mirror of
https://github.com/rocky-linux/peridot.git
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455 lines
12 KiB
Go
455 lines
12 KiB
Go
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package gitdiff
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import (
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"errors"
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"fmt"
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"io"
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"sort"
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)
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// Conflict indicates an apply failed due to a conflict between the patch and
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// the source content.
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//
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// Users can test if an error was caused by a conflict by using errors.Is with
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// an empty Conflict:
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//
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// if errors.Is(err, &Conflict{}) {
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// // handle conflict
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// }
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//
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type Conflict struct {
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msg string
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}
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func (c *Conflict) Error() string {
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return "conflict: " + c.msg
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}
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// Is implements error matching for Conflict. Passing an empty instance of
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// Conflict always returns true.
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func (c *Conflict) Is(other error) bool {
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if other, ok := other.(*Conflict); ok {
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return other.msg == "" || other.msg == c.msg
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}
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return false
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}
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// ApplyError wraps an error that occurs during patch application with
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// additional location information, if it is available.
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type ApplyError struct {
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// Line is the one-indexed line number in the source data
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Line int64
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// Fragment is the one-indexed fragment number in the file
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Fragment int
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// FragmentLine is the one-indexed line number in the fragment
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FragmentLine int
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err error
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}
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// Unwrap returns the wrapped error.
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func (e *ApplyError) Unwrap() error {
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return e.err
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}
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func (e *ApplyError) Error() string {
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return fmt.Sprintf("%v", e.err)
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}
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type lineNum int
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type fragNum int
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type fragLineNum int
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// applyError creates a new *ApplyError wrapping err or augments the information
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// in err with args if it is already an *ApplyError. Returns nil if err is nil.
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func applyError(err error, args ...interface{}) error {
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if err == nil {
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return nil
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}
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e, ok := err.(*ApplyError)
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if !ok {
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if err == io.EOF {
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err = io.ErrUnexpectedEOF
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}
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e = &ApplyError{err: err}
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}
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for _, arg := range args {
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switch v := arg.(type) {
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case lineNum:
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e.Line = int64(v) + 1
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case fragNum:
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e.Fragment = int(v) + 1
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case fragLineNum:
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e.FragmentLine = int(v) + 1
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}
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}
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return e
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}
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var (
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errApplyInProgress = errors.New("gitdiff: incompatible apply in progress")
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)
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const (
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applyInitial = iota
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applyText
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applyBinary
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applyFile
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)
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// Apply is a convenience function that creates an Applier for src with default
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// settings and applies the changes in f, writing the result to dst.
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func Apply(dst io.Writer, src io.ReaderAt, f *File) error {
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return NewApplier(src).ApplyFile(dst, f)
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}
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// Applier applies changes described in fragments to source data. If changes
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// are described in multiple fragments, those fragments must be applied in
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// order, usually by calling ApplyFile.
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//
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// By default, Applier operates in "strict" mode, where fragment content and
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// positions must exactly match those of the source.
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//
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// If an error occurs while applying, methods on Applier return instances of
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// *ApplyError that annotate the wrapped error with additional information
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// when available. If the error is because of a conflict between a fragment and
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// the source, the wrapped error will be a *Conflict.
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//
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// While an Applier can apply both text and binary fragments, only one fragment
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// type can be used without resetting the Applier. The first fragment applied
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// sets the type for the Applier. Mixing fragment types or mixing
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// fragment-level and file-level applies results in an error.
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type Applier struct {
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src io.ReaderAt
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lineSrc LineReaderAt
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nextLine int64
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applyType int
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}
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// NewApplier creates an Applier that reads data from src. If src is a
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// LineReaderAt, it is used directly to apply text fragments.
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func NewApplier(src io.ReaderAt) *Applier {
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a := new(Applier)
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a.Reset(src)
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return a
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}
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// Reset resets the input and internal state of the Applier. If src is nil, the
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// existing source is reused.
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func (a *Applier) Reset(src io.ReaderAt) {
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if src != nil {
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a.src = src
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if lineSrc, ok := src.(LineReaderAt); ok {
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a.lineSrc = lineSrc
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} else {
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a.lineSrc = &lineReaderAt{r: src}
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}
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}
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a.nextLine = 0
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a.applyType = applyInitial
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}
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// ApplyFile applies the changes in all of the fragments of f and writes the
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// result to dst.
