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https://github.com/henrydcase/pqc.git
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ac2c20045c
* Add McEliece reference implementations * Add Vec implementations of McEliece * Add sse implementations * Add AVX2 implementations * Get rid of stuff not supported by Mac ABI * restrict to two cores * Ditch .data files * Remove .hidden from all .S files * speed up duplicate consistency tests by batching * make cpuinfo more robust * Hope to stabilize macos cpuinfo without ccache * Revert "Hope to stabilize macos cpuinfo without ccache" This reverts commit 6129c3cabe1abbc8b956bc87e902a698e32bf322. * Just hardcode what's available at travis * Fixed-size types in api.h * namespace all header files in mceliece * Ditch operations.h * Get rid of static inline functions * fixup! Ditch operations.h
205 lines
5.1 KiB
C
205 lines
5.1 KiB
C
/*
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This file is for Niederreiter decryption
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*/
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#include "decrypt.h"
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#include "benes.h"
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#include "bm.h"
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#include "fft.h"
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#include "fft_tr.h"
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#include "params.h"
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#include "util.h"
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#include <stdio.h>
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static void scaling(vec128 out[][GFBITS], vec128 inv[][GFBITS], const unsigned char *sk, vec128 *recv) {
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int i, j;
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vec128 irr_int[ GFBITS ];
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vec128 eval[64][ GFBITS ];
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vec128 tmp[ GFBITS ];
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//
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PQCLEAN_MCELIECE460896_SSE_irr_load(irr_int, sk);
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PQCLEAN_MCELIECE460896_SSE_fft(eval, irr_int);
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for (i = 0; i < 64; i++) {
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PQCLEAN_MCELIECE460896_SSE_vec128_sq(eval[i], eval[i]);
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}
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PQCLEAN_MCELIECE460896_SSE_vec128_copy(inv[0], eval[0]);
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for (i = 1; i < 64; i++) {
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PQCLEAN_MCELIECE460896_SSE_vec128_mul(inv[i], inv[i - 1], eval[i]);
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}
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PQCLEAN_MCELIECE460896_SSE_vec128_inv(tmp, inv[63]);
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for (i = 62; i >= 0; i--) {
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PQCLEAN_MCELIECE460896_SSE_vec128_mul(inv[i + 1], tmp, inv[i]);
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PQCLEAN_MCELIECE460896_SSE_vec128_mul(tmp, tmp, eval[i + 1]);
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}
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PQCLEAN_MCELIECE460896_SSE_vec128_copy(inv[0], tmp);
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//
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for (i = 0; i < 64; i++) {
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for (j = 0; j < GFBITS; j++) {
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out[i][j] = PQCLEAN_MCELIECE460896_SSE_vec128_and(inv[i][j], recv[i]);
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}
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}
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}
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static void preprocess(vec128 *recv, const unsigned char *s) {
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int i;
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unsigned char r[ 1024 ];
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for (i = 0; i < SYND_BYTES; i++) {
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r[i] = s[i];
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}
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for (i = SYND_BYTES; i < 1024; i++) {
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r[i] = 0;
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}
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for (i = 0; i < 64; i++) {
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recv[i] = PQCLEAN_MCELIECE460896_SSE_load16(r + i * 16);
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}
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}
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static void postprocess(unsigned char *e, vec128 *err) {
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int i;
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unsigned char error8[ (1 << GFBITS) / 8 ];
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uint64_t v[2];
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for (i = 0; i < 64; i++) {
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v[0] = PQCLEAN_MCELIECE460896_SSE_vec128_extract(err[i], 0);
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v[1] = PQCLEAN_MCELIECE460896_SSE_vec128_extract(err[i], 1);
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PQCLEAN_MCELIECE460896_SSE_store8(error8 + i * 16 + 0, v[0]);
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PQCLEAN_MCELIECE460896_SSE_store8(error8 + i * 16 + 8, v[1]);
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}
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for (i = 0; i < SYS_N / 8; i++) {
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e[i] = error8[i];
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}
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}
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static void scaling_inv(vec128 out[][GFBITS], vec128 inv[][GFBITS], vec128 *recv) {
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int i, j;
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for (i = 0; i < 64; i++) {
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for (j = 0; j < GFBITS; j++) {
