mirror of
https://gitlab.com/pulsechaincom/go-pulse.git
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637 lines
16 KiB
Go
637 lines
16 KiB
Go
// Copyright 2014 The go-ethereum Authors
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// This file is part of go-ethereum.
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//
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// go-ethereum is free software: you can redistribute it and/or modify
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// it under the terms of the GNU Lesser General Public License as published by
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// the Free Software Foundation, either version 3 of the License, or
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// (at your option) any later version.
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//
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// go-ethereum is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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// GNU Lesser General Public License for more details.
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//
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// You should have received a copy of the GNU Lesser General Public License
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// along with go-ethereum. If not, see <http://www.gnu.org/licenses/>.
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package rlp
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import (
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"fmt"
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"io"
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"math/big"
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"reflect"
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"sync"
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)
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var (
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// Common encoded values.
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// These are useful when implementing EncodeRLP.
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EmptyString = []byte{0x80}
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EmptyList = []byte{0xC0}
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)
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// Encoder is implemented by types that require custom
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// encoding rules or want to encode private fields.
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type Encoder interface {
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// EncodeRLP should write the RLP encoding of its receiver to w.
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// If the implementation is a pointer method, it may also be
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// called for nil pointers.
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//
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// Implementations should generate valid RLP. The data written is
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// not verified at the moment, but a future version might. It is
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// recommended to write only a single value but writing multiple
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// values or no value at all is also permitted.
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EncodeRLP(io.Writer) error
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}
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// ListSize returns the encoded size of an RLP list with the given
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// content size.
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func ListSize(contentSize uint64) uint64 {
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return uint64(headsize(contentSize)) + contentSize
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}
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// Encode writes the RLP encoding of val to w. Note that Encode may
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// perform many small writes in some cases. Consider making w
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// buffered.
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//
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// Encode uses the following type-dependent encoding rules:
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//
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// If the type implements the Encoder interface, Encode calls
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// EncodeRLP. This is true even for nil pointers, please see the
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// documentation for Encoder.
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//
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// To encode a pointer, the value being pointed to is encoded. For nil
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// pointers, Encode will encode the zero value of the type. A nil
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// pointer to a struct type always encodes as an empty RLP list.
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// A nil pointer to an array encodes as an empty list (or empty string
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// if the array has element type byte).
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//
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// Struct values are encoded as an RLP list of all their encoded
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// public fields. Recursive struct types are supported.
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//
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// To encode slices and arrays, the elements are encoded as an RLP
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// list of the value's elements. Note that arrays and slices with
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// element type uint8 or byte are always encoded as an RLP string.
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//
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// A Go string is encoded as an RLP string.
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//
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// An unsigned integer value is encoded as an RLP string. Zero always
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// encodes as an empty RLP string. Encode also supports *big.Int.
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//
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// An interface value encodes as the value contained in the interface.
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//
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// Boolean values are not supported, nor are signed integers, floating
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// point numbers, maps, channels and functions.
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func Encode(w io.Writer, val interface{}) error {
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if outer, ok := w.(*encbuf); ok {
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// Encode was called by some type's EncodeRLP.
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// Avoid copying by writing to the outer encbuf directly.
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return outer.encode(val)
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}
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eb := encbufPool.Get().(*encbuf)
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eb.reset()
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defer encbufPool.Put(eb)
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if err := eb.encode(val); err != nil {
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return err
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}
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return eb.toWriter(w)
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}
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// EncodeBytes returns the RLP encoding of val.
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// Please see the documentation of Encode for the encoding rules.
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func EncodeToBytes(val interface{}) ([]byte, error) {
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eb := encbufPool.Get().(*encbuf)
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eb.reset()
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defer encbufPool.Put(eb)
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if err := eb.encode(val); err != nil {
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return nil, err
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}
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return eb.toBytes(), nil
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}
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// EncodeReader returns a reader from which the RLP encoding of val
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// can be read. The returned size is the total size of the encoded
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// data.
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//
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// Please see the documentation of Encode for the encoding rules.
