// Copyright 2015, David Howden // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. package tag import ( "encoding/binary" "errors" "fmt" "io" "os" "strconv" ) var atomTypes = map[int]string{ 0: "uint8", 1: "text", 13: "jpeg", 14: "png", 21: "uint8", } // NB: atoms does not include "----", this is handled separately var atoms = atomNames(map[string]string{ "\xa9alb": "album", "\xa9art": "artist", "\xa9ART": "artist", "aART": "album_artist", "\xa9day": "year", "\xa9nam": "title", "\xa9gen": "genre", "trkn": "track", "\xa9wrt": "composer", "\xa9too": "encoder", "cprt": "copyright", "covr": "picture", "\xa9grp": "grouping", "keyw": "keyword", "\xa9lyr": "lyrics", "\xa9cmt": "comment", "tmpo": "tempo", "cpil": "compilation", "disk": "disc", }) type atomNames map[string]string func (f atomNames) Name(n string) []string { res := make([]string, 1) for k, v := range f { if v == n { res = append(res, k) } } return res } // metadataMP4 is the implementation of Metadata for MP4 tag (atom) data. type metadataMP4 struct { fileType FileType data map[string]interface{} } // ReadAtoms reads MP4 metadata atoms from the io.ReadSeeker into a Metadata, returning // non-nil error if there was a problem. func ReadAtoms(r io.ReadSeeker) (Metadata, error) { m := metadataMP4{ data: make(map[string]interface{}), fileType: UnknownFileType, } err := m.readAtoms(r) return m, err } func (m metadataMP4) readAtoms(r io.ReadSeeker) error { for { name, size, err := readAtomHeader(r) if err != nil { if err == io.EOF { return nil } return err } switch name { case "meta": // next_item_id (int32) _, err := readBytes(r, 4) if err != nil { return err } fallthrough case "moov", "udta", "ilst": return m.readAtoms(r) } _, ok := atoms[name] if name == "----" { name, size, err = readCustomAtom(r, size) if err != nil { return err } if name != "----" { ok = true } } if !ok { _, err := r.Seek(int64(size-8), os.SEEK_CUR) if err != nil { return err } continue } err = m.readAtomData(r, name, size-8) if err != nil { return err } } } func (m metadataMP4) readAtomData(r io.ReadSeeker, name string, size uint32) error { b, err := readBytes(r, int(size)) if err != nil { return err } // "data" + size (4 bytes each) b = b[8:] class := getInt(b[1:4]) contentType, ok := atomTypes[class] if !ok { return fmt.Errorf("invalid content type: %v (%x) (%x)", class, b[1:4], b) } // 4: atom version (1 byte) + atom flags (3 bytes) // 4: NULL (usually locale indicator) b = b[8:] if name == "trkn" || name == "disk" { m.data[name] = int(b[3]) m.data[name+"_count"] = int(b[5]) return nil } var data interface{} switch contentType { case "text": data = string(b) case "uint8": data = getInt(b[:1]) case "jpeg", "png": data = &Picture{ Ext: contentType, MIMEType: "image/" + contentType, Data: b, } } m.data[name] = data return nil } func readAtomHeader(r io.ReadSeeker) (name string, size uint32, err error) { err = binary.Read(r, binary.BigEndian, &size) if err != nil { return } name, err = readString(r, 4) return } // Generic atom. // Should have 3 sub atoms : mean, name and data. // We check that mean is "com.apple.iTunes" and we use the subname as // the name, and move to the data atom. // If anything goes wrong, we jump at the end of the "----" atom. func readCustomAtom(r io.ReadSeeker, size uint32) (string, uint32, error) { subNames := make(map[string]string) var dataSize uint32 for size > 8 { subName, subSize, err := readAtomHeader(r) if err != nil { return "", 0, err } // Remove the size of the atom from the size counter size -= subSize switch subName { case "mean", "name": b, err := readBytes(r, int(subSize-8)) if err != nil { return "", 0, err } subNames[subName] = string(b[4:]) case "data": // Found the "data" atom, rewind dataSize = subSize + 8 // will need to re-read "data" + size (4 + 4) _, err := r.Seek(-8, os.SEEK_CUR) if err != nil { return "", 0, err } } } // there should remain only the header size if size != 8 { err := errors.New("---- atom out of bounds") return "", 0, err } if subNames["mean"] != "com.apple.iTunes" || subNames["name"] == "" || dataSize == 0 { return "----", 0, nil } return subNames["name"], dataSize, nil } func (metadataMP4) Format() Format { return MP4 } func (m metadataMP4) FileType() FileType { return m.fileType } func (m metadataMP4) Raw() map[string]interface{} { return m.data } func (m metadataMP4) getString(n []string) string { for _, k := range n { if x, ok := m.data[k]; ok { return x.(string) } } return "" } func (m metadataMP4) getInt(n []string) int { for _, k := range n { if x, ok := m.data[k]; ok { return x.(int) } } return 0 } func (m metadataMP4) Title() string { return m.getString(atoms.Name("title")) } func (m metadataMP4) Artist() string { return m.getString(atoms.Name("artist")) } func (m metadataMP4) Album() string { return m.getString(atoms.Name("album")) } func (m metadataMP4) AlbumArtist() string { return m.getString(atoms.Name("album_artist")) } func (m metadataMP4) Composer() string { return m.getString(atoms.Name("composer")) } func (m metadataMP4) Genre() string { return m.getString(atoms.Name("genre")) } func (m metadataMP4) Year() int { date := m.getString(atoms.Name("year")) if len(date) >= 4 { year, _ := strconv.Atoi(date[:4]) return year } return 0 } func (m metadataMP4) Track() (int, int) { x := m.getInt([]string{"trkn"}) if n, ok := m.data["trkn_count"]; ok { return x, n.(int) } return x, 0 } func (m metadataMP4) Disc() (int, int) { x := m.getInt([]string{"disk"}) if n, ok := m.data["disk_count"]; ok { return x, n.(int) } return x, 0 } func (m metadataMP4) Lyrics() string { t, ok := m.data["\xa9lyr"] if !ok { return "" } return t.(string) } func (m metadataMP4) Picture() *Picture { v, ok := m.data["covr"] if !ok { return nil } return v.(*Picture) }