u32 sceMpegAvcDecode(u32 mpeg, u32 auAddr, u32 frameWidth, u32 bufferAddr, u32 initAddr)
{
MpegContext *ctx = getMpegCtx(mpeg);
if (!ctx) {
WARN_LOG(HLE, "sceMpegAvcDecode(%08x, %08x, %d, %08x, %08x): bad mpeg handle", mpeg, auAddr, frameWidth, bufferAddr, initAddr);
return 0;
}
if (!Memory::IsValidAddress(auAddr) || !Memory::IsValidAddress(bufferAddr) || !Memory::IsValidAddress(initAddr)) {
ERROR_LOG(HLE, "sceMpegAvcDecode: bad addresses");
return 0;
}
if (frameWidth == 0) { // wtf, go sudoku passes in 0xccccccccc
if (!ctx->defaultFrameWidth) {
frameWidth = ctx->avc.avcDetailFrameWidth;
} else {
frameWidth = ctx->defaultFrameWidth;
}
}
SceMpegAu avcAu;
avcAu.read(auAddr);
SceMpegRingBuffer ringbuffer = {0};
if (Memory::IsValidAddress(ctx->mpegRingbufferAddr)) {
Memory::ReadStruct(ctx->mpegRingbufferAddr, &ringbuffer);
} else {
ERROR_LOG(HLE, "Bogus mpegringbufferaddr");
return -1;
}
if (ringbuffer.packetsRead == 0 || ctx->mediaengine->IsVideoEnd()) {
WARN_LOG(HLE, "sceMpegAvcDecode(%08x, %08x, %d, %08x, %08x): mpeg buffer empty", mpeg, auAddr, frameWidth, bufferAddr, initAddr);
return hleDelayResult(MPEG_AVC_DECODE_ERROR_FATAL, "mpeg buffer empty", avcEmptyDelayMs);
}
u32 buffer = Memory::Read_U32(bufferAddr);
u32 init = Memory::Read_U32(initAddr);
DEBUG_LOG(HLE, "*buffer = %08x, *init = %08x", buffer, init);
if (ctx->mediaengine->stepVideo(ctx->videoPixelMode)) {
int bufferSize = ctx->mediaengine->writeVideoImage(Memory::GetPointer(buffer), frameWidth, ctx->videoPixelMode);
gpu->InvalidateCache(buffer, bufferSize, GPU_INVALIDATE_SAFE);
ctx->avc.avcFrameStatus = 1;
ctx->videoFrameCount++;
} else {
ctx->avc.avcFrameStatus = 0;
}
ringbuffer.packetsFree = ctx->mediaengine->getRemainSize() / 2048;
avcAu.pts = ctx->mediaengine->getVideoTimeStamp() + ctx->mpegFirstTimestamp;
// Flush structs back to memory
avcAu.write(auAddr);
Memory::WriteStruct(ctx->mpegRingbufferAddr, &ringbuffer);
// return 0 in first call, and then return 1, as PSPSDK mentioned
Memory::Write_U32(ctx->avc.avcDecodeResult ? 1 : 0, initAddr);
ctx->avc.avcDecodeResult = MPEG_AVC_DECODE_SUCCESS;
DEBUG_LOG(HLE, "sceMpegAvcDecode(%08x, %08x, %i, %08x, %08x)", mpeg, auAddr, frameWidth, bufferAddr, initAddr);
if (ctx->videoFrameCount <= 1)
return hleDelayResult(0, "mpeg decode", avcFirstDelayMs);
else
return hleDelayResult(0, "mpeg decode", avcDecodeDelayMs);
//hleEatMicro(3300);
//return hleDelayResult(0, "mpeg decode", 200);
}
