package mp3 // TODO: vbri import ( "fmt" "github.com/wader/fq/format" "github.com/wader/fq/pkg/decode" "github.com/wader/fq/pkg/interp" ) var headerFormat decode.Group var footerFormat decode.Group var mp3Frame decode.Group func init() { interp.RegisterFormat(decode.Format{ Name: format.MP3, ProbeOrder: format.ProbeOrderBinFuzzy, // after most others (silent samples and jpeg header can look like mp3 sync) Description: "MP3 file", Groups: []string{format.PROBE}, DecodeFn: mp3Decode, DefaultInArg: format.Mp3In{ MaxUniqueHeaderConfigs: 5, MaxUnknown: 50, MaxSyncSeek: 4 * 1024 * 8, }, Dependencies: []decode.Dependency{ {Names: []string{format.ID3V2}, Group: &headerFormat}, { Names: []string{ format.ID3V1, format.ID3V11, format.APEV2, }, Group: &footerFormat, }, {Names: []string{format.MP3_FRAME}, Group: &mp3Frame}, }, }) } func mp3Decode(d *decode.D) any { var mi format.Mp3In d.ArgAs(&mi) // things in a mp3 stream usually have few unique combinations of. // does not include bitrate on purpose type headerConfig struct { MPEGVersion int ProtectionAbsent bool SampleRate int ChannelsIndex int ChannelModeIndex int } uniqueHeaderConfigs := map[headerConfig]struct{}{} knownSize := int64(0) // there are mp3s files in the wild with multiple headers, two id3v2 tags etc d.FieldArray("headers", func(d *decode.D) { for d.NotEnd() { headerStart := d.Pos() if dv, _, _ := d.TryFieldFormat("header", headerFormat, nil); dv == nil { return } knownSize += d.Pos() - headerStart } }) lastValidEnd := int64(0) validFrames := 0 decodeFailures := 0 d.FieldArray("frames", func(d *decode.D) { for d.NotEnd() { syncLen, _, err := d.TryPeekFind(16, 8, int64(mi.MaxSyncSeek), func(v uint64) bool { return (v&0b1111_1111_1110_0000 == 0b1111_1111_1110_0000 && // sync header v&0b0000_0000_0001_1000 != 0b0000_0000_0000_1000 && // not reserved mpeg version v&0b0000_0000_0000_0110 == 0b0000_0000_0000_0010) // layer 3 }) if err != nil || syncLen < 0 { break } if syncLen > 0 { d.SeekRel(syncLen) } frameStart := d.Pos() dv, v, _ := d.TryFieldFormat("frame", mp3Frame, nil) if dv == nil { decodeFailures++ d.SeekRel(8) continue } mfo, ok := v.(format.MP3FrameOut) if !ok { panic(fmt.Sprintf("expected MP3FrameOut got %#+v", v)) } knownSize += d.Pos() - frameStart uniqueHeaderConfigs[headerConfig{ MPEGVersion: mfo.MPEGVersion, ProtectionAbsent: mfo.ProtectionAbsent, SampleRate: mfo.SampleRate, ChannelsIndex: mfo.ChannelsIndex, ChannelModeIndex: mfo.ChannelModeIndex, }] = struct{}{} lastValidEnd = d.Pos() validFrames++ if len(uniqueHeaderConfigs) >= mi.MaxUniqueHeaderConfigs { d.Errorf("too many unique header configurations") } } }) if validFrames == 0 || (validFrames < 2 && decodeFailures > 0) { d.Errorf("no frames found") } d.SeekAbs(lastValidEnd) d.FieldArray("footers", func(d *decode.D) { for d.NotEnd() { footerStart := d.Pos() if dv, _, _ := d.TryFieldFormat("footer", footerFormat, nil); dv == nil { return } knownSize += d.Pos() - footerStart } }) unknownPercent := int(float64((d.Len() - knownSize)) / float64(d.Len()) * 100.0) if unknownPercent > mi.MaxUnknown { d.Errorf(fmt.Sprintf("exceeds max precent unknown bits, %d > %d", unknownPercent, mi.MaxUnknown)) } return nil }