mirror of
https://github.com/superseriousbusiness/gotosocial.git
synced 2024-11-30 15:42:46 +00:00
533 lines
15 KiB
Go
533 lines
15 KiB
Go
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package exif
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import (
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"bytes"
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"fmt"
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"strings"
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"encoding/binary"
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"github.com/dsoprea/go-logging"
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"github.com/dsoprea/go-exif/v3/common"
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)
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const (
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// Tag-ID + Tag-Type + Unit-Count + Value/Offset.
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IfdTagEntrySize = uint32(2 + 2 + 4 + 4)
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)
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type ByteWriter struct {
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b *bytes.Buffer
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byteOrder binary.ByteOrder
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}
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func NewByteWriter(b *bytes.Buffer, byteOrder binary.ByteOrder) (bw *ByteWriter) {
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return &ByteWriter{
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b: b,
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byteOrder: byteOrder,
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}
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}
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func (bw ByteWriter) writeAsBytes(value interface{}) (err error) {
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defer func() {
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if state := recover(); state != nil {
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err = log.Wrap(state.(error))
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}
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}()
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err = binary.Write(bw.b, bw.byteOrder, value)
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log.PanicIf(err)
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return nil
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}
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func (bw ByteWriter) WriteUint32(value uint32) (err error) {
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defer func() {
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if state := recover(); state != nil {
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err = log.Wrap(state.(error))
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}
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}()
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err = bw.writeAsBytes(value)
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log.PanicIf(err)
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return nil
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}
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func (bw ByteWriter) WriteUint16(value uint16) (err error) {
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defer func() {
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if state := recover(); state != nil {
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err = log.Wrap(state.(error))
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}
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}()
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err = bw.writeAsBytes(value)
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log.PanicIf(err)
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return nil
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}
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func (bw ByteWriter) WriteFourBytes(value []byte) (err error) {
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defer func() {
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if state := recover(); state != nil {
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err = log.Wrap(state.(error))
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}
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}()
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len_ := len(value)
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if len_ != 4 {
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log.Panicf("value is not four-bytes: (%d)", len_)
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}
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_, err = bw.b.Write(value)
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log.PanicIf(err)
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return nil
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}
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// ifdOffsetIterator keeps track of where the next IFD should be written by
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// keeping track of where the offsets start, the data that has been added, and
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// bumping the offset *when* the data is added.
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type ifdDataAllocator struct {
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offset uint32
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b bytes.Buffer
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}
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func newIfdDataAllocator(ifdDataAddressableOffset uint32) *ifdDataAllocator {
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return &ifdDataAllocator{
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offset: ifdDataAddressableOffset,
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}
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}
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func (ida *ifdDataAllocator) Allocate(value []byte) (offset uint32, err error) {
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_, err = ida.b.Write(value)
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log.PanicIf(err)
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offset = ida.offset
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ida.offset += uint32(len(value))
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return offset, nil
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}
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func (ida *ifdDataAllocator) NextOffset() uint32 {
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return ida.offset
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}
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func (ida *ifdDataAllocator) Bytes() []byte {
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return ida.b.Bytes()
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}
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// IfdByteEncoder converts an IB to raw bytes (for writing) while also figuring
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// out all of the allocations and indirection that is required for extended
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// data.
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type IfdByteEncoder struct {
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// journal holds a list of actions taken while encoding.
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journal [][3]string
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}
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func NewIfdByteEncoder() (ibe *IfdByteEncoder) {
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return &IfdByteEncoder{
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journal: make([][3]string, 0),
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}
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}
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func (ibe *IfdByteEncoder) Journal() [][3]string {
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return ibe.journal
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}
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func (ibe *IfdByteEncoder) TableSize(entryCount int) uint32 {
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// Tag-Count + (Entry-Size * Entry-Count) + Next-IFD-Offset.