int sceMpegAvcDecodeYCbCr(u32 mpeg, u32 auAddr, u32 bufferAddr, u32 initAddr)
{
MpegContext *ctx = getMpegCtx(mpeg);
if (!ctx) {
WARN_LOG(HLE, "sceMpegAvcDecodeYCbCr(%08x, %08x, %08x, %08x): bad mpeg handle", mpeg, auAddr, bufferAddr, initAddr);
return 0;
}
if (!Memory::IsValidAddress(auAddr) || !Memory::IsValidAddress(bufferAddr) || !Memory::IsValidAddress(initAddr)) {
ERROR_LOG(HLE, "sceMpegAvcDecodeYCbCr: bad addresses");
return 0;
}
SceMpegAu avcAu;
avcAu.read(auAddr);
SceMpegRingBuffer ringbuffer = {0};
if (Memory::IsValidAddress(ctx->mpegRingbufferAddr)) {
Memory::ReadStruct(ctx->mpegRingbufferAddr, &ringbuffer);
} else {
ERROR_LOG(HLE, "Bogus mpegringbufferaddr");
return -1;
}
if (ringbuffer.packetsRead == 0 || ctx->mediaengine->IsVideoEnd()) {
WARN_LOG(HLE, "sceMpegAvcDecodeYCbCr(%08x, %08x, %08x, %08x): mpeg buffer empty", mpeg, auAddr, bufferAddr, initAddr);
return hleDelayResult(MPEG_AVC_DECODE_ERROR_FATAL, "mpeg buffer empty", avcEmptyDelayMs);
}
u32 buffer = Memory::Read_U32(bufferAddr);
u32 init = Memory::Read_U32(initAddr);
DEBUG_LOG(HLE, "*buffer = %08x, *init = %08x", buffer, init);
if (ctx->mediaengine->stepVideo(ctx->videoPixelMode)) {
// Don't draw here, we'll draw in the Csc func.
ctx->avc.avcFrameStatus = 1;
ctx->videoFrameCount++;
}else {
ctx->avc.avcFrameStatus = 0;
}
ringbuffer.packetsFree = ctx->mediaengine->getRemainSize() / 2048;
avcAu.pts = ctx->mediaengine->getVideoTimeStamp() + ctx->mpegFirstTimestamp;
// Flush structs back to memory
avcAu.write(auAddr);
Memory::WriteStruct(ctx->mpegRingbufferAddr, &ringbuffer);
// return 0 in first call, and then return 1, as PSPSDK mentioned
Memory::Write_U32(ctx->avc.avcDecodeResult ? 1 : 0, initAddr);
ctx->avc.avcDecodeResult = MPEG_AVC_DECODE_SUCCESS;
DEBUG_LOG(HLE, "sceMpegAvcDecodeYCbCr(%08x, %08x, %08x, %08x)", mpeg, auAddr, bufferAddr, initAddr);
if (ctx->videoFrameCount <= 1)
return hleDelayResult(0, "mpeg decode", avcFirstDelayMs);
else
return hleDelayResult(0, "mpeg decode", avcDecodeDelayMs);
//hleEatMicro(3300);
//return hleDelayResult(0, "mpeg decode", 200);
}
u32 sceUtilityUnloadAvModule(u32 module)
{
INFO_LOG(SCEUTILITY,"0=sceUtilityUnloadAvModule(%i)", module);
return hleDelayResult(0, "utility av module unloaded", 800);
}
u32 sceUtilityUnloadAvModule(u32 module)
{
DEBUG_LOG(HLE,"sceUtilityUnloadAvModule(%i)", module);
return hleDelayResult(0, "utility av module unloaded", 800);
}
// Some games (GTA) never call this during gameplay, so bad place to put a framerate counter.
