#include "Common/Serialize/SerializeFuncs.h" #include "Core/HW/MpegDemux.h" #include "Core/Reporting.h" const int PACKET_START_CODE_MASK = 0xffffff00; const int PACKET_START_CODE_PREFIX = 0x00000100; // http://dvd.sourceforge.net/dvdinfo/mpeghdrs.html const int USER_DATA_START_CODE = 0x000001b2; const int SEQUENCE_START_CODE = 0x000001b3; const int EXT_START_CODE = 0x000001b5; const int SEQUENCE_END_CODE = 0x000001b7; const int GOP_START_CODE = 0x000001b8; const int ISO_11172_END_CODE = 0x000001b9; const int PACK_START_CODE = 0x000001ba; const int SYSTEM_HEADER_START_CODE = 0x000001bb; const int PROGRAM_STREAM_MAP = 0x000001bc; const int PRIVATE_STREAM_1 = 0x000001bd; const int PADDING_STREAM = 0x000001be; const int PRIVATE_STREAM_2 = 0x000001bf; MpegDemux::MpegDemux(int size, int offset) : m_audioStream(size) { m_buf = new u8[size]; m_len = size; m_index = offset; m_audioChannel = -1; m_readSize = 0; } MpegDemux::~MpegDemux() { delete [] m_buf; } void MpegDemux::DoState(PointerWrap &p) { auto s = p.Section("MpegDemux", 1); if (!s) return; Do(p, m_index); Do(p, m_len); Do(p, m_audioChannel); Do(p, m_readSize); if (m_buf) DoArray(p, m_buf, m_len); DoClass(p, m_audioStream); } bool MpegDemux::addStreamData(const u8 *buf, int addSize) { if (m_readSize + addSize > m_len) return false; memcpy(m_buf + m_readSize, buf, addSize); m_readSize += addSize; return true; } int MpegDemux::readPesHeader(PesHeader &pesHeader, int length, int startCode) { int c = 0; while (length > 0) { c = read8(); length--; if (c != 0xFF) { break; } } if ((c & 0xC0) == 0x40) { read8(); c = read8(); length -= 2; } pesHeader.pts = 0; pesHeader.dts = 0; if ((c & 0xE0) == 0x20) { pesHeader.dts = pesHeader.pts = readPts(c); length -= 4; if ((c & 0x10) != 0) { pesHeader.dts = readPts(); length -= 5; } } else if ((c & 0xC0) == 0x80) { int flags = read8(); int headerLength = read8(); length -= 2; length -= headerLength; if ((flags & 0x80) != 0) { pesHeader.dts = pesHeader.pts = readPts(); headerLength -= 5; if ((flags & 0x40) != 0) { pesHeader.dts = readPts(); headerLength -= 5; } } if ((flags & 0x3F) != 0 && headerLength == 0) { flags &= 0xC0; } if ((flags & 0x01) != 0) { int pesExt = read8(); headerLength--; int skip = (pesExt >> 4) & 0x0B; skip += skip & 0x09; if ((pesExt & 0x40) != 0 || skip > headerLength) { pesExt = skip = 0; } this->skip(skip); headerLength -= skip; if ((pesExt & 0x01) != 0) { int ext2Length = read8(); headerLength--; if ((ext2Length & 0x7F) != 0) { int idExt = read8(); headerLength--; if ((idExt & 0x80) == 0) { startCode = ((startCode & 0xFF) << 8) | idExt; } } } } skip(headerLength); } if (startCode == PRIVATE_STREAM_1) { int channel = read8(); pesHeader.channel = channel; length--; if (channel >= 0x80 && channel <= 0xCF) { // Skip audio header skip(3); length -= 3; if (channel >= 0xB0 && channel <= 0xBF) { skip(1); length--; } } else { // PSP audio has additional 3 bytes in header skip(3); length -= 3; } } return length; } int MpegDemux::demuxStream(bool bdemux, int startCode, int length, int channel) { if (bdemux) { PesHeader pesHeader(channel); length = readPesHeader(pesHeader, length, startCode); if (pesHeader.channel == channel || channel < 0) { channel = pesHeader.channel; m_audioStream.push(m_buf + m_index, length, pesHeader.pts); } skip(length); } else { skip(length); } return channel; } bool MpegDemux::skipPackHeader() { // MPEG version / SCR if ((read8() & 0xC4) != 0x44) { return false; } skip(1); if ((read8() & 0x04) != 0x04) { return false; } skip(1); if ((read8() & 0x04) != 0x04) { return false; } // SCR_ext if ((read8() & 0x01) != 0x01) { return false; } int muxrate = read24(); if ((muxrate & 3) != 3) { return false; } int stuffing = read8() & 7; while (stuffing > 0) { if (read8() != 0xFF) { return false; } --stuffing; } return