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return uint32(2) + (IfdTagEntrySize * uint32(entryCount)) + uint32(4)
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}
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func (ibe *IfdByteEncoder) pushToJournal(where, direction, format string, args ...interface{}) {
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event := [3]string{
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direction,
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where,
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fmt.Sprintf(format, args...),
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}
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ibe.journal = append(ibe.journal, event)
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}
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// PrintJournal prints a hierarchical representation of the steps taken during
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// encoding.
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func (ibe *IfdByteEncoder) PrintJournal() {
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maxWhereLength := 0
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for _, event := range ibe.journal {
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where := event[1]
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len_ := len(where)
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if len_ > maxWhereLength {
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maxWhereLength = len_
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}
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}
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level := 0
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for i, event := range ibe.journal {
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direction := event[0]
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where := event[1]
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message := event[2]
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if direction != ">" && direction != "<" && direction != "-" {
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log.Panicf("journal operation not valid: [%s]", direction)
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}
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if direction == "<" {
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if level <= 0 {
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log.Panicf("journal operations unbalanced (too many closes)")
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}
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level--
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}
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indent := strings.Repeat(" ", level)
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fmt.Printf("%3d %s%s %s: %s\n", i, indent, direction, where, message)
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if direction == ">" {
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level++
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}
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}
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if level != 0 {
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log.Panicf("journal operations unbalanced (too many opens)")
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}
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}
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// encodeTagToBytes encodes the given tag to a byte stream. If
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// `nextIfdOffsetToWrite` is more than (0), recurse into child IFDs
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// (`nextIfdOffsetToWrite` is required in order for them to know where the its
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// IFD data will be written, in order for them to know the offset of where
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// their allocated-data block will start, which follows right behind).
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func (ibe *IfdByteEncoder) encodeTagToBytes(ib *IfdBuilder, bt *BuilderTag, bw *ByteWriter, ida *ifdDataAllocator, nextIfdOffsetToWrite uint32) (childIfdBlock []byte, err error) {
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defer func() {
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if state := recover(); state != nil {
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err = log.Wrap(state.(error))
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}
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}()
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// Write tag-ID.
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err = bw.WriteUint16(bt.tagId)
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log.PanicIf(err)
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// Works for both values and child IFDs (which have an official size of
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// LONG).
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err = bw.WriteUint16(uint16(bt.typeId))
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log.PanicIf(err)
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// Write unit-count.
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if bt.value.IsBytes() == true {
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effectiveType := bt.typeId
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if bt.typeId == exifcommon.TypeUndefined {
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effectiveType = exifcommon.TypeByte
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}
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// It's a non-unknown value.Calculate the count of values of
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// the type that we're writing and the raw bytes for the whole list.
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typeSize := uint32(effectiveType.Size())
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valueBytes := bt.value.Bytes()
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len_ := len(valueBytes)
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unitCount := uint32(len_) / typeSize
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if _, found := tagsWithoutAlignment[bt.tagId]; found == false {
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remainder := uint32(len_) % typeSize
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if remainder > 0 {
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log.Panicf("tag (0x%04x) value of (%d) bytes not evenly divisible by type-size (%d)", bt.tagId, len_, typeSize)
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}
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}
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err = bw.WriteUint32(unitCount)
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log.PanicIf(err)
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// Write four-byte value/offset.
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if len_ > 4 {
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offset, err := ida.Allocate(valueBytes)
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log.PanicIf(err)
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err = bw.WriteUint32(offset)
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log.PanicIf(err)
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} else {
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fourBytes := make([]byte, 4)
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copy(fourBytes, valueBytes)
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err = bw.WriteFourBytes(fourBytes)
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log.PanicIf(err)
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}
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} else {
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if bt.value.IsIb() == false {
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log.Panicf("tag value is not a byte-slice but also not a child IB: %v", bt)
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}
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// Write unit-count (one LONG representing one offset).
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err = bw.WriteUint32(1)
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log.PanicIf(err)
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if nextIfdOffsetToWrite > 0 {
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var err error
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ibe.pushToJournal("encodeTagToBytes", ">", "[%s]->[%s]", ib.IfdIdentity().UnindexedString(), bt.value.Ib().IfdIdentity().UnindexedString())
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// Create the block of IFD data and everything it requires.
