mirror of https://github.com/python/cpython
194 lines
4.7 KiB
C
194 lines
4.7 KiB
C
// sha3.c
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// 19-Nov-11 Markku-Juhani O. Saarinen <mjos@iki.fi>
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// Revised 07-Aug-15 to match with official release of FIPS PUB 202 "SHA3"
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// Revised 03-Sep-15 for portability + OpenSSL - style API
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#include "sha3.h"
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// update the state with given number of rounds
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static void sha3_keccakf(uint64_t st[25])
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{
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// constants
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const uint64_t keccakf_rndc[24] = {
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0x0000000000000001, 0x0000000000008082, 0x800000000000808a,
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0x8000000080008000, 0x000000000000808b, 0x0000000080000001,
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0x8000000080008081, 0x8000000000008009, 0x000000000000008a,
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0x0000000000000088, 0x0000000080008009, 0x000000008000000a,
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0x000000008000808b, 0x800000000000008b, 0x8000000000008089,
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0x8000000000008003, 0x8000000000008002, 0x8000000000000080,
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0x000000000000800a, 0x800000008000000a, 0x8000000080008081,
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0x8000000000008080, 0x0000000080000001, 0x8000000080008008
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};
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const int keccakf_rotc[24] = {
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1, 3, 6, 10, 15, 21, 28, 36, 45, 55, 2, 14,
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27, 41, 56, 8, 25, 43, 62, 18, 39, 61, 20, 44
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};
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const int keccakf_piln[24] = {
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10, 7, 11, 17, 18, 3, 5, 16, 8, 21, 24, 4,
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15, 23, 19, 13, 12, 2, 20, 14, 22, 9, 6, 1
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};
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// variables
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int i, j, r;
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uint64_t t, bc[5];
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#if __BYTE_ORDER__ != __ORDER_LITTLE_ENDIAN__
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uint8_t *v;
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// endianess conversion. this is redundant on little-endian targets
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for (i = 0; i < 25; i++) {
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v = (uint8_t *) &st[i];
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st[i] = ((uint64_t) v[0]) | (((uint64_t) v[1]) << 8) |
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(((uint64_t) v[2]) << 16) | (((uint64_t) v[3]) << 24) |
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(((uint64_t) v[4]) << 32) | (((uint64_t) v[5]) << 40) |
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(((uint64_t) v[6]) << 48) | (((uint64_t) v[7]) << 56);
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}
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#endif
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// actual iteration
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for (r = 0; r < KECCAKF_ROUNDS; r++) {
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// Theta
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for (i = 0; i < 5; i++)
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bc[i] = st[i] ^ st[i + 5] ^ st[i + 10] ^ st[i + 15] ^ st[i + 20];
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for (i = 0; i < 5; i++) {
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t = bc[(i + 4) % 5] ^ ROTL64(bc[(i + 1) % 5], 1);
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for (j = 0; j < 25; j += 5)
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st[j + i] ^= t;
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}
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// Rho Pi
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t = st[1];
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for (i = 0; i < 24; i++) {
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j = keccakf_piln[i];
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bc[0] = st[j];
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st[j] = ROTL64(t, keccakf_rotc[i]);
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t = bc[0];
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}
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// Chi
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for (j = 0; j < 25; j += 5) {
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for (i = 0; i < 5; i++)
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bc[i] = st[j + i];
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for (i = 0; i < 5; i++)
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st[j + i] ^= (~bc[(i + 1) % 5]) & bc[(i + 2) % 5];
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}
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// Iota
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st[0] ^= keccakf_rndc[r];
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}
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#if __BYTE_ORDER__ != __ORDER_LITTLE_ENDIAN__
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// endianess conversion. this is redundant on little-endian targets
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for (i = 0; i < 25; i++) {
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v = (uint8_t *) &st[i];
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t = st[i];
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v[0] = t & 0xFF;
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v[1] = (t >> 8) & 0xFF;
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v[2] = (t >> 16) & 0xFF;
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v[3] = (t >> 24) & 0xFF;
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v[4] = (t >> 32) & 0xFF;
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v[5] = (t >> 40) & 0xFF;
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v[6] = (t >> 48) & 0xFF;
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v[7] = (t >> 56) & 0xFF;
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}
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#endif
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}
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// Initialize the context for SHA3
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static int sha3_init(sha3_ctx_t *c, int mdlen)
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{
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int i;
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for (i = 0; i < 25; i++)
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c->st.q[i] = 0;
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c->mdlen = mdlen;
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c->rsiz = 200 - 2 * mdlen;
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c->pt = 0;
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return 1;
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}
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// update state with more data
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static int sha3_update(sha3_ctx_t *c, const void *data, size_t len)
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{
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size_t i;
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int j;
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j = c->pt;
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for (i = 0; i < len; i++) {
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c->st.b[j++] ^= ((const uint8_t *) data)[i];
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if (j >= c->rsiz) {
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sha3_keccakf(c->st.q);
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j = 0;
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}
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}
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c->pt = j;
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return 1;
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}
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// finalize and output a hash
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static int sha3_final(void *md, sha3_ctx_t *c)
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{
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int i;
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c->st.b[c->pt] ^= 0x06;
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c->st.b[c->rsiz - 1] ^= 0x80;
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sha3_keccakf(c->st.q);
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for (i = 0; i < c->mdlen; i++) {
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((uint8_t *) md)[i] = c->st.b[i];
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}
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return 1;
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}
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#if 0
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// compute a SHA-3 hash (md) of given byte length from "in"
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void *sha3(const void *in, size_t inlen, void *md, int mdlen)
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{
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sha3_ctx_t sha3;
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sha3_init(&sha3, mdlen);
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sha3_update(&sha3, in, inlen);
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sha3_final(md, &sha3);
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return md;
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}
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#endif
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// SHAKE128 and SHAKE256 extensible-output functionality
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static void shake_xof(sha3_ctx_t *c)
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{
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c->st.b[c->pt] ^= 0x1F;
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c->st.b[c->rsiz - 1] ^= 0x80;
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sha3_keccakf(c->st.q);
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c->pt = 0;
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}
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static void shake_out(sha3_ctx_t *c, void *out, size_t len)
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{
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size_t i;
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int j;
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j = c->pt;
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for (i = 0; i < len; i++) {
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if (j >= c->rsiz) {
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sha3_keccakf(c->st.q);
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j = 0;
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}
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((uint8_t *) out)[i] = c->st.b[j++];
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}
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c->pt = j;
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}
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