ppsspp/Core/HLE/scePsmf.cpp
Henrik Rydgård 0e54e24b24 Revert "Use swap code from native instead. Remove all other versions of it."
Broke movie playback.

This reverts commit 9fcb08a326.

Conflicts:
	native
2013-10-28 17:24:03 +01:00

1334 lines
43 KiB
C++

// Copyright (c) 2012- PPSSPP Project.
// 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, version 2.0 or later versions.
// 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 2.0 for more details.
// A copy of the GPL 2.0 should have been included with the program.
// If not, see http://www.gnu.org/licenses/
// Official git repository and contact information can be found at
// https://github.com/hrydgard/ppsspp and http://www.ppsspp.org/.
#include "Core/HLE/HLE.h"
#include "Common/ChunkFile.h"
#include "Core/Reporting.h"
#include "Core/HLE/scePsmf.h"
#include "Core/HLE/sceMpeg.h"
#include "Core/HW/MediaEngine.h"
#include "GPU/GPUInterface.h"
#include "GPU/GPUState.h"
#include <map>
#include <algorithm>
// "Go Sudoku" is a good way to test this code...
const int PSMF_VIDEO_STREAM_ID = 0xE0;
const int PSMF_AUDIO_STREAM_ID = 0xBD;
const int PSMF_AVC_STREAM = 0;
const int PSMF_ATRAC_STREAM = 1;
const int PSMF_PCM_STREAM = 2;
const int PSMF_DATA_STREAM = 3;
const int PSMF_AUDIO_STREAM = 15;
const int PSMF_PLAYER_VERSION_FULL = 0;
const int PSMF_PLAYER_VERSION_BASIC = 1;
const int PSMF_PLAYER_VERSION_NET = 2;
const int PSMF_PLAYER_CONFIG_LOOP = 0;
const int PSMF_PLAYER_CONFIG_NO_LOOP = 1;
const int PSMF_PLAYER_CONFIG_MODE_LOOP = 0;
const int PSMF_PLAYER_CONFIG_MODE_PIXEL_TYPE = 1;
const int TPSM_PIXEL_STORAGE_MODE_32BIT_ABGR8888 = 0X03;
int psmfCurrentPts = 0;
int psmfAvcStreamNum = 1;
int psmfAtracStreamNum = 1;
int psmfPcmStreamNum = 0;
int psmfPlayerVersion = PSMF_PLAYER_VERSION_FULL;
int psmfMaxAheadTimestamp = 40000;
int audioSamples = 2048;
int audioSamplesBytes = audioSamples * 4;
int videoPixelMode = TPSM_PIXEL_STORAGE_MODE_32BIT_ABGR8888;
int videoLoopStatus = PSMF_PLAYER_CONFIG_NO_LOOP;
enum PsmfPlayerStatus {
PSMF_PLAYER_STATUS_NONE = 0x0,
PSMF_PLAYER_STATUS_INIT = 0x1,
PSMF_PLAYER_STATUS_STANDBY = 0x2,
PSMF_PLAYER_STATUS_PLAYING = 0x4,
PSMF_PLAYER_STATUS_ERROR = 0x100,
PSMF_PLAYER_STATUS_PLAYING_FINISHED = 0x200,
};
struct PsmfData {
u32_le version;
u32_le headerSize;
u32_le headerOffset;
u32_le streamSize;
u32_le streamOffset;
u32_le streamNum;
u32_le unk1;
u32_le unk2;
};
struct PsmfPlayerData {
s32_le videoCodec;
s32_le videoStreamNum;
s32_le audioCodec;
s32_le audioStreamNum;
s32_le playMode;
s32_le playSpeed;
// TODO: Was "long", which is 32, but should this be 64? Not even used?
s32_le psmfPlayerLastTimestamp;
};
struct PsmfEntry {
int EPIndex;
int EPPicOffset;
int EPPts;
int EPOffset;
int id;
};
int getMaxAheadTimestamp(int packets) {return std::max(40000, packets * 700);}
class PsmfStream;
// This does NOT match the raw structure. Due to endianness etc,
// we read it manually.
// TODO: Change to work directly with the data in RAM instead of this
// JPSCP-esque class.
typedef std::map<int, PsmfStream *> PsmfStreamMap;
class Psmf {
public:
// For savestates only.
Psmf() {}
Psmf(u32 data);
~Psmf();
void DoState(PointerWrap &p);
bool isValidCurrentStreamNumber() {
return currentStreamNum >= 0 && currentStreamNum < (int)streamMap.size(); // urgh, checking size isn't really right here.
}
void setStreamNum(int num);
bool setStreamWithType(int type, int channel);
u32 magic;
u32 version;
u32 streamOffset;
u32 streamSize;
u32 headerSize;
u32 headerOffset;
u32 streamType;
u32 streamChannel;
// 0x50
u32 streamDataTotalSize;
u32 presentationStartTime;
u32 presentationEndTime;
u32 streamDataNextBlockSize;
u32 streamDataNextInnerBlockSize;
int numStreams;
int currentStreamNum;
int currentAudioStreamNum;
int currentVideoStreamNum;
// parameters gotten from streams
// I guess this is the seek information?
u32 EPMapOffset;
u32 EPMapEntriesNum;
int videoWidth;
int videoHeight;
int audioChannels;
int audioFrequency;
PsmfEntry psmfEntry;
PsmfStreamMap streamMap;
};
class PsmfPlayer {
public:
// For savestates only.
PsmfPlayer() { mediaengine = new MediaEngine; filehandle = 0;}
PsmfPlayer(u32 data);
~PsmfPlayer() { if (mediaengine) delete mediaengine; pspFileSystem.CloseFile(filehandle);}
void DoState(PointerWrap &p);
u32 filehandle;
u32 fileoffset;
int readSize;
int streamSize;
u8 tempbuf[0x10000];
int videoCodec;
int videoStreamNum;
int audioCodec;
int audioStreamNum;
int playMode;
int playSpeed;
long psmfPlayerLastTimestamp;
int displayBuffer;
int displayBufferSize;
int playbackThreadPriority;
int psmfMaxAheadTimestamp;
SceMpegAu psmfPlayerAtracAu;
SceMpegAu psmfPlayerAvcAu;
PsmfPlayerStatus status;
MediaEngine* mediaengine;
};
class PsmfStream {
public:
// Used for save states.
