-rw-r--r-- 214686 libmceliece-20240812/command/mceliece-test.c raw
/* WARNING: auto-generated (by autogen/test); do not edit */
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <unistd.h>
#include <errno.h>
#include <time.h>
#include <assert.h>
#include <sys/time.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <sys/wait.h>
#include <fcntl.h>
#include <sys/resource.h>
#include "crypto_uint8.h"
#include "crypto_uint32.h"
#include "crypto_uint64.h"
#include "crypto_declassify.h"
#include <mceliece.h> /* -lmceliece */
#include <randombytes.h>
static const char *targeto = 0;
static const char *targetp = 0;
static const char *targeti = 0;
static const char *targetn = 0;
static const char *targetoffset = 0;
static int ok = 1;
#define fail ((ok = 0),printf)
/* ----- valgrind support */
static int valgrind = 0;
static unsigned char valgrind_undefined_byte = 0;
static char *volatile valgrind_pointer = 0;
static char *valgrind_malloc_1(void)
{
char *x = malloc(1);
if (!x) abort();
*(char **volatile) &valgrind_pointer = x;
return valgrind_pointer;
}
static void valgrind_init(void)
{
char *e = getenv("valgrind_multiplier");
char *x;
if (!e) return;
x = valgrind_malloc_1();
valgrind_undefined_byte = x[0]+1;
valgrind_undefined_byte *= atoi(e);
valgrind_undefined_byte ^= x[0]+1;
free(x);
valgrind = 1;
}
static void secret(void *xvoid,long long xlen)
{
unsigned char *x = xvoid;
while (xlen > 0) {
*x ^= valgrind_undefined_byte;
++x;
--xlen;
}
}
static void public(void *x,long long xlen)
{
crypto_declassify(x,xlen);
}
/* ----- rng and hash, from supercop/try-anything.c */
typedef crypto_uint8 u8;
typedef crypto_uint32 u32;
typedef crypto_uint64 u64;
#define FOR(i,n) for (i = 0;i < n;++i)
static u32 L32(u32 x,int c) { return (x << c) | ((x&0xffffffff) >> (32 - c)); }
static u32 ld32(const u8 *x)
{
u32 u = x[3];
u = (u<<8)|x[2];
u = (u<<8)|x[1];
return (u<<8)|x[0];
}
static void st32(u8 *x,u32 u)
{
int i;
FOR(i,4) { x[i] = u; u >>= 8; }
}
static const u8 sigma[17] = "expand 32-byte k";
static void core_salsa(u8 *out,const u8 *in,const u8 *k)
{
u32 w[16],x[16],y[16],t[4];
int i,j,m;
FOR(i,4) {
x[5*i] = ld32(sigma+4*i);
x[1+i] = ld32(k+4*i);
x[6+i] = ld32(in+4*i);
x[11+i] = ld32(k+16+4*i);
}
FOR(i,16) y[i] = x[i];
FOR(i,20) {
FOR(j,4) {
FOR(m,4) t[m] = x[(5*j+4*m)%16];
t[1] ^= L32(t[0]+t[3], 7);
t[2] ^= L32(t[1]+t[0], 9);
t[3] ^= L32(t[2]+t[1],13);
t[0] ^= L32(t[3]+t[2],18);
FOR(m,4) w[4*j+(j+m)%4] = t[m];
}
FOR(m,16) x[m] = w[m];
}
FOR(i,16) st32(out + 4 * i,x[i] + y[i]);
}
static void salsa20(u8 *c,u64 b,const u8 *n,const u8 *k)
{
u8 z[16],x[64];
u32 u,i;
if (!b) return;
FOR(i,16) z[i] = 0;
FOR(i,8) z[i] = n[i];
while (b >= 64) {
core_salsa(x,z,k);
FOR(i,64) c[i] = x[i];
u = 1;
for (i = 8;i < 16;++i) {
u += (u32) z[i];
z[i] = u;
u >>= 8;
}
b -= 64;
c += 64;
}
if (b) {
core_salsa(x,z,k);
FOR(i,b) c[i] = x[i];
}
}
static void increment(u8 *n)
{
if (!++n[0])
if (!++n[1])
if (!++n[2])
if (!++n[3])
if (!++n[4])
if (!++n[5])
if (!++n[6])
if (!++n[7])
;
}
static unsigned char testvector_n[8];
static void testvector_clear(void)
{
memset(testvector_n,0,sizeof testvector_n);
}
static void testvector(unsigned char *x,unsigned long long xlen)
{
const static unsigned char testvector_k[33] = "generate inputs for test vectors";
salsa20(x,xlen,testvector_n,testvector_k);
increment(testvector_n);
}
static unsigned long long myrandom(void)
{
unsigned char x[8];
unsigned long long result;
testvector(x,8);
result = x[7];
result = (result<<8)|x[6];
result = (result<<8)|x[5];
result = (result<<8)|x[4];
result = (result<<8)|x[3];
result = (result<<8)|x[2];
result = (result<<8)|x[1];
result = (result<<8)|x[0];
return result;
}
static unsigned char canary_n[8];
static void canary(unsigned char *x,unsigned long long xlen)
{
const static unsigned char canary_k[33] = "generate pad to catch overwrites";
salsa20(x,xlen,canary_n,canary_k);
increment(canary_n);
}
static void double_canary(unsigned char *x2,unsigned char *x,unsigned long long xlen)
{
if (valgrind) return;
canary(x - 16,16);
canary(x + xlen,16);
memcpy(x2 - 16,x - 16,16);
memcpy(x2 + xlen,x + xlen,16);
}
static void input_prepare(unsigned char *x2,unsigned char *x,unsigned long long xlen)
{
testvector(x,xlen);
if (valgrind) {
memcpy(x2,x,xlen);
return;
}
canary(x - 16,16);
canary(x + xlen,16);
memcpy(x2 - 16,x - 16,xlen + 32);
}
static void input_compare(const unsigned char *x2,const unsigned char *x,unsigned long long xlen,const char *fun)
{
if (valgrind) return;
if (memcmp(x2 - 16,x - 16,xlen + 32)) {
fail("failure: %s overwrites input\n",fun);
}
}
static void output_prepare(unsigned char *x2,unsigned char *x,unsigned long long xlen)
{
if (valgrind) {
memcpy(x2,x,xlen);
return;
}
canary(x - 16,xlen + 32);
memcpy(x2 - 16,x - 16,xlen + 32);
}
static void output_compare(const unsigned char *x2,const unsigned char *x,unsigned long long xlen,const char *fun)
{
if (valgrind) return;
if (memcmp(x2 - 16,x - 16,16)) {
fail("failure: %s writes before output\n",fun);
}
if (memcmp(x2 + xlen,x + xlen,16)) {
fail("failure: %s writes after output\n",fun);
}
}
/* ----- knownrandombytes */
static const int knownrandombytes_is_only_for_testing_not_for_cryptographic_use = 1;
#define knownrandombytes randombytes
#define QUARTERROUND(a,b,c,d) \
a += b; d = L32(d^a,16); \
c += d; b = L32(b^c,12); \
a += b; d = L32(d^a, 8); \
c += d; b = L32(b^c, 7);
static void core_chacha(u8 *out,const u8 *in,const u8 *k)
{
u32 x[16],y[16];
int i,j;
FOR(i,4) {
x[i] = ld32(sigma+4*i);
x[12+i] = ld32(in+4*i);
}
FOR(i,8) x[4+i] = ld32(k+4*i);
FOR(i,16) y[i] = x[i];
FOR(i,10) {
FOR(j,4) { QUARTERROUND(x[j],x[j+4],x[j+8],x[j+12]) }
FOR(j,4) { QUARTERROUND(x[j],x[((j+1)&3)+4],x[((j+2)&3)+8],x[((j+3)&3)+12]) }
}
FOR(i,16) st32(out+4*i,x[i]+y[i]);
}
static void chacha20(u8 *c,u64 b,const u8 *n,const u8 *k)
{
u8 z[16],x[64];
u32 u,i;
if (!b) return;
FOR(i,16) z[i] = 0;
FOR(i,8) z[i+8] = n[i];
while (b >= 64) {
core_chacha(x,z,k);
FOR(i,64) c[i] = x[i];
u = 1;
FOR(i,8) {
u += (u32) z[i];
z[i] = u;
u >>= 8;
}
b -= 64;
c += 64;
}
if (b) {
core_chacha(x,z,k);
FOR(i,b) c[i] = x[i];
}
}
#define crypto_rng_OUTPUTBYTES 736
static int crypto_rng(
unsigned char *r, /* random output */
unsigned char *n, /* new key */
const unsigned char *g /* old key */
)
{
static const unsigned char nonce[8] = {0};
unsigned char x[32+crypto_rng_OUTPUTBYTES];
chacha20(x,sizeof x,nonce,g);
memcpy(n,x,32);
memcpy(r,x+32,crypto_rng_OUTPUTBYTES);
return 0;
}
static unsigned char knownrandombytes_g[32];
static unsigned char knownrandombytes_r[crypto_rng_OUTPUTBYTES];
static unsigned long long knownrandombytes_pos = crypto_rng_OUTPUTBYTES;
static void knownrandombytes_clear(void)
{
memset(knownrandombytes_g,0,sizeof knownrandombytes_g);
memset(knownrandombytes_r,0,sizeof knownrandombytes_r);
knownrandombytes_pos = crypto_rng_OUTPUTBYTES;
}
void knownrandombytes_main(void *xvoid,long long xlen)
{
unsigned char *x = xvoid;
assert(knownrandombytes_is_only_for_testing_not_for_cryptographic_use);
while (xlen > 0) {
if (knownrandombytes_pos == crypto_rng_OUTPUTBYTES) {
crypto_rng(knownrandombytes_r,knownrandombytes_g,knownrandombytes_g);
knownrandombytes_pos = 0;
}
*x++ = knownrandombytes_r[knownrandombytes_pos];
xlen -= 1;
knownrandombytes_r[knownrandombytes_pos++] = 0;
}
}
void knownrandombytes(void *xvoid,long long xlen)
{
knownrandombytes_main(xvoid,xlen);
secret(xvoid,xlen);
}
/* ----- checksums */
static unsigned char checksum_state[64];
static char checksum_hex[65];
static void checksum_expected(const char *expected)
{
long long i;
for (i = 0;i < 32;++i) {
checksum_hex[2 * i] = "0123456789abcdef"[15 & (checksum_state[i] >> 4)];
checksum_hex[2 * i + 1] = "0123456789abcdef"[15 & checksum_state[i]];
}
checksum_hex[2 * i] = 0;
if (strcmp(checksum_hex,expected))
fail("failure: checksum mismatch: %s expected %s\n",checksum_hex,expected);
}
static void checksum_clear(void)
{
memset(checksum_state,0,sizeof checksum_state);
knownrandombytes_clear();
testvector_clear();
/* not necessary to clear canary */
}
static void checksum(const unsigned char *x,unsigned long long xlen)
{
u8 block[16];
int i;
while (xlen >= 16) {
core_salsa(checksum_state,x,checksum_state);
x += 16;
xlen -= 16;
}
FOR(i,16) block[i] = 0;
FOR(i,xlen) block[i] = x[i];
block[xlen] = 1;
checksum_state[0] ^= 1;
core_salsa(checksum_state,block,checksum_state);
}
#include "limits.inc"
static void *callocplus(long long len)
{
if (valgrind) {
unsigned char *x = malloc(len);
if (!x) abort();
return x;
} else {
unsigned char *x = calloc(1,len + 256);
long long i;
if (!x) abort();
for (i = 0;i < len + 256;++i) x[i] = random();
return x;
}
}
static void *aligned(void *x,long long len)
{
if (valgrind)
return x;
else {
long long i;
unsigned char *y = x;
y += 64;
y += 63 & (-(unsigned long) y);
for (i = 0;i < len;++i) y[i] = 0;
return y;
}
}
/* ----- catching SIGILL, SIGBUS, SIGSEGV, etc. */
static void forked(void (*test)(long long),long long impl)
{
if (valgrind) {
test(impl);
return;
}
fflush(stdout);
pid_t child = fork();
int childstatus = -1;
if (child == -1) {
fprintf(stderr,"fatal: fork failed: %s",strerror(errno));
exit(111);
}
if (child == 0) {
ok = 1;
limits();
test(impl);
if (!ok) exit(100);
exit(0);
}
if (waitpid(child,&childstatus,0) != child) {
fprintf(stderr,"fatal: wait failed: %s",strerror(errno));
exit(111);
}
if (childstatus)
fail("failure: process failed, status %d\n",childstatus);
fflush(stdout);
}
/* ----- endianness */
/* on big-endian machines, flip into little-endian */
/* other types of endianness are not supported */
static void endianness(unsigned char *e,unsigned long long words,unsigned long long bytesperword)
{
long long i = 1;
if (1 == *(unsigned char *) &i) return;
while (words > 0) {
for (i = 0;2 * i < bytesperword;++i) {
long long j = bytesperword - 1 - i;
unsigned char ei = e[i];
e[i] = e[j];
e[j] = ei;
}
e += bytesperword;
words -= 1;
}
}
/* ----- xof, derived from supercop/crypto_xof/try.c */
static const char *xof_shake256_checksums[] = {
"a3c4908bf4412d650a1f0a69587778b72aeea66db5a9991a4f0cf2d782ca65b9",
"cfec0f87445678928e802011140a1df31a1692ec574364da56ddaaf3d4a7d69e",
} ;
static void (*crypto_xof)(unsigned char *,long long,const unsigned char *,long long);
static void *storage_xof_shake256_h;
static unsigned char *test_xof_shake256_h;
static void *storage_xof_shake256_m;
static unsigned char *test_xof_shake256_m;
static void *storage_xof_shake256_h2;
static unsigned char *test_xof_shake256_h2;
static void *storage_xof_shake256_m2;
static unsigned char *test_xof_shake256_m2;
static void test_xof_shake256_impl(long long impl)
{
unsigned char *h = test_xof_shake256_h;
unsigned char *m = test_xof_shake256_m;
unsigned char *h2 = test_xof_shake256_h2;
unsigned char *m2 = test_xof_shake256_m2;
long long hlen;
long long mlen;
if (targeti && strcmp(targeti,".") && strcmp(targeti,mceliece_dispatch_xof_shake256_implementation(impl))) return;
if (targetn && atol(targetn) != impl) return;
if (impl >= 0) {
crypto_xof = mceliece_dispatch_xof_shake256(impl);
printf("xof_shake256 %lld implementation %s compiler %s\n",impl,mceliece_dispatch_xof_shake256_implementation(impl),mceliece_dispatch_xof_shake256_compiler(impl));
} else {
crypto_xof = mceliece_xof_shake256;
printf("xof_shake256 selected implementation %s compiler %s\n",mceliece_xof_shake256_implementation(),mceliece_xof_shake256_compiler());
}
for (long long checksumbig = 0;checksumbig < 2;++checksumbig) {
long long loops = checksumbig ? 512 : 64;
long long maxtest = checksumbig ? 16384 : 128;
checksum_clear();
for (long long loop = 0;loop < loops;++loop) {
mlen = myrandom() % (maxtest + 1);
hlen = myrandom() % (maxtest + 1);
output_prepare(h2,h,hlen);
input_prepare(m2,m,mlen);
secret(m,mlen);
crypto_xof(h,hlen,m,mlen);
public(m,mlen);
public(h,hlen);
checksum(h,hlen);
output_compare(h2,h,hlen,"crypto_xof");
input_compare(m2,m,mlen,"crypto_xof");
double_canary(h2,h,hlen);
double_canary(m2,m,mlen);
secret(m2,mlen);
crypto_xof(h2,hlen,m2,mlen);
public(m2,mlen);
public(h2,hlen);
if (memcmp(h2,h,hlen) != 0) fail("failure: crypto_xof is nondeterministic\n");
double_canary(h2,h,hlen);
double_canary(m2,m,mlen);
secret(m2,mlen);
crypto_xof(m2,hlen,m2,mlen);
public(m2,hlen);
if (memcmp(m2,h,hlen) != 0) fail("failure: crypto_xof does not handle m=h overlap\n");
memcpy(m2,m,mlen);
}
checksum_expected(xof_shake256_checksums[checksumbig]);
}
}
static void test_xof_shake256(void)
{
if (targeto && strcmp(targeto,"xof")) return;
if (targetp && strcmp(targetp,"shake256")) return;
storage_xof_shake256_h = callocplus(16384);
test_xof_shake256_h = aligned(storage_xof_shake256_h,16384);
storage_xof_shake256_m = callocplus(16384);
test_xof_shake256_m = aligned(storage_xof_shake256_m,16384);
storage_xof_shake256_h2 = callocplus(16384);
test_xof_shake256_h2 = aligned(storage_xof_shake256_h2,16384);
storage_xof_shake256_m2 = callocplus(16384);
test_xof_shake256_m2 = aligned(storage_xof_shake256_m2,16384);
for (long long offset = 0;offset < 2;++offset) {
if (targetoffset && atol(targetoffset) != offset) continue;
if (offset && valgrind) break;
printf("xof_shake256 offset %lld\n",offset);
for (long long impl = -1;impl < mceliece_numimpl_xof_shake256();++impl)
forked(test_xof_shake256_impl,impl);
++test_xof_shake256_h;
++test_xof_shake256_m;
++test_xof_shake256_h2;
++test_xof_shake256_m2;
}
free(storage_xof_shake256_m2);
free(storage_xof_shake256_h2);
free(storage_xof_shake256_m);
free(storage_xof_shake256_h);
}
static const char *xof_bitwrite16_checksums[] = {
"2a0c679fd13fe74f21610d5377326b5089346cb6b24dbd4524f1dbd357d57180",
"375a8005efef8dda9b2277c93b8ef7e099acfd82df96f458f01d51b702846dd3",
} ;
static void (*crypto_xof)(unsigned char *,long long,const unsigned char *,long long);
static void *storage_xof_bitwrite16_h;
static unsigned char *test_xof_bitwrite16_h;
static void *storage_xof_bitwrite16_m;
static unsigned char *test_xof_bitwrite16_m;
static void *storage_xof_bitwrite16_h2;
static unsigned char *test_xof_bitwrite16_h2;
static void *storage_xof_bitwrite16_m2;
static unsigned char *test_xof_bitwrite16_m2;
static void test_xof_bitwrite16_impl(long long impl)
{
unsigned char *h = test_xof_bitwrite16_h;
unsigned char *m = test_xof_bitwrite16_m;
unsigned char *h2 = test_xof_bitwrite16_h2;
unsigned char *m2 = test_xof_bitwrite16_m2;
long long hlen;
long long mlen;
if (targeti && strcmp(targeti,".") && strcmp(targeti,mceliece_dispatch_xof_bitwrite16_implementation(impl))) return;
if (targetn && atol(targetn) != impl) return;
if (impl >= 0) {
crypto_xof = mceliece_dispatch_xof_bitwrite16(impl);
printf("xof_bitwrite16 %lld implementation %s compiler %s\n",impl,mceliece_dispatch_xof_bitwrite16_implementation(impl),mceliece_dispatch_xof_bitwrite16_compiler(impl));
} else {
crypto_xof = mceliece_xof_bitwrite16;
printf("xof_bitwrite16 selected implementation %s compiler %s\n",mceliece_xof_bitwrite16_implementation(),mceliece_xof_bitwrite16_compiler());
}
for (long long checksumbig = 0;checksumbig < 2;++checksumbig) {
long long loops = checksumbig ? 512 : 64;
long long maxtest = checksumbig ? 16384 : 128;
checksum_clear();
for (long long loop = 0;loop < loops;++loop) {
mlen = myrandom() % (maxtest + 1);
hlen = myrandom() % (maxtest + 1);
output_prepare(h2,h,hlen);
input_prepare(m2,m,mlen);
secret(m,mlen);
crypto_xof(h,hlen,m,mlen);
public(m,mlen);
public(h,hlen);
checksum(h,hlen);
output_compare(h2,h,hlen,"crypto_xof");
input_compare(m2,m,mlen,"crypto_xof");
double_canary(h2,h,hlen);
double_canary(m2,m,mlen);
secret(m2,mlen);
crypto_xof(h2,hlen,m2,mlen);
public(m2,mlen);
public(h2,hlen);
if (memcmp(h2,h,hlen) != 0) fail("failure: crypto_xof is nondeterministic\n");
}
checksum_expected(xof_bitwrite16_checksums[checksumbig]);
}
}
static void test_xof_bitwrite16(void)
{
if (targeto && strcmp(targeto,"xof")) return;
if (targetp && strcmp(targetp,"bitwrite16")) return;
storage_xof_bitwrite16_h = callocplus(16384);
test_xof_bitwrite16_h = aligned(storage_xof_bitwrite16_h,16384);
storage_xof_bitwrite16_m = callocplus(16384);
test_xof_bitwrite16_m = aligned(storage_xof_bitwrite16_m,16384);
storage_xof_bitwrite16_h2 = callocplus(16384);
test_xof_bitwrite16_h2 = aligned(storage_xof_bitwrite16_h2,16384);
storage_xof_bitwrite16_m2 = callocplus(16384);
test_xof_bitwrite16_m2 = aligned(storage_xof_bitwrite16_m2,16384);
for (long long offset = 0;offset < 2;++offset) {
if (targetoffset && atol(targetoffset) != offset) continue;
if (offset && valgrind) break;
printf("xof_bitwrite16 offset %lld\n",offset);
for (long long impl = -1;impl < mceliece_numimpl_xof_bitwrite16();++impl)
forked(test_xof_bitwrite16_impl,impl);
++test_xof_bitwrite16_h;
++test_xof_bitwrite16_m;
++test_xof_bitwrite16_h2;
++test_xof_bitwrite16_m2;
}
free(storage_xof_bitwrite16_m2);
free(storage_xof_bitwrite16_h2);
free(storage_xof_bitwrite16_m);
free(storage_xof_bitwrite16_h);
}
/* ----- sort, derived from supercop/crypto_sort/try.c */
static const char *sort_int16_checksums[] = {
"c336250bfe2501656d9ec94ce340ebeb7d3001436df73d161d4683ae4e9b9999",
"2d0c1a7bea57b0255f5bc367be6003fb8d6ecb750ee9d81fe8820d9c0de30bdb",
} ;
static void (*crypto_sort)(void *,long long);
#define crypto_sort_BYTES mceliece_sort_int16_BYTES
static void *storage_sort_int16_x;
static unsigned char *test_sort_int16_x;
static void *storage_sort_int16_x2;
static unsigned char *test_sort_int16_x2;
static void test_sort_int16_impl(long long impl)
{
unsigned char *x = test_sort_int16_x;
unsigned char *x2 = test_sort_int16_x2;
long long xlen;
long long xwords;
if (targeti && strcmp(targeti,".") && strcmp(targeti,mceliece_dispatch_sort_int16_implementation(impl))) return;
if (targetn && atol(targetn) != impl) return;
if (impl >= 0) {
crypto_sort = mceliece_dispatch_sort_int16(impl);
printf("sort_int16 %lld implementation %s compiler %s\n",impl,mceliece_dispatch_sort_int16_implementation(impl),mceliece_dispatch_sort_int16_compiler(impl));
} else {
crypto_sort = mceliece_sort_int16;
printf("sort_int16 selected implementation %s compiler %s\n",mceliece_sort_int16_implementation(),mceliece_sort_int16_compiler());
