// Copyright 2014 Google Inc. All rights reserved. // // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file or at // https://developers.google.com/open-source/licenses/bsd #include "media/formats/mp4/box_definitions.h" #include "base/memory/scoped_ptr.h" #include "media/base/buffer_writer.h" #include "media/formats/mp4/box_definitions_comparison.h" #include "media/formats/mp4/box_reader.h" #include "testing/gtest/include/gtest/gtest.h" namespace { const uint8 kData16Bytes[] = {8, 7, 6, 5, 4, 3, 2, 1, 1, 2, 3, 4, 5, 6, 7, 8}; const uint8 kData4[] = {1, 5, 4, 3, 15}; const uint8 kData8[] = {1, 8, 42, 98, 156}; const uint16 kData16[] = {1, 15, 45, 768, 60000}; const uint32 kData32[] = {1, 24, 99, 1234, 9000000}; const uint64 kData64[] = {1, 9000000, 12345678901234, 56780909090900}; const media::mp4::TrackType kSampleDescriptionTrackType = media::mp4::kVideo; // 4-byte FourCC + 4-bytes size. const uint32 kBoxSize = 8; } // namespace namespace media { namespace mp4 { template class BoxDefinitionsTestGeneral : public testing::Test { public: BoxDefinitionsTestGeneral() : buffer_(new BufferWriter) {} BoxReader* CreateReader() { // Create a fake skip box contains the buffer and Write it. BufferWriter buffer; buffer.Swap(buffer_.get()); uint32 skip_box_size = buffer.Size() + kBoxSize; buffer_->AppendInt(skip_box_size); buffer_->AppendInt(static_cast(FOURCC_SKIP)); buffer_->AppendBuffer(buffer); bool err = false; return BoxReader::ReadTopLevelBox(buffer_->Buffer(), buffer_->Size(), &err); } bool ReadBack(Box* box) { BoxReader* reader = CreateReader(); RCHECK(reader->ScanChildren() && reader->ReadChild(box)); return true; } // FourCC for VideoSampleEntry is not a constant, e.g. could be avc1, or encv. bool ReadBack(VideoSampleEntry* video) { BoxReader* reader = CreateReader(); std::vector video_entries; RCHECK(reader->ReadAllChildren(&video_entries)); RCHECK(video_entries.size() == 1); *video = video_entries[0]; return true; } // FourCC for AudioSampleEntry is not a constant, e.g. could be mp4a, or enca. bool ReadBack(AudioSampleEntry* audio) { BoxReader* reader = CreateReader(); std::vector audio_entries; RCHECK(reader->ReadAllChildren(&audio_entries)); RCHECK(audio_entries.size() == 1); *audio = audio_entries[0]; return true; } // SampleDescription cannot parse on its own. Its type parameter should // be preset before scanning the box. bool ReadBack(SampleDescription* stsd) { stsd->type = kSampleDescriptionTrackType; BoxReader* reader = CreateReader(); RCHECK(reader->ScanChildren() && reader->ReadChild(stsd)); return true; } // SampleTable contains SampleDescription, which cannot parse on its own. bool ReadBack(SampleTable* stbl) { stbl->description.type = kSampleDescriptionTrackType; BoxReader* reader = CreateReader(); RCHECK(reader->ScanChildren() && reader->ReadChild(stbl)); return true; } // MediaInformation contains SampleDescription, which cannot parse on its own. bool ReadBack(MediaInformation* minf) { minf->sample_table.description.type = kSampleDescriptionTrackType; BoxReader* reader = CreateReader(); RCHECK(reader->ScanChildren() && reader->ReadChild(minf)); return