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gecko/media/libsydneyaudio/sydney_os2_moz.patch

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diff --git a/media/libsydneyaudio/src/sydney_audio_os2.c b/media/libsydneyaudio/src/sydney_audio_os2.c
--- a/media/libsydneyaudio/src/sydney_audio_os2.c
+++ b/media/libsydneyaudio/src/sydney_audio_os2.c
@@ -44,64 +44,60 @@
* interrupt that stream, the sound device may run out of data. While
* it should simply pause until more data is available, on some machines
* a buffer underrun causes the device to stop responding and to ignore
* new data until an MCI_STOP or MCI_PAUSE command is issued.
*
* The solution used here is to track the number of buffers in use and
* to pause the device when the count falls below a threshold. Writing
* a new buffer to the device causes playback to resume automatically.
- * To support this scheme, the code uses 2 event semaphores to pass
- * buffer counts between its two threads (the app's decode thread and
- * DART's event thread). It also has the event thread do as little as
- * possible to ensure it's not busy when a buffer-free event occurs.
+ * To support this scheme, the code uses atomic operations on 2 counters
+ * to pass buffer counts between its two threads (the app's decode thread
+ * and DART's event thread). It also has the event thread do as little
+ * as possible to ensure it's not busy when a buffer-free event occurs.
*
*/
/*****************************************************************************/
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <stdarg.h>
#include "sydney_audio.h"
#define INCL_DOS
#define INCL_MCIOS2
#include <os2.h>
#include <os2me.h>
+#include <386/builtin.h>
/*****************************************************************************/
/* this will have to be changed to a variable
* if other than 16-bit samples are ever supported */
#define SAOS2_SAMPLE_SIZE 2
-/* the number of buffers to allocate - the ogg decoder typically
- * writes 8k at a time, so this works out to roughly 1/2 second */
-#define SAOS2_BUF_CNT 11
-
-/* this could be as large as 65535 but making it smaller helps
- * avoid having the DART event thread think it's running out of
- * buffers if the decoder sends larger chunks of data less often */
-#define SAOS2_RAW_BUFSIZE 16384
+/* the number of buffers to allocate; each buffer requires
+ * 64kb of linear address space in the low-mem private arena;
+ * actual physical memory used depends on each buffer's size */
+#define SAOS2_BUF_CNT 40
-/* playback states */
-#define SAOS2_INIT 0
-#define SAOS2_RECOVER 1
-#define SAOS2_PLAY 2
-#define SAOS2_EXIT 3
+/* the minimum number of milliseconds worth of data required before
+ * a buffer is written to the device - the actual number of ms per
+ * write will usually be greater; the size of each buffer is based
+ * on this figure and the stream's rate & number of channels */
+#define SAOS2_MS_PER_WRITE 40
-/* an indefinite wait invites a hung thread */
-#define SAOS2_SEM_WAIT 5000
+/* if the number of buffers in use is less than this value,
+ * os2_mixer_event() will pause the device to prevent an underrun */
+#define SAOS2_UNDERRUN_CNT 2
-/* the only 2 return codes we care about */
-#ifndef INCL_DOSERRORS
-#define ERROR_ALREADY_POSTED 299
-#define ERROR_ALREADY_RESET 300
-#endif
+/* wait 5 seconds for a buffer to become free -
+ * an indefinite wait invites a hung thread */
+#define SAOS2_WAIT 5000
/*****************************************************************************/
/* Debug */
#ifdef DEBUG
#ifndef SAOS2_ERROR
#define SAOS2_ERROR
#endif
@@ -120,52 +116,64 @@