PsmfStream() {
}
PsmfStream(int type, int channel) {
this->type = type;
this->channel = channel;
}
void readMPEGVideoStreamParams(u32 addr, Psmf *psmf) {
int streamId = Memory::Read_U8(addr);
int privateStreamId = Memory::Read_U8(addr + 1);
// two unknowns here
psmf->EPMapOffset = bswap32(Memory::Read_U32(addr + 4));
psmf->EPMapEntriesNum = bswap32(Memory::Read_U32(addr + 8));
psmf->videoWidth = Memory::Read_U8(addr + 12) * 16;
psmf->videoHeight = Memory::Read_U8(addr + 13) * 16;
INFO_LOG(ME, "PSMF MPEG data found: id=%02x, privid=%02x, epmoff=%08x, epmnum=%08x, width=%i, height=%i", streamId, privateStreamId, psmf->EPMapOffset, psmf->EPMapEntriesNum, psmf->videoWidth, psmf->videoHeight);
}
void readPrivateAudioStreamParams(u32 addr, Psmf *psmf) {
int streamId = Memory::Read_U8(addr);
int privateStreamId = Memory::Read_U8(addr + 1);
psmf->audioChannels = Memory::Read_U8(addr + 14);
psmf->audioFrequency = Memory::Read_U8(addr + 15);
// two unknowns here
INFO_LOG(ME, "PSMF private audio found: id=%02x, privid=%02x, channels=%i, freq=%i", streamId, privateStreamId, psmf->audioChannels, psmf->audioFrequency);
}
void DoState(PointerWrap &p) {
auto s = p.Section("PsmfStream", 1);
if (!s)
return;
p.Do(type);
p.Do(channel);
}
int type;
int channel;
};
Psmf::Psmf(u32 data) {
headerOffset = data;
magic = Memory::Read_U32(data);
version = Memory::Read_U32(data + 4);
streamOffset = bswap32(Memory::Read_U32(data + 8));
streamSize = bswap32(Memory::Read_U32(data + 12));
streamDataTotalSize = bswap32(Memory::Read_U32(data + 0x50));
presentationStartTime = getMpegTimeStamp(Memory::GetPointer(data + PSMF_FIRST_TIMESTAMP_OFFSET));
presentationEndTime = getMpegTimeStamp(Memory::GetPointer(data + PSMF_LAST_TIMESTAMP_OFFSET));
streamDataNextBlockSize = bswap32(Memory::Read_U32(data + 0x6A));
streamDataNextInnerBlockSize = bswap32(Memory::Read_U32(data + 0x7C));
numStreams = bswap16(Memory::Read_U16(data + 0x80));
currentStreamNum = -1;
currentAudioStreamNum = -1;
currentVideoStreamNum = -1;
for (int i = 0; i < numStreams; i++) {
PsmfStream *stream = 0;
u32 currentStreamAddr = data + 0x82 + i * 16;
int streamId = Memory::Read_U8(currentStreamAddr);
if ((streamId & PSMF_VIDEO_STREAM_ID) == PSMF_VIDEO_STREAM_ID) {
stream = new PsmfStream(PSMF_AVC_STREAM, ++currentVideoStreamNum);
stream->readMPEGVideoStreamParams(currentStreamAddr, this);
} else if ((streamId & PSMF_AUDIO_STREAM_ID) == PSMF_AUDIO_STREAM_ID) {
stream = new PsmfStream(PSMF_ATRAC_STREAM, ++currentAudioStreamNum);
stream->readPrivateAudioStreamParams(currentStreamAddr, this);
}
if (stream) {
currentStreamNum++;
streamMap[currentStreamNum] = stream;
}
}
}
Psmf::~Psmf() {
for (auto it = streamMap.begin(), end = streamMap.end(); it != end; ++it) {
delete it->second;
}
streamMap.clear();
}
PsmfPlayer::PsmfPlayer(u32 data) {
videoCodec = Memory::Read_U32(data);
videoStreamNum = Memory::Read_U32(data + 4);
audioCodec = Memory::Read_U32(data + 8);
audioStreamNum = Memory::Read_U32(data + 12);
playMode = Memory::Read_U32(data+ 16);
playSpeed = Memory::Read_U32(data + 20);
psmfPlayerLastTimestamp = getMpegTimeStamp(Memory::GetPointer(data + PSMF_LAST_TIMESTAMP_OFFSET)) ;
status = PSMF_PLAYER_STATUS_INIT;
mediaengine = new MediaEngine;
filehandle = 0;
fileoffset = 0;
readSize = 0;
streamSize = 0;
}
void Psmf::DoState(PointerWrap &p) {
auto s = p.Section("Psmf", 1);
if (!s)
return;
p.Do(magic);
p.Do(version);
p.Do(streamOffset);
p.Do(streamSize);
p.Do(headerOffset);
p.Do(streamDataTotalSize);
p.Do(presentationStartTime);
p.Do(presentationEndTime);
p.Do(streamDataNextBlockSize);
p.Do(streamDataNextInnerBlockSize);
p.Do(numStreams);
p.Do(currentStreamNum);
p.Do(currentAudioStreamNum);
p.Do(currentVideoStreamNum);
p.Do(EPMapOffset);
p.Do(EPMapEntriesNum);
p.Do(videoWidth);
p.Do(videoHeight);
p.Do(audioChannels);
p.Do(audioFrequency);
p.Do(streamMap);
}
void PsmfPlayer::DoState(PointerWrap &p) {
auto s = p.Section("PsmfPlayer", 1);
if (!s)
return;
p.Do(videoCodec);
p.Do(videoStreamNum);
p.Do(audioCodec);
p.Do(audioStreamNum);
p.Do(playMode);
p.Do(playSpeed);
p.Do(displayBuffer);
p.Do(displayBufferSize);
p.Do(playbackThreadPriority);
p.Do(psmfMaxAheadTimestamp);
p.Do(psmfPlayerLastTimestamp);
p.DoClass(mediaengine);
p.Do(filehandle);
p.Do(fileoffset);
p.Do(readSize);
p.Do(streamSize);
p.Do(status);
p.Do(psmfPlayerAvcAu);
}
void Psmf::setStreamNum(int num) {
currentStreamNum = num;
if (!isValidCurrentStreamNumber())
return;
PsmfStreamMap::iterator iter = streamMap.find(currentStreamNum);
if (iter == streamMap.end())
return;
int type = iter->second->type;
int channel = iter->second->channel;
switch (type) {
case PSMF_AVC_STREAM:
if (currentVideoStreamNum != num) {
// TODO: Tell video mediaengine or something about channel.
currentVideoStreamNum = num;
}
break;
case PSMF_ATRAC_STREAM:
case PSMF_PCM_STREAM:
if (currentAudioStreamNum != num) {
// TODO: Tell audio mediaengine or something about channel.
currentAudioStreamNum = num;
}
break;
}
}
bool Psmf::setStreamWithType(int type, int channel) {
for (PsmfStreamMap::iterator iter = streamMap.begin(); iter != streamMap.end(); ++iter) {
if (iter->second->type == type && iter->second->channel == channel) {
setStreamNum(iter->first);
return true;
}
}
return false;
}
static std::map<u32, Psmf *> psmfMap;
static std::map<u32, PsmfPlayer *> psmfPlayerMap;
Psmf *getPsmf(u32 psmf)
{
PSPPointer<PsmfData> psmfstruct;
psmfstruct = psmf;
if (!psmfstruct.IsValid())
return 0;
auto iter = psmfMap.find(psmfstruct->headerOffset);
if (iter != psmfMap.end())
return iter->second;
else