}
for (long long checksumbig = 0;checksumbig < 2;++checksumbig) {
long long loops = checksumbig ? 4096 : 1024;
long long maxtest = checksumbig ? 4096 : 128;
checksum_clear();
for (long long loop = 0;loop < loops;++loop) {
xwords = myrandom() % (maxtest + 1);
xlen = mceliece_sort_int16_BYTES*xwords;
input_prepare(x2,x,xlen);
endianness(x,xwords,mceliece_sort_int16_BYTES);
secret(x,xlen);
crypto_sort(x,xwords);
public(x,xlen);
endianness(x,xwords,mceliece_sort_int16_BYTES);
checksum(x,xlen);
output_compare(x2,x,xlen,"crypto_sort");
double_canary(x2,x,xlen);
endianness(x2,xwords,mceliece_sort_int16_BYTES);
secret(x2,xlen);
crypto_sort(x2,xwords);
public(x2,xlen);
endianness(x2,xwords,mceliece_sort_int16_BYTES);
if (memcmp(x2,x,xlen) != 0) fail("failure: crypto_sort is nondeterministic\n");
}
checksum_expected(sort_int16_checksums[checksumbig]);
}
}
static void test_sort_int16(void)
{
if (targeto && strcmp(targeto,"sort")) return;
if (targetp && strcmp(targetp,"int16")) return;
storage_sort_int16_x = callocplus(mceliece_sort_int16_BYTES*4096);
test_sort_int16_x = aligned(storage_sort_int16_x,mceliece_sort_int16_BYTES*4096);
storage_sort_int16_x2 = callocplus(mceliece_sort_int16_BYTES*4096);
test_sort_int16_x2 = aligned(storage_sort_int16_x2,mceliece_sort_int16_BYTES*4096);
for (long long offset = 0;offset < 1;++offset) {
if (targetoffset && atol(targetoffset) != offset) continue;
if (offset && valgrind) break;
printf("sort_int16 offset %lld\n",offset);
for (long long impl = -1;impl < mceliece_numimpl_sort_int16();++impl)
forked(test_sort_int16_impl,impl);
++test_sort_int16_x;
++test_sort_int16_x2;
}
free(storage_sort_int16_x2);
free(storage_sort_int16_x);
}
#undef crypto_sort_BYTES
static const char *sort_int32_checksums[] = {
"3458da92fdba9924c019db57dd7079f7613df0e243f3b312d10d94781af8c29a",
"7265f7d8ed54b4a3bd12db9648e246615363373e7044c8d1b7c789ebfc177629",
} ;
static void (*crypto_sort)(void *,long long);
#define crypto_sort_BYTES mceliece_sort_int32_BYTES
static void *storage_sort_int32_x;
static unsigned char *test_sort_int32_x;
static void *storage_sort_int32_x2;
static unsigned char *test_sort_int32_x2;
static void test_sort_int32_impl(long long impl)
{
unsigned char *x = test_sort_int32_x;
unsigned char *x2 = test_sort_int32_x2;
long long xlen;
long long xwords;
if (targeti && strcmp(targeti,".") && strcmp(targeti,mceliece_dispatch_sort_int32_implementation(impl))) return;
if (targetn && atol(targetn) != impl) return;
if (impl >= 0) {
crypto_sort = mceliece_dispatch_sort_int32(impl);
printf("sort_int32 %lld implementation %s compiler %s\n",impl,mceliece_dispatch_sort_int32_implementation(impl),mceliece_dispatch_sort_int32_compiler(impl));
} else {
crypto_sort = mceliece_sort_int32;
printf("sort_int32 selected implementation %s compiler %s\n",mceliece_sort_int32_implementation(),mceliece_sort_int32_compiler());
}
for (long long checksumbig = 0;checksumbig < 2;++checksumbig) {
long long loops = checksumbig ? 4096 : 1024;
long long maxtest = checksumbig ? 4096 : 128;
checksum_clear();
for (long long loop = 0;loop < loops;++loop) {
xwords = myrandom() % (maxtest + 1);
xlen = mceliece_sort_int32_BYTES*xwords;
input_prepare(x2,x,xlen);
endianness(x,xwords,mceliece_sort_int32_BYTES);
secret(x,xlen);
crypto_sort(x,xwords);
public(x,xlen);
endianness(x,xwords,mceliece_sort_int32_BYTES);
checksum(x,xlen);
output_compare(x2,x,xlen,"crypto_sort");
double_canary(x2,x,xlen);
endianness(x2,xwords,mceliece_sort_int32_BYTES);
secret(x2,xlen);
crypto_sort(x2,xwords);
public(x2,xlen);
endianness(x2,xwords,mceliece_sort_int32_BYTES);
if (memcmp(x2,x,xlen) != 0) fail("failure: crypto_sort is nondeterministic\n");
}
checksum_expected(sort_int32_checksums[checksumbig]);
}
}
static void test_sort_int32(void)
{
if (targeto && strcmp(targeto,"sort")) return;
if (targetp && strcmp(targetp,"int32")) return;
storage_sort_int32_x = callocplus(mceliece_sort_int32_BYTES*4096);
test_sort_int32_x = aligned(storage_sort_int32_x,mceliece_sort_int32_BYTES*4096);
storage_sort_int32_x2 = callocplus(mceliece_sort_int32_BYTES*4096);
test_sort_int32_x2 = aligned(storage_sort_int32_x2,mceliece_sort_int32_BYTES*4096);
for (long long offset = 0;offset < 1;++offset) {
if (targetoffset && atol(targetoffset) != offset) continue;
if (offset && valgrind) break;
printf("sort_int32 offset %lld\n",offset);
for (long long impl = -1;impl < mceliece_numimpl_sort_int32();++impl)
forked(test_sort_int32_impl,impl);
++test_sort_int32_x;
++test_sort_int32_x2;
}
free(storage_sort_int32_x2);
free(storage_sort_int32_x);
}
#undef crypto_sort_BYTES
static const char *sort_int64_checksums[] = {
"5c055d5c5a05b83d1b01d9cad686c795c3424feb62506188c95630211690fa67",
"517b3da4601c76eab1e2efba97b81ba49742c2011746be3241475caab159bdbb",
} ;
static void (*crypto_sort)(void *,long long);
#define crypto_sort_BYTES mceliece_sort_int64_BYTES
static void *storage_sort_int64_x;
static unsigned char *test_sort_int64_x;
static void *storage_sort_int64_x2;
static unsigned char *test_sort_int64_x2;
static void test_sort_int64_impl(long long impl)
{
unsigned char *x = test_sort_int64_x;
unsigned char *x2 = test_sort_int64_x2;
long long xlen;
long long xwords;
if (targeti && strcmp(targeti,".") && strcmp(targeti,mceliece_dispatch_sort_int64_implementation(impl))) return;
if (targetn && atol(targetn) != impl) return;
if (impl >= 0) {
crypto_sort = mceliece_dispatch_sort_int64(impl);
printf("sort_int64 %lld implementation %s compiler %s\n",impl,mceliece_dispatch_sort_int64_implementation(impl),mceliece_dispatch_sort_int64_compiler(impl));
} else {
crypto_sort = mceliece_sort_int64;
printf("sort_int64 selected implementation %s compiler %s\n",mceliece_sort_int64_implementation(),mceliece_sort_int64_compiler());
}
for (long long checksumbig = 0;checksumbig < 2;++checksumbig) {
long long loops = checksumbig ? 4096 : 1024;
long long maxtest = checksumbig ? 4096 : 128;
checksum_clear();
for (long long loop = 0;loop < loops;++loop) {
xwords = myrandom() % (maxtest + 1);
xlen = mceliece_sort_int64_BYTES*xwords;
input_prepare(x2,x,xlen);
endianness(x,xwords,mceliece_sort_int64_BYTES);
secret(x,xlen);
crypto_sort(x,xwords);
public(x,xlen);
endianness(x,xwords,mceliece_sort_int64_BYTES);
checksum(x,xlen);
output_compare(x2,x,xlen,"crypto_sort");
double_canary(x2,x,xlen);
endianness(x2,xwords,mceliece_sort_int64_BYTES);
secret(x2,xlen);
crypto_sort(x2,xwords);
public(x2,xlen);
endianness(x2,xwords,mceliece_sort_int64_BYTES);
if (memcmp(x2,x,xlen) != 0) fail("failure: crypto_sort is nondeterministic\n");
}
checksum_expected(sort_int64_checksums[checksumbig]);
}
}
static void test_sort_int64(void)
{
if (targeto && strcmp(targeto,"sort")) return;
if (targetp && strcmp(targetp,"int64")) return;
storage_sort_int64_x = callocplus(mceliece_sort_int64_BYTES*4096);
test_sort_int64_x = aligned(storage_sort_int64_x,mceliece_sort_int64_BYTES*4096);
storage_sort_int64_x2 = callocplus(mceliece_sort_int64_BYTES*4096);
test_sort_int64_x2 = aligned(storage_sort_int64_x2,mceliece_sort_int64_BYTES*4096);
for (long long offset = 0;offset < 1;++offset) {
if (targetoffset && atol(targetoffset) != offset) continue;
if (offset && valgrind) break;
printf("sort_int64 offset %lld\n",offset);
for (long long impl = -1;impl < mceliece_numimpl_sort_int64();++impl)
forked(test_sort_int64_impl,impl);
++test_sort_int64_x;
++test_sort_int64_x2;
}
free(storage_sort_int64_x2);
free(storage_sort_int64_x);
}
#undef crypto_sort_BYTES
/* ----- kem, derived from supercop/crypto_kem/try.c */
static const char *kem_6960119_checksums[] = {
"008c0538526a1c037e64f0543628b312a71e879c1f882f65493fd0d3a225d5d8",
"15c6727d4f4867487a54bbb208c06c1142a56a7937d7b598c05f63801cbdd277",
} ;
static void (*crypto_kem_keypair)(unsigned char *,unsigned char *);
static int (*crypto_kem_enc)(unsigned char *,unsigned char *,const unsigned char *);
static int (*crypto_kem_dec)(unsigned char *,const unsigned char *,const unsigned char *);
#define crypto_kem_PUBLICKEYBYTES mceliece_kem_6960119_PUBLICKEYBYTES
#define crypto_kem_SECRETKEYBYTES mceliece_kem_6960119_SECRETKEYBYTES
#define crypto_kem_CIPHERTEXTBYTES mceliece_kem_6960119_CIPHERTEXTBYTES
#define crypto_kem_BYTES mceliece_kem_6960119_BYTES
static void *storage_kem_6960119_p;
static unsigned char *test_kem_6960119_p;
static void *storage_kem_6960119_s;
static unsigned char *test_kem_6960119_s;
static void *storage_kem_6960119_k;
static unsigned char *test_kem_6960119_k;
static void *storage_kem_6960119_c;
static unsigned char *test_kem_6960119_c;
static void *storage_kem_6960119_t;
static unsigned char *test_kem_6960119_t;
static void *storage_kem_6960119_p2;
static unsigned char *test_kem_6960119_p2;
static void *storage_kem_6960119_s2;
static unsigned char *test_kem_6960119_s2;
static void *storage_kem_6960119_k2;
static unsigned char *test_kem_6960119_k2;
static void *storage_kem_6960119_c2;
static unsigned char *test_kem_6960119_c2;
static void *storage_kem_6960119_t2;
static unsigned char *test_kem_6960119_t2;
static void test_kem_6960119_impl(long long impl)
{
unsigned char *p = test_kem_6960119_p;
unsigned char *s = test_kem_6960119_s;
unsigned char *k = test_kem_6960119_k;
unsigned char *c = test_kem_6960119_c;
unsigned char *t = test_kem_6960119_t;
unsigned char *p2 = test_kem_6960119_p2;
unsigned char *s2 = test_kem_6960119_s2;
unsigned char *k2 = test_kem_6960119_k2;
unsigned char *c2 = test_kem_6960119_c2;
unsigned char *t2 = test_kem_6960119_t2;
long long plen = crypto_kem_PUBLICKEYBYTES;
long long slen = crypto_kem_SECRETKEYBYTES;
long long klen = crypto_kem_BYTES;
long long clen = crypto_kem_CIPHERTEXTBYTES;
long long tlen = crypto_kem_BYTES;
if (targeti && strcmp(targeti,".") && strcmp(targeti,mceliece_dispatch_kem_6960119_implementation(impl))) return;
if (targetn && atol(targetn) != impl) return;
if (impl >= 0) {
crypto_kem_keypair = mceliece_dispatch_kem_6960119_keypair(impl);
crypto_kem_enc = mceliece_dispatch_kem_6960119_enc(impl);
crypto_kem_dec = mceliece_dispatch_kem_6960119_dec(impl);
printf("kem_6960119 %lld implementation %s compiler %s\n",impl,mceliece_dispatch_kem_6960119_implementation(impl),mceliece_dispatch_kem_6960119_compiler(impl));
} else {
crypto_kem_keypair = mceliece_kem_6960119_keypair;
crypto_kem_enc = mceliece_kem_6960119_enc;
crypto_kem_dec = mceliece_kem_6960119_dec;
printf("kem_6960119 selected implementation %s compiler %s\n",mceliece_kem_6960119_implementation(),mceliece_kem_6960119_compiler());
}
for (long long checksumbig = 0;checksumbig < 2;++checksumbig) {
long long loops = checksumbig ? 64 : 8;
checksum_clear();
for (long long loop = 0;loop < loops;++loop) {
int result;
output_prepare(p2,p,plen);
output_prepare(s2,s,slen);
crypto_kem_keypair(p,s);
public(p,plen);
public(s,slen);
checksum(p,plen);
checksum(s,slen);
output_compare(p2,p,plen,"crypto_kem_keypair");
output_compare(s2,s,slen,"crypto_kem_keypair");
output_prepare(c2,c,clen);
output_prepare(k2,k,klen);
memcpy(p2,p,plen);
double_canary(p2,p,plen);
secret(p,plen);
result = crypto_kem_enc(c,k,p);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_enc returns nonzero\n");
public(p,plen);
public(c,clen);
public(k,klen);
checksum(c,clen);
checksum(k,klen);
output_compare(c2,c,clen,"crypto_kem_enc");
output_compare(k2,k,klen,"crypto_kem_enc");
input_compare(p2,p,plen,"crypto_kem_enc");
output_prepare(t2,t,tlen);
memcpy(c2,c,clen);
double_canary(c2,c,clen);
memcpy(s2,s,slen);
double_canary(s2,s,slen);
secret(c,clen);
secret(s,slen);
result = crypto_kem_dec(t,c,s);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec returns nonzero\n");
public(c,clen);
public(s,slen);
public(t,tlen);
if (memcmp(t,k,klen) != 0) fail("failure: crypto_kem_dec does not match k\n");
checksum(t,tlen);
output_compare(t2,t,tlen,"crypto_kem_dec");
input_compare(c2,c,clen,"crypto_kem_dec");
input_compare(s2,s,slen,"crypto_kem_dec");
double_canary(t2,t,tlen);
double_canary(c2,c,clen);
double_canary(s2,s,slen);
secret(c2,clen);
secret(s2,slen);
result = crypto_kem_dec(t2,c2,s2);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec returns nonzero\n");
public(c2,clen);
public(s2,slen);
public(t2,tlen);
if (memcmp(t2,t,tlen) != 0) fail("failure: crypto_kem_dec is nondeterministic\n");
double_canary(t2,t,tlen);
double_canary(c2,c,clen);
double_canary(s2,s,slen);
secret(c2,clen);
secret(s,slen);
result = crypto_kem_dec(c2,c2,s);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec with c=t overlap returns nonzero\n");
public(c2,tlen);
public(s,slen);
if (memcmp(c2,t,tlen) != 0) fail("failure: crypto_kem_dec does not handle c=t overlap\n");
memcpy(c2,c,clen);
secret(c,clen);
secret(s2,slen);
result = crypto_kem_dec(s2,c,s2);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec with s=t overlap returns nonzero\n");
public(s2,tlen);
public(c,clen);
if (memcmp(s2,t,tlen) != 0) fail("failure: crypto_kem_dec does not handle s=t overlap\n");
memcpy(s2,s,slen);
c[myrandom() % clen] += 1 + (myrandom() % 255);
if (crypto_kem_dec(t,c,s) == 0)
checksum(t,tlen);
else
checksum(c,clen);
c[myrandom() % clen] += 1 + (myrandom() % 255);
if (crypto_kem_dec(t,c,s) == 0)
checksum(t,tlen);
else
checksum(c,clen);
c[myrandom() % clen] += 1 + (myrandom() % 255);
if (crypto_kem_dec(t,c,s) == 0)
checksum(t,tlen);
else
checksum(c,clen);
}
checksum_expected(kem_6960119_checksums[checksumbig]);
}
}
static void test_kem_6960119(void)
{
if (targeto && strcmp(targeto,"kem")) return;
if (targetp && strcmp(targetp,"6960119")) return;
storage_kem_6960119_p = callocplus(crypto_kem_PUBLICKEYBYTES);
test_kem_6960119_p = aligned(storage_kem_6960119_p,crypto_kem_PUBLICKEYBYTES);
storage_kem_6960119_s = callocplus(crypto_kem_SECRETKEYBYTES);
test_kem_6960119_s = aligned(storage_kem_6960119_s,crypto_kem_SECRETKEYBYTES);
storage_kem_6960119_k = callocplus(crypto_kem_BYTES);
test_kem_6960119_k = aligned(storage_kem_6960119_k,crypto_kem_BYTES);
storage_kem_6960119_c = callocplus(crypto_kem_CIPHERTEXTBYTES);
test_kem_6960119_c = aligned(storage_kem_6960119_c,crypto_kem_CIPHERTEXTBYTES);
storage_kem_6960119_t = callocplus(crypto_kem_BYTES);
test_kem_6960119_t = aligned(storage_kem_6960119_t,crypto_kem_BYTES);
storage_kem_6960119_p2 = callocplus(crypto_kem_PUBLICKEYBYTES);
test_kem_6960119_p2 = aligned(storage_kem_6960119_p2,crypto_kem_PUBLICKEYBYTES);
storage_kem_6960119_s2 = callocplus(crypto_kem_SECRETKEYBYTES);
test_kem_6960119_s2 = aligned(storage_kem_6960119_s2,crypto_kem_SECRETKEYBYTES);
storage_kem_6960119_k2 = callocplus(crypto_kem_BYTES);
test_kem_6960119_k2 = aligned(storage_kem_6960119_k2,crypto_kem_BYTES);
storage_kem_6960119_c2 = callocplus(crypto_kem_CIPHERTEXTBYTES);
test_kem_6960119_c2 = aligned(storage_kem_6960119_c2,crypto_kem_CIPHERTEXTBYTES);
storage_kem_6960119_t2 = callocplus(crypto_kem_BYTES);
test_kem_6960119_t2 = aligned(storage_kem_6960119_t2,crypto_kem_BYTES);
for (long long offset = 0;offset < 2;++offset) {
if (targetoffset && atol(targetoffset) != offset) continue;
if (offset && valgrind) break;
printf("kem_6960119 offset %lld\n",offset);
for (long long impl = -1;impl < mceliece_numimpl_kem_6960119();++impl)
forked(test_kem_6960119_impl,impl);
++test_kem_6960119_p;
++test_kem_6960119_s;
++test_kem_6960119_k;
++test_kem_6960119_c;
++test_kem_6960119_t;
++test_kem_6960119_p2;
++test_kem_6960119_s2;
++test_kem_6960119_k2;
++test_kem_6960119_c2;
++test_kem_6960119_t2;
}
free(storage_kem_6960119_t2);
free(storage_kem_6960119_c2);
free(storage_kem_6960119_k2);
free(storage_kem_6960119_s2);
free(storage_kem_6960119_p2);
free(storage_kem_6960119_t);
free(storage_kem_6960119_c);
free(storage_kem_6960119_k);
free(storage_kem_6960119_s);
free(storage_kem_6960119_p);
}
#undef crypto_kem_PUBLICKEYBYTES
#undef crypto_kem_SECRETKEYBYTES
#undef crypto_kem_CIPHERTEXTBYTES
#undef crypto_kem_BYTES
static const char *kem_6960119f_checksums[] = {
"8d0f85c0ffa074aff7cf1c5d2f8a048174de4ee62a74556e04e8da326e8b640d",
"d62841358b16796439c261003bae87733ef9889374061bce0a261f80b072861f",
} ;
static void (*crypto_kem_keypair)(unsigned char *,unsigned char *);
static int (*crypto_kem_enc)(unsigned char *,unsigned char *,const unsigned char *);
static int (*crypto_kem_dec)(unsigned char *,const unsigned char *,const unsigned char *);
#define crypto_kem_PUBLICKEYBYTES mceliece_kem_6960119f_PUBLICKEYBYTES
#define crypto_kem_SECRETKEYBYTES mceliece_kem_6960119f_SECRETKEYBYTES
#define crypto_kem_CIPHERTEXTBYTES mceliece_kem_6960119f_CIPHERTEXTBYTES
#define crypto_kem_BYTES mceliece_kem_6960119f_BYTES
static void *storage_kem_6960119f_p;
static unsigned char *test_kem_6960119f_p;
static void *storage_kem_6960119f_s;
static unsigned char *test_kem_6960119f_s;
static void *storage_kem_6960119f_k;
static unsigned char *test_kem_6960119f_k;
static void *storage_kem_6960119f_c;
static unsigned char *test_kem_6960119f_c;
static void *storage_kem_6960119f_t;
static unsigned char *test_kem_6960119f_t;
static void *storage_kem_6960119f_p2;
static unsigned char *test_kem_6960119f_p2;
static void *storage_kem_6960119f_s2;
static unsigned char *test_kem_6960119f_s2;
static void *storage_kem_6960119f_k2;
static unsigned char *test_kem_6960119f_k2;
static void *storage_kem_6960119f_c2;
static unsigned char *test_kem_6960119f_c2;
static void *storage_kem_6960119f_t2;
static unsigned char *test_kem_6960119f_t2;
static void test_kem_6960119f_impl(long long impl)
{
unsigned char *p = test_kem_6960119f_p;
unsigned char *s = test_kem_6960119f_s;
unsigned char *k = test_kem_6960119f_k;
unsigned char *c = test_kem_6960119f_c;
unsigned char *t = test_kem_6960119f_t;
unsigned char *p2 = test_kem_6960119f_p2;
unsigned char *s2 = test_kem_6960119f_s2;
unsigned char *k2 = test_kem_6960119f_k2;
unsigned char *c2 = test_kem_6960119f_c2;
unsigned char *t2 = test_kem_6960119f_t2;
long long plen = crypto_kem_PUBLICKEYBYTES;
long long slen = crypto_kem_SECRETKEYBYTES;
long long klen = crypto_kem_BYTES;
long long clen = crypto_kem_CIPHERTEXTBYTES;
long long tlen = crypto_kem_BYTES;