struct sa_stream {
/* audio format info */
const char * client_name;
sa_mode_t mode;
sa_pcm_format_t format;
uint32_t rate;
uint32_t nchannels;
+ uint32_t bps;
/* device info */
uint16_t hwDeviceID;
uint32_t hwMixHandle;
PMIXERPROC hwWriteProc;
/* buffer allocations */
int32_t bufCnt;
size_t bufSize;
+ size_t bufMin;
PMCI_MIX_BUFFER bufList;
/* buffer usage tracking */
- HEV freeSem;
+ volatile uint32_t freeNew;
int32_t freeCnt;
int32_t freeNdx;
- int32_t readyCnt;
- int32_t readyNdx;
- HEV usedSem;
- volatile int32_t usedCnt;
+ volatile uint32_t usedNew;
+ int32_t usedCnt;
+ int32_t usedMin;
/* miscellaneous */
- volatile int32_t state;
+ volatile uint32_t playing;
+ volatile uint32_t writeTime;
+ volatile uint32_t writeNew;
int64_t writePos;
};
/*****************************************************************************/
/* Private (static) Functions */
static int32_t os2_mixer_event(uint32_t ulStatus, PMCI_MIX_BUFFER pBuffer,
uint32_t ulFlags);
-static int os2_write_to_device(sa_stream_t *s);
static void os2_stop_device(uint16_t hwDeviceID);
static int os2_pause_device(uint16_t hwDeviceID, uint32_t release);
static int os2_get_free_count(sa_stream_t *s, int32_t count);
/*****************************************************************************/
+/* Mozilla-specific Additions */
+
+/* load mdm.dll on demand */
+static int os2_load_mdm(void);
+
+/* invoke mciSendCommand() via a static variable */
+typedef ULONG _System MCISENDCOMMAND(USHORT, USHORT, ULONG, PVOID, USHORT);
+static MCISENDCOMMAND * _mciSendCommand = 0;
+
+/*****************************************************************************/
/* Sydney Audio Functions */
/*****************************************************************************/
/** Normal way to open a PCM device */
int sa_stream_create_pcm(sa_stream_t ** s,
const char * client_name,
sa_mode_t mode,
@@ -176,16 +184,20 @@ int sa_stream_create_pcm(sa_stream_t
uint32_t status = SA_SUCCESS;
uint32_t size;
uint32_t rc;
sa_stream_t * sTemp = 0;
/* this do{}while(0) "loop" makes it easy to ensure
* resources are freed on exit if there's an error */
do {
+ /* load mdm.dll if it isn't already loaded */
+ if (os2_load_mdm() != SA_SUCCESS)
+ return SA_ERROR_SYSTEM;
+
if (mode != SA_MODE_WRONLY || format != SA_PCM_FORMAT_S16_LE)
return os2_error(SA_ERROR_NOT_SUPPORTED, "sa_stream_create_pcm",
"invalid mode or format", 0);
if (!s)
return os2_error(SA_ERROR_INVALID, "sa_stream_create_pcm",
"s is null", 0);
*s = 0;
@@ -199,49 +211,45 @@ do {
status = os2_error(SA_ERROR_OOM, "sa_stream_create_pcm",
"DosAllocMem - rc=", rc);
break;
}
memset(sTemp, 0, size);
sTemp->bufList = (PMCI_MIX_BUFFER)&sTemp[1];
- /* set the number of buffers; round the buffer
- * size down to the nearest multiple of a frame; */
- sTemp->bufCnt = SAOS2_BUF_CNT;
- sTemp->bufSize = SAOS2_RAW_BUFSIZE -
- (SAOS2_RAW_BUFSIZE % (SAOS2_SAMPLE_SIZE * nchannels));
-
- /* create event semaphores to signal free buffers */
- rc = DosCreateEventSem(0, &sTemp->freeSem, 0, FALSE);
- if (!rc)
- rc = DosCreateEventSem(0, &sTemp->usedSem, 0, FALSE);
- if (rc) {
- status = os2_error(SA_ERROR_SYSTEM, "sa_stream_create_pcm",
- "DosCreateEventSem - rc=", rc);
- break;
- }
-
/* fill in the miscellanea */
sTemp->client_name = client_name;
sTemp->mode = mode;
sTemp->format = format;
sTemp->rate = rate;
sTemp->nchannels = nchannels;
+ sTemp->bps = rate * nchannels * SAOS2_SAMPLE_SIZE;
+
+ /* each buffer requires 64k of linear address space;
+ * the actual physical memory used is much less */
+ sTemp->bufCnt = SAOS2_BUF_CNT;
+
+ /* a buffer must contain at least 'bufmin' bytes before it's written