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out[i][j] = PQCLEAN_MCELIECE460896_SSE_vec128_and(inv[i][j], recv[i]);
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}
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}
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}
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static uint16_t weight_check(unsigned char *e, vec128 *error) {
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int i;
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uint16_t w0 = 0;
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uint16_t w1 = 0;
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uint16_t check;
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for (i = 0; i < 64; i++) {
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w0 += _mm_popcnt_u64( PQCLEAN_MCELIECE460896_SSE_vec128_extract(error[i], 0) );
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w0 += _mm_popcnt_u64( PQCLEAN_MCELIECE460896_SSE_vec128_extract(error[i], 1) );
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}
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for (i = 0; i < SYS_N / 8; i++) {
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w1 += _mm_popcnt_u64( e[i] );
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}
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check = (w0 ^ SYS_T) | (w1 ^ SYS_T);
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check -= 1;
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check >>= 15;
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return check;
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}
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static uint16_t synd_cmp(vec128 s0[][ GFBITS ], vec128 s1[][ GFBITS ]) {
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int i, j;
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vec128 diff;
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diff = PQCLEAN_MCELIECE460896_SSE_vec128_or(PQCLEAN_MCELIECE460896_SSE_vec128_xor(s0[0][0], s1[0][0]),
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PQCLEAN_MCELIECE460896_SSE_vec128_xor(s0[1][0], s1[1][0]));
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for (i = 0; i < 2; i++) {
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for (j = 1; j < GFBITS; j++) {
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diff = PQCLEAN_MCELIECE460896_SSE_vec128_or(diff, PQCLEAN_MCELIECE460896_SSE_vec128_xor(s0[i][j], s1[i][j]));
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}
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}
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return (uint16_t)PQCLEAN_MCELIECE460896_SSE_vec128_testz(diff);
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}
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/* Niederreiter decryption with the Berlekamp decoder */
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/* intput: sk, secret key */
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/* c, ciphertext (syndrome) */
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/* output: e, error vector */
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/* return: 0 for success; 1 for failure */
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int PQCLEAN_MCELIECE460896_SSE_decrypt(unsigned char *e, const unsigned char *sk, const unsigned char *c) {
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int i;
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uint16_t check_synd;
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uint16_t check_weight;
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vec128 inv[ 64 ][ GFBITS ];
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vec128 scaled[ 64 ][ GFBITS ];
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vec128 eval[ 64 ][ GFBITS ];
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vec128 error[ 64 ];
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vec128 s_priv[ 2 ][ GFBITS ];
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vec128 s_priv_cmp[ 2 ][ GFBITS ];
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vec128 locator[ GFBITS ];
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vec128 recv[ 64 ];
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vec128 allone;
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vec128 bits_int[25][32];
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// Berlekamp decoder
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preprocess(recv, c);
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PQCLEAN_MCELIECE460896_SSE_load_bits(bits_int, sk + IRR_BYTES);
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PQCLEAN_MCELIECE460896_SSE_benes(recv, bits_int, 1);
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scaling(scaled, inv, sk, recv);
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PQCLEAN_MCELIECE460896_SSE_fft_tr(s_priv, scaled);
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PQCLEAN_MCELIECE460896_SSE_bm(locator, s_priv);
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PQCLEAN_MCELIECE460896_SSE_fft(eval, locator);
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// reencryption and weight check
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allone = PQCLEAN_MCELIECE460896_SSE_vec128_setbits(1);
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for (i = 0; i < 64; i++) {
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error[i] = PQCLEAN_MCELIECE460896_SSE_vec128_or_reduce(eval[i]);
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error[i] = PQCLEAN_MCELIECE460896_SSE_vec128_xor(error[i], allone);
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}
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scaling_inv(scaled, inv, error);
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PQCLEAN_MCELIECE460896_SSE_fft_tr(s_priv_cmp, scaled);
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check_synd = synd_cmp(s_priv, s_priv_cmp);
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//
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PQCLEAN_MCELIECE460896_SSE_benes(error, bits_int, 0);
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postprocess(e, error);
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check_weight = weight_check(e, error);
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return 1 - (check_synd & check_weight);
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}
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