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package exif
import (
"bytes"
"errors"
"fmt"
"io"
"strconv"
"strings"
"time"
"encoding/binary"
"github.com/dsoprea/go-logging"
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"github.com/dsoprea/go-exif/v3/common"
"github.com/dsoprea/go-exif/v3/undefined"
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)
var (
ifdEnumerateLogger = log . NewLogger ( "exif.ifd_enumerate" )
)
var (
// ErrNoThumbnail means that no thumbnail was found.
ErrNoThumbnail = errors . New ( "no thumbnail" )
// ErrNoGpsTags means that no GPS info was found.
ErrNoGpsTags = errors . New ( "no gps tags" )
// ErrTagTypeNotValid means that the tag-type is not valid.
ErrTagTypeNotValid = errors . New ( "tag type invalid" )
// ErrOffsetInvalid means that the file offset is not valid.
ErrOffsetInvalid = errors . New ( "file offset invalid" )
)
var (
// ValidGpsVersions is the list of recognized EXIF GPS versions/signatures.
ValidGpsVersions = [ ] [ 4 ] byte {
// 2.0.0.0 appears to have a very similar format to 2.2.0.0, so enabling
// it under that assumption.
//
// IFD-PATH=[IFD] ID=(0x8825) NAME=[GPSTag] COUNT=(1) TYPE=[LONG] VALUE=[114]
// IFD-PATH=[IFD/GPSInfo] ID=(0x0000) NAME=[GPSVersionID] COUNT=(4) TYPE=[BYTE] VALUE=[02 00 00 00]
// IFD-PATH=[IFD/GPSInfo] ID=(0x0001) NAME=[GPSLatitudeRef] COUNT=(2) TYPE=[ASCII] VALUE=[S]
// IFD-PATH=[IFD/GPSInfo] ID=(0x0002) NAME=[GPSLatitude] COUNT=(3) TYPE=[RATIONAL] VALUE=[38/1...]
// IFD-PATH=[IFD/GPSInfo] ID=(0x0003) NAME=[GPSLongitudeRef] COUNT=(2) TYPE=[ASCII] VALUE=[E]
// IFD-PATH=[IFD/GPSInfo] ID=(0x0004) NAME=[GPSLongitude] COUNT=(3) TYPE=[RATIONAL] VALUE=[144/1...]
// IFD-PATH=[IFD/GPSInfo] ID=(0x0012) NAME=[GPSMapDatum] COUNT=(7) TYPE=[ASCII] VALUE=[WGS-84]
//
{ 2 , 0 , 0 , 0 } ,
{ 2 , 2 , 0 , 0 } ,
// Suddenly appeared at the default in 2.31: https://home.jeita.or.jp/tsc/std-pdf/CP-3451D.pdf
//
// Note that the presence of 2.3.0.0 doesn't seem to guarantee
// coordinates. In some cases, we seen just the following:
//
// GPS Tag Version |2.3.0.0
// GPS Receiver Status |V
// Geodetic Survey Data|WGS-84
// GPS Differential Cor|0
//
{ 2 , 3 , 0 , 0 } ,
}
)
// byteParser knows how to decode an IFD and all of the tags it
// describes.
//
// The IFDs and the actual values can float throughout the EXIF block, but the
// IFD itself is just a minor header followed by a set of repeating,
// statically-sized records. So, the tags (though notnecessarily their values)
// are fairly simple to enumerate.
type byteParser struct {
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byteOrder binary . ByteOrder
rs io . ReadSeeker
ifdOffset uint32
currentOffset uint32
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}
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// newByteParser returns a new byteParser struct.
//
// initialOffset is for arithmetic-based tracking of where we should be at in
// the stream.
func newByteParser ( rs io . ReadSeeker , byteOrder binary . ByteOrder , initialOffset uint32 ) ( bp * byteParser , err error ) {
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// TODO(dustin): Add test
bp = & byteParser {
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rs : rs ,
byteOrder : byteOrder ,
currentOffset : initialOffset ,
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}
return bp , nil
}
// getUint16 reads a uint16 and advances both our current and our current
// accumulator (which allows us to know how far to seek to the beginning of the
// next IFD when it's time to jump).
func ( bp * byteParser ) getUint16 ( ) ( value uint16 , raw [ ] byte , err error ) {
defer func ( ) {
if state := recover ( ) ; state != nil {
err = log . Wrap ( state . ( error ) )
}
} ( )
// TODO(dustin): Add test
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needBytes := 2
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raw = make ( [ ] byte , needBytes )
_ , err = io . ReadFull ( bp . rs , raw )
log . PanicIf ( err )
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value = bp . byteOrder . Uint16 ( raw )
bp . currentOffset += uint32 ( needBytes )
return value , raw , nil
}
// getUint32 reads a uint32 and advances both our current and our current
// accumulator (which allows us to know how far to seek to the beginning of the
// next IFD when it's time to jump).
func ( bp * byteParser ) getUint32 ( ) ( value uint32 , raw [ ] byte , err error ) {
defer func ( ) {
if state := recover ( ) ; state != nil {
err = log . Wrap ( state . ( error ) )
}
} ( )
// TODO(dustin): Add test
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needBytes := 4
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raw = make ( [ ] byte , needBytes )
_ , err = io . ReadFull ( bp . rs , raw )
log . PanicIf ( err )
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value = bp . byteOrder . Uint32 ( raw )
bp . currentOffset += uint32 ( needBytes )
return value , raw , nil
}
// CurrentOffset returns the starting offset but the number of bytes that we
// have parsed. This is arithmetic-based tracking, not a seek(0) operation.
func ( bp * byteParser ) CurrentOffset ( ) uint32 {
return bp . currentOffset
}
// IfdEnumerate is the main enumeration type. It knows how to parse the IFD
// containers in the EXIF blob.
type IfdEnumerate struct {
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ebs ExifBlobSeeker
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byteOrder binary . ByteOrder
tagIndex * TagIndex
ifdMapping * exifcommon . IfdMapping
furthestOffset uint32
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visitedIfdOffsets map [ uint32 ] struct { }
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}
// NewIfdEnumerate returns a new instance of IfdEnumerate.
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func NewIfdEnumerate ( ifdMapping * exifcommon . IfdMapping , tagIndex * TagIndex , ebs ExifBlobSeeker , byteOrder binary . ByteOrder ) * IfdEnumerate {
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return & IfdEnumerate {
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ebs : ebs ,
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byteOrder : byteOrder ,
ifdMapping : ifdMapping ,
tagIndex : tagIndex ,
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visitedIfdOffsets : make ( map [ uint32 ] struct { } ) ,
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}
}
func ( ie * IfdEnumerate ) getByteParser ( ifdOffset uint32 ) ( bp * byteParser , err error ) {
defer func ( ) {
if state := recover ( ) ; state != nil {
err = log . Wrap ( state . ( error ) )
}
} ( )
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initialOffset := ExifAddressableAreaStart + ifdOffset
rs , err := ie . ebs . GetReadSeeker ( int64 ( initialOffset ) )
log . PanicIf ( err )
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bp , err =
newByteParser (
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rs ,
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ie . byteOrder ,
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initialOffset )
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if err != nil {
if err == ErrOffsetInvalid {
return nil , err
}
log . Panic ( err )
}
return bp , nil
}
func ( ie * IfdEnumerate ) parseTag ( ii * exifcommon . IfdIdentity , tagPosition int , bp * byteParser ) ( ite * IfdTagEntry , err error ) {
defer func ( ) {
if state := recover ( ) ; state != nil {
err = log . Wrap ( state . ( error ) )
}
} ( )
tagId , _ , err := bp . getUint16 ( )
log . PanicIf ( err )
tagTypeRaw , _ , err := bp . getUint16 ( )
log . PanicIf ( err )
tagType := exifcommon . TagTypePrimitive ( tagTypeRaw )
unitCount , _ , err := bp . getUint32 ( )
log . PanicIf ( err )
valueOffset , rawValueOffset , err := bp . getUint32 ( )
log . PanicIf ( err )
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// Check whether the embedded type indicator is valid.