+ * to the device - this equates to SAOS2_MS_PER_WRITE worth of data */
+ sTemp->bufMin = (sTemp->bps * SAOS2_MS_PER_WRITE) / 1000;
+
+ /* 'bufSize' is 150% of 'bufmin' rounded up to the nearest page
+ * boundary, then rounded down to a multiple of the frame size;
+ * this ensures that all data delivered to sa_stream_write() will
+ * fit in a single buffer & that all committed memory can be used */
+ sTemp->bufSize = (((3 * sTemp->bufMin) / 2) + 0xfff) & ~0xfff;
+ sTemp->bufSize -= sTemp->bufSize % (SAOS2_SAMPLE_SIZE * nchannels);
*s = sTemp;
} while (0);
/* on error, free any allocations */
if (status != SA_SUCCESS && sTemp) {
- if (sTemp->freeSem)
- DosCloseEventSem(sTemp->freeSem);
- if (sTemp->usedSem)
- DosCloseEventSem(sTemp->usedSem);
if (sTemp)
DosFreeMem(sTemp);
}
return status;
}
/*****************************************************************************/
@@ -265,17 +273,17 @@ do {
/* s->bufCnt will be restored after successfully allocating buffers */
bufCntRequested = s->bufCnt;
s->bufCnt = 0;
/* open the Amp-Mixer using the default device in shared mode */
memset(&AmpOpenParms, 0, sizeof(MCI_AMP_OPEN_PARMS));
AmpOpenParms.pszDeviceType = (PSZ)(MCI_DEVTYPE_AUDIO_AMPMIX | 0);
- rc = mciSendCommand(0, MCI_OPEN,
+ rc = _mciSendCommand(0, MCI_OPEN,
MCI_WAIT | MCI_OPEN_TYPE_ID | MCI_OPEN_SHAREABLE,
(void*)&AmpOpenParms, 0);
if (LOUSHORT(rc)) {
status = os2_error(SA_ERROR_NO_DEVICE, "sa_stream_open",
"MCI_OPEN - rc=", LOUSHORT(rc));
break;
}
@@ -287,17 +295,17 @@ do {
MixSetupParms.ulBitsPerSample = 16;
MixSetupParms.ulFormatTag = MCI_WAVE_FORMAT_PCM;
MixSetupParms.ulFormatMode = MCI_PLAY;
MixSetupParms.ulSamplesPerSec = s->rate;
MixSetupParms.ulChannels = s->nchannels;
MixSetupParms.ulDeviceType = MCI_DEVTYPE_WAVEFORM_AUDIO;
MixSetupParms.pmixEvent = (MIXEREVENT*)os2_mixer_event;
- rc = mciSendCommand(s->hwDeviceID, MCI_MIXSETUP,
+ rc = _mciSendCommand(s->hwDeviceID, MCI_MIXSETUP,
MCI_WAIT | MCI_MIXSETUP_INIT,
(void*)&MixSetupParms, 0);
if (LOUSHORT(rc)) {
status = os2_error(SA_ERROR_NOT_SUPPORTED, "sa_stream_open",
"MCI_MIXSETUP - rc=", LOUSHORT(rc));
break;
}
@@ -306,31 +314,32 @@ do {
s->hwWriteProc = MixSetupParms.pmixWrite;
/* allocate device buffers from the Amp-Mixer */
BufferParms.ulStructLength = sizeof(MCI_BUFFER_PARMS);
BufferParms.ulNumBuffers = bufCntRequested;
BufferParms.ulBufferSize = s->bufSize;
BufferParms.pBufList = s->bufList;
- rc = mciSendCommand(s->hwDeviceID, MCI_BUFFER,
+ rc = _mciSendCommand(s->hwDeviceID, MCI_BUFFER,
MCI_WAIT | MCI_ALLOCATE_MEMORY,
(void*)&BufferParms, 0);
if (LOUSHORT(rc)) {
status = os2_error(SA_ERROR_OOM, "sa_stream_open",
"MCI_ALLOCATE_MEMORY - rc=", LOUSHORT(rc));
break;
}
/* MCI_ALLOCATE_MEMORY may have decreased the,
* number of buffers, so update the counts */
s->bufCnt = BufferParms.ulNumBuffers;
s->freeCnt = BufferParms.ulNumBuffers;
/* sa_stream_write() & os2_mixer_event() require these initializations */
+ s->usedMin = SAOS2_UNDERRUN_CNT;
for (ctr = 0; ctr < s->bufCnt; ctr++) {
s->bufList[ctr].ulStructLength = sizeof(MCI_MIX_BUFFER);
s->bufList[ctr].ulBufferLength = 0;
s->bufList[ctr].ulUserParm = (uint32_t)s;
}
} while (0);
@@ -350,50 +359,57 @@ int sa_stream_destroy(sa_stream_t *s
if (!s)
return os2_error(SA_ERROR_NO_INIT, "sa_stream_destroy", "s is null", 0);
/* if the device was opened, close it */
if (s->hwDeviceID) {
/* prevent os2_mixer_event() from reacting to a buffer under-run */
- s->state = SAOS2_EXIT;
+ s->bufMin = 0;
+ s->playing = FALSE;
+
+ /* If another instance has already acquired the device the
+ * MCI commands below will fail, so re-acquire it temporarily.