if (targeti && strcmp(targeti,".") && strcmp(targeti,mceliece_dispatch_kem_6960119f_implementation(impl))) return;
if (targetn && atol(targetn) != impl) return;
if (impl >= 0) {
crypto_kem_keypair = mceliece_dispatch_kem_6960119f_keypair(impl);
crypto_kem_enc = mceliece_dispatch_kem_6960119f_enc(impl);
crypto_kem_dec = mceliece_dispatch_kem_6960119f_dec(impl);
printf("kem_6960119f %lld implementation %s compiler %s\n",impl,mceliece_dispatch_kem_6960119f_implementation(impl),mceliece_dispatch_kem_6960119f_compiler(impl));
} else {
crypto_kem_keypair = mceliece_kem_6960119f_keypair;
crypto_kem_enc = mceliece_kem_6960119f_enc;
crypto_kem_dec = mceliece_kem_6960119f_dec;
printf("kem_6960119f selected implementation %s compiler %s\n",mceliece_kem_6960119f_implementation(),mceliece_kem_6960119f_compiler());
}
for (long long checksumbig = 0;checksumbig < 2;++checksumbig) {
long long loops = checksumbig ? 64 : 8;
checksum_clear();
for (long long loop = 0;loop < loops;++loop) {
int result;
output_prepare(p2,p,plen);
output_prepare(s2,s,slen);
crypto_kem_keypair(p,s);
public(p,plen);
public(s,slen);
checksum(p,plen);
checksum(s,slen);
output_compare(p2,p,plen,"crypto_kem_keypair");
output_compare(s2,s,slen,"crypto_kem_keypair");
output_prepare(c2,c,clen);
output_prepare(k2,k,klen);
memcpy(p2,p,plen);
double_canary(p2,p,plen);
secret(p,plen);
result = crypto_kem_enc(c,k,p);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_enc returns nonzero\n");
public(p,plen);
public(c,clen);
public(k,klen);
checksum(c,clen);
checksum(k,klen);
output_compare(c2,c,clen,"crypto_kem_enc");
output_compare(k2,k,klen,"crypto_kem_enc");
input_compare(p2,p,plen,"crypto_kem_enc");
output_prepare(t2,t,tlen);
memcpy(c2,c,clen);
double_canary(c2,c,clen);
memcpy(s2,s,slen);
double_canary(s2,s,slen);
secret(c,clen);
secret(s,slen);
result = crypto_kem_dec(t,c,s);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec returns nonzero\n");
public(c,clen);
public(s,slen);
public(t,tlen);
if (memcmp(t,k,klen) != 0) fail("failure: crypto_kem_dec does not match k\n");
checksum(t,tlen);
output_compare(t2,t,tlen,"crypto_kem_dec");
input_compare(c2,c,clen,"crypto_kem_dec");
input_compare(s2,s,slen,"crypto_kem_dec");
double_canary(t2,t,tlen);
double_canary(c2,c,clen);
double_canary(s2,s,slen);
secret(c2,clen);
secret(s2,slen);
result = crypto_kem_dec(t2,c2,s2);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec returns nonzero\n");
public(c2,clen);
public(s2,slen);
public(t2,tlen);
if (memcmp(t2,t,tlen) != 0) fail("failure: crypto_kem_dec is nondeterministic\n");
double_canary(t2,t,tlen);
double_canary(c2,c,clen);
double_canary(s2,s,slen);
secret(c2,clen);
secret(s,slen);
result = crypto_kem_dec(c2,c2,s);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec with c=t overlap returns nonzero\n");
public(c2,tlen);
public(s,slen);
if (memcmp(c2,t,tlen) != 0) fail("failure: crypto_kem_dec does not handle c=t overlap\n");
memcpy(c2,c,clen);
secret(c,clen);
secret(s2,slen);
result = crypto_kem_dec(s2,c,s2);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec with s=t overlap returns nonzero\n");
public(s2,tlen);
public(c,clen);
if (memcmp(s2,t,tlen) != 0) fail("failure: crypto_kem_dec does not handle s=t overlap\n");
memcpy(s2,s,slen);
c[myrandom() % clen] += 1 + (myrandom() % 255);
if (crypto_kem_dec(t,c,s) == 0)
checksum(t,tlen);
else
checksum(c,clen);
c[myrandom() % clen] += 1 + (myrandom() % 255);
if (crypto_kem_dec(t,c,s) == 0)
checksum(t,tlen);
else
checksum(c,clen);
c[myrandom() % clen] += 1 + (myrandom() % 255);
if (crypto_kem_dec(t,c,s) == 0)
checksum(t,tlen);
else
checksum(c,clen);
}
checksum_expected(kem_6960119f_checksums[checksumbig]);
}
}
static void test_kem_6960119f(void)
{
if (targeto && strcmp(targeto,"kem")) return;
if (targetp && strcmp(targetp,"6960119f")) return;
storage_kem_6960119f_p = callocplus(crypto_kem_PUBLICKEYBYTES);
test_kem_6960119f_p = aligned(storage_kem_6960119f_p,crypto_kem_PUBLICKEYBYTES);
storage_kem_6960119f_s = callocplus(crypto_kem_SECRETKEYBYTES);
test_kem_6960119f_s = aligned(storage_kem_6960119f_s,crypto_kem_SECRETKEYBYTES);
storage_kem_6960119f_k = callocplus(crypto_kem_BYTES);
test_kem_6960119f_k = aligned(storage_kem_6960119f_k,crypto_kem_BYTES);
storage_kem_6960119f_c = callocplus(crypto_kem_CIPHERTEXTBYTES);
test_kem_6960119f_c = aligned(storage_kem_6960119f_c,crypto_kem_CIPHERTEXTBYTES);
storage_kem_6960119f_t = callocplus(crypto_kem_BYTES);
test_kem_6960119f_t = aligned(storage_kem_6960119f_t,crypto_kem_BYTES);
storage_kem_6960119f_p2 = callocplus(crypto_kem_PUBLICKEYBYTES);
test_kem_6960119f_p2 = aligned(storage_kem_6960119f_p2,crypto_kem_PUBLICKEYBYTES);
storage_kem_6960119f_s2 = callocplus(crypto_kem_SECRETKEYBYTES);
test_kem_6960119f_s2 = aligned(storage_kem_6960119f_s2,crypto_kem_SECRETKEYBYTES);
storage_kem_6960119f_k2 = callocplus(crypto_kem_BYTES);
test_kem_6960119f_k2 = aligned(storage_kem_6960119f_k2,crypto_kem_BYTES);
storage_kem_6960119f_c2 = callocplus(crypto_kem_CIPHERTEXTBYTES);
test_kem_6960119f_c2 = aligned(storage_kem_6960119f_c2,crypto_kem_CIPHERTEXTBYTES);
storage_kem_6960119f_t2 = callocplus(crypto_kem_BYTES);
test_kem_6960119f_t2 = aligned(storage_kem_6960119f_t2,crypto_kem_BYTES);
for (long long offset = 0;offset < 2;++offset) {
if (targetoffset && atol(targetoffset) != offset) continue;
if (offset && valgrind) break;
printf("kem_6960119f offset %lld\n",offset);
for (long long impl = -1;impl < mceliece_numimpl_kem_6960119f();++impl)
forked(test_kem_6960119f_impl,impl);
++test_kem_6960119f_p;
++test_kem_6960119f_s;
++test_kem_6960119f_k;
++test_kem_6960119f_c;
++test_kem_6960119f_t;
++test_kem_6960119f_p2;
++test_kem_6960119f_s2;
++test_kem_6960119f_k2;
++test_kem_6960119f_c2;
++test_kem_6960119f_t2;
}
free(storage_kem_6960119f_t2);
free(storage_kem_6960119f_c2);
free(storage_kem_6960119f_k2);
free(storage_kem_6960119f_s2);
free(storage_kem_6960119f_p2);
free(storage_kem_6960119f_t);
free(storage_kem_6960119f_c);
free(storage_kem_6960119f_k);
free(storage_kem_6960119f_s);
free(storage_kem_6960119f_p);
}
#undef crypto_kem_PUBLICKEYBYTES
#undef crypto_kem_SECRETKEYBYTES
#undef crypto_kem_CIPHERTEXTBYTES
#undef crypto_kem_BYTES
static const char *kem_6960119pc_checksums[] = {
"f164d7a16ea6175870f34056b211d4d45a2bc95085759e2f688721f3fbf326c8",
"7f2438a79d20ae3b056f2d13bca43ea7c1ba2a2e0535cc35f7016188910a4720",
} ;
static void (*crypto_kem_keypair)(unsigned char *,unsigned char *);
static int (*crypto_kem_enc)(unsigned char *,unsigned char *,const unsigned char *);
static int (*crypto_kem_dec)(unsigned char *,const unsigned char *,const unsigned char *);
#define crypto_kem_PUBLICKEYBYTES mceliece_kem_6960119pc_PUBLICKEYBYTES
#define crypto_kem_SECRETKEYBYTES mceliece_kem_6960119pc_SECRETKEYBYTES
#define crypto_kem_CIPHERTEXTBYTES mceliece_kem_6960119pc_CIPHERTEXTBYTES
#define crypto_kem_BYTES mceliece_kem_6960119pc_BYTES
static void *storage_kem_6960119pc_p;
static unsigned char *test_kem_6960119pc_p;
static void *storage_kem_6960119pc_s;
static unsigned char *test_kem_6960119pc_s;
static void *storage_kem_6960119pc_k;
static unsigned char *test_kem_6960119pc_k;
static void *storage_kem_6960119pc_c;
static unsigned char *test_kem_6960119pc_c;
static void *storage_kem_6960119pc_t;
static unsigned char *test_kem_6960119pc_t;
static void *storage_kem_6960119pc_p2;
static unsigned char *test_kem_6960119pc_p2;
static void *storage_kem_6960119pc_s2;
static unsigned char *test_kem_6960119pc_s2;
static void *storage_kem_6960119pc_k2;
static unsigned char *test_kem_6960119pc_k2;
static void *storage_kem_6960119pc_c2;
static unsigned char *test_kem_6960119pc_c2;
static void *storage_kem_6960119pc_t2;
static unsigned char *test_kem_6960119pc_t2;
static void test_kem_6960119pc_impl(long long impl)
{
unsigned char *p = test_kem_6960119pc_p;
unsigned char *s = test_kem_6960119pc_s;
unsigned char *k = test_kem_6960119pc_k;
unsigned char *c = test_kem_6960119pc_c;
unsigned char *t = test_kem_6960119pc_t;
unsigned char *p2 = test_kem_6960119pc_p2;
unsigned char *s2 = test_kem_6960119pc_s2;
unsigned char *k2 = test_kem_6960119pc_k2;
unsigned char *c2 = test_kem_6960119pc_c2;
unsigned char *t2 = test_kem_6960119pc_t2;
long long plen = crypto_kem_PUBLICKEYBYTES;
long long slen = crypto_kem_SECRETKEYBYTES;
long long klen = crypto_kem_BYTES;
long long clen = crypto_kem_CIPHERTEXTBYTES;
long long tlen = crypto_kem_BYTES;
if (targeti && strcmp(targeti,".") && strcmp(targeti,mceliece_dispatch_kem_6960119pc_implementation(impl))) return;
if (targetn && atol(targetn) != impl) return;
if (impl >= 0) {
crypto_kem_keypair = mceliece_dispatch_kem_6960119pc_keypair(impl);
crypto_kem_enc = mceliece_dispatch_kem_6960119pc_enc(impl);
crypto_kem_dec = mceliece_dispatch_kem_6960119pc_dec(impl);
printf("kem_6960119pc %lld implementation %s compiler %s\n",impl,mceliece_dispatch_kem_6960119pc_implementation(impl),mceliece_dispatch_kem_6960119pc_compiler(impl));
} else {
crypto_kem_keypair = mceliece_kem_6960119pc_keypair;
crypto_kem_enc = mceliece_kem_6960119pc_enc;
crypto_kem_dec = mceliece_kem_6960119pc_dec;
printf("kem_6960119pc selected implementation %s compiler %s\n",mceliece_kem_6960119pc_implementation(),mceliece_kem_6960119pc_compiler());
}
for (long long checksumbig = 0;checksumbig < 2;++checksumbig) {
long long loops = checksumbig ? 64 : 8;
checksum_clear();
for (long long loop = 0;loop < loops;++loop) {
int result;
output_prepare(p2,p,plen);
output_prepare(s2,s,slen);
crypto_kem_keypair(p,s);
public(p,plen);
public(s,slen);
checksum(p,plen);
checksum(s,slen);
output_compare(p2,p,plen,"crypto_kem_keypair");
output_compare(s2,s,slen,"crypto_kem_keypair");
output_prepare(c2,c,clen);
output_prepare(k2,k,klen);
memcpy(p2,p,plen);
double_canary(p2,p,plen);
secret(p,plen);
result = crypto_kem_enc(c,k,p);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_enc returns nonzero\n");
public(p,plen);
public(c,clen);
public(k,klen);
checksum(c,clen);
checksum(k,klen);
output_compare(c2,c,clen,"crypto_kem_enc");
output_compare(k2,k,klen,"crypto_kem_enc");
input_compare(p2,p,plen,"crypto_kem_enc");
output_prepare(t2,t,tlen);
memcpy(c2,c,clen);
double_canary(c2,c,clen);
memcpy(s2,s,slen);
double_canary(s2,s,slen);
secret(c,clen);
secret(s,slen);
result = crypto_kem_dec(t,c,s);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec returns nonzero\n");
public(c,clen);
public(s,slen);
public(t,tlen);
if (memcmp(t,k,klen) != 0) fail("failure: crypto_kem_dec does not match k\n");
checksum(t,tlen);
output_compare(t2,t,tlen,"crypto_kem_dec");
input_compare(c2,c,clen,"crypto_kem_dec");
input_compare(s2,s,slen,"crypto_kem_dec");
double_canary(t2,t,tlen);
double_canary(c2,c,clen);
double_canary(s2,s,slen);
secret(c2,clen);
secret(s2,slen);
result = crypto_kem_dec(t2,c2,s2);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec returns nonzero\n");
public(c2,clen);
public(s2,slen);
public(t2,tlen);
if (memcmp(t2,t,tlen) != 0) fail("failure: crypto_kem_dec is nondeterministic\n");
double_canary(t2,t,tlen);
double_canary(c2,c,clen);
double_canary(s2,s,slen);
secret(c2,clen);
secret(s,slen);
result = crypto_kem_dec(c2,c2,s);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec with c=t overlap returns nonzero\n");
public(c2,tlen);
public(s,slen);
if (memcmp(c2,t,tlen) != 0) fail("failure: crypto_kem_dec does not handle c=t overlap\n");
memcpy(c2,c,clen);
secret(c,clen);
secret(s2,slen);
result = crypto_kem_dec(s2,c,s2);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec with s=t overlap returns nonzero\n");
public(s2,tlen);
public(c,clen);
if (memcmp(s2,t,tlen) != 0) fail("failure: crypto_kem_dec does not handle s=t overlap\n");
memcpy(s2,s,slen);
c[myrandom() % clen] += 1 + (myrandom() % 255);
if (crypto_kem_dec(t,c,s) == 0)
checksum(t,tlen);
else
checksum(c,clen);
c[myrandom() % clen] += 1 + (myrandom() % 255);
if (crypto_kem_dec(t,c,s) == 0)
checksum(t,tlen);
else
checksum(c,clen);
c[myrandom() % clen] += 1 + (myrandom() % 255);
if (crypto_kem_dec(t,c,s) == 0)
checksum(t,tlen);
else
checksum(c,clen);
}
checksum_expected(kem_6960119pc_checksums[checksumbig]);
}
}
static void test_kem_6960119pc(void)
{
if (targeto && strcmp(targeto,"kem")) return;
if (targetp && strcmp(targetp,"6960119pc")) return;
storage_kem_6960119pc_p = callocplus(crypto_kem_PUBLICKEYBYTES);
test_kem_6960119pc_p = aligned(storage_kem_6960119pc_p,crypto_kem_PUBLICKEYBYTES);
storage_kem_6960119pc_s = callocplus(crypto_kem_SECRETKEYBYTES);
test_kem_6960119pc_s = aligned(storage_kem_6960119pc_s,crypto_kem_SECRETKEYBYTES);
storage_kem_6960119pc_k = callocplus(crypto_kem_BYTES);
test_kem_6960119pc_k = aligned(storage_kem_6960119pc_k,crypto_kem_BYTES);
storage_kem_6960119pc_c = callocplus(crypto_kem_CIPHERTEXTBYTES);
test_kem_6960119pc_c = aligned(storage_kem_6960119pc_c,crypto_kem_CIPHERTEXTBYTES);
storage_kem_6960119pc_t = callocplus(crypto_kem_BYTES);
test_kem_6960119pc_t = aligned(storage_kem_6960119pc_t,crypto_kem_BYTES);
storage_kem_6960119pc_p2 = callocplus(crypto_kem_PUBLICKEYBYTES);
test_kem_6960119pc_p2 = aligned(storage_kem_6960119pc_p2,crypto_kem_PUBLICKEYBYTES);
storage_kem_6960119pc_s2 = callocplus(crypto_kem_SECRETKEYBYTES);
test_kem_6960119pc_s2 = aligned(storage_kem_6960119pc_s2,crypto_kem_SECRETKEYBYTES);
storage_kem_6960119pc_k2 = callocplus(crypto_kem_BYTES);
test_kem_6960119pc_k2 = aligned(storage_kem_6960119pc_k2,crypto_kem_BYTES);
storage_kem_6960119pc_c2 = callocplus(crypto_kem_CIPHERTEXTBYTES);
test_kem_6960119pc_c2 = aligned(storage_kem_6960119pc_c2,crypto_kem_CIPHERTEXTBYTES);
storage_kem_6960119pc_t2 = callocplus(crypto_kem_BYTES);
test_kem_6960119pc_t2 = aligned(storage_kem_6960119pc_t2,crypto_kem_BYTES);
for (long long offset = 0;offset < 2;++offset) {
if (targetoffset && atol(targetoffset) != offset) continue;
if (offset && valgrind) break;
printf("kem_6960119pc offset %lld\n",offset);
for (long long impl = -1;impl < mceliece_numimpl_kem_6960119pc();++impl)
forked(test_kem_6960119pc_impl,impl);
++test_kem_6960119pc_p;
++test_kem_6960119pc_s;
++test_kem_6960119pc_k;
++test_kem_6960119pc_c;
++test_kem_6960119pc_t;
++test_kem_6960119pc_p2;
++test_kem_6960119pc_s2;
++test_kem_6960119pc_k2;
++test_kem_6960119pc_c2;
++test_kem_6960119pc_t2;
}
free(storage_kem_6960119pc_t2);
free(storage_kem_6960119pc_c2);
free(storage_kem_6960119pc_k2);
free(storage_kem_6960119pc_s2);
free(storage_kem_6960119pc_p2);
free(storage_kem_6960119pc_t);
free(storage_kem_6960119pc_c);
free(storage_kem_6960119pc_k);
free(storage_kem_6960119pc_s);
free(storage_kem_6960119pc_p);
}
#undef crypto_kem_PUBLICKEYBYTES
#undef crypto_kem_SECRETKEYBYTES
#undef crypto_kem_CIPHERTEXTBYTES
#undef crypto_kem_BYTES
static const char *kem_6960119pcf_checksums[] = {
"873616887e3e83679d5a708b3fbd8eb2301d18ea21f0f7c238db87178596267a",
"d709f666d84fe4450ec59759ef20982df8d614afe788db2b7d0f91b0c0e02254",
} ;
static void (*crypto_kem_keypair)(unsigned char *,unsigned char *);
static int (*crypto_kem_enc)(unsigned char *,unsigned char *,const unsigned char *);
static int (*crypto_kem_dec)(unsigned char *,const unsigned char *,const unsigned char *);
#define crypto_kem_PUBLICKEYBYTES mceliece_kem_6960119pcf_PUBLICKEYBYTES
#define crypto_kem_SECRETKEYBYTES mceliece_kem_6960119pcf_SECRETKEYBYTES
#define crypto_kem_CIPHERTEXTBYTES mceliece_kem_6960119pcf_CIPHERTEXTBYTES
#define crypto_kem_BYTES mceliece_kem_6960119pcf_BYTES
static void *storage_kem_6960119pcf_p;
static unsigned char *test_kem_6960119pcf_p;
static void *storage_kem_6960119pcf_s;
static unsigned char *test_kem_6960119pcf_s;
static void *storage_kem_6960119pcf_k;
static unsigned char *test_kem_6960119pcf_k;
static void *storage_kem_6960119pcf_c;
static unsigned char *test_kem_6960119pcf_c;
static void *storage_kem_6960119pcf_t;
static unsigned char *test_kem_6960119pcf_t;
static void *storage_kem_6960119pcf_p2;
static unsigned char *test_kem_6960119pcf_p2;
static void *storage_kem_6960119pcf_s2;
static unsigned char *test_kem_6960119pcf_s2;
static void *storage_kem_6960119pcf_k2;
static unsigned char *test_kem_6960119pcf_k2;
static void *storage_kem_6960119pcf_c2;
static unsigned char *test_kem_6960119pcf_c2;
static void *storage_kem_6960119pcf_t2;
static unsigned char *test_kem_6960119pcf_t2;
static void test_kem_6960119pcf_impl(long long impl)
{
unsigned char *p = test_kem_6960119pcf_p;
unsigned char *s = test_kem_6960119pcf_s;
unsigned char *k = test_kem_6960119pcf_k;
unsigned char *c = test_kem_6960119pcf_c;
unsigned char *t = test_kem_6960119pcf_t;
unsigned char *p2 = test_kem_6960119pcf_p2;
unsigned char *s2 = test_kem_6960119pcf_s2;
unsigned char *k2 = test_kem_6960119pcf_k2;
unsigned char *c2 = test_kem_6960119pcf_c2;
unsigned char *t2 = test_kem_6960119pcf_t2;
long long plen = crypto_kem_PUBLICKEYBYTES;
long long slen = crypto_kem_SECRETKEYBYTES;
long long klen = crypto_kem_BYTES;
long long clen = crypto_kem_CIPHERTEXTBYTES;
long long tlen = crypto_kem_BYTES;
if (targeti && strcmp(targeti,".") && strcmp(targeti,mceliece_dispatch_kem_6960119pcf_implementation(impl))) return;
if (targetn && atol(targetn) != impl) return;
if (impl >= 0) {
crypto_kem_keypair = mceliece_dispatch_kem_6960119pcf_keypair(impl);
crypto_kem_enc = mceliece_dispatch_kem_6960119pcf_enc(impl);
crypto_kem_dec = mceliece_dispatch_kem_6960119pcf_dec(impl);
printf("kem_6960119pcf %lld implementation %s compiler %s\n",impl,mceliece_dispatch_kem_6960119pcf_implementation(impl),mceliece_dispatch_kem_6960119pcf_compiler(impl));
} else {
crypto_kem_keypair = mceliece_kem_6960119pcf_keypair;
crypto_kem_enc = mceliece_kem_6960119pcf_enc;
crypto_kem_dec = mceliece_kem_6960119pcf_dec;
printf("kem_6960119pcf selected implementation %s compiler %s\n",mceliece_kem_6960119pcf_implementation(),mceliece_kem_6960119pcf_compiler());
}
for (long long checksumbig = 0;checksumbig < 2;++checksumbig) {
long long loops = checksumbig ? 64 : 8;
checksum_clear();
for (long long loop = 0;loop < loops;++loop) {
int result;
output_prepare(p2,p,plen);
output_prepare(s2,s,slen);
crypto_kem_keypair(p,s);
public(p,plen);