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if tagType . IsValid ( ) == false {
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// Technically, we have the type on-file in the tags-index, but
// if the type stored alongside the data disagrees with it,
// which it apparently does, all bets are off.
ifdEnumerateLogger . Warningf ( nil ,
"Tag (0x%04x) in IFD [%s] at position (%d) has invalid type (0x%04x) and will be skipped." ,
tagId , ii , tagPosition , int ( tagType ) )
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ite = & IfdTagEntry {
tagId : tagId ,
tagType : tagType ,
}
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return ite , ErrTagTypeNotValid
}
// Check whether the embedded type is listed among the supported types for
// the registered tag. If not, skip processing the tag.
it , err := ie . tagIndex . Get ( ii , tagId )
if err != nil {
if log . Is ( err , ErrTagNotFound ) == true {
ifdEnumerateLogger . Warningf ( nil , "Tag (0x%04x) is not known and will be skipped." , tagId )
ite = & IfdTagEntry {
tagId : tagId ,
}
return ite , ErrTagNotFound
}
log . Panic ( err )
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}
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// If we're trying to be as forgiving as possible then use whatever type was
// reported in the format. Otherwise, only accept a type that's expected for
// this tag.
if ie . tagIndex . UniversalSearch ( ) == false && it . DoesSupportType ( tagType ) == false {
// The type in the stream disagrees with the type that this tag is
// expected to have. This can present issues with how we handle the
// special-case tags (e.g. thumbnails, GPS, etc..) when those tags
// suddenly have data that we no longer manipulate correctly/
// accurately.
ifdEnumerateLogger . Warningf ( nil ,
"Tag (0x%04x) in IFD [%s] at position (%d) has unsupported type (0x%02x) and will be skipped." ,
tagId , ii , tagPosition , int ( tagType ) )
return nil , ErrTagTypeNotValid
}
// Construct tag struct.
rs , err := ie . ebs . GetReadSeeker ( 0 )
log . PanicIf ( err )
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ite = newIfdTagEntry (
ii ,
tagId ,
tagPosition ,
tagType ,
unitCount ,
valueOffset ,
rawValueOffset ,
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rs ,
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ie . byteOrder )
ifdPath := ii . UnindexedString ( )
// If it's an IFD but not a standard one, it'll just be seen as a LONG
// (the standard IFD tag type), later, unless we skip it because it's
// [likely] not even in the standard list of known tags.
mi , err := ie . ifdMapping . GetChild ( ifdPath , tagId )
if err == nil {
currentIfdTag := ii . IfdTag ( )
childIt := exifcommon . NewIfdTag ( & currentIfdTag , tagId , mi . Name )
iiChild := ii . NewChild ( childIt , 0 )
ite . SetChildIfd ( iiChild )
// We also need to set `tag.ChildFqIfdPath` but can't do it here
// because we don't have the IFD index.
} else if log . Is ( err , exifcommon . ErrChildIfdNotMapped ) == false {
log . Panic ( err )
}
return ite , nil
}
// TagVisitorFn is called for each tag when enumerating through the EXIF.
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type TagVisitorFn func ( ite * IfdTagEntry ) ( err error )
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// tagPostParse do some tag-level processing here following the parse of each.
func ( ie * IfdEnumerate ) tagPostParse ( ite * IfdTagEntry , med * MiscellaneousExifData ) ( err error ) {
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defer func ( ) {
if state := recover ( ) ; state != nil {
err = log . Wrap ( state . ( error ) )
}
} ( )
// TODO(dustin): Add test
ii := ite . IfdIdentity ( )
tagId := ite . TagId ( )
tagType := ite . TagType ( )
it , err := ie . tagIndex . Get ( ii , tagId )
if err == nil {
ite . setTagName ( it . Name )
} else {
if err != ErrTagNotFound {
log . Panic ( err )
}
// This is an unknown tag.
originalBt := exifcommon . BasicTag {
FqIfdPath : ii . String ( ) ,
IfdPath : ii . UnindexedString ( ) ,
TagId : tagId ,
}
if med != nil {
med . unknownTags [ originalBt ] = exifcommon . BasicTag { }
}
utilityLogger . Debugf ( nil ,
"Tag (0x%04x) is not valid for IFD [%s]. Attempting secondary " +
"lookup." , tagId , ii . String ( ) )
// This will overwrite the existing `it` and `err`. Since `FindFirst()`
// might generate different Errors than `Get()`, the log message above
// is import to try and mitigate confusion in that case.
it , err = ie . tagIndex . FindFirst ( tagId , tagType , nil )
if err != nil {
if err != ErrTagNotFound {
log . Panic ( err )
}
// This is supposed to be a convenience function and if we were
// to keep the name empty or set it to some placeholder, it
// might be mismanaged by the package that is calling us. If
// they want to specifically manage these types of tags, they
// can use more advanced functionality to specifically -handle
// unknown tags.
utilityLogger . Warningf ( nil ,
"Tag with ID (0x%04x) in IFD [%s] is not recognized and " +
"will be ignored." , tagId , ii . String ( ) )
return ErrTagNotFound
}
ite . setTagName ( it . Name )
utilityLogger . Warningf ( nil ,
"Tag with ID (0x%04x) is not valid for IFD [%s], but it *is* " +
"valid as tag [%s] under IFD [%s] and has the same type " +
"[%s], so we will use that. This EXIF blob was probably " +
"written by a buggy implementation." ,
tagId , ii . UnindexedString ( ) , it . Name , it . IfdPath ,
tagType )
if med != nil {
med . unknownTags [ originalBt ] = exifcommon . BasicTag {
IfdPath : it . IfdPath ,
TagId : tagId ,
}
}
}
// This is a known tag (from the standard, unless the user did
// something different).
// Skip any tags that have a type that doesn't match the type in the
// index (which is loaded with the standard and accept tag
// information unless configured otherwise).
//
// We've run into multiple instances of the same tag, where a) no
// tag should ever be repeated, and b) all but one had an incorrect
// type and caused parsing/conversion woes. So, this is a quick fix
// for those scenarios.
