ref: b502a62da2ec6058923db94f87ecc2d29db2fa77
dir: /emu/Nt/audio.c/
#define Unknown win_Unknown
#include <windows.h>
#include <mmsystem.h>
#undef Unknown
#include "dat.h"
#include "fns.h"
#include "error.h"
#define Audio_Mic_Val 0
#define Audio_Linein_Val -1
#define Audio_Speaker_Val 0
#define Audio_Headphone_Val -1
#define Audio_Lineout_Val -1
#define Audio_Pcm_Val WAVE_FORMAT_PCM
#define Audio_Ulaw_Val (WAVE_FORMAT_PCM+1)
#define Audio_Alaw_Val (WAVE_FORMAT_PCM+2)
#define Audio_Max_Queue 8
#define BUFLEN 1000
#define INISOPEN 0x00000002 // the microphone is open
#define OUTISOPEN 0x00000004 // the speaker is open
#define INPUTISGOING 0x00000020 // microphone is being recorded/read
#include "audio.h"
#include "audio-tbls.c"
static int debug = 0;
/* TO DO: sensible expression of double-buffering */
#define Ping 0
#define Pong 1
static HWAVEIN audio_file_in;
static HWAVEOUT audio_file_out;
static long out_buf_count;
typedef struct _awin {
WAVEHDR hdr;
long sz;
char* ptr;
char data[Audio_Max_Buf];
} AWin;
static AWin audio_ping;
static AWin audio_pong;
static long paddle = Ping;
static int ping_is_filling;
static int pong_is_filling;
static long audio_flags = 0;
static int audio_init = 0;
static QLock flag_lock;
static Audio_t av;
static HANDLE outlock;
static HANDLE inlock;
static int audio_open_in(HWAVEIN*, Audio_d*);
static int audio_open_out(HWAVEOUT*, Audio_d*);
static void audio_close_in(void);
static void audio_close_out(void);
static void CALLBACK waveInProc(HWAVEIN, UINT, DWORD, DWORD, DWORD);
static void CALLBACK waveOutProc(HWAVEOUT, UINT, DWORD, DWORD, DWORD);
#define AUDIOIN 0
#define AUDIOOUT 1
/*
* Error routines
*/
static int
audioerror(unsigned int code, int in_out, char *msg)
{
char errorText[MAXERRORLENGTH];
if (code != MMSYSERR_NOERROR) {
switch(in_out) {
case AUDIOIN:
waveInGetErrorText(code, errorText, sizeof(errorText));
//print("ERROR -- %s: %s\n", msg, errorText);
return(-1);
case AUDIOOUT:
waveOutGetErrorText(code, errorText, sizeof(errorText));
//print("ERROR -- %s: %s\n", msg, errorText);
return(-1);
default:
print("%s: Unknown device\n", msg);
}
}
//print("TRACE %s\n", msg);
return 0;
}
void
audio_file_init(void)
{
audio_info_init(&av);
}
void
audio_file_open(Chan *c, int omode)
{
int in_is_open = 0;
switch(omode){
case OREAD:
qlock(&flag_lock);
if(waserror()) {
qunlock(&flag_lock);
nexterror();
}
if(audio_flags & INISOPEN)
error(Einuse);
inlock = CreateMutex(NULL, FALSE, NULL);
if(inlock == NULL)
error(Einuse);
if(!audio_open_in(&audio_file_in, &av.in) ) {
CloseHandle(inlock);
error(Ebadarg);
}
ping_is_filling = 0;
pong_is_filling = 0;
paddle = Ping;
audio_flags |= INISOPEN;
poperror();
qunlock(&flag_lock);
break;
case OWRITE:
qlock(&flag_lock);
if(waserror()){
qunlock(&flag_lock);
nexterror();
}
if(audio_flags & OUTISOPEN)
error(Einuse);
outlock = CreateMutex(NULL, FALSE, NULL);
if(outlock == NULL)
error(Einuse);
if(!audio_open_out(&audio_file_out, &av.out) ) {
CloseHandle(outlock);
error(Ebadarg);
}
out_buf_count = 0;
audio_flags |= OUTISOPEN;
poperror();
qunlock(&flag_lock);
break;
case ORDWR:
qlock(&flag_lock);
