plumbing/protocol/packp/advrefs_decode.go - external/github.com/src-d/go-git - Git at Google

 package packp

 import (
 	"bytes"
 	"encoding/hex"
 	"errors"
 	"fmt"
 	"io"

 	"gopkg.in/src-d/go-git.v4/plumbing"
 	"gopkg.in/src-d/go-git.v4/plumbing/format/pktline"
 )

 // Decode reads the next advertised-refs message form its input and
 // stores it in the AdvRefs.
 func (a *AdvRefs) Decode(r io.Reader) error {
 	d := newAdvRefsDecoder(r)
 	return d.Decode(a)
 }

 type advRefsDecoder struct {
 	s     *pktline.Scanner // a pkt-line scanner from the input stream
 	line  []byte           // current pkt-line contents, use parser.nextLine() to make it advance
 	nLine int              // current pkt-line number for debugging, begins at 1
 	hash  plumbing.Hash    // last hash read
 	err   error            // sticky error, use the parser.error() method to fill this out
 	data  *AdvRefs         // parsed data is stored here
 }

 var (
 	// ErrEmptyAdvRefs is returned by Decode if it gets an empty advertised
 	// references message.
 	ErrEmptyAdvRefs = errors.New("empty advertised-ref message")
 	// ErrEmptyInput is returned by Decode if the input is empty.
 	ErrEmptyInput = errors.New("empty input")
 )

 func newAdvRefsDecoder(r io.Reader) *advRefsDecoder {
 	return &advRefsDecoder{
 		s: pktline.NewScanner(r),
 	}
 }

 func (d *advRefsDecoder) Decode(v *AdvRefs) error {
 	d.data = v

 	for state := decodePrefix; state != nil; {
 		state = state(d)
 	}

 	return d.err
 }

 type decoderStateFn func(*advRefsDecoder) decoderStateFn

 // fills out the parser stiky error
 func (d *advRefsDecoder) error(format string, a ...interface{}) {
 	msg := fmt.Sprintf(
 		"pkt-line %d: %s", d.nLine,
 		fmt.Sprintf(format, a...),
 	)

 	d.err = NewErrUnexpectedData(msg, d.line)
 }

 // Reads a new pkt-line from the scanner, makes its payload available as
 // p.line and increments p.nLine.  A successful invocation returns true,
 // otherwise, false is returned and the sticky error is filled out
 // accordingly.  Trims eols at the end of the payloads.
 func (d *advRefsDecoder) nextLine() bool {
 	d.nLine++

 	if !d.s.Scan() {
 		if d.err = d.s.Err(); d.err != nil {
 			return false
 		}

 		if d.nLine == 1 {
 			d.err = ErrEmptyInput
 			return false
 		}

 		d.error("EOF")
 		return false
 	}

 	d.line = d.s.Bytes()
 	d.line = bytes.TrimSuffix(d.line, eol)

 	return true
 }

 // The HTTP smart prefix is often followed by a flush-pkt.
 func decodePrefix(d *advRefsDecoder) decoderStateFn {
 	if ok := d.nextLine(); !ok {
 		return nil
 	}

 	if !isPrefix(d.line) {
 		return decodeFirstHash
 	}

 	tmp := make([]byte, len(d.line))
 	copy(tmp, d.line)
 	d.data.Prefix = append(d.data.Prefix, tmp)
 	if ok := d.nextLine(); !ok {
 		return nil
 	}

 	if !isFlush(d.line) {
 		return decodeFirstHash
 	}

 	d.data.Prefix = append(d.data.Prefix, pktline.Flush)
 	if ok := d.nextLine(); !ok {
 		return nil
 	}

 	return decodeFirstHash
 }

 func isPrefix(payload []byte) bool {
 	return len(payload) > 0 && payload[0] == '#'
 }