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if ie . tagIndex . UniversalSearch ( ) == false && it . DoesSupportType ( tagType ) == false {
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ifdEnumerateLogger . Warningf ( nil ,
"Skipping tag [%s] (0x%04x) [%s] with an unexpected type: %v ∉ %v" ,
ii . UnindexedString ( ) , tagId , it . Name ,
tagType , it . SupportedTypes )
return ErrTagNotFound
}
return nil
}
// parseIfd decodes the IFD block that we're currently sitting on the first
// byte of.
func ( ie * IfdEnumerate ) parseIfd ( ii * exifcommon . IfdIdentity , bp * byteParser , visitor TagVisitorFn , doDescend bool , med * MiscellaneousExifData ) ( nextIfdOffset uint32 , entries [ ] * IfdTagEntry , thumbnailData [ ] byte , err error ) {
defer func ( ) {
if state := recover ( ) ; state != nil {
err = log . Wrap ( state . ( error ) )
}
} ( )
tagCount , _ , err := bp . getUint16 ( )
log . PanicIf ( err )
ifdEnumerateLogger . Debugf ( nil , "IFD [%s] tag-count: (%d)" , ii . String ( ) , tagCount )
entries = make ( [ ] * IfdTagEntry , 0 )
var enumeratorThumbnailOffset * IfdTagEntry
var enumeratorThumbnailSize * IfdTagEntry
for i := 0 ; i < int ( tagCount ) ; i ++ {
ite , err := ie . parseTag ( ii , i , bp )
if err != nil {
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if log . Is ( err , ErrTagNotFound ) == true || log . Is ( err , ErrTagTypeNotValid ) == true {
// These tags should've been fully logged in parseTag(). The
// ITE returned is nil so we can't print anything about them, now.
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continue
}
log . Panic ( err )
}
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err = ie . tagPostParse ( ite , med )
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if err == nil {
if err == ErrTagNotFound {
continue
}
log . PanicIf ( err )
}
tagId := ite . TagId ( )
if visitor != nil {
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err := visitor ( ite )
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log . PanicIf ( err )
}
if ite . IsThumbnailOffset ( ) == true {
ifdEnumerateLogger . Debugf ( nil , "Skipping the thumbnail offset tag (0x%04x). Use accessors to get it or set it." , tagId )
enumeratorThumbnailOffset = ite
entries = append ( entries , ite )
continue
} else if ite . IsThumbnailSize ( ) == true {
ifdEnumerateLogger . Debugf ( nil , "Skipping the thumbnail size tag (0x%04x). Use accessors to get it or set it." , tagId )
enumeratorThumbnailSize = ite
entries = append ( entries , ite )
continue
}
if ite . TagType ( ) != exifcommon . TypeUndefined {
// If this tag's value is an offset, bump our max-offset value to
// what that offset is plus however large that value is.
vc := ite . getValueContext ( )
farOffset , err := vc . GetFarOffset ( )
if err == nil {
candidateOffset := farOffset + uint32 ( vc . SizeInBytes ( ) )
if candidateOffset > ie . furthestOffset {
ie . furthestOffset = candidateOffset
}
} else if err != exifcommon . ErrNotFarValue {
log . PanicIf ( err )
}
}
// If it's an IFD but not a standard one, it'll just be seen as a LONG
// (the standard IFD tag type), later, unless we skip it because it's
// [likely] not even in the standard list of known tags.
if ite . ChildIfdPath ( ) != "" {
if doDescend == true {
ifdEnumerateLogger . Debugf ( nil , "Descending from IFD [%s] to IFD [%s]." , ii , ite . ChildIfdPath ( ) )
currentIfdTag := ii . IfdTag ( )
childIfdTag :=
exifcommon . NewIfdTag (
& currentIfdTag ,
ite . TagId ( ) ,
ite . ChildIfdName ( ) )
iiChild := ii . NewChild ( childIfdTag , 0 )
err := ie . scan ( iiChild , ite . getValueOffset ( ) , visitor , med )
log . PanicIf ( err )
ifdEnumerateLogger . Debugf ( nil , "Ascending from IFD [%s] to IFD [%s]." , ite . ChildIfdPath ( ) , ii )
}
}
entries = append ( entries , ite )
}
if enumeratorThumbnailOffset != nil && enumeratorThumbnailSize != nil {
thumbnailData , err = ie . parseThumbnail ( enumeratorThumbnailOffset , enumeratorThumbnailSize )
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if err != nil {
ifdEnumerateLogger . Errorf (
nil , err ,
"We tried to bump our furthest-offset counter but there was an issue first seeking past the thumbnail." )
} else {
// In this case, the value is always an offset.
offset := enumeratorThumbnailOffset . getValueOffset ( )
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// This this case, the value is always a length.
length := enumeratorThumbnailSize . getValueOffset ( )
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ifdEnumerateLogger . Debugf ( nil , "Found thumbnail in IFD [%s]. Its offset is (%d) and is (%d) bytes." , ii , offset , length )
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furthestOffset := offset + length
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if furthestOffset > ie . furthestOffset {
ie . furthestOffset = furthestOffset
}
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}
}
nextIfdOffset , _ , err = bp . getUint32 ( )
log . PanicIf ( err )
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_ , alreadyVisited := ie . visitedIfdOffsets [ nextIfdOffset ]
if alreadyVisited == true {
ifdEnumerateLogger . Warningf ( nil , "IFD at offset (0x%08x) has been linked-to more than once. There might be a cycle in the IFD chain. Not reparsing." , nextIfdOffset )
nextIfdOffset = 0
}
if nextIfdOffset != 0 {
ie . visitedIfdOffsets [ nextIfdOffset ] = struct { } { }
ifdEnumerateLogger . Debugf ( nil , "[%s] Next IFD at offset: (0x%08x)" , ii . String ( ) , nextIfdOffset )
} else {
ifdEnumerateLogger . Debugf ( nil , "[%s] IFD chain has terminated." , ii . String ( ) )
}
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return nextIfdOffset , entries , thumbnailData , nil
}
func ( ie * IfdEnumerate ) parseThumbnail ( offsetIte , lengthIte * IfdTagEntry ) ( thumbnailData [ ] byte , err error ) {
defer func ( ) {
if state := recover ( ) ; state != nil {
err = log . Wrap ( state . ( error ) )
}
} ( )
vRaw , err := lengthIte . Value ( )
log . PanicIf ( err )
vList := vRaw . ( [ ] uint32 )
if len ( vList ) != 1 {
log . Panicf ( "not exactly one long: (%d)" , len ( vList ) )
}
length := vList [ 0 ]
// The tag is official a LONG type, but it's actually an offset to a blob of bytes.
offsetIte . updateTagType ( exifcommon . TypeByte )
offsetIte . updateUnitCount ( length )
thumbnailData , err = offsetIte . GetRawBytes ( )
log . PanicIf ( err )
return thumbnailData , nil
}
// scan parses and enumerates the different IFD blocks and invokes a visitor
// callback for each tag. No information is kept or returned.