if(waserror()){
qunlock(&flag_lock);
if(in_is_open)
audio_close_in();
nexterror();
}
if((audio_flags & INISOPEN) || (audio_flags & OUTISOPEN))
error(Einuse);
if(!audio_open_in(&audio_file_in, &av.in) )
error(Ebadarg);
in_is_open = 1;
if(!audio_open_out(&audio_file_out, &av.out)) {
CloseHandle(outlock);
error(Ebadarg);
}
inlock = CreateMutex(NULL, FALSE, NULL);
if(inlock == NULL)
error(Einuse);
outlock = CreateMutex(NULL, FALSE, NULL);
if(outlock == NULL) {
CloseHandle(inlock);
error(Einuse);
}
audio_flags |= INISOPEN;
audio_flags |= OUTISOPEN;
ping_is_filling = 0;
pong_is_filling = 0;
paddle = Ping;
out_buf_count = 0;
poperror();
qunlock(&flag_lock);
break;
default:
error(Egreg);
}
}
static int
audio_open_in(HWAVEIN* h, Audio_d* d)
{
HWAVEIN th;
WAVEFORMATEX format;
format.wFormatTag = d->enc;
format.nChannels = d->chan;
format.nSamplesPerSec = d->rate;
format.wBitsPerSample = d->bits;
format.nBlockAlign = (d->chan * d->bits) / Bits_Per_Byte;
format.nAvgBytesPerSec =
format.nSamplesPerSec * format.nBlockAlign;
format.cbSize = 0;
if (audioerror(
waveInOpen(&th, WAVE_MAPPER, &format, (DWORD)waveInProc, 0, CALLBACK_FUNCTION),
AUDIOIN,
"cannot open microphone/line-in") == 0) {
*h = th;
return 1;
}
return 0;
}
static int
audio_open_out(HWAVEOUT* h, Audio_d* d)
{
unsigned int code;
HWAVEOUT th;
WAVEFORMATEX format;
format.wFormatTag = d->enc;
format.nChannels = d->chan;
format.nSamplesPerSec = d->rate;
format.wBitsPerSample = d->bits;
format.nBlockAlign = (d->chan * d->bits) / Bits_Per_Byte;
format.nAvgBytesPerSec =
format.nSamplesPerSec * format.nBlockAlign;
format.cbSize = 0;
code = waveOutOpen(&th, WAVE_MAPPER, &format, (DWORD)waveOutProc, 0, CALLBACK_FUNCTION);
if (audioerror(code, AUDIOOUT, "cannot open speaker/line-out") == 0) {
out_buf_count = 0;
*h = th;
return 1;
}
return 0;
}
void
audio_file_close(Chan *c)
{
switch(c->mode){
case OREAD:
qlock(&flag_lock);
audio_close_in();
audio_flags &= ~(INISOPEN|INPUTISGOING);
CloseHandle(inlock);
qunlock(&flag_lock);
break;
case OWRITE:
qlock(&flag_lock);
audio_close_out();
audio_flags &= ~OUTISOPEN;
CloseHandle(outlock);
qunlock(&flag_lock);
break;
case ORDWR:
qlock(&flag_lock);
audio_close_in();
audio_close_out();
audio_flags &= ~(INISOPEN|INPUTISGOING|OUTISOPEN);
CloseHandle(outlock);
CloseHandle(inlock);
qunlock(&flag_lock);
break;
}
}
static void
audio_close_in()
{
audioerror(waveInStop(audio_file_in), AUDIOIN, "audio_close_in Stop");
audioerror(waveInReset(audio_file_in), AUDIOIN, "audio_close_in Reset");
audioerror(waveInUnprepareHeader(audio_file_in, &audio_ping.hdr,
sizeof(WAVEHDR)), AUDIOIN, "in un prepare ping header");
audio_ping.sz = 0;
audio_ping.ptr = &audio_ping.data[0];
audioerror(waveInUnprepareHeader(audio_file_in, &audio_pong.hdr,
sizeof(WAVEHDR)), AUDIOIN, "in un prepare pong header");
audio_pong.sz = 0;
audio_pong.ptr = &audio_pong.data[0];
audioerror(waveInClose(audio_file_in), AUDIOIN, "in close");
}
static void
audio_close_out()
{
Again:
WaitForSingleObject(outlock, INFINITE);
while(out_buf_count > 0) {
ReleaseMutex(outlock);
sleep(0);
goto Again;
}
ReleaseMutex(outlock);
