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https://gitlab.com/pulsechaincom/erigon-pulse.git
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231e468e19
git-subtree-dir: erigon-lib git-subtree-mainline:3c8cbda809
git-subtree-split:93d9c9d9fe
285 lines
6.6 KiB
Go
285 lines
6.6 KiB
Go
/*
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Copyright 2022 Erigon contributors
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Licensed under the Apache License, Version 2.0 (the "License");
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you may not use this file except in compliance with the License.
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You may obtain a copy of the License at
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http://www.apache.org/licenses/LICENSE-2.0
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Unless required by applicable law or agreed to in writing, software
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distributed under the License is distributed on an "AS IS" BASIS,
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WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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See the License for the specific language governing permissions and
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limitations under the License.
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*/
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package rlp
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import "io"
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// RLP-related utilities necessary for computing commitments for state root hash
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// generateRlpPrefixLenDouble calculates the length of RLP prefix to encode a string of bytes of length l "twice",
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// meaning that it is the prefix for rlp(rlp(data))
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func generateRlpPrefixLenDouble(l int, firstByte byte) int {
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if l < 2 {
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// firstByte only matters when there is 1 byte to encode
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if firstByte >= 0x80 {
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return 2
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}
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return 0
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}
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if l < 55 {
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return 2
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}
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if l < 56 { // 2 + 1
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return 3
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}
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if l < 254 {
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return 4
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}
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if l < 256 {
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return 5
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}
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if l < 65533 {
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return 6
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}
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if l < 65536 {
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return 7
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}
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return 8
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}
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func multiByteHeaderPrefixOfLen(l int) byte {
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// > If a string is more than 55 bytes long, the
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// > RLP encoding consists of a single byte with value 0xB7 plus the length
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// > of the length of the string in binary form, followed by the length of
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// > the string, followed by the string. For example, a length-1024 string
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// > would be encoded as 0xB90400 followed by the string. The range of
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// > the first byte is thus [0xB8, 0xBF].
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//
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// see package rlp/decode.go:887
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return byte(0xB7 + l)
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}
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func generateByteArrayLen(buffer []byte, pos int, l int) int {
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if l < 56 {
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buffer[pos] = byte(0x80 + l)
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pos++
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} else if l < 256 {
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// len(vn) can be encoded as 1 byte
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buffer[pos] = multiByteHeaderPrefixOfLen(1)
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pos++
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buffer[pos] = byte(l)
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pos++
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} else if l < 65536 {
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// len(vn) is encoded as two bytes
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buffer[pos] = multiByteHeaderPrefixOfLen(2)
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pos++
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buffer[pos] = byte(l >> 8)
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pos++
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buffer[pos] = byte(l & 255)
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pos++
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} else {
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// len(vn) is encoded as three bytes
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buffer[pos] = multiByteHeaderPrefixOfLen(3)
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pos++
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buffer[pos] = byte(l >> 16)
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pos++
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buffer[pos] = byte((l >> 8) & 255)
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pos++
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buffer[pos] = byte(l & 255)
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pos++
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}
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return pos
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}
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func generateByteArrayLenDouble(buffer []byte, pos int, l int) int {
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if l < 55 {
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// After first wrapping, the length will be l + 1 < 56
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buffer[pos] = byte(0x80 + l + 1)
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pos++
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buffer[pos] = byte(0x80 + l)
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pos++
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} else if l < 56 {
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buffer[pos] = multiByteHeaderPrefixOfLen(1)
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pos++
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buffer[pos] = byte(l + 1)
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pos++
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buffer[pos] = byte(0x80 + l)
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pos++
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} else if l < 254 {
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// After first wrapping, the length will be l + 2 < 256
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buffer[pos] = multiByteHeaderPrefixOfLen(1)
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pos++
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buffer[pos] = byte(l + 2)
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pos++
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buffer[pos] = multiByteHeaderPrefixOfLen(1)
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pos++
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buffer[pos] = byte(l)
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pos++
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} else if l < 256 {
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// First wrapping is 2 bytes, second wrapping 3 bytes
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buffer[pos] = multiByteHeaderPrefixOfLen(2)
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pos++
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buffer[pos] = byte((l + 2) >> 8)
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pos++
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buffer[pos] = byte((l + 2) & 255)
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pos++
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buffer[pos] = multiByteHeaderPrefixOfLen(1)
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pos++
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buffer[pos] = byte(l)
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pos++
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} else if l < 65533 {
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// Both wrappings are 3 bytes
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buffer[pos] = multiByteHeaderPrefixOfLen(2)