func ( ie * IfdEnumerate ) scan ( iiGeneral * exifcommon . IfdIdentity , ifdOffset uint32 , visitor TagVisitorFn , med * MiscellaneousExifData ) ( err error ) {
defer func ( ) {
if state := recover ( ) ; state != nil {
err = log . Wrap ( state . ( error ) )
}
} ( )
// TODO(dustin): Add test
for ifdIndex := 0 ; ; ifdIndex ++ {
iiSibling := iiGeneral . NewSibling ( ifdIndex )
ifdEnumerateLogger . Debugf ( nil , "Parsing IFD [%s] at offset (0x%04x) (scan)." , iiSibling . String ( ) , ifdOffset )
bp , err := ie . getByteParser ( ifdOffset )
if err != nil {
if err == ErrOffsetInvalid {
ifdEnumerateLogger . Errorf ( nil , nil , "IFD [%s] at offset (0x%04x) is unreachable. Terminating scan." , iiSibling . String ( ) , ifdOffset )
break
}
log . Panic ( err )
}
nextIfdOffset , _ , _ , err := ie . parseIfd ( iiSibling , bp , visitor , true , med )
log . PanicIf ( err )
currentOffset := bp . CurrentOffset ( )
if currentOffset > ie . furthestOffset {
ie . furthestOffset = currentOffset
}
if nextIfdOffset == 0 {
break
}
ifdOffset = nextIfdOffset
}
return nil
}
// MiscellaneousExifData is reports additional data collected during the parse.
type MiscellaneousExifData struct {
// UnknownTags contains all tags that were invalid for their containing
// IFDs. The values represent alternative IFDs that were correctly matched
// to those tags and used instead.
unknownTags map [ exifcommon . BasicTag ] exifcommon . BasicTag
}
// UnknownTags returns the unknown tags encountered during the scan.
func ( med * MiscellaneousExifData ) UnknownTags ( ) map [ exifcommon . BasicTag ] exifcommon . BasicTag {
return med . unknownTags
}
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// ScanOptions tweaks parser behavior/choices.
type ScanOptions struct {
// NOTE(dustin): Reserved for future usage.
}
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// Scan enumerates the different EXIF blocks (called IFDs). `rootIfdName` will
// be "IFD" in the TIFF standard.
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func ( ie * IfdEnumerate ) Scan ( iiRoot * exifcommon . IfdIdentity , ifdOffset uint32 , visitor TagVisitorFn , so * ScanOptions ) ( med * MiscellaneousExifData , err error ) {
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defer func ( ) {
if state := recover ( ) ; state != nil {
err = log . Wrap ( state . ( error ) )
}
} ( )
// TODO(dustin): Add test
med = & MiscellaneousExifData {
unknownTags : make ( map [ exifcommon . BasicTag ] exifcommon . BasicTag ) ,
}
err = ie . scan ( iiRoot , ifdOffset , visitor , med )
log . PanicIf ( err )
ifdEnumerateLogger . Debugf ( nil , "Scan: It looks like the furthest offset that contained EXIF data in the EXIF blob was (%d) (Scan)." , ie . FurthestOffset ( ) )
return med , nil
}
// Ifd represents a single, parsed IFD.
type Ifd struct {
ifdIdentity * exifcommon . IfdIdentity
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ifdMapping * exifcommon . IfdMapping
tagIndex * TagIndex
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offset uint32
byteOrder binary . ByteOrder
id int
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parentIfd * Ifd
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// ParentTagIndex is our tag position in the parent IFD, if we had a parent
// (if `ParentIfd` is not nil and we weren't an IFD referenced as a sibling
// instead of as a child).
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parentTagIndex int
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entries [ ] * IfdTagEntry
entriesByTagId map [ uint16 ] [ ] * IfdTagEntry
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children [ ] * Ifd
childIfdIndex map [ string ] * Ifd
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thumbnailData [ ] byte
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nextIfdOffset uint32
nextIfd * Ifd
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}
// IfdIdentity returns IFD identity that this struct represents.
func ( ifd * Ifd ) IfdIdentity ( ) * exifcommon . IfdIdentity {
return ifd . ifdIdentity
}
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// Entries returns a flat list of all tags for this IFD.
func ( ifd * Ifd ) Entries ( ) [ ] * IfdTagEntry {
// TODO(dustin): Add test
return ifd . entries
}
// EntriesByTagId returns a map of all tags for this IFD.
func ( ifd * Ifd ) EntriesByTagId ( ) map [ uint16 ] [ ] * IfdTagEntry {
// TODO(dustin): Add test
return ifd . entriesByTagId
}
// Children returns a flat list of all child IFDs of this IFD.
func ( ifd * Ifd ) Children ( ) [ ] * Ifd {
// TODO(dustin): Add test
return ifd . children
}
// ChildWithIfdPath returns a map of all child IFDs of this IFD.
func ( ifd * Ifd ) ChildIfdIndex ( ) map [ string ] * Ifd {
// TODO(dustin): Add test
return ifd . childIfdIndex
}
// ParentTagIndex returns the position of this IFD's tag in its parent IFD (*if*
// there is a parent).
func ( ifd * Ifd ) ParentTagIndex ( ) int {
// TODO(dustin): Add test
return ifd . parentTagIndex
}
// Offset returns the offset of the IFD in the stream.
func ( ifd * Ifd ) Offset ( ) uint32 {
// TODO(dustin): Add test
return ifd . offset
}
// Offset returns the offset of the IFD in the stream.
func ( ifd * Ifd ) ByteOrder ( ) binary . ByteOrder {
// TODO(dustin): Add test
return ifd . byteOrder
}
// NextIfd returns the Ifd struct for the next IFD in the chain.
func ( ifd * Ifd ) NextIfd ( ) * Ifd {
// TODO(dustin): Add test
return ifd . nextIfd
}
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// ChildWithIfdPath returns an `Ifd` struct for the given child of the current
// IFD.
func ( ifd * Ifd ) ChildWithIfdPath ( iiChild * exifcommon . IfdIdentity ) ( childIfd * Ifd , err error ) {
defer func ( ) {
if state := recover ( ) ; state != nil {
err = log . Wrap ( state . ( error ) )
}
} ( )
// TODO(dustin): This is a bridge while we're introducing the IFD type-system. We should be able to use the (IfdIdentity).Equals() method for this.
ifdPath := iiChild . UnindexedString ( )
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for _ , childIfd := range ifd . children {
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if childIfd . ifdIdentity . UnindexedString ( ) == ifdPath {
return childIfd , nil
}
}
log . Panic ( ErrTagNotFound )
return nil , nil
}
// FindTagWithId returns a list of tags (usually just zero or one) that match
// the given tag ID. This is efficient.
func ( ifd * Ifd ) FindTagWithId ( tagId uint16 ) ( results [ ] * IfdTagEntry , err error ) {
defer func ( ) {
if state := recover ( ) ; state != nil {
err = log . Wrap ( state . ( error ) )
}
} ( )
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results , found := ifd . entriesByTagId [ tagId ]
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if found != true {
log . Panic ( ErrTagNotFound )
}
return results , nil
}
// FindTagWithName returns a list of tags (usually just zero or one) that match
// the given tag name. This is not efficient (though the labor is trivial).
func ( ifd * Ifd ) FindTagWithName ( tagName string ) ( results [ ] * IfdTagEntry , err error ) {
defer func ( ) {
if state := recover ( ) ; state != nil {
err = log . Wrap ( state . ( error ) )
}
} ( )
it , err := ifd . tagIndex . GetWithName ( ifd . ifdIdentity , tagName )
if log . Is ( err , ErrTagNotFound ) == true {
log . Panic ( ErrTagNotKnown )
} else if err != nil {
log . Panic ( err )
}
results = make ( [ ] * IfdTagEntry , 0 )
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for _ , ite := range ifd . entries {
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if ite . TagId ( ) == it . Id {
results = append ( results , ite )
}
}
if len ( results ) == 0 {
log . Panic ( ErrTagNotFound )
}
return results , nil
}
// String returns a description string.