return 0;
}
PsmfPlayer *getPsmfPlayer(u32 psmfplayer)
{
auto iter = psmfPlayerMap.find(psmfplayer);
if (iter != psmfPlayerMap.end())
return iter->second;
else
return 0;
}
void __PsmfInit()
{
videoPixelMode = TPSM_PIXEL_STORAGE_MODE_32BIT_ABGR8888;
videoLoopStatus = PSMF_PLAYER_CONFIG_NO_LOOP;
}
void __PsmfDoState(PointerWrap &p)
{
auto s = p.Section("scePsmf", 1);
if (!s)
return;
p.Do(psmfMap);
}
void __PsmfPlayerDoState(PointerWrap &p)
{
auto s = p.Section("scePsmfPlayer", 1);
if (!s)
return;
p.Do(psmfPlayerMap);
p.Do(videoPixelMode);
p.Do(videoLoopStatus);
}
void __PsmfShutdown()
{
for (auto it = psmfMap.begin(), end = psmfMap.end(); it != end; ++it)
delete it->second;
for (auto it = psmfPlayerMap.begin(), end = psmfPlayerMap.end(); it != end; ++it)
delete it->second;
psmfMap.clear();
psmfPlayerMap.clear();
}
u32 scePsmfSetPsmf(u32 psmfStruct, u32 psmfData)
{
INFO_LOG(ME, "scePsmfSetPsmf(%08x, %08x)", psmfStruct, psmfData);
Psmf *psmf = new Psmf(psmfData);
PsmfData data = {0};
data.version = psmf->version;
data.headerSize = 0x800;
data.streamSize = psmf->streamSize;
data.streamNum = psmf->numStreams;
data.headerOffset = psmf->headerOffset;
auto iter = psmfMap.find(data.headerOffset);
if (iter != psmfMap.end())
delete iter->second;
psmfMap[data.headerOffset] = psmf;
Memory::WriteStruct(psmfStruct, &data);
return 0;
}
u32 scePsmfGetNumberOfStreams(u32 psmfStruct)
{
Psmf *psmf = getPsmf(psmfStruct);
if (!psmf) {
ERROR_LOG(ME, "scePsmfGetNumberOfStreams(%08x): invalid psmf", psmfStruct);
return ERROR_PSMF_NOT_FOUND;
}
DEBUG_LOG(ME, "scePsmfGetNumberOfStreams(%08x)", psmfStruct);
return psmf->numStreams;
}
u32 scePsmfGetNumberOfSpecificStreams(u32 psmfStruct, int streamType)
{
Psmf *psmf = getPsmf(psmfStruct);
if (!psmf) {
ERROR_LOG(ME, "scePsmfGetNumberOfSpecificStreams(%08x, %08x): invalid psmf", psmfStruct, streamType);
return ERROR_PSMF_NOT_FOUND;
}
WARN_LOG(ME, "scePsmfGetNumberOfSpecificStreams(%08x, %08x)", psmfStruct, streamType);
int streamNum = 0;
int type = (streamType == PSMF_AUDIO_STREAM ? PSMF_ATRAC_STREAM : streamType);
for (int i = (int)psmf->streamMap.size() - 1; i >= 0; i--) {
if (psmf->streamMap[i]->type == type)
streamNum++;
}
return streamNum;
}
u32 scePsmfSpecifyStreamWithStreamType(u32 psmfStruct, u32 streamType, u32 channel)
{
Psmf *psmf = getPsmf(psmfStruct);
if (!psmf) {
ERROR_LOG(ME, "scePsmfSpecifyStreamWithStreamType(%08x, %08x, %i): invalid psmf", psmfStruct, streamType, channel);
return ERROR_PSMF_NOT_FOUND;
}
INFO_LOG(ME, "scePsmfSpecifyStreamWithStreamType(%08x, %08x, %i)", psmfStruct, streamType, channel);
if (!psmf->setStreamWithType(streamType, channel)) {
psmf->setStreamNum(-1);
}
return 0;
}
u32 scePsmfSpecifyStreamWithStreamTypeNumber(u32 psmfStruct, u32 streamType, u32 typeNum)
{
Psmf *psmf = getPsmf(psmfStruct);
if (!psmf) {
ERROR_LOG(ME, "scePsmfSpecifyStreamWithStreamTypeNumber(%08x, %08x, %08x): invalid psmf", psmfStruct, streamType, typeNum);
return ERROR_PSMF_NOT_FOUND;
}
INFO_LOG_REPORT(ME, "scePsmfSpecifyStreamWithStreamTypeNumber(%08x, %08x, %08x)", psmfStruct, streamType, typeNum);
// right now typeNum and channel are the same...
if (!psmf->setStreamWithType(streamType, typeNum)) {
psmf->setStreamNum(-1);
}
return 0;
}
u32 scePsmfSpecifyStream(u32 psmfStruct, int streamNum) {
Psmf *psmf = getPsmf(psmfStruct);
if (!psmf) {
ERROR_LOG(ME, "scePsmfSpecifyStream(%08x, %i): invalid psmf", psmfStruct, streamNum);
return ERROR_PSMF_NOT_FOUND;
}
INFO_LOG(ME, "scePsmfSpecifyStream(%08x, %i)", psmfStruct, streamNum);
psmf->setStreamNum(streamNum);
return 0;
}
u32 scePsmfGetVideoInfo(u32 psmfStruct, u32 videoInfoAddr) {
Psmf *psmf = getPsmf(psmfStruct);
if (!psmf) {
ERROR_LOG(ME, "scePsmfGetVideoInfo(%08x, %08x): invalid psmf", psmfStruct, videoInfoAddr);
return ERROR_PSMF_NOT_FOUND;
}
INFO_LOG(ME, "scePsmfGetVideoInfo(%08x, %08x)", psmfStruct, videoInfoAddr);
if (Memory::IsValidAddress(videoInfoAddr)) {
Memory::Write_U32(psmf->videoWidth, videoInfoAddr);
Memory::Write_U32(psmf->videoHeight, videoInfoAddr + 4);
}
return 0;
}
u32 scePsmfGetAudioInfo(u32 psmfStruct, u32 audioInfoAddr) {
Psmf *psmf = getPsmf(psmfStruct);
if (!psmf) {
ERROR_LOG(ME, "scePsmfGetAudioInfo(%08x, %08x): invalid psmf", psmfStruct, audioInfoAddr);
return ERROR_PSMF_NOT_FOUND;
}
INFO_LOG(ME, "scePsmfGetAudioInfo(%08x, %08x)", psmfStruct, audioInfoAddr);
if (Memory::IsValidAddress(audioInfoAddr)) {
Memory::Write_U32(psmf->audioChannels, audioInfoAddr);
Memory::Write_U32(psmf->audioFrequency, audioInfoAddr + 4);
}
return 0;
}
u32 scePsmfGetCurrentStreamType(u32 psmfStruct, u32 typeAddr, u32 channelAddr) {
Psmf *psmf = getPsmf(psmfStruct);
if (!psmf) {
ERROR_LOG(ME, "scePsmfGetCurrentStreamType(%08x, %08x, %08x): invalid psmf", psmfStruct, typeAddr, channelAddr);
return ERROR_PSMF_NOT_FOUND;
}
INFO_LOG(ME, "scePsmfGetCurrentStreamType(%08x, %08x, %08x)", psmfStruct, typeAddr, channelAddr);
if (Memory::IsValidAddress(typeAddr)) {
u32 type = 0, channel = 0;
if (psmf->streamMap.find(psmf->currentStreamNum) != psmf->streamMap.end())
type = psmf->streamMap[psmf->currentStreamNum]->type;
if (psmf->streamMap.find(psmf->currentStreamNum) != psmf->streamMap.end())
channel = psmf->streamMap[psmf->currentStreamNum]->channel;
Memory::Write_U32(type, typeAddr);
Memory::Write_U32(channel, channelAddr);
}
return 0;
}
u32 scePsmfGetStreamSize(u32 psmfStruct, u32 sizeAddr)
{
Psmf *psmf = getPsmf(psmfStruct);
if (!psmf) {
ERROR_LOG(ME, "scePsmfGetStreamSize(%08x, %08x): invalid psmf", psmfStruct, sizeAddr);
return ERROR_PSMF_NOT_FOUND;
}
