
        M68kRegisters r;
        int i;

        switch (selector) {
                case siSampleSize:
                        WriteMacInt16(infoPtr, AudioStatus.sample_size);
                        break;

                case siSampleSizeAvailable: {
                        r.d[0] = audio_num_sample_sizes * 2;
                        Execute68kTrap(0xa122, &r);     // NewHandle()
                        uint32 h = r.a[0];
                        if (h == 0)
                                return memFullErr;
                        WriteMacInt16(infoPtr + sil_count, audio_num_sample_sizes);
                        WriteMacInt32(infoPtr + sil_infoHandle, h);
                        uint32 sp = ReadMacInt32(h);
                        for (i=0; i<audio_num_sample_sizes; i++)
                                WriteMacInt16(sp + i*2, audio_sample_sizes[i]);
                        break;
                }

                case siNumberChannels:
                        WriteMacInt16(infoPtr, AudioStatus.channels);
                        break;

                case siChannelAvailable: {
                        r.d[0] = audio_num_channel_counts * 2;
                        Execute68kTrap(0xa122, &r);     // NewHandle()
                        uint32 h = r.a[0];
                        if (h == 0)
                                return memFullErr;
                        WriteMacInt16(infoPtr + sil_count, audio_num_channel_counts);
                        WriteMacInt32(infoPtr + sil_infoHandle, h);
                        uint32 sp = ReadMacInt32(h);
                        for (i=0; i<audio_num_channel_counts; i++)
                                WriteMacInt16(sp + i*2, audio_channel_counts[i]);
                        break;
                }

                case siSampleRate:
                        WriteMacInt32(infoPtr, AudioStatus.sample_rate);
                        break;

                case siSampleRateAvailable: {
                        r.d[0] = audio_num_sample_rates * 4;
                        Execute68kTrap(0xa122, &r);     // NewHandle()
                        uint32 h = r.a[0];
                        if (h == 0)
                                return memFullErr;
                        WriteMacInt16(infoPtr + sil_count, audio_num_sample_rates);
                        WriteMacInt32(infoPtr + sil_infoHandle, h);
                        uint32 lp = ReadMacInt32(h);
                        for (i=0; i<audio_num_sample_rates; i++)
                                WriteMacInt32(lp + i*4, audio_sample_rates[i]);
                        break;
                }

                case siSpeakerMute:
                        WriteMacInt16(infoPtr, audio_get_speaker_mute());
                        break;

                case siSpeakerVolume:
                        WriteMacInt32(infoPtr, audio_get_speaker_volume());
                        break;

                case siHeadphoneMute:
                        WriteMacInt16(infoPtr, 0);
                        break;

                case siHeadphoneVolume:
                        WriteMacInt32(infoPtr, 0x01000100);
                        break;

                case siHeadphoneVolumeSteps:
                        WriteMacInt16(infoPtr, 13);
                        break;

                case siHardwareMute:
                        WriteMacInt16(infoPtr, audio_get_main_mute());
                        break;

                case siHardwareVolume:
                        WriteMacInt32(infoPtr, audio_get_main_volume());
                        break;

                case siHardwareVolumeSteps:
                        WriteMacInt16(infoPtr, 13);
                        break;

                case siHardwareBusy:
                        WriteMacInt16(infoPtr, AudioStatus.num_sources != 0);
                        break;

                default:        // Delegate to Apple Mixer
                        if (AudioStatus.mixer == 0)
                                return badComponentSelector;
                        M68kRegisters r;
                        r.a[0] = infoPtr;
                        r.d[0] = selector;
                        r.a[1] = sourceID;
                        r.a[2] = AudioStatus.mixer;
                        Execute68k(audio_data + adatGetInfo, &r);
                        D(bug("  delegated to Apple Mixer, returns %08lx\n", r.d[0]));
                        return r.d[0];
        }
        return noErr;
}


/*
 *  Set audio info
 */

static int32 AudioSetInfo(uint32 infoPtr, uint32 selector, uint32 sourceID)
{
        D(bug(" AudioSetInfo %c%c%c%c, infoPtr %08lx, source ID %08lx\n", selector >> 24, (selector >> 16) & 0xff, (selector >> 8) & 0xff, selector & 0xff, infoPtr, sourceID));
        M68kRegisters r;
        int i;

        switch (selector) {
                case siSampleSize:
                        D(bug("  set sample size %08lx\n", infoPtr));
                        if (AudioStatus.num_sources)
                                return siDeviceBusyErr;
                        for (i=0; i<audio_num_sample_sizes; i++)
                                if (audio_sample_sizes[i] == infoPtr) {
                                        audio_set_sample_size(i);
                                        return noErr;
                                }
                        return siInvalidSampleSize;

                case siSampleRate:
                        D(bug("  set sample rate %08lx\n", infoPtr));
                        if (AudioStatus.num_sources)
                                return siDeviceBusyErr;
                        for (i=0; i<audio_num_sample_rates; i++)
                                if (audio_sample_rates[i] == infoPtr) {
                                        audio_set_sample_rate(i);
                                        return noErr;
                                }
                        return siInvalidSampleRate;