true; } // Fill the box with sample data. void Fill(Box* box) {} // Modify the box with another set of data. void Modify(Box* box) {} // Is this box optional? bool IsOptional(const Box* box) { return false; } // Non-full box does not have version field. uint8 GetAndClearVersion(Box* box) { return 0; } // Get full box version and then reset it to 0. uint8 GetAndClearVersion(FullBox* full_box) { uint8 version = full_box->version; full_box->version = 0; return version; } void Fill(FileType* ftyp) { ftyp->major_brand = FOURCC_DASH; ftyp->minor_version = 567; ftyp->compatible_brands.push_back(FOURCC_ISO6); ftyp->compatible_brands.push_back(FOURCC_MP41); ftyp->compatible_brands.push_back(FOURCC_AVC1); } void Modify(FileType* ftyp) { ftyp->major_brand = FOURCC_MP41; ftyp->compatible_brands.clear(); ftyp->compatible_brands.push_back(FOURCC_DASH); } void Fill(ProtectionSystemSpecificHeader* pssh) { pssh->system_id.assign(kData16Bytes, kData16Bytes + arraysize(kData16Bytes)); pssh->data.assign(kData8, kData8 + arraysize(kData8)); } void Modify(ProtectionSystemSpecificHeader* pssh) { pssh->system_id[2] *= 3; pssh->data.assign(kData4, kData4 + arraysize(kData4)); } void Fill(SampleAuxiliaryInformationOffset* saio) { saio->offsets.assign(kData32, kData32 + arraysize(kData32)); } void Modify(SampleAuxiliaryInformationOffset* saio) { saio->offsets.push_back(23); } void Fill(SampleAuxiliaryInformationSize* saiz) { saiz->default_sample_info_size = 0; saiz->sample_info_sizes.assign(kData8, kData8 + arraysize(kData8)); saiz->sample_count = arraysize(kData8); } void Modify(SampleAuxiliaryInformationSize* saiz) { saiz->default_sample_info_size = 15; saiz->sample_info_sizes.clear(); } void Fill(OriginalFormat* frma) { frma->format = FOURCC_AVC1; } void Modify(OriginalFormat* frma) { frma->format = FOURCC_MP4A; } void Fill(SchemeType* schm) { schm->type = FOURCC_CENC; schm->version = 12344; } void Modify(SchemeType* schm) { schm->version = 123; } void Fill(TrackEncryption* tenc) { tenc->is_encrypted = true; tenc->default_iv_size = 8; tenc->default_kid.assign(kData16Bytes, kData16Bytes + arraysize(kData16Bytes)); } void Modify(TrackEncryption* tenc) { tenc->is_encrypted = false; tenc->default_iv_size = 0; } void Fill(SchemeInfo* schi) { Fill(&schi->track_encryption); } void Modify(SchemeInfo* schi) { Modify(&schi->track_encryption); } void Fill(ProtectionSchemeInfo* sinf) { Fill(&sinf->format); Fill(&sinf->type); Fill(&sinf->info); } void Modify(ProtectionSchemeInfo* sinf) { Modify(&sinf->type); Modify(&sinf->info); } void Fill(MovieHeader* mvhd) { mvhd->creation_time = 1234; mvhd->modification_time = 2456; mvhd->timescale = 48000; mvhd->duration = 96000; mvhd->rate = 0x010000; mvhd->volume = 0x0100; mvhd->next_track_id = 1; mvhd->version = 0; } void Modify(MovieHeader* mvhd) { mvhd->duration = 234141324123; mvhd->next_track_id = 3; mvhd->version = 1; } void Fill(TrackHeader* tkhd) { tkhd->creation_time = 34523443; tkhd->modification_time = 34533443; tkhd->track_id = 2; tkhd->duration = 96000; tkhd->layer = 1; tkhd->alternate_group = 2; tkhd->volume = 0; tkhd->width = 