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childIfdBlock, err = ibe.encodeAndAttachIfd(bt.value.Ib(), nextIfdOffsetToWrite)
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log.PanicIf(err)
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ibe.pushToJournal("encodeTagToBytes", "<", "[%s]->[%s]", bt.value.Ib().IfdIdentity().UnindexedString(), ib.IfdIdentity().UnindexedString())
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// Use the next-IFD offset for it. The IFD will actually get
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// attached after we return.
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err = bw.WriteUint32(nextIfdOffsetToWrite)
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log.PanicIf(err)
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} else {
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// No child-IFDs are to be allocated. Finish the entry with a NULL
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// pointer.
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ibe.pushToJournal("encodeTagToBytes", "-", "*Not* descending to child: [%s]", bt.value.Ib().IfdIdentity().UnindexedString())
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err = bw.WriteUint32(0)
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log.PanicIf(err)
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}
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}
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return childIfdBlock, nil
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}
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// encodeIfdToBytes encodes the given IB to a byte-slice. We are given the
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// offset at which this IFD will be written. This method is used called both to
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// pre-determine how big the table is going to be (so that we can calculate the
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// address to allocate data at) as well as to write the final table.
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//
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// It is necessary to fully realize the table in order to predetermine its size
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// because it is not enough to know the size of the table: If there are child
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// IFDs, we will not be able to allocate them without first knowing how much
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// data we need to allocate for the current IFD.
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func (ibe *IfdByteEncoder) encodeIfdToBytes(ib *IfdBuilder, ifdAddressableOffset uint32, nextIfdOffsetToWrite uint32, setNextIb bool) (data []byte, tableSize uint32, dataSize uint32, childIfdSizes []uint32, err error) {
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defer func() {
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if state := recover(); state != nil {
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err = log.Wrap(state.(error))
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}
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}()
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ibe.pushToJournal("encodeIfdToBytes", ">", "%s", ib)
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tableSize = ibe.TableSize(len(ib.tags))
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b := new(bytes.Buffer)
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bw := NewByteWriter(b, ib.byteOrder)
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// Write tag count.
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err = bw.WriteUint16(uint16(len(ib.tags)))
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log.PanicIf(err)
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ida := newIfdDataAllocator(ifdAddressableOffset)
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childIfdBlocks := make([][]byte, 0)
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// Write raw bytes for each tag entry. Allocate larger data to be referred
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// to in the follow-up data-block as required. Any "unknown"-byte tags that
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// we can't parse will not be present here (using AddTagsFromExisting(), at
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// least).
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for _, bt := range ib.tags {
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childIfdBlock, err := ibe.encodeTagToBytes(ib, bt, bw, ida, nextIfdOffsetToWrite)
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log.PanicIf(err)
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if childIfdBlock != nil {
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// We aren't allowed to have non-nil child IFDs if we're just
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// sizing things up.
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if nextIfdOffsetToWrite == 0 {
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log.Panicf("no IFD offset provided for child-IFDs; no new child-IFDs permitted")
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}
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nextIfdOffsetToWrite += uint32(len(childIfdBlock))
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childIfdBlocks = append(childIfdBlocks, childIfdBlock)
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}
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}
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dataBytes := ida.Bytes()
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dataSize = uint32(len(dataBytes))
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childIfdSizes = make([]uint32, len(childIfdBlocks))
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childIfdsTotalSize := uint32(0)
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for i, childIfdBlock := range childIfdBlocks {
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len_ := uint32(len(childIfdBlock))
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childIfdSizes[i] = len_
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childIfdsTotalSize += len_
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}
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// N the link from this IFD to the next IFD that will be written in the
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// next cycle.
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if setNextIb == true {
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// Write address of next IFD in chain. This will be the original
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// allocation offset plus the size of everything we have allocated for
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// this IFD and its child-IFDs.