DEBUG_LOG(ME, "scePsmfGetStreamSize(%08x, %08x)", psmfStruct, sizeAddr);
if (Memory::IsValidAddress(sizeAddr)) {
Memory::Write_U32(psmf->streamSize, sizeAddr);
}
return 0;
}
u32 scePsmfQueryStreamOffset(u32 bufferAddr, u32 offsetAddr)
{
WARN_LOG(ME, "scePsmfQueryStreamOffset(%08x, %08x)", bufferAddr, offsetAddr);
if (Memory::IsValidAddress(offsetAddr)) {
Memory::Write_U32(bswap32(Memory::Read_U32(bufferAddr + PSMF_STREAM_OFFSET_OFFSET)), offsetAddr);
}
return 0;
}
u32 scePsmfQueryStreamSize(u32 bufferAddr, u32 sizeAddr)
{
WARN_LOG(ME, "scePsmfQueryStreamSize(%08x, %08x)", bufferAddr, sizeAddr);
if (Memory::IsValidAddress(sizeAddr)) {
Memory::Write_U32(bswap32(Memory::Read_U32(bufferAddr + PSMF_STREAM_SIZE_OFFSET)), sizeAddr);
}
return 0;
}
u32 scePsmfGetHeaderSize(u32 psmfStruct, u32 sizeAddr)
{
Psmf *psmf = getPsmf(psmfStruct);
if (!psmf) {
ERROR_LOG(ME, "scePsmfGetHeaderSize(%08x, %08x): invalid psmf", psmfStruct, sizeAddr);
return ERROR_PSMF_NOT_FOUND;
}
DEBUG_LOG(ME, "scePsmfGetHeaderSize(%08x, %08x)", psmfStruct, sizeAddr);
if (Memory::IsValidAddress(sizeAddr)) {
Memory::Write_U32(psmf->headerSize, sizeAddr);
}
return 0;
}
u32 scePsmfGetPsmfVersion(u32 psmfStruct)
{
Psmf *psmf = getPsmf(psmfStruct);
if (!psmf) {
ERROR_LOG(ME, "scePsmfGetHeaderSize(%08x): invalid psmf", psmfStruct);
return ERROR_PSMF_NOT_FOUND;
}
DEBUG_LOG(ME, "scePsmfGetPsmfVersion(%08x)", psmfStruct);
return psmf->version;
}
u32 scePsmfVerifyPsmf(u32 psmfAddr)
{
u32 magic = Memory::Read_U32(psmfAddr);
if (magic != PSMF_MAGIC) {
ERROR_LOG(ME, "scePsmfVerifyPsmf(%08x): bad magic %08x", psmfAddr, magic);
return ERROR_PSMF_NOT_FOUND;
}
int version = Memory::Read_U32(psmfAddr + PSMF_STREAM_VERSION_OFFSET);
if (version < 0) {
ERROR_LOG(ME, "scePsmfVerifyPsmf(%08x): bad version %08x", psmfAddr, version);
return ERROR_PSMF_NOT_FOUND;
}
DEBUG_LOG(ME, "scePsmfVerifyPsmf(%08x)", psmfAddr);
return 0;
}
u32 scePsmfGetNumberOfEPentries(u32 psmfStruct)
{
Psmf *psmf = getPsmf(psmfStruct);
if (!psmf) {
ERROR_LOG(ME, "scePsmfGetNumberOfEPentries(%08x): invalid psmf", psmfStruct);
return ERROR_PSMF_NOT_FOUND;
}
DEBUG_LOG(ME, "scePsmfGetNumberOfEPentries(%08x)", psmfStruct);
return psmf->EPMapEntriesNum;
}
u32 scePsmfGetPresentationStartTime(u32 psmfStruct, u32 startTimeAddr)
{
Psmf *psmf = getPsmf(psmfStruct);
if (!psmf) {
ERROR_LOG(ME, "scePsmfGetPresentationStartTime(%08x, %08x): invalid psmf", psmfStruct, startTimeAddr);
return ERROR_PSMF_NOT_FOUND;
}
DEBUG_LOG(ME, "scePsmfGetPresentationStartTime(%08x, %08x)", psmfStruct, startTimeAddr);
if (Memory::IsValidAddress(startTimeAddr)) {
Memory::Write_U32(psmf->presentationStartTime, startTimeAddr);
}
return 0;
}
u32 scePsmfGetPresentationEndTime(u32 psmfStruct, u32 endTimeAddr)
{
Psmf *psmf = getPsmf(psmfStruct);
if (!psmf) {
ERROR_LOG(ME, "scePsmfGetPresentationEndTime(%08x, %08x): invalid psmf", psmfStruct, endTimeAddr);
return ERROR_PSMF_NOT_FOUND;
}
DEBUG_LOG(ME, "scePsmfGetPresentationEndTime(%08x, %08x)", psmfStruct, endTimeAddr);
if (Memory::IsValidAddress(endTimeAddr)) {
Memory::Write_U32(psmf->presentationEndTime, endTimeAddr);
}
return 0;
}
u32 scePsmfGetCurrentStreamNumber(u32 psmfStruct)
{
Psmf *psmf = getPsmf(psmfStruct);
if (!psmf) {
ERROR_LOG(ME, "scePsmfGetCurrentStreamNumber(%08x): invalid psmf", psmfStruct);
return ERROR_PSMF_NOT_FOUND;
}
DEBUG_LOG(ME, "scePsmfGetCurrentStreamNumber(%08x)", psmfStruct);
return psmf->currentStreamNum;
}
u32 scePsmfCheckEPMap(u32 psmfPlayer)
{
INFO_LOG(ME, "scePsmfCheckEPMap(%08x)", psmfPlayer);
return 0; // Should be okay according to JPCSP
}
u32 scePsmfGetEPWithId(u32 psmfStruct, int id, u32 outAddr)
{
Psmf *psmf = getPsmf(psmfStruct);
if (!psmf) {
ERROR_LOG(ME, "scePsmfGetEPWithId(%08x, %i, %08x): invalid psmf", psmfStruct, id, outAddr);
return ERROR_PSMF_NOT_FOUND;
}
DEBUG_LOG(ME, "scePsmfGetEPWithId(%08x, %i, %08x)", psmfStruct, id, outAddr);
if (Memory::IsValidAddress(outAddr)) {
Memory::Write_U32(psmf->psmfEntry.EPPts, outAddr);
Memory::Write_U32(psmf->psmfEntry.EPOffset, outAddr + 4);
Memory::Write_U32(psmf->psmfEntry.EPIndex, outAddr + 8);
Memory::Write_U32(psmf->psmfEntry.EPPicOffset, outAddr + 12);
}
return 0;
}
u32 scePsmfGetEPWithTimestamp(u32 psmfStruct, u32 ts, u32 entryAddr)
{
Psmf *psmf = getPsmf(psmfStruct);
if (!psmf) {
ERROR_LOG(ME, "scePsmfGetEPWithTimestamp(%08x, %i, %08x): invalid psmf", psmfStruct, ts, entryAddr);
return ERROR_PSMF_NOT_FOUND;
}
DEBUG_LOG(ME, "scePsmfGetEPWithTimestamp(%08x, %i, %08x)", psmfStruct, ts, entryAddr);
if (ts < psmf->presentationStartTime) {
return ERROR_PSMF_INVALID_TIMESTAMP;
}
if (Memory::IsValidAddress(entryAddr)) {
Memory::Write_U32(psmf->psmfEntry.EPPts, entryAddr);
Memory::Write_U32(psmf->psmfEntry.EPOffset, entryAddr + 4);
Memory::Write_U32(psmf->psmfEntry.EPIndex, entryAddr + 8);
Memory::Write_U32(psmf->psmfEntry.EPPicOffset, entryAddr + 12);
}
return 0;
}
u32 scePsmfGetEPidWithTimestamp(u32 psmfStruct, u32 ts)
{
Psmf *psmf = getPsmf(psmfStruct);
if (!psmf) {
ERROR_LOG(ME, "scePsmfGetEPidWithTimestamp(%08x, %i): invalid psmf", psmfStruct, ts);
return ERROR_PSMF_NOT_FOUND;
}
DEBUG_LOG(ME, "scePsmfGetEPidWithTimestamp(%08x, %i)", psmfStruct, ts);
if (ts < psmf->presentationStartTime) {
return ERROR_PSMF_INVALID_TIMESTAMP;
}
return psmf->psmfEntry.id;
}
int scePsmfPlayerCreate(u32 psmfPlayer, u32 psmfPlayerDataAddr)
{
WARN_LOG(ME, "scePsmfPlayerCreate(%08x, %08x)", psmfPlayer, psmfPlayerDataAddr);
PsmfPlayer *psmfplayer = getPsmfPlayer(psmfPlayer);
if (!psmfplayer) {
// TODO: This is the wrong data. PsmfPlayer needs a new interface.