public(s,slen);
checksum(p,plen);
checksum(s,slen);
output_compare(p2,p,plen,"crypto_kem_keypair");
output_compare(s2,s,slen,"crypto_kem_keypair");
output_prepare(c2,c,clen);
output_prepare(k2,k,klen);
memcpy(p2,p,plen);
double_canary(p2,p,plen);
secret(p,plen);
result = crypto_kem_enc(c,k,p);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_enc returns nonzero\n");
public(p,plen);
public(c,clen);
public(k,klen);
checksum(c,clen);
checksum(k,klen);
output_compare(c2,c,clen,"crypto_kem_enc");
output_compare(k2,k,klen,"crypto_kem_enc");
input_compare(p2,p,plen,"crypto_kem_enc");
output_prepare(t2,t,tlen);
memcpy(c2,c,clen);
double_canary(c2,c,clen);
memcpy(s2,s,slen);
double_canary(s2,s,slen);
secret(c,clen);
secret(s,slen);
result = crypto_kem_dec(t,c,s);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec returns nonzero\n");
public(c,clen);
public(s,slen);
public(t,tlen);
if (memcmp(t,k,klen) != 0) fail("failure: crypto_kem_dec does not match k\n");
checksum(t,tlen);
output_compare(t2,t,tlen,"crypto_kem_dec");
input_compare(c2,c,clen,"crypto_kem_dec");
input_compare(s2,s,slen,"crypto_kem_dec");
double_canary(t2,t,tlen);
double_canary(c2,c,clen);
double_canary(s2,s,slen);
secret(c2,clen);
secret(s2,slen);
result = crypto_kem_dec(t2,c2,s2);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec returns nonzero\n");
public(c2,clen);
public(s2,slen);
public(t2,tlen);
if (memcmp(t2,t,tlen) != 0) fail("failure: crypto_kem_dec is nondeterministic\n");
double_canary(t2,t,tlen);
double_canary(c2,c,clen);
double_canary(s2,s,slen);
secret(c2,clen);
secret(s,slen);
result = crypto_kem_dec(c2,c2,s);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec with c=t overlap returns nonzero\n");
public(c2,tlen);
public(s,slen);
if (memcmp(c2,t,tlen) != 0) fail("failure: crypto_kem_dec does not handle c=t overlap\n");
memcpy(c2,c,clen);
secret(c,clen);
secret(s2,slen);
result = crypto_kem_dec(s2,c,s2);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec with s=t overlap returns nonzero\n");
public(s2,tlen);
public(c,clen);
if (memcmp(s2,t,tlen) != 0) fail("failure: crypto_kem_dec does not handle s=t overlap\n");
memcpy(s2,s,slen);
c[myrandom() % clen] += 1 + (myrandom() % 255);
if (crypto_kem_dec(t,c,s) == 0)
checksum(t,tlen);
else
checksum(c,clen);
c[myrandom() % clen] += 1 + (myrandom() % 255);
if (crypto_kem_dec(t,c,s) == 0)
checksum(t,tlen);
else
checksum(c,clen);
c[myrandom() % clen] += 1 + (myrandom() % 255);
if (crypto_kem_dec(t,c,s) == 0)
checksum(t,tlen);
else
checksum(c,clen);
}
checksum_expected(kem_6960119pcf_checksums[checksumbig]);
}
}
static void test_kem_6960119pcf(void)
{
if (targeto && strcmp(targeto,"kem")) return;
if (targetp && strcmp(targetp,"6960119pcf")) return;
storage_kem_6960119pcf_p = callocplus(crypto_kem_PUBLICKEYBYTES);
test_kem_6960119pcf_p = aligned(storage_kem_6960119pcf_p,crypto_kem_PUBLICKEYBYTES);
storage_kem_6960119pcf_s = callocplus(crypto_kem_SECRETKEYBYTES);
test_kem_6960119pcf_s = aligned(storage_kem_6960119pcf_s,crypto_kem_SECRETKEYBYTES);
storage_kem_6960119pcf_k = callocplus(crypto_kem_BYTES);
test_kem_6960119pcf_k = aligned(storage_kem_6960119pcf_k,crypto_kem_BYTES);
storage_kem_6960119pcf_c = callocplus(crypto_kem_CIPHERTEXTBYTES);
test_kem_6960119pcf_c = aligned(storage_kem_6960119pcf_c,crypto_kem_CIPHERTEXTBYTES);
storage_kem_6960119pcf_t = callocplus(crypto_kem_BYTES);
test_kem_6960119pcf_t = aligned(storage_kem_6960119pcf_t,crypto_kem_BYTES);
storage_kem_6960119pcf_p2 = callocplus(crypto_kem_PUBLICKEYBYTES);
test_kem_6960119pcf_p2 = aligned(storage_kem_6960119pcf_p2,crypto_kem_PUBLICKEYBYTES);
storage_kem_6960119pcf_s2 = callocplus(crypto_kem_SECRETKEYBYTES);
test_kem_6960119pcf_s2 = aligned(storage_kem_6960119pcf_s2,crypto_kem_SECRETKEYBYTES);
storage_kem_6960119pcf_k2 = callocplus(crypto_kem_BYTES);
test_kem_6960119pcf_k2 = aligned(storage_kem_6960119pcf_k2,crypto_kem_BYTES);
storage_kem_6960119pcf_c2 = callocplus(crypto_kem_CIPHERTEXTBYTES);
test_kem_6960119pcf_c2 = aligned(storage_kem_6960119pcf_c2,crypto_kem_CIPHERTEXTBYTES);
storage_kem_6960119pcf_t2 = callocplus(crypto_kem_BYTES);
test_kem_6960119pcf_t2 = aligned(storage_kem_6960119pcf_t2,crypto_kem_BYTES);
for (long long offset = 0;offset < 2;++offset) {
if (targetoffset && atol(targetoffset) != offset) continue;
if (offset && valgrind) break;
printf("kem_6960119pcf offset %lld\n",offset);
for (long long impl = -1;impl < mceliece_numimpl_kem_6960119pcf();++impl)
forked(test_kem_6960119pcf_impl,impl);
++test_kem_6960119pcf_p;
++test_kem_6960119pcf_s;
++test_kem_6960119pcf_k;
++test_kem_6960119pcf_c;
++test_kem_6960119pcf_t;
++test_kem_6960119pcf_p2;
++test_kem_6960119pcf_s2;
++test_kem_6960119pcf_k2;
++test_kem_6960119pcf_c2;
++test_kem_6960119pcf_t2;
}
free(storage_kem_6960119pcf_t2);
free(storage_kem_6960119pcf_c2);
free(storage_kem_6960119pcf_k2);
free(storage_kem_6960119pcf_s2);
free(storage_kem_6960119pcf_p2);
free(storage_kem_6960119pcf_t);
free(storage_kem_6960119pcf_c);
free(storage_kem_6960119pcf_k);
free(storage_kem_6960119pcf_s);
free(storage_kem_6960119pcf_p);
}
#undef crypto_kem_PUBLICKEYBYTES
#undef crypto_kem_SECRETKEYBYTES
#undef crypto_kem_CIPHERTEXTBYTES
#undef crypto_kem_BYTES
static const char *kem_6688128_checksums[] = {
"a3446acecf9aff0e757dfafc5402e365eb3ba485dd1f7b052f3ca6eabfdcb6c4",
"b2ee78aaa23c0612155239b1d92e9e1af589cb810bdb9d8c44eb85dbfd2e46d4",
} ;
static void (*crypto_kem_keypair)(unsigned char *,unsigned char *);
static int (*crypto_kem_enc)(unsigned char *,unsigned char *,const unsigned char *);
static int (*crypto_kem_dec)(unsigned char *,const unsigned char *,const unsigned char *);
#define crypto_kem_PUBLICKEYBYTES mceliece_kem_6688128_PUBLICKEYBYTES
#define crypto_kem_SECRETKEYBYTES mceliece_kem_6688128_SECRETKEYBYTES
#define crypto_kem_CIPHERTEXTBYTES mceliece_kem_6688128_CIPHERTEXTBYTES
#define crypto_kem_BYTES mceliece_kem_6688128_BYTES
static void *storage_kem_6688128_p;
static unsigned char *test_kem_6688128_p;
static void *storage_kem_6688128_s;
static unsigned char *test_kem_6688128_s;
static void *storage_kem_6688128_k;
static unsigned char *test_kem_6688128_k;
static void *storage_kem_6688128_c;
static unsigned char *test_kem_6688128_c;
static void *storage_kem_6688128_t;
static unsigned char *test_kem_6688128_t;
static void *storage_kem_6688128_p2;
static unsigned char *test_kem_6688128_p2;
static void *storage_kem_6688128_s2;
static unsigned char *test_kem_6688128_s2;
static void *storage_kem_6688128_k2;
static unsigned char *test_kem_6688128_k2;
static void *storage_kem_6688128_c2;
static unsigned char *test_kem_6688128_c2;
static void *storage_kem_6688128_t2;
static unsigned char *test_kem_6688128_t2;
static void test_kem_6688128_impl(long long impl)
{
unsigned char *p = test_kem_6688128_p;
unsigned char *s = test_kem_6688128_s;
unsigned char *k = test_kem_6688128_k;
unsigned char *c = test_kem_6688128_c;
unsigned char *t = test_kem_6688128_t;
unsigned char *p2 = test_kem_6688128_p2;
unsigned char *s2 = test_kem_6688128_s2;
unsigned char *k2 = test_kem_6688128_k2;
unsigned char *c2 = test_kem_6688128_c2;
unsigned char *t2 = test_kem_6688128_t2;
long long plen = crypto_kem_PUBLICKEYBYTES;
long long slen = crypto_kem_SECRETKEYBYTES;
long long klen = crypto_kem_BYTES;
long long clen = crypto_kem_CIPHERTEXTBYTES;
long long tlen = crypto_kem_BYTES;
if (targeti && strcmp(targeti,".") && strcmp(targeti,mceliece_dispatch_kem_6688128_implementation(impl))) return;
if (targetn && atol(targetn) != impl) return;
if (impl >= 0) {
crypto_kem_keypair = mceliece_dispatch_kem_6688128_keypair(impl);
crypto_kem_enc = mceliece_dispatch_kem_6688128_enc(impl);
crypto_kem_dec = mceliece_dispatch_kem_6688128_dec(impl);
printf("kem_6688128 %lld implementation %s compiler %s\n",impl,mceliece_dispatch_kem_6688128_implementation(impl),mceliece_dispatch_kem_6688128_compiler(impl));
} else {
crypto_kem_keypair = mceliece_kem_6688128_keypair;
crypto_kem_enc = mceliece_kem_6688128_enc;
crypto_kem_dec = mceliece_kem_6688128_dec;
printf("kem_6688128 selected implementation %s compiler %s\n",mceliece_kem_6688128_implementation(),mceliece_kem_6688128_compiler());
}
for (long long checksumbig = 0;checksumbig < 2;++checksumbig) {
long long loops = checksumbig ? 64 : 8;
checksum_clear();
for (long long loop = 0;loop < loops;++loop) {
int result;
output_prepare(p2,p,plen);
output_prepare(s2,s,slen);
crypto_kem_keypair(p,s);
public(p,plen);
public(s,slen);
checksum(p,plen);
checksum(s,slen);
output_compare(p2,p,plen,"crypto_kem_keypair");
output_compare(s2,s,slen,"crypto_kem_keypair");
output_prepare(c2,c,clen);
output_prepare(k2,k,klen);
memcpy(p2,p,plen);
double_canary(p2,p,plen);
secret(p,plen);
result = crypto_kem_enc(c,k,p);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_enc returns nonzero\n");
public(p,plen);
public(c,clen);
public(k,klen);
checksum(c,clen);
checksum(k,klen);
output_compare(c2,c,clen,"crypto_kem_enc");
output_compare(k2,k,klen,"crypto_kem_enc");
input_compare(p2,p,plen,"crypto_kem_enc");
output_prepare(t2,t,tlen);
memcpy(c2,c,clen);
double_canary(c2,c,clen);
memcpy(s2,s,slen);
double_canary(s2,s,slen);
secret(c,clen);
secret(s,slen);
result = crypto_kem_dec(t,c,s);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec returns nonzero\n");
public(c,clen);
public(s,slen);
public(t,tlen);
if (memcmp(t,k,klen) != 0) fail("failure: crypto_kem_dec does not match k\n");
checksum(t,tlen);
output_compare(t2,t,tlen,"crypto_kem_dec");
input_compare(c2,c,clen,"crypto_kem_dec");
input_compare(s2,s,slen,"crypto_kem_dec");
double_canary(t2,t,tlen);
double_canary(c2,c,clen);
double_canary(s2,s,slen);
secret(c2,clen);
secret(s2,slen);
result = crypto_kem_dec(t2,c2,s2);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec returns nonzero\n");
public(c2,clen);
public(s2,slen);
public(t2,tlen);
if (memcmp(t2,t,tlen) != 0) fail("failure: crypto_kem_dec is nondeterministic\n");
double_canary(t2,t,tlen);
double_canary(c2,c,clen);
double_canary(s2,s,slen);
secret(c2,clen);
secret(s,slen);
result = crypto_kem_dec(c2,c2,s);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec with c=t overlap returns nonzero\n");
public(c2,tlen);
public(s,slen);
if (memcmp(c2,t,tlen) != 0) fail("failure: crypto_kem_dec does not handle c=t overlap\n");
memcpy(c2,c,clen);
secret(c,clen);
secret(s2,slen);
result = crypto_kem_dec(s2,c,s2);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec with s=t overlap returns nonzero\n");
public(s2,tlen);
public(c,clen);
if (memcmp(s2,t,tlen) != 0) fail("failure: crypto_kem_dec does not handle s=t overlap\n");
memcpy(s2,s,slen);
c[myrandom() % clen] += 1 + (myrandom() % 255);
if (crypto_kem_dec(t,c,s) == 0)
checksum(t,tlen);
else
checksum(c,clen);
c[myrandom() % clen] += 1 + (myrandom() % 255);
if (crypto_kem_dec(t,c,s) == 0)
checksum(t,tlen);
else
checksum(c,clen);
c[myrandom() % clen] += 1 + (myrandom() % 255);
if (crypto_kem_dec(t,c,s) == 0)
checksum(t,tlen);
else
checksum(c,clen);
}
checksum_expected(kem_6688128_checksums[checksumbig]);
}
}
static void test_kem_6688128(void)
{
if (targeto && strcmp(targeto,"kem")) return;
if (targetp && strcmp(targetp,"6688128")) return;
storage_kem_6688128_p = callocplus(crypto_kem_PUBLICKEYBYTES);
test_kem_6688128_p = aligned(storage_kem_6688128_p,crypto_kem_PUBLICKEYBYTES);
storage_kem_6688128_s = callocplus(crypto_kem_SECRETKEYBYTES);
test_kem_6688128_s = aligned(storage_kem_6688128_s,crypto_kem_SECRETKEYBYTES);
storage_kem_6688128_k = callocplus(crypto_kem_BYTES);
test_kem_6688128_k = aligned(storage_kem_6688128_k,crypto_kem_BYTES);
storage_kem_6688128_c = callocplus(crypto_kem_CIPHERTEXTBYTES);
test_kem_6688128_c = aligned(storage_kem_6688128_c,crypto_kem_CIPHERTEXTBYTES);
storage_kem_6688128_t = callocplus(crypto_kem_BYTES);
test_kem_6688128_t = aligned(storage_kem_6688128_t,crypto_kem_BYTES);
storage_kem_6688128_p2 = callocplus(crypto_kem_PUBLICKEYBYTES);
test_kem_6688128_p2 = aligned(storage_kem_6688128_p2,crypto_kem_PUBLICKEYBYTES);
storage_kem_6688128_s2 = callocplus(crypto_kem_SECRETKEYBYTES);
test_kem_6688128_s2 = aligned(storage_kem_6688128_s2,crypto_kem_SECRETKEYBYTES);
storage_kem_6688128_k2 = callocplus(crypto_kem_BYTES);
test_kem_6688128_k2 = aligned(storage_kem_6688128_k2,crypto_kem_BYTES);
storage_kem_6688128_c2 = callocplus(crypto_kem_CIPHERTEXTBYTES);
test_kem_6688128_c2 = aligned(storage_kem_6688128_c2,crypto_kem_CIPHERTEXTBYTES);
storage_kem_6688128_t2 = callocplus(crypto_kem_BYTES);
test_kem_6688128_t2 = aligned(storage_kem_6688128_t2,crypto_kem_BYTES);
for (long long offset = 0;offset < 2;++offset) {
if (targetoffset && atol(targetoffset) != offset) continue;
if (offset && valgrind) break;
printf("kem_6688128 offset %lld\n",offset);
for (long long impl = -1;impl < mceliece_numimpl_kem_6688128();++impl)
forked(test_kem_6688128_impl,impl);
++test_kem_6688128_p;
++test_kem_6688128_s;
++test_kem_6688128_k;
++test_kem_6688128_c;
++test_kem_6688128_t;
++test_kem_6688128_p2;
++test_kem_6688128_s2;
++test_kem_6688128_k2;
++test_kem_6688128_c2;
++test_kem_6688128_t2;
}
free(storage_kem_6688128_t2);
free(storage_kem_6688128_c2);
free(storage_kem_6688128_k2);
free(storage_kem_6688128_s2);
free(storage_kem_6688128_p2);
free(storage_kem_6688128_t);
free(storage_kem_6688128_c);
free(storage_kem_6688128_k);
free(storage_kem_6688128_s);
free(storage_kem_6688128_p);
}
#undef crypto_kem_PUBLICKEYBYTES
#undef crypto_kem_SECRETKEYBYTES
#undef crypto_kem_CIPHERTEXTBYTES
#undef crypto_kem_BYTES
static const char *kem_6688128f_checksums[] = {
"daec95f7a2db91986d2d1ca7312d66314149b066db0f467935ecf027aa1f4403",
"a371ae9485120c1ea108b85723470e5b317ca4428fa01a27b3b5f33f5d924d32",
} ;
static void (*crypto_kem_keypair)(unsigned char *,unsigned char *);
static int (*crypto_kem_enc)(unsigned char *,unsigned char *,const unsigned char *);
static int (*crypto_kem_dec)(unsigned char *,const unsigned char *,const unsigned char *);
#define crypto_kem_PUBLICKEYBYTES mceliece_kem_6688128f_PUBLICKEYBYTES
#define crypto_kem_SECRETKEYBYTES mceliece_kem_6688128f_SECRETKEYBYTES
#define crypto_kem_CIPHERTEXTBYTES mceliece_kem_6688128f_CIPHERTEXTBYTES
#define crypto_kem_BYTES mceliece_kem_6688128f_BYTES
static void *storage_kem_6688128f_p;
static unsigned char *test_kem_6688128f_p;
static void *storage_kem_6688128f_s;
static unsigned char *test_kem_6688128f_s;
static void *storage_kem_6688128f_k;
static unsigned char *test_kem_6688128f_k;
static void *storage_kem_6688128f_c;
static unsigned char *test_kem_6688128f_c;
static void *storage_kem_6688128f_t;
static unsigned char *test_kem_6688128f_t;
static void *storage_kem_6688128f_p2;
static unsigned char *test_kem_6688128f_p2;
static void *storage_kem_6688128f_s2;
static unsigned char *test_kem_6688128f_s2;
static void *storage_kem_6688128f_k2;
static unsigned char *test_kem_6688128f_k2;
static void *storage_kem_6688128f_c2;
static unsigned char *test_kem_6688128f_c2;
static void *storage_kem_6688128f_t2;
static unsigned char *test_kem_6688128f_t2;
static void test_kem_6688128f_impl(long long impl)
{
unsigned char *p = test_kem_6688128f_p;
unsigned char *s = test_kem_6688128f_s;
unsigned char *k = test_kem_6688128f_k;
unsigned char *c = test_kem_6688128f_c;
unsigned char *t = test_kem_6688128f_t;
unsigned char *p2 = test_kem_6688128f_p2;
unsigned char *s2 = test_kem_6688128f_s2;
unsigned char *k2 = test_kem_6688128f_k2;
unsigned char *c2 = test_kem_6688128f_c2;
unsigned char *t2 = test_kem_6688128f_t2;
long long plen = crypto_kem_PUBLICKEYBYTES;
long long slen = crypto_kem_SECRETKEYBYTES;
long long klen = crypto_kem_BYTES;
long long clen = crypto_kem_CIPHERTEXTBYTES;
long long tlen = crypto_kem_BYTES;
if (targeti && strcmp(targeti,".") && strcmp(targeti,mceliece_dispatch_kem_6688128f_implementation(impl))) return;
if (targetn && atol(targetn) != impl) return;
if (impl >= 0) {
crypto_kem_keypair = mceliece_dispatch_kem_6688128f_keypair(impl);
crypto_kem_enc = mceliece_dispatch_kem_6688128f_enc(impl);
crypto_kem_dec = mceliece_dispatch_kem_6688128f_dec(impl);
printf("kem_6688128f %lld implementation %s compiler %s\n",impl,mceliece_dispatch_kem_6688128f_implementation(impl),mceliece_dispatch_kem_6688128f_compiler(impl));
} else {
crypto_kem_keypair = mceliece_kem_6688128f_keypair;
crypto_kem_enc = mceliece_kem_6688128f_enc;
crypto_kem_dec = mceliece_kem_6688128f_dec;
printf("kem_6688128f selected implementation %s compiler %s\n",mceliece_kem_6688128f_implementation(),mceliece_kem_6688128f_compiler());
}
for (long long checksumbig = 0;checksumbig < 2;++checksumbig) {
long long loops = checksumbig ? 64 : 8;
checksum_clear();
for (long long loop = 0;loop < loops;++loop) {
int result;
output_prepare(p2,p,plen);
output_prepare(s2,s,slen);
crypto_kem_keypair(p,s);
public(p,plen);
public(s,slen);
checksum(p,plen);
checksum(s,slen);
output_compare(p2,p,plen,"crypto_kem_keypair");
output_compare(s2,s,slen,"crypto_kem_keypair");
output_prepare(c2,c,clen);
output_prepare(k2,k,klen);
memcpy(p2,p,plen);
double_canary(p2,p,plen);
secret(p,plen);
result = crypto_kem_enc(c,k,p);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_enc returns nonzero\n");
public(p,plen);
public(c,clen);
public(k,klen);
checksum(c,clen);
checksum(k,klen);
output_compare(c2,c,clen,"crypto_kem_enc");
output_compare(k2,k,klen,"crypto_kem_enc");
input_compare(p2,p,plen,"crypto_kem_enc");
output_prepare(t2,t,tlen);
memcpy(c2,c,clen);
double_canary(c2,c,clen);
memcpy(s2,s,slen);
double_canary(s2,s,slen);
secret(c,clen);
secret(s,slen);
result = crypto_kem_dec(t,c,s);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec returns nonzero\n");
public(c,clen);
public(s,slen);
public(t,tlen);
if (memcmp(t,k,klen) != 0) fail("failure: crypto_kem_dec does not match k\n");
checksum(t,tlen);
output_compare(t2,t,tlen,"crypto_kem_dec");
input_compare(c2,c,clen,"crypto_kem_dec");
input_compare(s2,s,slen,"crypto_kem_dec");
double_canary(t2,t,tlen);
double_canary(c2,c,clen);
double_canary(s2,s,slen);
secret(c2,clen);
secret(s2,slen);
