mirror of
https://github.com/go-gitea/gitea.git
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274149dd14
* Switch to keybase go-crypto (for some elliptic curve key) + test
* Use assert.NoError
and add a little more context to failing test description
* Use assert.(No)Error everywhere 🌈
and assert.Error in place of .Nil/.NotNil
144 lines
3.6 KiB
Go
144 lines
3.6 KiB
Go
// Copyright 2010 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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// OpenPGP CFB Mode. http://tools.ietf.org/html/rfc4880#section-13.9
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package packet
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import (
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"crypto/cipher"
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)
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type ocfbEncrypter struct {
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b cipher.Block
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fre []byte
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outUsed int
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}
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// An OCFBResyncOption determines if the "resynchronization step" of OCFB is
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// performed.
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type OCFBResyncOption bool
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const (
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OCFBResync OCFBResyncOption = true
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OCFBNoResync OCFBResyncOption = false
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)
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// NewOCFBEncrypter returns a cipher.Stream which encrypts data with OpenPGP's
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// cipher feedback mode using the given cipher.Block, and an initial amount of
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// ciphertext. randData must be random bytes and be the same length as the
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// cipher.Block's block size. Resync determines if the "resynchronization step"
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// from RFC 4880, 13.9 step 7 is performed. Different parts of OpenPGP vary on
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// this point.
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func NewOCFBEncrypter(block cipher.Block, randData []byte, resync OCFBResyncOption) (cipher.Stream, []byte) {
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blockSize := block.BlockSize()
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if len(randData) != blockSize {
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return nil, nil
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}
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x := &ocfbEncrypter{
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b: block,
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fre: make([]byte, blockSize),
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outUsed: 0,
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}
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prefix := make([]byte, blockSize+2)
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block.Encrypt(x.fre, x.fre)
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for i := 0; i < blockSize; i++ {
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prefix[i] = randData[i] ^ x.fre[i]
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}
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block.Encrypt(x.fre, prefix[:blockSize])
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prefix[blockSize] = x.fre[0] ^ randData[blockSize-2]
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prefix[blockSize+1] = x.fre[1] ^ randData[blockSize-1]
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if resync {
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block.Encrypt(x.fre, prefix[2:])
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} else {
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x.fre[0] = prefix[blockSize]
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x.fre[1] = prefix[blockSize+1]
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x.outUsed = 2
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}
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return x, prefix
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}
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func (x *ocfbEncrypter) XORKeyStream(dst, src []byte) {
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for i := 0; i < len(src); i++ {
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if x.outUsed == len(x.fre) {
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x.b.Encrypt(x.fre, x.fre)
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x.outUsed = 0
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}
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x.fre[x.outUsed] ^= src[i]
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dst[i] = x.fre[x.outUsed]
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x.outUsed++
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}
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}
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type ocfbDecrypter struct {
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b cipher.Block
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fre []byte
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outUsed int
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}
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// NewOCFBDecrypter returns a cipher.Stream which decrypts data with OpenPGP's
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// cipher feedback mode using the given cipher.Block. Prefix must be the first
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// blockSize + 2 bytes of the ciphertext, where blockSize is the cipher.Block's
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// block size. If an incorrect key is detected then nil is returned. On
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// successful exit, blockSize+2 bytes of decrypted data are written into
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// prefix. Resync determines if the "resynchronization step" from RFC 4880,
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// 13.9 step 7 is performed. Different parts of OpenPGP vary on this point.
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func NewOCFBDecrypter(block cipher.Block, prefix []byte, resync OCFBResyncOption) cipher.Stream {
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blockSize := block.BlockSize()
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if len(prefix) != blockSize+2 {
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return nil
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}
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x := &ocfbDecrypter{
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b: block,
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fre: make([]byte, blockSize),
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outUsed: 0,
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}
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prefixCopy := make([]byte, len(prefix))
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copy(prefixCopy, prefix)
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block.Encrypt(x.fre, x.fre)
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for i := 0; i < blockSize; i++ {
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prefixCopy[i] ^= x.fre[i]
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}
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block.Encrypt(x.fre, prefix[:blockSize])
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prefixCopy[blockSize] ^= x.fre[0]
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prefixCopy[blockSize+1] ^= x.fre[1]
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if prefixCopy[blockSize-2] != prefixCopy[blockSize] ||
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prefixCopy[blockSize-1] != prefixCopy[blockSize+1] {
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return nil
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}
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if resync {
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block.Encrypt(x.fre, prefix[2:])
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} else {
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x.fre[0] = prefix[blockSize]
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x.fre[1] = prefix[blockSize+1]
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x.outUsed = 2
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}
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copy(prefix, prefixCopy)
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return x
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}
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func (x *ocfbDecrypter) XORKeyStream(dst, src []byte) {
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for i := 0; i < len(src); i++ {
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if x.outUsed == len(x.fre) {
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x.b.Encrypt(x.fre, x.fre)
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x.outUsed = 0
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}
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c := src[i]
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dst[i] = x.fre[x.outUsed] ^ src[i]
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x.fre[x.outUsed] = c
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x.outUsed++
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}
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}
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