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93 lines
2.6 KiB
Go
93 lines
2.6 KiB
Go
// Copyright (C) 2019 ProtonTech AG
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// This file contains necessary tools for the aex and ocb packages.
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//
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// These functions SHOULD NOT be used elsewhere, since they are optimized for
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// specific input nature in the EAX and OCB modes of operation.
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package byteutil
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// GfnDouble computes 2 * input in the field of 2^n elements.
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// The irreducible polynomial in the finite field for n=128 is
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// x^128 + x^7 + x^2 + x + 1 (equals 0x87)
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// Constant-time execution in order to avoid side-channel attacks
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func GfnDouble(input []byte) []byte {
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if len(input) != 16 {
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panic("Doubling in GFn only implemented for n = 128")
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}
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// If the first bit is zero, return 2L = L << 1
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// Else return (L << 1) xor 0^120 10000111
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shifted := ShiftBytesLeft(input)
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shifted[15] ^= ((input[0] >> 7) * 0x87)
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return shifted
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}
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// ShiftBytesLeft outputs the byte array corresponding to x << 1 in binary.
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func ShiftBytesLeft(x []byte) []byte {
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l := len(x)
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dst := make([]byte, l)
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for i := 0; i < l-1; i++ {
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dst[i] = (x[i] << 1) | (x[i+1] >> 7)
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}
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dst[l-1] = x[l-1] << 1
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return dst
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}
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// ShiftNBytesLeft puts in dst the byte array corresponding to x << n in binary.
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func ShiftNBytesLeft(dst, x []byte, n int) {
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// Erase first n / 8 bytes
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copy(dst, x[n/8:])
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// Shift the remaining n % 8 bits
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bits := uint(n % 8)
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l := len(dst)
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for i := 0; i < l-1; i++ {
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dst[i] = (dst[i] << bits) | (dst[i+1] >> uint(8 - bits))
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}
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dst[l-1] = dst[l-1] << bits
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// Append trailing zeroes
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dst = append(dst, make([]byte, n/8)...)
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}
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// XorBytesMut assumes equal input length, replaces X with X XOR Y
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func XorBytesMut(X, Y []byte) {
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for i := 0; i < len(X); i++ {
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X[i] ^= Y[i]
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}
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}
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// XorBytes assumes equal input length, puts X XOR Y into Z
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func XorBytes(Z, X, Y []byte) {
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for i := 0; i < len(X); i++ {
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Z[i] = X[i] ^ Y[i]
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}
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}
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// RightXor XORs smaller input (assumed Y) at the right of the larger input (assumed X)
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func RightXor(X, Y []byte) []byte {
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offset := len(X) - len(Y)
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xored := make([]byte, len(X));
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copy(xored, X)
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for i := 0; i < len(Y); i++ {
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xored[offset + i] ^= Y[i]
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}
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return xored
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}
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// SliceForAppend takes a slice and a requested number of bytes. It returns a
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// slice with the contents of the given slice followed by that many bytes and a
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// second slice that aliases into it and contains only the extra bytes. If the
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// original slice has sufficient capacity then no allocation is performed.
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func SliceForAppend(in []byte, n int) (head, tail []byte) {
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if total := len(in) + n; cap(in) >= total {
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head = in[:total]
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} else {
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head = make([]byte, total)
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copy(head, in)
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}
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tail = head[len(in):]
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return
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}
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