// Package exif implements decoding of EXIF data as defined in the EXIF 2.2 // specification (http://www.exif.org/Exif2-2.PDF). package exif import ( "bufio" "bytes" "encoding/binary" "encoding/json" "errors" "fmt" "io" "io/ioutil" "math" "strconv" "strings" "time" "github.com/rwcarlsen/goexif/tiff" ) const ( jpeg_APP1 = 0xE1 exifPointer = 0x8769 gpsPointer = 0x8825 interopPointer = 0xA005 ) // A decodeError is returned when the image cannot be decoded as a tiff image. type decodeError struct { cause error } func (de decodeError) Error() string { return fmt.Sprintf("exif: decode failed (%v) ", de.cause.Error()) } // IsShortReadTagValueError identifies a ErrShortReadTagValue error. func IsShortReadTagValueError(err error) bool { de, ok := err.(decodeError) if ok { return de.cause == tiff.ErrShortReadTagValue } return false } // A TagNotPresentError is returned when the requested field is not // present in the EXIF. type TagNotPresentError FieldName func (tag TagNotPresentError) Error() string { return fmt.Sprintf("exif: tag %q is not present", string(tag)) } func IsTagNotPresentError(err error) bool { _, ok := err.(TagNotPresentError) return ok } // Parser allows the registration of custom parsing and field loading // in the Decode function. type Parser interface { // Parse should read data from x and insert parsed fields into x via // LoadTags. Parse(x *Exif) error } var parsers []Parser func init() { RegisterParsers(&parser{}) } // RegisterParsers registers one or more parsers to be automatically called // when decoding EXIF data via the Decode function. func RegisterParsers(ps ...Parser) { parsers = append(parsers, ps...) } type parser struct{} type tiffErrors map[tiffError]string func (te tiffErrors) Error() string { var allErrors []string for k, v := range te { allErrors = append(allErrors, fmt.Sprintf("%s: %v\n", stagePrefix[k], v)) } return strings.Join(allErrors, "\n") } // IsCriticalError, given the error returned by Decode, reports whether the // returned *Exif may contain usable information. func IsCriticalError(err error) bool { _, ok := err.(tiffErrors) return !ok } // IsExifError reports whether the error happened while decoding the EXIF // sub-IFD. func IsExifError(err error) bool { if te, ok := err.(tiffErrors); ok { _, isExif := te[loadExif] return isExif } return false } // IsGPSError reports whether the error happened while decoding the GPS sub-IFD. func IsGPSError(err error) bool { if te, ok := err.(tiffErrors); ok { _, isGPS := te[loadExif] return isGPS } return false } // IsInteroperabilityError reports whether the error happened while decoding the // Interoperability sub-IFD. func IsInteroperabilityError(err error) bool { if te, ok := err.(tiffErrors); ok { _, isInterop := te[loadInteroperability] return isInterop } return false } type tiffError int const ( loadExif tiffError = iota loadGPS loadInteroperability ) var stagePrefix = map[tiffError]string{ loadExif: "loading EXIF sub-IFD", loadGPS: "loading GPS sub-IFD", loadInteroperability: "loading Interoperability sub-IFD", } // Parse reads data from the tiff data in x and populates the tags // in x. If parsing a sub-IFD fails, the error is recorded and // parsing continues with the remaining sub-IFDs. func (p *parser) Parse(x *Exif) error { x.LoadTags(x.Tiff.Dirs[0], exifFields, false) // thumbnails if len(x.Tiff.Dirs) >= 2 { x.LoadTags(x.Tiff.Dirs[1], thumbnailFields, false) } te := make(tiffErrors) // recurse into exif, gps, and interop sub-IFDs if err := loadSubDir(x, ExifIFDPointer, exifFields); err != nil { te[loadExif] = err.Error() } if err := loadSubDir(x, GPSInfoIFDPointer, gpsFields); err != nil { te[loadGPS] = err.Error() } if err := loadSubDir(x, InteroperabilityIFDPointer, interopFields); err != nil { te[loadInteroperability] = err.Error() } if len(te) > 0 { return te } return nil } func loadSubDir(x *Exif, ptr FieldName, fieldMap