+ * MCI_CLOSE will release the device to the previous owner. */
+ rc = _mciSendCommand(s->hwDeviceID, MCI_ACQUIREDEVICE,
+ MCI_WAIT,
+ (void*)&GenericParms, 0);
+ if (LOUSHORT(rc))
+ os2_error(0, "sa_stream_destroy",
+ "MCI_ACQUIREDEVICE - rc=", LOUSHORT(rc));
/* stop the device (which may not actually be playing) */
os2_stop_device(s->hwDeviceID);
/* if hardware buffers were allocated, free them */
if (s->bufCnt) {
BufferParms.hwndCallback = 0;
BufferParms.ulStructLength = sizeof(MCI_BUFFER_PARMS);
BufferParms.ulNumBuffers = s->bufCnt;
BufferParms.ulBufferSize = s->bufSize;
BufferParms.pBufList = s->bufList;
- rc = mciSendCommand(s->hwDeviceID, MCI_BUFFER,
+ rc = _mciSendCommand(s->hwDeviceID, MCI_BUFFER,
MCI_WAIT | MCI_DEALLOCATE_MEMORY,
(void*)&BufferParms, 0);
if (LOUSHORT(rc))
status = os2_error(SA_ERROR_SYSTEM, "sa_stream_destroy",
"MCI_DEALLOCATE_MEMORY - rc=", LOUSHORT(rc));
}
- rc = mciSendCommand(s->hwDeviceID, MCI_CLOSE,
+ rc = _mciSendCommand(s->hwDeviceID, MCI_CLOSE,
MCI_WAIT,
(void*)&GenericParms, 0);
if (LOUSHORT(rc))
status = os2_error(SA_ERROR_SYSTEM, "sa_stream_destroy",
"MCI_CLOSE - rc=", LOUSHORT(rc));
}
/* free other resources we allocated */
- if (s->freeSem)
- DosCloseEventSem(s->freeSem);
- if (s->usedSem)
- DosCloseEventSem(s->usedSem);
DosFreeMem(s);
return status;
}
/*****************************************************************************/
/** Interleaved playback function */
@@ -411,61 +427,95 @@ int sa_stream_write(sa_stream_t * s,
/* exit if no data */
if (!nbytes)
return SA_SUCCESS;
/* This should only loop on the last write before sa_stream_drain()
* is called; at other times, 'nbytes' won't exceed 'bufSize'. */
while (nbytes) {
+ size_t offs;
+ size_t left;
/* get the count of free buffers, wait until at least one
* is available (in practice, this should never block) */
if (os2_get_free_count(s, 1))
return SA_ERROR_SYSTEM;
/* copy as much as will fit into the buffer */
pHW = &(s->bufList[s->freeNdx]);
- cnt = (nbytes > s->bufSize) ? s->bufSize : nbytes;
- memcpy(pHW->pBuffer, (char*)data, cnt);
- pHW->ulBufferLength = cnt;
+
+ offs = pHW->ulBufferLength;
+ left = s->bufSize - offs;
+ cnt = (nbytes > left) ? left : nbytes;
+ memcpy(&((char*)pHW->pBuffer)[offs], (char*)data, cnt);
+
+ pHW->ulBufferLength += cnt;
nbytes -= cnt;
data = (char*)data + cnt;
- /* adjust cnts & indices, then send the buffer to the device */
+ /* don't dispatch the buffer until it has bufMin bytes */
+ if (pHW->ulBufferLength < s->bufMin)
+ continue;
+
+ /* write the buffer to the device */
+ rc = s->hwWriteProc(s->hwMixHandle, pHW, 1);
+ if (LOUSHORT(rc)) {
+ pHW->ulBufferLength = 0;
+ return os2_error(SA_ERROR_SYSTEM, "sa_stream_write",
+ "mixWrite - rc=", LOUSHORT(rc));
+ }
+
+ /* signal the event thread that a new buffer is now in use */
+ __atomic_increment(&s->usedNew);
+ s->playing = TRUE;
+
s->freeCnt--;
s->freeNdx = (s->freeNdx + 1) % s->bufCnt;
- s->readyCnt++;
- if (os2_write_to_device(s))
- return SA_ERROR_SYSTEM;
}
return SA_SUCCESS;
}
/*****************************************************************************/
/** sync/timing */
int sa_stream_get_position(sa_stream_t *s, sa_position_t position, int64_t *pos)
{
uint32_t rc;
+ uint32_t then;
+ uint32_t now;
if (!s || !pos)
return os2_error(SA_ERROR_NO_INIT, "sa_stream_get_position",
"s or pos is null", 0);
if (position != SA_POSITION_WRITE_SOFTWARE)
return os2_error(SA_ERROR_NOT_SUPPORTED, "sa_stream_get_position",
"unsupported postion type=", position);
- /* this is the nbr of bytes that are known to have been played
- * already; the MCI command to get stream position isn't usable -
- * it returns a time value that resets when the stream is paused */
- *pos = s->writePos;
+ /* Return the count of bytes that are known to have been played
+ * already plus an adjustment for the number that may have been
+ * played since the last mixer event. Since both 'writePos' and
+ * 'writeTime' are volatile, the loop ensures both are in sync.
