package meta import ( "fmt" "path/filepath" "reflect" "runtime/debug" "strconv" "strings" "time" "github.com/tidwall/gjson" "gopkg.in/photoprism/go-tz.v2/tz" "github.com/photoprism/photoprism/pkg/clean" "github.com/photoprism/photoprism/pkg/projection" "github.com/photoprism/photoprism/pkg/rnd" "github.com/photoprism/photoprism/pkg/txt" "github.com/photoprism/photoprism/pkg/video" ) const MimeVideoMP4 = "video/mp4" const MimeQuicktime = "video/quicktime" // Exiftool parses JSON sidecar data as created by Exiftool. func (data *Data) Exiftool(jsonData []byte, originalName string) (err error) { defer func() { if e := recover(); e != nil { err = fmt.Errorf("metadata: %s (exiftool panic)\nstack: %s", e, debug.Stack()) } }() j := gjson.GetBytes(jsonData, "@flatten|@join") logName := "json file" if originalName != "" { logName = clean.Log(filepath.Base(originalName)) } if !j.IsObject() { return fmt.Errorf("metadata: data is not an object in %s (exiftool)", logName) } data.json = make(map[string]string) jsonValues := j.Map() for key, val := range jsonValues { data.json[key] = val.String() } if fileName, ok := data.json["FileName"]; ok && fileName != "" && originalName != "" && fileName != originalName { return fmt.Errorf("metadata: original name %s does not match %s (exiftool)", clean.Log(originalName), clean.Log(fileName)) } else if fileName != "" && originalName == "" { logName = clean.Log(filepath.Base(fileName)) } v := reflect.ValueOf(data).Elem() // Iterate through all config fields for i := 0; i < v.NumField(); i++ { fieldValue := v.Field(i) tagData := v.Type().Field(i).Tag.Get("meta") // Automatically assign values to fields with "flag" tag if tagData != "" { tagValues := strings.Split(tagData, ",") var jsonValue gjson.Result var tagValue string for _, tagValue = range tagValues { if r, ok := jsonValues[tagValue]; !ok { continue } else if txt.Empty(r.String()) { continue } else { jsonValue = r break } } // Skip empty values. if !jsonValue.Exists() { continue } switch t := fieldValue.Interface().(type) { case time.Time: if !fieldValue.IsZero() { continue } if dateTime := txt.DateTime(jsonValue.String(), ""); !dateTime.IsZero() { fieldValue.Set(reflect.ValueOf(dateTime)) } case time.Duration: if !fieldValue.IsZero() { continue } fieldValue.Set(reflect.ValueOf(StringToDuration(jsonValue.String()))) case int, int64: if !fieldValue.IsZero() { continue } if intVal := jsonValue.Int(); intVal != 0 { fieldValue.SetInt(intVal) } else if intVal = txt.Int64(jsonValue.String()); intVal != 0 { fieldValue.SetInt(intVal) } case float32, float64: if !fieldValue.IsZero() { continue } if f := jsonValue.Float(); f != 0 { fieldValue.SetFloat(f) } else if f = txt.Float64(jsonValue.String()); f != 0 { fieldValue.SetFloat(f) } case uint, uint64: if !fieldValue.IsZero() { continue } if uintVal := jsonValue.Uint(); uintVal > 0 { fieldValue.SetUint(uintVal) } else if intVal := txt.Int64(jsonValue.String()); intVal > 0 { fieldValue.SetUint(uint64(intVal)) } case []string: existing := fieldValue.Interface().([]string) fieldValue.Set(reflect.ValueOf(txt.AddToWords(existing, SanitizeUnicode(jsonValue.String())))) case Keywords: existing := fieldValue.Interface().