func ( ifd * Ifd ) String ( ) string {
parentOffset := uint32 ( 0 )
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if ifd . parentIfd != nil {
parentOffset = ifd . parentIfd . offset
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}
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return fmt . Sprintf ( "Ifd<ID=(%d) IFD-PATH=[%s] INDEX=(%d) COUNT=(%d) OFF=(0x%04x) CHILDREN=(%d) PARENT=(0x%04x) NEXT-IFD=(0x%04x)>" , ifd . id , ifd . ifdIdentity . UnindexedString ( ) , ifd . ifdIdentity . Index ( ) , len ( ifd . entries ) , ifd . offset , len ( ifd . children ) , parentOffset , ifd . nextIfdOffset )
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}
// Thumbnail returns the raw thumbnail bytes. This is typically directly
// readable by any standard image viewer.
func ( ifd * Ifd ) Thumbnail ( ) ( data [ ] byte , err error ) {
if ifd . thumbnailData == nil {
return nil , ErrNoThumbnail
}
return ifd . thumbnailData , nil
}
// dumpTags recursively builds a list of tags from an IFD.
func ( ifd * Ifd ) dumpTags ( tags [ ] * IfdTagEntry ) [ ] * IfdTagEntry {
if tags == nil {
tags = make ( [ ] * IfdTagEntry , 0 )
}
// Now, print the tags while also descending to child-IFDS as we encounter them.
ifdsFoundCount := 0
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for _ , ite := range ifd . entries {
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tags = append ( tags , ite )
childIfdPath := ite . ChildIfdPath ( )
if childIfdPath != "" {
ifdsFoundCount ++
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childIfd , found := ifd . childIfdIndex [ childIfdPath ]
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if found != true {
log . Panicf ( "alien child IFD referenced by a tag: [%s]" , childIfdPath )
}
tags = childIfd . dumpTags ( tags )
}
}
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if len ( ifd . children ) != ifdsFoundCount {
log . Panicf ( "have one or more dangling child IFDs: (%d) != (%d)" , len ( ifd . children ) , ifdsFoundCount )
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}
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if ifd . nextIfd != nil {
tags = ifd . nextIfd . dumpTags ( tags )
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}
return tags
}
// DumpTags prints the IFD hierarchy.
func ( ifd * Ifd ) DumpTags ( ) [ ] * IfdTagEntry {
return ifd . dumpTags ( nil )
}
func ( ifd * Ifd ) printTagTree ( populateValues bool , index , level int , nextLink bool ) {
indent := strings . Repeat ( " " , level * 2 )
prefix := " "
if nextLink {
prefix = ">"
}
fmt . Printf ( "%s%sIFD: %s\n" , indent , prefix , ifd )
// Now, print the tags while also descending to child-IFDS as we encounter them.
ifdsFoundCount := 0
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for _ , ite := range ifd . entries {
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if ite . ChildIfdPath ( ) != "" {
fmt . Printf ( "%s - TAG: %s\n" , indent , ite )
} else {
// This will just add noise to the output (byte-tags are fully
// dumped).
if ite . IsThumbnailOffset ( ) == true || ite . IsThumbnailSize ( ) == true {
continue
}
it , err := ifd . tagIndex . Get ( ifd . ifdIdentity , ite . TagId ( ) )
tagName := ""
if err == nil {
tagName = it . Name
}
var valuePhrase string
if populateValues == true {
var err error
valuePhrase , err = ite . Format ( )
if err != nil {
if log . Is ( err , exifcommon . ErrUnhandledUndefinedTypedTag ) == true {
ifdEnumerateLogger . Warningf ( nil , "Skipping non-standard undefined tag: [%s] (%04x)" , ifd . ifdIdentity . UnindexedString ( ) , ite . TagId ( ) )
continue
} else if err == exifundefined . ErrUnparseableValue {
ifdEnumerateLogger . Warningf ( nil , "Skipping unparseable undefined tag: [%s] (%04x) [%s]" , ifd . ifdIdentity . UnindexedString ( ) , ite . TagId ( ) , it . Name )
continue
}
log . Panic ( err )
}
} else {
valuePhrase = "!UNRESOLVED"
}
fmt . Printf ( "%s - TAG: %s NAME=[%s] VALUE=[%v]\n" , indent , ite , tagName , valuePhrase )
}
childIfdPath := ite . ChildIfdPath ( )
if childIfdPath != "" {
ifdsFoundCount ++
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childIfd , found := ifd . childIfdIndex [ childIfdPath ]
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if found != true {
log . Panicf ( "alien child IFD referenced by a tag: [%s]" , childIfdPath )
}
childIfd . printTagTree ( populateValues , 0 , level + 1 , false )
}
}
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if len ( ifd . children ) != ifdsFoundCount {
log . Panicf ( "have one or more dangling child IFDs: (%d) != (%d)" , len ( ifd . children ) , ifdsFoundCount )
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}
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if ifd . nextIfd != nil {
ifd . nextIfd . printTagTree ( populateValues , index + 1 , level , true )
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}
}
// PrintTagTree prints the IFD hierarchy.
func ( ifd * Ifd ) PrintTagTree ( populateValues bool ) {
ifd . printTagTree ( populateValues , 0 , 0 , false )
}
func ( ifd * Ifd ) printIfdTree ( level int , nextLink bool ) {
indent := strings . Repeat ( " " , level * 2 )
prefix := " "
if nextLink {
prefix = ">"
}
fmt . Printf ( "%s%s%s\n" , indent , prefix , ifd )
// Now, print the tags while also descending to child-IFDS as we encounter them.
ifdsFoundCount := 0
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for _ , ite := range ifd . entries {
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childIfdPath := ite . ChildIfdPath ( )
if childIfdPath != "" {
ifdsFoundCount ++
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childIfd , found := ifd . childIfdIndex [ childIfdPath ]
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if found != true {
log . Panicf ( "alien child IFD referenced by a tag: [%s]" , childIfdPath )
}
childIfd . printIfdTree ( level + 1 , false )
}
}
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if len ( ifd . children ) != ifdsFoundCount {
log . Panicf ( "have one or more dangling child IFDs: (%d) != (%d)" , len ( ifd . children ) , ifdsFoundCount )
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}
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if ifd . nextIfd != nil {
ifd . nextIfd . printIfdTree ( level , true )
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}
}
// PrintIfdTree prints the IFD hierarchy.