                case siNumberChannels:
                        D(bug("  set number of channels %08lx\n", infoPtr));
                        if (AudioStatus.num_sources)
                                return siDeviceBusyErr;
                        for (i=0; i<audio_num_channel_counts; i++)
                                if (audio_channel_counts[i] == infoPtr) {
                                        audio_set_channels(i);
                                        return noErr;
                                }
                        return badChannel;

                case siSpeakerMute:
                        audio_set_speaker_mute((uint16)infoPtr);
                        break;

                case siSpeakerVolume:
                        D(bug("  set speaker volume %08lx\n", infoPtr));
                        audio_set_speaker_volume(infoPtr);
                        break;

                case siHeadphoneMute:
                case siHeadphoneVolume:
                        break;

                case siHardwareMute:
                        audio_set_main_mute((uint16)infoPtr);
                        break;

                case siHardwareVolume:
                        D(bug("  set hardware volume %08lx\n", infoPtr));
                        audio_set_main_volume(infoPtr);
                        break;

                default:        // Delegate to Apple Mixer
                        if (AudioStatus.mixer == 0)
                                return badComponentSelector;
                        r.a[0] = infoPtr;
                        r.d[0] = selector;
                        r.a[1] = sourceID;
                        r.a[2] = AudioStatus.mixer;
                        Execute68k(audio_data + adatSetInfo, &r);
                        D(bug("  delegated to Apple Mixer, returns %08lx\n", r.d[0]));
                        return r.d[0];
        }
        return noErr;
}


/*
 *  Sound output component dispatch
 */

int32 AudioDispatch(uint32 params, uint32 globals)
{
        D(bug("AudioDispatch params %08lx (size %d), what %d\n", params, ReadMacInt8(params + cp_paramSize), (int16)ReadMacInt16(params + cp_what)));
        M68kRegisters r;
        uint32 p = params + cp_params;

        switch ((int16)ReadMacInt16(params + cp_what)) {
                // Basic component functions
                case kComponentOpenSelect:
                        if (audio_data == 0) {

                                // Allocate global data area
                                r.d[0] = SIZEOF_adat;
                                Execute68kTrap(0xa71e, &r);     // NewPtrSysClear()
                                if (r.a[0] == 0)
                                        return memFullErr;
                                audio_data = r.a[0];
                                D(bug(" global data at %08lx\n", audio_data));