result = crypto_kem_dec(t2,c2,s2);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec returns nonzero\n");
public(c2,clen);
public(s2,slen);
public(t2,tlen);
if (memcmp(t2,t,tlen) != 0) fail("failure: crypto_kem_dec is nondeterministic\n");
double_canary(t2,t,tlen);
double_canary(c2,c,clen);
double_canary(s2,s,slen);
secret(c2,clen);
secret(s,slen);
result = crypto_kem_dec(c2,c2,s);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec with c=t overlap returns nonzero\n");
public(c2,tlen);
public(s,slen);
if (memcmp(c2,t,tlen) != 0) fail("failure: crypto_kem_dec does not handle c=t overlap\n");
memcpy(c2,c,clen);
secret(c,clen);
secret(s2,slen);
result = crypto_kem_dec(s2,c,s2);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec with s=t overlap returns nonzero\n");
public(s2,tlen);
public(c,clen);
if (memcmp(s2,t,tlen) != 0) fail("failure: crypto_kem_dec does not handle s=t overlap\n");
memcpy(s2,s,slen);
c[myrandom() % clen] += 1 + (myrandom() % 255);
if (crypto_kem_dec(t,c,s) == 0)
checksum(t,tlen);
else
checksum(c,clen);
c[myrandom() % clen] += 1 + (myrandom() % 255);
if (crypto_kem_dec(t,c,s) == 0)
checksum(t,tlen);
else
checksum(c,clen);
c[myrandom() % clen] += 1 + (myrandom() % 255);
if (crypto_kem_dec(t,c,s) == 0)
checksum(t,tlen);
else
checksum(c,clen);
}
checksum_expected(kem_6688128f_checksums[checksumbig]);
}
}
static void test_kem_6688128f(void)
{
if (targeto && strcmp(targeto,"kem")) return;
if (targetp && strcmp(targetp,"6688128f")) return;
storage_kem_6688128f_p = callocplus(crypto_kem_PUBLICKEYBYTES);
test_kem_6688128f_p = aligned(storage_kem_6688128f_p,crypto_kem_PUBLICKEYBYTES);
storage_kem_6688128f_s = callocplus(crypto_kem_SECRETKEYBYTES);
test_kem_6688128f_s = aligned(storage_kem_6688128f_s,crypto_kem_SECRETKEYBYTES);
storage_kem_6688128f_k = callocplus(crypto_kem_BYTES);
test_kem_6688128f_k = aligned(storage_kem_6688128f_k,crypto_kem_BYTES);
storage_kem_6688128f_c = callocplus(crypto_kem_CIPHERTEXTBYTES);
test_kem_6688128f_c = aligned(storage_kem_6688128f_c,crypto_kem_CIPHERTEXTBYTES);
storage_kem_6688128f_t = callocplus(crypto_kem_BYTES);
test_kem_6688128f_t = aligned(storage_kem_6688128f_t,crypto_kem_BYTES);
storage_kem_6688128f_p2 = callocplus(crypto_kem_PUBLICKEYBYTES);
test_kem_6688128f_p2 = aligned(storage_kem_6688128f_p2,crypto_kem_PUBLICKEYBYTES);
storage_kem_6688128f_s2 = callocplus(crypto_kem_SECRETKEYBYTES);
test_kem_6688128f_s2 = aligned(storage_kem_6688128f_s2,crypto_kem_SECRETKEYBYTES);
storage_kem_6688128f_k2 = callocplus(crypto_kem_BYTES);
test_kem_6688128f_k2 = aligned(storage_kem_6688128f_k2,crypto_kem_BYTES);
storage_kem_6688128f_c2 = callocplus(crypto_kem_CIPHERTEXTBYTES);
test_kem_6688128f_c2 = aligned(storage_kem_6688128f_c2,crypto_kem_CIPHERTEXTBYTES);
storage_kem_6688128f_t2 = callocplus(crypto_kem_BYTES);
test_kem_6688128f_t2 = aligned(storage_kem_6688128f_t2,crypto_kem_BYTES);
for (long long offset = 0;offset < 2;++offset) {
if (targetoffset && atol(targetoffset) != offset) continue;
if (offset && valgrind) break;
printf("kem_6688128f offset %lld\n",offset);
for (long long impl = -1;impl < mceliece_numimpl_kem_6688128f();++impl)
forked(test_kem_6688128f_impl,impl);
++test_kem_6688128f_p;
++test_kem_6688128f_s;
++test_kem_6688128f_k;
++test_kem_6688128f_c;
++test_kem_6688128f_t;
++test_kem_6688128f_p2;
++test_kem_6688128f_s2;
++test_kem_6688128f_k2;
++test_kem_6688128f_c2;
++test_kem_6688128f_t2;
}
free(storage_kem_6688128f_t2);
free(storage_kem_6688128f_c2);
free(storage_kem_6688128f_k2);
free(storage_kem_6688128f_s2);
free(storage_kem_6688128f_p2);
free(storage_kem_6688128f_t);
free(storage_kem_6688128f_c);
free(storage_kem_6688128f_k);
free(storage_kem_6688128f_s);
free(storage_kem_6688128f_p);
}
#undef crypto_kem_PUBLICKEYBYTES
#undef crypto_kem_SECRETKEYBYTES
#undef crypto_kem_CIPHERTEXTBYTES
#undef crypto_kem_BYTES
static const char *kem_6688128pc_checksums[] = {
"f6d44759e9e52330923b5dc2957cd080c10b31990a96e0540c52ba42017fa849",
"53e96db3d38fe59717c537c269eddb0474e0548e964d2fbfbc1082ef03e68857",
} ;
static void (*crypto_kem_keypair)(unsigned char *,unsigned char *);
static int (*crypto_kem_enc)(unsigned char *,unsigned char *,const unsigned char *);
static int (*crypto_kem_dec)(unsigned char *,const unsigned char *,const unsigned char *);
#define crypto_kem_PUBLICKEYBYTES mceliece_kem_6688128pc_PUBLICKEYBYTES
#define crypto_kem_SECRETKEYBYTES mceliece_kem_6688128pc_SECRETKEYBYTES
#define crypto_kem_CIPHERTEXTBYTES mceliece_kem_6688128pc_CIPHERTEXTBYTES
#define crypto_kem_BYTES mceliece_kem_6688128pc_BYTES
static void *storage_kem_6688128pc_p;
static unsigned char *test_kem_6688128pc_p;
static void *storage_kem_6688128pc_s;
static unsigned char *test_kem_6688128pc_s;
static void *storage_kem_6688128pc_k;
static unsigned char *test_kem_6688128pc_k;
static void *storage_kem_6688128pc_c;
static unsigned char *test_kem_6688128pc_c;
static void *storage_kem_6688128pc_t;
static unsigned char *test_kem_6688128pc_t;
static void *storage_kem_6688128pc_p2;
static unsigned char *test_kem_6688128pc_p2;
static void *storage_kem_6688128pc_s2;
static unsigned char *test_kem_6688128pc_s2;
static void *storage_kem_6688128pc_k2;
static unsigned char *test_kem_6688128pc_k2;
static void *storage_kem_6688128pc_c2;
static unsigned char *test_kem_6688128pc_c2;
static void *storage_kem_6688128pc_t2;
static unsigned char *test_kem_6688128pc_t2;
static void test_kem_6688128pc_impl(long long impl)
{
unsigned char *p = test_kem_6688128pc_p;
unsigned char *s = test_kem_6688128pc_s;
unsigned char *k = test_kem_6688128pc_k;
unsigned char *c = test_kem_6688128pc_c;
unsigned char *t = test_kem_6688128pc_t;
unsigned char *p2 = test_kem_6688128pc_p2;
unsigned char *s2 = test_kem_6688128pc_s2;
unsigned char *k2 = test_kem_6688128pc_k2;
unsigned char *c2 = test_kem_6688128pc_c2;
unsigned char *t2 = test_kem_6688128pc_t2;
long long plen = crypto_kem_PUBLICKEYBYTES;
long long slen = crypto_kem_SECRETKEYBYTES;
long long klen = crypto_kem_BYTES;
long long clen = crypto_kem_CIPHERTEXTBYTES;
long long tlen = crypto_kem_BYTES;
if (targeti && strcmp(targeti,".") && strcmp(targeti,mceliece_dispatch_kem_6688128pc_implementation(impl))) return;
if (targetn && atol(targetn) != impl) return;
if (impl >= 0) {
crypto_kem_keypair = mceliece_dispatch_kem_6688128pc_keypair(impl);
crypto_kem_enc = mceliece_dispatch_kem_6688128pc_enc(impl);
crypto_kem_dec = mceliece_dispatch_kem_6688128pc_dec(impl);
printf("kem_6688128pc %lld implementation %s compiler %s\n",impl,mceliece_dispatch_kem_6688128pc_implementation(impl),mceliece_dispatch_kem_6688128pc_compiler(impl));
} else {
crypto_kem_keypair = mceliece_kem_6688128pc_keypair;
crypto_kem_enc = mceliece_kem_6688128pc_enc;
crypto_kem_dec = mceliece_kem_6688128pc_dec;
printf("kem_6688128pc selected implementation %s compiler %s\n",mceliece_kem_6688128pc_implementation(),mceliece_kem_6688128pc_compiler());
}
for (long long checksumbig = 0;checksumbig < 2;++checksumbig) {
long long loops = checksumbig ? 64 : 8;
checksum_clear();
for (long long loop = 0;loop < loops;++loop) {
int result;
output_prepare(p2,p,plen);
output_prepare(s2,s,slen);
crypto_kem_keypair(p,s);
public(p,plen);
public(s,slen);
checksum(p,plen);
checksum(s,slen);
output_compare(p2,p,plen,"crypto_kem_keypair");
output_compare(s2,s,slen,"crypto_kem_keypair");
output_prepare(c2,c,clen);
output_prepare(k2,k,klen);
memcpy(p2,p,plen);
double_canary(p2,p,plen);
secret(p,plen);
result = crypto_kem_enc(c,k,p);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_enc returns nonzero\n");
public(p,plen);
public(c,clen);
public(k,klen);
checksum(c,clen);
checksum(k,klen);
output_compare(c2,c,clen,"crypto_kem_enc");
output_compare(k2,k,klen,"crypto_kem_enc");
input_compare(p2,p,plen,"crypto_kem_enc");
output_prepare(t2,t,tlen);
memcpy(c2,c,clen);
double_canary(c2,c,clen);
memcpy(s2,s,slen);
double_canary(s2,s,slen);
secret(c,clen);
secret(s,slen);
result = crypto_kem_dec(t,c,s);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec returns nonzero\n");
public(c,clen);
public(s,slen);
public(t,tlen);
if (memcmp(t,k,klen) != 0) fail("failure: crypto_kem_dec does not match k\n");
checksum(t,tlen);
output_compare(t2,t,tlen,"crypto_kem_dec");
input_compare(c2,c,clen,"crypto_kem_dec");
input_compare(s2,s,slen,"crypto_kem_dec");
double_canary(t2,t,tlen);
double_canary(c2,c,clen);
double_canary(s2,s,slen);
secret(c2,clen);
secret(s2,slen);
result = crypto_kem_dec(t2,c2,s2);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec returns nonzero\n");
public(c2,clen);
public(s2,slen);
public(t2,tlen);
if (memcmp(t2,t,tlen) != 0) fail("failure: crypto_kem_dec is nondeterministic\n");
double_canary(t2,t,tlen);
double_canary(c2,c,clen);
double_canary(s2,s,slen);
secret(c2,clen);
secret(s,slen);
result = crypto_kem_dec(c2,c2,s);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec with c=t overlap returns nonzero\n");
public(c2,tlen);
public(s,slen);
if (memcmp(c2,t,tlen) != 0) fail("failure: crypto_kem_dec does not handle c=t overlap\n");
memcpy(c2,c,clen);
secret(c,clen);
secret(s2,slen);
result = crypto_kem_dec(s2,c,s2);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec with s=t overlap returns nonzero\n");
public(s2,tlen);
public(c,clen);
if (memcmp(s2,t,tlen) != 0) fail("failure: crypto_kem_dec does not handle s=t overlap\n");
memcpy(s2,s,slen);
c[myrandom() % clen] += 1 + (myrandom() % 255);
if (crypto_kem_dec(t,c,s) == 0)
checksum(t,tlen);
else
checksum(c,clen);
c[myrandom() % clen] += 1 + (myrandom() % 255);
if (crypto_kem_dec(t,c,s) == 0)
checksum(t,tlen);
else
checksum(c,clen);
c[myrandom() % clen] += 1 + (myrandom() % 255);
if (crypto_kem_dec(t,c,s) == 0)
checksum(t,tlen);
else
checksum(c,clen);
}
checksum_expected(kem_6688128pc_checksums[checksumbig]);
}
}
static void test_kem_6688128pc(void)
{
if (targeto && strcmp(targeto,"kem")) return;
if (targetp && strcmp(targetp,"6688128pc")) return;
storage_kem_6688128pc_p = callocplus(crypto_kem_PUBLICKEYBYTES);
test_kem_6688128pc_p = aligned(storage_kem_6688128pc_p,crypto_kem_PUBLICKEYBYTES);
storage_kem_6688128pc_s = callocplus(crypto_kem_SECRETKEYBYTES);
test_kem_6688128pc_s = aligned(storage_kem_6688128pc_s,crypto_kem_SECRETKEYBYTES);
storage_kem_6688128pc_k = callocplus(crypto_kem_BYTES);
test_kem_6688128pc_k = aligned(storage_kem_6688128pc_k,crypto_kem_BYTES);
storage_kem_6688128pc_c = callocplus(crypto_kem_CIPHERTEXTBYTES);
test_kem_6688128pc_c = aligned(storage_kem_6688128pc_c,crypto_kem_CIPHERTEXTBYTES);
storage_kem_6688128pc_t = callocplus(crypto_kem_BYTES);
test_kem_6688128pc_t = aligned(storage_kem_6688128pc_t,crypto_kem_BYTES);
storage_kem_6688128pc_p2 = callocplus(crypto_kem_PUBLICKEYBYTES);
test_kem_6688128pc_p2 = aligned(storage_kem_6688128pc_p2,crypto_kem_PUBLICKEYBYTES);
storage_kem_6688128pc_s2 = callocplus(crypto_kem_SECRETKEYBYTES);
test_kem_6688128pc_s2 = aligned(storage_kem_6688128pc_s2,crypto_kem_SECRETKEYBYTES);
storage_kem_6688128pc_k2 = callocplus(crypto_kem_BYTES);
test_kem_6688128pc_k2 = aligned(storage_kem_6688128pc_k2,crypto_kem_BYTES);
storage_kem_6688128pc_c2 = callocplus(crypto_kem_CIPHERTEXTBYTES);
test_kem_6688128pc_c2 = aligned(storage_kem_6688128pc_c2,crypto_kem_CIPHERTEXTBYTES);
storage_kem_6688128pc_t2 = callocplus(crypto_kem_BYTES);
test_kem_6688128pc_t2 = aligned(storage_kem_6688128pc_t2,crypto_kem_BYTES);
for (long long offset = 0;offset < 2;++offset) {
if (targetoffset && atol(targetoffset) != offset) continue;
if (offset && valgrind) break;
printf("kem_6688128pc offset %lld\n",offset);
for (long long impl = -1;impl < mceliece_numimpl_kem_6688128pc();++impl)
forked(test_kem_6688128pc_impl,impl);
++test_kem_6688128pc_p;
++test_kem_6688128pc_s;
++test_kem_6688128pc_k;
++test_kem_6688128pc_c;
++test_kem_6688128pc_t;
++test_kem_6688128pc_p2;
++test_kem_6688128pc_s2;
++test_kem_6688128pc_k2;
++test_kem_6688128pc_c2;
++test_kem_6688128pc_t2;
}
free(storage_kem_6688128pc_t2);
free(storage_kem_6688128pc_c2);
free(storage_kem_6688128pc_k2);
free(storage_kem_6688128pc_s2);
free(storage_kem_6688128pc_p2);
free(storage_kem_6688128pc_t);
free(storage_kem_6688128pc_c);
free(storage_kem_6688128pc_k);
free(storage_kem_6688128pc_s);
free(storage_kem_6688128pc_p);
}
#undef crypto_kem_PUBLICKEYBYTES
#undef crypto_kem_SECRETKEYBYTES
#undef crypto_kem_CIPHERTEXTBYTES
#undef crypto_kem_BYTES
static const char *kem_6688128pcf_checksums[] = {
"80e0655938457c4dcd6aa6323d60f2495efda8a2d4a13b1958e8ca8fd2e848b6",
"a4451d736f136a43032cd4d1047b4b7494ee6d0c91d75deff011e596bdb1b3ec",
} ;
static void (*crypto_kem_keypair)(unsigned char *,unsigned char *);
static int (*crypto_kem_enc)(unsigned char *,unsigned char *,const unsigned char *);
static int (*crypto_kem_dec)(unsigned char *,const unsigned char *,const unsigned char *);
#define crypto_kem_PUBLICKEYBYTES mceliece_kem_6688128pcf_PUBLICKEYBYTES
#define crypto_kem_SECRETKEYBYTES mceliece_kem_6688128pcf_SECRETKEYBYTES
#define crypto_kem_CIPHERTEXTBYTES mceliece_kem_6688128pcf_CIPHERTEXTBYTES
#define crypto_kem_BYTES mceliece_kem_6688128pcf_BYTES
static void *storage_kem_6688128pcf_p;
static unsigned char *test_kem_6688128pcf_p;
static void *storage_kem_6688128pcf_s;
static unsigned char *test_kem_6688128pcf_s;
static void *storage_kem_6688128pcf_k;
static unsigned char *test_kem_6688128pcf_k;
static void *storage_kem_6688128pcf_c;
static unsigned char *test_kem_6688128pcf_c;
static void *storage_kem_6688128pcf_t;
static unsigned char *test_kem_6688128pcf_t;
static void *storage_kem_6688128pcf_p2;
static unsigned char *test_kem_6688128pcf_p2;
static void *storage_kem_6688128pcf_s2;
static unsigned char *test_kem_6688128pcf_s2;
static void *storage_kem_6688128pcf_k2;
static unsigned char *test_kem_6688128pcf_k2;
static void *storage_kem_6688128pcf_c2;
static unsigned char *test_kem_6688128pcf_c2;
static void *storage_kem_6688128pcf_t2;
static unsigned char *test_kem_6688128pcf_t2;
static void test_kem_6688128pcf_impl(long long impl)
{
unsigned char *p = test_kem_6688128pcf_p;
unsigned char *s = test_kem_6688128pcf_s;
unsigned char *k = test_kem_6688128pcf_k;
unsigned char *c = test_kem_6688128pcf_c;
unsigned char *t = test_kem_6688128pcf_t;
unsigned char *p2 = test_kem_6688128pcf_p2;
unsigned char *s2 = test_kem_6688128pcf_s2;
unsigned char *k2 = test_kem_6688128pcf_k2;
unsigned char *c2 = test_kem_6688128pcf_c2;
unsigned char *t2 = test_kem_6688128pcf_t2;
long long plen = crypto_kem_PUBLICKEYBYTES;
long long slen = crypto_kem_SECRETKEYBYTES;
long long klen = crypto_kem_BYTES;
long long clen = crypto_kem_CIPHERTEXTBYTES;
long long tlen = crypto_kem_BYTES;
if (targeti && strcmp(targeti,".") && strcmp(targeti,mceliece_dispatch_kem_6688128pcf_implementation(impl))) return;
if (targetn && atol(targetn) != impl) return;
if (impl >= 0) {
crypto_kem_keypair = mceliece_dispatch_kem_6688128pcf_keypair(impl);
crypto_kem_enc = mceliece_dispatch_kem_6688128pcf_enc(impl);
crypto_kem_dec = mceliece_dispatch_kem_6688128pcf_dec(impl);
printf("kem_6688128pcf %lld implementation %s compiler %s\n",impl,mceliece_dispatch_kem_6688128pcf_implementation(impl),mceliece_dispatch_kem_6688128pcf_compiler(impl));
} else {
crypto_kem_keypair = mceliece_kem_6688128pcf_keypair;
crypto_kem_enc = mceliece_kem_6688128pcf_enc;
crypto_kem_dec = mceliece_kem_6688128pcf_dec;
printf("kem_6688128pcf selected implementation %s compiler %s\n",mceliece_kem_6688128pcf_implementation(),mceliece_kem_6688128pcf_compiler());
}
for (long long checksumbig = 0;checksumbig < 2;++checksumbig) {
long long loops = checksumbig ? 64 : 8;
checksum_clear();
for (long long loop = 0;loop < loops;++loop) {
int result;
output_prepare(p2,p,plen);
output_prepare(s2,s,slen);
crypto_kem_keypair(p,s);
public(p,plen);
public(s,slen);
checksum(p,plen);
checksum(s,slen);
output_compare(p2,p,plen,"crypto_kem_keypair");
output_compare(s2,s,slen,"crypto_kem_keypair");
output_prepare(c2,c,clen);
output_prepare(k2,k,klen);
memcpy(p2,p,plen);
double_canary(p2,p,plen);
secret(p,plen);
result = crypto_kem_enc(c,k,p);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_enc returns nonzero\n");
public(p,plen);
public(c,clen);
public(k,klen);
checksum(c,clen);
checksum(k,klen);
output_compare(c2,c,clen,"crypto_kem_enc");
output_compare(k2,k,klen,"crypto_kem_enc");
input_compare(p2,p,plen,"crypto_kem_enc");
output_prepare(t2,t,tlen);
memcpy(c2,c,clen);
double_canary(c2,c,clen);
memcpy(s2,s,slen);
double_canary(s2,s,slen);
secret(c,clen);
secret(s,slen);
result = crypto_kem_dec(t,c,s);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec returns nonzero\n");
public(c,clen);
public(s,slen);
public(t,tlen);
if (memcmp(t,k,klen) != 0) fail("failure: crypto_kem_dec does not match k\n");
checksum(t,tlen);
output_compare(t2,t,tlen,"crypto_kem_dec");
input_compare(c2,c,clen,"crypto_kem_dec");
input_compare(s2,s,slen,"crypto_kem_dec");
double_canary(t2,t,tlen);
double_canary(c2,c,clen);
double_canary(s2,s,slen);
secret(c2,clen);
secret(s2,slen);
result = crypto_kem_dec(t2,c2,s2);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec returns nonzero\n");
public(c2,clen);
public(s2,slen);
public(t2,tlen);
if (memcmp(t2,t,tlen) != 0) fail("failure: crypto_kem_dec is nondeterministic\n");
double_canary(t2,t,tlen);
double_canary(c2,c,clen);
double_canary(s2,s,slen);
secret(c2,clen);
secret(s,slen);
result = crypto_kem_dec(c2,c2,s);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec with c=t overlap returns nonzero\n");
public(c2,tlen);
public(s,slen);
if (memcmp(c2,t,tlen) != 0) fail("failure: crypto_kem_dec does not handle c=t overlap\n");
memcpy(c2,c,clen);
secret(c,clen);
secret(s2,slen);
result = crypto_kem_dec(s2,c,s2);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec with s=t overlap returns nonzero\n");
public(s2,tlen);
public(c,clen);
if (memcmp(s2,t,tlen) != 0) fail("failure: crypto_kem_dec does not handle s=t overlap\n");
memcpy(s2,s,slen);
c[myrandom() % clen] += 1 + (myrandom() % 255);
if (crypto_kem_dec(t,c,s) == 0)
checksum(t,tlen);
else
checksum(c,clen);
c[myrandom() % clen] += 1 + (myrandom() % 255);