func ( ifd * Ifd ) PrintIfdTree ( ) {
ifd . printIfdTree ( 0 , false )
}
func ( ifd * Ifd ) dumpTree ( tagsDump [ ] string , level int ) [ ] string {
if tagsDump == nil {
tagsDump = make ( [ ] string , 0 )
}
indent := strings . Repeat ( " " , level * 2 )
var ifdPhrase string
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if ifd . parentIfd != nil {
ifdPhrase = fmt . Sprintf ( "[%s]->[%s]:(%d)" , ifd . parentIfd . ifdIdentity . UnindexedString ( ) , ifd . ifdIdentity . UnindexedString ( ) , ifd . ifdIdentity . Index ( ) )
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} else {
ifdPhrase = fmt . Sprintf ( "[ROOT]->[%s]:(%d)" , ifd . ifdIdentity . UnindexedString ( ) , ifd . ifdIdentity . Index ( ) )
}
startBlurb := fmt . Sprintf ( "%s> IFD %s TOP" , indent , ifdPhrase )
tagsDump = append ( tagsDump , startBlurb )
ifdsFoundCount := 0
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for _ , ite := range ifd . entries {
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tagsDump = append ( tagsDump , fmt . Sprintf ( "%s - (0x%04x)" , indent , ite . TagId ( ) ) )
childIfdPath := ite . ChildIfdPath ( )
if childIfdPath != "" {
ifdsFoundCount ++
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childIfd , found := ifd . childIfdIndex [ childIfdPath ]
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if found != true {
log . Panicf ( "alien child IFD referenced by a tag: [%s]" , childIfdPath )
}
tagsDump = childIfd . dumpTree ( tagsDump , level + 1 )
}
}
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if len ( ifd . children ) != ifdsFoundCount {
log . Panicf ( "have one or more dangling child IFDs: (%d) != (%d)" , len ( ifd . children ) , ifdsFoundCount )
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}
finishBlurb := fmt . Sprintf ( "%s< IFD %s BOTTOM" , indent , ifdPhrase )
tagsDump = append ( tagsDump , finishBlurb )
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if ifd . nextIfd != nil {
siblingBlurb := fmt . Sprintf ( "%s* LINKING TO SIBLING IFD [%s]:(%d)" , indent , ifd . nextIfd . ifdIdentity . UnindexedString ( ) , ifd . nextIfd . ifdIdentity . Index ( ) )
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tagsDump = append ( tagsDump , siblingBlurb )
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tagsDump = ifd . nextIfd . dumpTree ( tagsDump , level )
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}
return tagsDump
}
// DumpTree returns a list of strings describing the IFD hierarchy.
func ( ifd * Ifd ) DumpTree ( ) [ ] string {
return ifd . dumpTree ( nil , 0 )
}
// GpsInfo parses and consolidates the GPS info. This can only be called on the
// GPS IFD.
func ( ifd * Ifd ) GpsInfo ( ) ( gi * GpsInfo , err error ) {
defer func ( ) {
if state := recover ( ) ; state != nil {
err = log . Wrap ( state . ( error ) )
}
} ( )
gi = new ( GpsInfo )
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if ifd . ifdIdentity . Equals ( exifcommon . IfdGpsInfoStandardIfdIdentity ) == false {
log . Panicf ( "GPS can only be read on GPS IFD: [%s]" , ifd . ifdIdentity . UnindexedString ( ) )
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}
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if tags , found := ifd . entriesByTagId [ TagGpsVersionId ] ; found == false {
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// We've seen this. We'll just have to default to assuming we're in a
// 2.2.0.0 format.
ifdEnumerateLogger . Warningf ( nil , "No GPS version tag (0x%04x) found." , TagGpsVersionId )
} else {
versionBytes , err := tags [ 0 ] . GetRawBytes ( )
log . PanicIf ( err )
hit := false
for _ , acceptedGpsVersion := range ValidGpsVersions {
if bytes . Compare ( versionBytes , acceptedGpsVersion [ : ] ) == 0 {
hit = true
break
}
}
if hit != true {
ifdEnumerateLogger . Warningf ( nil , "GPS version not supported: %v" , versionBytes )
log . Panic ( ErrNoGpsTags )
}
}
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tags , found := ifd . entriesByTagId [ TagLatitudeId ]
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if found == false {
ifdEnumerateLogger . Warningf ( nil , "latitude not found" )
log . Panic ( ErrNoGpsTags )
}
latitudeValue , err := tags [ 0 ] . Value ( )
log . PanicIf ( err )
// Look for whether North or South.
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tags , found = ifd . entriesByTagId [ TagLatitudeRefId ]
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if found == false {
ifdEnumerateLogger . Warningf ( nil , "latitude-ref not found" )
log . Panic ( ErrNoGpsTags )
}
latitudeRefValue , err := tags [ 0 ] . Value ( )
log . PanicIf ( err )
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tags , found = ifd . entriesByTagId [ TagLongitudeId ]
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if found == false {
ifdEnumerateLogger . Warningf ( nil , "longitude not found" )
log . Panic ( ErrNoGpsTags )
}
longitudeValue , err := tags [ 0 ] . Value ( )
log . PanicIf ( err )
// Look for whether West or East.
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tags , found = ifd . entriesByTagId [ TagLongitudeRefId ]
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if found == false {
ifdEnumerateLogger . Warningf ( nil , "longitude-ref not found" )
log . Panic ( ErrNoGpsTags )
}
longitudeRefValue , err := tags [ 0 ] . Value ( )
log . PanicIf ( err )
// Parse location.
latitudeRaw := latitudeValue . ( [ ] exifcommon . Rational )
gi . Latitude , err = NewGpsDegreesFromRationals ( latitudeRefValue . ( string ) , latitudeRaw )
log . PanicIf ( err )
longitudeRaw := longitudeValue . ( [ ] exifcommon . Rational )
gi . Longitude , err = NewGpsDegreesFromRationals ( longitudeRefValue . ( string ) , longitudeRaw )
log . PanicIf ( err )
// Parse altitude.
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altitudeTags , foundAltitude := ifd . entriesByTagId [ TagAltitudeId ]
altitudeRefTags , foundAltitudeRef := ifd . entriesByTagId [ TagAltitudeRefId ]
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if foundAltitude == true && foundAltitudeRef == true {
altitudePhrase , err := altitudeTags [ 0 ] . Format ( )
log . PanicIf ( err )
ifdEnumerateLogger . Debugf ( nil , "Altitude is [%s]." , altitudePhrase )
altitudeValue , err := altitudeTags [ 0 ] . Value ( )
log . PanicIf ( err )
altitudeRefPhrase , err := altitudeRefTags [ 0 ] . Format ( )
log . PanicIf ( err )
ifdEnumerateLogger . Debugf ( nil , "Altitude-reference is [%s]." , altitudeRefPhrase )
altitudeRefValue , err := altitudeRefTags [ 0 ] . Value ( )
log . PanicIf ( err )
altitudeRaw := altitudeValue . ( [ ] exifcommon . Rational )
if altitudeRaw [ 0 ] . Denominator > 0 {
altitude := int ( altitudeRaw [ 0 ] . Numerator / altitudeRaw [ 0 ] . Denominator )
if altitudeRefValue . ( [ ] byte ) [ 0 ] == 1 {
altitude *= - 1
}
gi . Altitude = altitude
}
}
// Parse timestamp from separate date and time tags.