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func (a *Applier) ApplyFile(dst io.Writer, f *File) error {
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if a.applyType != applyInitial {
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return applyError(errApplyInProgress)
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}
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defer func() { a.applyType = applyFile }()
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if f.IsBinary && len(f.TextFragments) > 0 {
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return applyError(errors.New("binary file contains text fragments"))
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}
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if !f.IsBinary && f.BinaryFragment != nil {
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return applyError(errors.New("text file contains binary fragment"))
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}
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switch {
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case f.BinaryFragment != nil:
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return a.ApplyBinaryFragment(dst, f.BinaryFragment)
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case len(f.TextFragments) > 0:
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frags := make([]*TextFragment, len(f.TextFragments))
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copy(frags, f.TextFragments)
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sort.Slice(frags, func(i, j int) bool {
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return frags[i].OldPosition < frags[j].OldPosition
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})
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// TODO(bkeyes): consider merging overlapping fragments
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// right now, the application fails if fragments overlap, but it should be
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// possible to precompute the result of applying them in order
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for i, frag := range frags {
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if err := a.ApplyTextFragment(dst, frag); err != nil {
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return applyError(err, fragNum(i))
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}
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}
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}
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return applyError(a.Flush(dst))
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}
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// ApplyTextFragment applies the changes in the fragment f and writes unwritten
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// data before the start of the fragment and the result to dst. If multiple
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// text fragments apply to the same source, ApplyTextFragment must be called in
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// order of increasing start position. As a result, each fragment can be
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// applied at most once before a call to Reset.
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func (a *Applier) ApplyTextFragment(dst io.Writer, f *TextFragment) error {
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if a.applyType != applyInitial && a.applyType != applyText {
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return applyError(errApplyInProgress)
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}
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defer func() { a.applyType = applyText }()
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// application code assumes fragment fields are consistent
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if err := f.Validate(); err != nil {
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return applyError(err)
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}
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// lines are 0-indexed, positions are 1-indexed (but new files have position = 0)
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fragStart := f.OldPosition - 1
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if fragStart < 0 {
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fragStart = 0
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}
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fragEnd := fragStart + f.OldLines
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start := a.nextLine
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if fragStart < start {
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return applyError(&Conflict{"fragment overlaps with an applied fragment"})
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}
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if f.OldPosition == 0 {
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ok, err := isLen(a.src, 0)
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if err != nil {
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return applyError(err)
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}
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if !ok {
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return applyError(&Conflict{"cannot create new file from non-empty src"})
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}
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}
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preimage := make([][]byte, fragEnd-start)
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n, err := a.lineSrc.ReadLinesAt(preimage, start)
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switch {
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case err == nil:
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case err == io.EOF && n == len(preimage): // last line of frag has no newline character
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default:
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return applyError(err, lineNum(start+int64(n)))
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}
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// copy leading data before the fragment starts
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for i, line := range preimage[:fragStart-start] {
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if _, err := dst.Write(line); err != nil {
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a.nextLine = start + int64(i)
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return applyError(err, lineNum(a.nextLine))
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}
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}
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preimage = preimage[fragStart-start:]
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// apply the changes in the fragment
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used := int64(0)
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for i, line := range f.Lines {
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if err := applyTextLine(dst, line, preimage, used); err != nil {
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a.nextLine = fragStart + used
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return applyError(err, lineNum(a.nextLine), fragLineNum(i))
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}
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if line.Old() {
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used++
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}
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}
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a.nextLine = fragStart + used
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// new position of +0,0 mean a full delete, so check for leftovers
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if f.NewPosition == 0 && f.NewLines == 0 {
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var b [1][]byte
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n, err := a.lineSrc.ReadLinesAt(b[:], a.nextLine)
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if err != nil && err != io.EOF {
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return applyError(err, lineNum(a.nextLine))
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}
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if n > 0 {
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return applyError(&Conflict{"src still has content after full delete"}, lineNum(a.nextLine))
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}
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}
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return nil
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}
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func applyTextLine(dst io.Writer, line Line, preimage [][]byte, i int64) (err error) {
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if line.Old() && string(preimage[i]) != line.Line {
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return &Conflict{"fragment line does not match src line"}
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}
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if line.New() {
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_, err = io.WriteString(dst, line.Line)
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}
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return err
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}
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// Flush writes any data following the last applied fragment to dst.
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func (a *Applier) Flush(dst io.Writer) (err error) {
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switch a.applyType {
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case applyInitial:
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_, err = copyFrom(dst, a.src, 0)
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case applyText:
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_, err = copyLinesFrom(dst, a.lineSrc, a.nextLine)
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case applyBinary:
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// nothing to flush, binary apply "consumes" full source
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}
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return err
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}
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// ApplyBinaryFragment applies the changes in the fragment f and writes the
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// result to dst. At most one binary fragment can be applied before a call to
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// Reset.