 // If the first hash is zero, then a no-refs is coming. Otherwise, a
 // list-of-refs is coming, and the hash will be followed by the first
 // advertised ref.
 func decodeFirstHash(p *advRefsDecoder) decoderStateFn {
 	// If the repository is empty, we receive a flush here (HTTP).
 	if isFlush(p.line) {
 		p.err = ErrEmptyAdvRefs
 		return nil
 	}

 	if len(p.line) < hashSize {
 		p.error("cannot read hash, pkt-line too short")
 		return nil
 	}

 	if _, err := hex.Decode(p.hash[:], p.line[:hashSize]); err != nil {
 		p.error("invalid hash text: %s", err)
 		return nil
 	}

 	p.line = p.line[hashSize:]

 	if p.hash.IsZero() {
 		return decodeSkipNoRefs
 	}

 	return decodeFirstRef
 }

 // Skips SP "capabilities^{}" NUL
 func decodeSkipNoRefs(p *advRefsDecoder) decoderStateFn {
 	if len(p.line) < len(noHeadMark) {
 		p.error("too short zero-id ref")
 		return nil
 	}

 	if !bytes.HasPrefix(p.line, noHeadMark) {
 		p.error("malformed zero-id ref")
 		return nil
 	}

 	p.line = p.line[len(noHeadMark):]

 	return decodeCaps
 }

 // decode the refname, expects SP refname NULL
 func decodeFirstRef(l *advRefsDecoder) decoderStateFn {
 	if len(l.line) < 3 {
 		l.error("line too short after hash")
 		return nil
 	}

 	if !bytes.HasPrefix(l.line, sp) {
 		l.error("no space after hash")
 		return nil
 	}
 	l.line = l.line[1:]

 	chunks := bytes.SplitN(l.line, null, 2)
 	if len(chunks) < 2 {
 		l.error("NULL not found")
 		return nil
 	}
 	ref := chunks[0]
 	l.line = chunks[1]

 	if bytes.Equal(ref, []byte(head)) {
 		l.data.Head = &l.hash
 	} else {
 		l.data.References[string(ref)] = l.hash
 	}

 	return decodeCaps
 }

 func decodeCaps(p *advRefsDecoder) decoderStateFn {
 	if err := p.data.Capabilities.Decode(p.line); err != nil {
 		p.error("invalid capabilities: %s", err)
 		return nil
 	}

 	return decodeOtherRefs
 }

 // The refs are either tips (obj-id SP refname) or a peeled (obj-id SP refname^{}).
 // If there are no refs, then there might be a shallow or flush-ptk.
 func decodeOtherRefs(p *advRefsDecoder) decoderStateFn {
 	if ok := p.nextLine(); !ok {
 		return nil
 	}

 	if bytes.HasPrefix(p.line, shallow) {
 		return decodeShallow
 	}

 	if len(p.line) == 0 {
 		return nil
 	}

 	saveTo := p.data.References
 	if bytes.HasSuffix(p.line, peeled) {
 		p.line = bytes.TrimSuffix(p.line, peeled)
 		saveTo = p.data.Peeled
 	}

 	ref, hash, err := readRef(p.line)
 	if err != nil {
 		p.error("%s", err)
 		return nil
 	}
 	saveTo[ref] = hash

 	return decodeOtherRefs
 }

 // Reads a ref-name
 func readRef(data []byte) (string, plumbing.Hash, error) {
 	chunks := bytes.Split(data, sp)
 	switch {
 	case len(chunks) == 1:
 		return "", plumbing.ZeroHash, fmt.Errorf("malformed ref data: no space was found")
 	case len(chunks) > 2:
 		return "", plumbing.ZeroHash, fmt.Errorf("malformed ref data: more than one space found")
 	default:
 		return string(chunks[1]), plumbing.NewHash(string(chunks[0])), nil
 	}
 }

 // Keeps reading shallows until a flush-pkt is found
 func decodeShallow(p *advRefsDecoder) decoderStateFn {
 	if !bytes.HasPrefix(p.line, shallow) {
 		p.error("malformed shallow prefix, found %q... instead", p.line[:len(shallow)])
 		return nil
 	}
 	p.line = bytes.TrimPrefix(p.line, shallow)

 	if len(p.line) != hashSize {
 		p.error(fmt.Sprintf(
 			"malformed shallow hash: wrong length, expected 40 bytes, read %d bytes",
 			len(p.line)))
 		return nil
 	}

 	text := p.line[:hashSize]
 	var h plumbing.Hash
 	if _, err := hex.Decode(h[:], text); err != nil {
 		p.error("invalid hash text: %s", err)
 		return nil
 	}

 	p.data.Shallows = append(p.data.Shallows, h)

 	if ok := p.nextLine(); !ok {
 		return nil
 	}

 	if len(p.line) == 0 {
 		return nil // succesfull parse of the advertised-refs message
 	}

 	return decodeShallow
 }
	package packp

	import (
	"bytes"
	"encoding/hex"
	"errors"
	"fmt"
	"io"