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timestampTags , foundTimestamp := ifd . entriesByTagId [ TagTimestampId ]
datestampTags , foundDatestamp := ifd . entriesByTagId [ TagDatestampId ]
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if foundTimestamp == true && foundDatestamp == true {
datestampValue , err := datestampTags [ 0 ] . Value ( )
log . PanicIf ( err )
datePhrase := datestampValue . ( string )
ifdEnumerateLogger . Debugf ( nil , "Date tag value is [%s]." , datePhrase )
// Normalize the separators.
datePhrase = strings . ReplaceAll ( datePhrase , "-" , ":" )
dateParts := strings . Split ( datePhrase , ":" )
year , err1 := strconv . ParseUint ( dateParts [ 0 ] , 10 , 16 )
month , err2 := strconv . ParseUint ( dateParts [ 1 ] , 10 , 8 )
day , err3 := strconv . ParseUint ( dateParts [ 2 ] , 10 , 8 )
if err1 == nil && err2 == nil && err3 == nil {
timestampValue , err := timestampTags [ 0 ] . Value ( )
log . PanicIf ( err )
timePhrase , err := timestampTags [ 0 ] . Format ( )
log . PanicIf ( err )
ifdEnumerateLogger . Debugf ( nil , "Time tag value is [%s]." , timePhrase )
timestampRaw := timestampValue . ( [ ] exifcommon . Rational )
hour := int ( timestampRaw [ 0 ] . Numerator / timestampRaw [ 0 ] . Denominator )
minute := int ( timestampRaw [ 1 ] . Numerator / timestampRaw [ 1 ] . Denominator )
second := int ( timestampRaw [ 2 ] . Numerator / timestampRaw [ 2 ] . Denominator )
gi . Timestamp = time . Date ( int ( year ) , time . Month ( month ) , int ( day ) , hour , minute , second , 0 , time . UTC )
}
}
return gi , nil
}
// ParsedTagVisitor is a callback used if wanting to visit through all tags and
// child IFDs from the current IFD and going down.
type ParsedTagVisitor func ( * Ifd , * IfdTagEntry ) error
// EnumerateTagsRecursively calls the given visitor function for every tag and
// IFD in the current IFD, recursively.
func ( ifd * Ifd ) EnumerateTagsRecursively ( visitor ParsedTagVisitor ) ( err error ) {
defer func ( ) {
if state := recover ( ) ; state != nil {
err = log . Wrap ( state . ( error ) )
}
} ( )
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for ptr := ifd ; ptr != nil ; ptr = ptr . nextIfd {
for _ , ite := range ifd . entries {
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childIfdPath := ite . ChildIfdPath ( )
if childIfdPath != "" {
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childIfd := ifd . childIfdIndex [ childIfdPath ]
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err := childIfd . EnumerateTagsRecursively ( visitor )
log . PanicIf ( err )
} else {
err := visitor ( ifd , ite )
log . PanicIf ( err )
}
}
}
return nil
}
// QueuedIfd is one IFD that has been identified but yet to be processed.
type QueuedIfd struct {
IfdIdentity * exifcommon . IfdIdentity
Offset uint32
Parent * Ifd
// ParentTagIndex is our tag position in the parent IFD, if we had a parent
// (if `ParentIfd` is not nil and we weren't an IFD referenced as a sibling
// instead of as a child).
ParentTagIndex int
}
// IfdIndex collects a bunch of IFD and tag information stored in several
// different ways in order to provide convenient lookups.
type IfdIndex struct {
RootIfd * Ifd
Ifds [ ] * Ifd
Tree map [ int ] * Ifd
Lookup map [ string ] * Ifd
}
// Collect enumerates the different EXIF blocks (called IFDs) and builds out an
// index struct for referencing all of the parsed data.
func ( ie * IfdEnumerate ) Collect ( rootIfdOffset uint32 ) ( index IfdIndex , err error ) {
defer func ( ) {
if state := recover ( ) ; state != nil {
err = log . Wrap ( state . ( error ) )
}
} ( )
// TODO(dustin): Add MiscellaneousExifData to IfdIndex
tree := make ( map [ int ] * Ifd )
ifds := make ( [ ] * Ifd , 0 )
lookup := make ( map [ string ] * Ifd )
queue := [ ] QueuedIfd {
{
IfdIdentity : exifcommon . IfdStandardIfdIdentity ,
Offset : rootIfdOffset ,
} ,
}
edges := make ( map [ uint32 ] * Ifd )
for {
if len ( queue ) == 0 {
break
}
qi := queue [ 0 ]
ii := qi . IfdIdentity
offset := qi . Offset
parentIfd := qi . Parent
queue = queue [ 1 : ]
ifdEnumerateLogger . Debugf ( nil , "Parsing IFD [%s] (%d) at offset (0x%04x) (Collect)." , ii . String ( ) , ii . Index ( ) , offset )
bp , err := ie . getByteParser ( offset )
if err != nil {
if err == ErrOffsetInvalid {
return index , err
}
log . Panic ( err )
}
// TODO(dustin): We don't need to pass the index in as a separate argument. Get from the II.
nextIfdOffset , entries , thumbnailData , err := ie . parseIfd ( ii , bp , nil , false , nil )
log . PanicIf ( err )
currentOffset := bp . CurrentOffset ( )
if currentOffset > ie . furthestOffset {
ie . furthestOffset = currentOffset
}
id := len ( ifds )
entriesByTagId := make ( map [ uint16 ] [ ] * IfdTagEntry )
for _ , ite := range entries {
tagId := ite . TagId ( )
tags , found := entriesByTagId [ tagId ]
if found == false {
tags = make ( [ ] * IfdTagEntry , 0 )
}
entriesByTagId [ tagId ] = append ( tags , ite )
}
ifd := & Ifd {
ifdIdentity : ii ,
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byteOrder : ie . byteOrder ,
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id : id ,
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parentIfd : parentIfd ,
parentTagIndex : qi . ParentTagIndex ,
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offset : offset ,
entries : entries ,
entriesByTagId : entriesByTagId ,
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// This is populated as each child is processed.
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children : make ( [ ] * Ifd , 0 ) ,
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nextIfdOffset : nextIfdOffset ,
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thumbnailData : thumbnailData ,
ifdMapping : ie . ifdMapping ,
tagIndex : ie . tagIndex ,
}
// Add ourselves to a big list of IFDs.
ifds = append ( ifds , ifd )
// Install ourselves into a by-id lookup table (keys are unique).
tree [ id ] = ifd
// Install into by-name buckets.
lookup [ ii . String ( ) ] = ifd
// Add a link from the previous IFD in the chain to us.
if previousIfd , found := edges [ offset ] ; found == true {
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previousIfd . nextIfd = ifd
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}
// Attach as a child to our parent (where we appeared as a tag in
// that IFD).
if parentIfd != nil {
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parentIfd . children = append ( parentIfd . children , ifd )
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}
// Determine if any of our entries is a child IFD and queue it.
for i , ite := range entries {
if ite . ChildIfdPath ( ) == "" {
continue
}
tagId := ite . TagId ( )
childIfdName := ite . ChildIfdName ( )
currentIfdTag := ii . IfdTag ( )
childIfdTag :=
exifcommon . NewIfdTag (
& currentIfdTag ,
tagId ,
childIfdName )
iiChild := ii . NewChild ( childIfdTag , 0 )
qi := QueuedIfd {
IfdIdentity : iiChild ,
Offset : ite . getValueOffset ( ) ,
Parent : ifd ,
ParentTagIndex : i ,
}
queue = append ( queue , qi )
}
// If there's another IFD in the chain.
if nextIfdOffset != 0 {
iiSibling := ii . NewSibling ( ii . Index ( ) + 1 )
// Allow the next link to know what the previous link was.