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func (a *Applier) ApplyBinaryFragment(dst io.Writer, f *BinaryFragment) error {
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if a.applyType != applyInitial {
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return applyError(errApplyInProgress)
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}
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defer func() { a.applyType = applyBinary }()
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if f == nil {
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return applyError(errors.New("nil fragment"))
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}
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switch f.Method {
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case BinaryPatchLiteral:
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if _, err := dst.Write(f.Data); err != nil {
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return applyError(err)
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}
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case BinaryPatchDelta:
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if err := applyBinaryDeltaFragment(dst, a.src, f.Data); err != nil {
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return applyError(err)
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}
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default:
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return applyError(fmt.Errorf("unsupported binary patch method: %v", f.Method))
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}
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return nil
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}
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func applyBinaryDeltaFragment(dst io.Writer, src io.ReaderAt, frag []byte) error {
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srcSize, delta := readBinaryDeltaSize(frag)
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if err := checkBinarySrcSize(src, srcSize); err != nil {
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return err
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}
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dstSize, delta := readBinaryDeltaSize(delta)
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for len(delta) > 0 {
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op := delta[0]
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if op == 0 {
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return errors.New("invalid delta opcode 0")
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}
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var n int64
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var err error
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switch op & 0x80 {
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case 0x80:
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n, delta, err = applyBinaryDeltaCopy(dst, op, delta[1:], src)
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case 0x00:
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n, delta, err = applyBinaryDeltaAdd(dst, op, delta[1:])
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}
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if err != nil {
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return err
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}
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dstSize -= n
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}
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if dstSize != 0 {
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return errors.New("corrupt binary delta: insufficient or extra data")
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}
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return nil
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}
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// readBinaryDeltaSize reads a variable length size from a delta-encoded binary
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// fragment, returing the size and the unused data. Data is encoded as:
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//
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// [[1xxxxxxx]...] [0xxxxxxx]
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//
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// in little-endian order, with 7 bits of the value per byte.
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func readBinaryDeltaSize(d []byte) (size int64, rest []byte) {
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shift := uint(0)
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for i, b := range d {
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size |= int64(b&0x7F) << shift
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shift += 7
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if b <= 0x7F {
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return size, d[i+1:]
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}
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}
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return size, nil
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}
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// applyBinaryDeltaAdd applies an add opcode in a delta-encoded binary
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// fragment, returning the amount of data written and the usused part of the
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// fragment. An add operation takes the form:
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//
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// [0xxxxxx][[data1]...]
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//
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// where the lower seven bits of the opcode is the number of data bytes
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// following the opcode. See also pack-format.txt in the Git source.
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func applyBinaryDeltaAdd(w io.Writer, op byte, delta []byte) (n int64, rest []byte, err error) {
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size := int(op)
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if len(delta) < size {
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return 0, delta, errors.New("corrupt binary delta: incomplete add")
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}
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_, err = w.Write(delta[:size])
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return int64(size), delta[size:], err
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}
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// applyBinaryDeltaCopy applies a copy opcode in a delta-encoded binary
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// fragment, returing the amount of data written and the unused part of the
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// fragment. A copy operation takes the form:
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//
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// [1xxxxxxx][offset1][offset2][offset3][offset4][size1][size2][size3]
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//
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// where the lower seven bits of the opcode determine which non-zero offset and
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// size bytes are present in little-endian order: if bit 0 is set, offset1 is
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// present, etc. If no offset or size bytes are present, offset is 0 and size
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// is 0x10000. See also pack-format.txt in the Git source.
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func applyBinaryDeltaCopy(w io.Writer, op byte, delta []byte, src io.ReaderAt) (n int64, rest []byte, err error) {
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const defaultSize = 0x10000
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unpack := func(start, bits uint) (v int64) {
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for i := uint(0); i < bits; i++ {
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mask := byte(1 << (i + start))
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if op&mask > 0 {
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if len(delta) == 0 {
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err = errors.New("corrupt binary delta: incomplete copy")
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return
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}
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v |= int64(delta[0]) << (8 * i)
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delta = delta[1:]
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}
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}
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return
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}
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offset := unpack(0, 4)
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size := unpack(4, 3)
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if err != nil {
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return 0, delta, err
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}
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if size == 0 {
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size = defaultSize
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}
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// TODO(bkeyes): consider pooling these buffers
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b := make([]byte, size)
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if _, err := src.ReadAt(b, offset); err != nil {
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return 0, delta, err
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}
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_, err = w.Write(b)
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return size, delta, err
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}
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func checkBinarySrcSize(r io.ReaderAt, size int64) error {
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ok, err := isLen(r, size)
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if err != nil {
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return err
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}
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if !ok {
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return &Conflict{"fragment src size does not match actual src size"}
|
||
|
}
|
||
|
return nil
|
||
|
}
|