                                // Put in 68k routines
                                int p = audio_data + adatDelegateCall;
                                WriteMacInt16(p, 0x598f); p += 2;       // subq.l       #4,sp
                                WriteMacInt16(p, 0x2f09); p += 2;       // move.l       a1,-(sp)
                                WriteMacInt16(p, 0x2f08); p += 2;       // move.l       a0,-(sp)
                                WriteMacInt16(p, 0x7024); p += 2;       // moveq        #$24,d0
                                WriteMacInt16(p, 0xa82a); p += 2;       // ComponentDispatch
                                WriteMacInt16(p, 0x201f); p += 2;       // move.l       (sp)+,d0
                                WriteMacInt16(p, M68K_RTS); p += 2;     // rts
                                if (p - audio_data != adatOpenMixer)
                                        goto adat_error;
                                WriteMacInt16(p, 0x558f); p += 2;       // subq.l       #2,sp
                                WriteMacInt16(p, 0x2f09); p += 2;       // move.l       a1,-(sp)
                                WriteMacInt16(p, 0x2f00); p += 2;       // move.l       d0,-(sp)
                                WriteMacInt16(p, 0x2f08); p += 2;       // move.l       a0,-(sp)
                                WriteMacInt16(p, 0x203c); p += 2;       // move.l       #$06140018,d0
                                WriteMacInt32(p, 0x06140018); p+= 4;
                                WriteMacInt16(p, 0xa800); p += 2;       // SoundDispatch
                                WriteMacInt16(p, 0x301f); p += 2;       // move.w       (sp)+,d0
                                WriteMacInt16(p, 0x48c0); p += 2;       // ext.l        d0
                                WriteMacInt16(p, M68K_RTS); p += 2;     // rts
                                if (p - audio_data != adatCloseMixer)
                                        goto adat_error;
                                WriteMacInt16(p, 0x558f); p += 2;       // subq.l       #2,sp
                                WriteMacInt16(p, 0x2f08); p += 2;       // move.l       a0,-(sp)
                                WriteMacInt16(p, 0x203c); p += 2;       // move.l       #$02180018,d0
                                WriteMacInt32(p, 0x02180018); p+= 4;
                                WriteMacInt16(p, 0xa800); p += 2;       // SoundDispatch
                                WriteMacInt16(p, 0x301f); p += 2;       // move.w       (sp)+,d0
                                WriteMacInt16(p, 0x48c0); p += 2;       // ext.l        d0
                                WriteMacInt16(p, M68K_RTS); p += 2;     // rts
                                if (p - audio_data != adatGetInfo)
                                        goto adat_error;
                                WriteMacInt16(p, 0x598f); p += 2;       // subq.l       #4,sp
                                WriteMacInt16(p, 0x2f0a); p += 2;       // move.l       a2,-(sp)
                                WriteMacInt16(p, 0x2f09); p += 2;       // move.l       a1,-(sp)
                                WriteMacInt16(p, 0x2f00); p += 2;       // move.l       d0,-(sp)
                                WriteMacInt16(p, 0x2f08); p += 2;       // move.l       a0,-(sp)
                                WriteMacInt16(p, 0x2f3c); p += 2;       // move.l       #$000c0103,-(sp)
                                WriteMacInt32(p, 0x000c0103); p+= 4;
                                WriteMacInt16(p, 0x7000); p += 2;       // moveq        #0,d0
                                WriteMacInt16(p, 0xa82a); p += 2;       // ComponentDispatch
                                WriteMacInt16(p, 0x201f); p += 2;       // move.l       (sp)+,d0
                                WriteMacInt16(p, M68K_RTS); p += 2;     // rts
                                if (p - audio_data != adatSetInfo)
                                        goto adat_error;
                                WriteMacInt16(p, 0x598f); p += 2;       // subq.l       #4,sp
                                WriteMacInt16(p, 0x2f0a); p += 2;       // move.l       a2,-(sp)
                                WriteMacInt16(p, 0x2f09); p += 2;       // move.l       a1,-(sp)
                                WriteMacInt16(p, 0x2f00); p += 2;       // move.l       d0,-(sp)
                                WriteMacInt16(p, 0x2f08); p += 2;       // move.l       a0,-(sp)
                                WriteMacInt16(p, 0x2f3c); p += 2;       // move.l       #$000c0104,-(sp)
                                WriteMacInt32(p, 0x000c0104); p+= 4;
                                WriteMacInt16(p, 0x7000); p += 2;       // moveq        #0,d0
                                WriteMacInt16(p, 0xa82a); p += 2;       // ComponentDispatch
                                WriteMacInt16(p, 0x201f); p += 2;       // move.l       (sp)+,d0
                                WriteMacInt16(p, M68K_RTS); p += 2;     // rts
                                if (p - audio_data != adatPlaySourceBuffer)
                                        goto adat_error;
                                WriteMacInt16(p, 0x598f); p += 2;       // subq.l       #4,sp
                                WriteMacInt16(p, 0x2f0a); p += 2;       // move.l       a2,-(sp)
                                WriteMacInt16(p, 0x2f09); p += 2;       // move.l       a1,-(sp)
                                WriteMacInt16(p, 0x2f08); p += 2;       // move.l       a0,-(sp)
                                WriteMacInt16(p, 0x2f00); p += 2;       // move.l       d0,-(sp)
                                WriteMacInt16(p, 0x2f3c); p += 2;       // move.l       #$000c0108,-(sp)
                                WriteMacInt32(p, 0x000c0108); p+= 4;
                                WriteMacInt16(p, 0x7000); p += 2;       // moveq        #0,d0
                                WriteMacInt16(p, 0xa82a); p += 2;       // ComponentDispatch
                                WriteMacInt16(p, 0x201f); p += 2;       // move.l       (sp)+,d0
                                WriteMacInt16(p, M68K_RTS); p += 2;     // rts
                                if (p - audio_data != adatGetSourceData)
                                        goto adat_error;
                                WriteMacInt16(p, 0x598f); p += 2;       // subq.l       #4,sp
                                WriteMacInt16(p, 0x2f09); p += 2;       // move.l       a1,-(sp)
                                WriteMacInt16(p, 0x2f08); p += 2;       // move.l       a0,-(sp)
                                WriteMacInt16(p, 0x2f3c); p += 2;       // move.l       #$00040004,-(sp)
                                WriteMacInt32(p, 0x00040004); p+= 4;
                                WriteMacInt16(p, 0x7000); p += 2;       // moveq        #0,d0
                                WriteMacInt16(p, 0xa82a); p += 2;       // ComponentDispatch
                                WriteMacInt16(p, 0x201f); p += 2;       // move.l       (sp)+,d0
                                WriteMacInt16(p, M68K_RTS); p += 2;     // rts
                                if (p - audio_data != adatData)
                                        goto adat_error;
                        }
                        AudioAvailable = true;
                        if (open_count == 0)
                                audio_enter_stream();
                        open_count++;
                        return noErr;

adat_error:     printf("FATAL: audio component data block initialization error\n");
                        QuitEmulator();
                        return openErr;

                case kComponentCanDoSelect:
                case kComponentRegisterSelect:
                        return noErr;

                case kComponentVersionSelect:
                        return 0x00010003;

                case kComponentCloseSelect:
                        open_count--;
                        if (open_count == 0) {
                                if (AudioStatus.mixer) {
                                        // Close Apple Mixer
                                        r.a[0] = AudioStatus.mixer;
                                        Execute68k(audio_data + adatCloseMixer, &r);
                                        AudioStatus.mixer = 0;
                                        return r.d[0];
                                }
                                AudioStatus.num_sources = 0;
                                audio_exit_stream();
                        }
                        return noErr;

