ref: 3b2e3d159a714243528bc259f4e20e4858bd4db6
dir: /plugins/foo_mp4/convert.cpp/
/*
** FAAD2 - Freeware Advanced Audio (AAC) Decoder including SBR decoding
** Copyright (C) 2003 M. Bakker, Ahead Software AG, http://www.nero.com
**
** 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; either version 2 of the License, or
** (at your option) any later version.
**
** 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 for more details.
**
** You should have received a copy of the GNU General Public License
** along with this program; if not, write to the Free Software
** Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
**
** Any non-GPL usage of this software or parts of this software is strictly
** forbidden.
**
** Commercial non-GPL licensing of this software is possible.
** For more info contact Ahead Software through Mpeg4AAClicense@nero.com.
**/
#include "convert.h"
static int GetAACTrack(MP4FileHandle infile)
{
// find AAC track
int i, rc;
int numTracks = MP4GetNumberOfTracks(infile, NULL, /* subType */ 0);
for (i = 0; i < numTracks; i++)
{
MP4TrackId trackId = MP4FindTrackId(infile, i, NULL, /* subType */ 0);
const char* trackType = MP4GetTrackType(infile, trackId);
if (!strcmp(trackType, MP4_AUDIO_TRACK_TYPE))
{
unsigned char *buff = NULL;
int buff_size = 0;
mp4AudioSpecificConfig mp4ASC;
MP4GetTrackESConfiguration(infile, trackId,
(unsigned __int8**)&buff, (unsigned __int32*)&buff_size);
if (buff)
{
rc = AudioSpecificConfig(buff, buff_size, &mp4ASC);
free(buff);
if (rc < 0)
return -1;
return trackId;
}
}
}
// can't decode this
return -1;
}
converter::converter(const char *in_file, const char *out_file, const file_info *infos)
{
in = 0;
out = 0;
if (in_file) in = file::g_open(in_file, reader::MODE_READ);
if (out_file) out = file::g_open(out_file, reader::MODE_WRITE_NEW);
mp4File = MP4_INVALID_FILE_HANDLE;
if (infos)
{
info.copy(infos);
info.info_remove_all();
}
else
{
info.reset();
}
}
converter::~converter()
{
if (mp4File != MP4_INVALID_FILE_HANDLE) MP4Close(mp4File);
if (in) in->reader_release();
if (out) out->reader_release();
}
bool converter::aac_to_mp4()
{
if (!in || !out) return false;
mp4File = MP4CreateCb(0, 0, 0, open_cb, close_cb, read_cb, write_cb, setpos_cb, getpos_cb, filesize_cb, (void *)out);
if (mp4File == MP4_INVALID_FILE_HANDLE) return false;
MP4SetTimeScale(mp4File, 90000);
MP4TrackId createdTrackId = ConvertAAC();
if (createdTrackId == MP4_INVALID_TRACK_ID) return false;
WriteTagMP4();
/*
int allMpeg4Streams = 0;
const char *type = MP4GetTrackType(mp4File, createdTrackId);
if (!strcmp(type, MP4_AUDIO_TRACK_TYPE))
allMpeg4Streams &= (MP4GetTrackAudioType(mp4File, createdTrackId) == MP4_MPEG4_AUDIO_TYPE);
MP4Close(mp4File);
mp4File = MP4_INVALID_FILE_HANDLE;
MP4MakeIsmaCompliant(mp4FileName, 0, allMpeg4Streams);
*/
return true;
}
bool converter::mp4_to_aac()
{
if (!in || !out) return false;
mp4File = MP4ReadCb(0, open_cb, close_cb, read_cb, write_cb, setpos_cb, getpos_cb, filesize_cb, (void*)in);
if (mp4File == MP4_INVALID_FILE_HANDLE) return false;
MP4TrackId track = GetAACTrack(mp4File);
if (track < 0) return false;
if (!ExtractTrack(track)) return false;
WriteTagAAC();
return true;
}
// private:
// hdr must point to at least ADTS_HEADER_MAX_SIZE bytes of memory
bool converter::LoadNextAdtsHeader(u_int8_t *hdr)
{
u_int state = 0;
u_int dropped = 0;
u_int hdrByteSize = ADTS_HEADER_MAX_SIZE;
while (1) {
u_int8_t b;
if (in->read(&b, 1) != 1) return false;
// header is complete, return it
if (state == hdrByteSize - 1) {
hdr[state] = b;
if (dropped > 0)
console::warning(string_printf("Dropped %u input bytes", dropped));
return true;
}
// collect requisite number of bytes, no constraints on data
if (state >= 2) {
hdr[state++] = b;
} else {
// have first byte, check if we have 1111X00X
if (state == 1) {
if ((b & 0xF6) == 0xF0) {
hdr[state] = b;
state = 2;
// compute desired header size
hdrByteSize = MP4AV_AdtsGetHeaderByteSize(hdr);
} else {
state = 0;
}
}
// initial state, looking for 11111111
if (state == 0) {
if (b == 0xFF) {
hdr[state] = b;
state = 1;
} else {
// else drop it
dropped++;
}
}
}
}
}
// Load the next frame from the file
// into the supplied buffer, which better be large enough!
