mirror of
https://github.com/go-gitea/gitea
synced 2024-11-16 07:04:25 +00:00
550 lines
12 KiB
Go
550 lines
12 KiB
Go
package msgp
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import (
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"fmt"
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"math"
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)
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const (
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// Complex64Extension is the extension number used for complex64
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Complex64Extension = 3
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// Complex128Extension is the extension number used for complex128
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Complex128Extension = 4
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// TimeExtension is the extension number used for time.Time
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TimeExtension = 5
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)
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// our extensions live here
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var extensionReg = make(map[int8]func() Extension)
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// RegisterExtension registers extensions so that they
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// can be initialized and returned by methods that
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// decode `interface{}` values. This should only
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// be called during initialization. f() should return
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// a newly-initialized zero value of the extension. Keep in
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// mind that extensions 3, 4, and 5 are reserved for
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// complex64, complex128, and time.Time, respectively,
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// and that MessagePack reserves extension types from -127 to -1.
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//
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// For example, if you wanted to register a user-defined struct:
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//
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// msgp.RegisterExtension(10, func() msgp.Extension { &MyExtension{} })
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//
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// RegisterExtension will panic if you call it multiple times
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// with the same 'typ' argument, or if you use a reserved
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// type (3, 4, or 5).
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func RegisterExtension(typ int8, f func() Extension) {
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switch typ {
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case Complex64Extension, Complex128Extension, TimeExtension:
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panic(fmt.Sprint("msgp: forbidden extension type:", typ))
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}
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if _, ok := extensionReg[typ]; ok {
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panic(fmt.Sprint("msgp: RegisterExtension() called with typ", typ, "more than once"))
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}
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extensionReg[typ] = f
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}
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// ExtensionTypeError is an error type returned
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// when there is a mis-match between an extension type
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// and the type encoded on the wire
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type ExtensionTypeError struct {
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Got int8
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Want int8
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}
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// Error implements the error interface
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func (e ExtensionTypeError) Error() string {
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return fmt.Sprintf("msgp: error decoding extension: wanted type %d; got type %d", e.Want, e.Got)
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}
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// Resumable returns 'true' for ExtensionTypeErrors
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func (e ExtensionTypeError) Resumable() bool { return true }
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func errExt(got int8, wanted int8) error {
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return ExtensionTypeError{Got: got, Want: wanted}
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}
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// Extension is the interface fulfilled
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// by types that want to define their
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// own binary encoding.
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type Extension interface {
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// ExtensionType should return
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// a int8 that identifies the concrete
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// type of the extension. (Types <0 are
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// officially reserved by the MessagePack
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// specifications.)
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ExtensionType() int8
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// Len should return the length
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// of the data to be encoded
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Len() int
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// MarshalBinaryTo should copy
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// the data into the supplied slice,
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// assuming that the slice has length Len()
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MarshalBinaryTo([]byte) error
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UnmarshalBinary([]byte) error
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}
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// RawExtension implements the Extension interface
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type RawExtension struct {
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Data []byte
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Type int8
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}
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// ExtensionType implements Extension.ExtensionType, and returns r.Type
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func (r *RawExtension) ExtensionType() int8 { return r.Type }
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// Len implements Extension.Len, and returns len(r.Data)
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func (r *RawExtension) Len() int { return len(r.Data) }
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// MarshalBinaryTo implements Extension.MarshalBinaryTo,
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// and returns a copy of r.Data
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func (r *RawExtension) MarshalBinaryTo(d []byte) error {
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copy(d, r.Data)
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return nil
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}
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// UnmarshalBinary implements Extension.UnmarshalBinary,
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// and sets r.Data to the contents of the provided slice
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func (r *RawExtension) UnmarshalBinary(b []byte) error {
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if cap(r.Data) >= len(b) {
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r.Data = r.Data[0:len(b)]
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} else {
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r.Data = make([]byte, len(b))
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}
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copy(r.Data, b)
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return nil
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}
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// WriteExtension writes an extension type to the writer
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func (mw *Writer) WriteExtension(e Extension) error {
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l := e.Len()
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var err error
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switch l {
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case 0:
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o, err := mw.require(3)
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if err != nil {
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return err
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}
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mw.buf[o] = mext8
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mw.buf[o+1] = 0
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mw.buf[o+2] = byte(e.ExtensionType())
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case 1:
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o, err := mw.require(2)
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if err != nil {
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return err
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}
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mw.buf[o] = mfixext1
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mw.buf[o+1] = byte(e.ExtensionType())
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case 2:
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o, err := mw.require(2)
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if err != nil {
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return err
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}
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mw.buf[o] = mfixext2
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mw.buf[o+1] = byte(e.ExtensionType())
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case 4:
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o, err := mw.require(2)
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if err != nil {
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return err
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}
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mw.buf[o] = mfixext4
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mw.buf[o+1] = byte(e.ExtensionType())
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case 8:
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o, err := mw.require(2)
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if err != nil {
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return err
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}
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mw.buf[o] = mfixext8
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mw.buf[o+1] = byte(e.ExtensionType())
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case 16:
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o, err := mw.require(2)
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if err != nil {
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return err
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}
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mw.buf[o] = mfixext16
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mw.buf[o+1] = byte(e.ExtensionType())
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default:
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switch {
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case l < math.MaxUint8:
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o, err := mw.require(3)
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if err != nil {
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return err
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}
