package mp4 // Tries to decode ISOBMFF quicktime mov // Uses naming from ISOBMFF when possible // ISO/IEC 14496-12 // Quicktime file format https://developer.apple.com/standards/qtff-2001.pdf // FLAC in ISOBMFF https://github.com/xiph/flac/blob/master/doc/isoflac.txt // vp9 in ISOBMFF https://www.webmproject.org/vp9/mp4/ // https://developer.apple.com/library/archive/documentation/QuickTime/QTFF/Metadata/Metadata.html#//apple_ref/doc/uid/TP40000939-CH1-SW43 // TODO: validate structure better? trak/stco etc // TODO: keep track of structure somehow to detect errors // TODO: ISO-14496 says mp4 mdat can begin and end with original header/trailer (no used?) // TODO: split into mov and mp4 decoder? // TODO: split into mp4_box decoder? needs complex in/out args? // TODO: better probe, find first 2 boxes, should be free,ftyp or mdat? import ( "embed" "fmt" "github.com/wader/fq/format" "github.com/wader/fq/pkg/decode" "github.com/wader/fq/pkg/interp" "golang.org/x/exp/slices" ) //go:embed mp4.jq //go:embed mp4.md var mp4FS embed.FS var aacFrameFormat decode.Group var av1CCRFormat decode.Group var av1FrameFormat decode.Group var avcAUFormat decode.Group var avcDCRFormat decode.Group var flacFrameFormat decode.Group var flacMetadatablocksFormat decode.Group var hevcAUFormat decode.Group var hevcCDCRFormat decode.Group var iccProfileFormat decode.Group var id3v2Format decode.Group var imageFormat decode.Group var jpegFormat decode.Group var mp3FrameFormat decode.Group var mpegESFormat decode.Group var mpegPESPacketSampleFormat decode.Group var opusPacketFrameFormat decode.Group var pngFormat decode.Group var proResFrameFormat decode.Group var protoBufWidevineFormat decode.Group var psshPlayreadyFormat decode.Group var vorbisPacketFormat decode.Group var vp9FrameFormat decode.Group var vpxCCRFormat decode.Group func init() { interp.RegisterFormat(decode.Format{ Name: format.MP4, Description: "ISOBMFF, QuickTime and similar", Groups: []string{ format.PROBE, format.IMAGE, // avif }, DecodeFn: mp4Decode, DecodeInArg: format.Mp4In{ DecodeSamples: true, AllowTruncated: false, }, Dependencies: []decode.Dependency{ {Names: []string{format.AAC_FRAME}, Group: &aacFrameFormat}, {Names: []string{format.AV1_CCR}, Group: &av1CCRFormat}, {Names: []string{format.AV1_FRAME}, Group: &av1FrameFormat}, {Names: []string{format.AVC_AU}, Group: &avcAUFormat}, {Names: []string{format.AVC_DCR}, Group: &avcDCRFormat}, {Names: []string{format.FLAC_FRAME}, Group: &flacFrameFormat}, {Names: []string{format.FLAC_METADATABLOCKS}, Group: &flacMetadatablocksFormat}, {Names: []string{format.HEVC_AU}, Group: &hevcAUFormat}, {Names: []string{format.HEVC_DCR}, Group: &hevcCDCRFormat}, {Names: []string{format.ICC_PROFILE}, Group: &iccProfileFormat}, {Names: []string{format.ID3V2}, Group: &id3v2Format}, {Names: []string{format.IMAGE}, Group: &imageFormat}, {Names: []string{format.JPEG}, Group: &jpegFormat}, {Names: []string{format.MP3_FRAME}, Group: &mp3FrameFormat}, {Names: []string{format.MPEG_ES}, Group: &mpegESFormat}, {Names: []string{format.MPEG_PES_PACKET}, Group: &mpegPESPacketSampleFormat}, {Names: []string{format.OPUS_PACKET}, Group: &opusPacketFrameFormat}, {Names: []string{format.PNG}, Group: &pngFormat}, {Names: []string{format.PRORES_FRAME}, Group: &proResFrameFormat}, {Names: []string{format.PROTOBUF_WIDEVINE}, Group: &protoBufWidevineFormat}, {Names: []string{format.PSSH_PLAYREADY}, Group: &psshPlayreadyFormat}, {Names: []string{format.VORBIS_PACKET}, Group: &vorbisPacketFormat}, {Names: []string{format.VP9_FRAME}, Group: &vp9FrameFormat}, {Names: []string{format.VPX_CCR}, Group: &vpxCCRFormat}, }, }) interp.RegisterFS(mp4FS) } type stsc struct { firstChunk int samplesPerChunk int } type moof struct { offset int64 defaultSampleSize int64 defaultSampleDescriptionIndex int truns []trun sencs []senc } // TODO: nothing for now type senc struct { entries []struct{} } type trun struct { dataOffset int64 samplesSizes []int64 } type sampleDescription struct { dataFormat string originalFormat string } type stsz struct { size int64 count int } type track struct { seenHdlr bool id int sampleDescriptions []sampleDescription subType string stco []int64 stsc []stsc stsz []stsz formatInArg any objectType int // if data format is "mp4a" defaultIVSize int moofs []*moof // for fmp4 } type pathEntry struct { typ string data any } type decodeContext struct { opts format.Mp4In path []pathEntry tracks map[int]*track } func (ctx *decodeContext) lookupTrack(id int) *track { t, ok := ctx.tracks[id] if !ok { t = &track{id: id} ctx.tracks[id] = t } return t } func (ctx *decodeContext) isParent(typ string) bool { return ctx.parent().typ == typ } func (ctx *decodeContext) parent() pathEntry { return ctx.path[len(ctx.path)-2] } func (ctx *decodeContext) findParent(typ string) any { for i := len(ctx.path) - 1; i >= 0; i-- { p := ctx.path[i] if p.typ == typ { return p.data } } return nil } func (ctx *decodeContext) currentTrakBox() *trakBox { t, _ := ctx.findParent("trak").(*trakBox) return t } func (ctx *decodeContext) currentTrafBox() *trafBox { t, _ := ctx.findParent("traf").(*trafBox) return t } func (ctx *decodeContext) currentMoofBox() *moofBox { t, _ := ctx.findParent("moof").(*moofBox) return t } func (ctx *decodeContext) currentMetaBox() *metaBox { t, _ := ctx.findParent("meta").(*metaBox) return t } func (ctx *decodeContext) currentTrack() *track { if t := ctx.currentTrakBox(); t != nil { return ctx.lookupTrack(t.trackID) } if t := ctx.currentTrafBox(); t != nil { return ctx.lookupTrack(t.trackID) } return nil } func mp4Tracks(d *decode.D, ctx *decodeContext) { // keep track order stable var sortedTracks []*track for _, t := range ctx.tracks { sortedTracks = append(sortedTracks, t) } slices.SortFunc(sortedTracks, func(a, b *track) bool { return a.id < b.id }) d.FieldArray("tracks", func(d *decode.D) { for _, t := range sortedTracks { decodeSampleRange := func(d *decode.D, t *track, decodeSample bool, dataFormat string, name string, firstBit int64, nBits int64, inArg any) { d.RangeFn(firstBit, nBits, func(d *decode.D) { if !decodeSample { d.FieldRawLen(name, d.BitsLeft()) return } switch { case dataFormat == "fLaC": d.FieldFormatLen(name, nBits, flacFrameFormat, inArg) case dataFormat == "Opus": d.FieldFormatLen(name, nBits, opusPacketFrameFormat, inArg) case dataFormat == "vp09": d.FieldFormatLen(name, nBits, vp9FrameFormat, inArg) case dataFormat == "avc1": d.FieldFormatLen(name, nBits, avcAUFormat, inArg) case dataFormat == "hev1", dataFormat == "hvc1": d.FieldFormatLen(name, nBits, hevcAUFormat, inArg) case dataFormat == "av01": d.FieldFormatLen(name, nBits, av1FrameFormat, inArg) case dataFormat == "mp4a" && t.objectType == format.MPEGObjectTypeMP3: d.FieldFormatLen(name, nBits, mp3FrameFormat, inArg) case dataFormat == "mp4a" && t.objectType == format.MPEGObjectTypeAAC: d.FieldFormatLen(name, nBits, aacFrameFormat, inArg) case dataFormat == "mp4a" && t.objectType == format.MPEGObjectTypeVORBIS: d.FieldFormatLen(name, nBits, vorbisPacketFormat, inArg) case dataFormat == "mp4v" && t.objectType == format.MPEGObjectTypeMPEG2VideoMain: d.FieldFormatLen(name, nBits, mpegPESPacketSampleFormat, inArg) case dataFormat == "mp4v" && t.objectType == format.MPEGObjectTypeMJPEG: d.FieldFormatLen(name, nBits, jpegFormat, inArg) case dataFormat == "mp4v" && t.objectType == format.MPEGObjectTypePNG: d.FieldFormatLen(name, nBits, pngFormat, inArg) case dataFormat == "jpeg": d.FieldFormatLen(name, nBits, jpegFormat, inArg) case dataFormat == "apch", dataFormat == "apcn", dataFormat == "scpa", dataFormat == "apco", dataFormat == "ap4h": d.FieldFormatLen(name, nBits, proResFrameFormat, inArg) default: d.FieldRawLen(name, d.BitsLeft()) } }) } d.FieldStruct("track", func(d *decode.D) { d.FieldValueU("id", uint64(t.id)) trackSDDataFormat := "unknown" if len(t.sampleDescriptions) > 0 { sd := t.sampleDescriptions[0] trackSDDataFormat = sd.dataFormat if sd.originalFormat != "" { trackSDDataFormat = sd.originalFormat } } d.FieldValueStr("data_format", trackSDDataFormat, dataFormatNames) switch trackSDDataFormat { case "lpcm", "raw ", "twos", "sowt", "in24", "in32", "fl23", "fl64", "alaw", "ulaw": // TODO: treat raw samples format differently, a bit too much to have one field per sample. // maybe in some future fq could have smart array fields return } d.FieldArray("samples", func(d *decode.D) { // TODO: warning? could also be init fragment etc if len(t.stsz) > 0 && len(t.stsc) > 0 && len(t.stco) > 0 { stszIndex := 0 stszEntryNr := 0 sampleNr := 0 stscIndex := 0 stscEntryNr := 0 stcoIndex := 0 stszEntry := t.stsz[stszIndex] stscEntry := t.stsc[stscIndex] sampleOffset := t.stco[stcoIndex] logStrFn := func() string { return fmt.Sprintf("%d: %s: nr=%d: stsz[%d/%d] nr=%d %#v stsc[%d/%d] nr=%d %#v stco[%d/%d]=%d \n", t.id, trackSDDataFormat, sampleNr, stszIndex, len(t.stsz), stszEntryNr, stszEntry, stscIndex, len(t.stsc), stscEntryNr, stscEntry, stcoIndex, len(t.stco), sampleOffset, ) } for stszIndex < len(t.stsz) { if stszEntryNr >= stszEntry.count { stszIndex++ if stszIndex >= len(t.stsz) { // TODO: warning if unused stsc/stco entries? break } stszEntry = t.stsz[stszIndex] stszEntryNr = 0 } if stscEntryNr >= stscEntry.samplesPerChunk { stscEntryNr = 0 stcoIndex++ if stcoIndex >= len(t.stco) { d.Fatalf("outside stco: %s", logStrFn()) } sampleOffset = t.stco[stcoIndex] if stscIndex < len(t.stsc)-1 && stcoIndex >= t.stsc[stscIndex+1].firstChunk-1 { stscIndex++ if stscIndex >= len(t.stsc) { d.Fatalf("outside stsc: %s", logStrFn()) } stscEntry = t.stsc[stscIndex] } } // log.Println(logStrFn()) decodeSampleRange(d, t, ctx.opts.DecodeSamples, trackSDDataFormat, "sample", sampleOffset*8, stszEntry.size*8, t.formatInArg) sampleOffset += stszEntry.size stscEntryNr++ stszEntryNr++ sampleNr++ } } sampleNr := 0 for _, m := range t.moofs { for trunNr, trun := range m.truns { var senc senc if trunNr < len(m.sencs) { senc = m.sencs[trunNr] } sampleOffset := m.offset + trun.dataOffset for trunSampleNr, sz := range trun.samplesSizes { dataFormat := trackSDDataFormat if m.defaultSampleDescriptionIndex != 0 && m.defaultSampleDescriptionIndex-1 < len(t.sampleDescriptions) { sd := t.sampleDescriptions[m.defaultSampleDescriptionIndex-1] dataFormat = sd.dataFormat if sd.originalFormat != "" { dataFormat = sd.originalFormat } } // logStrFn := func() string { // return fmt.Sprintf("%d: %s: %d: (%s): sz=%d %d+%d=%d", // t.id, // dataFormat, // sampleNr, // trackSDDataFormat, // sz, // m.offset, // m.dataOffset, // sampleOffset, // ) // } // log.Println(logStrFn()) decodeSample := ctx.opts.DecodeSamples if trunSampleNr < len(senc.entries) { // TODO: encrypted decodeSample = false } decodeSampleRange(d, t, decodeSample, dataFormat, "sample", sampleOffset*8, sz*8, t.formatInArg) sampleOffset += sz sampleNr++ } } } }) }) } }) } func mp4Decode(d *decode.D, in any) any { mi, _ := in.(format.Mp4In) ctx := &decodeContext{ opts: mi, path: []pathEntry{{typ: "root"}}, tracks: map[int]*track{}, } // TODO: nicer, validate functions without field? d.AssertLeastBytesLeft(16) size := d.U32() if size < 8 { d.Fatalf("first box size too small < 8") } firstType := d.UTF8(4) switch firstType { case "styp", // mp4 segment "ftyp", // mp4 file "free", // seems to happen "moov", // seems to happen "pnot", // video preview file "jP ": // JPEG 2000 default: d.Errorf("no styp, ftyp, free or moov box found") } d.SeekRel(-8 * 8) decodeBoxes(ctx, d) if len(ctx.tracks) > 0 { mp4Tracks(d, ctx) } return nil }