static u32 sceDisplaySetFramebuf(u32 topaddr, int linesize, int pixelformat, int sync) {
FrameBufferState fbstate = {0};
fbstate.topaddr = topaddr;
fbstate.fmt = (GEBufferFormat)pixelformat;
fbstate.stride = linesize;
if (sync != PSP_DISPLAY_SETBUF_IMMEDIATE && sync != PSP_DISPLAY_SETBUF_NEXTFRAME) {
return hleLogError(SCEDISPLAY, SCE_KERNEL_ERROR_INVALID_MODE, "invalid sync mode");
}
if (topaddr != 0 && !Memory::IsRAMAddress(topaddr) && !Memory::IsVRAMAddress(topaddr)) {
return hleLogError(SCEDISPLAY, SCE_KERNEL_ERROR_INVALID_POINTER, "invalid address");
}
if ((topaddr & 0xF) != 0) {
return hleLogError(SCEDISPLAY, SCE_KERNEL_ERROR_INVALID_POINTER, "misaligned address");
}
if ((linesize & 0x3F) != 0 || (linesize == 0 && topaddr != 0)) {
return hleLogError(SCEDISPLAY, SCE_KERNEL_ERROR_INVALID_SIZE, "invalid stride");
}
if (pixelformat < 0 || pixelformat > GE_FORMAT_8888) {
return hleLogError(SCEDISPLAY, SCE_KERNEL_ERROR_INVALID_FORMAT, "invalid format");
}
if (sync == PSP_DISPLAY_SETBUF_IMMEDIATE) {
if (fbstate.fmt != latchedFramebuf.fmt || fbstate.stride != latchedFramebuf.stride) {
return hleReportError(SCEDISPLAY, SCE_KERNEL_ERROR_INVALID_MODE, "must change latched framebuf first");
}
}
hleEatCycles(290);
s64 delayCycles = 0;
// Don't count transitions between display off and display on.
if (topaddr != 0 && topaddr != framebuf.topaddr && framebuf.topaddr != 0 && g_Config.iForceMaxEmulatedFPS > 0) {
// Sometimes we get a small number, there's probably no need to delay the thread for this.
// sceDisplaySetFramebuf() isn't supposed to delay threads at all. This is a hack.
const int FLIP_DELAY_CYCLES_MIN = 10;
// Some games (like Final Fantasy 4) only call this too much in spurts.
// The goal is to fix games where this would result in a consistent overhead.
const int FLIP_DELAY_MIN_FLIPS = 30;
u64 now = CoreTiming::GetTicks();
// 1001 to account for NTSC timing (59.94 fps.)
u64 expected = msToCycles(1001) / g_Config.iForceMaxEmulatedFPS;
u64 actual = now - lastFlipCycles;
if (actual < expected - FLIP_DELAY_CYCLES_MIN) {
if (lastFlipsTooFrequent >= FLIP_DELAY_MIN_FLIPS) {
delayCycles = expected - actual;
} else {
++lastFlipsTooFrequent;
}
} else {
--lastFlipsTooFrequent;
}
lastFlipCycles = CoreTiming::GetTicks();
}
if (sync == PSP_DISPLAY_SETBUF_IMMEDIATE) {
// Write immediately to the current framebuffer parameters
framebuf = fbstate;
gpu->SetDisplayFramebuffer(framebuf.topaddr, framebuf.stride, framebuf.fmt);
} else {
// Delay the write until vblank
latchedFramebuf = fbstate;
framebufIsLatched = true;
// If we update the format or stride, this affects the current framebuf immediately.
framebuf.fmt = latchedFramebuf.fmt;
framebuf.stride = latchedFramebuf.stride;
}
if (delayCycles > 0) {
// Okay, the game is going at too high a frame rate. God of War and Fat Princess both do this.
// Simply eating the cycles works and is fast, but breaks other games (like Jeanne d'Arc.)
// So, instead, we delay this HLE thread only (a small deviation from correct behavior.)
return hleDelayResult(hleLogSuccessI(SCEDISPLAY, 0, "delaying frame thread"), "set framebuf", cyclesToUs(delayCycles));
} else {
if (topaddr == 0) {
return hleLogSuccessI(SCEDISPLAY, 0, "disabling display");
} else {
return hleLogSuccessI(SCEDISPLAY, 0);
}
}
}
int sceMpegAvcDecodeYCbCr(u32 mpeg, u32 auAddr, u32 bufferAddr, u32 initAddr)
{
if (!g_Config.bUseMediaEngine){
WARN_LOG(HLE, "Media Engine disabled");
return -1;
}
MpegContext *ctx = getMpegCtx(mpeg);
if (!ctx) {
WARN_LOG(HLE, "sceMpegAvcDecodeYCbCr(%08x, %08x, %08x, %08x): bad mpeg handle", mpeg, auAddr, bufferAddr, initAddr);
return 0;
}
if (!Memory::IsValidAddress(auAddr) || !Memory::IsValidAddress(bufferAddr) || !Memory::IsValidAddress(initAddr)) {
ERROR_LOG(HLE, "sceMpegAvcDecodeYCbCr: bad addresses");
return 0;
}
SceMpegAu avcAu;
avcAu.read(auAddr);
SceMpegRingBuffer ringbuffer;
Memory::ReadStruct(ctx->mpegRingbufferAddr, &ringbuffer);
if (ringbuffer.packetsRead == 0) {
// empty!