800; tkhd->height = 600; tkhd->version = 0; } void Modify(TrackHeader* tkhd) { tkhd->modification_time = 345388873443; tkhd->volume = 0x0100; tkhd->width = 0; tkhd->height = 0; tkhd->version = 1; } void Fill(EditList* elst) { elst->edits.resize(2); elst->edits[0].segment_duration = 100; elst->edits[0].media_time = -1; elst->edits[0].media_rate_integer = 1; elst->edits[0].media_rate_fraction = 0; elst->edits[1].segment_duration = 300; elst->edits[1].media_time = 0; elst->edits[1].media_rate_integer = 1; elst->edits[1].media_rate_fraction = 0; elst->version = 0; } void Modify(EditList* elst) { elst->edits.resize(1); elst->edits[0].segment_duration = 0; elst->edits[0].media_time = 20364563456; elst->version = 1; } void Fill(Edit* edts) { Fill(&edts->list); } void Modify(Edit* edts) { Modify(&edts->list); } void Fill(HandlerReference* hdlr) { hdlr->type = kSampleDescriptionTrackType; } void Modify(HandlerReference* hdlr) { hdlr->type = kAudio; } void Fill(PixelAspectRatioBox* pasp) { pasp->h_spacing = 5; pasp->v_spacing = 8; } void Modify(PixelAspectRatioBox* pasp) { pasp->v_spacing *= 8; } void Fill(AVCDecoderConfigurationRecord* avcc) { const uint8 kAvccData[] = { 0x01, 0x64, 0x00, 0x1f, 0xff, 0xe1, 0x00, 0x18, 0x67, 0x64, 0x00, 0x1f, 0xac, 0xd9, 0x40, 0x50, 0x05, 0xbb, 0x01, 0x10, 0x00, 0x00, 0x3e, 0x90, 0x00, 0x0e, 0xa6, 0x00, 0xf1, 0x83, 0x19, 0x60, 0x01, 0x00, 0x06, 0x68, 0xeb, 0xe3, 0xcb, 0x22, 0xc0}; BufferReader buffer_reader(kAvccData, arraysize(kAvccData)); CHECK(avcc->ParseData(&buffer_reader)); avcc->data.assign(kAvccData, kAvccData + arraysize(kAvccData)); } void Modify(AVCDecoderConfigurationRecord* avcc) { const uint8 kAvccData[] = { 0x01, 0x64, 0x00, 0x1e, 0xff, 0xe1, 0x00, 0x19, 0x67, 0x64, 0x00, 0x1e, 0xac, 0xd9, 0x40, 0xa0, 0x2f, 0xf9, 0x70, 0x11, 0x00, 0x00, 0x03, 0x03, 0xe9, 0x00, 0x00, 0xea, 0x60, 0x0f, 0x16, 0x2d, 0x96, 0x01, 0x00, 0x05, 0x68, 0xeb, 0xec, 0xb2, 0x2c}; BufferReader buffer_reader(kAvccData, arraysize(kAvccData)); CHECK(avcc->ParseData(&buffer_reader)); avcc->data.assign(kAvccData, kAvccData + arraysize(kAvccData)); } void Fill(VideoSampleEntry* encv) { encv->format = FOURCC_ENCV; encv->data_reference_index = 1; encv->width = 800; encv->height = 600; Fill(&encv->pixel_aspect); Fill(&encv->sinf); Fill(&encv->avcc); } void Modify(VideoSampleEntry* encv) { encv->height += 600; Modify(&encv->avcc); } void Fill(ElementaryStreamDescriptor* esds) { const uint8 kDecoderSpecificInfo[] = {18, 16}; esds->es_descriptor.set_esid(1); esds->es_descriptor.set_object_type(kISO_14496_3); std::vector decoder_specific_info( kDecoderSpecificInfo, kDecoderSpecificInfo + sizeof(kDecoderSpecificInfo)); esds->es_descriptor.set_decoder_specific_info(decoder_specific_info); } void Modify(ElementaryStreamDescriptor* esds) { esds->es_descriptor.set_esid(2); } void Fill(AudioSampleEntry* enca) { enca->format = FOURCC_ENCA; enca->data_reference_index = 2; enca->channelcount = 5; enca->samplesize = 16; enca->samplerate = 44100; Fill(&enca->sinf); Fill(&enca->esds); } void Modify(AudioSampleEntry* enca) { enca->channelcount = 2; } void Fill(SampleDescription* stsd) { stsd->type = kSampleDescriptionTrackType; stsd->video_entries.resize(1); Fill(&stsd->video_entries[0]); } void Fill(DecodingTimeToSample* stts) { stts->decoding_time.resize(2); stts->decoding_time[0].sample_count = 3; stts->decoding_time[0].sample_delta = 5; stts->decoding_time[1].sample_count = 2; stts->decoding_time[1].sample_delta = 9; } void Modify(DecodingTimeToSample* stts) { stts->decoding_time.resize(3); stts->decoding_time[2].sample_count = 9; stts->decoding_time[2].sample_delta = 4; } void Fill(CompositionTimeToSample* ctts) { ctts->composition_offset.resize(2); ctts->composition_offset[0].sample_count = 3; ctts->composition_offset[0].sample_offset = 5; ctts->composition_offset[1].sample_count = 2; ctts->composition_offset[1].sample_offset = 9; ctts->version = 1; } void Modify(CompositionTimeToSample* ctts) { ctts->composition_offset.resize(1); ctts->composition_offset[0].sample_count = 6; ctts->composition_offset[0].sample_offset = 1; ctts->version = 1; } void Fill(SampleToChunk* stsc) { stsc->chunk_info.resize(2); stsc->chunk_info[0].first_chunk = 1; stsc->chunk_info[0].samples_per_chunk = 5; stsc->chunk_info[0].sample_description_index = 0; stsc->chunk_info[1].first_chunk = 5; stsc->chunk_info[1].samples_per_chunk = 2; stsc->chunk_info[1].sample_description_index = 1; } void Modify(SampleToChunk* stsc) { stsc->chunk_info.resize(4); stsc->chunk_info[2].first_chunk = 7; stsc->chunk_info[2].samples_per_chunk = 8; stsc->chunk_info[2].sample_description_index = 1; stsc->chunk_info[3].first_chunk = 9; stsc->chunk_info[3].samples_per_chunk = 12; stsc->chunk_info[3].sample_description_index = 0; } void Fill(SampleSize* stsz) { stsz->sample_size = 0; stsz->sizes.assign(kData8, kData8 + arraysize(kData8)); stsz->sample_count = arraysize(kData8); } void Modify(SampleSize* stsz) { stsz->sample_size = 35; stsz->sizes.clear(); } void Fill(CompactSampleSize* stz2) { stz2->field_size = 4; stz2->sizes.assign(kData4, kData4 + arraysize(kData4)); } void Modify(CompactSampleSize* stz2) { stz2->field_size = 8; stz2->sizes.assign(kData8, kData8 + arraysize(kData8)); } void Fill(ChunkLargeOffset* co64) { co64->offsets.assign(kData64, kData64 + arraysize(kData64)); } void Modify(ChunkLargeOffset* co64) { co64->offsets.pop_back(); } void Fill(ChunkOffset* stco) { stco->offsets.assign(kData32, kData32 + arraysize(kData32)); } void Modify(ChunkOffset* stco) { stco->offsets.push_back(10); } void Fill(SyncSample* stss) { stss->sample_number.assign(kData32, kData32 + arraysize(kData32)); } void Modify(SyncSample* stss) { stss->sample_number.pop_back(); } void Fill(SampleTable* stbl) { Fill(&stbl->description); Fill(&stbl->decoding_time_to_sample); Fill(&stbl->composition_time_to_sample); Fill(&stbl->sample_to_chunk); Fill(&stbl->sample_size); Fill(&stbl->chunk_large_offset); Fill(&stbl->sync_sample); } void Modify(SampleTable* stbl) { Modify(&stbl->chunk_large_offset); Modify(&stbl->sync_sample); } void Fill(MediaHeader* mdhd) { mdhd->creation_time = 124231432; mdhd->modification_time = static_cast(kuint32max) + 1; mdhd->timescale = 50000; mdhd->duration = 