AP4_Result AP4_File_GetFileType(AP4_File* self, AP4_UI32* major_brand, AP4_UI32* minor_version, AP4_Cardinal* compatible_brand_count) { AP4_FtypAtom* ftyp = self->GetFileType(); if (!ftyp) return AP4_FAILURE; if (major_brand) *major_brand = ftyp->GetMajorBrand(); if (minor_version) *minor_version = ftyp->GetMinorVersion(); if (compatible_brand_count) { *compatible_brand_count = ftyp->GetCompatibleBrands().ItemCount(); } return AP4_SUCCESS; }
/*---------------------------------------------------------------------- | AP4_OmaDcfEncryptingProcessor::Initialize +---------------------------------------------------------------------*/ AP4_Result AP4_OmaDcfEncryptingProcessor::Initialize(AP4_AtomParent& top_level, AP4_ByteStream& /*stream*/, AP4_Processor::ProgressListener* /*listener*/) { AP4_FtypAtom* ftyp = AP4_DYNAMIC_CAST(AP4_FtypAtom, top_level.GetChild(AP4_ATOM_TYPE_FTYP)); if (ftyp) { // remove the atom, it will be replaced with a new one top_level.RemoveChild(ftyp); // keep the existing brand and compatible brands AP4_Array<AP4_UI32> compatible_brands; compatible_brands.EnsureCapacity(ftyp->GetCompatibleBrands().ItemCount()+1); for (unsigned int i=0; i<ftyp->GetCompatibleBrands().ItemCount(); i++) { compatible_brands.Append(ftyp->GetCompatibleBrands()[i]); } // add the OMA compatible brand if it is not already there if (!ftyp->HasCompatibleBrand(AP4_OMA_DCF_BRAND_OPF2)) { compatible_brands.Append(AP4_OMA_DCF_BRAND_OPF2); } // create a replacement AP4_FtypAtom* new_ftyp = new AP4_FtypAtom(ftyp->GetMajorBrand(), ftyp->GetMinorVersion(), &compatible_brands[0], compatible_brands.ItemCount()); delete ftyp; ftyp = new_ftyp; } else { AP4_UI32 opf2 = AP4_OMA_DCF_BRAND_OPF2; ftyp = new AP4_FtypAtom(AP4_FTYP_BRAND_ISOM, 0, &opf2, 1); } // insert the ftyp atom as the first child return top_level.AddChild(ftyp, 0); }
/*---------------------------------------------------------------------- | Fragment +---------------------------------------------------------------------*/ static void Fragment(AP4_File& input_file, AP4_ByteStream& output_stream, AP4_Array<TrackCursor*>& cursors, unsigned int fragment_duration, AP4_UI32 timescale, AP4_UI32 track_id, bool create_segment_index) { AP4_List<FragmentInfo> fragments; TrackCursor* index_cursor = NULL; AP4_Result result; AP4_Movie* input_movie = input_file.GetMovie(); if (input_movie == NULL) { fprintf(stderr, "ERROR: no moov found in the input file\n"); return; } // create the output file object AP4_Movie* output_movie = new AP4_Movie(1000); // create an mvex container AP4_ContainerAtom* mvex = new AP4_ContainerAtom(AP4_ATOM_TYPE_MVEX); AP4_MehdAtom* mehd = new AP4_MehdAtom(0); mvex->AddChild(mehd); // add an output track for each track in the input file for (unsigned int i=0; i<cursors.ItemCount(); i++) { AP4_Track* track = cursors[i]->m_Track; // skip non matching tracks if we have a selector if (track_id && track->GetId() != track_id) { continue; } result = cursors[i]->Init(); if (AP4_FAILED(result)) { fprintf(stderr, "ERROR: failed to init sample cursor (%d), skipping track %d\n", result, track->GetId()); return; } // create a sample table (with no samples) to hold the sample description AP4_SyntheticSampleTable* sample_table = new AP4_SyntheticSampleTable(); for (unsigned int j=0; j<track->GetSampleDescriptionCount(); j++) { AP4_SampleDescription* sample_description = track->GetSampleDescription(j); sample_table->AddSampleDescription(sample_description, false); } // create