return hleDelayResult(MPEG_AVC_DECODE_ERROR_FATAL, "mpeg buffer empty", avcEmptyDelayMs);
}
u32 buffer = Memory::Read_U32(bufferAddr);
u32 init = Memory::Read_U32(initAddr);
DEBUG_LOG(HLE, "*buffer = %08x, *init = %08x", buffer, init);
int packetsInRingBuffer = ringbuffer.packets - ringbuffer.packetsFree;
int processedPackets = ringbuffer.packetsRead - packetsInRingBuffer;
int processedSize = processedPackets * ringbuffer.packetSize;
int packetsConsumed = 3;
if (ctx->mpegStreamSize > 0 && ctx->mpegLastTimestamp > 0) {
// Try a better approximation of the packets consumed based on the timestamp
int processedSizeBasedOnTimestamp = (int) ((((float) avcAu.pts) / ctx->mpegLastTimestamp) * ctx->mpegStreamSize);
if (processedSizeBasedOnTimestamp < processedSize) {
packetsConsumed = 0;
} else {
packetsConsumed = (processedSizeBasedOnTimestamp - processedSize) / ringbuffer.packetSize;
if (packetsConsumed > 10) {
packetsConsumed = 10;
}
}
DEBUG_LOG(HLE, "sceMpegAvcDecodeYCbCr consumed %d %d/%d %d", processedSizeBasedOnTimestamp, processedSize, ctx->mpegStreamSize, packetsConsumed);
}
if (ctx->mediaengine->stepVideo()) {
// TODO: Write it somewhere or buffer it or something?
packetsConsumed += ctx->mediaengine->readLength() / ringbuffer.packetSize;
// Consuming all the remaining packets?
if (ringbuffer.packetsFree + packetsConsumed >= ringbuffer.packets) {
// Having not yet reached the last timestamp?
if (ctx->mpegLastTimestamp > 0 && avcAu.pts < ctx->mpegLastTimestamp) {
// Do not yet consume all the remaining packets, leave 2 packets
packetsConsumed = ringbuffer.packets - ringbuffer.packetsFree - 2;
}
}
ctx->mediaengine->setReadLength(ctx->mediaengine->readLength() - packetsConsumed * ringbuffer.packetSize);
} else {
// Consume all remaining packets
packetsConsumed = ringbuffer.packets - ringbuffer.packetsFree;
}
ctx->avc.avcFrameStatus = 1;
ctx->videoFrameCount++;
// Update the ringbuffer with the consumed packets
if (ringbuffer.packetsFree < ringbuffer.packets && packetsConsumed > 0) {
ringbuffer.packetsFree = std::min(ringbuffer.packets, ringbuffer.packetsFree + packetsConsumed);
DEBUG_LOG(HLE, "sceMpegAvcDecodeYCbCr consumed %d packets, remaining %d packets", packetsConsumed, ringbuffer.packets - ringbuffer.packetsFree);
}
ctx->avc.avcDecodeResult = MPEG_AVC_DECODE_SUCCESS;
// Flush structs back to memory
avcAu.write(auAddr);
Memory::WriteStruct(ctx->mpegRingbufferAddr, &ringbuffer);
Memory::Write_U32(ctx->avc.avcFrameStatus, initAddr); // 1 = showing, 0 = not showing
DEBUG_LOG(HLE, "UNIMPL sceMpegAvcDecodeYCbCr(%08x, %08x, %08x, %08x)", mpeg, auAddr, bufferAddr, initAddr);
if (ctx->videoFrameCount <= 1)
return hleDelayResult(0, "mpeg decode", avcFirstDelayMs);