250000; strcpy(mdhd->language, "abc"); mdhd->version = 1; } void Modify(MediaHeader* mdhd) { mdhd->creation_time = 2; mdhd->modification_time = kuint32max; strcpy(mdhd->language, "und"); mdhd->version = 0; } void Fill(VideoMediaHeader* vmhd) { vmhd->graphicsmode = 4123; vmhd->opcolor_red = 323; vmhd->opcolor_green = 2135; vmhd->opcolor_blue = 2387; } void Modify(VideoMediaHeader* vmhd) { vmhd->graphicsmode *= 2; } void Fill(SoundMediaHeader* smhd) { smhd->balance = 8762; } void Modify(SoundMediaHeader* smhd) { smhd->balance /= 2; } void Fill(DataEntryUrl* url) { url->flags = 2; url->location.assign(kData8, kData8 + arraysize(kData8)); } void Modify(DataEntryUrl* url) { url->flags += 1; url->location.assign(kData4, kData4 + arraysize(kData4)); } void Fill(DataReference* dref) { dref->data_entry.resize(2); Fill(&dref->data_entry[0]); Fill(&dref->data_entry[1]); dref->data_entry[1].location.assign(kData4, kData4 + arraysize(kData4)); } void Modify(DataReference* dref) { dref->data_entry.resize(3); Fill(&dref->data_entry[2]); dref->data_entry[2].location.push_back(100); } void Fill(DataInformation* dinf) { Fill(&dinf->dref); } void Modify(DataInformation* dinf) { Modify(&dinf->dref); } void Fill(MediaInformation* minf) { Fill(&minf->dinf); Fill(&minf->sample_table); Fill(&minf->vmhd); } void Modify(MediaInformation* minf) { Modify(&minf->dinf); Modify(&minf->sample_table); } void Fill(Media* mdia) { Fill(&mdia->header); Fill(&mdia->handler); Fill(&mdia->information); } void Modify(Media* mdia) { Modify(&mdia->information); } void Fill(Track* trak) { Fill(&trak->header); Fill(&trak->media); Fill(&trak->edit); } void Modify(Track* trak) { Modify(&trak->media); } void Fill(MovieExtendsHeader* mehd) { mehd->fragment_duration = 23489038090; mehd->version = 1; } void Modify(MovieExtendsHeader* mehd) { mehd->fragment_duration = 123456; mehd->version = 0; } void Fill(TrackExtends* trex) { trex->track_id = 2; trex->default_sample_description_index = 3; trex->default_sample_duration = 832; trex->default_sample_size = 89723; trex->default_sample_flags = 12; } void Modify(TrackExtends* trex) { trex->default_sample_size = 543; } void Fill(MovieExtends* mvex) { Fill(&mvex->header); mvex->tracks.resize(2); Fill(&mvex->tracks[0]); mvex->tracks[1].track_id = 1; mvex->tracks[1].default_sample_description_index = 13; mvex->tracks[1].default_sample_duration = 97687; mvex->tracks[1].default_sample_size = 1232; mvex->tracks[1].default_sample_flags = 6; } void Modify(MovieExtends* mvex) { mvex->tracks.resize(1); } void Fill(Movie* moov) { Fill(&moov->header); Fill(&moov->extends); moov->tracks.resize(2); Fill(&moov->tracks[0]); Fill(&moov->tracks[1]); } void Modify(Movie* moov) { moov->tracks.resize(1); } void Fill(TrackFragmentDecodeTime* tfdt) { tfdt->decode_time = 234029673820; tfdt->version = 1; } void Modify(TrackFragmentDecodeTime* tfdt) { tfdt->decode_time = 4567; tfdt->version = 0; } void Fill(MovieFragmentHeader* mfhd) { mfhd->sequence_number = 23235; } void Modify(MovieFragmentHeader* mfhd) { mfhd->sequence_number = 67890; } void Fill(TrackFragmentHeader* tfhd) { tfhd->flags = TrackFragmentHeader::kSampleDescriptionIndexPresentMask | TrackFragmentHeader::kDefaultSampleDurationPresentMask | TrackFragmentHeader::kDefaultSampleSizePresentMask | TrackFragmentHeader::kDefaultSampleFlagsPresentMask; tfhd->track_id = 1; tfhd->sample_description_index = 233; tfhd->default_sample_duration = 42545; tfhd->default_sample_size = 8765; tfhd->default_sample_flags = 65; } void Modify(TrackFragmentHeader* tfhd) { tfhd->default_sample_size = 888; } void Fill(TrackFragmentRun* trun) { trun->flags = TrackFragmentRun::kDataOffsetPresentMask | TrackFragmentRun::kSampleDurationPresentMask | TrackFragmentRun::kSampleSizePresentMask | TrackFragmentRun::kSampleFlagsPresentMask | TrackFragmentRun::kSampleCompTimeOffsetsPresentMask; trun->data_offset = 783246; trun->sample_count = arraysize(kData32); trun->sample_flags.assign(kData32, kData32 + arraysize(kData32)); trun->sample_sizes = trun->sample_flags; trun->sample_sizes[0] += 1000; trun->sample_durations = trun->sample_flags; trun->sample_durations[1] += 2343; trun->sample_composition_time_offsets.assign(kData32, kData32 + arraysize(kData32)); trun->sample_composition_time_offsets[2] -= 89782; trun->version = 1; } void Modify(TrackFragmentRun* trun) { trun->flags |= TrackFragmentRun::kFirstSampleFlagsPresentMask; trun->flags &= ~TrackFragmentRun::kSampleFlagsPresentMask; trun->sample_flags.resize(1); trun->version = 1; } void Fill(SampleToGroup* sbgp) { sbgp->grouping_type = FOURCC_SEIG; sbgp->entries.resize(2); sbgp->entries[0].sample_count = 3; sbgp->entries[0].group_description_index = 0x10002; sbgp->entries[0].sample_count = 1212; sbgp->entries[0].group_description_index = 0x10001; } void Modify(SampleToGroup* sbgp) { sbgp->entries.resize(1); sbgp->entries[0].group_description_index = 0x10001; } void Fill(SampleGroupDescription* sgpd) { sgpd->grouping_type = FOURCC_SEIG; sgpd->entries.resize(2); sgpd->entries[0].is_encrypted = true; sgpd->entries[0].iv_size = 8; sgpd->entries[0].key_id.assign(kData16Bytes, kData16Bytes + arraysize(kData16Bytes)); sgpd->entries[1].is_encrypted = false; sgpd->entries[1].iv_size = 0; sgpd->entries[1].key_id.resize(16); } void Modify(SampleGroupDescription* sbgp) { sbgp->entries.resize(1); sbgp->entries[0].key_id[4] = 88; } void Fill(TrackFragment* traf) { Fill(&traf->header); traf->runs.resize(1); Fill(&traf->runs[0]); Fill(&traf->decode_time); Fill(&traf->auxiliary_offset); Fill(&traf->auxiliary_size); } void Modify(TrackFragment* traf) { Modify(&traf->header); Modify(&traf->decode_time); } void Fill(MovieFragment* moof) { Fill(&moof->header); moof->tracks.resize(1); Fill(&moof->tracks[0]); } void Modify(MovieFragment* moof) { moof->tracks.resize(2); Fill(&moof->tracks[1]); Modify(&moof->tracks[1]); } void Fill(SegmentIndex* sidx) { sidx->reference_id = 3; sidx->timescale = 56700; sidx->earliest_presentation_time = 234; sidx->first_offset = 876223; sidx->references.resize(2); sidx->references[0].reference_type = true; sidx->references[0].referenced_size = 23424; sidx->references[0].subsegment_duration = 9083423; sidx->references[0].starts_with_sap = true; sidx->references[0].sap_type = SegmentReference::Type1; sidx->references[0].sap_delta_time = 2382; sidx->references[1].reference_type = false; sidx->references[1].referenced_size = 34572; sidx->references[1].subsegment_duration = 7234323; sidx->references[1].starts_with_sap = false; sidx->references[1].sap_type = SegmentReference::Type5; sidx->references[1].sap_delta_time = 53; sidx->version = 0; } void Modify(SegmentIndex* sidx) { sidx->earliest_presentation_time = 2348677865434; sidx->references.resize(3); sidx->references[2] = sidx->references[1]; sidx->references[2].subsegment_duration = 87662; sidx->version = 1; } bool IsOptional(const SampleAuxiliaryInformationOffset* box) { return true; } bool IsOptional(const SampleAuxiliaryInformationSize* box) { return true; } bool IsOptional(const ProtectionSchemeInfo* box) { return true; } bool IsOptional(const EditList* box) { return true; } bool IsOptional(const Edit* box) { return true; } bool IsOptional(const AVCDecoderConfigurationRecord* box) { return true; } bool IsOptional(const PixelAspectRatioBox* box) { return true; } bool IsOptional(const ElementaryStreamDescriptor* box) { return true; } bool IsOptional(const CompositionTimeToSample* box) { return true; } bool IsOptional(const SyncSample* box) { return true; } bool IsOptional(const MovieExtendsHeader* box) { return true; } bool IsOptional(const MovieExtends* box) { return true; } bool IsOptional(const SampleToGroup* box) { return true; } bool IsOptional(const SampleGroupDescription* box) { return true; } protected: scoped_ptr buffer_; }; typedef testing::Types< FileType, SegmentType, ProtectionSystemSpecificHeader, SampleAuxiliaryInformationOffset, SampleAuxiliaryInformationSize, OriginalFormat, SchemeType, TrackEncryption, SchemeInfo, ProtectionSchemeInfo, MovieHeader, TrackHeader, EditList, Edit, HandlerReference, AVCDecoderConfigurationRecord, PixelAspectRatioBox, VideoSampleEntry, ElementaryStreamDescriptor, AudioSampleEntry, SampleDescription, DecodingTimeToSample, CompositionTimeToSample, SampleToChunk, SampleSize, CompactSampleSize, ChunkLargeOffset, ChunkOffset, SyncSample, SampleTable, MediaHeader, VideoMediaHeader, SoundMediaHeader, DataEntryUrl, DataReference, DataInformation, MediaInformation, Media, Track, MovieExtendsHeader, TrackExtends, MovieExtends, Movie, TrackFragmentDecodeTime, MovieFragmentHeader, TrackFragmentHeader, TrackFragmentRun, TrackFragment, MovieFragment, SegmentIndex> Boxes; // GTEST support a maximum of 50 types in the template list, so we have to // break it into two groups. typedef testing::Types< SampleToGroup, SampleGroupDescription> Boxes2; TYPED_TEST_CASE_P(BoxDefinitionsTestGeneral); TYPED_TEST_P(BoxDefinitionsTestGeneral, WriteReadbackCompare) { TypeParam box; LOG(INFO) << "Processing " << FourCCToString(box.BoxType()); this->Fill(&box); box.Write(this->buffer_.get()); TypeParam box_readback; ASSERT_TRUE(this->ReadBack(&box_readback)); ASSERT_EQ(box, box_readback); } TYPED_TEST_P(BoxDefinitionsTestGeneral, WriteModifyWrite) { TypeParam box; LOG(INFO) << "Processing " << FourCCToString(box.BoxType()); this->Fill(&box); // Save the expected