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mw.buf[o] = mext8
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mw.buf[o+1] = byte(uint8(l))
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mw.buf[o+2] = byte(e.ExtensionType())
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case l < math.MaxUint16:
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o, err := mw.require(4)
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if err != nil {
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return err
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}
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mw.buf[o] = mext16
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big.PutUint16(mw.buf[o+1:], uint16(l))
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mw.buf[o+3] = byte(e.ExtensionType())
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default:
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o, err := mw.require(6)
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if err != nil {
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return err
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}
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mw.buf[o] = mext32
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big.PutUint32(mw.buf[o+1:], uint32(l))
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mw.buf[o+5] = byte(e.ExtensionType())
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}
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}
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// we can only write directly to the
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// buffer if we're sure that it
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// fits the object
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if l <= mw.bufsize() {
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o, err := mw.require(l)
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if err != nil {
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return err
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}
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return e.MarshalBinaryTo(mw.buf[o:])
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}
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// here we create a new buffer
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// just large enough for the body
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// and save it as the write buffer
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err = mw.flush()
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if err != nil {
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return err
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}
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buf := make([]byte, l)
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err = e.MarshalBinaryTo(buf)
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if err != nil {
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return err
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}
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mw.buf = buf
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mw.wloc = l
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return nil
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}
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// peek at the extension type, assuming the next
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// kind to be read is Extension
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func (m *Reader) peekExtensionType() (int8, error) {
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p, err := m.R.Peek(2)
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if err != nil {
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return 0, err
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}
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spec := sizes[p[0]]
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if spec.typ != ExtensionType {
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return 0, badPrefix(ExtensionType, p[0])
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}
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if spec.extra == constsize {
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return int8(p[1]), nil
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}
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size := spec.size
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p, err = m.R.Peek(int(size))
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if err != nil {
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return 0, err
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}
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return int8(p[size-1]), nil
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}
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// peekExtension peeks at the extension encoding type
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// (must guarantee at least 1 byte in 'b')
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func peekExtension(b []byte) (int8, error) {
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spec := sizes[b[0]]
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size := spec.size
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if spec.typ != ExtensionType {
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return 0, badPrefix(ExtensionType, b[0])
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}
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if len(b) < int(size) {
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return 0, ErrShortBytes
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}
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// for fixed extensions,
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// the type information is in
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// the second byte
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if spec.extra == constsize {
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return int8(b[1]), nil
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}
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// otherwise, it's in the last
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// part of the prefix
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return int8(b[size-1]), nil
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}
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// ReadExtension reads the next object from the reader
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// as an extension. ReadExtension will fail if the next
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// object in the stream is not an extension, or if
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// e.Type() is not the same as the wire type.
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func (m *Reader) ReadExtension(e Extension) (err error) {
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var p []byte
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p, err = m.R.Peek(2)
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if err != nil {
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return
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}
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lead := p[0]
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var read int
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var off int
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switch lead {
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case mfixext1:
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if int8(p[1]) != e.ExtensionType() {
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err = errExt(int8(p[1]), e.ExtensionType())
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return
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}
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p, err = m.R.Peek(3)
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if err != nil {
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return
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}
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err = e.UnmarshalBinary(p[2:])
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if err == nil {
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_, err = m.R.Skip(3)
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}
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return
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case mfixext2:
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if int8(p[1]) != e.ExtensionType() {
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err = errExt(int8(p[1]), e.ExtensionType())
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return
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}
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p, err = m.R.Peek(4)
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if err != nil {
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return
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}
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err = e.UnmarshalBinary(p[2:])
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if err == nil {
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_, err = m.R.Skip(4)
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}
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return
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case mfixext4:
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if int8(p[1]) != e.ExtensionType() {
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err = errExt(int8(p[1]), e.ExtensionType())
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return
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}
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p, err = m.R.Peek(6)
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if err != nil {
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return
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}
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err = e.UnmarshalBinary(p[2:])
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if err == nil {
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_, err = m.R.Skip(6)
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}
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return
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case mfixext8:
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if int8(p[1]) != e.ExtensionType() {
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err = errExt(int8(p[1]), e.ExtensionType())
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return
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}
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p, err = m.R.Peek(10)
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if err != nil {
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return
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}
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err = e.UnmarshalBinary(p[2:])
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if err == nil {
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_, err = m.R.Skip(10)
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}
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return
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case mfixext16:
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if int8(p[1]) != e.ExtensionType() {
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err = errExt(int8(p[1]), e.ExtensionType())
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return
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}
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p, err = m.R.Peek(18)
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if err != nil {
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return
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}
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err = e.UnmarshalBinary(p[2:])
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if err == nil {
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_, err = m.R.Skip(18)
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}
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return
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case mext8:
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p, err = m.R.Peek(3)
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if err != nil {
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return