else
return hleDelayResult(0, "mpeg decode", avcDecodeDelayMs);
}
u32 sceMpegAvcDecode(u32 mpeg, u32 auAddr, u32 frameWidth, u32 bufferAddr, u32 initAddr)
{
if (!g_Config.bUseMediaEngine){
WARN_LOG(HLE, "Media Engine disabled");
return -1;
}
MpegContext *ctx = getMpegCtx(mpeg);
if (!ctx) {
WARN_LOG(HLE, "sceMpegAvcDecode(%08x, %08x, %d, %08x, %08x): bad mpeg handle", mpeg, auAddr, frameWidth, bufferAddr, initAddr);
return 0;
}
if (!Memory::IsValidAddress(auAddr) || !Memory::IsValidAddress(bufferAddr) || !Memory::IsValidAddress(initAddr)) {
ERROR_LOG(HLE, "sceMpegAvcDecode: bad addresses");
return 0;
}
if (frameWidth == 0) { // wtf, go sudoku passes in 0xccccccccc
if (!ctx->defaultFrameWidth) {
frameWidth = ctx->avc.avcDetailFrameWidth;
} else {
frameWidth = ctx->defaultFrameWidth;
}
}
SceMpegAu avcAu;
avcAu.read(auAddr);
SceMpegRingBuffer ringbuffer;
Memory::ReadStruct(ctx->mpegRingbufferAddr, &ringbuffer);
if (ringbuffer.packetsRead == 0) {
// empty!
return hleDelayResult(MPEG_AVC_DECODE_ERROR_FATAL, "mpeg buffer empty", avcEmptyDelayMs);
}
u32 buffer = Memory::Read_U32(bufferAddr);
u32 init = Memory::Read_U32(initAddr);
DEBUG_LOG(HLE, "*buffer = %08x, *init = %08x", buffer, init);
const int width = std::min((int)frameWidth, 480);
const int height = ctx->avc.avcDetailFrameHeight;
int packetsInRingBuffer = ringbuffer.packets - ringbuffer.packetsFree;
int processedPackets = ringbuffer.packetsRead - packetsInRingBuffer;
int processedSize = processedPackets * ringbuffer.packetSize;
int packetsConsumed = 3;
if (ctx->mpegStreamSize > 0 && ctx->mpegLastTimestamp > 0) {
// Try a better approximation of the packets consumed based on the timestamp
int processedSizeBasedOnTimestamp = (int) ((((float) avcAu.pts) / ctx->mpegLastTimestamp) * ctx->mpegStreamSize);
if (processedSizeBasedOnTimestamp < processedSize) {
packetsConsumed = 0;
} else {
packetsConsumed = (processedSizeBasedOnTimestamp - processedSize) / ringbuffer.packetSize;
if (packetsConsumed > 10) {
packetsConsumed = 10;
}
}
DEBUG_LOG(HLE, "sceMpegAvcDecode consumed %d %d/%d %d", processedSizeBasedOnTimestamp, processedSize, ctx->mpegStreamSize, packetsConsumed);
}
if (ctx->mediaengine->stepVideo()) {
ctx->mediaengine->writeVideoImage(buffer, frameWidth, ctx->videoPixelMode);
packetsConsumed += ctx->mediaengine->readLength() / ringbuffer.packetSize;
// The MediaEngine is already consuming all the remaining
// packets when approaching the end of the video. The PSP
// is only consuming the last packet when reaching the end,
// not before.
// Consuming all the remaining packets?
if (ringbuffer.packetsFree + packetsConsumed >= ringbuffer.packets) {
// Having not yet reached the last timestamp?