audioerror(waveOutReset(audio_file_out), AUDIOOUT, "close wave out reset");
audioerror(waveOutClose(audio_file_out), AUDIOOUT, "closing out device");
}
long
audio_file_read(Chan *c, void *va, long count, vlong offset)
{
MMRESULT status;
long len = av.in.buf * Audio_Max_Buf / Audio_Max_Val;
char *v = (char *) va;
char *p;
long ba, n, chunk, total;
qlock(&flag_lock);
WaitForSingleObject(inlock, INFINITE);
if(waserror()) {
audioerror(waveInStop(audio_file_in), AUDIOIN,
"audio_file_read Stop 1");
audioerror(waveInReset(audio_file_in), AUDIOIN,
"audio_file_read Reset 1");
audioerror(waveInUnprepareHeader(audio_file_in,
&audio_ping.hdr, sizeof(WAVEHDR)), AUDIOIN,
"in unprepare ping");
audioerror(waveInUnprepareHeader(audio_file_in,
&audio_pong.hdr, sizeof(WAVEHDR)),
AUDIOIN, "in unprepare pong");
audio_ping.sz = 0;
audio_ping.ptr = &audio_ping.data[0];
audio_pong.sz = 0;
audio_pong.ptr = &audio_pong.data[0];
ping_is_filling = pong_is_filling = 0;
paddle = Ping;
qunlock(&flag_lock);
ReleaseMutex(inlock);
nexterror();
}
if(!(audio_flags & INISOPEN))
error(Eperm);
/* check for block alignment */
ba = av.in.bits * av.in.chan / Bits_Per_Byte;
if(len < 1 || count % ba)
error(Ebadarg);
if(!(audio_flags & INPUTISGOING)) {
if(audioerror(waveInStart(audio_file_in), AUDIOIN,
"in start") == -1)
error(Eio);
audio_ping.sz = 0;
audio_ping.ptr = &audio_ping.data[0];
audio_ping.hdr.lpData = audio_ping.ptr;
audio_ping.hdr.dwBufferLength = len;
audio_ping.hdr.dwUser = Ping;
audio_ping.hdr.dwFlags = 0;
status = waveInPrepareHeader(audio_file_in, &audio_ping.hdr,
sizeof(WAVEHDR));
if (audioerror(status, AUDIOIN, "in prepare header") == -1)
error(Eio);
audio_pong.sz = 0;
audio_pong.ptr = &audio_pong.data[0];
audio_pong.hdr.lpData = audio_pong.ptr;
audio_pong.hdr.dwBufferLength = len;
audio_pong.hdr.dwUser = Pong;
audio_pong.hdr.dwFlags = 0;
status = waveInPrepareHeader(audio_file_in, &audio_pong.hdr,
sizeof(WAVEHDR));
if (audioerror(status, AUDIOIN, "in prepare header") == -1)
error(Eio);
status = waveInAddBuffer(audio_file_in, &audio_ping.hdr,
sizeof(WAVEHDR));
if (audioerror(status, AUDIOIN, "file_read Add Buffer")== -1){
waveInUnprepareHeader(audio_file_in, &audio_ping.hdr,
sizeof(WAVEHDR));
audio_ping.sz = 0;
audio_ping.ptr = &audio_ping.data[0];
error(Eio);
}
ping_is_filling = 1;
pong_is_filling = 0;
paddle = Ping;
audio_flags |= INPUTISGOING;
}
poperror();
ReleaseMutex(inlock);
total = 0;
Draining:
WaitForSingleObject(inlock, INFINITE);
if(waserror()) {
audioerror(waveInStop(audio_file_in), AUDIOIN,
"audio_file_read Stop 2");
audioerror(waveInReset(audio_file_in), AUDIOIN,
"audio_file_read Reset 2");
audioerror(waveInUnprepareHeader(audio_file_in,
&audio_ping.hdr, sizeof(WAVEHDR)), AUDIOIN,
"in unprepare ping");
audioerror(waveInUnprepareHeader(audio_file_in,
&audio_pong.hdr, sizeof(WAVEHDR)), AUDIOIN,
"in unprepare pong");
audio_ping.sz = 0;
audio_ping.ptr = &audio_ping.data[0];
audio_pong.sz = 0;
audio_pong.ptr = &audio_pong.data[0];
audio_flags &= ~INPUTISGOING;
ReleaseMutex(inlock);
qunlock(&flag_lock);
nexterror();
}
while((total < count) && ((audio_ping.sz > 0) || (audio_pong.sz > 0))) {