edges [ nextIfdOffset ] = ifd
qi := QueuedIfd {
IfdIdentity : iiSibling ,
Offset : nextIfdOffset ,
}
queue = append ( queue , qi )
}
}
index . RootIfd = tree [ 0 ]
index . Ifds = ifds
index . Tree = tree
index . Lookup = lookup
err = ie . setChildrenIndex ( index . RootIfd )
log . PanicIf ( err )
ifdEnumerateLogger . Debugf ( nil , "Collect: It looks like the furthest offset that contained EXIF data in the EXIF blob was (%d)." , ie . FurthestOffset ( ) )
return index , nil
}
func ( ie * IfdEnumerate ) setChildrenIndex ( ifd * Ifd ) ( err error ) {
defer func ( ) {
if state := recover ( ) ; state != nil {
err = log . Wrap ( state . ( error ) )
}
} ( )
childIfdIndex := make ( map [ string ] * Ifd )
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for _ , childIfd := range ifd . children {
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childIfdIndex [ childIfd . ifdIdentity . UnindexedString ( ) ] = childIfd
}
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ifd . childIfdIndex = childIfdIndex
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for _ , childIfd := range ifd . children {
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err := ie . setChildrenIndex ( childIfd )
log . PanicIf ( err )
}
return nil
}
// FurthestOffset returns the furthest offset visited in the EXIF blob. This
// *does not* account for the locations of any undefined tags since we always
// evaluate the furthest offset, whether or not the user wants to know it.
//
// We are not willing to incur the cost of actually parsing those tags just to
// know their length when there are still undefined tags that are out there
// that we still won't have any idea how to parse, thus making this an
// approximation regardless of how clever we get.
func ( ie * IfdEnumerate ) FurthestOffset ( ) uint32 {
// TODO(dustin): Add test
return ie . furthestOffset
}
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// parseOneIfd is a hack to use an IE to parse a raw IFD block. Can be used for
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// testing. The fqIfdPath ("fully-qualified IFD path") will be less qualified
// in that the numeric index will always be zero (the zeroth child) rather than
// the proper number (if its actually a sibling to the first child, for
// instance).
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func parseOneIfd ( ifdMapping * exifcommon . IfdMapping , tagIndex * TagIndex , ii * exifcommon . IfdIdentity , byteOrder binary . ByteOrder , ifdBlock [ ] byte , visitor TagVisitorFn ) ( nextIfdOffset uint32 , entries [ ] * IfdTagEntry , err error ) {
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defer func ( ) {
if state := recover ( ) ; state != nil {
err = log . Wrap ( state . ( error ) )
}
} ( )
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// TODO(dustin): Add test
ebs := NewExifReadSeekerWithBytes ( ifdBlock )
rs , err := ebs . GetReadSeeker ( 0 )
log . PanicIf ( err )
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bp , err := newByteParser ( rs , byteOrder , 0 )
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if err != nil {
if err == ErrOffsetInvalid {
return 0 , nil , err
}
log . Panic ( err )
}
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dummyEbs := NewExifReadSeekerWithBytes ( [ ] byte { } )
ie := NewIfdEnumerate ( ifdMapping , tagIndex , dummyEbs , byteOrder )
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nextIfdOffset , entries , _ , err = ie . parseIfd ( ii , bp , visitor , true , nil )
log . PanicIf ( err )
return nextIfdOffset , entries , nil
}
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// parseOneTag is a hack to use an IE to parse a raw tag block.
func parseOneTag ( ifdMapping * exifcommon . IfdMapping , tagIndex * TagIndex , ii * exifcommon . IfdIdentity , byteOrder binary . ByteOrder , tagBlock [ ] byte ) ( ite * IfdTagEntry , err error ) {
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defer func ( ) {
if state := recover ( ) ; state != nil {
err = log . Wrap ( state . ( error ) )
}
} ( )
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// TODO(dustin): Add test
ebs := NewExifReadSeekerWithBytes ( tagBlock )
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rs , err := ebs . GetReadSeeker ( 0 )
log . PanicIf ( err )
bp , err := newByteParser ( rs , byteOrder , 0 )
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if err != nil {
if err == ErrOffsetInvalid {
return nil , err
}
log . Panic ( err )
}
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dummyEbs := NewExifReadSeekerWithBytes ( [ ] byte { } )
ie := NewIfdEnumerate ( ifdMapping , tagIndex , dummyEbs , byteOrder )
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ite , err = ie . parseTag ( ii , 0 , bp )
log . PanicIf ( err )
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err = ie . tagPostParse ( ite , nil )
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if err != nil {
if err == ErrTagNotFound {
return nil , err
}
log . Panic ( err )
}
return ite , nil
}
// FindIfdFromRootIfd returns the given `Ifd` given the root-IFD and path of the
// desired IFD.
func FindIfdFromRootIfd ( rootIfd * Ifd , ifdPath string ) ( ifd * Ifd , err error ) {
defer func ( ) {
if state := recover ( ) ; state != nil {
err = log . Wrap ( state . ( error ) )
}
} ( )
// TODO(dustin): !! Add test.
lineage , err := rootIfd . ifdMapping . ResolvePath ( ifdPath )
log . PanicIf ( err )
// Confirm the first IFD is our root IFD type, and then prune it because
// from then on we'll be searching down through our children.
if len ( lineage ) == 0 {
log . Panicf ( "IFD path must be non-empty." )
} else if lineage [ 0 ] . Name != exifcommon . IfdStandardIfdIdentity . Name ( ) {
log . Panicf ( "First IFD path item must be [%s]." , exifcommon . IfdStandardIfdIdentity . Name ( ) )
}
desiredRootIndex := lineage [ 0 ] . Index
lineage = lineage [ 1 : ]
// TODO(dustin): !! This is a poorly conceived fix that just doubles the work we already have to do below, which then interacts badly with the indices not being properly represented in the IFD-phrase.
// TODO(dustin): !! <-- However, we're not sure whether we shouldn't store a secondary IFD-path with the indices. Some IFDs may not necessarily restrict which IFD indices they can be a child of (only the IFD itself matters). Validation should be delegated to the caller.
thisIfd := rootIfd
for currentRootIndex := 0 ; currentRootIndex < desiredRootIndex ; currentRootIndex ++ {
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if thisIfd . nextIfd == nil {
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log . Panicf ( "Root-IFD index (%d) does not exist in the data." , currentRootIndex )
}
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thisIfd = thisIfd . nextIfd
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}
for _ , itii := range lineage {
var hit * Ifd
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for _ , childIfd := range thisIfd . children {
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if childIfd . ifdIdentity . TagId ( ) == itii . TagId {
hit = childIfd
break
}
}
// If we didn't find the child, add it.
if hit == nil {
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log . Panicf ( "IFD [%s] in [%s] not found: %s" , itii . Name , ifdPath , thisIfd . children )
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}
thisIfd = hit
// If we didn't find the sibling, add it.
for i := 0 ; i < itii . Index ; i ++ {
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if thisIfd . nextIfd == nil {
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log . Panicf ( "IFD [%s] does not have (%d) occurrences/siblings" , thisIfd . ifdIdentity . UnindexedString ( ) , itii . Index )
}
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thisIfd = thisIfd . nextIfd
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}
}
return thisIfd , nil
}