//
// Note: Frames are padded to byte boundaries
bool converter::LoadNextAacFrame(u_int8_t *pBuf, u_int32_t *pBufSize, bool stripAdts)
{
u_int16_t frameSize;
u_int16_t hdrBitSize, hdrByteSize;
u_int8_t hdrBuf[ADTS_HEADER_MAX_SIZE];
// get the next AAC frame header, more or less
if (!LoadNextAdtsHeader(hdrBuf)) return false;
// get frame size from header
frameSize = MP4AV_AdtsGetFrameSize(hdrBuf);
// get header size in bits and bytes from header
hdrBitSize = MP4AV_AdtsGetHeaderBitSize(hdrBuf);
hdrByteSize = MP4AV_AdtsGetHeaderByteSize(hdrBuf);
// adjust the frame size to what remains to be read
frameSize -= hdrByteSize;
if (stripAdts) {
if ((hdrBitSize % 8) == 0) {
// header is byte aligned, i.e. MPEG-2 ADTS
// read the frame data into the buffer
if (in->read(pBuf, frameSize) != frameSize) return false;
(*pBufSize) = frameSize;
} else {
// header is not byte aligned, i.e. MPEG-4 ADTS
u_int8_t newByte;
int upShift = hdrBitSize % 8;
int downShift = 8 - upShift;
pBuf[0] = hdrBuf[hdrBitSize / 8] << upShift;
for (int i = 0; i < frameSize; i++) {
if (in->read(&newByte, 1) != 1) return false;
pBuf[i] |= (newByte >> downShift);
pBuf[i+1] = (newByte << upShift);
}
(*pBufSize) = frameSize + 1;
}
} else { // don't strip ADTS headers
memcpy(pBuf, hdrBuf, hdrByteSize);
if (in->read(&pBuf[hdrByteSize], frameSize) != frameSize) return false;
}
return true;
}
bool converter::GetFirstHeader()
{
// already read first header
if (firstHeader[0] == 0xff) return true;
__int64 pos = in->get_position();
in->seek(0);
if (!LoadNextAdtsHeader(firstHeader)) return false;
in->seek(pos);
return true;
}
MP4TrackId converter::ConvertAAC()
{
// collect all the necessary meta information
u_int32_t samplesPerSecond;
u_int8_t mpegVersion;
u_int8_t profile;
u_int8_t channelConfig;
if (!GetFirstHeader()) return MP4_INVALID_TRACK_ID;
samplesPerSecond = MP4AV_AdtsGetSamplingRate(firstHeader);
mpegVersion = MP4AV_AdtsGetVersion(firstHeader);
profile = MP4AV_AdtsGetProfile(firstHeader);
channelConfig = MP4AV_AdtsGetChannels(firstHeader);
u_int8_t audioType = MP4_INVALID_AUDIO_TYPE;
switch (mpegVersion) {
case 0:
audioType = MP4_MPEG4_AUDIO_TYPE;
break;
case 1:
switch (profile) {
case 0:
audioType = MP4_MPEG2_AAC_MAIN_AUDIO_TYPE;
break;
case 1:
audioType = MP4_MPEG2_AAC_LC_AUDIO_TYPE;
break;
case 2:
audioType = MP4_MPEG2_AAC_SSR_AUDIO_TYPE;
break;
case 3:
return MP4_INVALID_TRACK_ID;
}
break;
}
// add the new audio track
MP4TrackId trackId = MP4AddAudioTrack(mp4File, samplesPerSecond, 1024, audioType);
if (trackId == MP4_INVALID_TRACK_ID) return MP4_INVALID_TRACK_ID;
if (MP4GetNumberOfTracks(mp4File, MP4_AUDIO_TRACK_TYPE) == 1)
MP4SetAudioProfileLevel(mp4File, 0x0F);
u_int8_t* pConfig = NULL;
u_int32_t configLength = 0;
MP4AV_AacGetConfiguration(
&pConfig,
&configLength,
profile,
samplesPerSecond,
channelConfig);
if (!MP4SetTrackESConfiguration(mp4File, trackId, pConfig, configLength)) {
MP4DeleteTrack(mp4File, trackId);
return MP4_INVALID_TRACK_ID;
}
// parse the ADTS frames, and write the MP4 samples
u_int8_t sampleBuffer[8 * 1024];
u_int32_t sampleSize = sizeof(sampleBuffer);
MP4SampleId sampleId = 1;
while (LoadNextAacFrame(sampleBuffer, &sampleSize, true)) {
if (!MP4WriteSample(mp4File, trackId, sampleBuffer, sampleSize)) {
MP4DeleteTrack(mp4File, trackId);
return MP4_INVALID_TRACK_ID;
}
sampleId++;
sampleSize = sizeof(sampleBuffer);
}
return trackId;
}
bool converter::WriteTagMP4()
{
int count = info.meta_get_count();
if (count <= 0) return true;
for ( int i = 0; i < count; i++ ) {
char *pName = (char *)info.meta_enum_name ( i );