n = paddle == Ping ? audio_ping.sz : audio_pong.sz;
p = paddle == Ping ? audio_ping.ptr : audio_pong.ptr;
chunk = min(n, count - total);
memmove(v+total, p , chunk);
total += chunk;
if(paddle == Ping) {
if(!pong_is_filling) {
if(audioerror(waveInAddBuffer(audio_file_in,
&audio_pong.hdr, sizeof(WAVEHDR)), AUDIOIN,
"draining ping calling add buffer pong") == -1)
error(Eio);
pong_is_filling = 1;
}
audio_ping.sz -= chunk;
if(audio_ping.sz > 0) {
audio_ping.ptr += chunk;
} else {
audio_ping.ptr = &audio_ping.data[0];
ping_is_filling = 0;
paddle = Pong;
}
} else {
if(!ping_is_filling) {
if(audioerror(waveInAddBuffer(audio_file_in,
&audio_ping.hdr, sizeof(WAVEHDR)), AUDIOIN,
"draining pong calling add buffer ping") == -1)
error(Eio);
ping_is_filling = 1;
}
audio_pong.sz -= chunk;
if(audio_pong.sz > 0) {
audio_pong.ptr += chunk;
} else {
audio_pong.ptr = &audio_pong.data[0];
pong_is_filling = 0;
paddle = Ping;
}
}
}
poperror();
ReleaseMutex(inlock);
if(total == count) {
qunlock(&flag_lock);
return count;
}
Filling:
WaitForSingleObject(inlock, INFINITE);
while((audio_ping.sz < 1) && (audio_pong.sz < 1)) {
ReleaseMutex(inlock);
sleep(0);
goto Filling;
}
ReleaseMutex(inlock);
goto Draining;
}
long
audio_file_write(Chan *c, void *va, long count, vlong offset)
{
MMRESULT status;
WAVEHDR *hHdr = (WAVEHDR *) NULL;
char *hData = NULL;
char *p = (char *) va;
long ba;
long bufsz;
long chunk;
long total;
qlock(&flag_lock);
if(waserror()){
qunlock(&flag_lock);
nexterror();
}
if(!(audio_flags & OUTISOPEN))
error(Eperm);
/* check for block alignment */
ba = av.out.bits * av.out.chan / Bits_Per_Byte;
if(count % ba)
error(Ebadarg);
bufsz = av.out.buf * Audio_Max_Buf / Audio_Max_Val;
if(bufsz < 1)
error(Ebadarg);
total = 0;
while(total < count) {
Again:
chunk = min(bufsz, count - total);
Drain:
WaitForSingleObject(outlock, INFINITE);
while(out_buf_count > bufsz) {
ReleaseMutex(outlock);
sleep(0);
goto Drain;
}
if(out_buf_count == 0)
audioerror(waveOutReset(audio_file_out), AUDIOOUT, "wave out reset");
ReleaseMutex(outlock);
/*
* allocate and lock the memory for the wave header
* and data blocks
*/
hHdr = (WAVEHDR *) malloc(sizeof(WAVEHDR));
if (!hHdr)
error(Enomem);
hData = malloc(chunk);
if (!hData) {
free(hHdr);
error(Enomem);
}
/*
* initialize the wave header struct
*/
/*
* copy user data into write Q
*/
memmove(hData, p+total, chunk);
hHdr->lpData = hData;
hHdr->dwBufferLength = chunk;
hHdr->dwBytesRecorded = 0;
hHdr->dwUser = chunk;
hHdr->dwFlags = 0;
hHdr->dwLoops = 0;
hHdr->lpNext = 0;
hHdr->reserved = 0;
status = waveOutPrepareHeader(audio_file_out, hHdr, sizeof(WAVEHDR));
if (audioerror(status, AUDIOOUT, "out prepare header") == -1) {
free(hHdr);
free(hData);
error(Eio);
}
status =
waveOutWrite(audio_file_out, hHdr, sizeof(WAVEHDR));
if (audioerror(status, AUDIOOUT, "out write data") == -1) {
waveOutUnprepareHeader(audio_file_out, hHdr, sizeof(WAVEHDR));
free(hHdr);
free(hData);
error(Eio);
}
WaitForSingleObject(outlock, INFINITE);
out_buf_count += chunk;
ReleaseMutex(outlock);
total += chunk;
}
poperror();
qunlock(&flag_lock);