                // Sound component functions
                case kSoundComponentInitOutputDeviceSelect:
                        D(bug(" InitOutputDevice\n"));
                        if (!audio_open)
                                return noHardwareErr;
                        if (AudioStatus.mixer)
                                return noErr;

                        // Init sound component data
                        WriteMacInt32(audio_data + adatData + scd_flags, 0);
                        WriteMacInt32(audio_data + adatData + scd_format, AudioStatus.sample_size == 16 ? 'twos' : 'raw ');
                        WriteMacInt16(audio_data + adatData + scd_numChannels, AudioStatus.channels);
                        WriteMacInt16(audio_data + adatData + scd_sampleSize, AudioStatus.sample_size);
                        WriteMacInt32(audio_data + adatData + scd_sampleRate, AudioStatus.sample_rate);
                        WriteMacInt32(audio_data + adatData + scd_sampleCount, audio_frames_per_block);
                        WriteMacInt32(audio_data + adatData + scd_buffer, 0);
                        WriteMacInt32(audio_data + adatData + scd_reserved, 0);
                        WriteMacInt32(audio_data + adatStreamInfo, 0);

                        // Open Apple Mixer
                        r.a[0] = audio_data + adatMixer;
                        r.d[0] = 0;
                        r.a[1] = audio_data + adatData;
                        Execute68k(audio_data + adatOpenMixer, &r);
                        AudioStatus.mixer = ReadMacInt32(audio_data + adatMixer);
                        D(bug(" OpenMixer() returns %08lx, mixer %08lx\n", r.d[0], AudioStatus.mixer));
                        return r.d[0];

                case kSoundComponentAddSourceSelect:
                        D(bug(" AddSource\n"));
                        AudioStatus.num_sources++;
                        goto delegate;

                case kSoundComponentRemoveSourceSelect:
                        D(bug(" RemoveSource\n"));
                        AudioStatus.num_sources--;
                        goto delegate;

                case kSoundComponentStopSourceSelect:
                        D(bug(" StopSource\n"));
                        goto delegate;

                case kSoundComponentPauseSourceSelect:
                        D(bug(" PauseSource\n"));
delegate:       // Delegate call to Apple Mixer
                        D(bug(" delegating call to Apple Mixer\n"));
                        r.a[0] = AudioStatus.mixer;
                        r.a[1] = params;
                        Execute68k(audio_data + adatDelegateCall, &r);
                        D(bug(" returns %08lx\n", r.d[0]));
                        return r.d[0];

                case kSoundComponentStartSourceSelect:
                        D(bug(" StartSource\n"));
                        return noErr;

                case kSoundComponentGetInfoSelect:
                        return AudioGetInfo(ReadMacInt32(p), ReadMacInt32(p + 4), ReadMacInt32(p + 8));

                case kSoundComponentSetInfoSelect:
                        return AudioSetInfo(ReadMacInt32(p), ReadMacInt32(p + 4), ReadMacInt32(p + 8));

                case kSoundComponentPlaySourceBufferSelect:
                        D(bug(" PlaySourceBuffer\n"));
                        r.d[0] = ReadMacInt32(p);
                        r.a[0] = ReadMacInt32(p + 4);
                        r.a[1] = ReadMacInt32(p + 8);
                        r.a[2] = AudioStatus.mixer;
                        Execute68k(audio_data + adatPlaySourceBuffer, &r);
                        D(bug(" returns %08lx\n", r.d[0]));
                        return r.d[0];