+ * Note: the MCI command to get stream position isn't usable -
+ * it returns a time value that resets when the stream is paused. */
+
+ do {
+ then = s->writeTime;
+ s->writePos += __atomic_xchg(&s->writeNew, 0);
+ *pos = s->writePos;
+
+ /* adjust if device is playing & there's been at least one write */
+ if (s->playing && s->writePos) {
+ DosQuerySysInfo(QSV_MS_COUNT, QSV_MS_COUNT, &now, sizeof(now));
+ *pos += ((now - then) * s->bps) / 1000;
+ }
+ } while (then != s->writeTime);
return SA_SUCCESS;
}
/*****************************************************************************/
/** Resume playing after a pause */
@@ -473,75 +523,86 @@ int sa_stream_resume(sa_stream_t *s)
{
uint32_t rc;
MCI_GENERIC_PARMS GenericParms = { 0 };
if (!s)
return os2_error(SA_ERROR_NO_INIT, "sa_stream_resume",
"s is null", 0);
- rc = mciSendCommand(s->hwDeviceID, MCI_ACQUIREDEVICE,
+ rc = _mciSendCommand(s->hwDeviceID, MCI_ACQUIREDEVICE,
MCI_WAIT,
(void*)&GenericParms, 0);
if (LOUSHORT(rc))
return os2_error(SA_ERROR_SYSTEM, "sa_stream_resume",
"MCI_ACQUIREDEVICE - rc=", LOUSHORT(rc));
- rc = mciSendCommand(s->hwDeviceID, MCI_RESUME,
+ /* this may produce a spurious error if the device
+ * was just acquired, so report it but ignore it */
+ rc = _mciSendCommand(s->hwDeviceID, MCI_RESUME,
MCI_WAIT,
(void*)&GenericParms, 0);
if (LOUSHORT(rc))
- return os2_error(SA_ERROR_SYSTEM, "sa_stream_resume",
- "MCI_RESUME - rc=", LOUSHORT(rc));
+ os2_error(SA_ERROR_SYSTEM, "sa_stream_resume",
+ "MCI_RESUME - rc=", LOUSHORT(rc));
+
+ /* reset the last write time so get_position() doesn't over-adjust */
+ DosQuerySysInfo(QSV_MS_COUNT, QSV_MS_COUNT,
+ (void*)&s->writeTime, sizeof(s->writeTime));
+ s->playing = TRUE;
return SA_SUCCESS;
}
/*****************************************************************************/
/** Pause audio playback (do not empty the buffer) */
int sa_stream_pause(sa_stream_t *s)
{
if (!s)
return os2_error(SA_ERROR_NO_INIT, "sa_stream_pause", "s is null", 0);
/* pause & release device */
+ s->playing = FALSE;
return os2_pause_device(s->hwDeviceID, TRUE);
}
/*****************************************************************************/
/** Block until all audio has been played */
int sa_stream_drain(sa_stream_t *s)
{
int status = SA_SUCCESS;
char buf[32];
if (!s)
return os2_error(SA_ERROR_NO_INIT, "sa_stream_drain", "s is null", 0);
/* keep os2_mixer_event() from reacting to buffer under-runs */
- s->state = SAOS2_EXIT;
+ s->usedMin = 0;
+
+ /* perform the smallest possible write to force any
+ * partially-filled buffer to be written to the device */
+ memset(buf, 0, sizeof(buf));
+ s->bufMin = 0;
+ sa_stream_write(s, buf, s->nchannels * SAOS2_SAMPLE_SIZE);
/* DART won't start playing until 2 buffers have been written,
- * so write a dummy 2nd buffer if any buffers are in use */
- if (s->freeCnt < SAOS2_BUF_CNT) {
- memset(buf, 0, sizeof(buf));
+ * so write a dummy 2nd buffer if writePos is still zero */
+ if (!s->writePos)
+ s->writePos += __atomic_xchg(&s->writeNew, 0);
+ if (!s->writePos)
sa_stream_write(s, buf, s->nchannels * SAOS2_SAMPLE_SIZE);
- }
-
- /* write all remaining buffers to the device */
- if (s->readyCnt)
- status = os2_write_to_device(s);
