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mirror of https://github.com/henrydcase/pqc.git synced 2024-11-30 03:11:43 +00:00
pqcrypto/crypto_kem/mceliece6688128/sse/gf.c
Thom Wiggers ac2c20045c Classic McEliece (#259)
* 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
2021-03-24 21:02:45 +00:00

237 lines
5.0 KiB
C

/*
this file is for functions for field arithmetic
*/
#include "gf.h"
#include "params.h"
#include <stdio.h>
/* field multiplication */
gf PQCLEAN_MCELIECE6688128_SSE_gf_mul(gf in0, gf in1) {
int i;
uint64_t tmp;
uint64_t t0;
uint64_t t1;
uint64_t t;
t0 = in0;
t1 = in1;
tmp = t0 * (t1 & 1);
for (i = 1; i < GFBITS; i++) {
tmp ^= (t0 * (t1 & ((uint64_t)1 << i)));
}
//
t = tmp & 0x1FF0000;
tmp ^= (t >> 9) ^ (t >> 10) ^ (t >> 12) ^ (t >> 13);
t = tmp & 0x000E000;
tmp ^= (t >> 9) ^ (t >> 10) ^ (t >> 12) ^ (t >> 13);
return tmp & GFMASK;
}
/* 2 field multiplications */
uint64_t PQCLEAN_MCELIECE6688128_SSE_gf_mul2(gf a, gf b0, gf b1) {
int i;
uint64_t tmp = 0;
uint64_t t0;
uint64_t t1;
uint64_t t;
uint64_t mask = 0x0000000100000001;
t0 = a;
t1 = b1;
t1 = (t1 << 32) | b0;
for (i = 0; i < GFBITS; i++) {
tmp ^= t0 * (t1 & mask);
mask += mask;
}
//
t = tmp & 0x01FF000001FF0000;
tmp ^= (t >> 9) ^ (t >> 10) ^ (t >> 12) ^ (t >> 13);
t = tmp & 0x0000E0000000E000;
tmp ^= (t >> 9) ^ (t >> 10) ^ (t >> 12) ^ (t >> 13);
return tmp & 0x00001FFF00001FFF;
}
/* 2 field squarings */
static inline gf gf_sq2(gf in) {
int i;
const uint64_t B[] = {0x1111111111111111,
0x0303030303030303,
0x000F000F000F000F,
0x000000FF000000FF
};
const uint64_t M[] = {0x0001FF0000000000,
0x000000FF80000000,
0x000000007FC00000,
0x00000000003FE000
};
uint64_t x = in;
uint64_t t;
x = (x | (x << 24)) & B[3];
x = (x | (x << 12)) & B[2];
x = (x | (x << 6)) & B[1];
x = (x | (x << 3)) & B[0];
for (i = 0; i < 4; i++) {
t = x & M[i];
x ^= (t >> 9) ^ (t >> 10) ^ (t >> 12) ^ (t >> 13);
}
return x & GFMASK;
}
/* square and multiply */
static inline gf gf_sqmul(gf in, gf m) {
int i;
uint64_t x;
uint64_t t0;
uint64_t t1;
uint64_t t;
const uint64_t M[] = {0x0000001FF0000000,
0x000000000FF80000,
0x000000000007E000
};
t0 = in;
t1 = m;
x = (t1 << 6) * (t0 & (1 << 6));
t0 ^= (t0 << 7);
x ^= (t1 * (t0 & (0x04001)));
x ^= (t1 * (t0 & (0x08002))) << 1;
x ^= (t1 * (t0 & (0x10004))) << 2;
x ^= (t1 * (t0 & (0x20008))) << 3;
x ^= (t1 * (t0 & (0x40010))) << 4;
x ^= (t1 * (t0 & (0x80020))) << 5;
for (i = 0; i < 3; i++) {
t = x & M[i];
x ^= (t >> 9) ^ (t >> 10) ^ (t >> 12) ^ (t >> 13);
}
return x & GFMASK;
}
/* square twice and multiply */
static inline gf gf_sq2mul(gf in, gf m) {
int i;
uint64_t x;
uint64_t t0;
uint64_t t1;
uint64_t t;
const uint64_t M[] = {0x1FF0000000000000,
0x000FF80000000000,
0x000007FC00000000,
0x00000003FE000000,
0x0000000001FE0000,
0x000000000001E000
};
t0 = in;
t1 = m;
x = (t1 << 18) * (t0 & (1 << 6));
t0 ^= (t0 << 21);
x ^= (t1 * (t0 & (0x010000001)));
x ^= (t1 * (t0 & (0x020000002))) << 3;
x ^= (t1 * (t0 & (0x040000004))) << 6;
x ^= (t1 * (t0 & (0x080000008))) << 9;
x ^= (t1 * (t0 & (0x100000010))) << 12;
x ^= (t1 * (t0 & (0x200000020))) << 15;
for (i = 0; i < 6; i++) {
t = x & M[i];
x ^= (t >> 9) ^ (t >> 10) ^ (t >> 12) ^ (t >> 13);
}
return x & GFMASK;
}
/* return num/den */
gf PQCLEAN_MCELIECE6688128_SSE_gf_frac(gf den, gf num) {
gf tmp_11;
gf tmp_1111;
gf out;
tmp_11 = gf_sqmul(den, den); // 11
tmp_1111 = gf_sq2mul(tmp_11, tmp_11); // 1111
out = gf_sq2(tmp_1111);
out = gf_sq2mul(out, tmp_1111); // 11111111
out = gf_sq2(out);
out = gf_sq2mul(out, tmp_1111); // 111111111111
return gf_sqmul(out, num); // 1111111111110
}
/* return 1/den */
gf PQCLEAN_MCELIECE6688128_SSE_gf_inv(gf in) {
return PQCLEAN_MCELIECE6688128_SSE_gf_frac(in, ((gf) 1));
}
/* check if a == 0 */
gf PQCLEAN_MCELIECE6688128_SSE_gf_iszero(gf a) {
uint32_t t = a;
t -= 1;
t >>= 19;
return (gf) t;
}
/* multiplication in GF((2^m)^t) */
void PQCLEAN_MCELIECE6688128_SSE_GF_mul(gf *out, const gf *in0, const gf *in1) {
int i, j;
gf prod[255];
for (i = 0; i < 255; i++) {
prod[i] = 0;
}
for (i = 0; i < 128; i++) {
for (j = 0; j < 128; j++) {
prod[i + j] ^= PQCLEAN_MCELIECE6688128_SSE_gf_mul(in0[i], in1[j]);
}
}
//
for (i = 254; i >= 128; i--) {
prod[i - 123] ^= PQCLEAN_MCELIECE6688128_SSE_gf_mul(prod[i], (gf) 7682);
prod[i - 125] ^= PQCLEAN_MCELIECE6688128_SSE_gf_mul(prod[i], (gf) 2159);
prod[i - 128] ^= PQCLEAN_MCELIECE6688128_SSE_gf_mul(prod[i], (gf) 3597);
}
for (i = 0; i < 128; i++) {
out[i] = prod[i];
}
}