Mercurial > foo_out_sdl
view foosdk/sdk/foobar2000/helpers/packet_decoder_aac_common.cpp @ 1:20d02a178406 default tip
*: check in everything else
yay
| author | Paper <paper@tflc.us> |
|---|---|
| date | Mon, 05 Jan 2026 02:15:46 -0500 |
| parents | |
| children |
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#include "StdAfx.h" #include "packet_decoder_aac_common.h" #include "../SDK/filesystem_helper.h" #include "bitreader_helper.h" size_t packet_decoder_aac_common::skipADTSHeader( const uint8_t * data,size_t size ) { if ( size < 7 ) throw exception_io_data(); PFC_ASSERT( bitreader_helper::extract_int(data, 0, 12) == 0xFFF); if (bitreader_helper::extract_bit(data, 12+1+2)) { return 7; // ABSENT flag } if (size < 9) throw exception_io_data(); return 9; } pfc::array_t<uint8_t> packet_decoder_aac_common::parseDecoderSetup( const GUID & p_owner,t_size p_param1,const void * p_param2,t_size p_param2size) { if ( p_owner == owner_ADTS ) { pfc::array_t<uint8_t> ret; ret.resize( 2 ); ret[0] = 0; ret[1] = 0; // ret: // 5 bits AOT // 4 bits freqindex // 4 bits channelconfig // source: // 12 bits 0xFFF // 4 bits disregard // 2 bits AOT-1 @ 16 // 4 bits freqindex @ 18 // 1 bit disregard // 3 bits channelconfig @ 23 // 26 bits total, 4 bytes minimum if ( p_param2size < 4 ) throw exception_io_data(); const uint8_t * source = (const uint8_t*) p_param2; if ( bitreader_helper::extract_int(source, 0, 12) != 0xFFF ) throw exception_io_data(); size_t aot = bitreader_helper::extract_int(source, 16, 2) + 1; if ( aot >= 31 ) throw exception_io_data(); size_t freqindex = bitreader_helper::extract_int(source, 18, 4); if ( freqindex > 12 ) throw exception_io_data(); size_t channelconfig = bitreader_helper::extract_bits( source, 23, 3); bitreader_helper::write_int(ret.get_ptr(), 0, 5, aot); bitreader_helper::write_int(ret.get_ptr(), 5, 4, freqindex); bitreader_helper::write_int(ret.get_ptr(), 9, 4, channelconfig); return ret; } else if ( p_owner == owner_ADIF ) { // bah } else if ( p_owner == owner_MP4 ) { if ( p_param1 == 0x40 || p_param1 == 0x66 || p_param1 == 0x67 || p_param1 == 0x68 ) { pfc::array_t<uint8_t> ret; ret.set_data_fromptr( (const uint8_t*) p_param2, p_param2size); return ret; } } else if ( p_owner == owner_matroska ) { const matroska_setup * setup = ( const matroska_setup * ) p_param2; if ( p_param2size == sizeof(*setup) ) { if ( !strcmp(setup->codec_id, "A_AAC") || !strncmp(setup->codec_id, "A_AAC/", 6) ) { pfc::array_t<uint8_t> ret; ret.set_data_fromptr( (const uint8_t*) setup->codec_private, setup->codec_private_size ); return ret; } } } throw exception_io_data(); } #if 0 bool packet_decoder_aac_common::parseDecoderSetup(const GUID &p_owner, t_size p_param1, const void *p_param2, t_size p_param2size, const void *&outCodecPrivate, size_t &outCodecPrivateSize) { outCodecPrivate = NULL; outCodecPrivateSize = 0; if ( p_owner == owner_ADTS ) { return true; } else if ( p_owner == owner_ADIF ) { return true; } else if ( p_owner == owner_MP4 ) { if ( p_param1 == 0x40 || p_param1 == 0x66 || p_param1 == 0x67 || p_param1 == 0x68 ) { outCodecPrivate = p_param2; outCodecPrivateSize = p_param2size; return true; } } else if ( p_owner == owner_matroska ) { const matroska_setup * setup = ( const matroska_setup * ) p_param2; if ( p_param2size == sizeof(*setup) ) { if ( !strcmp(setup->codec_id, "A_AAC") || !strncmp(setup->codec_id, "A_AAC/", 6) ) { outCodecPrivate = (const uint8_t *) setup->codec_private; outCodecPrivateSize = setup->codec_private_size; return true; } } } return false; } #endif bool packet_decoder_aac_common::testDecoderSetup( const GUID & p_owner, t_size p_param1, const void * p_param2, t_size p_param2size ) { if ( p_owner == owner_ADTS ) { return true; } else if ( p_owner == owner_ADIF ) { return true; } else if ( p_owner == owner_MP4 ) { if ( p_param1 == 0x40 || p_param1 == 0x66 || p_param1 == 0x67 || p_param1 == 0x68 ) { return true; } } else if ( p_owner == owner_matroska ) { const matroska_setup * setup = ( const matroska_setup * ) p_param2; if ( p_param2size == sizeof(*setup) ) { if ( !strcmp(setup->codec_id, "A_AAC") || !strncmp(setup->codec_id, "A_AAC/", 6) ) { return true; } } } return false; } namespace { class esds_maker : public stream_writer_buffer_simple { public: void write_esds_obj( uint8_t code, const void * data, size_t size, abort_callback & aborter ) { if ( size >= ( 1 << 28 ) ) throw pfc::exception_overflow(); write_byte(code, aborter); for ( int i = 3; i >= 0; -- i ) { uint8_t c = (uint8_t)( 0x7F & ( size >> 7 * i ) ); if ( i > 0 ) c |= 0x80; write_byte(c, aborter); } write( data, size, aborter ); } void write_esds_obj( uint8_t code, esds_maker const & other, abort_callback & aborter ) { write_esds_obj( code, other.m_buffer.get_ptr(), other.m_buffer.get_size(), aborter ); } void write_byte( uint8_t byte , abort_callback & aborter ) { write( &byte, 1, aborter ); } }; } void packet_decoder_aac_common::make_ESDS( pfc::array_t<uint8_t> & outESDS, const void * inCodecPrivate, size_t inCodecPrivateSize ) { if (inCodecPrivateSize > 1024*1024) throw exception_io_data(); // sanity auto & p_abort = fb2k::noAbort; esds_maker esds4; const uint8_t crap[] = {0x40, 0x15, 0x00, 0x00, 0x00, 0x00, 0x05, 0x34, 0x08, 0x00, 0x02, 0x3D, 0x55}; esds4.write( crap, sizeof(crap), p_abort ); { esds_maker esds5; esds5.write( inCodecPrivate, inCodecPrivateSize, p_abort ); esds4.write_esds_obj(5, esds5, p_abort); } esds_maker esds3; esds3.write_byte( 0, p_abort ); esds3.write_byte( 1, p_abort ); esds3.write_byte( 0, p_abort ); esds3.write_esds_obj(4, esds4, p_abort); // esds6 after esds4, but doesn't seem that important esds_maker final; final.write_esds_obj(3, esds3, p_abort); outESDS.set_data_fromptr( final.m_buffer.get_ptr(), final.m_buffer.get_size() ); /* static const uint8_t esdsTemplate[] = { 0x03, 0x80, 0x80, 0x80, 0x25, 0x00, 0x01, 0x00, 0x04, 0x80, 0x80, 0x80, 0x17, 0x40, 0x15, 0x00, 0x00, 0x00, 0x00, 0x05, 0x34, 0x08, 0x00, 0x02, 0x3D, 0x55, 0x05, 0x80, 0x80, 0x80, 0x05, 0x12, 0x30, 0x56, 0xE5, 0x00, 0x06, 0x80, 0x80, 0x80, 0x01, 0x02 }; */ // ESDS: 03 80 80 80 25 00 01 00 04 80 80 80 17 40 15 00 00 00 00 05 34 08 00 02 3D 55 05 80 80 80 05 12 30 56 E5 00 06 80 80 80 01 02 // For: 12 30 