psmfplayer = new PsmfPlayer(psmfPlayerDataAddr);
psmfPlayerMap[psmfPlayer] = psmfplayer;
}
if (Memory::IsValidAddress(psmfPlayerDataAddr)) {
psmfplayer->displayBuffer = Memory::Read_U32(psmfPlayerDataAddr);
psmfplayer->displayBufferSize = Memory::Read_U32(psmfPlayerDataAddr + 4);
psmfplayer->playbackThreadPriority = Memory::Read_U32(psmfPlayerDataAddr + 8);
}
psmfplayer->psmfMaxAheadTimestamp = getMaxAheadTimestamp(581);
psmfplayer->status = PSMF_PLAYER_STATUS_INIT;
return 0;
}
int scePsmfPlayerStop(u32 psmfPlayer)
{
INFO_LOG(ME, "scePsmfPlayerStop(%08x)", psmfPlayer);
PsmfPlayer *psmfplayer = getPsmfPlayer(psmfPlayer);
if (psmfplayer)
psmfplayer->status = PSMF_PLAYER_STATUS_STANDBY;
return 0;
}
int scePsmfPlayerBreak(u32 psmfPlayer)
{
ERROR_LOG(ME, "UNIMPL scePsmfPlayerBreak(%08x)", psmfPlayer);
PsmfPlayer *psmfplayer = getPsmfPlayer(psmfPlayer);
if (psmfplayer)
psmfplayer->status = PSMF_PLAYER_STATUS_STANDBY;
return 0;
}
int _PsmfPlayerFillRingbuffer(PsmfPlayer *psmfplayer) {
if (!psmfplayer->filehandle || !psmfplayer->tempbuf)
return -1;
u8* buf = psmfplayer->tempbuf;
u32 tempbufSize = sizeof(psmfplayer->tempbuf);
int size;
do {
size = std::min(psmfplayer->mediaengine->getRemainSize(), (int)tempbufSize);
size = std::min(psmfplayer->streamSize - psmfplayer->readSize, size);
if (size <= 0)
break;
size = (int)pspFileSystem.ReadFile(psmfplayer->filehandle, buf, size);
psmfplayer->readSize += size;
psmfplayer->mediaengine->addStreamData(buf, size);
} while (size > 0);
if (psmfplayer->readSize >= psmfplayer->streamSize && videoLoopStatus == PSMF_PLAYER_CONFIG_LOOP) {
// start looping
psmfplayer->readSize = 0;
pspFileSystem.SeekFile(psmfplayer->filehandle, psmfplayer->fileoffset, FILEMOVE_BEGIN);
}
return 0;
}
int _PsmfPlayerSetPsmfOffset(PsmfPlayer *psmfplayer, const char * filename, int offset, bool docallback) {
psmfplayer->filehandle = pspFileSystem.OpenFile(filename, (FileAccess) FILEACCESS_READ);
if (psmfplayer->filehandle && psmfplayer->tempbuf) {
if (offset > 0)
pspFileSystem.SeekFile(psmfplayer->filehandle, offset, FILEMOVE_BEGIN);
u8* buf = psmfplayer->tempbuf;
u32 tempbufSize = sizeof(psmfplayer->tempbuf);
int size = (int)pspFileSystem.ReadFile(psmfplayer->filehandle, buf, 2048);
int mpegoffset = bswap32(*(u32*)(buf + PSMF_STREAM_OFFSET_OFFSET));
psmfplayer->readSize = size - mpegoffset;
psmfplayer->streamSize = bswap32(*(u32*)(buf + PSMF_STREAM_SIZE_OFFSET));
psmfplayer->fileoffset = offset + mpegoffset;
psmfplayer->mediaengine->loadStream(buf, 2048, std::max(2048 * 500, (int)tempbufSize));
_PsmfPlayerFillRingbuffer(psmfplayer);
psmfplayer->psmfPlayerLastTimestamp = psmfplayer->mediaengine->getLastTimeStamp();
}
return 0;
}
int scePsmfPlayerSetPsmf(u32 psmfPlayer, const char *filename)
{
PsmfPlayer *psmfplayer = getPsmfPlayer(psmfPlayer);
if (psmfplayer)
{
INFO_LOG(ME, "scePsmfPlayerSetPsmf(%08x, %s)", psmfPlayer, filename);
psmfplayer->status = PSMF_PLAYER_STATUS_STANDBY;
_PsmfPlayerSetPsmfOffset(psmfplayer, filename, 0, false);
}
else
{
ERROR_LOG(ME, "scePsmfPlayerSetPsmf(%08x, %s): invalid psmf player", psmfPlayer, filename);
}
return 0;
}
int scePsmfPlayerSetPsmfCB(u32 psmfPlayer, const char *filename)
{
// TODO: hleCheckCurrentCallbacks?
PsmfPlayer *psmfplayer = getPsmfPlayer(psmfPlayer);
if (psmfplayer)
{
INFO_LOG(ME, "scePsmfPlayerSetPsmfCB(%08x, %s)", psmfPlayer, filename);
psmfplayer->status = PSMF_PLAYER_STATUS_STANDBY;
_PsmfPlayerSetPsmfOffset(psmfplayer, filename, 0, true);
}
else
{
ERROR_LOG(ME, "scePsmfPlayerSetPsmfCB(%08x, %s): invalid psmf player", psmfPlayer, filename);
}
return 0;
}
int scePsmfPlayerSetPsmfOffset(u32 psmfPlayer, const char *filename, int offset)
{
PsmfPlayer *psmfplayer = getPsmfPlayer(psmfPlayer);
if (psmfplayer)
{
INFO_LOG(ME, "scePsmfPlayerSetPsmfOffset(%08x, %s, %i)", psmfPlayer, filename, offset);
psmfplayer->status = PSMF_PLAYER_STATUS_STANDBY;
_PsmfPlayerSetPsmfOffset(psmfplayer, filename, offset, false);
}
else
{
ERROR_LOG(ME, "scePsmfPlayerSetPsmfOffset(%08x, %s, %i): invalid psmf player", psmfPlayer, filename, offset);
}
return 0;
}
int scePsmfPlayerSetPsmfOffsetCB(u32 psmfPlayer, const char *filename, int offset)
{
// TODO: hleCheckCurrentCallbacks?
PsmfPlayer *psmfplayer = getPsmfPlayer(psmfPlayer);
if (psmfplayer)
{
INFO_LOG(ME, "scePsmfPlayerSetPsmfOffsetCB(%08x, %s, %i)", psmfPlayer, filename, offset);
psmfplayer->status = PSMF_PLAYER_STATUS_STANDBY;
_PsmfPlayerSetPsmfOffset(psmfplayer, filename, offset, true);
}
else
{
ERROR_LOG(ME, "scePsmfPlayerSetPsmfOffsetCB(%08x, %s, %i): invalid psmf player", psmfPlayer, filename, offset);
}
return 0;
}
int scePsmfPlayerGetAudioOutSize(u32 psmfPlayer)
{
WARN_LOG(ME, "scePsmfPlayerGetAudioOutSize(%08x)", psmfPlayer);
return audioSamplesBytes;
}
int scePsmfPlayerStart(u32 psmfPlayer, u32 psmfPlayerData, int initPts)
{
WARN_LOG(ME, "UNIMPL scePsmfPlayerStart(%08x, %08x, %08x)", psmfPlayer, psmfPlayerData, initPts);
PsmfPlayer *psmfplayer = getPsmfPlayer(psmfPlayer);
if (!psmfplayer) {
psmfplayer = new PsmfPlayer(psmfPlayerData);
psmfPlayerMap[psmfPlayer] = psmfplayer;
}
if (Memory::IsValidAddress(psmfPlayerData)) {
PsmfPlayerData data = {0};
Memory::ReadStruct(psmfPlayerData, &data);
psmfplayer->videoCodec = data.videoCodec;
psmfplayer->videoStreamNum = data.videoStreamNum;
psmfplayer->audioCodec = data.audioCodec;
psmfplayer->audioStreamNum = data.audioStreamNum;
psmfplayer->playMode = data.playMode;
psmfplayer->playSpeed = data.playSpeed;
/*data.videoCodec = psmfplayer->videoCodec;
data.videoStreamNum = psmfplayer->videoStreamNum;
data.audioCodec = psmfplayer->audioCodec;