const char *val = info.meta_enum_value ( i );
if ( !val || (val && !(*val)) ) continue;
if ( !stricmp (pName, "TITLE") ) {
MP4SetMetadataName ( mp4File, val );
}
else if ( !stricmp (pName, "ARTIST") ) {
MP4SetMetadataArtist ( mp4File, val );
}
else if ( !stricmp (pName, "WRITER") ) {
MP4SetMetadataWriter ( mp4File, val );
}
else if ( !stricmp (pName, "ALBUM") ) {
MP4SetMetadataAlbum ( mp4File, val );
}
else if ( !stricmp (pName, "YEAR") || !stricmp (pName, "DATE") ) {
MP4SetMetadataYear ( mp4File, val );
}
else if ( !stricmp (pName, "COMMENT") ) {
MP4SetMetadataComment ( mp4File, val );
}
else if ( !stricmp (pName, "GENRE") ) {
MP4SetMetadataGenre ( mp4File, val );
}
else if ( !stricmp (pName, "TRACKNUMBER") ) {
unsigned __int16 trkn = atoi(val), tot = 0;
MP4SetMetadataTrack ( mp4File, trkn, tot );
}
else if ( !stricmp (pName, "DISKNUMBER") || !stricmp (pName, "DISC") ) {
unsigned __int16 disk = atoi(val), tot = 0;
MP4SetMetadataDisk ( mp4File, disk, tot );
}
else if ( !stricmp (pName, "COMPILATION") ) {
unsigned __int8 cpil = atoi(val);
MP4SetMetadataCompilation ( mp4File, cpil );
}
else if ( !stricmp (pName, "TEMPO") ) {
unsigned __int16 tempo = atoi(val);
MP4SetMetadataTempo ( mp4File, tempo );
} else {
MP4SetMetadataFreeForm ( mp4File, pName, (unsigned __int8*)val, strlen(val) );
}
}
return true;
}
bool converter::WriteTagAAC()
{
if (info.meta_get_count() <= 0) return true;
return !!tag_writer::g_run(out, &info, "ape");
}
bool converter::ExtractTrack(MP4TrackId trackId)
{
// some track types have special needs
// to properly recreate their raw ES file
bool prependES = false;
bool prependADTS = false;
const char *trackType = MP4GetTrackType(mp4File, trackId);
if (!strcmp(trackType, MP4_VIDEO_TRACK_TYPE))
{
if (MP4_IS_MPEG4_VIDEO_TYPE(MP4GetTrackEsdsObjectTypeId(mp4File, trackId)))
prependES = true;
}
else if (!strcmp(trackType, MP4_AUDIO_TRACK_TYPE))
{
if (MP4_IS_AAC_AUDIO_TYPE(MP4GetTrackEsdsObjectTypeId(mp4File, trackId)))
prependADTS = true;
}
/*
u_int8_t *pConfig = NULL;
u_int32_t configSize = 0;
mp4AudioSpecificConfig mp4ASC;
MP4GetTrackESConfiguration(mp4File, trackId, &pConfig, &configSize);
if (!pConfig)
{
console::error("Unable to read track specific configuration.");
return false;
}
AudioSpecificConfig((unsigned char*)pConfig, configSize, &mp4ASC);
*/
MP4SampleId numSamples = MP4GetTrackNumberOfSamples(mp4File, trackId);
u_int8_t *pSample;
u_int32_t sampleSize;
// extraction loop
for (MP4SampleId sampleId = 1; sampleId <= numSamples; sampleId++)
{
// signal to ReadSample()
// that it should malloc a buffer for us
pSample = NULL;
sampleSize = 0;
if (prependADTS)
{
// need some very specialized work for these
MP4AV_AdtsMakeFrameFromMp4Sample(
mp4File,
trackId,
sampleId,
0/*aacProfileLevel*/,
&pSample,
&sampleSize);
}
else
{
// read the sample
int rc = MP4ReadSample(
mp4File,
trackId,
sampleId,
&pSample,
&sampleSize);
if (rc == 0 || !pSample)
{
if (pSample) free(pSample);
console::error(string_printf("Failed to read sample %u", (unsigned int)sampleId));
return false;
}
if (prependES && sampleId == 1)
{
u_int8_t *pConfig = NULL;
u_int32_t configSize = 0;
MP4GetTrackESConfiguration(mp4File, trackId, &pConfig, &configSize);
if (!pConfig)
{
console::error("Unable to read track specific configuration.");
return false;
}
if (out->write(pConfig, configSize) != configSize)
{
free(pConfig);
console::error("Failed to write to output");
return false;
}
free(pConfig);
}
}
if (out->write(pSample, sampleSize) != sampleSize)
{
free(pSample);
console::error("Failed to write to output");
return false;
}
free(pSample);
}
return true;
}