xtea/block.go - crypto - Git at Google

 // Copyright 2009 The Go Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style
 // license that can be found in the LICENSE file.

 /*
 	Implementation adapted from Needham and Wheeler's paper:
 	http://www.cix.co.uk/~klockstone/xtea.pdf

 	A precalculated look up table is used during encryption/decryption for values that are based purely on the key.
 */

 package xtea

 // XTEA is based on 64 rounds.
 const numRounds = 64

 // blockToUint32 reads an 8 byte slice into two uint32s.
 // The block is treated as big endian.
 func blockToUint32(src []byte) (uint32, uint32) {
 	r0 := uint32(src[0])<<24 | uint32(src[1])<<16 | uint32(src[2])<<8 | uint32(src[3])
 	r1 := uint32(src[4])<<24 | uint32(src[5])<<16 | uint32(src[6])<<8 | uint32(src[7])
 	return r0, r1
 }

 // uint32ToBlock writes two uint32s into an 8 byte data block.
 // Values are written as big endian.
 func uint32ToBlock(v0, v1 uint32, dst []byte) {
 	dst[0] = byte(v0 >> 24)
 	dst[1] = byte(v0 >> 16)
 	dst[2] = byte(v0 >> 8)
 	dst[3] = byte(v0)
 	dst[4] = byte(v1 >> 24)
 	dst[5] = byte(v1 >> 16)
 	dst[6] = byte(v1 >> 8)
 	dst[7] = byte(v1 >> 0)
 }

 // encryptBlock encrypts a single 8 byte block using XTEA.
 func encryptBlock(c *Cipher, dst, src []byte) {
 	v0, v1 := blockToUint32(src)

 	// Two rounds of XTEA applied per loop
 	for i := 0; i < numRounds; {
 		v0 += ((v1<<4 ^ v1>>5) + v1) ^ c.table[i]
 		i++
 		v1 += ((v0<<4 ^ v0>>5) + v0) ^ c.table[i]
 		i++
 	}

 	uint32ToBlock(v0, v1, dst)
 }

 // decryptBlock decrypts a single 8 byte block using XTEA.
 func decryptBlock(c *Cipher, dst, src []byte) {
 	v0, v1 := blockToUint32(src)

 	// Two rounds of XTEA applied per loop
 	for i := numRounds; i > 0; {
 		i--
 		v1 -= ((v0<<4 ^ v0>>5) + v0) ^ c.table[i]
 		i--
 		v0 -= ((v1<<4 ^ v1>>5) + v1) ^ c.table[i]
 	}

 	uint32ToBlock(v0, v1, dst)
 }
	// Copyright 2009 The Go Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style
	// license that can be found in the LICENSE file.

	/*
	Implementation adapted from Needham and Wheeler's paper:
	http://www.cix.co.uk/~klockstone/xtea.pdf

	A precalculated look up table is used during encryption/decryption for values that are based purely on the key.
	*/

	package xtea

	// XTEA is based on 64 rounds.
	const numRounds = 64

	// blockToUint32 reads an 8 byte slice into two uint32s.
	// The block is treated as big endian.
	func blockToUint32(src []byte) (uint32, uint32) {
	r0 := uint32(src[0])<<24 \| uint32(src[1])<<16 \| uint32(src[2])<<8 \| uint32(src[3])
	r1 := uint32(src[4])<<24 \| uint32(src[5])<<16 \| uint32(src[6])<<8 \| uint32(src[7])
	return r0, r1
	}

	// uint32ToBlock writes two uint32s into an 8 byte data block.
	// Values are written as big endian.
	func uint32ToBlock(v0, v1 uint32, dst []byte) {
	dst[0] = byte(v0 >> 24)
	dst[1] = byte(v0 >> 16)
	dst[2] = byte(v0 >> 8)
	dst[3] = byte(v0)
	dst[4] = byte(v1 >> 24)
	dst[5] = byte(v1 >> 16)
	dst[6] = byte(v1 >> 8)
	dst[7] = byte(v1 >> 0)
	}

	// encryptBlock encrypts a single 8 byte block using XTEA.
	func encryptBlock(c *Cipher, dst, src []byte) {
	v0, v1 := blockToUint32(src)

	// Two rounds of XTEA applied per loop
	for i := 0; i < numRounds; {
	v0 += ((v1<<4 ^ v1>>5) + v1) ^ c.table[i]
	i++
	v1 += ((v0<<4 ^ v0>>5) + v0) ^ c.table[i]
	i++
	}

	uint32ToBlock(v0, v1, dst)
	}

	// decryptBlock decrypts a single 8 byte block using XTEA.
	func decryptBlock(c *Cipher, dst, src []byte) {
	v0, v1 := blockToUint32(src)

	// Two rounds of XTEA applied per loop
	for i := numRounds; i > 0; {
	i--
	v1 -= ((v0<<4 ^ v0>>5) + v0) ^ c.table[i]
	i--
	v0 -= ((v1<<4 ^ v1>>5) + v1) ^ c.table[i]
	}

	uint32ToBlock(v0, v1, dst)
	}