	"gopkg.in/src-d/go-git.v4/plumbing"
	"gopkg.in/src-d/go-git.v4/plumbing/format/pktline"
	)

	// Decode reads the next advertised-refs message form its input and
	// stores it in the AdvRefs.
	func (a *AdvRefs) Decode(r io.Reader) error {
	d := newAdvRefsDecoder(r)
	return d.Decode(a)
	}

	type advRefsDecoder struct {
	s *pktline.Scanner // a pkt-line scanner from the input stream
	line []byte // current pkt-line contents, use parser.nextLine() to make it advance
	nLine int // current pkt-line number for debugging, begins at 1
	hash plumbing.Hash // last hash read
	err error // sticky error, use the parser.error() method to fill this out
	data *AdvRefs // parsed data is stored here
	}

	var (
	// ErrEmptyAdvRefs is returned by Decode if it gets an empty advertised
	// references message.
	ErrEmptyAdvRefs = errors.New("empty advertised-ref message")
	// ErrEmptyInput is returned by Decode if the input is empty.
	ErrEmptyInput = errors.New("empty input")
	)

	func newAdvRefsDecoder(r io.Reader) *advRefsDecoder {
	return &advRefsDecoder{
	s: pktline.NewScanner(r),
	}
	}

	func (d advRefsDecoder) Decode(v AdvRefs) error {
	d.data = v

	for state := decodePrefix; state != nil; {
	state = state(d)
	}

	return d.err
	}

	type decoderStateFn func(*advRefsDecoder) decoderStateFn

	// fills out the parser stiky error
	func (d *advRefsDecoder) error(format string, a ...interface{}) {
	msg := fmt.Sprintf(
	"pkt-line %d: %s", d.nLine,
	fmt.Sprintf(format, a...),
	)

	d.err = NewErrUnexpectedData(msg, d.line)
	}

	// Reads a new pkt-line from the scanner, makes its payload available as
	// p.line and increments p.nLine. A successful invocation returns true,
	// otherwise, false is returned and the sticky error is filled out
	// accordingly. Trims eols at the end of the payloads.
	func (d *advRefsDecoder) nextLine() bool {
	d.nLine++

	if !d.s.Scan() {
	if d.err = d.s.Err(); d.err != nil {
	return false
	}

	if d.nLine == 1 {
	d.err = ErrEmptyInput
	return false
	}

	d.error("EOF")
	return false
	}

	d.line = d.s.Bytes()
	d.line = bytes.TrimSuffix(d.line, eol)

	return true
	}

	// The HTTP smart prefix is often followed by a flush-pkt.
	func decodePrefix(d *advRefsDecoder) decoderStateFn {
	if ok := d.nextLine(); !ok {
	return nil
	}

	if !isPrefix(d.line) {
	return decodeFirstHash
	}

	tmp := make([]byte, len(d.line))
	copy(tmp, d.line)
	d.data.Prefix = append(d.data.Prefix, tmp)
	if ok := d.nextLine(); !ok {
	return nil
	}

	if !isFlush(d.line) {
	return decodeFirstHash
	}

	d.data.Prefix = append(d.data.Prefix, pktline.Flush)
	if ok := d.nextLine(); !ok {
	return nil
	}

	return decodeFirstHash
	}

	func isPrefix(payload []byte) bool {
	return len(payload) > 0 && payload[0] == '#'
	}