if (crypto_kem_dec(t,c,s) == 0)
checksum(t,tlen);
else
checksum(c,clen);
c[myrandom() % clen] += 1 + (myrandom() % 255);
if (crypto_kem_dec(t,c,s) == 0)
checksum(t,tlen);
else
checksum(c,clen);
}
checksum_expected(kem_6688128pcf_checksums[checksumbig]);
}
}
static void test_kem_6688128pcf(void)
{
if (targeto && strcmp(targeto,"kem")) return;
if (targetp && strcmp(targetp,"6688128pcf")) return;
storage_kem_6688128pcf_p = callocplus(crypto_kem_PUBLICKEYBYTES);
test_kem_6688128pcf_p = aligned(storage_kem_6688128pcf_p,crypto_kem_PUBLICKEYBYTES);
storage_kem_6688128pcf_s = callocplus(crypto_kem_SECRETKEYBYTES);
test_kem_6688128pcf_s = aligned(storage_kem_6688128pcf_s,crypto_kem_SECRETKEYBYTES);
storage_kem_6688128pcf_k = callocplus(crypto_kem_BYTES);
test_kem_6688128pcf_k = aligned(storage_kem_6688128pcf_k,crypto_kem_BYTES);
storage_kem_6688128pcf_c = callocplus(crypto_kem_CIPHERTEXTBYTES);
test_kem_6688128pcf_c = aligned(storage_kem_6688128pcf_c,crypto_kem_CIPHERTEXTBYTES);
storage_kem_6688128pcf_t = callocplus(crypto_kem_BYTES);
test_kem_6688128pcf_t = aligned(storage_kem_6688128pcf_t,crypto_kem_BYTES);
storage_kem_6688128pcf_p2 = callocplus(crypto_kem_PUBLICKEYBYTES);
test_kem_6688128pcf_p2 = aligned(storage_kem_6688128pcf_p2,crypto_kem_PUBLICKEYBYTES);
storage_kem_6688128pcf_s2 = callocplus(crypto_kem_SECRETKEYBYTES);
test_kem_6688128pcf_s2 = aligned(storage_kem_6688128pcf_s2,crypto_kem_SECRETKEYBYTES);
storage_kem_6688128pcf_k2 = callocplus(crypto_kem_BYTES);
test_kem_6688128pcf_k2 = aligned(storage_kem_6688128pcf_k2,crypto_kem_BYTES);
storage_kem_6688128pcf_c2 = callocplus(crypto_kem_CIPHERTEXTBYTES);
test_kem_6688128pcf_c2 = aligned(storage_kem_6688128pcf_c2,crypto_kem_CIPHERTEXTBYTES);
storage_kem_6688128pcf_t2 = callocplus(crypto_kem_BYTES);
test_kem_6688128pcf_t2 = aligned(storage_kem_6688128pcf_t2,crypto_kem_BYTES);
for (long long offset = 0;offset < 2;++offset) {
if (targetoffset && atol(targetoffset) != offset) continue;
if (offset && valgrind) break;
printf("kem_6688128pcf offset %lld\n",offset);
for (long long impl = -1;impl < mceliece_numimpl_kem_6688128pcf();++impl)
forked(test_kem_6688128pcf_impl,impl);
++test_kem_6688128pcf_p;
++test_kem_6688128pcf_s;
++test_kem_6688128pcf_k;
++test_kem_6688128pcf_c;
++test_kem_6688128pcf_t;
++test_kem_6688128pcf_p2;
++test_kem_6688128pcf_s2;
++test_kem_6688128pcf_k2;
++test_kem_6688128pcf_c2;
++test_kem_6688128pcf_t2;
}
free(storage_kem_6688128pcf_t2);
free(storage_kem_6688128pcf_c2);
free(storage_kem_6688128pcf_k2);
free(storage_kem_6688128pcf_s2);
free(storage_kem_6688128pcf_p2);
free(storage_kem_6688128pcf_t);
free(storage_kem_6688128pcf_c);
free(storage_kem_6688128pcf_k);
free(storage_kem_6688128pcf_s);
free(storage_kem_6688128pcf_p);
}
#undef crypto_kem_PUBLICKEYBYTES
#undef crypto_kem_SECRETKEYBYTES
#undef crypto_kem_CIPHERTEXTBYTES
#undef crypto_kem_BYTES
static const char *kem_8192128_checksums[] = {
"debad73db5027e8239b7e97d04c5a98b7521caba8ea4e58581c90efb50dd4b9e",
"5e64e0aeb5ab566a1efbb2b1127dcbf909ee1b395945f066cd5f097a85f2e135",
} ;
static void (*crypto_kem_keypair)(unsigned char *,unsigned char *);
static int (*crypto_kem_enc)(unsigned char *,unsigned char *,const unsigned char *);
static int (*crypto_kem_dec)(unsigned char *,const unsigned char *,const unsigned char *);
#define crypto_kem_PUBLICKEYBYTES mceliece_kem_8192128_PUBLICKEYBYTES
#define crypto_kem_SECRETKEYBYTES mceliece_kem_8192128_SECRETKEYBYTES
#define crypto_kem_CIPHERTEXTBYTES mceliece_kem_8192128_CIPHERTEXTBYTES
#define crypto_kem_BYTES mceliece_kem_8192128_BYTES
static void *storage_kem_8192128_p;
static unsigned char *test_kem_8192128_p;
static void *storage_kem_8192128_s;
static unsigned char *test_kem_8192128_s;
static void *storage_kem_8192128_k;
static unsigned char *test_kem_8192128_k;
static void *storage_kem_8192128_c;
static unsigned char *test_kem_8192128_c;
static void *storage_kem_8192128_t;
static unsigned char *test_kem_8192128_t;
static void *storage_kem_8192128_p2;
static unsigned char *test_kem_8192128_p2;
static void *storage_kem_8192128_s2;
static unsigned char *test_kem_8192128_s2;
static void *storage_kem_8192128_k2;
static unsigned char *test_kem_8192128_k2;
static void *storage_kem_8192128_c2;
static unsigned char *test_kem_8192128_c2;
static void *storage_kem_8192128_t2;
static unsigned char *test_kem_8192128_t2;
static void test_kem_8192128_impl(long long impl)
{
unsigned char *p = test_kem_8192128_p;
unsigned char *s = test_kem_8192128_s;
unsigned char *k = test_kem_8192128_k;
unsigned char *c = test_kem_8192128_c;
unsigned char *t = test_kem_8192128_t;
unsigned char *p2 = test_kem_8192128_p2;
unsigned char *s2 = test_kem_8192128_s2;
unsigned char *k2 = test_kem_8192128_k2;
unsigned char *c2 = test_kem_8192128_c2;
unsigned char *t2 = test_kem_8192128_t2;
long long plen = crypto_kem_PUBLICKEYBYTES;
long long slen = crypto_kem_SECRETKEYBYTES;
long long klen = crypto_kem_BYTES;
long long clen = crypto_kem_CIPHERTEXTBYTES;
long long tlen = crypto_kem_BYTES;
if (targeti && strcmp(targeti,".") && strcmp(targeti,mceliece_dispatch_kem_8192128_implementation(impl))) return;
if (targetn && atol(targetn) != impl) return;
if (impl >= 0) {
crypto_kem_keypair = mceliece_dispatch_kem_8192128_keypair(impl);
crypto_kem_enc = mceliece_dispatch_kem_8192128_enc(impl);
crypto_kem_dec = mceliece_dispatch_kem_8192128_dec(impl);
printf("kem_8192128 %lld implementation %s compiler %s\n",impl,mceliece_dispatch_kem_8192128_implementation(impl),mceliece_dispatch_kem_8192128_compiler(impl));
} else {
crypto_kem_keypair = mceliece_kem_8192128_keypair;
crypto_kem_enc = mceliece_kem_8192128_enc;
crypto_kem_dec = mceliece_kem_8192128_dec;
printf("kem_8192128 selected implementation %s compiler %s\n",mceliece_kem_8192128_implementation(),mceliece_kem_8192128_compiler());
}
for (long long checksumbig = 0;checksumbig < 2;++checksumbig) {
long long loops = checksumbig ? 64 : 8;
checksum_clear();
for (long long loop = 0;loop < loops;++loop) {
int result;
output_prepare(p2,p,plen);
output_prepare(s2,s,slen);
crypto_kem_keypair(p,s);
public(p,plen);
public(s,slen);
checksum(p,plen);
checksum(s,slen);
output_compare(p2,p,plen,"crypto_kem_keypair");
output_compare(s2,s,slen,"crypto_kem_keypair");
output_prepare(c2,c,clen);
output_prepare(k2,k,klen);
memcpy(p2,p,plen);
double_canary(p2,p,plen);
secret(p,plen);
result = crypto_kem_enc(c,k,p);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_enc returns nonzero\n");
public(p,plen);
public(c,clen);
public(k,klen);
checksum(c,clen);
checksum(k,klen);
output_compare(c2,c,clen,"crypto_kem_enc");
output_compare(k2,k,klen,"crypto_kem_enc");
input_compare(p2,p,plen,"crypto_kem_enc");
output_prepare(t2,t,tlen);
memcpy(c2,c,clen);
double_canary(c2,c,clen);
memcpy(s2,s,slen);
double_canary(s2,s,slen);
secret(c,clen);
secret(s,slen);
result = crypto_kem_dec(t,c,s);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec returns nonzero\n");
public(c,clen);
public(s,slen);
public(t,tlen);
if (memcmp(t,k,klen) != 0) fail("failure: crypto_kem_dec does not match k\n");
checksum(t,tlen);
output_compare(t2,t,tlen,"crypto_kem_dec");
input_compare(c2,c,clen,"crypto_kem_dec");
input_compare(s2,s,slen,"crypto_kem_dec");
double_canary(t2,t,tlen);
double_canary(c2,c,clen);
double_canary(s2,s,slen);
secret(c2,clen);
secret(s2,slen);
result = crypto_kem_dec(t2,c2,s2);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec returns nonzero\n");
public(c2,clen);
public(s2,slen);
public(t2,tlen);
if (memcmp(t2,t,tlen) != 0) fail("failure: crypto_kem_dec is nondeterministic\n");
double_canary(t2,t,tlen);
double_canary(c2,c,clen);
double_canary(s2,s,slen);
secret(c2,clen);
secret(s,slen);
result = crypto_kem_dec(c2,c2,s);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec with c=t overlap returns nonzero\n");
public(c2,tlen);
public(s,slen);
if (memcmp(c2,t,tlen) != 0) fail("failure: crypto_kem_dec does not handle c=t overlap\n");
memcpy(c2,c,clen);
secret(c,clen);
secret(s2,slen);
result = crypto_kem_dec(s2,c,s2);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec with s=t overlap returns nonzero\n");
public(s2,tlen);
public(c,clen);
if (memcmp(s2,t,tlen) != 0) fail("failure: crypto_kem_dec does not handle s=t overlap\n");
memcpy(s2,s,slen);
c[myrandom() % clen] += 1 + (myrandom() % 255);
if (crypto_kem_dec(t,c,s) == 0)
checksum(t,tlen);
else
checksum(c,clen);
c[myrandom() % clen] += 1 + (myrandom() % 255);
if (crypto_kem_dec(t,c,s) == 0)
checksum(t,tlen);
else
checksum(c,clen);
c[myrandom() % clen] += 1 + (myrandom() % 255);
if (crypto_kem_dec(t,c,s) == 0)
checksum(t,tlen);
else
checksum(c,clen);
}
checksum_expected(kem_8192128_checksums[checksumbig]);
}
}
static void test_kem_8192128(void)
{
if (targeto && strcmp(targeto,"kem")) return;
if (targetp && strcmp(targetp,"8192128")) return;
storage_kem_8192128_p = callocplus(crypto_kem_PUBLICKEYBYTES);
test_kem_8192128_p = aligned(storage_kem_8192128_p,crypto_kem_PUBLICKEYBYTES);
storage_kem_8192128_s = callocplus(crypto_kem_SECRETKEYBYTES);
test_kem_8192128_s = aligned(storage_kem_8192128_s,crypto_kem_SECRETKEYBYTES);
storage_kem_8192128_k = callocplus(crypto_kem_BYTES);
test_kem_8192128_k = aligned(storage_kem_8192128_k,crypto_kem_BYTES);
storage_kem_8192128_c = callocplus(crypto_kem_CIPHERTEXTBYTES);
test_kem_8192128_c = aligned(storage_kem_8192128_c,crypto_kem_CIPHERTEXTBYTES);
storage_kem_8192128_t = callocplus(crypto_kem_BYTES);
test_kem_8192128_t = aligned(storage_kem_8192128_t,crypto_kem_BYTES);
storage_kem_8192128_p2 = callocplus(crypto_kem_PUBLICKEYBYTES);
test_kem_8192128_p2 = aligned(storage_kem_8192128_p2,crypto_kem_PUBLICKEYBYTES);
storage_kem_8192128_s2 = callocplus(crypto_kem_SECRETKEYBYTES);
test_kem_8192128_s2 = aligned(storage_kem_8192128_s2,crypto_kem_SECRETKEYBYTES);
storage_kem_8192128_k2 = callocplus(crypto_kem_BYTES);
test_kem_8192128_k2 = aligned(storage_kem_8192128_k2,crypto_kem_BYTES);
storage_kem_8192128_c2 = callocplus(crypto_kem_CIPHERTEXTBYTES);
test_kem_8192128_c2 = aligned(storage_kem_8192128_c2,crypto_kem_CIPHERTEXTBYTES);
storage_kem_8192128_t2 = callocplus(crypto_kem_BYTES);
test_kem_8192128_t2 = aligned(storage_kem_8192128_t2,crypto_kem_BYTES);
for (long long offset = 0;offset < 2;++offset) {
if (targetoffset && atol(targetoffset) != offset) continue;
if (offset && valgrind) break;
printf("kem_8192128 offset %lld\n",offset);
for (long long impl = -1;impl < mceliece_numimpl_kem_8192128();++impl)
forked(test_kem_8192128_impl,impl);
++test_kem_8192128_p;
++test_kem_8192128_s;
++test_kem_8192128_k;
++test_kem_8192128_c;
++test_kem_8192128_t;
++test_kem_8192128_p2;
++test_kem_8192128_s2;
++test_kem_8192128_k2;
++test_kem_8192128_c2;
++test_kem_8192128_t2;
}
free(storage_kem_8192128_t2);
free(storage_kem_8192128_c2);
free(storage_kem_8192128_k2);
free(storage_kem_8192128_s2);
free(storage_kem_8192128_p2);
free(storage_kem_8192128_t);
free(storage_kem_8192128_c);
free(storage_kem_8192128_k);
free(storage_kem_8192128_s);
free(storage_kem_8192128_p);
}
#undef crypto_kem_PUBLICKEYBYTES
#undef crypto_kem_SECRETKEYBYTES
#undef crypto_kem_CIPHERTEXTBYTES
#undef crypto_kem_BYTES
static const char *kem_8192128f_checksums[] = {
"2d50dd3ea54c764b5f79505d181c08cefc2276a28c791681cce3a45888c687cc",
"717835d0cdf7f4e9a36a53d93116028be3ba3eb7f57bf4913303f3c2e1830900",
} ;
static void (*crypto_kem_keypair)(unsigned char *,unsigned char *);
static int (*crypto_kem_enc)(unsigned char *,unsigned char *,const unsigned char *);
static int (*crypto_kem_dec)(unsigned char *,const unsigned char *,const unsigned char *);
#define crypto_kem_PUBLICKEYBYTES mceliece_kem_8192128f_PUBLICKEYBYTES
#define crypto_kem_SECRETKEYBYTES mceliece_kem_8192128f_SECRETKEYBYTES
#define crypto_kem_CIPHERTEXTBYTES mceliece_kem_8192128f_CIPHERTEXTBYTES
#define crypto_kem_BYTES mceliece_kem_8192128f_BYTES
static void *storage_kem_8192128f_p;
static unsigned char *test_kem_8192128f_p;
static void *storage_kem_8192128f_s;
static unsigned char *test_kem_8192128f_s;
static void *storage_kem_8192128f_k;
static unsigned char *test_kem_8192128f_k;
static void *storage_kem_8192128f_c;
static unsigned char *test_kem_8192128f_c;
static void *storage_kem_8192128f_t;
static unsigned char *test_kem_8192128f_t;
static void *storage_kem_8192128f_p2;
static unsigned char *test_kem_8192128f_p2;
static void *storage_kem_8192128f_s2;
static unsigned char *test_kem_8192128f_s2;
static void *storage_kem_8192128f_k2;
static unsigned char *test_kem_8192128f_k2;
static void *storage_kem_8192128f_c2;
static unsigned char *test_kem_8192128f_c2;
static void *storage_kem_8192128f_t2;
static unsigned char *test_kem_8192128f_t2;
static void test_kem_8192128f_impl(long long impl)
{
unsigned char *p = test_kem_8192128f_p;
unsigned char *s = test_kem_8192128f_s;
unsigned char *k = test_kem_8192128f_k;
unsigned char *c = test_kem_8192128f_c;
unsigned char *t = test_kem_8192128f_t;
unsigned char *p2 = test_kem_8192128f_p2;
unsigned char *s2 = test_kem_8192128f_s2;
unsigned char *k2 = test_kem_8192128f_k2;
unsigned char *c2 = test_kem_8192128f_c2;
unsigned char *t2 = test_kem_8192128f_t2;
long long plen = crypto_kem_PUBLICKEYBYTES;
long long slen = crypto_kem_SECRETKEYBYTES;
long long klen = crypto_kem_BYTES;
long long clen = crypto_kem_CIPHERTEXTBYTES;
long long tlen = crypto_kem_BYTES;
if (targeti && strcmp(targeti,".") && strcmp(targeti,mceliece_dispatch_kem_8192128f_implementation(impl))) return;
if (targetn && atol(targetn) != impl) return;
if (impl >= 0) {
crypto_kem_keypair = mceliece_dispatch_kem_8192128f_keypair(impl);
crypto_kem_enc = mceliece_dispatch_kem_8192128f_enc(impl);
crypto_kem_dec = mceliece_dispatch_kem_8192128f_dec(impl);
printf("kem_8192128f %lld implementation %s compiler %s\n",impl,mceliece_dispatch_kem_8192128f_implementation(impl),mceliece_dispatch_kem_8192128f_compiler(impl));
} else {
crypto_kem_keypair = mceliece_kem_8192128f_keypair;
crypto_kem_enc = mceliece_kem_8192128f_enc;
crypto_kem_dec = mceliece_kem_8192128f_dec;
printf("kem_8192128f selected implementation %s compiler %s\n",mceliece_kem_8192128f_implementation(),mceliece_kem_8192128f_compiler());
}
for (long long checksumbig = 0;checksumbig < 2;++checksumbig) {
long long loops = checksumbig ? 64 : 8;
checksum_clear();
for (long long loop = 0;loop < loops;++loop) {
int result;
output_prepare(p2,p,plen);
output_prepare(s2,s,slen);
crypto_kem_keypair(p,s);
public(p,plen);
public(s,slen);
checksum(p,plen);
checksum(s,slen);
output_compare(p2,p,plen,"crypto_kem_keypair");
output_compare(s2,s,slen,"crypto_kem_keypair");
output_prepare(c2,c,clen);
output_prepare(k2,k,klen);
memcpy(p2,p,plen);
double_canary(p2,p,plen);
secret(p,plen);
result = crypto_kem_enc(c,k,p);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_enc returns nonzero\n");
public(p,plen);
public(c,clen);
public(k,klen);
checksum(c,clen);
checksum(k,klen);
output_compare(c2,c,clen,"crypto_kem_enc");
output_compare(k2,k,klen,"crypto_kem_enc");
input_compare(p2,p,plen,"crypto_kem_enc");
output_prepare(t2,t,tlen);
memcpy(c2,c,clen);
double_canary(c2,c,clen);
memcpy(s2,s,slen);
double_canary(s2,s,slen);
secret(c,clen);
secret(s,slen);
result = crypto_kem_dec(t,c,s);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec returns nonzero\n");
public(c,clen);
public(s,slen);
public(t,tlen);
if (memcmp(t,k,klen) != 0) fail("failure: crypto_kem_dec does not match k\n");
checksum(t,tlen);
output_compare(t2,t,tlen,"crypto_kem_dec");
input_compare(c2,c,clen,"crypto_kem_dec");
input_compare(s2,s,slen,"crypto_kem_dec");
double_canary(t2,t,tlen);
double_canary(c2,c,clen);
double_canary(s2,s,slen);
secret(c2,clen);
secret(s2,slen);
result = crypto_kem_dec(t2,c2,s2);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec returns nonzero\n");
public(c2,clen);
public(s2,slen);
public(t2,tlen);
if (memcmp(t2,t,tlen) != 0) fail("failure: crypto_kem_dec is nondeterministic\n");
double_canary(t2,t,tlen);
double_canary(c2,c,clen);
double_canary(s2,s,slen);
secret(c2,clen);
secret(s,slen);
result = crypto_kem_dec(c2,c2,s);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec with c=t overlap returns nonzero\n");
public(c2,tlen);
public(s,slen);
if (memcmp(c2,t,tlen) != 0) fail("failure: crypto_kem_dec does not handle c=t overlap\n");
memcpy(c2,c,clen);
secret(c,clen);
secret(s2,slen);
result = crypto_kem_dec(s2,c,s2);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec with s=t overlap returns nonzero\n");
public(s2,tlen);
public(c,clen);
if (memcmp(s2,t,tlen) != 0) fail("failure: crypto_kem_dec does not handle s=t overlap\n");
memcpy(s2,s,slen);
c[myrandom() % clen] += 1 + (myrandom() % 255);
if (crypto_kem_dec(t,c,s) == 0)
checksum(t,tlen);
else
checksum(c,clen);
c[myrandom() % clen] += 1 + (myrandom() % 255);
if (crypto_kem_dec(t,c,s) == 0)
checksum(t,tlen);
else
checksum(c,clen);
c[myrandom() % clen] += 1 + (myrandom() % 255);
if (crypto_kem_dec(t,c,s) == 0)
checksum(t,tlen);
else
checksum(c,clen);
}
checksum_expected(kem_8192128f_checksums[checksumbig]);
}
}
static void test_kem_8192128f(void)
{
if (targeto && strcmp(targeto,"kem")) return;
if (targetp && strcmp(targetp,"8192128f")) return;
storage_kem_8192128f_p = callocplus(crypto_kem_PUBLICKEYBYTES);
test_kem_8192128f_p = aligned(storage_kem_8192128f_p,crypto_kem_PUBLICKEYBYTES);
storage_kem_8192128f_s = callocplus(crypto_kem_SECRETKEYBYTES);
test_kem_8192128f_s = aligned(storage_kem_8192128f_s,crypto_kem_SECRETKEYBYTES);
storage_kem_8192128f_k = callocplus(crypto_kem_BYTES);
test_kem_8192128f_k = aligned(storage_kem_8192128f_k,crypto_kem_BYTES);
storage_kem_8192128f_c = callocplus(crypto_kem_CIPHERTEXTBYTES);
test_kem_8192128f_c = aligned(storage_kem_8192128f_c,crypto_kem_CIPHERTEXTBYTES);
storage_kem_8192128f_t = callocplus(crypto_kem_BYTES);
test_kem_8192128f_t = aligned(storage_kem_8192128f_t,crypto_kem_BYTES);
storage_kem_8192128f_p2 = callocplus(crypto_kem_PUBLICKEYBYTES);
test_kem_8192128f_p2 = aligned(storage_kem_8192128f_p2,crypto_kem_PUBLICKEYBYTES);
storage_kem_8192128f_s2 = callocplus(crypto_kem_SECRETKEYBYTES);