data.audioStreamNum = psmfplayer->audioStreamNum;
data.playMode = psmfplayer->playMode;
data.playSpeed = psmfplayer->playSpeed;
data.psmfPlayerLastTimestamp = psmfplayer->psmfPlayerLastTimestamp;
Memory::WriteStruct(psmfPlayerData, &data);*/
}
psmfplayer->psmfPlayerAtracAu.dts = initPts;
psmfplayer->psmfPlayerAtracAu.pts = initPts;
psmfplayer->psmfPlayerAvcAu.dts = initPts;
psmfplayer->psmfPlayerAvcAu.pts = initPts;
psmfplayer->status = PSMF_PLAYER_STATUS_PLAYING;
psmfplayer->mediaengine->openContext();
return 0;
}
int scePsmfPlayerDelete(u32 psmfPlayer)
{
PsmfPlayer *psmfplayer = getPsmfPlayer(psmfPlayer);
if (psmfplayer) {
INFO_LOG(ME, "scePsmfPlayerDelete(%08x)", psmfPlayer);
delete psmfplayer;
psmfPlayerMap.erase(psmfPlayer);
} else {
ERROR_LOG(ME, "scePsmfPlayerDelete(%08x): invalid psmf player", psmfPlayer);
}
return 0;
}
int scePsmfPlayerUpdate(u32 psmfPlayer)
{
PsmfPlayer *psmfplayer = getPsmfPlayer(psmfPlayer);
if (!psmfplayer) {
ERROR_LOG(ME, "scePsmfPlayerUpdate(%08x): invalid psmf player", psmfPlayer);
return ERROR_PSMF_NOT_FOUND;
}
DEBUG_LOG(ME, "scePsmfPlayerUpdate(%08x)", psmfPlayer);
if (psmfplayer->psmfPlayerAvcAu.pts > 0) {
if (psmfplayer->mediaengine->IsVideoEnd()) {
INFO_LOG(ME, "video end reached");
psmfplayer->status = PSMF_PLAYER_STATUS_PLAYING_FINISHED;
}
}
return 0;
}
int scePsmfPlayerReleasePsmf(u32 psmfPlayer)
{
ERROR_LOG(ME, "UNIMPL scePsmfPlayerReleasePsmf(%08x)", psmfPlayer);
PsmfPlayer *psmfplayer = getPsmfPlayer(psmfPlayer);
if (psmfplayer)
psmfplayer->status = PSMF_PLAYER_STATUS_INIT;
return 0;
}
int scePsmfPlayerGetVideoData(u32 psmfPlayer, u32 videoDataAddr)
{
PsmfPlayer *psmfplayer = getPsmfPlayer(psmfPlayer);
if (!psmfplayer) {
ERROR_LOG(ME, "scePsmfPlayerGetVideoData(%08x, %08x): invalid psmf player", psmfPlayer, videoDataAddr);
return ERROR_PSMF_NOT_FOUND;
}
DEBUG_LOG(ME, "scePsmfPlayerGetVideoData(%08x, %08x)", psmfPlayer, videoDataAddr);
if (Memory::IsValidAddress(videoDataAddr)) {
int frameWidth = Memory::Read_U32(videoDataAddr);
u32 displaybuf = Memory::Read_U32(videoDataAddr + 4);
int displaypts = Memory::Read_U32(videoDataAddr + 8);
if (psmfplayer->mediaengine->stepVideo(videoPixelMode)) {
int displaybufSize = psmfplayer->mediaengine->writeVideoImage(Memory::GetPointer(displaybuf), frameWidth, videoPixelMode);
gpu->InvalidateCache(displaybuf, displaybufSize, GPU_INVALIDATE_SAFE);
}
psmfplayer->psmfPlayerAvcAu.pts = psmfplayer->mediaengine->getVideoTimeStamp();
Memory::Write_U32(psmfplayer->psmfPlayerAvcAu.pts, videoDataAddr + 8);
}
_PsmfPlayerFillRingbuffer(psmfplayer);
int ret = psmfplayer->mediaengine->IsVideoEnd() ? (int)ERROR_PSMFPLAYER_NO_MORE_DATA : 0;
s64 deltapts = psmfplayer->mediaengine->getVideoTimeStamp() - psmfplayer->mediaengine->getAudioTimeStamp();
int delaytime = 3000;
if (deltapts > 0 && !psmfplayer->mediaengine->IsNoAudioData())
delaytime = deltapts * 1000000 / 90000;
if (!ret)
return hleDelayResult(ret, "psmfPlayer video decode", delaytime);
else
return hleDelayResult(ret, "psmfPlayer all data decoded", 3000);
}
int scePsmfPlayerGetAudioData(u32 psmfPlayer, u32 audioDataAddr)
{
PsmfPlayer *psmfplayer = getPsmfPlayer(psmfPlayer);
if (!psmfplayer) {
ERROR_LOG(ME, "scePsmfPlayerGetAudioData(%08x, %08x): invalid psmf player", psmfPlayer, audioDataAddr);
return ERROR_PSMF_NOT_FOUND;
}
DEBUG_LOG(ME, "scePsmfPlayerGetAudioData(%08x, %08x)", psmfPlayer, audioDataAddr);
if (Memory::IsValidAddress(audioDataAddr)) {
Memory::Memset(audioDataAddr, 0, audioSamplesBytes);
psmfplayer->mediaengine->getAudioSamples(Memory::GetPointer(audioDataAddr));
}
int ret = psmfplayer->mediaengine->IsNoAudioData() ? (int)ERROR_PSMFPLAYER_NO_MORE_DATA : 0;
return hleDelayResult(ret, "psmfPlayer audio decode", 3000);
}
int scePsmfPlayerGetCurrentStatus(u32 psmfPlayer)
{
PsmfPlayer *psmfplayer = getPsmfPlayer(psmfPlayer);
if (!psmfplayer) {
ERROR_LOG(ME, "scePsmfPlayerGetCurrentStatus(%08x): invalid psmf player", psmfPlayer);
return ERROR_PSMF_NOT_FOUND;
}
DEBUG_LOG(ME, "%d=scePsmfPlayerGetCurrentStatus(%08x)", psmfplayer->status, psmfPlayer);
return psmfplayer->status;
}
u32 scePsmfPlayerGetCurrentPts(u32 psmfPlayer, u32 currentPtsAddr)
{
PsmfPlayer *psmfplayer = getPsmfPlayer(psmfPlayer);
if (!psmfplayer) {
ERROR_LOG(ME, "scePsmfPlayerGetCurrentPts(%08x, %08x): invalid psmf player", psmfPlayer, currentPtsAddr);
return ERROR_PSMF_NOT_FOUND;
}
DEBUG_LOG(ME, "scePsmfPlayerGetCurrentPts(%08x, %08x)", psmfPlayer, currentPtsAddr);
if (psmfplayer->status < PSMF_PLAYER_STATUS_STANDBY) {
return ERROR_PSMFPLAYER_NOT_INITIALIZED;
}
if (Memory::IsValidAddress(currentPtsAddr)) {
Memory::Write_U32(psmfplayer->psmfPlayerAvcAu.pts, currentPtsAddr);
}
return 0;
}
u32 scePsmfPlayerGetPsmfInfo(u32 psmfPlayer, u32 psmfInfoAddr)
{
PsmfPlayer *psmfplayer = getPsmfPlayer(psmfPlayer);
if (!psmfplayer) {
ERROR_LOG(ME, "scePsmfPlayerGetPsmfInfo(%08x, %08x): invalid psmf player", psmfPlayer, psmfInfoAddr);
return ERROR_PSMF_NOT_FOUND;
}
if (psmfplayer->status < PSMF_PLAYER_STATUS_STANDBY) {
ERROR_LOG(ME, "scePsmfPlayerGetPsmfInfo(%08x, %08x): not initialized", psmfPlayer, psmfInfoAddr);
return ERROR_PSMFPLAYER_NOT_INITIALIZED;
}
DEBUG_LOG(ME, "scePsmfPlayerGetPsmfInfo(%08x, %08x)", psmfPlayer, psmfInfoAddr);
if (Memory::IsValidAddress(psmfInfoAddr)) {
Memory::Write_U32(psmfplayer->psmfPlayerLastTimestamp, psmfInfoAddr);
Memory::Write_U32(psmfplayer->videoStreamNum, psmfInfoAddr + 4);
Memory::Write_U32(psmfplayer->audioStreamNum, psmfInfoAddr + 8);
// pcm stream num?
Memory::Write_U32(0, psmfInfoAddr + 12);
// Player version?