map[uint16]FieldName) error { r := bytes.NewReader(x.Raw) tag, err := x.Get(ptr) if err != nil { return nil } offset, err := tag.Int64(0) if err != nil { return nil } _, err = r.Seek(offset, 0) if err != nil { return fmt.Errorf("exif: seek to sub-IFD %s failed: %v", ptr, err) } subDir, _, err := tiff.DecodeDir(r, x.Tiff.Order) if err != nil { return fmt.Errorf("exif: sub-IFD %s decode failed: %v", ptr, err) } x.LoadTags(subDir, fieldMap, false) return nil } // Exif provides access to decoded EXIF metadata fields and values. type Exif struct { Tiff *tiff.Tiff main map[FieldName]*tiff.Tag Raw []byte } // Decode parses EXIF-encoded data from r and returns a queryable Exif // object. After the exif data section is called and the tiff structure // decoded, each registered parser is called (in order of registration). If // one parser returns an error, decoding terminates and the remaining // parsers are not called. // The error can be inspected with functions such as IsCriticalError to // determine whether the returned object might still be usable. func Decode(r io.Reader) (*Exif, error) { // EXIF data in JPEG is stored in the APP1 marker. EXIF data uses the TIFF // format to store data. // If we're parsing a TIFF image, we don't need to strip away any data. // If we're parsing a JPEG image, we need to strip away the JPEG APP1 // marker and also the EXIF header. header := make([]byte, 4) n, err := r.Read(header) if err != nil { return nil, err } if n < len(header) { return nil, errors.New("exif: short read on header") } var isTiff bool switch string(header) { case "II*\x00": // TIFF - Little endian (Intel) isTiff = true case "MM\x00*": // TIFF - Big endian (Motorola) isTiff = true default: // Not TIFF, assume JPEG } // Put the header bytes back into the reader. r = io.MultiReader(bytes.NewReader(header), r) var ( er *bytes.Reader tif *tiff.Tiff ) if isTiff { // Functions below need the IFDs from the TIFF data to be stored in a // *bytes.Reader. We use TeeReader to get a copy of the bytes as a // side-effect of tiff.Decode() doing its work. b := &bytes.Buffer{} tr := io.TeeReader(r, b) tif, err = tiff.Decode(tr) er = bytes.NewReader(b.Bytes()) } else { // Locate the JPEG APP1 header. var sec *appSec sec, err = newAppSec(jpeg_APP1, r) if err != nil { return nil, err } // Strip away EXIF header. er, err = sec.exifReader() if err != nil { return nil, err } tif, err = tiff.Decode(er) } if err != nil { return nil, decodeError{cause: err} } er.Seek(0, 0) raw, err := ioutil.ReadAll(er) if err != nil { return nil, decodeError{cause: err} } // build an exif structure from the tiff x := &Exif{ main: map[FieldName]*tiff.Tag{}, Tiff: tif, Raw: raw, } for i, p := range parsers { if err := p.Parse(x); err != nil { if _, ok := err.(tiffErrors); ok { return x, err } // This should never happen, as Parse always returns a tiffError // for now, but that could change. return x, fmt.Errorf("exif: parser %v failed (%v)", i, err) } } return x, nil } // LoadTags loads tags into the available fields from the tiff Directory // using the given tagid-fieldname mapping. Used to load makernote and // other meta-data. If showMissing is true, tags in d that are not in the // fieldMap will be loaded with the FieldName UnknownPrefix followed by the // tag ID (in hex format). func (x *Exif) LoadTags(d *tiff.Dir, fieldMap map[uint16]FieldName, showMissing bool) { for _, tag := range d.Tags { name := fieldMap[tag.Id] if name == "" { if !showMissing { continue } name = FieldName(fmt.Sprintf("%v%x", UnknownPrefix, tag.Id)) } x.main[name] = tag } } // Get retrieves the EXIF tag for the given field name. // // If the tag is not known or not present, an error is returned. If the // tag name is known, the error will be a TagNotPresentError. func (x *Exif) Get(name FieldName) (*tiff.Tag, error) { if tg, ok := x.main[name]; ok { return tg, nil } return nil, TagNotPresentError(name) } // Walker