/* wait for all buffers to become free */
if (!status)
status = os2_get_free_count(s, s->bufCnt);
+ s->playing = FALSE;
/* stop the device so it doesn't misbehave due to an under-run */
os2_stop_device(s->hwDeviceID);
return status;
}
/*****************************************************************************/
@@ -556,19 +617,17 @@ int sa_stream_get_write_size(sa_stre
/* return a non-zero value here in case the upstream code ignores
* the return code - if so, sa_stream_write() will fail instead */
if (os2_get_free_count(s, 0)) {
*size = s->bufSize;
return SA_ERROR_SYSTEM;
}
- /* limiting each write to a single buffer
- * produces smoother results in some cases */
- *size = s->freeCnt ? s->bufSize : 0;
+ *size = s->freeCnt * s->bufSize;
return SA_SUCCESS;
}
/*****************************************************************************/
/** set absolute volume using a value ranging from 0.0 to 1.0 */
@@ -581,17 +640,17 @@ int sa_stream_set_volume_abs(sa_stre
return os2_error(SA_ERROR_NO_INIT, "sa_stream_set_volume_abs",
"s is null", 0);
/* convert f.p. value to an integer value ranging
* from 0 to 100 and apply to both channels */
SetParms.ulLevel = (vol * 100);
SetParms.ulAudio = MCI_SET_AUDIO_ALL;
- rc = mciSendCommand(s->hwDeviceID, MCI_SET,
+ rc = _mciSendCommand(s->hwDeviceID, MCI_SET,
MCI_WAIT | MCI_SET_AUDIO | MCI_SET_VOLUME,
(void*)&SetParms, 0);
if (LOUSHORT(rc))
return os2_error(SA_ERROR_SYSTEM, "sa_stream_set_volume_abs",
"MCI_SET_VOLUME - rc=", LOUSHORT(rc));
return SA_SUCCESS;
}
@@ -608,17 +667,17 @@ int sa_stream_get_volume_abs(sa_stre
if (!s || !vol)
return os2_error(SA_ERROR_NO_INIT, "sa_stream_get_volume_abs",
"s or vol is null", 0);
memset(&StatusParms, 0, sizeof(MCI_STATUS_PARMS));
StatusParms.ulItem = MCI_STATUS_VOLUME;
- rc = mciSendCommand(s->hwDeviceID, MCI_STATUS,
+ rc = _mciSendCommand(s->hwDeviceID, MCI_STATUS,
MCI_WAIT | MCI_STATUS_ITEM,
(void*)&StatusParms, 0);
if (LOUSHORT(rc)) {
/* if there's an error, return a reasonable value */
StatusParms.ulReturn = (50 | 50 << 16);
status = os2_error(SA_ERROR_SYSTEM, "sa_stream_get_volume_abs",
"MCI_STATUS_VOLUME - rc=", LOUSHORT(rc));
}
@@ -638,118 +697,70 @@ int sa_stream_get_volume_abs(sa_stre
/*****************************************************************************/
/** signal the decode thread that a buffer is available -
** this runs on a separate high-priority thread created by DART */
static int32_t os2_mixer_event(uint32_t ulStatus, PMCI_MIX_BUFFER pBuffer,
uint32_t ulFlags)
{
- uint32_t rc;
- int32_t posted;
sa_stream_t * s;
/* check for errors */
if (ulFlags & MIX_STREAM_ERROR)
- rc = os2_error(0, "os2_mixer_event", "MIX_STREAM_ERROR - status=", ulStatus);
+ os2_error(0, "os2_mixer_event", "MIX_STREAM_ERROR - status=", ulStatus);
if (!(ulFlags & MIX_WRITE_COMPLETE))
return os2_error(TRUE, "os2_mixer_event",
"unexpected event - flag=", ulFlags);
if (!pBuffer || !pBuffer->ulUserParm)
return os2_error(TRUE, "os2_mixer_event", "null pointer", 0);
/* Note: this thread doesn't use a mutex to avoid a deadlock with the one
* DART uses to prevent MCI operations while this function is running */
s = (sa_stream_t *)pBuffer->ulUserParm;
/* update the number of buffers that are now in use */