osmillisleep(1); /* hack to get around thread scheduler */
return count;
}
void CALLBACK
waveInProc(HWAVEIN hwi, UINT uMsg, DWORD dwInstance, DWORD dwParam1, DWORD dwParam2)
{
LPWAVEHDR hHdr;
long count;
switch(uMsg) {
case WIM_OPEN:
break;
case WIM_CLOSE:
break;
case WIM_DATA:
hHdr = (LPWAVEHDR)dwParam1;
if(hHdr != NULL) {
count = hHdr->dwBytesRecorded;
if(count > 0) {
WaitForSingleObject(inlock, INFINITE);
if(hHdr->dwUser == Ping)
audio_ping.sz = count;
else
audio_pong.sz = count;
ReleaseMutex(inlock);
}
}
break;
}
return;
}
void CALLBACK
waveOutProc(HWAVEOUT hwo, UINT uMsg, DWORD dwOutstance, DWORD dwParam1, DWORD dwParam2)
{
LPWAVEHDR hHdr;
switch(uMsg) {
case WOM_DONE:
hHdr = (LPWAVEHDR)dwParam1;
if(hHdr != NULL) {
WaitForSingleObject(outlock, INFINITE);
out_buf_count -= hHdr->dwUser;
ReleaseMutex(outlock);
audioerror(
waveOutUnprepareHeader(
audio_file_out, hHdr, sizeof(WAVEHDR)),
AUDIOOUT, "out un prepare header");
if(hHdr->lpData != NULL)
free(hHdr->lpData);
free(hHdr);
}
break;
case WOM_CLOSE:
WaitForSingleObject(outlock, INFINITE);
out_buf_count = 0;
ReleaseMutex(outlock);
break;
case WOM_OPEN:
break;
}
}
long
audio_ctl_write(Chan *c, void *va, long count, vlong offset)
{
WAVEFORMATEX format;
Audio_t tmpav = av;
tmpav.in.flags = 0;
tmpav.out.flags = 0;
if(!audioparse(va, count, &tmpav))
error(Ebadarg);
if((tmpav.in.enc != Audio_Pcm_Val) || (tmpav.out.enc != Audio_Pcm_Val))
error(Ebadarg);
if(tmpav.in.flags & AUDIO_MOD_FLAG) {
format.wFormatTag = tmpav.in.enc;
format.wBitsPerSample = tmpav.in.bits;
format.nChannels = tmpav.in.chan;
format.nSamplesPerSec = tmpav.in.rate;
format.nBlockAlign =
(tmpav.in.chan * tmpav.in.bits) / Bits_Per_Byte;
format.nAvgBytesPerSec =
format.nSamplesPerSec * format.nBlockAlign;
format.cbSize = 0;
if(audioerror(
waveInOpen(NULL, WAVE_MAPPER, &format, 0, 0, WAVE_FORMAT_QUERY),
AUDIOIN, "cannot open microphone/line-in to test parameters") == -1)
error(Ebadarg);
qlock(&flag_lock);
if(waserror()){
qunlock(&flag_lock);
nexterror();
}
if(audio_flags & INISOPEN) {
audio_close_in();
audio_flags &= ~INISOPEN;
audio_flags &= ~INPUTISGOING;
if(!audio_open_in(&audio_file_in, &tmpav.in))
error(Eio);
audio_flags |= INISOPEN;
}
poperror();
qunlock(&flag_lock);
}
if(tmpav.out.flags & AUDIO_MOD_FLAG) {
format.wFormatTag = tmpav.out.enc;
format.wBitsPerSample = tmpav.out.bits;
format.nChannels = tmpav.out.chan;
format.nSamplesPerSec = tmpav.out.rate;
format.nBlockAlign =
(tmpav.out.chan * tmpav.out.bits) / Bits_Per_Byte;
format.nAvgBytesPerSec =
format.nSamplesPerSec * format.nBlockAlign;
format.cbSize = 0;
if (audioerror(waveOutOpen(NULL, WAVE_MAPPER,
&format,
0, 0, WAVE_FORMAT_QUERY),
AUDIOOUT, "cannot open output to test parameters") == -1)
error(Ebadarg);
qlock(&flag_lock);
if(waserror()){
qunlock(&flag_lock);
nexterror();
}
if(audio_flags & OUTISOPEN) {
audio_close_out();
audio_flags &= ~OUTISOPEN;
if(!audio_open_out(&audio_file_out, &tmpav.out)) {
error(Eio);
return -1;
}
audio_flags |= OUTISOPEN;
}
poperror();
qunlock(&flag_lock);
}
tmpav.in.flags = 0;
tmpav.out.flags = 0;
av = tmpav;
return count;
}
Audio_t*
getaudiodev(void)
{
return &av;
}