the track AP4_Track* output_track = new AP4_Track(sample_table, track->GetId(), timescale?timescale:1000, AP4_ConvertTime(track->GetDuration(), input_movie->GetTimeScale(), timescale?timescale:1000), timescale?timescale:track->GetMediaTimeScale(), 0,//track->GetMediaDuration(), track); output_movie->AddTrack(output_track); // add a trex entry to the mvex container AP4_TrexAtom* trex = new AP4_TrexAtom(track->GetId(), 1, 0, 0, 0); mvex->AddChild(trex); } // select the anchor cursor TrackCursor* anchor_cursor = NULL; for (unsigned int i=0; i<cursors.ItemCount(); i++) { if (cursors[i]->m_Track->GetId() == track_id) { anchor_cursor = cursors[i]; } } if (anchor_cursor == NULL) { for (unsigned int i=0; i<cursors.ItemCount(); i++) { // use this as the anchor track if it is the first video track if (cursors[i]->m_Track->GetType() == AP4_Track::TYPE_VIDEO) { anchor_cursor = cursors[i]; break; } } } if (anchor_cursor == NULL) { // no video track to anchor with, pick the first audio track for (unsigned int i=0; i<cursors.ItemCount(); i++) { if (cursors[i]->m_Track->GetType() == AP4_Track::TYPE_AUDIO) { anchor_cursor = cursors[i]; break; } } // no audio track to anchor with, pick the first subtitles track for (unsigned int i=0; i<cursors.ItemCount(); i++) { if (cursors[i]->m_Track->GetType() == AP4_Track::TYPE_SUBTITLES) { anchor_cursor = cursors[i]; break; } } } if (anchor_cursor == NULL) { // this shoudl never happen fprintf(stderr, "ERROR: no anchor track\n"); return; } if (create_segment_index) { index_cursor = anchor_cursor; } if (Options.debug) { printf("Using track ID %d as anchor\n", anchor_cursor->m_Track->GetId()); } // update the mehd duration mehd->SetDuration(output_movie->GetDuration()); // add the mvex container to the moov container output_movie->GetMoovAtom()->AddChild(mvex); // compute all the fragments unsigned int sequence_number = 1; for(;;) { TrackCursor* cursor = NULL; // pick the first track with a fragment index lower than the anchor's for (unsigned int i=0; i<cursors.ItemCount(); i++) { if (track_id && cursors[i]->m_Track->GetId() != track_id) continue; if (cursors[i]->m_Eos) continue; if (cursors[i]->m_FragmentIndex < anchor_cursor->m_FragmentIndex) { cursor = cursors[i]; break; } } // check if we found a non-anchor cursor to use if (cursor == NULL) { // the anchor should be used in this round, check if we can use it if (anchor_cursor->m_Eos) { // the anchor is done, pick a new anchor unless we need to trim anchor_cursor = NULL; if (!Options.trim) { for (unsigned int i=0; i<cursors.ItemCount(); i++) { if (track_id && cursors[i]->m_Track->GetId() != track_id) continue; if (cursors[i]->m_Eos) continue; if (anchor_cursor == NULL || cursors[i]->m_Track->GetType() == AP4_Track::TYPE_VIDEO || cursors[i]->m_Track->GetType() == AP4_Track::TYPE_AUDIO) { anchor_cursor = cursors[i]; if (Options.debug) { printf("+++ New anchor: Track ID %d\n", anchor_cursor->m_Track->GetId()); } } } } } cursor = anchor_cursor; } if (cursor == NULL) break; // all done // decide how many samples go into this fragment AP4_UI64 target_dts; if (cursor == anchor_cursor) { // compute the current dts in milliseconds AP4_UI64 anchor_dts_ms = AP4_ConvertTime(cursor->m_Sample.GetDts(), cursor->m_Track->GetMediaTimeScale(), 1000); // round to the nearest multiple of fragment_duration AP4_UI64 anchor_position = (anchor_dts_ms + (fragment_duration/2))/fragment_duration; // pick