(Keywords) fieldValue.Set(reflect.ValueOf(txt.AddToWords(existing, SanitizeUnicode(jsonValue.String())))) case projection.Type: if !fieldValue.IsZero() { continue } fieldValue.Set(reflect.ValueOf(projection.Type(SanitizeUnicode(jsonValue.String())))) case string: if !fieldValue.IsZero() { continue } fieldValue.SetString(SanitizeUnicode(jsonValue.String())) case bool: if !fieldValue.IsZero() { continue } fieldValue.SetBool(jsonValue.Bool()) default: log.Warnf("metadata: cannot assign value of type %s to %s (exiftool)", t, tagValue) } } } // Nanoseconds. if data.TakenNs <= 0 { for _, name := range exifSubSecTags { if s := data.json[name]; txt.IsPosInt(s) { data.TakenNs = txt.Int(s + strings.Repeat("0", 9-len(s))) break } } } // Set latitude and longitude if known and not already set. if data.Lat == 0 && data.Lng == 0 { if data.GPSPosition != "" { lat, lng := GpsToLatLng(data.GPSPosition) data.Lat, data.Lng = NormalizeGPS(lat, lng) } else if data.GPSLatitude != "" && data.GPSLongitude != "" { data.Lat, data.Lng = NormalizeGPS(GpsToDecimal(data.GPSLatitude), GpsToDecimal(data.GPSLongitude)) } } if data.Altitude == 0 { // Parseable floating point number? if fl := GpsFloatRegexp.FindAllString(data.json["GPSAltitude"], -1); len(fl) != 1 { // Ignore. } else if alt, err := strconv.ParseFloat(fl[0], 64); err == nil && alt != 0 { data.Altitude = int(alt) } } hasTimeOffset := false // Has Media Create Date? if !data.CreatedAt.IsZero() { data.TakenAt = data.CreatedAt } // Fallback to GPS UTC Time? if data.TakenAt.IsZero() && data.TakenAtLocal.IsZero() && !data.TakenGps.IsZero() { data.TimeZone = time.UTC.String() data.TakenAt = data.TakenGps.UTC() data.TakenAtLocal = time.Time{} } // Check plausibility of the local <> UTC time difference. if !data.TakenAt.IsZero() && !data.TakenAtLocal.IsZero() { if d := data.TakenAt.Sub(data.TakenAtLocal).Abs(); d > time.Hour*27 { log.Infof("metadata: %s has an invalid local time offset (%s)", logName, d.String()) log.Debugf("metadata: %s was taken at %s, local time %s, create time %s, time zone %s", logName, clean.Log(data.TakenAt.UTC().String()), clean.Log(data.TakenAtLocal.String()), clean.Log(data.CreatedAt.String()), clean.Log(data.TimeZone)) data.TakenAtLocal = data.TakenAt data.TakenAt = data.TakenAt.UTC() } } // Has time zone offset? if _, offset := data.TakenAtLocal.Zone(); offset != 0 && !data.TakenAtLocal.IsZero() { hasTimeOffset = true } else if mt, ok := data.json["MIMEType"]; ok && data.TakenAtLocal.IsZero() && (mt == MimeVideoMP4 || mt == MimeQuicktime) { // Assume default time zone for MP4 & Quicktime videos is UTC. // see https://exiftool.org/TagNames/QuickTime.html log.Debugf("metadata: %s uses utc by default (%s)", logName, clean.Log(mt)) data.TimeZone = time.UTC.String() data.TakenAt = data.TakenAt.UTC() data.TakenAtLocal = time.Time{} } // Set time zone and calculate UTC time. if data.Lat != 0 && data.Lng != 0 { zones, err := tz.GetZone(tz.Point{ Lat: float64(data.Lat), Lon: float64(data.Lng), }) if err == nil && len(zones) > 0 { data.TimeZone = zones[0] } if loc, err := time.LoadLocation(data.TimeZone); err != nil { log.Warnf("metadata: unknown time zone %s (exiftool)", data.TimeZone) } else if !data.TakenAtLocal.IsZero() { if tl, err := time.ParseInLocation("2006:01:02 15:04:05", data.TakenAtLocal.Format("2006:01:02 15:04:05"), loc); err == nil { if localUtc, err := time.ParseInLocation("2006:01:02 15:04:05", data.TakenAtLocal.Format("2006:01:02 15:04:05"), time.UTC); err == nil { data.TakenAtLocal = localUtc } data.TakenAt = tl.Truncate(time.Second).UTC() } else { log.Errorf("metadata: %s (exiftool)", err.Error()) // this should never happen } } else if !data.TakenAt.IsZero() { if localUtc, err := time.ParseInLocation("2006:01:02 15:04:05", data.TakenAt.In(loc).Format("2006:01:02 15:04:05"), time.UTC); err == nil { data.TakenAtLocal = localUtc data.TakenAt = data.TakenAt.UTC() } else { log.Errorf("metadata: %s (exiftool)", err.Error()) // this should never happen } } } else if hasTimeOffset { if localUtc, err := time.ParseInLocation("2006:01:02 15:04:05", data.TakenAtLocal.Format("2006:01:02 15:04:05"), time.UTC); err == nil { data.TakenAtLocal = localUtc } data.TakenAt = data.TakenAt.Truncate(time.Second).UTC() } // Set local time if still empty. if data.TakenAtLocal.IsZero() && !data.TakenAt.IsZero() { if loc, err := time.LoadLocation(data.TimeZone); data.TimeZone == "" || err != nil { data.TakenAtLocal = data.TakenAt } else if localUtc, err := time.ParseInLocation("2006:01:02 15:04:05", data.TakenAt.In(loc).Format("2006:01:02 15:04:05"), time.UTC); err == nil { data.TakenAtLocal = localUtc data.TakenAt = data.TakenAt.UTC() } else { log.Errorf("metadata: %s (exiftool)", err.Error()) // this should never happen } } // Add nanoseconds to the calculated UTC and local time. if data.TakenAt.Nanosecond() == 0 { if ns := time.Duration(data.TakenNs); ns > 0 && ns <= time.Second { data.TakenAt.Truncate(time.Second).UTC().Add(ns) data.TakenAtLocal.Truncate(time.Second).Add(ns) } } // Use actual image width and height if available, see issue #2447. if jsonValues["ImageWidth"].Exists() && jsonValues["ImageHeight"].Exists() { if val := jsonValues["ImageWidth"].Int(); val > 0 { data.Width = int(val) } if val := jsonValues["ImageHeight"].Int(); val > 0 { data.Height = int(val) } } // Image orientation, see https://www.daveperrett.com/articles/2012/07/28/exif-orientation-handling-is-a-ghetto/. if orientation, ok := data.json["Orientation"]; ok && orientation != "" { switch orientation { case "1", "Horizontal (normal)": data.Orientation = 1 case "2": data.Orientation = 2 case "3", "Rotate 180 CW": data.Orientation = 3 case "4": data.Orientation = 4 case "5": data.Orientation = 5 case "6", "Rotate 90 CW": data.Orientation = 6 case "7": data.Orientation = 7 case "8", "Rotate 270 CW": data.Orientation = 8 } } if data.Orientation == 0 { // Set orientation based on rotation. switch data.Rotation { case 0: data.Orientation = 1 case -180, 180: data.Orientation = 3 case 90: data.Orientation = 6 case -90, 270: data.Orientation = 8 } } // Normalize codec name. data.Codec = strings.ToLower(data.Codec) if strings.Contains(data.Codec, CodecJpeg) { // JPEG Image? data.Codec = CodecJpeg } else if c, ok := video.Codecs[data.Codec]; ok { // Video codec? data.Codec = string(c) } else if strings.HasPrefix(data.Codec, "a_") { // Audio codec? data.Codec = "" } // Validate and normalize optional DocumentID. if data.DocumentID != "" { data.DocumentID = rnd.SanitizeUUID(data.DocumentID) } // Validate and normalize optional InstanceID. if data.InstanceID != "" { data.InstanceID = rnd.SanitizeUUID(data.InstanceID) } if projection.Equirectangular.Equal(data.Projection) { data.AddKeywords(KeywordPanorama) } if data.Description != "" { data.AutoAddKeywords(data.Description) data.Description = SanitizeDescription(data.Description) } data.Title = SanitizeTitle(data.Title) data.Subject = SanitizeMeta(data.Subject) data.Artist = SanitizeMeta(data.Artist) return nil }