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func EncodeToReader(val interface{}) (size int, r io.Reader, err error) {
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eb := encbufPool.Get().(*encbuf)
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eb.reset()
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if err := eb.encode(val); err != nil {
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return 0, nil, err
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}
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return eb.size(), &encReader{buf: eb}, nil
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}
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type encbuf struct {
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str []byte // string data, contains everything except list headers
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lheads []*listhead // all list headers
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lhsize int // sum of sizes of all encoded list headers
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sizebuf []byte // 9-byte auxiliary buffer for uint encoding
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}
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type listhead struct {
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offset int // index of this header in string data
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size int // total size of encoded data (including list headers)
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}
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// encode writes head to the given buffer, which must be at least
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// 9 bytes long. It returns the encoded bytes.
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func (head *listhead) encode(buf []byte) []byte {
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return buf[:puthead(buf, 0xC0, 0xF7, uint64(head.size))]
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}
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// headsize returns the size of a list or string header
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// for a value of the given size.
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func headsize(size uint64) int {
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if size < 56 {
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return 1
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}
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return 1 + intsize(size)
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}
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// puthead writes a list or string header to buf.
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// buf must be at least 9 bytes long.
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func puthead(buf []byte, smalltag, largetag byte, size uint64) int {
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if size < 56 {
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buf[0] = smalltag + byte(size)
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return 1
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} else {
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sizesize := putint(buf[1:], size)
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buf[0] = largetag + byte(sizesize)
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return sizesize + 1
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}
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}
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// encbufs are pooled.
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var encbufPool = sync.Pool{
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New: func() interface{} { return &encbuf{sizebuf: make([]byte, 9)} },
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}
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func (w *encbuf) reset() {
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w.lhsize = 0
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if w.str != nil {
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w.str = w.str[:0]
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}
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if w.lheads != nil {
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w.lheads = w.lheads[:0]
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}
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}
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// encbuf implements io.Writer so it can be passed it into EncodeRLP.
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func (w *encbuf) Write(b []byte) (int, error) {
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w.str = append(w.str, b...)
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return len(b), nil
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}
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func (w *encbuf) encode(val interface{}) error {
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rval := reflect.ValueOf(val)
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ti, err := cachedTypeInfo(rval.Type(), tags{})
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if err != nil {
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return err
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}
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return ti.writer(rval, w)
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}
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func (w *encbuf) encodeStringHeader(size int) {
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if size < 56 {
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w.str = append(w.str, 0x80+byte(size))
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} else {
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// TODO: encode to w.str directly
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sizesize := putint(w.sizebuf[1:], uint64(size))
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w.sizebuf[0] = 0xB7 + byte(sizesize)
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w.str = append(w.str, w.sizebuf[:sizesize+1]...)
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}
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}
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func (w *encbuf) encodeString(b []byte) {
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if len(b) == 1 && b[0] <= 0x7F {
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// fits single byte, no string header
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w.str = append(w.str, b[0])
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} else {
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w.encodeStringHeader(len(b))
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w.str = append(w.str, b...)
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}
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}
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func (w *encbuf) list() *listhead {
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lh := &listhead{offset: len(w.str), size: w.lhsize}
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w.lheads = append(w.lheads, lh)
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return lh
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}
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func (w *encbuf) listEnd(lh *listhead) {
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lh.size = w.size() - lh.offset - lh.size
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if lh.size < 56 {
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w.lhsize += 1 // length encoded into kind tag
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} else {
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w.lhsize += 1 + intsize(uint64(lh.size))
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}
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}
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func (w *encbuf) size() int {
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return len(w.str) + w.lhsize
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}
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func (w *encbuf) toBytes() []byte {
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out := make([]byte, w.size())
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strpos := 0
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pos := 0
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for _, head := range w.lheads {
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// write string data before header
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n := copy(out[pos:], w.str[strpos:head.offset])
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pos += n
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strpos += n
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// write the header
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enc := head.encode(out[pos:])
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pos += len(enc)
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}
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// copy string data after the last list header
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copy(out[pos:], w.str[strpos:])
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return out
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}
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func (w *encbuf) toWriter(out io.Writer) (err error) {
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strpos := 0
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for _, head := range w.lheads {
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// write string data before header
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if head.offset-strpos > 0 {
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n, err := out.Write(w.str[strpos:head.offset])
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strpos += n
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if err != nil {
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return err
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}
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}
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// write the header
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enc := head.encode(w.sizebuf)
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if _, err = out.Write(enc); err != nil {
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return err
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}
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}
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if strpos < len(w.str) {
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// write string data after the last list header
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_, err = out.Write(w.str[strpos:])
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}
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return err
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}
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// encReader is the io.Reader returned by EncodeToReader.