Memory::Write_U32(0, psmfInfoAddr + 16);
}
return 0;
}
u32 scePsmfPlayerGetCurrentPlayMode(u32 psmfPlayer, u32 playModeAddr, u32 playSpeedAddr)
{
PsmfPlayer *psmfplayer = getPsmfPlayer(psmfPlayer);
if (!psmfplayer) {
ERROR_LOG(ME, "scePsmfPlayerGetCurrentPlayMode(%08x, %08x, %08x): invalid psmf player", psmfPlayer, playModeAddr, playSpeedAddr);
return ERROR_PSMF_NOT_FOUND;
}
WARN_LOG(ME, "scePsmfPlayerGetCurrentPlayMode(%08x, %08x, %08x)", psmfPlayer, playModeAddr, playSpeedAddr);
if (Memory::IsValidAddress(playModeAddr)) {
Memory::Write_U32(psmfplayer->playMode, playModeAddr); //Fixing for AKB MPEG wrong pointer
}
if (Memory::IsValidAddress(playSpeedAddr)) {
Memory::Write_U32(psmfplayer->playSpeed, playSpeedAddr); //Fixing for AKB MPEG wrong pointer
}
return 0;
}
u32 scePsmfPlayerGetCurrentVideoStream(u32 psmfPlayer, u32 videoCodecAddr, u32 videoStreamNumAddr)
{
PsmfPlayer *psmfplayer = getPsmfPlayer(psmfPlayer);
if (!psmfplayer) {
ERROR_LOG(ME, "scePsmfPlayerGetCurrentVideoStream(%08x, %08x, %08x): invalid psmf player", psmfPlayer, videoCodecAddr, videoStreamNumAddr);
return ERROR_PSMF_NOT_FOUND;
}
WARN_LOG(ME, "scePsmfPlayerGetCurrentVideoStream(%08x, %08x, %08x)", psmfPlayer, videoCodecAddr, videoStreamNumAddr);
if (Memory::IsValidAddress(videoCodecAddr)) {
Memory::Write_U64(psmfplayer->videoCodec, videoCodecAddr);
}
if (Memory::IsValidAddress(videoStreamNumAddr)) {
Memory::Write_U64(psmfplayer->videoStreamNum, videoStreamNumAddr);
}
return 0;
}
u32 scePsmfPlayerGetCurrentAudioStream(u32 psmfPlayer, u32 audioCodecAddr, u32 audioStreamNumAddr)
{
PsmfPlayer *psmfplayer = getPsmfPlayer(psmfPlayer);
if (!psmfplayer) {
ERROR_LOG(ME, "scePsmfPlayerGetCurrentAudioStream(%08x, %08x, %08x): invalid psmf player", psmfPlayer, audioCodecAddr, audioStreamNumAddr);
return ERROR_PSMF_NOT_FOUND;
}
WARN_LOG(ME, "scePsmfPlayerGetCurrentAudioStream(%08x, %08x, %08x)", psmfPlayer, audioCodecAddr, audioStreamNumAddr);
if (Memory::IsValidAddress(audioCodecAddr)) {
Memory::Write_U64(psmfplayer->audioCodec, audioCodecAddr);
}
if (Memory::IsValidAddress(audioStreamNumAddr)) {
Memory::Write_U64(psmfplayer->audioStreamNum, audioStreamNumAddr);
}
return 0;
}
int scePsmfPlayerSetTempBuf(u32 psmfPlayer, u32 tempBufAddr, u32 tempBufSize)
{
INFO_LOG(ME, "scePsmfPlayerSetTempBuf(%08x, %08x, %08x)", psmfPlayer, tempBufAddr, tempBufSize);
PsmfPlayer *psmfplayer = getPsmfPlayer(psmfPlayer);
if (psmfplayer) {
psmfplayer->status = PSMF_PLAYER_STATUS_INIT;
// fake it right now, use tempbuf from memory directly
//psmfplayer->tempbuf = tempBufAddr;
//psmfplayer->tempbufSize = tempBufSize;
}
return 0;
}
u32 scePsmfPlayerChangePlayMode(u32 psmfPlayer, int playMode, int playSpeed)
{
PsmfPlayer *psmfplayer = getPsmfPlayer(psmfPlayer);
if (!psmfplayer) {
ERROR_LOG(ME, "scePsmfPlayerChangePlayMode(%08x, %i, %i): invalid psmf player", psmfPlayer, playMode, playSpeed);
return ERROR_PSMF_NOT_FOUND;
}
WARN_LOG(ME, "scePsmfPlayerChangePlayMode(%08x, %i, %i)", psmfPlayer, playMode, playSpeed);
psmfplayer->playMode = playMode;
psmfplayer->playSpeed = playSpeed;
return 0;
}
u32 scePsmfPlayerSelectAudio(u32 psmfPlayer)
{
PsmfPlayer *psmfplayer = getPsmfPlayer(psmfPlayer);
if (!psmfplayer) {
ERROR_LOG(ME, "scePsmfPlayerSelectAudio(%08x): invalid psmf player", psmfPlayer);
return ERROR_PSMF_NOT_FOUND;
}
ERROR_LOG(ME, "scePsmfPlayerSelectAudio(%08x)", psmfPlayer);
psmfplayer->audioStreamNum++;
return 0;
}
u32 scePsmfPlayerSelectVideo(u32 psmfPlayer)
{
PsmfPlayer *psmfplayer = getPsmfPlayer(psmfPlayer);
if (!psmfplayer) {
ERROR_LOG(ME, "scePsmfPlayerSelectVideo(%08x): invalid psmf player", psmfPlayer);
return ERROR_PSMF_NOT_FOUND;
}
ERROR_LOG(ME, "scePsmfPlayerSelectVideo(%08x)", psmfPlayer);
psmfplayer->videoStreamNum++;
return 0;
}
u32 scePsmfPlayerSelectSpecificVideo(u32 psmfPlayer, int videoCodec, int videoStreamNum)
{
PsmfPlayer *psmfplayer = getPsmfPlayer(psmfPlayer);
if (!psmfplayer) {
ERROR_LOG(ME, "scePsmfPlayerSelectSpecificVideo(%08x, %i, %i): invalid psmf player", psmfPlayer, videoCodec, videoStreamNum);
return ERROR_PSMF_NOT_FOUND;
}
ERROR_LOG(ME, "scePsmfPlayerSelectSpecificVideo(%08x, %i, %i)", psmfPlayer, videoCodec, videoStreamNum);
psmfplayer->videoCodec = videoCodec;
psmfplayer->videoStreamNum = videoStreamNum;
psmfplayer->mediaengine->setVideoStream(videoStreamNum);
return 0;
}
u32 scePsmfPlayerSelectSpecificAudio(u32 psmfPlayer, int audioCodec, int audioStreamNum)
{
PsmfPlayer *psmfplayer = getPsmfPlayer(psmfPlayer);
if (!psmfplayer) {
ERROR_LOG(ME, "scePsmfPlayerSelectSpecificAudio(%08x, %i, %i): invalid psmf player", psmfPlayer, audioCodec, audioStreamNum);
return ERROR_PSMF_NOT_FOUND;
}
ERROR_LOG(ME, "scePsmfPlayerSelectSpecificAudio(%08x, %i, %i)", psmfPlayer, audioCodec, audioStreamNum);
psmfplayer->audioCodec = audioCodec;
psmfplayer->audioStreamNum = audioStreamNum;
psmfplayer->mediaengine->setAudioStream(audioStreamNum);
return 0;
}
u32 scePsmfPlayerConfigPlayer(u32 psmfPlayer, int configMode, int configAttr)
{
PsmfPlayer *psmfplayer = getPsmfPlayer(psmfPlayer);
if (!psmfplayer) {
ERROR_LOG(ME, "scePsmfPlayerConfigPlayer(%08x, %i, %i): invalid psmf player", psmfPlayer, configMode, configAttr);
return ERROR_PSMF_NOT_FOUND;
}
if (configMode == PSMF_PLAYER_CONFIG_MODE_LOOP) {
INFO_LOG(ME, "scePsmfPlayerConfigPlayer(%08x, loop, %i)", psmfPlayer, configAttr);
videoLoopStatus = configAttr;
} else if (configMode == PSMF_PLAYER_CONFIG_MODE_PIXEL_TYPE) {
INFO_LOG(ME, "scePsmfPlayerConfigPlayer(%08x, pixelType, %i)", psmfPlayer, configAttr);
// Does -1 mean default or something?