	// If the first hash is zero, then a no-refs is coming. Otherwise, a
	// list-of-refs is coming, and the hash will be followed by the first
	// advertised ref.
	func decodeFirstHash(p *advRefsDecoder) decoderStateFn {
	// If the repository is empty, we receive a flush here (HTTP).
	if isFlush(p.line) {
	p.err = ErrEmptyAdvRefs
	return nil
	}

	if len(p.line) < hashSize {
	p.error("cannot read hash, pkt-line too short")
	return nil
	}

	if _, err := hex.Decode(p.hash[:], p.line[:hashSize]); err != nil {
	p.error("invalid hash text: %s", err)
	return nil
	}

	p.line = p.line[hashSize:]

	if p.hash.IsZero() {
	return decodeSkipNoRefs
	}

	return decodeFirstRef
	}

	// Skips SP "capabilities^{}" NUL
	func decodeSkipNoRefs(p *advRefsDecoder) decoderStateFn {
	if len(p.line) < len(noHeadMark) {
	p.error("too short zero-id ref")
	return nil
	}

	if !bytes.HasPrefix(p.line, noHeadMark) {
	p.error("malformed zero-id ref")
	return nil
	}

	p.line = p.line[len(noHeadMark):]

	return decodeCaps
	}

	// decode the refname, expects SP refname NULL
	func decodeFirstRef(l *advRefsDecoder) decoderStateFn {
	if len(l.line) < 3 {
	l.error("line too short after hash")
	return nil
	}

	if !bytes.HasPrefix(l.line, sp) {
	l.error("no space after hash")
	return nil
	}
	l.line = l.line[1:]

	chunks := bytes.SplitN(l.line, null, 2)
	if len(chunks) < 2 {
	l.error("NULL not found")
	return nil
	}
	ref := chunks[0]
	l.line = chunks[1]

	if bytes.Equal(ref, []byte(head)) {
	l.data.Head = &l.hash
	} else {
	l.data.References[string(ref)] = l.hash
	}

	return decodeCaps
	}

	func decodeCaps(p *advRefsDecoder) decoderStateFn {
	if err := p.data.Capabilities.Decode(p.line); err != nil {
	p.error("invalid capabilities: %s", err)
	return nil
	}

	return decodeOtherRefs
	}

	// The refs are either tips (obj-id SP refname) or a peeled (obj-id SP refname^{}).
	// If there are no refs, then there might be a shallow or flush-ptk.
	func decodeOtherRefs(p *advRefsDecoder) decoderStateFn {
	if ok := p.nextLine(); !ok {
	return nil
	}

	if bytes.HasPrefix(p.line, shallow) {
	return decodeShallow
	}

	if len(p.line) == 0 {
	return nil
	}

	saveTo := p.data.References
	if bytes.HasSuffix(p.line, peeled) {
	p.line = bytes.TrimSuffix(p.line, peeled)
	saveTo = p.data.Peeled
	}

	ref, hash, err := readRef(p.line)
	if err != nil {
	p.error("%s", err)
	return nil
	}
	saveTo[ref] = hash

	return decodeOtherRefs
	}

	// Reads a ref-name
	func readRef(data []byte) (string, plumbing.Hash, error) {
	chunks := bytes.Split(data, sp)
	switch {
	case len(chunks) == 1:
	return "", plumbing.ZeroHash, fmt.Errorf("malformed ref data: no space was found")
	case len(chunks) > 2:
	return "", plumbing.ZeroHash, fmt.Errorf("malformed ref data: more than one space found")
	default:
	return string(chunks[1]), plumbing.NewHash(string(chunks[0])), nil
	}
	}

	// Keeps reading shallows until a flush-pkt is found
	func decodeShallow(p *advRefsDecoder) decoderStateFn {
	if !bytes.HasPrefix(p.line, shallow) {
	p.error("malformed shallow prefix, found %q... instead", p.line[:len(shallow)])
	return nil
	}
	p.line = bytes.TrimPrefix(p.line, shallow)

	if len(p.line) != hashSize {
	p.error(fmt.Sprintf(
	"malformed shallow hash: wrong length, expected 40 bytes, read %d bytes",
	len(p.line)))
	return nil
	}

	text := p.line[:hashSize]
	var h plumbing.Hash
	if _, err := hex.Decode(h[:], text); err != nil {
	p.error("invalid hash text: %s", err)
	return nil
	}

	p.data.Shallows = append(p.data.Shallows, h)

	if ok := p.nextLine(); !ok {
	return nil
	}

	if len(p.line) == 0 {
	return nil // succesfull parse of the advertised-refs message
	}

	return decodeShallow
	}