is the interface used to traverse all fields of an Exif object. type Walker interface { // Walk is called for each non-nil EXIF field. Returning a non-nil // error aborts the walk/traversal. Walk(name FieldName, tag *tiff.Tag) error } // Walk calls the Walk method of w with the name and tag for every non-nil // EXIF field. If w aborts the walk with an error, that error is returned. func (x *Exif) Walk(w Walker) error { for name, tag := range x.main { if err := w.Walk(name, tag); err != nil { return err } } return nil } // DateTime returns the EXIF's "DateTimeOriginal" field, which // is the creation time of the photo. If not found, it tries // the "DateTime" (which is meant as the modtime) instead. // The error will be TagNotPresentErr if none of those tags // were found, or a generic error if the tag value was // not a string, or the error returned by time.Parse. // // If the EXIF lacks timezone information or GPS time, the returned // time's Location will be time.Local. func (x *Exif) DateTime() (time.Time, error) { var dt time.Time tag, err := x.Get(DateTimeOriginal) if err != nil { tag, err = x.Get(DateTime) if err != nil { return dt, err } } if tag.Format() != tiff.StringVal { return dt, errors.New("DateTime[Original] not in string format") } exifTimeLayout := "2006:01:02 15:04:05" dateStr := strings.TrimRight(string(tag.Val), "\x00") // TODO(bradfitz,mpl): look for timezone offset, GPS time, etc. // For now, just always return the time.Local timezone. return time.ParseInLocation(exifTimeLayout, dateStr, time.Local) } func ratFloat(num, dem int64) float64 { return float64(num) / float64(dem) } // Tries to parse a Geo degrees value from a string as it was found in some // EXIF data. // Supported formats so far: // - "52,00000,50,00000,34,01180" ==> 52 deg 50'34.0118" // Probably due to locale the comma is used as decimal mark as well as the // separator of three floats (degrees, minutes, seconds) // http://en.wikipedia.org/wiki/Decimal_mark#Hindu.E2.80.93Arabic_numeral_system // - "52.0,50.0,34.01180" ==> 52deg50'34.0118" // - "52,50,34.01180" ==> 52deg50'34.0118" func parseTagDegreesString(s string) (float64, error) { const unparsableErrorFmt = "Unknown coordinate format: %s" isSplitRune := func(c rune) bool { return c == ',' || c == ';' } parts := strings.FieldsFunc(s, isSplitRune) var degrees, minutes, seconds float64 var err error switch len(parts) { case 6: degrees, err = strconv.ParseFloat(parts[0]+"."+parts[1], 64) if err != nil { return 0.0, fmt.Errorf(unparsableErrorFmt, s) } minutes, err = strconv.ParseFloat(parts[2]+"."+parts[3], 64) if err != nil { return 0.0, fmt.Errorf(unparsableErrorFmt, s) } minutes = math.Copysign(minutes, degrees) seconds, err = strconv.ParseFloat(parts[4]+"."+parts[5], 64) if err != nil { return 0.0, fmt.Errorf(unparsableErrorFmt, s) } seconds = math.Copysign(seconds, degrees) case 3: degrees, err = strconv.ParseFloat(parts[0], 64) if err != nil { return 0.0, fmt.Errorf(unparsableErrorFmt, s) } minutes, err = strconv.ParseFloat(parts[1], 64) if err != nil { return 0.0, fmt.Errorf(unparsableErrorFmt, s) } minutes = math.Copysign(minutes, degrees) seconds, err = strconv.ParseFloat(parts[2], 64) if err != nil { return 0.0, fmt.Errorf(unparsableErrorFmt, s) } seconds = math.Copysign(seconds, degrees) default: return 0.0, fmt.Errorf(unparsableErrorFmt, s) } return degrees + minutes/60.0 + seconds/3600.0, nil } func parse3Rat2(tag *tiff.Tag) ([3]float64, error) { v := [3]float64{} for i := range v { num, den, err := tag.Rat2(i) if err != nil { return v, err } v[i] = ratFloat(num, den) if tag.Count < uint32(i+2) { break } } return v, nil } func tagDegrees(tag *tiff.Tag) (float64, error) { switch tag.Format() { case tiff.RatVal: // The usual case, according to the Exif spec // (http://www.kodak.com/global/plugins/acrobat/en/service/digCam/exifStandard2.pdf, // sec 4.6.6, p. 52 et