if (configAttr != -1) {
videoPixelMode = configAttr;
}
} else {
ERROR_LOG_REPORT(ME, "scePsmfPlayerConfigPlayer(%08x, %i, %i): unknown parameter", psmfPlayer, configMode, configAttr);
}
return 0;
}
const HLEFunction scePsmf[] = {
{0xc22c8327, WrapU_UU<scePsmfSetPsmf>, "scePsmfSetPsmf"},
{0xC7DB3A5B, WrapU_UUU<scePsmfGetCurrentStreamType>, "scePsmfGetCurrentStreamType"},
{0x28240568, WrapU_U<scePsmfGetCurrentStreamNumber>, "scePsmfGetCurrentStreamNumber"},
{0x1E6D9013, WrapU_UUU<scePsmfSpecifyStreamWithStreamType>, "scePsmfSpecifyStreamWithStreamType"},
{0x0C120E1D, WrapU_UUU<scePsmfSpecifyStreamWithStreamTypeNumber>, "scePsmfSpecifyStreamWithStreamTypeNumber"},
{0x4BC9BDE0, WrapU_UI<scePsmfSpecifyStream>, "scePsmfSpecifyStream"},
{0x76D3AEBA, WrapU_UU<scePsmfGetPresentationStartTime>, "scePsmfGetPresentationStartTime"},
{0xBD8AE0D8, WrapU_UU<scePsmfGetPresentationEndTime>, "scePsmfGetPresentationEndTime"},
{0xEAED89CD, WrapU_U<scePsmfGetNumberOfStreams>, "scePsmfGetNumberOfStreams"},
{0x7491C438, WrapU_U<scePsmfGetNumberOfEPentries>, "scePsmfGetNumberOfEPentries"},
{0x0BA514E5, WrapU_UU<scePsmfGetVideoInfo>, "scePsmfGetVideoInfo"},
{0xA83F7113, WrapU_UU<scePsmfGetAudioInfo>, "scePsmfGetAudioInfo"},
{0x971A3A90, WrapU_U<scePsmfCheckEPMap>, "scePsmfCheckEPmap"},
{0x68d42328, WrapU_UI<scePsmfGetNumberOfSpecificStreams>, "scePsmfGetNumberOfSpecificStreams"},
{0x5b70fcc1, WrapU_UU<scePsmfQueryStreamOffset>, "scePsmfQueryStreamOffset"},
{0x9553cc91, WrapU_UU<scePsmfQueryStreamSize>, "scePsmfQueryStreamSize"},
{0xB78EB9E9, WrapU_UU<scePsmfGetHeaderSize>, "scePsmfGetHeaderSize"},
{0xA5EBFE81, WrapU_UU<scePsmfGetStreamSize>, "scePsmfGetStreamSize"},
{0xE1283895, WrapU_U<scePsmfGetPsmfVersion>, "scePsmfGetPsmfVersion"},
{0x2673646B, WrapU_U<scePsmfVerifyPsmf>, "scePsmfVerifyPsmf"},
{0x4E624A34, WrapU_UIU<scePsmfGetEPWithId>, "scePsmfGetEPWithId"},
{0x7C0E7AC3, WrapU_UUU<scePsmfGetEPWithTimestamp>, "scePsmfGetEPWithTimestamp"},
{0x5F457515, WrapU_UU<scePsmfGetEPidWithTimestamp>, "scePsmfGetEPidWithTimestamp"},
{0x43ac7dbb, 0, "scePsmf_43AC7DBB"},
{0xde78e9fc, 0, "scePsmf_DE78E9FC"},
};
const HLEFunction scePsmfPlayer[] =
{
{0x235d8787, WrapI_UU<scePsmfPlayerCreate>, "scePsmfPlayerCreate"},
{0x1078c008, WrapI_U<scePsmfPlayerStop>, "scePsmfPlayerStop"},
{0x1e57a8e7, WrapU_UII<scePsmfPlayerConfigPlayer>, "scePsmfPlayerConfigPlayer"},
{0x2beb1569, WrapI_U<scePsmfPlayerBreak>, "scePsmfPlayerBreak"},
{0x3d6d25a9, WrapI_UC<scePsmfPlayerSetPsmf>,"scePsmfPlayerSetPsmf"},
{0x58B83577, WrapI_UC<scePsmfPlayerSetPsmfCB>, "scePsmfPlayerSetPsmfCB"},
{0x3ea82a4b, WrapI_U<scePsmfPlayerGetAudioOutSize>, "scePsmfPlayerGetAudioOutSize"},
{0x3ed62233, WrapU_UU<scePsmfPlayerGetCurrentPts>, "scePsmfPlayerGetCurrentPts"},
{0x46f61f8b, WrapI_UU<scePsmfPlayerGetVideoData>, "scePsmfPlayerGetVideoData"},
{0x68f07175, WrapU_UUU<scePsmfPlayerGetCurrentAudioStream>, "scePsmfPlayerGetCurrentAudioStream"},
{0x75f03fa2, WrapU_UII<scePsmfPlayerSelectSpecificVideo>, "scePsmfPlayerSelectSpecificVideo"},
{0x85461eff, WrapU_UII<scePsmfPlayerSelectSpecificAudio>, "scePsmfPlayerSelectSpecificAudio"},
{0x8a9ebdcd, WrapU_U<scePsmfPlayerSelectVideo>, "scePsmfPlayerSelectVideo"},
{0x95a84ee5, WrapI_UUI<scePsmfPlayerStart>, "scePsmfPlayerStart"},
{0x9b71a274, WrapI_U<scePsmfPlayerDelete>, "scePsmfPlayerDelete"},
{0x9ff2b2e7, WrapU_UUU<scePsmfPlayerGetCurrentVideoStream>, "scePsmfPlayerGetCurrentVideoStream"},
{0xa0b8ca55, WrapI_U<scePsmfPlayerUpdate>, "scePsmfPlayerUpdate"},
{0xa3d81169, WrapU_UII<scePsmfPlayerChangePlayMode>, "scePsmfPlayerChangePlayMode"},
{0xb8d10c56, WrapU_U<scePsmfPlayerSelectAudio>, "scePsmfPlayerSelectAudio"},
{0xb9848a74, WrapI_UU<scePsmfPlayerGetAudioData>, "scePsmfPlayerGetAudioData"},
{0xdf089680, WrapU_UU<scePsmfPlayerGetPsmfInfo>, "scePsmfPlayerGetPsmfInfo"},
{0xe792cd94, WrapI_U<scePsmfPlayerReleasePsmf>, "scePsmfPlayerReleasePsmf"},
{0xf3efaa91, WrapU_UUU<scePsmfPlayerGetCurrentPlayMode>, "scePsmfPlayerGetCurrentPlayMode"},
{0xf8ef08a6, WrapI_U<scePsmfPlayerGetCurrentStatus>, "scePsmfPlayerGetCurrentStatus"},
{0x2D0E4E0A, WrapI_UUU<scePsmfPlayerSetTempBuf>, "scePsmfPlayerSetTempBuf"},
{0x76C0F4AE, WrapI_UCI<scePsmfPlayerSetPsmfOffset>, "scePsmfPlayerSetPsmfOffset"},
{0xA72DB4F9, WrapI_UCI<scePsmfPlayerSetPsmfOffsetCB>, "scePsmfPlayerSetPsmfOffsetCB"},
{0x340c12cb, 0, "scePsmfPlayer_340C12CB"},
};
void Register_scePsmf() {
RegisterModule("scePsmf",ARRAY_SIZE(scePsmf),scePsmf);
}
void Register_scePsmfPlayer() {
RegisterModule("scePsmfPlayer",ARRAY_SIZE(scePsmfPlayer),scePsmfPlayer);
}