test_kem_8192128f_s2 = aligned(storage_kem_8192128f_s2,crypto_kem_SECRETKEYBYTES);
storage_kem_8192128f_k2 = callocplus(crypto_kem_BYTES);
test_kem_8192128f_k2 = aligned(storage_kem_8192128f_k2,crypto_kem_BYTES);
storage_kem_8192128f_c2 = callocplus(crypto_kem_CIPHERTEXTBYTES);
test_kem_8192128f_c2 = aligned(storage_kem_8192128f_c2,crypto_kem_CIPHERTEXTBYTES);
storage_kem_8192128f_t2 = callocplus(crypto_kem_BYTES);
test_kem_8192128f_t2 = aligned(storage_kem_8192128f_t2,crypto_kem_BYTES);
for (long long offset = 0;offset < 2;++offset) {
if (targetoffset && atol(targetoffset) != offset) continue;
if (offset && valgrind) break;
printf("kem_8192128f offset %lld\n",offset);
for (long long impl = -1;impl < mceliece_numimpl_kem_8192128f();++impl)
forked(test_kem_8192128f_impl,impl);
++test_kem_8192128f_p;
++test_kem_8192128f_s;
++test_kem_8192128f_k;
++test_kem_8192128f_c;
++test_kem_8192128f_t;
++test_kem_8192128f_p2;
++test_kem_8192128f_s2;
++test_kem_8192128f_k2;
++test_kem_8192128f_c2;
++test_kem_8192128f_t2;
}
free(storage_kem_8192128f_t2);
free(storage_kem_8192128f_c2);
free(storage_kem_8192128f_k2);
free(storage_kem_8192128f_s2);
free(storage_kem_8192128f_p2);
free(storage_kem_8192128f_t);
free(storage_kem_8192128f_c);
free(storage_kem_8192128f_k);
free(storage_kem_8192128f_s);
free(storage_kem_8192128f_p);
}
#undef crypto_kem_PUBLICKEYBYTES
#undef crypto_kem_SECRETKEYBYTES
#undef crypto_kem_CIPHERTEXTBYTES
#undef crypto_kem_BYTES
static const char *kem_8192128pc_checksums[] = {
"a9d56a17b9b870e832cddde5c5787b55ada2189992d03eb75e23e710bcb98ccd",
"ac060fe5c1bdb9bd96bfa21ad4875cacb61f8e4eed791511020db06c65909811",
} ;
static void (*crypto_kem_keypair)(unsigned char *,unsigned char *);
static int (*crypto_kem_enc)(unsigned char *,unsigned char *,const unsigned char *);
static int (*crypto_kem_dec)(unsigned char *,const unsigned char *,const unsigned char *);
#define crypto_kem_PUBLICKEYBYTES mceliece_kem_8192128pc_PUBLICKEYBYTES
#define crypto_kem_SECRETKEYBYTES mceliece_kem_8192128pc_SECRETKEYBYTES
#define crypto_kem_CIPHERTEXTBYTES mceliece_kem_8192128pc_CIPHERTEXTBYTES
#define crypto_kem_BYTES mceliece_kem_8192128pc_BYTES
static void *storage_kem_8192128pc_p;
static unsigned char *test_kem_8192128pc_p;
static void *storage_kem_8192128pc_s;
static unsigned char *test_kem_8192128pc_s;
static void *storage_kem_8192128pc_k;
static unsigned char *test_kem_8192128pc_k;
static void *storage_kem_8192128pc_c;
static unsigned char *test_kem_8192128pc_c;
static void *storage_kem_8192128pc_t;
static unsigned char *test_kem_8192128pc_t;
static void *storage_kem_8192128pc_p2;
static unsigned char *test_kem_8192128pc_p2;
static void *storage_kem_8192128pc_s2;
static unsigned char *test_kem_8192128pc_s2;
static void *storage_kem_8192128pc_k2;
static unsigned char *test_kem_8192128pc_k2;
static void *storage_kem_8192128pc_c2;
static unsigned char *test_kem_8192128pc_c2;
static void *storage_kem_8192128pc_t2;
static unsigned char *test_kem_8192128pc_t2;
static void test_kem_8192128pc_impl(long long impl)
{
unsigned char *p = test_kem_8192128pc_p;
unsigned char *s = test_kem_8192128pc_s;
unsigned char *k = test_kem_8192128pc_k;
unsigned char *c = test_kem_8192128pc_c;
unsigned char *t = test_kem_8192128pc_t;
unsigned char *p2 = test_kem_8192128pc_p2;
unsigned char *s2 = test_kem_8192128pc_s2;
unsigned char *k2 = test_kem_8192128pc_k2;
unsigned char *c2 = test_kem_8192128pc_c2;
unsigned char *t2 = test_kem_8192128pc_t2;
long long plen = crypto_kem_PUBLICKEYBYTES;
long long slen = crypto_kem_SECRETKEYBYTES;
long long klen = crypto_kem_BYTES;
long long clen = crypto_kem_CIPHERTEXTBYTES;
long long tlen = crypto_kem_BYTES;
if (targeti && strcmp(targeti,".") && strcmp(targeti,mceliece_dispatch_kem_8192128pc_implementation(impl))) return;
if (targetn && atol(targetn) != impl) return;
if (impl >= 0) {
crypto_kem_keypair = mceliece_dispatch_kem_8192128pc_keypair(impl);
crypto_kem_enc = mceliece_dispatch_kem_8192128pc_enc(impl);
crypto_kem_dec = mceliece_dispatch_kem_8192128pc_dec(impl);
printf("kem_8192128pc %lld implementation %s compiler %s\n",impl,mceliece_dispatch_kem_8192128pc_implementation(impl),mceliece_dispatch_kem_8192128pc_compiler(impl));
} else {
crypto_kem_keypair = mceliece_kem_8192128pc_keypair;
crypto_kem_enc = mceliece_kem_8192128pc_enc;
crypto_kem_dec = mceliece_kem_8192128pc_dec;
printf("kem_8192128pc selected implementation %s compiler %s\n",mceliece_kem_8192128pc_implementation(),mceliece_kem_8192128pc_compiler());
}
for (long long checksumbig = 0;checksumbig < 2;++checksumbig) {
long long loops = checksumbig ? 64 : 8;
checksum_clear();
for (long long loop = 0;loop < loops;++loop) {
int result;
output_prepare(p2,p,plen);
output_prepare(s2,s,slen);
crypto_kem_keypair(p,s);
public(p,plen);
public(s,slen);
checksum(p,plen);
checksum(s,slen);
output_compare(p2,p,plen,"crypto_kem_keypair");
output_compare(s2,s,slen,"crypto_kem_keypair");
output_prepare(c2,c,clen);
output_prepare(k2,k,klen);
memcpy(p2,p,plen);
double_canary(p2,p,plen);
secret(p,plen);
result = crypto_kem_enc(c,k,p);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_enc returns nonzero\n");
public(p,plen);
public(c,clen);
public(k,klen);
checksum(c,clen);
checksum(k,klen);
output_compare(c2,c,clen,"crypto_kem_enc");
output_compare(k2,k,klen,"crypto_kem_enc");
input_compare(p2,p,plen,"crypto_kem_enc");
output_prepare(t2,t,tlen);
memcpy(c2,c,clen);
double_canary(c2,c,clen);
memcpy(s2,s,slen);
double_canary(s2,s,slen);
secret(c,clen);
secret(s,slen);
result = crypto_kem_dec(t,c,s);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec returns nonzero\n");
public(c,clen);
public(s,slen);
public(t,tlen);
if (memcmp(t,k,klen) != 0) fail("failure: crypto_kem_dec does not match k\n");
checksum(t,tlen);
output_compare(t2,t,tlen,"crypto_kem_dec");
input_compare(c2,c,clen,"crypto_kem_dec");
input_compare(s2,s,slen,"crypto_kem_dec");
double_canary(t2,t,tlen);
double_canary(c2,c,clen);
double_canary(s2,s,slen);
secret(c2,clen);
secret(s2,slen);
result = crypto_kem_dec(t2,c2,s2);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec returns nonzero\n");
public(c2,clen);
public(s2,slen);
public(t2,tlen);
if (memcmp(t2,t,tlen) != 0) fail("failure: crypto_kem_dec is nondeterministic\n");
double_canary(t2,t,tlen);
double_canary(c2,c,clen);
double_canary(s2,s,slen);
secret(c2,clen);
secret(s,slen);
result = crypto_kem_dec(c2,c2,s);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec with c=t overlap returns nonzero\n");
public(c2,tlen);
public(s,slen);
if (memcmp(c2,t,tlen) != 0) fail("failure: crypto_kem_dec does not handle c=t overlap\n");
memcpy(c2,c,clen);
secret(c,clen);
secret(s2,slen);
result = crypto_kem_dec(s2,c,s2);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec with s=t overlap returns nonzero\n");
public(s2,tlen);
public(c,clen);
if (memcmp(s2,t,tlen) != 0) fail("failure: crypto_kem_dec does not handle s=t overlap\n");
memcpy(s2,s,slen);
c[myrandom() % clen] += 1 + (myrandom() % 255);
if (crypto_kem_dec(t,c,s) == 0)
checksum(t,tlen);
else
checksum(c,clen);
c[myrandom() % clen] += 1 + (myrandom() % 255);
if (crypto_kem_dec(t,c,s) == 0)
checksum(t,tlen);
else
checksum(c,clen);
c[myrandom() % clen] += 1 + (myrandom() % 255);
if (crypto_kem_dec(t,c,s) == 0)
checksum(t,tlen);
else
checksum(c,clen);
}
checksum_expected(kem_8192128pc_checksums[checksumbig]);
}
}
static void test_kem_8192128pc(void)
{
if (targeto && strcmp(targeto,"kem")) return;
if (targetp && strcmp(targetp,"8192128pc")) return;
storage_kem_8192128pc_p = callocplus(crypto_kem_PUBLICKEYBYTES);
test_kem_8192128pc_p = aligned(storage_kem_8192128pc_p,crypto_kem_PUBLICKEYBYTES);
storage_kem_8192128pc_s = callocplus(crypto_kem_SECRETKEYBYTES);
test_kem_8192128pc_s = aligned(storage_kem_8192128pc_s,crypto_kem_SECRETKEYBYTES);
storage_kem_8192128pc_k = callocplus(crypto_kem_BYTES);
test_kem_8192128pc_k = aligned(storage_kem_8192128pc_k,crypto_kem_BYTES);
storage_kem_8192128pc_c = callocplus(crypto_kem_CIPHERTEXTBYTES);
test_kem_8192128pc_c = aligned(storage_kem_8192128pc_c,crypto_kem_CIPHERTEXTBYTES);
storage_kem_8192128pc_t = callocplus(crypto_kem_BYTES);
test_kem_8192128pc_t = aligned(storage_kem_8192128pc_t,crypto_kem_BYTES);
storage_kem_8192128pc_p2 = callocplus(crypto_kem_PUBLICKEYBYTES);
test_kem_8192128pc_p2 = aligned(storage_kem_8192128pc_p2,crypto_kem_PUBLICKEYBYTES);
storage_kem_8192128pc_s2 = callocplus(crypto_kem_SECRETKEYBYTES);
test_kem_8192128pc_s2 = aligned(storage_kem_8192128pc_s2,crypto_kem_SECRETKEYBYTES);
storage_kem_8192128pc_k2 = callocplus(crypto_kem_BYTES);
test_kem_8192128pc_k2 = aligned(storage_kem_8192128pc_k2,crypto_kem_BYTES);
storage_kem_8192128pc_c2 = callocplus(crypto_kem_CIPHERTEXTBYTES);
test_kem_8192128pc_c2 = aligned(storage_kem_8192128pc_c2,crypto_kem_CIPHERTEXTBYTES);
storage_kem_8192128pc_t2 = callocplus(crypto_kem_BYTES);
test_kem_8192128pc_t2 = aligned(storage_kem_8192128pc_t2,crypto_kem_BYTES);
for (long long offset = 0;offset < 2;++offset) {
if (targetoffset && atol(targetoffset) != offset) continue;
if (offset && valgrind) break;
printf("kem_8192128pc offset %lld\n",offset);
for (long long impl = -1;impl < mceliece_numimpl_kem_8192128pc();++impl)
forked(test_kem_8192128pc_impl,impl);
++test_kem_8192128pc_p;
++test_kem_8192128pc_s;
++test_kem_8192128pc_k;
++test_kem_8192128pc_c;
++test_kem_8192128pc_t;
++test_kem_8192128pc_p2;
++test_kem_8192128pc_s2;
++test_kem_8192128pc_k2;
++test_kem_8192128pc_c2;
++test_kem_8192128pc_t2;
}
free(storage_kem_8192128pc_t2);
free(storage_kem_8192128pc_c2);
free(storage_kem_8192128pc_k2);
free(storage_kem_8192128pc_s2);
free(storage_kem_8192128pc_p2);
free(storage_kem_8192128pc_t);
free(storage_kem_8192128pc_c);
free(storage_kem_8192128pc_k);
free(storage_kem_8192128pc_s);
free(storage_kem_8192128pc_p);
}
#undef crypto_kem_PUBLICKEYBYTES
#undef crypto_kem_SECRETKEYBYTES
#undef crypto_kem_CIPHERTEXTBYTES
#undef crypto_kem_BYTES
static const char *kem_8192128pcf_checksums[] = {
"fdf47ca26ac3e1a3ae8c2859619cce789420a4af8533ded9e1104d232bd62f5e",
"182ec5f02250b7764c121a1b481ec6003c0897f7d772ae7d0bba226660bb99e4",
} ;
static void (*crypto_kem_keypair)(unsigned char *,unsigned char *);
static int (*crypto_kem_enc)(unsigned char *,unsigned char *,const unsigned char *);
static int (*crypto_kem_dec)(unsigned char *,const unsigned char *,const unsigned char *);
#define crypto_kem_PUBLICKEYBYTES mceliece_kem_8192128pcf_PUBLICKEYBYTES
#define crypto_kem_SECRETKEYBYTES mceliece_kem_8192128pcf_SECRETKEYBYTES
#define crypto_kem_CIPHERTEXTBYTES mceliece_kem_8192128pcf_CIPHERTEXTBYTES
#define crypto_kem_BYTES mceliece_kem_8192128pcf_BYTES
static void *storage_kem_8192128pcf_p;
static unsigned char *test_kem_8192128pcf_p;
static void *storage_kem_8192128pcf_s;
static unsigned char *test_kem_8192128pcf_s;
static void *storage_kem_8192128pcf_k;
static unsigned char *test_kem_8192128pcf_k;
static void *storage_kem_8192128pcf_c;
static unsigned char *test_kem_8192128pcf_c;
static void *storage_kem_8192128pcf_t;
static unsigned char *test_kem_8192128pcf_t;
static void *storage_kem_8192128pcf_p2;
static unsigned char *test_kem_8192128pcf_p2;
static void *storage_kem_8192128pcf_s2;
static unsigned char *test_kem_8192128pcf_s2;
static void *storage_kem_8192128pcf_k2;
static unsigned char *test_kem_8192128pcf_k2;
static void *storage_kem_8192128pcf_c2;
static unsigned char *test_kem_8192128pcf_c2;
static void *storage_kem_8192128pcf_t2;
static unsigned char *test_kem_8192128pcf_t2;
static void test_kem_8192128pcf_impl(long long impl)
{
unsigned char *p = test_kem_8192128pcf_p;
unsigned char *s = test_kem_8192128pcf_s;
unsigned char *k = test_kem_8192128pcf_k;
unsigned char *c = test_kem_8192128pcf_c;
unsigned char *t = test_kem_8192128pcf_t;
unsigned char *p2 = test_kem_8192128pcf_p2;
unsigned char *s2 = test_kem_8192128pcf_s2;
unsigned char *k2 = test_kem_8192128pcf_k2;
unsigned char *c2 = test_kem_8192128pcf_c2;
unsigned char *t2 = test_kem_8192128pcf_t2;
long long plen = crypto_kem_PUBLICKEYBYTES;
long long slen = crypto_kem_SECRETKEYBYTES;
long long klen = crypto_kem_BYTES;
long long clen = crypto_kem_CIPHERTEXTBYTES;
long long tlen = crypto_kem_BYTES;
if (targeti && strcmp(targeti,".") && strcmp(targeti,mceliece_dispatch_kem_8192128pcf_implementation(impl))) return;
if (targetn && atol(targetn) != impl) return;
if (impl >= 0) {
crypto_kem_keypair = mceliece_dispatch_kem_8192128pcf_keypair(impl);
crypto_kem_enc = mceliece_dispatch_kem_8192128pcf_enc(impl);
crypto_kem_dec = mceliece_dispatch_kem_8192128pcf_dec(impl);
printf("kem_8192128pcf %lld implementation %s compiler %s\n",impl,mceliece_dispatch_kem_8192128pcf_implementation(impl),mceliece_dispatch_kem_8192128pcf_compiler(impl));
} else {
crypto_kem_keypair = mceliece_kem_8192128pcf_keypair;
crypto_kem_enc = mceliece_kem_8192128pcf_enc;
crypto_kem_dec = mceliece_kem_8192128pcf_dec;
printf("kem_8192128pcf selected implementation %s compiler %s\n",mceliece_kem_8192128pcf_implementation(),mceliece_kem_8192128pcf_compiler());
}
for (long long checksumbig = 0;checksumbig < 2;++checksumbig) {
long long loops = checksumbig ? 64 : 8;
checksum_clear();
for (long long loop = 0;loop < loops;++loop) {
int result;
output_prepare(p2,p,plen);
output_prepare(s2,s,slen);
crypto_kem_keypair(p,s);
public(p,plen);
public(s,slen);
checksum(p,plen);
checksum(s,slen);
output_compare(p2,p,plen,"crypto_kem_keypair");
output_compare(s2,s,slen,"crypto_kem_keypair");
output_prepare(c2,c,clen);
output_prepare(k2,k,klen);
memcpy(p2,p,plen);
double_canary(p2,p,plen);
secret(p,plen);
result = crypto_kem_enc(c,k,p);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_enc returns nonzero\n");
public(p,plen);
public(c,clen);
public(k,klen);
checksum(c,clen);
checksum(k,klen);
output_compare(c2,c,clen,"crypto_kem_enc");
output_compare(k2,k,klen,"crypto_kem_enc");
input_compare(p2,p,plen,"crypto_kem_enc");
output_prepare(t2,t,tlen);
memcpy(c2,c,clen);
double_canary(c2,c,clen);
memcpy(s2,s,slen);
double_canary(s2,s,slen);
secret(c,clen);
secret(s,slen);
result = crypto_kem_dec(t,c,s);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec returns nonzero\n");
public(c,clen);
public(s,slen);
public(t,tlen);
if (memcmp(t,k,klen) != 0) fail("failure: crypto_kem_dec does not match k\n");
checksum(t,tlen);
output_compare(t2,t,tlen,"crypto_kem_dec");
input_compare(c2,c,clen,"crypto_kem_dec");
input_compare(s2,s,slen,"crypto_kem_dec");
double_canary(t2,t,tlen);
double_canary(c2,c,clen);
double_canary(s2,s,slen);
secret(c2,clen);
secret(s2,slen);
result = crypto_kem_dec(t2,c2,s2);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec returns nonzero\n");
public(c2,clen);
public(s2,slen);
public(t2,tlen);
if (memcmp(t2,t,tlen) != 0) fail("failure: crypto_kem_dec is nondeterministic\n");
double_canary(t2,t,tlen);
double_canary(c2,c,clen);
double_canary(s2,s,slen);
secret(c2,clen);
secret(s,slen);
result = crypto_kem_dec(c2,c2,s);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec with c=t overlap returns nonzero\n");
public(c2,tlen);
public(s,slen);
if (memcmp(c2,t,tlen) != 0) fail("failure: crypto_kem_dec does not handle c=t overlap\n");
memcpy(c2,c,clen);
secret(c,clen);
secret(s2,slen);
result = crypto_kem_dec(s2,c,s2);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec with s=t overlap returns nonzero\n");
public(s2,tlen);
public(c,clen);
if (memcmp(s2,t,tlen) != 0) fail("failure: crypto_kem_dec does not handle s=t overlap\n");
memcpy(s2,s,slen);
c[myrandom() % clen] += 1 + (myrandom() % 255);
if (crypto_kem_dec(t,c,s) == 0)
checksum(t,tlen);
else
checksum(c,clen);
c[myrandom() % clen] += 1 + (myrandom() % 255);
if (crypto_kem_dec(t,c,s) == 0)
checksum(t,tlen);
else
checksum(c,clen);
c[myrandom() % clen] += 1 + (myrandom() % 255);
if (crypto_kem_dec(t,c,s) == 0)
checksum(t,tlen);
else
checksum(c,clen);
}
checksum_expected(kem_8192128pcf_checksums[checksumbig]);
}
}
static void test_kem_8192128pcf(void)
{
if (targeto && strcmp(targeto,"kem")) return;
if (targetp && strcmp(targetp,"8192128pcf")) return;
storage_kem_8192128pcf_p = callocplus(crypto_kem_PUBLICKEYBYTES);
test_kem_8192128pcf_p = aligned(storage_kem_8192128pcf_p,crypto_kem_PUBLICKEYBYTES);
storage_kem_8192128pcf_s = callocplus(crypto_kem_SECRETKEYBYTES);
test_kem_8192128pcf_s = aligned(storage_kem_8192128pcf_s,crypto_kem_SECRETKEYBYTES);
storage_kem_8192128pcf_k = callocplus(crypto_kem_BYTES);
test_kem_8192128pcf_k = aligned(storage_kem_8192128pcf_k,crypto_kem_BYTES);
storage_kem_8192128pcf_c = callocplus(crypto_kem_CIPHERTEXTBYTES);
test_kem_8192128pcf_c = aligned(storage_kem_8192128pcf_c,crypto_kem_CIPHERTEXTBYTES);
storage_kem_8192128pcf_t = callocplus(crypto_kem_BYTES);
test_kem_8192128pcf_t = aligned(storage_kem_8192128pcf_t,crypto_kem_BYTES);
storage_kem_8192128pcf_p2 = callocplus(crypto_kem_PUBLICKEYBYTES);
test_kem_8192128pcf_p2 = aligned(storage_kem_8192128pcf_p2,crypto_kem_PUBLICKEYBYTES);
storage_kem_8192128pcf_s2 = callocplus(crypto_kem_SECRETKEYBYTES);
test_kem_8192128pcf_s2 = aligned(storage_kem_8192128pcf_s2,crypto_kem_SECRETKEYBYTES);
storage_kem_8192128pcf_k2 = callocplus(crypto_kem_BYTES);
test_kem_8192128pcf_k2 = aligned(storage_kem_8192128pcf_k2,crypto_kem_BYTES);
storage_kem_8192128pcf_c2 = callocplus(crypto_kem_CIPHERTEXTBYTES);
test_kem_8192128pcf_c2 = aligned(storage_kem_8192128pcf_c2,crypto_kem_CIPHERTEXTBYTES);
storage_kem_8192128pcf_t2 = callocplus(crypto_kem_BYTES);
test_kem_8192128pcf_t2 = aligned(storage_kem_8192128pcf_t2,crypto_kem_BYTES);
for (long long offset = 0;offset < 2;++offset) {
if (targetoffset && atol(targetoffset) != offset) continue;
if (offset && valgrind) break;
printf("kem_8192128pcf offset %lld\n",offset);
for (long long impl = -1;impl < mceliece_numimpl_kem_8192128pcf();++impl)
forked(test_kem_8192128pcf_impl,impl);
++test_kem_8192128pcf_p;
++test_kem_8192128pcf_s;
++test_kem_8192128pcf_k;
++test_kem_8192128pcf_c;
++test_kem_8192128pcf_t;
++test_kem_8192128pcf_p2;
++test_kem_8192128pcf_s2;
++test_kem_8192128pcf_k2;