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//
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// It is critical that this number is stepped properly. We experienced
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// an issue whereby it first looked like we were duplicating the IFD and
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// then that we were duplicating the tags in the wrong IFD, and then
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// finally we determined that the next-IFD offset for the first IFD was
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// accidentally pointing back to the EXIF IFD, so we were visiting it
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// twice when visiting through the tags after decoding. It was an
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// expensive bug to find.
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ibe.pushToJournal("encodeIfdToBytes", "-", "Setting 'next' IFD to (0x%08x).", nextIfdOffsetToWrite)
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err := bw.WriteUint32(nextIfdOffsetToWrite)
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log.PanicIf(err)
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} else {
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err := bw.WriteUint32(0)
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log.PanicIf(err)
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}
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_, err = b.Write(dataBytes)
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log.PanicIf(err)
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// Append any child IFD blocks after our table and data blocks. These IFDs
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// were equipped with the appropriate offset information so it's expected
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// that all offsets referred to by these will be correct.
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//
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// Note that child-IFDs are append after the current IFD and before the
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// next IFD, as opposed to the root IFDs, which are chained together but
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// will be interrupted by these child-IFDs (which is expected, per the
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// standard).
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for _, childIfdBlock := range childIfdBlocks {
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_, err = b.Write(childIfdBlock)
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log.PanicIf(err)
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}
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ibe.pushToJournal("encodeIfdToBytes", "<", "%s", ib)
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return b.Bytes(), tableSize, dataSize, childIfdSizes, nil
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}
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// encodeAndAttachIfd is a reentrant function that processes the IFD chain.
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func (ibe *IfdByteEncoder) encodeAndAttachIfd(ib *IfdBuilder, ifdAddressableOffset uint32) (data []byte, err error) {
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defer func() {
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if state := recover(); state != nil {
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err = log.Wrap(state.(error))
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}
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}()
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ibe.pushToJournal("encodeAndAttachIfd", ">", "%s", ib)
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b := new(bytes.Buffer)
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i := 0
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for thisIb := ib; thisIb != nil; thisIb = thisIb.nextIb {
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// Do a dry-run in order to pre-determine its size requirement.
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ibe.pushToJournal("encodeAndAttachIfd", ">", "Beginning encoding process: (%d) [%s]", i, thisIb.IfdIdentity().UnindexedString())
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ibe.pushToJournal("encodeAndAttachIfd", ">", "Calculating size: (%d) [%s]", i, thisIb.IfdIdentity().UnindexedString())
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_, tableSize, allocatedDataSize, _, err := ibe.encodeIfdToBytes(thisIb, ifdAddressableOffset, 0, false)
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log.PanicIf(err)
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ibe.pushToJournal("encodeAndAttachIfd", "<", "Finished calculating size: (%d) [%s]", i, thisIb.IfdIdentity().UnindexedString())
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||
|
ifdAddressableOffset += tableSize
|
||
|
nextIfdOffsetToWrite := ifdAddressableOffset + allocatedDataSize
|
||
|
|
||
|
ibe.pushToJournal("encodeAndAttachIfd", ">", "Next IFD will be written at offset (0x%08x)", nextIfdOffsetToWrite)
|
||
|
|
||
|
// Write our IFD as well as any child-IFDs (now that we know the offset
|
||
|
// where new IFDs and their data will be allocated).
