182 lines
5.2 KiB
Go
182 lines
5.2 KiB
Go
// Copyright (c) 2016 Andreas Auernhammer. All rights reserved.
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// Use of this source code is governed by a license that can be
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// found in the LICENSE file.
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// Package chacha implements some low-level functions of the
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// ChaCha cipher family.
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package chacha // import "github.com/aead/chacha20/chacha"
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import (
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"encoding/binary"
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"errors"
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)
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const (
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// NonceSize is the size of the ChaCha20 nonce in bytes.
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NonceSize = 8
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// INonceSize is the size of the IETF-ChaCha20 nonce in bytes.
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INonceSize = 12
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// XNonceSize is the size of the XChaCha20 nonce in bytes.
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XNonceSize = 24
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// KeySize is the size of the key in bytes.
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KeySize = 32
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)
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var (
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useSSE2 bool
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useSSSE3 bool
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useAVX bool
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useAVX2 bool
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)
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var (
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errKeySize = errors.New("chacha20/chacha: bad key length")
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errInvalidNonce = errors.New("chacha20/chacha: bad nonce length")
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)
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func setup(state *[64]byte, nonce, key []byte) (err error) {
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if len(key) != KeySize {
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err = errKeySize
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return
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}
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var Nonce [16]byte
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switch len(nonce) {
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case NonceSize:
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copy(Nonce[8:], nonce)
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initialize(state, key, &Nonce)
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case INonceSize:
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copy(Nonce[4:], nonce)
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initialize(state, key, &Nonce)
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case XNonceSize:
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var tmpKey [32]byte
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var hNonce [16]byte
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copy(hNonce[:], nonce[:16])
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copy(tmpKey[:], key)
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HChaCha20(&tmpKey, &hNonce, &tmpKey)
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copy(Nonce[8:], nonce[16:])
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initialize(state, tmpKey[:], &Nonce)
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// BUG(aead): A "good" compiler will remove this (optimizations)
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// But using the provided key instead of tmpKey,
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// will change the key (-> probably confuses users)
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for i := range tmpKey {
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tmpKey[i] = 0
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}
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default:
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err = errInvalidNonce
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}
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return
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}
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// XORKeyStream crypts bytes from src to dst using the given nonce and key.
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// The length of the nonce determinds the version of ChaCha20:
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// - NonceSize: ChaCha20/r with a 64 bit nonce and a 2^64 * 64 byte period.
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// - INonceSize: ChaCha20/r as defined in RFC 7539 and a 2^32 * 64 byte period.
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// - XNonceSize: XChaCha20/r with a 192 bit nonce and a 2^64 * 64 byte period.
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// The rounds argument specifies the number of rounds performed for keystream
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// generation - valid values are 8, 12 or 20. The src and dst may be the same slice
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// but otherwise should not overlap. If len(dst) < len(src) this function panics.
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// If the nonce is neither 64, 96 nor 192 bits long, this function panics.
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func XORKeyStream(dst, src, nonce, key []byte, rounds int) {
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if rounds != 20 && rounds != 12 && rounds != 8 {
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panic("chacha20/chacha: bad number of rounds")
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}
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if len(dst) < len(src) {
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panic("chacha20/chacha: dst buffer is to small")
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}
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if len(nonce) == INonceSize && uint64(len(src)) > (1<<38) {
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panic("chacha20/chacha: src is too large")
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}
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var block, state [64]byte
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if err := setup(&state, nonce, key); err != nil {
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panic(err)
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}
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xorKeyStream(dst, src, &block, &state, rounds)
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}
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// Cipher implements ChaCha20/r (XChaCha20/r) for a given number of rounds r.
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type Cipher struct {
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state, block [64]byte
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off int
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rounds int // 20 for ChaCha20
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noncesize int
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}
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// NewCipher returns a new *chacha.Cipher implementing the ChaCha20/r or XChaCha20/r
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// (r = 8, 12 or 20) stream cipher. The nonce must be unique for one key for all time.
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// The length of the nonce determinds the version of ChaCha20:
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// - NonceSize: ChaCha20/r with a 64 bit nonce and a 2^64 * 64 byte period.
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// - INonceSize: ChaCha20/r as defined in RFC 7539 and a 2^32 * 64 byte period.
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// - XNonceSize: XChaCha20/r with a 192 bit nonce and a 2^64 * 64 byte period.
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// If the nonce is neither 64, 96 nor 192 bits long, a non-nil error is returned.
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func NewCipher(nonce, key []byte, rounds int) (*Cipher, error) {
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if rounds != 20 && rounds != 12 && rounds != 8 {
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panic("chacha20/chacha: bad number of rounds")
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}
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c := new(Cipher)
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if err := setup(&(c.state), nonce, key); err != nil {
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return nil, err
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}
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c.rounds = rounds
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if len(nonce) == INonceSize {
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c.noncesize = INonceSize
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} else {
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c.noncesize = NonceSize
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}
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return c, nil
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}
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// XORKeyStream crypts bytes from src to dst. Src and dst may be the same slice
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// but otherwise should not overlap. If len(dst) < len(src) the function panics.
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func (c *Cipher) XORKeyStream(dst, src []byte) {
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if len(dst) < len(src) {
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panic("chacha20/chacha: dst buffer is to small")
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}
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if c.off > 0 {
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n := len(c.block[c.off:])
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if len(src) <= n {
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for i, v := range src {
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dst[i] = v ^ c.block[c.off]
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c.off++
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}
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if c.off == 64 {
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c.off = 0
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}
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return
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}
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for i, v := range c.block[c.off:] {
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dst[i] = src[i] ^ v
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}
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src = src[n:]
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dst = dst[n:]
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c.off = 0
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}
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c.off += xorKeyStream(dst, src, &(c.block), &(c.state), c.rounds)
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}
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// SetCounter skips ctr * 64 byte blocks. SetCounter(0) resets the cipher.
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// This function always skips the unused keystream of the current 64 byte block.
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func (c *Cipher) SetCounter(ctr uint64) {
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if c.noncesize == INonceSize {
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binary.LittleEndian.PutUint32(c.state[48:], uint32(ctr))
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} else {
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binary.LittleEndian.PutUint64(c.state[48:], ctr)
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}
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c.off = 0
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}
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// HChaCha20 generates 32 pseudo-random bytes from a 128 bit nonce and a 256 bit secret key.
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// It can be used as a key-derivation-function (KDF).
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func HChaCha20(out *[32]byte, nonce *[16]byte, key *[32]byte) { hChaCha20(out, nonce, key) }
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