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// It releases its encbuf at EOF.
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type encReader struct {
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buf *encbuf // the buffer we're reading from. this is nil when we're at EOF.
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lhpos int // index of list header that we're reading
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strpos int // current position in string buffer
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piece []byte // next piece to be read
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}
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func (r *encReader) Read(b []byte) (n int, err error) {
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for {
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if r.piece = r.next(); r.piece == nil {
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encbufPool.Put(r.buf)
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r.buf = nil
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return n, io.EOF
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}
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nn := copy(b[n:], r.piece)
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n += nn
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if nn < len(r.piece) {
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// piece didn't fit, see you next time.
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r.piece = r.piece[nn:]
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return n, nil
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}
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r.piece = nil
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}
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panic("not reached")
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}
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// next returns the next piece of data to be read.
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// it returns nil at EOF.
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func (r *encReader) next() []byte {
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switch {
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case r.buf == nil:
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return nil
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case r.piece != nil:
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// There is still data available for reading.
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return r.piece
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case r.lhpos < len(r.buf.lheads):
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// We're before the last list header.
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head := r.buf.lheads[r.lhpos]
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sizebefore := head.offset - r.strpos
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if sizebefore > 0 {
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// String data before header.
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p := r.buf.str[r.strpos:head.offset]
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r.strpos += sizebefore
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return p
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} else {
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r.lhpos++
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return head.encode(r.buf.sizebuf)
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}
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case r.strpos < len(r.buf.str):
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// String data at the end, after all list headers.
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p := r.buf.str[r.strpos:]
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r.strpos = len(r.buf.str)
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return p
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default:
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return nil
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}
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}
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var (
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encoderInterface = reflect.TypeOf(new(Encoder)).Elem()
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big0 = big.NewInt(0)
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)
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// makeWriter creates a writer function for the given type.
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func makeWriter(typ reflect.Type) (writer, error) {
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kind := typ.Kind()
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switch {
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case typ.Implements(encoderInterface):
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return writeEncoder, nil
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case kind != reflect.Ptr && reflect.PtrTo(typ).Implements(encoderInterface):
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return writeEncoderNoPtr, nil
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case kind == reflect.Interface:
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return writeInterface, nil
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case typ.AssignableTo(reflect.PtrTo(bigInt)):
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return writeBigIntPtr, nil
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case typ.AssignableTo(bigInt):
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return writeBigIntNoPtr, nil
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case isUint(kind):
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return writeUint, nil
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case kind == reflect.String:
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return writeString, nil
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case kind == reflect.Slice && isByte(typ.Elem()):
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return writeBytes, nil
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case kind == reflect.Array && isByte(typ.Elem()):
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return writeByteArray, nil
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case kind == reflect.Slice || kind == reflect.Array:
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return makeSliceWriter(typ)
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case kind == reflect.Struct:
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return makeStructWriter(typ)
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case kind == reflect.Ptr:
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return makePtrWriter(typ)
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default:
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return nil, fmt.Errorf("rlp: type %v is not RLP-serializable", typ)
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}
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}
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func isByte(typ reflect.Type) bool {
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return typ.Kind() == reflect.Uint8 && !typ.Implements(encoderInterface)
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}
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func writeUint(val reflect.Value, w *encbuf) error {
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i := val.Uint()
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if i == 0 {
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w.str = append(w.str, 0x80)
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} else if i < 128 {
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// fits single byte
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w.str = append(w.str, byte(i))
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} else {
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// TODO: encode int to w.str directly
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s := putint(w.sizebuf[1:], i)
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w.sizebuf[0] = 0x80 + byte(s)
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w.str = append(w.str, w.sizebuf[:s+1]...)