|
||
|
|
||
|
setNextIb := thisIb.nextIb != nil
|
||
|
|
||
|
ibe.pushToJournal("encodeAndAttachIfd", ">", "Encoding starting: (%d) [%s] NEXT-IFD-OFFSET-TO-WRITE=(0x%08x)", i, thisIb.IfdIdentity().UnindexedString(), nextIfdOffsetToWrite)
|
||
|
|
||
|
tableAndAllocated, effectiveTableSize, effectiveAllocatedDataSize, childIfdSizes, err :=
|
||
|
ibe.encodeIfdToBytes(thisIb, ifdAddressableOffset, nextIfdOffsetToWrite, setNextIb)
|
||
|
|
||
|
log.PanicIf(err)
|
||
|
|
||
|
if effectiveTableSize != tableSize {
|
||
|
log.Panicf("written table size does not match the pre-calculated table size: (%d) != (%d) %s", effectiveTableSize, tableSize, ib)
|
||
|
} else if effectiveAllocatedDataSize != allocatedDataSize {
|
||
|
log.Panicf("written allocated-data size does not match the pre-calculated allocated-data size: (%d) != (%d) %s", effectiveAllocatedDataSize, allocatedDataSize, ib)
|
||
|
}
|
||
|
|
||
|
ibe.pushToJournal("encodeAndAttachIfd", "<", "Encoding done: (%d) [%s]", i, thisIb.IfdIdentity().UnindexedString())
|
||
|
|
||
|
totalChildIfdSize := uint32(0)
|
||
|
for _, childIfdSize := range childIfdSizes {
|
||
|
totalChildIfdSize += childIfdSize
|
||
|
}
|
||
|
|
||
|
if len(tableAndAllocated) != int(tableSize+allocatedDataSize+totalChildIfdSize) {
|
||
|
log.Panicf("IFD table and data is not a consistent size: (%d) != (%d)", len(tableAndAllocated), tableSize+allocatedDataSize+totalChildIfdSize)
|
||
|
}
|
||
|
|
||
|
// TODO(dustin): We might want to verify the original tableAndAllocated length, too.
|
||
|
|
||
|
_, err = b.Write(tableAndAllocated)
|
||
|
log.PanicIf(err)
|
||
|
|
||
|
// Advance past what we've allocated, thus far.
|
||
|
|
||
|
ifdAddressableOffset += allocatedDataSize + totalChildIfdSize
|
||
|
|
||
|
ibe.pushToJournal("encodeAndAttachIfd", "<", "Finishing encoding process: (%d) [%s] [FINAL:] NEXT-IFD-OFFSET-TO-WRITE=(0x%08x)", i, ib.IfdIdentity().UnindexedString(), nextIfdOffsetToWrite)
|
||
|
|
||
|
i++
|
||
|
}
|
||
|
|
||
|
ibe.pushToJournal("encodeAndAttachIfd", "<", "%s", ib)
|
||
|
|
||
|
return b.Bytes(), nil
|
||
|
}
|
||
|
|
||
|
// EncodeToExifPayload is the base encoding step that transcribes the entire IB
|
||
|
// structure to its on-disk layout.
|
||
|
func (ibe *IfdByteEncoder) EncodeToExifPayload(ib *IfdBuilder) (data []byte, err error) {
|
||
|
defer func() {
|
||
|
if state := recover(); state != nil {
|
||
|
err = log.Wrap(state.(error))
|
||
|
}
|
||
|
}()
|
||
|
|
||
|
data, err = ibe.encodeAndAttachIfd(ib, ExifDefaultFirstIfdOffset)
|
||
|
log.PanicIf(err)
|
||
|
|
||
|
return data, nil
|
||
|
}
|
||
|
|
||
|
// EncodeToExif calls EncodeToExifPayload and then packages the result into a
|
||
|
// complete EXIF block.
|
||
|
func (ibe *IfdByteEncoder) EncodeToExif(ib *IfdBuilder) (data []byte, err error) {
|
||
|
defer func() {
|
||
|
if state := recover(); state != nil {
|
||
|
err = log.Wrap(state.(error))
|
||
|
}
|
||
|
}()
|
||
|
|
||
|
encodedIfds, err := ibe.EncodeToExifPayload(ib)
|
||
|
log.PanicIf(err)
|
||
|
|
||
|
// Wrap the IFD in a formal EXIF block.
|
||
|
|
||
|
b := new(bytes.Buffer)
|
||
|
|
||
|
headerBytes, err := BuildExifHeader(ib.byteOrder, ExifDefaultFirstIfdOffset)
|
||
|
log.PanicIf(err)
|
||
|
|
||
|
_, err = b.Write(headerBytes)
|
||
|
log.PanicIf(err)
|
||
|
|
||
|
_, err = b.Write(encodedIfds)
|
||
|
log.PanicIf(err)
|
||
|
|
||
|
return b.Bytes(), nil
|
||
|
}
|