                default:
                        return badComponentSelector;
        }
}
Revision:	1.2
Committed:	1999-10-20T15:13:52Z (25 years ago) by cebix
Branch:	MAIN
CVS Tags:	snapshot-21101999, snapshot-22121999, release-0_8-1, snapshot-02111999
Changes since 1.1:	+29 -13 lines
Log Message:	- renamed main_volume to speaker_volume and dac_volume to main_volume (same for mute) - added defines for headphone volume/mute
#	Content
1	/*
2	* audio.cpp - Audio support
3	*
4	* Basilisk II (C) 1997-1999 Christian Bauer
5	* Portions (C) 1997-1999 Marc Hellwig
6	*
7	* This program is free software; you can redistribute it and/or modify
8	* it under the terms of the GNU General Public License as published by
9	* the Free Software Foundation; either version 2 of the License, or
10	* (at your option) any later version.
11	*
12	* This program is distributed in the hope that it will be useful,
13	* but WITHOUT ANY WARRANTY; without even the implied warranty of
14	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
15	* GNU General Public License for more details.
16	*
17	* You should have received a copy of the GNU General Public License
18	* along with this program; if not, write to the Free Software
19	* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
20	*/
21
22	/*
23	* SEE ALSO
24	* Inside Macintosh: Sound, chapter 5 "Sound Components"
25	*/
26
27	#include "sysdeps.h"
28	#include "cpu_emulation.h"
29	#include "macos_util.h"
30	#include "emul_op.h"
31	#include "main.h"
32	#include "audio.h"
33	#include "audio_defs.h"
34
35	#define DEBUG 0
36	#include "debug.h"
37
38
39	// Global variables
40	struct audio_status AudioStatus; // Current audio status (sample rate etc.)
41	bool audio_open = false; // Flag: audio is initialized and ready
42	int audio_frames_per_block; // Number of audio frames per block
43	uint32 audio_component_flags; // Component feature flags
44	uint32 audio_data = 0; // Mac address of global data area
45	static int open_count = 0; // Open/close nesting count
46
47	bool AudioAvailable = false; // Flag: audio output available (from the software point of view)
48
49
50	/*
51	* Get audio info
52	*/
53
54	static int32 AudioGetInfo(uint32 infoPtr, uint32 selector, uint32 sourceID)
55	{
56	D(bug(" AudioGetInfo %c%c%c%c, infoPtr %08lx, source ID %08lx\n", selector >> 24, (selector >> 16) & 0xff, (selector >> 8) & 0xff, selector & 0xff, infoPtr, sourceID));
57	M68kRegisters r;
58	int i;
59
60	switch (selector) {
61	case siSampleSize:
62	WriteMacInt16(infoPtr, AudioStatus.sample_size);
63	break;
64
65	case siSampleSizeAvailable: {
66	r.d[0] = audio_num_sample_sizes * 2;
67	Execute68kTrap(0xa122, &r); // NewHandle()
68	uint32 h = r.a[0];
69	if (h == 0)
70	return memFullErr;
71	WriteMacInt16(infoPtr + sil_count, audio_num_sample_sizes);
72	WriteMacInt32(infoPtr + sil_infoHandle, h);
73	uint32 sp = ReadMacInt32(h);
74	for (i=0; i<audio_num_sample_sizes; i++)
75	WriteMacInt16(sp + i*2, audio_sample_sizes[i]);
76	break;
77	}
78
79	case siNumberChannels:
80	WriteMacInt16(infoPtr, AudioStatus.channels);
81	break;
82
83	case siChannelAvailable: {
84	r.d[0] = audio_num_channel_counts * 2;
85	Execute68kTrap(0xa122, &r); // NewHandle()
86	uint32 h = r.a[0];
87	if (h == 0)
88	return memFullErr;
89	WriteMacInt16(infoPtr + sil_count, audio_num_channel_counts);
90	WriteMacInt32(infoPtr + sil_infoHandle, h);
91	uint32 sp = ReadMacInt32(h);
92	for (i=0; i<audio_num_channel_counts; i++)
93	WriteMacInt16(sp + i*2, audio_channel_counts[i]);
94	break;
95	}
96
97	case siSampleRate:
98	WriteMacInt32(infoPtr, AudioStatus.sample_rate);
99	break;
100
101	case siSampleRateAvailable: {
102	r.d[0] = audio_num_sample_rates * 4;
103	Execute68kTrap(0xa122, &r); // NewHandle()
104	uint32 h = r.a[0];
105	if (h == 0)
106	return memFullErr;
107	WriteMacInt16(infoPtr + sil_count, audio_num_sample_rates);
108	WriteMacInt32(infoPtr + sil_infoHandle, h);
109	uint32 lp = ReadMacInt32(h);