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}
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return nil
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}
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func writeBigIntPtr(val reflect.Value, w *encbuf) error {
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ptr := val.Interface().(*big.Int)
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if ptr == nil {
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w.str = append(w.str, 0x80)
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return nil
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}
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return writeBigInt(ptr, w)
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}
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func writeBigIntNoPtr(val reflect.Value, w *encbuf) error {
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i := val.Interface().(big.Int)
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return writeBigInt(&i, w)
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}
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func writeBigInt(i *big.Int, w *encbuf) error {
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if cmp := i.Cmp(big0); cmp == -1 {
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return fmt.Errorf("rlp: cannot encode negative *big.Int")
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} else if cmp == 0 {
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w.str = append(w.str, 0x80)
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} else {
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w.encodeString(i.Bytes())
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}
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return nil
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}
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func writeBytes(val reflect.Value, w *encbuf) error {
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w.encodeString(val.Bytes())
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return nil
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}
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func writeByteArray(val reflect.Value, w *encbuf) error {
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if !val.CanAddr() {
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// Slice requires the value to be addressable.
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// Make it addressable by copying.
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copy := reflect.New(val.Type()).Elem()
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copy.Set(val)
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val = copy
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}
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size := val.Len()
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slice := val.Slice(0, size).Bytes()
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w.encodeString(slice)
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return nil
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}
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func writeString(val reflect.Value, w *encbuf) error {
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s := val.String()
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if len(s) == 1 && s[0] <= 0x7f {
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// fits single byte, no string header
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w.str = append(w.str, s[0])
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} else {
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w.encodeStringHeader(len(s))
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w.str = append(w.str, s...)
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}
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return nil
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}
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func writeEncoder(val reflect.Value, w *encbuf) error {
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return val.Interface().(Encoder).EncodeRLP(w)
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}
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// writeEncoderNoPtr handles non-pointer values that implement Encoder
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// with a pointer receiver.
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func writeEncoderNoPtr(val reflect.Value, w *encbuf) error {
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if !val.CanAddr() {
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// We can't get the address. It would be possible make the
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// value addressable by creating a shallow copy, but this
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// creates other problems so we're not doing it (yet).
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//
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// package json simply doesn't call MarshalJSON for cases like
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// this, but encodes the value as if it didn't implement the
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// interface. We don't want to handle it that way.
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return fmt.Errorf("rlp: game over: unadressable value of type %v, EncodeRLP is pointer method", val.Type())
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}
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return val.Addr().Interface().(Encoder).EncodeRLP(w)
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}
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func writeInterface(val reflect.Value, w *encbuf) error {
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if val.IsNil() {
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// Write empty list. This is consistent with the previous RLP
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// encoder that we had and should therefore avoid any
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// problems.
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w.str = append(w.str, 0xC0)
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return nil
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}
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eval := val.Elem()
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ti, err := cachedTypeInfo(eval.Type(), tags{})
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if err != nil {
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return err
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}
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return ti.writer(eval, w)
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}
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func makeSliceWriter(typ reflect.Type) (writer, error) {
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etypeinfo, err := cachedTypeInfo1(typ.Elem(), tags{})
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if err != nil {
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return nil, err
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}
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writer := func(val reflect.Value, w *encbuf) error {
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lh := w.list()
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vlen := val.Len()
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for i := 0; i < vlen; i++ {
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if err := etypeinfo.writer(val.Index(i), w); err != nil {
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return err
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}
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}
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w.listEnd(lh)
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return nil
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}
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return writer, nil
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}
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func makeStructWriter(typ reflect.Type) (writer, error) {
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fields, err := structFields(typ)
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if err != nil {
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return nil, err
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}
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writer := func(val reflect.Value, w *encbuf) error {
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lh := w.list()
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for _, f := range fields {
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if err := f.info.writer(val.Field(f.index), w); err != nil {
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return err
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}
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}
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w.listEnd(lh)
|
|
return nil
|
|
}
|
|
return writer, nil
|
|
}
|
|
|
|
func makePtrWriter(typ reflect.Type) (writer, error) {
|
|
etypeinfo, err := cachedTypeInfo1(typ.Elem(), tags{})
|
|
if err != nil {
|
|
return nil, err
|
|
}
|
|
|
|
// determine nil pointer handler
|
|
var nilfunc func(*encbuf) error
|
|
kind := typ.Elem().Kind()
|
|
switch {
|
|
case kind == reflect.Array && isByte(typ.Elem().Elem()):
|
|
nilfunc = func(w *encbuf) error {
|
|
w.str = append(w.str, 0x80)
|
|
return nil
|
|
}
|
|
case kind == reflect.Struct || kind == reflect.Array:
|
|
nilfunc = func(w *encbuf) error {
|
|
// encoding the zero value of a struct/array could trigger
|
|
// infinite recursion, avoid that.