- rc = DosResetEventSem(s->usedSem, (unsigned long*)&posted);
- if (rc && rc != ERROR_ALREADY_RESET) {
- posted = 0;
- rc = os2_error(rc, "os2_mixer_event", "DosResetEventSem - rc=", rc);
- }
- s->usedCnt += posted - 1;
+ s->usedCnt += __atomic_xchg(&s->usedNew, 0);
+ s->usedCnt--;
/* if fewer than 2 buffers are in use, enter recovery mode -
* if we wait until they're all free, it's often too late; */
- if (s->usedCnt < 2 && s->state == SAOS2_PLAY) {
- s->state = SAOS2_RECOVER;
+ if (s->usedCnt < s->usedMin) {
+ s->playing = FALSE;
os2_pause_device(s->hwDeviceID, FALSE);
- rc = os2_error(rc, "os2_mixer_event",
- "too few buffers in use - recovering", 0);
+ os2_error(0, "os2_mixer_event",
+ "too few buffers in use - recovering", 0);
}
- /* setting the write position after the buffer has been played yields
- * far more accurate timing than setting it in sa_stream_write() */
- s->writePos = s->writePos + (int64_t)pBuffer->ulBufferLength;
+ /* pass the number of newly played bytes to the other thread;
+ * get the time so the other thread can estimate how many
+ * additional bytes have been consumed since this event */
+ __atomic_add(&s->writeNew, pBuffer->ulBufferLength);
pBuffer->ulBufferLength = 0;
+ DosQuerySysInfo(QSV_MS_COUNT, QSV_MS_COUNT,
+ (void*)&s->writeTime, sizeof(s->writeTime));
/* signal the decode thread that a buffer is available */
- rc = DosPostEventSem(s->freeSem);
- if (rc && rc != ERROR_ALREADY_POSTED)
- rc = os2_error(rc, "os2_mixer_event", "DosPostEventSem - rc=", rc);
+ __atomic_increment(&s->freeNew);
return TRUE;
}
/*****************************************************************************/
-/** write as many buffers as available to the device */
-
-static int os2_write_to_device(sa_stream_t *s)
-{
- uint32_t rc;
- int32_t cnt;
- int32_t ctr;
-
- /* this executes twice if bufList wraps, otherwise just once */
- while (s->readyCnt) {
-
- /* deal with wrap */
- cnt = (s->readyNdx + s->readyCnt > s->bufCnt) ?
- (s->bufCnt - s->readyNdx) : s->readyCnt;
-
- /* if the write fails, abort */
- rc = s->hwWriteProc(s->hwMixHandle, &(s->bufList[s->readyNdx]), cnt);
- if (LOUSHORT(rc))
- return os2_error(SA_ERROR_SYSTEM, "os2_write_to_device",
- "mixWrite - rc=", LOUSHORT(rc));
-
- /* signal the event thread that 'cnt' buffers are now in use */
- for (ctr = 0; ctr < cnt; ctr++) {
- rc = DosPostEventSem(s->usedSem);
- if (rc && rc != ERROR_ALREADY_POSTED)
- return os2_error(SA_ERROR_SYSTEM, "os2_write_to_device",
- "DosPostEventSem - rc=", rc);
- }
-
- /* advance to the next entry */
- s->readyNdx = (s->readyNdx + cnt) % s->bufCnt;
- s->readyCnt -= cnt;
- }
-
- /* if state is INIT or RECOVER, change to PLAY */
- if (s->state < SAOS2_PLAY)
- s->state = SAOS2_PLAY;
-
- return SA_SUCCESS;
-}
-
-/*****************************************************************************/
-
/** stop playback */
static void os2_stop_device(uint16_t hwDeviceID)
{
uint32_t rc;
MCI_GENERIC_PARMS GenericParms = { 0 };
- rc = mciSendCommand(hwDeviceID, MCI_STOP,
+ rc = _mciSendCommand(hwDeviceID, MCI_STOP,
MCI_WAIT,
(void*)&GenericParms, 0);
if (LOUSHORT(rc))
os2_error(0, "os2_stop_device", "MCI_STOP - rc=", LOUSHORT(rc));
return;
}
@@ -757,54 +768,56 @@ static void os2_stop_device(uint16_t hwD