56 E5 00 } const uint32_t aac_sample_rates[] = { 96000, 88200, 64000, 48000, 44100, 32000, 24000, 22050, 16000, 12000, 11025, 8000, 7350 }; static unsigned readSamplingFreq(bitreader_helper::bitreader_limited& r) { unsigned samplingRateIndex = (unsigned)r.read(4); if (samplingRateIndex == 15) { return (unsigned)r.read(24); } else { if (samplingRateIndex >= PFC_TABSIZE(aac_sample_rates)) throw exception_io_data(); return aac_sample_rates[samplingRateIndex]; } } packet_decoder_aac_common::audioSpecificConfig_t packet_decoder_aac_common::parseASC(const void * p_, size_t s) { // Source: https://wiki.multimedia.cx/index.php?title=MPEG-4_Audio bitreader_helper::bitreader_limited r((const uint8_t*)p_, 0, s * 8); audioSpecificConfig_t cfg = {}; cfg.m_objectType = (unsigned) r.read(5); if (cfg.m_objectType == 31) { cfg.m_objectType = 32 + (unsigned) r.read(6); } cfg.m_sampleRate = readSamplingFreq(r); cfg.m_channels = (unsigned) r.read( 4 ); if (cfg.m_objectType == 5 || cfg.m_objectType == 29) { cfg.m_explicitSBR = true; cfg.m_explicitPS = (cfg.m_objectType == 29); cfg.m_sbrRate = readSamplingFreq(r); cfg.m_objectType = (unsigned)r.read(5); } switch (cfg.m_objectType) { case 1: case 2: case 3: case 4: case 17: case 23: cfg.m_shortWindow = (r.read(1) != 0); break; } return cfg; } unsigned packet_decoder_aac_common::get_ASC_object_type(const void * p_, size_t s) { // Source: https://wiki.multimedia.cx/index.php?title=MPEG-4_Audio bitreader_helper::bitreader_limited r((const uint8_t*)p_, 0, s * 8); unsigned objectType = (unsigned) r.read(5); if (objectType == 31) { objectType = 32 + (unsigned) r.read(6); } return objectType; } const char * packet_decoder_aac_common::objectTypeStr( unsigned ot ) { switch(ot) { case 1: return "Main"; case 2: return "LC"; case 3: return "SSR"; case 4: return "LTP"; case 5: return "SBR"; case 23: return "LD"; case 39: return "ELD"; case 42: case 45: return "USAC"; default: return nullptr; // unknown } } const char * packet_decoder_aac_common::audioSpecificConfig_t::objectTypeStr() const { return packet_decoder_aac_common::objectTypeStr( this->m_objectType ); } pfc::array_t<uint8_t> packet_decoder_aac_common::buildASC(audioSpecificConfig_t const& arg) { pfc::array_t<uint8_t> ret; ret.resize(5); memset(ret.get_ptr(), 0, ret.get_size()); unsigned pos = 0; auto write = [&](unsigned v, unsigned bits) { bitreader_helper::write_int(ret.get_ptr(), pos, bits, v); pos += bits; }; if (arg.m_objectType < 32) { write(arg.m_objectType, 5); } else { write(31, 5); write(arg.m_objectType - 32, 6); } { bool stdRate = false; for (unsigned i = 0; i < std::size(aac_sample_rates); ++i) { if (arg.m_sampleRate == aac_sample_rates[i]) { write(i, 4); stdRate = true; break; } } if (!stdRate) { write(arg.m_sampleRate, 24); } write(arg.m_channels, 4); } ret.set_size((pos + 7) / 8); return ret; } pfc::array_t<uint8_t> packet_decoder_aac_common::buildSafeASC(unsigned rate) { if (rate == 0) rate = 44100; audioSpecificConfig_t info = {}; info.m_sampleRate = rate; info.m_objectType = 1; // 1 = main, 2 = LC info.m_channels = 2; // stereo return buildASC(info); }