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pos++
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buffer[pos] = byte((l + 3) >> 8)
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pos++
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buffer[pos] = byte((l + 3) & 255)
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pos++
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buffer[pos] = multiByteHeaderPrefixOfLen(2)
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pos++
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buffer[pos] = byte(l >> 8)
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pos++
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buffer[pos] = byte(l & 255)
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pos++
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} else if l < 65536 {
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// First wrapping is 3 bytes, second wrapping is 4 bytes
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buffer[pos] = multiByteHeaderPrefixOfLen(3)
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pos++
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buffer[pos] = byte((l + 3) >> 16)
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pos++
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buffer[pos] = byte(((l + 3) >> 8) & 255)
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pos++
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buffer[pos] = byte((l + 3) & 255)
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pos++
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buffer[pos] = multiByteHeaderPrefixOfLen(2)
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pos++
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buffer[pos] = byte((l >> 8) & 255)
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pos++
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buffer[pos] = byte(l & 255)
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pos++
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} else {
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// Both wrappings are 4 bytes
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buffer[pos] = multiByteHeaderPrefixOfLen(3)
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pos++
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buffer[pos] = byte((l + 4) >> 16)
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pos++
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buffer[pos] = byte(((l + 4) >> 8) & 255)
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pos++
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buffer[pos] = byte((l + 4) & 255)
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pos++
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buffer[pos] = multiByteHeaderPrefixOfLen(3)
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pos++
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buffer[pos] = byte(l >> 16)
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pos++
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buffer[pos] = byte((l >> 8) & 255)
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pos++
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buffer[pos] = byte(l & 255)
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pos++
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}
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return pos
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}
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func generateRlpPrefixLen(l int) int {
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if l < 2 {
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return 0
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}
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if l < 56 {
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return 1
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}
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if l < 256 {
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return 2
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}
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if l < 65536 {
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return 3
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}
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return 4
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}
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// RlpSerializable is a value that can be double-RLP coded.
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type RlpSerializable interface {
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ToDoubleRLP(io.Writer, []byte) error
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DoubleRLPLen() int
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RawBytes() []byte
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}
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type RlpSerializableBytes []byte
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func (b RlpSerializableBytes) ToDoubleRLP(w io.Writer, prefixBuf []byte) error {
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return encodeBytesAsRlpToWriter(b, w, generateByteArrayLenDouble, prefixBuf)
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}
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func (b RlpSerializableBytes) RawBytes() []byte {
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return b
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}
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func (b RlpSerializableBytes) DoubleRLPLen() int {
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if len(b) < 1 {
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return 0
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}
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return generateRlpPrefixLenDouble(len(b), b[0]) + len(b)
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}
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type RlpEncodedBytes []byte
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func (b RlpEncodedBytes) ToDoubleRLP(w io.Writer, prefixBuf []byte) error {
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return encodeBytesAsRlpToWriter(b, w, generateByteArrayLen, prefixBuf)
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}
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func (b RlpEncodedBytes) RawBytes() []byte {
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return b
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}
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func (b RlpEncodedBytes) DoubleRLPLen() int {
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return generateRlpPrefixLen(len(b)) + len(b)
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}
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func encodeBytesAsRlpToWriter(source []byte, w io.Writer, prefixGenFunc func([]byte, int, int) int, prefixBuf []byte) error {
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// > 1 byte, write a prefix or prefixes first
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if len(source) > 1 || (len(source) == 1 && source[0] >= 0x80) {
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prefixLen := prefixGenFunc(prefixBuf, 0, len(source))
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if _, err := w.Write(prefixBuf[:prefixLen]); err != nil {
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return err
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}
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}
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_, err := w.Write(source)
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return err
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}
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func EncodeByteArrayAsRlp(raw []byte, w io.Writer, prefixBuf []byte) (int, error) {
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err := encodeBytesAsRlpToWriter(raw, w, generateByteArrayLen, prefixBuf)
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if err != nil {
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return 0, err
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}
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return generateRlpPrefixLen(len(raw)) + len(raw), nil
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}
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func GenerateStructLen(buffer []byte, l int) int {
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if l < 56 {
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buffer[0] = byte(192 + l)
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return 1
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}
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if l < 256 {
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// l can be encoded as 1 byte
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buffer[1] = byte(l)
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buffer[0] = byte(247 + 1)
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return 2
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}
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if l < 65536 {
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buffer[2] = byte(l & 255)
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buffer[1] = byte(l >> 8)
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buffer[0] = byte(247 + 2)
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return 3
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}
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buffer[3] = byte(l & 255)
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buffer[2] = byte((l >> 8) & 255)
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buffer[1] = byte(l >> 16)
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buffer[0] = byte(247 + 3)
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return 4
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}
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