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}
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if int8(p[2]) != e.ExtensionType() {
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err = errExt(int8(p[2]), e.ExtensionType())
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return
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}
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read = int(uint8(p[1]))
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off = 3
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case mext16:
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p, err = m.R.Peek(4)
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if err != nil {
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return
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}
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if int8(p[3]) != e.ExtensionType() {
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err = errExt(int8(p[3]), e.ExtensionType())
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return
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}
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read = int(big.Uint16(p[1:]))
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off = 4
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case mext32:
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p, err = m.R.Peek(6)
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if err != nil {
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return
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}
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if int8(p[5]) != e.ExtensionType() {
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err = errExt(int8(p[5]), e.ExtensionType())
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return
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}
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read = int(big.Uint32(p[1:]))
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off = 6
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default:
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err = badPrefix(ExtensionType, lead)
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return
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}
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p, err = m.R.Peek(read + off)
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if err != nil {
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return
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}
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err = e.UnmarshalBinary(p[off:])
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if err == nil {
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_, err = m.R.Skip(read + off)
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}
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return
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}
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// AppendExtension appends a MessagePack extension to the provided slice
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func AppendExtension(b []byte, e Extension) ([]byte, error) {
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l := e.Len()
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var o []byte
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var n int
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switch l {
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case 0:
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o, n = ensure(b, 3)
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o[n] = mext8
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o[n+1] = 0
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o[n+2] = byte(e.ExtensionType())
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return o[:n+3], nil
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case 1:
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o, n = ensure(b, 3)
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o[n] = mfixext1
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o[n+1] = byte(e.ExtensionType())
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n += 2
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case 2:
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o, n = ensure(b, 4)
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o[n] = mfixext2
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o[n+1] = byte(e.ExtensionType())
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n += 2
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case 4:
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o, n = ensure(b, 6)
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o[n] = mfixext4
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o[n+1] = byte(e.ExtensionType())
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n += 2
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case 8:
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o, n = ensure(b, 10)
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o[n] = mfixext8
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o[n+1] = byte(e.ExtensionType())
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n += 2
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case 16:
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o, n = ensure(b, 18)
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o[n] = mfixext16
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o[n+1] = byte(e.ExtensionType())
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n += 2
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default:
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switch {
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case l < math.MaxUint8:
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o, n = ensure(b, l+3)
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o[n] = mext8
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o[n+1] = byte(uint8(l))
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o[n+2] = byte(e.ExtensionType())
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n += 3
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case l < math.MaxUint16:
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o, n = ensure(b, l+4)
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o[n] = mext16
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big.PutUint16(o[n+1:], uint16(l))
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o[n+3] = byte(e.ExtensionType())
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n += 4
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default:
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o, n = ensure(b, l+6)
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o[n] = mext32
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big.PutUint32(o[n+1:], uint32(l))
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o[n+5] = byte(e.ExtensionType())
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n += 6
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}
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}
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return o, e.MarshalBinaryTo(o[n:])
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}
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// ReadExtensionBytes reads an extension from 'b' into 'e'
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// and returns any remaining bytes.
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// Possible errors:
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// - ErrShortBytes ('b' not long enough)
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// - ExtensionTypeErorr{} (wire type not the same as e.Type())
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// - TypeErorr{} (next object not an extension)
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// - InvalidPrefixError
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// - An umarshal error returned from e.UnmarshalBinary
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func ReadExtensionBytes(b []byte, e Extension) ([]byte, error) {
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l := len(b)
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if l < 3 {
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return b, ErrShortBytes
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}
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lead := b[0]
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var (
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sz int // size of 'data'
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off int // offset of 'data'
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typ int8
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)
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switch lead {
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case mfixext1:
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typ = int8(b[1])
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sz = 1
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off = 2
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case mfixext2:
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typ = int8(b[1])
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sz = 2
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off = 2
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case mfixext4:
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typ = int8(b[1])
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sz = 4
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off = 2
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case mfixext8:
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typ = int8(b[1])
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sz = 8
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off = 2
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case mfixext16:
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typ = int8(b[1])
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sz = 16
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off = 2
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case mext8:
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sz = int(uint8(b[1]))
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typ = int8(b[2])
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off = 3
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if sz == 0 {
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return b[3:], e.UnmarshalBinary(b[3:3])
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}
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case mext16:
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if l < 4 {
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return b, ErrShortBytes
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}
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sz = int(big.Uint16(b[1:]))
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typ = int8(b[3])
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off = 4
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case mext32:
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if l < 6 {
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return b, ErrShortBytes
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}
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sz = int(big.Uint32(b[1:]))
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typ = int8(b[5])
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off = 6
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default:
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return b, badPrefix(ExtensionType, lead)
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}
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if typ != e.ExtensionType() {
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return b, errExt(typ, e.ExtensionType())
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}
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// the data of the extension starts
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// at 'off' and is 'sz' bytes long
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if len(b[off:]) < sz {
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return b, ErrShortBytes
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}
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tot := off + sz
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return b[tot:], e.UnmarshalBinary(b[off:tot])
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}
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