the next fragment_duration multiple at our target target_dts = AP4_ConvertTime(fragment_duration*(anchor_position+1), 1000, cursor->m_Track->GetMediaTimeScale()); } else { target_dts = AP4_ConvertTime(anchor_cursor->m_Sample.GetDts(), anchor_cursor->m_Track->GetMediaTimeScale(), cursor->m_Track->GetMediaTimeScale()); if (target_dts <= cursor->m_Sample.GetDts()) { // we must be at the end, past the last anchor sample, just use the target duration target_dts = AP4_ConvertTime(fragment_duration*(cursor->m_FragmentIndex+1), 1000, cursor->m_Track->GetMediaTimeScale()); if (target_dts <= cursor->m_Sample.GetDts()) { // we're still behind, there may have been an alignment/rounding error, just advance by one segment duration target_dts = cursor->m_Sample.GetDts()+AP4_ConvertTime(fragment_duration, 1000, cursor->m_Track->GetMediaTimeScale()); } } } unsigned int end_sample_index = cursor->m_Samples->GetSampleCount(); AP4_UI64 smallest_diff = (AP4_UI64)(0xFFFFFFFFFFFFFFFFULL); AP4_Sample sample; for (unsigned int i=cursor->m_SampleIndex+1; i<=cursor->m_Samples->GetSampleCount(); i++) { AP4_UI64 dts; if (i < cursor->m_Samples->GetSampleCount()) { result = cursor->m_Samples->GetSample(i, sample); if (AP4_FAILED(result)) { fprintf(stderr, "ERROR: failed to get sample %d (%d)\n", i, result); return; } if (!sample.IsSync()) continue; // only look for sync samples dts = sample.GetDts(); } else { result = cursor->m_Samples->GetSample(i-1, sample); if (AP4_FAILED(result)) { fprintf(stderr, "ERROR: failed to get sample %d (%d)\n", i-1, result); return; } dts = sample.GetDts()+sample.GetDuration(); } AP4_SI64 diff = dts-target_dts; AP4_UI64 abs_diff = diff<0?-diff:diff; if (abs_diff < smallest_diff) { // this sample is the closest to the target so far end_sample_index = i; smallest_diff = abs_diff; } if (diff >= 0) { // this sample is past the target, it is not going to get any better, stop looking break; } } if (cursor->m_Eos) continue; if (Options.debug) { if (cursor == anchor_cursor) { printf("===="); } else { printf("----"); } printf(" Track ID %d - dts=%lld, target=%lld, start=%d, end=%d/%d\n", cursor->m_Track->GetId(), cursor->m_Sample.GetDts(), target_dts, cursor->m_SampleIndex, end_sample_index, cursor->m_Track->GetSampleCount()); } // emit a fragment for the selected track if (Options.verbosity > 1) { printf("fragment: track ID %d ", cursor->m_Track->GetId()); } // decide which sample description index to use // (this is not very sophisticated, we only look at the sample description // index of the first sample in the group, which may not be correct. This // should be fixed later) unsigned int sample_desc_index = cursor->m_Sample.GetDescriptionIndex(); unsigned int tfhd_flags = AP4_TFHD_FLAG_DEFAULT_BASE_IS_MOOF; if (sample_desc_index > 0) { tfhd_flags |= AP4_TFHD_FLAG_SAMPLE_DESCRIPTION_INDEX_PRESENT; } if (cursor->m_Track->GetType() == AP4_Track::TYPE_VIDEO) { tfhd_flags |= AP4_TFHD_FLAG_DEFAULT_SAMPLE_FLAGS_PRESENT; } // setup the moof structure AP4_ContainerAtom* moof = new AP4_ContainerAtom(AP4_ATOM_TYPE_MOOF); AP4_MfhdAtom* mfhd = new AP4_MfhdAtom(sequence_number++); moof->AddChild(mfhd); AP4_ContainerAtom* traf = new AP4_ContainerAtom(AP4_ATOM_TYPE_TRAF); AP4_TfhdAtom* tfhd = new AP4_TfhdAtom(tfhd_flags, cursor->m_Track->GetId(), 0, sample_desc_index+1, 0, 0, 0); if (tfhd_flags & AP4_TFHD_FLAG_DEFAULT_SAMPLE_FLAGS_PRESENT) { tfhd->SetDefaultSampleFlags(0x1010000); // sample_is_non_sync_sample=1, sample_depends_on=1 (not I frame) } traf->AddChild(tfhd); if (!Options.no_tfdt) { AP4_TfdtAtom* tfdt = new AP4_TfdtAtom(1, cursor->m_Timestamp); traf->AddChild(tfdt); } AP4_UI32 trun_flags = AP4_TRUN_FLAG_DATA_OFFSET_PRESENT | AP4_TRUN_FLAG_SAMPLE_DURATION_PRESENT | AP4_TRUN_FLAG_SAMPLE_SIZE_PRESENT; AP4_UI32 first_sample_flags = 0; if (cursor->m_Track->GetType() == AP4_Track::TYPE_VIDEO) { trun_flags |= AP4_TRUN_FLAG_FIRST_SAMPLE_FLAGS_PRESENT; first_sample_flags = 0x2000000; // sample_depends_on=2 (I frame) } AP4_TrunAtom* trun = new AP4_TrunAtom(trun_flags, 0, first_sample_flags); traf->AddChild(trun); moof->AddChild(traf); // create a new FragmentInfo object to store the fragment details FragmentInfo* fragment = new FragmentInfo(cursor->m_Samples, cursor->m_Tfra, cursor->m_Timestamp, moof); fragments.Add(fragment); // add samples to the fragment unsigned int sample_count = 0; AP4_Array<AP4_TrunAtom::Entry> trun_entries; fragment->m_MdatSize = AP4_ATOM_HEADER_SIZE; for (;;) { // if we have one non-zero CTS delta, we'll need to express it if (cursor->m_Sample.GetCtsDelta()) { trun->SetFlags(trun->GetFlags() | AP4_TRUN_FLAG_SAMPLE_COMPOSITION_TIME_OFFSET_PRESENT); } // add one sample trun_entries.SetItemCount(sample_count+1); AP4_TrunAtom::Entry& trun_entry = trun_entries[sample_count]; trun_entry.sample_duration = timescale? (AP4_UI32)AP4_ConvertTime(cursor->m_Sample.GetDuration(), cursor->m_Track->GetMediaTimeScale(), timescale): cursor->m_Sample.GetDuration(); trun_entry.sample_size = cursor->m_Sample.GetSize(); trun_entry.sample_composition_time_offset = timescale? (AP4_UI32)AP4_ConvertTime(cursor->m_Sample.GetCtsDelta(), cursor->m_Track->GetMediaTimeScale(), timescale): cursor->m_Sample.GetCtsDelta(); fragment->m_SampleIndexes.SetItemCount(sample_count+1); fragment->m_SampleIndexes[sample_count] = cursor->m_SampleIndex; fragment->m_MdatSize += trun_entry.sample_size; fragment->m_Duration += trun_entry.sample_duration; // next sample cursor->m_Timestamp += trun_entry.sample_duration; result = cursor->SetSampleIndex(cursor->m_SampleIndex+1); if (AP4_FAILED(result)) { fprintf(stderr, "ERROR: failed to get sample %d (%d)\n", cursor->m_SampleIndex+1, result); return; } sample_count++; if (cursor->m_Eos) { if (Options.debug) { printf("[Track ID %d has reached the end]\n", cursor->m_Track->GetId()); } break; } if (cursor->m_SampleIndex >= end_sample_index) { break; // done with this fragment } } if (Options.verbosity > 1) { printf(" %d samples\n", sample_count); } // update moof and children trun->SetEntries(trun_entries); trun->SetDataOffset((AP4_UI32)moof->GetSize()+AP4_ATOM_HEADER_SIZE); // advance the cursor's fragment index ++cursor->m_FragmentIndex; } // write the ftyp atom AP4_FtypAtom* ftyp = input_file.GetFileType(); if (ftyp) { // keep the existing brand and compatible brands AP4_Array<AP4_UI32> compatible_brands; compatible_brands.EnsureCapacity(ftyp->GetCompatibleBrands().ItemCount()+1); for (unsigned int i=0; i<ftyp->GetCompatibleBrands().ItemCount(); i++) { compatible_brands.Append(ftyp->GetCompatibleBrands()[i]); } // add the compatible brand if it is not already there if (!ftyp->HasCompatibleBrand(AP4_FILE_BRAND_ISO5)) { compatible_brands.Append(AP4_FILE_BRAND_ISO5); } // create a replacement AP4_FtypAtom* new_ftyp = new AP4_FtypAtom(ftyp->GetMajorBrand(), ftyp->GetMinorVersion(), &compatible_brands[0], compatible_brands.ItemCount()); ftyp = new_ftyp; } else { AP4_UI32 compat = AP4_FILE_BRAND_ISO5; ftyp = new AP4_FtypAtom(AP4_FTYP_BRAND_MP42, 0, &compat, 1); } ftyp->Write(output_stream); delete ftyp; // write the moov atom output_movie->GetMoovAtom()->Write(output_stream); // write the (not-yet fully computed) index if needed AP4_SidxAtom* sidx = NULL; AP4_Position sidx_position = 0; output_stream.Tell(sidx_position); if (create_segment_index) { sidx = new AP4_SidxAtom(index_cursor->m_Track->GetId(), index_cursor->m_Track->GetMediaTimeScale(), 0, 0); // reserve space for the entries now, but they will be computed and updated later sidx->SetReferenceCount(fragments.ItemCount()); sidx->Write(output_stream); } // write all fragments for (AP4_List<FragmentInfo>::Item* item = fragments.FirstItem(); item; item = item->GetNext()) { FragmentInfo* fragment = item->GetData(); // remember the time and position of this fragment output_stream.Tell(fragment->m_MoofPosition); fragment->m_Tfra->AddEntry(fragment->m_Timestamp, fragment->m_MoofPosition); // write the moof fragment->m_Moof->Write(output_stream); // write mdat output_stream.WriteUI32(fragment->m_MdatSize); output_stream.WriteUI32(AP4_ATOM_TYPE_MDAT); AP4_DataBuffer sample_data; AP4_Sample sample; for (unsigned int i=0; i<fragment->m_SampleIndexes.ItemCount(); i++) { // get the sample result = fragment->m_Samples->GetSample(fragment->m_SampleIndexes[i], sample); if (AP4_FAILED(result)) { fprintf(stderr, "ERROR: failed to get sample %d (%d)\n", fragment->m_SampleIndexes[i], result); return; } // read the sample data result = sample.ReadData(sample_data); if (AP4_FAILED(result)) { fprintf(stderr, "ERROR: failed to read sample data for sample %d (%d)\n", fragment->m_SampleIndexes[i], result); return; } // write the sample data result = output_stream.Write(sample_data.GetData(), sample_data.GetDataSize()); if (AP4_FAILED(result)) { fprintf(stderr, "ERROR: failed to write sample data (%d)\n", result); return; } } } // update the index and re-write it if needed if (create_segment_index) { unsigned int segment_index = 0; AP4_SidxAtom::Reference reference; for (AP4_List<FragmentInfo>::Item* item = fragments.FirstItem(); item; item = item->GetNext()) { FragmentInfo* fragment = item->GetData(); reference.m_ReferencedSize = (AP4_UI32)(fragment->m_Moof->GetSize()+fragment->m_MdatSize); reference.m_SubsegmentDuration = fragment->m_Duration; reference.m_StartsWithSap = true; sidx->SetReference(segment_index++, reference); } AP4_Position here = 0; output_stream.Tell(here); output_stream.Seek(sidx_position); sidx->Write(output_stream); output_stream.Seek(here); delete sidx; } // create an mfra container and write out the index AP4_ContainerAtom mfra(AP4_ATOM_TYPE_MFRA); for (unsigned int i=0; i<cursors.ItemCount(); i++) { if (track_id && cursors[i]->m_Track->GetId() != track_id) { continue; } mfra.AddChild(cursors[i]->m_Tfra); cursors[i]->m_Tfra = NULL; } AP4_MfroAtom* mfro = new AP4_MfroAtom((AP4_UI32)mfra.GetSize()+16); mfra.AddChild(mfro); result = mfra.Write(output_stream); if (AP4_FAILED(result)) { fprintf(stderr, "ERROR: failed to write 'mfra' (%d)\n", result); return; } // cleanup fragments.DeleteReferences(); for (unsigned int i=0; i<cursors.ItemCount(); i++) { delete cursors[i]; } for (AP4_List<FragmentInfo>::Item* item = fragments.FirstItem(); item; item = item->GetNext()) { FragmentInfo* fragment = item->GetData(); delete fragment->m_Moof; } delete output_movie; }