-rw-r--r-- 6292 libntruprime-20241021/command/ntruprime-test_encode_int16.c raw
/* ----- encode/int16, derived from supercop/crypto_encode/try.c */
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <stdint.h>
#include <ntruprime.h>
#include "ntruprime_test.h"
#define fail ((ok = 0),printf)
static const char *encode_int16_checksums[] = {
"7f59625680d504bdd9bff199c54792455ddfd077779962836a92543c88bea2fa",
"cdc27065db4d2f6e2356756b9a0bae31699e6255f0caf0011ba18ef3d2229ed8",
} ;
static void (*crypto_encode)(unsigned char *,const void *);
#define crypto_encode_STRBYTES ntruprime_encode_int16_STRBYTES
#define crypto_encode_ITEMS ntruprime_encode_int16_ITEMS
#define crypto_encode_ITEMBYTES ntruprime_encode_int16_ITEMBYTES
static void *storage_encode_int16_s;
static unsigned char *test_encode_int16_s;
static void *storage_encode_int16_x;
static unsigned char *test_encode_int16_x;
static void *storage_encode_int16_s2;
static unsigned char *test_encode_int16_s2;
static void *storage_encode_int16_x2;
static unsigned char *test_encode_int16_x2;
#define precomputed_encode_int16_NUM 16
static const unsigned char precomputed_encode_int16_s[precomputed_encode_int16_NUM][crypto_encode_STRBYTES] = {
{122,133},
{137,93},
{10,58},
{63,76},
{103,228},
{99,188},
{142,131},
{155,71},
{15,238},
{223,68},
{57,25},
{23,39},
{83,38},
{147,10},
{141,21},
{210,235},
} ;
static const uint16_t precomputed_encode_int16_x[precomputed_encode_int16_NUM][crypto_encode_ITEMS] = {
{34170},
{23945},
{14858},
{19519},
{58471},
{48227},
{33678},
{18331},
{60943},
{17631},
{6457},
{10007},
{9811},
{2707},
{5517},
{60370},
} ;
static void test_encode_int16_impl(long long impl)
{
unsigned char *s = test_encode_int16_s;
unsigned char *x = test_encode_int16_x;
unsigned char *s2 = test_encode_int16_s2;
unsigned char *x2 = test_encode_int16_x2;
long long slen = crypto_encode_STRBYTES;
long long xwords = crypto_encode_ITEMS;
long long xlen;
if (targeti && strcmp(targeti,".") && strcmp(targeti,ntruprime_dispatch_encode_int16_implementation(impl))) return;
if (targetn && atol(targetn) != impl) return;
if (impl >= 0) {
crypto_encode = ntruprime_dispatch_encode_int16(impl);
printf("encode_int16 %lld implementation %s compiler %s\n",impl,ntruprime_dispatch_encode_int16_implementation(impl),ntruprime_dispatch_encode_int16_compiler(impl));
} else {
crypto_encode = ntruprime_encode_int16;
printf("encode_int16 selected implementation %s compiler %s\n",ntruprime_encode_int16_implementation(),ntruprime_encode_int16_compiler());
}
for (long long checksumbig = 0;checksumbig < 2;++checksumbig) {
long long loops = checksumbig ? 4096 : 1024;
checksum_clear();
for (long long loop = 0;loop < loops;++loop) {
xlen = xwords*crypto_encode_ITEMBYTES;
output_prepare(s2,s,slen);
input_prepare(x2,x,xlen);
endianness(x,xwords,crypto_encode_ITEMBYTES);
secret(x,xlen);
crypto_encode(s,x);
public(x,xlen);
endianness(x,xwords,crypto_encode_ITEMBYTES);
public(s,slen);
checksum(s,slen);
output_compare(s2,s,slen,"crypto_encode");
input_compare(x2,x,xlen,"crypto_encode");
double_canary(s2,s,slen);
double_canary(x2,x,xlen);
endianness(x2,xwords,crypto_encode_ITEMBYTES);
secret(x2,xlen);
crypto_encode(s2,x2);
public(x2,xlen);
endianness(x2,xwords,crypto_encode_ITEMBYTES);
public(s2,slen);
if (memcmp(s2,s,slen) != 0) fail("failure: crypto_encode is nondeterministic\n");
}
checksum_expected(encode_int16_checksums[checksumbig]);
}
for (long long precomp = 0;precomp < precomputed_encode_int16_NUM;++precomp) {
output_prepare(s2,s,crypto_encode_STRBYTES);
input_prepare(x2,x,crypto_encode_ITEMS*crypto_encode_ITEMBYTES);
memcpy(x,precomputed_encode_int16_x[precomp],crypto_encode_ITEMS*crypto_encode_ITEMBYTES);
memcpy(x2,precomputed_encode_int16_x[precomp],crypto_encode_ITEMS*crypto_encode_ITEMBYTES);
crypto_encode(s,x);
if (memcmp(s,precomputed_encode_int16_s[precomp],crypto_encode_STRBYTES)) {
fail("failure: crypto_encode fails precomputed test vectors\n");
printf("expected s: ");
for (long long pos = 0;pos < crypto_encode_STRBYTES;++pos) printf("%02x",((unsigned char *) precomputed_encode_int16_s[precomp])[pos]);
printf("\n");
printf("received s: ");
for (long long pos = 0;pos < crypto_encode_STRBYTES;++pos) printf("%02x",s[pos]);
printf("\n");
}
output_compare(s2,s,crypto_encode_STRBYTES,"crypto_encode");
input_compare(x2,x,crypto_encode_ITEMS*crypto_encode_ITEMBYTES,"crypto_encode");
}
}
void test_encode_int16(void)
{
long long maxalloc = 0;
if (targeto && strcmp(targeto,"encode")) return;
if (targetp && strcmp(targetp,"int16")) return;
storage_encode_int16_s = callocplus(crypto_encode_STRBYTES);
test_encode_int16_s = aligned(storage_encode_int16_s,crypto_encode_STRBYTES);
if (crypto_encode_STRBYTES > maxalloc) maxalloc = crypto_encode_STRBYTES;
storage_encode_int16_x = callocplus(crypto_encode_ITEMS*crypto_encode_ITEMBYTES);
test_encode_int16_x = aligned(storage_encode_int16_x,crypto_encode_ITEMS*crypto_encode_ITEMBYTES);
if (crypto_encode_ITEMS*crypto_encode_ITEMBYTES > maxalloc) maxalloc = crypto_encode_ITEMS*crypto_encode_ITEMBYTES;
storage_encode_int16_s2 = callocplus(maxalloc);
test_encode_int16_s2 = aligned(storage_encode_int16_s2,crypto_encode_STRBYTES);
storage_encode_int16_x2 = callocplus(maxalloc);
test_encode_int16_x2 = aligned(storage_encode_int16_x2,crypto_encode_ITEMS*crypto_encode_ITEMBYTES);
for (long long offset = 0;offset < 1;++offset) {
if (targetoffset && atol(targetoffset) != offset) continue;
if (offset && valgrind) break;
printf("encode_int16 offset %lld\n",offset);
for (long long impl = -1;impl < ntruprime_numimpl_encode_int16();++impl)
forked(test_encode_int16_impl,impl);
++test_encode_int16_s;
++test_encode_int16_x;
++test_encode_int16_s2;
++test_encode_int16_x2;
}
free(storage_encode_int16_x2);
free(storage_encode_int16_s2);
free(storage_encode_int16_x);
free(storage_encode_int16_s);
}
#undef crypto_encode_STRBYTES
#undef crypto_encode_ITEMS
#undef crypto_encode_ITEMBYTES