if (ctx->mpegLastTimestamp > 0 && avcAu.pts < ctx->mpegLastTimestamp) {
// Do not yet consume all the remaining packets, leave 2 packets
packetsConsumed = ringbuffer.packets - ringbuffer.packetsFree - 2;
}
}
ctx->mediaengine->setReadLength(ctx->mediaengine->readLength() - packetsConsumed * ringbuffer.packetSize);
} else {
// Consume all remaining packets
packetsConsumed = ringbuffer.packets - ringbuffer.packetsFree;
}
ctx->avc.avcFrameStatus = 1;
ctx->videoFrameCount++;
// Update the ringbuffer with the consumed packets
if (ringbuffer.packetsFree < ringbuffer.packets && packetsConsumed > 0) {
ringbuffer.packetsFree = std::min(ringbuffer.packets, ringbuffer.packetsFree + packetsConsumed);
DEBUG_LOG(HLE, "sceMpegAvcDecode consumed %d packets, remaining %d packets", packetsConsumed, ringbuffer.packets - ringbuffer.packetsFree);
}
ctx->avc.avcDecodeResult = MPEG_AVC_DECODE_SUCCESS;
// Flush structs back to memory
avcAu.write(auAddr);
Memory::WriteStruct(ctx->mpegRingbufferAddr, &ringbuffer);
Memory::Write_U32(ctx->avc.avcFrameStatus, initAddr); // 1 = showing, 0 = not showing
DEBUG_LOG(HLE, "sceMpegAvcDecode(%08x, %08x, %i, %08x, %08x)", mpeg, auAddr, frameWidth, bufferAddr, initAddr);
if (ctx->videoFrameCount <= 1)
return hleDelayResult(0, "mpeg decode", avcFirstDelayMs);
else
return hleDelayResult(0, "mpeg decode", avcDecodeDelayMs);
}
int sceMpegGetAvcAu(u32 mpeg, u32 streamId, u32 auAddr, u32 attrAddr)
{
MpegContext *ctx = getMpegCtx(mpeg);
if (!ctx) {
WARN_LOG(HLE, "sceMpegGetAvcAu(%08x, %08x, %08x, %08x): bad mpeg handle", mpeg, streamId, auAddr, attrAddr);
return -1;
}
SceMpegRingBuffer mpegRingbuffer;
Memory::ReadStruct(ctx->mpegRingbufferAddr, &mpegRingbuffer);
SceMpegAu sceAu;
sceAu.read(auAddr);
if (mpegRingbuffer.packetsRead == 0 || mpegRingbuffer.packetsFree == mpegRingbuffer.packets) {
DEBUG_LOG(HLE, "PSP_ERROR_MPEG_NO_DATA=sceMpegGetAvcAu(%08x, %08x, %08x, %08x)", mpeg, streamId, auAddr, attrAddr);
// TODO: Does this really reschedule?
return hleDelayResult(PSP_ERROR_MPEG_NO_DATA, "mpeg get avc", mpegDecodeErrorDelayMs);
}
auto streamInfo = ctx->streamMap.find(streamId);
if (streamInfo == ctx->streamMap.end())
{
ERROR_LOG(HLE, "sceMpegGetAvcAu - bad stream id %i", streamId);
return -1;
}
if (streamInfo->second.needsReset)
{
sceAu.pts = 0;
streamInfo->second.needsReset = false;
}
// Wait for audio if too much ahead
if (ctx->atracRegistered && (sceAu.pts > sceAu.pts + getMaxAheadTimestamp(mpegRingbuffer)))
{
ERROR_LOG(HLE, "sceMpegGetAvcAu - video too much ahead");
// TODO: Does this really reschedule?
return hleDelayResult(PSP_ERROR_MPEG_NO_DATA, "mpeg get avc", mpegDecodeErrorDelayMs);
}
int result = 0;
// read the au struct from ram
// TODO: For now, always checking, since readVideoAu() is stubbed.
if (!ctx->mediaengine->readVideoAu(&sceAu) || true) {
// Only return this after the video already ended.
if (ctx->endOfVideoReached) {
if (mpegRingbuffer.packetsFree < mpegRingbuffer.packets) {
mpegRingbuffer.packetsFree = mpegRingbuffer.packets;
Memory::WriteStruct(ctx->mpegRingbufferAddr, &mpegRingbuffer);
}
result = PSP_ERROR_MPEG_NO_DATA;
}
if (ctx->mpegLastTimestamp <= 0 || sceAu.pts >= ctx->mpegLastTimestamp) {
NOTICE_LOG(HLE, "End of video reached");
ctx->endOfVideoReached = true;
} else {
ctx->endOfAudioReached = false;
}
}
// The avcau struct may have been modified by mediaengine, write it back.
sceAu.write(auAddr);
if (Memory::IsValidAddress(attrAddr)) {
Memory::Write_U32(1, attrAddr);
}
DEBUG_LOG(HLE, "%x=sceMpegGetAvcAu(%08x, %08x, %08x, %08x)", result, mpeg, streamId, auAddr, attrAddr);
// TODO: sceMpegGetAvcAu seems to modify esSize, and delay when it's > 1000 or something.