|
|
w.listEnd(w.list())
|
|
return nil
|
|
}
|
|
default:
|
|
zero := reflect.Zero(typ.Elem())
|
|
nilfunc = func(w *encbuf) error {
|
|
return etypeinfo.writer(zero, w)
|
|
}
|
|
}
|
|
|
|
writer := func(val reflect.Value, w *encbuf) error {
|
|
if val.IsNil() {
|
|
return nilfunc(w)
|
|
} else {
|
|
return etypeinfo.writer(val.Elem(), w)
|
|
}
|
|
}
|
|
return writer, err
|
|
}
|
|
|
|
// putint writes i to the beginning of b in with big endian byte
|
|
// order, using the least number of bytes needed to represent i.
|
|
func putint(b []byte, i uint64) (size int) {
|
|
switch {
|
|
case i < (1 << 8):
|
|
b[0] = byte(i)
|
|
return 1
|
|
case i < (1 << 16):
|
|
b[0] = byte(i >> 8)
|
|
b[1] = byte(i)
|
|
return 2
|
|
case i < (1 << 24):
|
|
b[0] = byte(i >> 16)
|
|
b[1] = byte(i >> 8)
|
|
b[2] = byte(i)
|
|
return 3
|
|
case i < (1 << 32):
|
|
b[0] = byte(i >> 24)
|
|
b[1] = byte(i >> 16)
|
|
b[2] = byte(i >> 8)
|
|
b[3] = byte(i)
|
|
return 4
|
|
case i < (1 << 40):
|
|
b[0] = byte(i >> 32)
|
|
b[1] = byte(i >> 24)
|
|
b[2] = byte(i >> 16)
|
|
b[3] = byte(i >> 8)
|
|
b[4] = byte(i)
|
|
return 5
|
|
case i < (1 << 48):
|
|
b[0] = byte(i >> 40)
|
|
b[1] = byte(i >> 32)
|
|
b[2] = byte(i >> 24)
|
|
b[3] = byte(i >> 16)
|
|
b[4] = byte(i >> 8)
|
|
b[5] = byte(i)
|
|
return 6
|
|
case i < (1 << 56):
|
|
b[0] = byte(i >> 48)
|
|
b[1] = byte(i >> 40)
|
|
b[2] = byte(i >> 32)
|
|
b[3] = byte(i >> 24)
|
|
b[4] = byte(i >> 16)
|
|
b[5] = byte(i >> 8)
|
|
b[6] = byte(i)
|
|
return 7
|
|
default:
|
|
b[0] = byte(i >> 56)
|
|
b[1] = byte(i >> 48)
|
|
b[2] = byte(i >> 40)
|
|
b[3] = byte(i >> 32)
|
|
b[4] = byte(i >> 24)
|
|
b[5] = byte(i >> 16)
|
|
b[6] = byte(i >> 8)
|
|
b[7] = byte(i)
|
|
return 8
|
|
}
|
|
}
|
|
|
|
// intsize computes the minimum number of bytes required to store i.
|
|
func intsize(i uint64) (size int) {
|
|
for size = 1; ; size++ {
|
|
if i >>= 8; i == 0 {
|
|
return size
|
|
}
|
|
}
|
|
panic("not reached")
|
|
}
|