/** pause playback and optionally release device */
static int os2_pause_device(uint16_t hwDeviceID, uint32_t release)
{
uint32_t rc;
MCI_GENERIC_PARMS GenericParms = { 0 };
- rc = mciSendCommand(hwDeviceID, MCI_PAUSE,
+ rc = _mciSendCommand(hwDeviceID, MCI_PAUSE,
MCI_WAIT,
(void*)&GenericParms, 0);
if (LOUSHORT(rc))
return os2_error(SA_ERROR_SYSTEM, "os2_pause_device",
"MCI_PAUSE - rc=", LOUSHORT(rc));
if (release)
- mciSendCommand(hwDeviceID, MCI_RELEASEDEVICE,
+ _mciSendCommand(hwDeviceID, MCI_RELEASEDEVICE,
MCI_WAIT,
(void*)&GenericParms, 0);
return SA_SUCCESS;
}
/*****************************************************************************/
/** update the count of free buffers, returning when 'count' are available */
static int os2_get_free_count(sa_stream_t *s, int32_t count)
{
- uint32_t rc;
- int32_t posted;
+ uint32_t timeout = 0;
while (1) {
- rc = DosResetEventSem(s->freeSem, (unsigned long*)&posted);
- if (rc && rc != ERROR_ALREADY_RESET)
- return os2_error(SA_ERROR_SYSTEM, "os2_get_free_count",
- "DosResetEventSem - rc=", rc);
+ uint32_t now;
- s->freeCnt += posted;
+ s->freeCnt += __atomic_xchg(&s->freeNew, 0);
if (s->freeCnt >= count)
break;
- rc = DosWaitEventSem(s->freeSem, SAOS2_SEM_WAIT);
- if (rc)
+ /* get the current time in milliseconds */
+ DosQuerySysInfo(QSV_MS_COUNT, QSV_MS_COUNT, &now, sizeof(now));
+ if (!timeout)
+ timeout = now + SAOS2_WAIT;
+
+ if (now > timeout)
return os2_error(SA_ERROR_SYSTEM, "os2_get_free_count",
- "DosWaitEventSem - rc=", rc);
+ "timed-out waiting for free buffer(s)", 0);
+
+ DosSleep(1);
}
return SA_SUCCESS;
}
/*****************************************************************************/
#ifdef SAOS2_ERROR
@@ -820,16 +833,47 @@ static int os2_error_msg(int rtn, char
fflush(stderr);
return rtn;
}
#endif
/*****************************************************************************/
+/* Mozilla-specific Function */
+/*****************************************************************************/
+
+/** load mdm.dll & get the entrypoint for mciSendCommand() */
+
+static int os2_load_mdm(void)
+{
+ uint32_t rc;
+ HMODULE hmod;
+ char text[32];
+
+ if (_mciSendCommand)
+ return SA_SUCCESS;
+
+ rc = DosLoadModule(text, sizeof(text), "MDM", &hmod);
+ if (rc)
+ return os2_error(SA_ERROR_SYSTEM, "os2_load_mdm",
+ "DosLoadModule - rc=", rc);
+
+ /* the ordinal for mciSendCommand is '1' */
+ rc = DosQueryProcAddr(hmod, 1, 0, (PFN*)&_mciSendCommand);
+ if (rc) {
+ _mciSendCommand = 0;
+ return os2_error(SA_ERROR_SYSTEM, "os2_load_mdm",
+ "DosQueryProcAddr - rc=", rc);
+ }
+
+ return SA_SUCCESS;
+}
+
+/*****************************************************************************/
/* Not Implemented / Not Supported */
/*****************************************************************************/
#define UNSUPPORTED(func) func { return SA_ERROR_NOT_SUPPORTED; }
UNSUPPORTED(int sa_stream_create_opaque(sa_stream_t **s, const char *client_name, sa_mode_t mode, const char *codec))
UNSUPPORTED(int sa_stream_set_write_lower_watermark(sa_stream_t *s, size_t size))
UNSUPPORTED(int sa_stream_set_read_lower_watermark(sa_stream_t *s, size_t size))
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