110	for (i=0; i<audio_num_sample_rates; i++)
111	WriteMacInt32(lp + i*4, audio_sample_rates[i]);
112	break;
113	}
114
115	case siSpeakerMute:
116	WriteMacInt16(infoPtr, audio_get_speaker_mute());
117	break;
118
119	case siSpeakerVolume:
120	WriteMacInt32(infoPtr, audio_get_speaker_volume());
121	break;
122
123	case siHeadphoneMute:
124	WriteMacInt16(infoPtr, 0);
125	break;
126
127	case siHeadphoneVolume:
128	WriteMacInt32(infoPtr, 0x01000100);
129	break;
130
131	case siHeadphoneVolumeSteps:
132	WriteMacInt16(infoPtr, 13);
133	break;
134
135	case siHardwareMute:
136	WriteMacInt16(infoPtr, audio_get_main_mute());
137	break;
138
139	case siHardwareVolume:
140	WriteMacInt32(infoPtr, audio_get_main_volume());
141	break;
142
143	case siHardwareVolumeSteps:
144	WriteMacInt16(infoPtr, 13);
145	break;
146
147	case siHardwareBusy:
148	WriteMacInt16(infoPtr, AudioStatus.num_sources != 0);
149	break;
150
151	default: // Delegate to Apple Mixer
152	if (AudioStatus.mixer == 0)
153	return badComponentSelector;
154	M68kRegisters r;
155	r.a[0] = infoPtr;
156	r.d[0] = selector;
157	r.a[1] = sourceID;
158	r.a[2] = AudioStatus.mixer;
159	Execute68k(audio_data + adatGetInfo, &r);
160	D(bug(" delegated to Apple Mixer, returns %08lx\n", r.d[0]));
161	return r.d[0];
162	}
163	return noErr;
164	}
165
166
167	/*
168	* Set audio info
169	*/
170
171	static int32 AudioSetInfo(uint32 infoPtr, uint32 selector, uint32 sourceID)
172	{
173	D(bug(" AudioSetInfo %c%c%c%c, infoPtr %08lx, source ID %08lx\n", selector >> 24, (selector >> 16) & 0xff, (selector >> 8) & 0xff, selector & 0xff, infoPtr, sourceID));
174	M68kRegisters r;
175	int i;
176
177	switch (selector) {
178	case siSampleSize:
179	D(bug(" set sample size %08lx\n", infoPtr));
180	if (AudioStatus.num_sources)
181	return siDeviceBusyErr;
182	for (i=0; i<audio_num_sample_sizes; i++)
183	if (audio_sample_sizes[i] == infoPtr) {
184	audio_set_sample_size(i);
185	return noErr;
186	}
187	return siInvalidSampleSize;
188
189	case siSampleRate:
190	D(bug(" set sample rate %08lx\n", infoPtr));
191	if (AudioStatus.num_sources)
192	return siDeviceBusyErr;
193	for (i=0; i<audio_num_sample_rates; i++)
194	if (audio_sample_rates[i] == infoPtr) {
195	audio_set_sample_rate(i);
196	return noErr;
197	}
198	return siInvalidSampleRate;
199
200	case siNumberChannels:
201	D(bug(" set number of channels %08lx\n", infoPtr));
202	if (AudioStatus.num_sources)
203	return siDeviceBusyErr;
204	for (i=0; i<audio_num_channel_counts; i++)
205	if (audio_channel_counts[i] == infoPtr) {
206	audio_set_channels(i);
207	return noErr;
208	}
209	return badChannel;
210
211	case siSpeakerMute:
212	audio_set_speaker_mute((uint16)infoPtr);
213	break;
214
215	case siSpeakerVolume:
216	D(bug(" set speaker volume %08lx\n", infoPtr));
217	audio_set_speaker_volume(infoPtr);
218	break;
219
220	case siHeadphoneMute:
221	case siHeadphoneVolume:
222	break;
223
224	case siHardwareMute:
225	audio_set_main_mute((uint16)infoPtr);
226	break;
227
228	case siHardwareVolume:
229	D(bug(" set hardware volume %08lx\n", infoPtr));
230	audio_set_main_volume(infoPtr);
231	break;
232
233	default: // Delegate to Apple Mixer
234	if (AudioStatus.mixer == 0)
235	return badComponentSelector;
236	r.a[0] = infoPtr;
237	r.d[0] = selector;
238	r.a[1] = sourceID;
239	r.a[2] = AudioStatus.mixer;
240	Execute68k(audio_data + adatSetInfo, &r);
241	D(bug(" delegated to Apple Mixer, returns %08lx\n", r.d[0]));
242	return r.d[0];
243	}
244	return noErr;
245	}
246
247
248	/*
249	* Sound output component dispatch
250	*/
251
252	int32 AudioDispatch(uint32 params, uint32 globals)
253	{
254	D(bug("AudioDispatch params %08lx (size %d), what %d\n", params, ReadMacInt8(params + cp_paramSize), (int16)ReadMacInt16(params + cp_what)));
255	M68kRegisters r;
256	uint32 p = params + cp_params;
257
258	switch ((int16)ReadMacInt16(params + cp_what)) {
259	// Basic component functions
260	case kComponentOpenSelect:
261	if (audio_data == 0) {
262
263	// Allocate global data area
264	r.d[0] = SIZEOF_adat;
265	Execute68kTrap(0xa71e, &r); // NewPtrSysClear()
266	if (r.a[0] == 0)
267	return memFullErr;
268	audio_data = r.a[0];
269	D(bug(" global data at %08lx\n", audio_data));
270
271	// Put in 68k routines
272	int p = audio_data + adatDelegateCall;
273	WriteMacInt16(p, 0x598f); p += 2; // subq.l #4,sp
274	WriteMacInt16(p, 0x2f09); p += 2; // move.l a1,-(sp)
275	WriteMacInt16(p, 0x2f08); p += 2; // move.l a0,-(sp)
276	WriteMacInt16(p, 0x7024); p += 2; // moveq #$24,d0
277	WriteMacInt16(p, 0xa82a); p += 2; // ComponentDispatch
278	WriteMacInt16(p, 0x201f); p += 2; // move.l (sp)+,d0
279	WriteMacInt16(p, M68K_RTS); p += 2; // rts
280	if (p - audio_data != adatOpenMixer)
281	goto adat_error;
282	WriteMacInt16(p, 0x558f); p += 2; // subq.l #2,sp
283	WriteMacInt16(p, 0x2f09); p += 2; // move.l a1,-(sp)
284	WriteMacInt16(p, 0x2f00); p += 2; // move.l d0,-(sp)
285	WriteMacInt16(p, 0x2f08); p += 2; // move.l a0,-(sp)
286	WriteMacInt16(p, 0x203c); p += 2; // move.l #$06140018,d0
287	WriteMacInt32(p, 0x06140018); p+= 4;
288	WriteMacInt16(p, 0xa800); p += 2; // SoundDispatch
289	WriteMacInt16(p, 0x301f); p += 2; // move.w (sp)+,d0
290	WriteMacInt16(p, 0x48c0); p += 2; // ext.l d0
291	WriteMacInt16(p, M68K_RTS); p += 2; // rts
292	if (p - audio_data != adatCloseMixer)
293	goto adat_error;
294	WriteMacInt16(p, 0x558f); p += 2; // subq.l #2,sp
295	WriteMacInt16(p, 0x2f08); p += 2; // move.l a0,-(sp)
296	WriteMacInt16(p, 0x203c); p += 2; // move.l #$02180018,d0
297	WriteMacInt32(p, 0x02180018); p+= 4;
298	WriteMacInt16(p, 0xa800); p += 2; // SoundDispatch
299	WriteMacInt16(p, 0x301f); p += 2; // move.w (sp)+,d0
300	WriteMacInt16(p, 0x48c0); p += 2; // ext.l d0
301	WriteMacInt16(p, M68K_RTS); p += 2; // rts
302	if (p - audio_data != adatGetInfo)
303	goto adat_error;
304	WriteMacInt16(p, 0x598f); p += 2; // subq.l #4,sp
305	WriteMacInt16(p, 0x2f0a); p += 2; // move.l a2,-(sp)
306	WriteMacInt16(p, 0x2f09); p += 2; // move.l a1,-(sp)
307	WriteMacInt16(p, 0x2f00); p += 2; // move.l d0,-(sp)
308	WriteMacInt16(p, 0x2f08); p += 2; // move.l a0,-(sp)
309	WriteMacInt16(p, 0x2f3c); p += 2; // move.l #$000c0103,-(sp)
310	WriteMacInt32(p, 0x000c0103); p+= 4;
311	WriteMacInt16(p, 0x7000); p += 2; // moveq #0,d0
312	WriteMacInt16(p, 0xa82a); p += 2; // ComponentDispatch
313	WriteMacInt16(p, 0x201f); p += 2; // move.l (sp)+,d0
314	WriteMacInt16(p, M68K_RTS); p += 2; // rts
315	if (p - audio_data != adatSetInfo)
316	goto adat_error;
317	WriteMacInt16(p, 0x598f); p += 2; // subq.l #4,sp
318	WriteMacInt16(p, 0x2f0a); p += 2; // move.l a2,-(sp)
319	WriteMacInt16(p, 0x2f09); p += 2; // move.l a1,-(sp)
320	WriteMacInt16(p, 0x2f00); p += 2; // move.l d0,-(sp)
321	WriteMacInt16(p, 0x2f08); p += 2; // move.l a0,-(sp)
322	WriteMacInt16(p, 0x2f3c); p += 2; // move.l #$000c0104,-(sp)
323	WriteMacInt32(p, 0x000c0104); p+= 4;
324	WriteMacInt16(p, 0x7000); p += 2; // moveq #0,d0
325	WriteMacInt16(p, 0xa82a); p += 2; // ComponentDispatch
326	WriteMacInt16(p, 0x201f); p += 2; // move.l (sp)+,d0
327	WriteMacInt16(p, M68K_RTS); p += 2; // rts
328	if (p - audio_data != adatPlaySourceBuffer)
329	goto adat_error;
330	WriteMacInt16(p, 0x598f); p += 2; // subq.l #4,sp
331	WriteMacInt16(p, 0x2f0a); p += 2; // move.l a2,-(sp)
332	WriteMacInt16(p, 0x2f09); p += 2; // move.l a1,-(sp)
333	WriteMacInt16(p, 0x2f08); p += 2; // move.l a0,-(sp)
334	WriteMacInt16(p, 0x2f00); p += 2; // move.l d0,-(sp)
335	WriteMacInt16(p, 0x2f3c); p += 2; // move.l #$000c0108,-(sp)
336	WriteMacInt32(p, 0x000c0108); p+= 4;
337	WriteMacInt16(p, 0x7000); p += 2; // moveq #0,d0
338	WriteMacInt16(p, 0xa82a); p += 2; // ComponentDispatch
339	WriteMacInt16(p, 0x201f); p += 2; // move.l (sp)+,d0
340	WriteMacInt16(p, M68K_RTS); p += 2; // rts
341	if (p - audio_data != adatGetSourceData)
342	goto adat_error;
343	WriteMacInt16(p, 0x598f); p += 2; // subq.l #4,sp