// There's definitely more to it, but ultimately it seems games should expect it to delay randomly.
return hleDelayResult(result, "mpeg get avc", 100);
}
int sceMpegGetAvcAu(u32 mpeg, u32 streamId, u32 auAddr, u32 attrAddr)
{
MpegContext *ctx = getMpegCtx(mpeg);
if (!ctx) {
WARN_LOG(ME, "sceMpegGetAvcAu(%08x, %08x, %08x, %08x): bad mpeg handle", mpeg, streamId, auAddr, attrAddr);
return -1;
}
SceMpegRingBuffer mpegRingbuffer;
Memory::ReadStruct(ctx->mpegRingbufferAddr, &mpegRingbuffer);
SceMpegAu sceAu;
sceAu.read(auAddr);
if (mpegRingbuffer.packetsRead == 0 || mpegRingbuffer.packetsFree == mpegRingbuffer.packets) {
DEBUG_LOG(ME, "PSP_ERROR_MPEG_NO_DATA=sceMpegGetAvcAu(%08x, %08x, %08x, %08x)", mpeg, streamId, auAddr, attrAddr);
sceAu.pts = -1;
sceAu.dts = -1;
sceAu.write(auAddr);
// TODO: Does this really reschedule?
return hleDelayResult(PSP_ERROR_MPEG_NO_DATA, "mpeg get avc", mpegDecodeErrorDelayMs);
}
auto streamInfo = ctx->streamMap.find(streamId);
if (streamInfo == ctx->streamMap.end())
{
ERROR_LOG(ME, "sceMpegGetAvcAu - bad stream id %i", streamId);
return -1;
}
if (streamInfo->second.needsReset)
{
sceAu.pts = 0;
streamInfo->second.needsReset = false;
}
/*// Wait for audio if too much ahead
if (ctx->atracRegistered && (ctx->mediaengine->getVideoTimeStamp() > ctx->mediaengine->getAudioTimeStamp() + getMaxAheadTimestamp(mpegRingbuffer)))
{
ERROR_LOG(ME, "sceMpegGetAvcAu - video too much ahead");
// TODO: Does this really reschedule?
return hleDelayResult(PSP_ERROR_MPEG_NO_DATA, "mpeg get avc", mpegDecodeErrorDelayMs);
}*/
int result = 0;
sceAu.pts = ctx->mediaengine->getVideoTimeStamp() + ctx->mpegFirstTimestamp;
sceAu.dts = sceAu.pts - videoTimestampStep;
if (ctx->mediaengine->IsVideoEnd()) {
INFO_LOG(ME, "video end reach. pts: %i dts: %i", (int)sceAu.pts, (int)ctx->mediaengine->getLastTimeStamp());
mpegRingbuffer.packetsFree = mpegRingbuffer.packets;
Memory::WriteStruct(ctx->mpegRingbufferAddr, &mpegRingbuffer);
result = PSP_ERROR_MPEG_NO_DATA;
}
// The avcau struct may have been modified by mediaengine, write it back.
sceAu.write(auAddr);
if (Memory::IsValidAddress(attrAddr)) {
Memory::Write_U32(1, attrAddr);
}
DEBUG_LOG(ME, "%x=sceMpegGetAvcAu(%08x, %08x, %08x, %08x)", result, mpeg, streamId, auAddr, attrAddr);
// TODO: sceMpegGetAvcAu seems to modify esSize, and delay when it's > 1000 or something.
// There's definitely more to it, but ultimately it seems games should expect it to delay randomly.
return hleDelayResult(result, "mpeg get avc", 100);
}