true; } bool MpegDemux::demux(int audioChannel) { if (audioChannel >= 0) m_audioChannel = audioChannel; bool looksValid = false; bool needMore = false; while (m_index < m_readSize && !needMore) { // Search for start code int startCode = 0xFF; while ((startCode & PACKET_START_CODE_MASK) != PACKET_START_CODE_PREFIX && !isEOF()) { startCode = (startCode << 8) | read8(); } // Not enough data available yet. if (m_readSize - m_index < 16) { m_index -= 4; break; } switch (startCode) { case PACK_START_CODE: if (skipPackHeader()) { looksValid = true; } break; case SYSTEM_HEADER_START_CODE: { looksValid = true; int length = read16(); if (m_readSize - m_index < length) { m_index -= 4 + 2; needMore = true; break; } skip(length); break; } case PADDING_STREAM: case PRIVATE_STREAM_2: { looksValid = true; int length = read16(); if (m_readSize - m_index < length) { m_index -= 4 + 2; needMore = true; break; } skip(length); break; } case PRIVATE_STREAM_1: { // Audio stream int length = read16(); // Check for PES header marker. looksValid = (m_buf[m_index] & 0xC0) == 0x80; if (m_readSize - m_index < length) { m_index -= 4 + 2; needMore = true; break; } m_audioChannel = demuxStream(true, startCode, length, m_audioChannel); looksValid = true; break; } case 0x1E0: case 0x1E1: case 0x1E2: case 0x1E3: case 0x1E4: case 0x1E5: case 0x1E6: case 0x1E7: case 0x1E8: case 0x1E9: case 0x1EA: case 0x1EB: case 0x1EC: case 0x1ED: case 0x1EE: case 0x1EF: { // Video Stream int length = read16(); // Check for PES header marker. looksValid = (m_buf[m_index] & 0xC0) == 0x80; if (m_readSize - m_index < length) { m_index -= 4 + 2; needMore = true; break; } demuxStream(false, startCode, length, -1); break; } case USER_DATA_START_CODE: // User data, probably same as queried by sceMpegGetUserdataAu. // Not sure what exactly to do or how much to read. // TODO: implement properly. WARN_LOG_REPORT_ONCE(mpeguserdata, ME, "MPEG user data found"); looksValid = true; break; } } if (m_index < m_readSize) { int size = m_readSize - m_index; memmove(m_buf, m_buf + m_index, size); m_index = 0; m_readSize = size; } else { m_index = 0; m_readSize = 0; } return looksValid; } static bool isHeader(const u8 *audioStream, int offset) { const u8 header1 = (u8)0x0F; const u8 header2 = (u8)0xD0; return (audioStream[offset] == header1) && (audioStream[offset+1] == header2); } static int getNextHeaderPosition(u8* audioStream, int curpos, int limit, int frameSize) { int endScan = limit - 1; // Most common case: the header can be found at each frameSize int offset = curpos + frameSize - 8; if (offset < endScan && isHeader(audioStream, offset)) return offset; for (int scan = curpos; scan < endScan; scan++) { if (isHeader(audioStream, scan)) return scan; } return -1; } int MpegDemux::getNextAudioFrame(u8 **buf, int *headerCode1, int *headerCode2, s64 *pts) { int gotsize; int frameSize; if (!hasNextAudioFrame(&gotsize, &frameSize, headerCode1, headerCode2)) return 0; int audioPos = 8; int nextHeader = getNextHeaderPosition(m_audioFrame, audioPos, gotsize, frameSize); if (nextHeader >= 0) { audioPos = nextHeader; } else { audioPos = gotsize; } m_audioStream.pop_front(0, audioPos, pts); if (buf) { *buf = m_audioFrame + 8; } return frameSize - 8; } bool MpegDemux::hasNextAudioFrame(int *gotsizeOut, int *frameSizeOut, int *headerCode1, int *headerCode2) { int gotsize = m_audioStream.get_front(m_audioFrame, 0x2000); if (gotsize < 4 || !isHeader(m_audioFrame, 0)) return false; u8 code1 = m_audioFrame[2]; u8 code2 = m_audioFrame[3]; int frameSize = (((code1 & 0x03) << 8) | (code2 * 8)) + 0x10; if (frameSize > gotsize) return false; if (gotsizeOut) *gotsizeOut = gotsize; if (frameSizeOut) *frameSizeOut = frameSize; if (headerCode1) *headerCode1 = code1; if (headerCode2) *headerCode2 = code2; return true; }