344	WriteMacInt16(p, 0x2f09); p += 2; // move.l a1,-(sp)
345	WriteMacInt16(p, 0x2f08); p += 2; // move.l a0,-(sp)
346	WriteMacInt16(p, 0x2f3c); p += 2; // move.l #$00040004,-(sp)
347	WriteMacInt32(p, 0x00040004); p+= 4;
348	WriteMacInt16(p, 0x7000); p += 2; // moveq #0,d0
349	WriteMacInt16(p, 0xa82a); p += 2; // ComponentDispatch
350	WriteMacInt16(p, 0x201f); p += 2; // move.l (sp)+,d0
351	WriteMacInt16(p, M68K_RTS); p += 2; // rts
352	if (p - audio_data != adatData)
353	goto adat_error;
354	}
355	AudioAvailable = true;
356	if (open_count == 0)
357	audio_enter_stream();
358	open_count++;
359	return noErr;
360
361	adat_error: printf("FATAL: audio component data block initialization error\n");
362	QuitEmulator();
363	return openErr;
364
365	case kComponentCanDoSelect:
366	case kComponentRegisterSelect:
367	return noErr;
368
369	case kComponentVersionSelect:
370	return 0x00010003;
371
372	case kComponentCloseSelect:
373	open_count--;
374	if (open_count == 0) {
375	if (AudioStatus.mixer) {
376	// Close Apple Mixer
377	r.a[0] = AudioStatus.mixer;
378	Execute68k(audio_data + adatCloseMixer, &r);
379	AudioStatus.mixer = 0;
380	return r.d[0];
381	}
382	AudioStatus.num_sources = 0;
383	audio_exit_stream();
384	}
385	return noErr;
386
387	// Sound component functions
388	case kSoundComponentInitOutputDeviceSelect:
389	D(bug(" InitOutputDevice\n"));
390	if (!audio_open)
391	return noHardwareErr;
392	if (AudioStatus.mixer)
393	return noErr;
394
395	// Init sound component data
396	WriteMacInt32(audio_data + adatData + scd_flags, 0);
397	WriteMacInt32(audio_data + adatData + scd_format, AudioStatus.sample_size == 16 ? 'twos' : 'raw ');
398	WriteMacInt16(audio_data + adatData + scd_numChannels, AudioStatus.channels);
399	WriteMacInt16(audio_data + adatData + scd_sampleSize, AudioStatus.sample_size);
400	WriteMacInt32(audio_data + adatData + scd_sampleRate, AudioStatus.sample_rate);
401	WriteMacInt32(audio_data + adatData + scd_sampleCount, audio_frames_per_block);
402	WriteMacInt32(audio_data + adatData + scd_buffer, 0);
403	WriteMacInt32(audio_data + adatData + scd_reserved, 0);
404	WriteMacInt32(audio_data + adatStreamInfo, 0);
405
406	// Open Apple Mixer
407	r.a[0] = audio_data + adatMixer;
408	r.d[0] = 0;
409	r.a[1] = audio_data + adatData;
410	Execute68k(audio_data + adatOpenMixer, &r);
411	AudioStatus.mixer = ReadMacInt32(audio_data + adatMixer);
412	D(bug(" OpenMixer() returns %08lx, mixer %08lx\n", r.d[0], AudioStatus.mixer));
413	return r.d[0];
414
415	case kSoundComponentAddSourceSelect:
416	D(bug(" AddSource\n"));
417	AudioStatus.num_sources++;
418	goto delegate;
419
420	case kSoundComponentRemoveSourceSelect:
421	D(bug(" RemoveSource\n"));
422	AudioStatus.num_sources--;
423	goto delegate;
424
425	case kSoundComponentStopSourceSelect:
426	D(bug(" StopSource\n"));
427	goto delegate;
428
429	case kSoundComponentPauseSourceSelect:
430	D(bug(" PauseSource\n"));
431	delegate: // Delegate call to Apple Mixer
432	D(bug(" delegating call to Apple Mixer\n"));
433	r.a[0] = AudioStatus.mixer;
434	r.a[1] = params;
435	Execute68k(audio_data + adatDelegateCall, &r);
436	D(bug(" returns %08lx\n", r.d[0]));
437	return r.d[0];
438
439	case kSoundComponentStartSourceSelect:
440	D(bug(" StartSource\n"));
441	return noErr;
442
443	case kSoundComponentGetInfoSelect:
444	return AudioGetInfo(ReadMacInt32(p), ReadMacInt32(p + 4), ReadMacInt32(p + 8));
445
446	case kSoundComponentSetInfoSelect:
447	return AudioSetInfo(ReadMacInt32(p), ReadMacInt32(p + 4), ReadMacInt32(p + 8));
448
449	case kSoundComponentPlaySourceBufferSelect:
450	D(bug(" PlaySourceBuffer\n"));
451	r.d[0] = ReadMacInt32(p);
452	r.a[0] = ReadMacInt32(p + 4);
453	r.a[1] = ReadMacInt32(p + 8);
454	r.a[2] = AudioStatus.mixer;
455	Execute68k(audio_data + adatPlaySourceBuffer, &r);
456	D(bug(" returns %08lx\n", r.d[0]));
457	return r.d[0];
458
459	default:
460	return badComponentSelector;
461	}
462	}