version set earlier in function |Fill|, then clear // the version, expecting box.Write set version as expected. uint8 version = this->GetAndClearVersion(&box); box.Write(this->buffer_.get()); EXPECT_EQ(version, this->GetAndClearVersion(&box)); this->buffer_->Clear(); this->Modify(&box); version = this->GetAndClearVersion(&box); box.Write(this->buffer_.get()); EXPECT_EQ(version, this->GetAndClearVersion(&box)); TypeParam box_readback; ASSERT_TRUE(this->ReadBack(&box_readback)); ASSERT_EQ(box, box_readback); } TYPED_TEST_P(BoxDefinitionsTestGeneral, Empty) { TypeParam box; LOG(INFO) << "Processing " << FourCCToString(box.BoxType()); if (this->IsOptional(&box)) { ASSERT_EQ(0u, box.ComputeSize()); } else { ASSERT_NE(0u, box.ComputeSize()); } } REGISTER_TYPED_TEST_CASE_P(BoxDefinitionsTestGeneral, WriteReadbackCompare, WriteModifyWrite, Empty); INSTANTIATE_TYPED_TEST_CASE_P(BoxDefinitionTypedTests, BoxDefinitionsTestGeneral, Boxes); INSTANTIATE_TYPED_TEST_CASE_P(BoxDefinitionTypedTests2, BoxDefinitionsTestGeneral, Boxes2); // Test other cases of box input. class BoxDefinitionsTest : public BoxDefinitionsTestGeneral {}; TEST_F(BoxDefinitionsTest, ProtectionSystemSpecificHeader) { ProtectionSystemSpecificHeader pssh; Fill(&pssh); pssh.Write(this->buffer_.get()); ProtectionSystemSpecificHeader pssh_readback; ASSERT_TRUE(ReadBack(&pssh_readback)); ASSERT_EQ(pssh, pssh_readback); pssh_readback.raw_box[15] += 1; pssh_readback.Write(this->buffer_.get()); ProtectionSystemSpecificHeader pssh_readback2; ASSERT_TRUE(ReadBack(&pssh_readback2)); // If raw_box is set, raw_box will be written instead. ASSERT_FALSE(pssh_readback == pssh_readback2); ASSERT_EQ(pssh_readback.raw_box, pssh_readback2.raw_box); } TEST_F(BoxDefinitionsTest, CompactSampleSize_FieldSize16) { CompactSampleSize stz2; stz2.field_size = 16; stz2.sizes.assign(kData16, kData16 + arraysize(kData16)); stz2.Write(this->buffer_.get()); CompactSampleSize stz2_readback; ASSERT_TRUE(ReadBack(&stz2_readback)); ASSERT_EQ(stz2, stz2_readback); } TEST_F(BoxDefinitionsTest, ChunkLargeOffsetSmallOffset) { ChunkLargeOffset co64; co64.offsets.assign(kData32, kData32 + arraysize(kData32)); co64.Write(this->buffer_.get()); // The data is stored in ChunkOffset box instead. ChunkOffset stco; ASSERT_TRUE(ReadBack(&stco)); ASSERT_EQ(co64, stco); } TEST_F(BoxDefinitionsTest, TrackFragmentHeader_NoSampleSize) { TrackFragmentHeader tfhd; Fill(&tfhd); tfhd.flags &= ~TrackFragmentHeader::kDefaultSampleSizePresentMask; tfhd.Write(this->buffer_.get()); TrackFragmentHeader tfhd_readback; ASSERT_TRUE(ReadBack(&tfhd_readback)); EXPECT_EQ(0u, tfhd_readback.default_sample_size); tfhd.default_sample_size = 0; ASSERT_EQ(tfhd, tfhd_readback); } TEST_F(BoxDefinitionsTest, TrackFragmentRun_NoSampleSize) { TrackFragmentRun trun; Fill(&trun); trun.flags &= ~TrackFragmentRun::kSampleSizePresentMask; trun.Write(this->buffer_.get()); TrackFragmentRun trun_readback; ASSERT_TRUE(ReadBack(&trun_readback)); EXPECT_TRUE(trun_readback.sample_sizes.empty()); trun.sample_sizes.clear(); ASSERT_EQ(trun, trun_readback); } } // namespace mp4 } // namespace media