seq.) v, err := parse3Rat2(tag) if err != nil { return 0.0, err } return v[0] + v[1]/60 + v[2]/3600.0, nil case tiff.StringVal: // Encountered this weird case with a panorama picture taken with a HTC phone s, err := tag.StringVal() if err != nil { return 0.0, err } return parseTagDegreesString(s) default: // don't know how to parse value, give up return 0.0, fmt.Errorf("Malformed EXIF Tag Degrees") } } // LatLong returns the latitude and longitude of the photo and // whether it was present. func (x *Exif) LatLong() (lat, long float64, err error) { // All calls of x.Get might return an TagNotPresentError longTag, err := x.Get(FieldName("GPSLongitude")) if err != nil { return } ewTag, err := x.Get(FieldName("GPSLongitudeRef")) if err != nil { return } latTag, err := x.Get(FieldName("GPSLatitude")) if err != nil { return } nsTag, err := x.Get(FieldName("GPSLatitudeRef")) if err != nil { return } if long, err = tagDegrees(longTag); err != nil { return 0, 0, fmt.Errorf("Cannot parse longitude: %v", err) } if lat, err = tagDegrees(latTag); err != nil { return 0, 0, fmt.Errorf("Cannot parse latitude: %v", err) } ew, err := ewTag.StringVal() if err == nil && ew == "W" { long *= -1.0 } else if err != nil { return 0, 0, fmt.Errorf("Cannot parse longitude: %v", err) } ns, err := nsTag.StringVal() if err == nil && ns == "S" { lat *= -1.0 } else if err != nil { return 0, 0, fmt.Errorf("Cannot parse longitude: %v", err) } return lat, long, nil } // String returns a pretty text representation of the decoded exif data. func (x *Exif) String() string { var buf bytes.Buffer for name, tag := range x.main { fmt.Fprintf(&buf, "%s: %s\n", name, tag) } return buf.String() } // JpegThumbnail returns the jpeg thumbnail if it exists. If it doesn't exist, // TagNotPresentError will be returned func (x *Exif) JpegThumbnail() ([]byte, error) { offset, err := x.Get(ThumbJPEGInterchangeFormat) if err != nil { return nil, err } start, err := offset.Int(0) if err != nil { return nil, err } length, err := x.Get(ThumbJPEGInterchangeFormatLength) if err != nil { return nil, err } l, err := length.Int(0) if err != nil { return nil, err } return x.Raw[start : start+l], nil } // MarshalJson implements the encoding/json.Marshaler interface providing output of // all EXIF fields present (names and values). func (x Exif) MarshalJSON() ([]byte, error) { return json.Marshal(x.main) } type appSec struct { marker byte data []byte } // newAppSec finds marker in r and returns the corresponding application data // section. func newAppSec(marker byte, r io.Reader) (*appSec, error) { br := bufio.NewReader(r) app := &appSec{marker: marker} var dataLen int // seek to marker for dataLen == 0 { if _, err := br.ReadBytes(0xFF); err != nil { return nil, err } c, err := br.ReadByte() if err != nil { return nil, err } else if c != marker { continue } dataLenBytes := make([]byte, 2) for k,_ := range dataLenBytes { c, err := br.ReadByte() if err != nil { return nil, err } dataLenBytes[k] = c } dataLen = int(binary.BigEndian.Uint16(dataLenBytes)) - 2 } // read section data nread := 0 for nread < dataLen { s := make([]byte, dataLen-nread) n, err := br.Read(s) nread += n if err != nil && nread < dataLen { return nil, err } app.data = append(app.data, s[:n]...) } return app, nil } // reader returns a reader on this appSec. func (app *appSec) reader() *bytes.Reader { return bytes.NewReader(app.data) } // exifReader returns a reader on this appSec with the read cursor advanced to // the start of the exif's tiff encoded portion. func (app *appSec) exifReader() (*bytes.Reader, error) { if len(app.data) < 6 { return nil, errors.New("exif: failed to find exif intro marker") } // read/check for exif special mark exif := app.data[:6] if !bytes.Equal(exif, append([]byte("Exif"), 0x00, 0x00)) { return nil, errors.New("exif: failed to find exif intro marker") } return bytes.NewReader(app.data[6:]), nil }