++test_kem_8192128pcf_c2;
++test_kem_8192128pcf_t2;
}
free(storage_kem_8192128pcf_t2);
free(storage_kem_8192128pcf_c2);
free(storage_kem_8192128pcf_k2);
free(storage_kem_8192128pcf_s2);
free(storage_kem_8192128pcf_p2);
free(storage_kem_8192128pcf_t);
free(storage_kem_8192128pcf_c);
free(storage_kem_8192128pcf_k);
free(storage_kem_8192128pcf_s);
free(storage_kem_8192128pcf_p);
}
#undef crypto_kem_PUBLICKEYBYTES
#undef crypto_kem_SECRETKEYBYTES
#undef crypto_kem_CIPHERTEXTBYTES
#undef crypto_kem_BYTES
static const char *kem_460896_checksums[] = {
"006c110df7fd3ff1852c9096a6514855ef3e715469ecc21d5b6ba14d31057417",
"604d5d0be1ec220a2a914735fa5469622cd1f66737cf7e0709b7eaaa1e382f66",
} ;
static void (*crypto_kem_keypair)(unsigned char *,unsigned char *);
static int (*crypto_kem_enc)(unsigned char *,unsigned char *,const unsigned char *);
static int (*crypto_kem_dec)(unsigned char *,const unsigned char *,const unsigned char *);
#define crypto_kem_PUBLICKEYBYTES mceliece_kem_460896_PUBLICKEYBYTES
#define crypto_kem_SECRETKEYBYTES mceliece_kem_460896_SECRETKEYBYTES
#define crypto_kem_CIPHERTEXTBYTES mceliece_kem_460896_CIPHERTEXTBYTES
#define crypto_kem_BYTES mceliece_kem_460896_BYTES
static void *storage_kem_460896_p;
static unsigned char *test_kem_460896_p;
static void *storage_kem_460896_s;
static unsigned char *test_kem_460896_s;
static void *storage_kem_460896_k;
static unsigned char *test_kem_460896_k;
static void *storage_kem_460896_c;
static unsigned char *test_kem_460896_c;
static void *storage_kem_460896_t;
static unsigned char *test_kem_460896_t;
static void *storage_kem_460896_p2;
static unsigned char *test_kem_460896_p2;
static void *storage_kem_460896_s2;
static unsigned char *test_kem_460896_s2;
static void *storage_kem_460896_k2;
static unsigned char *test_kem_460896_k2;
static void *storage_kem_460896_c2;
static unsigned char *test_kem_460896_c2;
static void *storage_kem_460896_t2;
static unsigned char *test_kem_460896_t2;
static void test_kem_460896_impl(long long impl)
{
unsigned char *p = test_kem_460896_p;
unsigned char *s = test_kem_460896_s;
unsigned char *k = test_kem_460896_k;
unsigned char *c = test_kem_460896_c;
unsigned char *t = test_kem_460896_t;
unsigned char *p2 = test_kem_460896_p2;
unsigned char *s2 = test_kem_460896_s2;
unsigned char *k2 = test_kem_460896_k2;
unsigned char *c2 = test_kem_460896_c2;
unsigned char *t2 = test_kem_460896_t2;
long long plen = crypto_kem_PUBLICKEYBYTES;
long long slen = crypto_kem_SECRETKEYBYTES;
long long klen = crypto_kem_BYTES;
long long clen = crypto_kem_CIPHERTEXTBYTES;
long long tlen = crypto_kem_BYTES;
if (targeti && strcmp(targeti,".") && strcmp(targeti,mceliece_dispatch_kem_460896_implementation(impl))) return;
if (targetn && atol(targetn) != impl) return;
if (impl >= 0) {
crypto_kem_keypair = mceliece_dispatch_kem_460896_keypair(impl);
crypto_kem_enc = mceliece_dispatch_kem_460896_enc(impl);
crypto_kem_dec = mceliece_dispatch_kem_460896_dec(impl);
printf("kem_460896 %lld implementation %s compiler %s\n",impl,mceliece_dispatch_kem_460896_implementation(impl),mceliece_dispatch_kem_460896_compiler(impl));
} else {
crypto_kem_keypair = mceliece_kem_460896_keypair;
crypto_kem_enc = mceliece_kem_460896_enc;
crypto_kem_dec = mceliece_kem_460896_dec;
printf("kem_460896 selected implementation %s compiler %s\n",mceliece_kem_460896_implementation(),mceliece_kem_460896_compiler());
}
for (long long checksumbig = 0;checksumbig < 2;++checksumbig) {
long long loops = checksumbig ? 64 : 8;
checksum_clear();
for (long long loop = 0;loop < loops;++loop) {
int result;
output_prepare(p2,p,plen);
output_prepare(s2,s,slen);
crypto_kem_keypair(p,s);
public(p,plen);
public(s,slen);
checksum(p,plen);
checksum(s,slen);
output_compare(p2,p,plen,"crypto_kem_keypair");
output_compare(s2,s,slen,"crypto_kem_keypair");
output_prepare(c2,c,clen);
output_prepare(k2,k,klen);
memcpy(p2,p,plen);
double_canary(p2,p,plen);
secret(p,plen);
result = crypto_kem_enc(c,k,p);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_enc returns nonzero\n");
public(p,plen);
public(c,clen);
public(k,klen);
checksum(c,clen);
checksum(k,klen);
output_compare(c2,c,clen,"crypto_kem_enc");
output_compare(k2,k,klen,"crypto_kem_enc");
input_compare(p2,p,plen,"crypto_kem_enc");
output_prepare(t2,t,tlen);
memcpy(c2,c,clen);
double_canary(c2,c,clen);
memcpy(s2,s,slen);
double_canary(s2,s,slen);
secret(c,clen);
secret(s,slen);
result = crypto_kem_dec(t,c,s);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec returns nonzero\n");
public(c,clen);
public(s,slen);
public(t,tlen);
if (memcmp(t,k,klen) != 0) fail("failure: crypto_kem_dec does not match k\n");
checksum(t,tlen);
output_compare(t2,t,tlen,"crypto_kem_dec");
input_compare(c2,c,clen,"crypto_kem_dec");
input_compare(s2,s,slen,"crypto_kem_dec");
double_canary(t2,t,tlen);
double_canary(c2,c,clen);
double_canary(s2,s,slen);
secret(c2,clen);
secret(s2,slen);
result = crypto_kem_dec(t2,c2,s2);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec returns nonzero\n");
public(c2,clen);
public(s2,slen);
public(t2,tlen);
if (memcmp(t2,t,tlen) != 0) fail("failure: crypto_kem_dec is nondeterministic\n");
double_canary(t2,t,tlen);
double_canary(c2,c,clen);
double_canary(s2,s,slen);
secret(c2,clen);
secret(s,slen);
result = crypto_kem_dec(c2,c2,s);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec with c=t overlap returns nonzero\n");
public(c2,tlen);
public(s,slen);
if (memcmp(c2,t,tlen) != 0) fail("failure: crypto_kem_dec does not handle c=t overlap\n");
memcpy(c2,c,clen);
secret(c,clen);
secret(s2,slen);
result = crypto_kem_dec(s2,c,s2);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec with s=t overlap returns nonzero\n");
public(s2,tlen);
public(c,clen);
if (memcmp(s2,t,tlen) != 0) fail("failure: crypto_kem_dec does not handle s=t overlap\n");
memcpy(s2,s,slen);
c[myrandom() % clen] += 1 + (myrandom() % 255);
if (crypto_kem_dec(t,c,s) == 0)
checksum(t,tlen);
else
checksum(c,clen);
c[myrandom() % clen] += 1 + (myrandom() % 255);
if (crypto_kem_dec(t,c,s) == 0)
checksum(t,tlen);
else
checksum(c,clen);
c[myrandom() % clen] += 1 + (myrandom() % 255);
if (crypto_kem_dec(t,c,s) == 0)
checksum(t,tlen);
else
checksum(c,clen);
}
checksum_expected(kem_460896_checksums[checksumbig]);
}
}
static void test_kem_460896(void)
{
if (targeto && strcmp(targeto,"kem")) return;
if (targetp && strcmp(targetp,"460896")) return;
storage_kem_460896_p = callocplus(crypto_kem_PUBLICKEYBYTES);
test_kem_460896_p = aligned(storage_kem_460896_p,crypto_kem_PUBLICKEYBYTES);
storage_kem_460896_s = callocplus(crypto_kem_SECRETKEYBYTES);
test_kem_460896_s = aligned(storage_kem_460896_s,crypto_kem_SECRETKEYBYTES);
storage_kem_460896_k = callocplus(crypto_kem_BYTES);
test_kem_460896_k = aligned(storage_kem_460896_k,crypto_kem_BYTES);
storage_kem_460896_c = callocplus(crypto_kem_CIPHERTEXTBYTES);
test_kem_460896_c = aligned(storage_kem_460896_c,crypto_kem_CIPHERTEXTBYTES);
storage_kem_460896_t = callocplus(crypto_kem_BYTES);
test_kem_460896_t = aligned(storage_kem_460896_t,crypto_kem_BYTES);
storage_kem_460896_p2 = callocplus(crypto_kem_PUBLICKEYBYTES);
test_kem_460896_p2 = aligned(storage_kem_460896_p2,crypto_kem_PUBLICKEYBYTES);
storage_kem_460896_s2 = callocplus(crypto_kem_SECRETKEYBYTES);
test_kem_460896_s2 = aligned(storage_kem_460896_s2,crypto_kem_SECRETKEYBYTES);
storage_kem_460896_k2 = callocplus(crypto_kem_BYTES);
test_kem_460896_k2 = aligned(storage_kem_460896_k2,crypto_kem_BYTES);
storage_kem_460896_c2 = callocplus(crypto_kem_CIPHERTEXTBYTES);
test_kem_460896_c2 = aligned(storage_kem_460896_c2,crypto_kem_CIPHERTEXTBYTES);
storage_kem_460896_t2 = callocplus(crypto_kem_BYTES);
test_kem_460896_t2 = aligned(storage_kem_460896_t2,crypto_kem_BYTES);
for (long long offset = 0;offset < 2;++offset) {
if (targetoffset && atol(targetoffset) != offset) continue;
if (offset && valgrind) break;
printf("kem_460896 offset %lld\n",offset);
for (long long impl = -1;impl < mceliece_numimpl_kem_460896();++impl)
forked(test_kem_460896_impl,impl);
++test_kem_460896_p;
++test_kem_460896_s;
++test_kem_460896_k;
++test_kem_460896_c;
++test_kem_460896_t;
++test_kem_460896_p2;
++test_kem_460896_s2;
++test_kem_460896_k2;
++test_kem_460896_c2;
++test_kem_460896_t2;
}
free(storage_kem_460896_t2);
free(storage_kem_460896_c2);
free(storage_kem_460896_k2);
free(storage_kem_460896_s2);
free(storage_kem_460896_p2);
free(storage_kem_460896_t);
free(storage_kem_460896_c);
free(storage_kem_460896_k);
free(storage_kem_460896_s);
free(storage_kem_460896_p);
}
#undef crypto_kem_PUBLICKEYBYTES
#undef crypto_kem_SECRETKEYBYTES
#undef crypto_kem_CIPHERTEXTBYTES
#undef crypto_kem_BYTES
static const char *kem_460896f_checksums[] = {
"1418b90ac6aa9d36bd3c42c7e8c4ba299eafa45e93a903a383041629fb47f043",
"863b850af9436f66906c5824c32165b512352f398f32b2933c424bac34dcdd23",
} ;
static void (*crypto_kem_keypair)(unsigned char *,unsigned char *);
static int (*crypto_kem_enc)(unsigned char *,unsigned char *,const unsigned char *);
static int (*crypto_kem_dec)(unsigned char *,const unsigned char *,const unsigned char *);
#define crypto_kem_PUBLICKEYBYTES mceliece_kem_460896f_PUBLICKEYBYTES
#define crypto_kem_SECRETKEYBYTES mceliece_kem_460896f_SECRETKEYBYTES
#define crypto_kem_CIPHERTEXTBYTES mceliece_kem_460896f_CIPHERTEXTBYTES
#define crypto_kem_BYTES mceliece_kem_460896f_BYTES
static void *storage_kem_460896f_p;
static unsigned char *test_kem_460896f_p;
static void *storage_kem_460896f_s;
static unsigned char *test_kem_460896f_s;
static void *storage_kem_460896f_k;
static unsigned char *test_kem_460896f_k;
static void *storage_kem_460896f_c;
static unsigned char *test_kem_460896f_c;
static void *storage_kem_460896f_t;
static unsigned char *test_kem_460896f_t;
static void *storage_kem_460896f_p2;
static unsigned char *test_kem_460896f_p2;
static void *storage_kem_460896f_s2;
static unsigned char *test_kem_460896f_s2;
static void *storage_kem_460896f_k2;
static unsigned char *test_kem_460896f_k2;
static void *storage_kem_460896f_c2;
static unsigned char *test_kem_460896f_c2;
static void *storage_kem_460896f_t2;
static unsigned char *test_kem_460896f_t2;
static void test_kem_460896f_impl(long long impl)
{
unsigned char *p = test_kem_460896f_p;
unsigned char *s = test_kem_460896f_s;
unsigned char *k = test_kem_460896f_k;
unsigned char *c = test_kem_460896f_c;
unsigned char *t = test_kem_460896f_t;
unsigned char *p2 = test_kem_460896f_p2;
unsigned char *s2 = test_kem_460896f_s2;
unsigned char *k2 = test_kem_460896f_k2;
unsigned char *c2 = test_kem_460896f_c2;
unsigned char *t2 = test_kem_460896f_t2;
long long plen = crypto_kem_PUBLICKEYBYTES;
long long slen = crypto_kem_SECRETKEYBYTES;
long long klen = crypto_kem_BYTES;
long long clen = crypto_kem_CIPHERTEXTBYTES;
long long tlen = crypto_kem_BYTES;
if (targeti && strcmp(targeti,".") && strcmp(targeti,mceliece_dispatch_kem_460896f_implementation(impl))) return;
if (targetn && atol(targetn) != impl) return;
if (impl >= 0) {
crypto_kem_keypair = mceliece_dispatch_kem_460896f_keypair(impl);
crypto_kem_enc = mceliece_dispatch_kem_460896f_enc(impl);
crypto_kem_dec = mceliece_dispatch_kem_460896f_dec(impl);
printf("kem_460896f %lld implementation %s compiler %s\n",impl,mceliece_dispatch_kem_460896f_implementation(impl),mceliece_dispatch_kem_460896f_compiler(impl));
} else {
crypto_kem_keypair = mceliece_kem_460896f_keypair;
crypto_kem_enc = mceliece_kem_460896f_enc;
crypto_kem_dec = mceliece_kem_460896f_dec;
printf("kem_460896f selected implementation %s compiler %s\n",mceliece_kem_460896f_implementation(),mceliece_kem_460896f_compiler());
}
for (long long checksumbig = 0;checksumbig < 2;++checksumbig) {
long long loops = checksumbig ? 64 : 8;
checksum_clear();
for (long long loop = 0;loop < loops;++loop) {
int result;
output_prepare(p2,p,plen);
output_prepare(s2,s,slen);
crypto_kem_keypair(p,s);
public(p,plen);
public(s,slen);
checksum(p,plen);
checksum(s,slen);
output_compare(p2,p,plen,"crypto_kem_keypair");
output_compare(s2,s,slen,"crypto_kem_keypair");
output_prepare(c2,c,clen);
output_prepare(k2,k,klen);
memcpy(p2,p,plen);
double_canary(p2,p,plen);
secret(p,plen);
result = crypto_kem_enc(c,k,p);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_enc returns nonzero\n");
public(p,plen);
public(c,clen);
public(k,klen);
checksum(c,clen);
checksum(k,klen);
output_compare(c2,c,clen,"crypto_kem_enc");
output_compare(k2,k,klen,"crypto_kem_enc");
input_compare(p2,p,plen,"crypto_kem_enc");
output_prepare(t2,t,tlen);
memcpy(c2,c,clen);
double_canary(c2,c,clen);
memcpy(s2,s,slen);
double_canary(s2,s,slen);
secret(c,clen);
secret(s,slen);
result = crypto_kem_dec(t,c,s);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec returns nonzero\n");
public(c,clen);
public(s,slen);
public(t,tlen);
if (memcmp(t,k,klen) != 0) fail("failure: crypto_kem_dec does not match k\n");
checksum(t,tlen);
output_compare(t2,t,tlen,"crypto_kem_dec");
input_compare(c2,c,clen,"crypto_kem_dec");
input_compare(s2,s,slen,"crypto_kem_dec");
double_canary(t2,t,tlen);
double_canary(c2,c,clen);
double_canary(s2,s,slen);
secret(c2,clen);
secret(s2,slen);
result = crypto_kem_dec(t2,c2,s2);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec returns nonzero\n");
public(c2,clen);
public(s2,slen);
public(t2,tlen);
if (memcmp(t2,t,tlen) != 0) fail("failure: crypto_kem_dec is nondeterministic\n");
double_canary(t2,t,tlen);
double_canary(c2,c,clen);
double_canary(s2,s,slen);
secret(c2,clen);
secret(s,slen);
result = crypto_kem_dec(c2,c2,s);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec with c=t overlap returns nonzero\n");
public(c2,tlen);
public(s,slen);
if (memcmp(c2,t,tlen) != 0) fail("failure: crypto_kem_dec does not handle c=t overlap\n");
memcpy(c2,c,clen);
secret(c,clen);
secret(s2,slen);
result = crypto_kem_dec(s2,c,s2);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec with s=t overlap returns nonzero\n");
public(s2,tlen);
public(c,clen);
if (memcmp(s2,t,tlen) != 0) fail("failure: crypto_kem_dec does not handle s=t overlap\n");
memcpy(s2,s,slen);
c[myrandom() % clen] += 1 + (myrandom() % 255);
if (crypto_kem_dec(t,c,s) == 0)
checksum(t,tlen);
else
checksum(c,clen);
c[myrandom() % clen] += 1 + (myrandom() % 255);
if (crypto_kem_dec(t,c,s) == 0)
checksum(t,tlen);
else
checksum(c,clen);
c[myrandom() % clen] += 1 + (myrandom() % 255);
if (crypto_kem_dec(t,c,s) == 0)
checksum(t,tlen);
else
checksum(c,clen);
}
checksum_expected(kem_460896f_checksums[checksumbig]);
}
}
static void test_kem_460896f(void)
{
if (targeto && strcmp(targeto,"kem")) return;
if (targetp && strcmp(targetp,"460896f")) return;
storage_kem_460896f_p = callocplus(crypto_kem_PUBLICKEYBYTES);
test_kem_460896f_p = aligned(storage_kem_460896f_p,crypto_kem_PUBLICKEYBYTES);
storage_kem_460896f_s = callocplus(crypto_kem_SECRETKEYBYTES);
test_kem_460896f_s = aligned(storage_kem_460896f_s,crypto_kem_SECRETKEYBYTES);
storage_kem_460896f_k = callocplus(crypto_kem_BYTES);
test_kem_460896f_k = aligned(storage_kem_460896f_k,crypto_kem_BYTES);
storage_kem_460896f_c = callocplus(crypto_kem_CIPHERTEXTBYTES);
test_kem_460896f_c = aligned(storage_kem_460896f_c,crypto_kem_CIPHERTEXTBYTES);
storage_kem_460896f_t = callocplus(crypto_kem_BYTES);
test_kem_460896f_t = aligned(storage_kem_460896f_t,crypto_kem_BYTES);
storage_kem_460896f_p2 = callocplus(crypto_kem_PUBLICKEYBYTES);
test_kem_460896f_p2 = aligned(storage_kem_460896f_p2,crypto_kem_PUBLICKEYBYTES);
storage_kem_460896f_s2 = callocplus(crypto_kem_SECRETKEYBYTES);
test_kem_460896f_s2 = aligned(storage_kem_460896f_s2,crypto_kem_SECRETKEYBYTES);
storage_kem_460896f_k2 = callocplus(crypto_kem_BYTES);
test_kem_460896f_k2 = aligned(storage_kem_460896f_k2,crypto_kem_BYTES);
storage_kem_460896f_c2 = callocplus(crypto_kem_CIPHERTEXTBYTES);
test_kem_460896f_c2 = aligned(storage_kem_460896f_c2,crypto_kem_CIPHERTEXTBYTES);
storage_kem_460896f_t2 = callocplus(crypto_kem_BYTES);
test_kem_460896f_t2 = aligned(storage_kem_460896f_t2,crypto_kem_BYTES);
for (long long offset = 0;offset < 2;++offset) {
if (targetoffset && atol(targetoffset) != offset) continue;
if (offset && valgrind) break;
printf("kem_460896f offset %lld\n",offset);
for (long long impl = -1;impl < mceliece_numimpl_kem_460896f();++impl)
forked(test_kem_460896f_impl,impl);
++test_kem_460896f_p;
++test_kem_460896f_s;
++test_kem_460896f_k;
++test_kem_460896f_c;
++test_kem_460896f_t;
++test_kem_460896f_p2;
++test_kem_460896f_s2;
++test_kem_460896f_k2;
++test_kem_460896f_c2;
++test_kem_460896f_t2;
}
free(storage_kem_460896f_t2);
free(storage_kem_460896f_c2);
free(storage_kem_460896f_k2);
free(storage_kem_460896f_s2);
free(storage_kem_460896f_p2);
free(storage_kem_460896f_t);
free(storage_kem_460896f_c);
free(storage_kem_460896f_k);
free(storage_kem_460896f_s);
free(storage_kem_460896f_p);
}
#undef crypto_kem_PUBLICKEYBYTES
#undef crypto_kem_SECRETKEYBYTES
#undef crypto_kem_CIPHERTEXTBYTES
#undef crypto_kem_BYTES
static const char *kem_460896pc_checksums[] = {
"e27bb3f53c37eaaef460488d21750a80baf3874b0b26b23e510325e45c31c560",
"99fe694290b1e02673ad7f1b69ce51aa94406ba23cdf77e69012f0b2fbcebaba",
} ;
static void (*crypto_kem_keypair)(unsigned char *,unsigned char *);
static int (*crypto_kem_enc)(unsigned char *,unsigned char *,const unsigned char *);
static int (*crypto_kem_dec)(unsigned char *,const unsigned char *,const unsigned char *);
#define crypto_kem_PUBLICKEYBYTES mceliece_kem_460896pc_PUBLICKEYBYTES
#define crypto_kem_SECRETKEYBYTES mceliece_kem_460896pc_SECRETKEYBYTES
#define crypto_kem_CIPHERTEXTBYTES mceliece_kem_460896pc_CIPHERTEXTBYTES
#define crypto_kem_BYTES mceliece_kem_460896pc_BYTES
static void *storage_kem_460896pc_p;
static unsigned char *test_kem_460896pc_p;
static void *storage_kem_460896pc_s;
static unsigned char *test_kem_460896pc_s;
static void *storage_kem_460896pc_k;
static unsigned char *test_kem_460896pc_k;
static void *storage_kem_460896pc_c;
static unsigned char *test_kem_460896pc_c;
static void *storage_kem_460896pc_t;
static unsigned char *test_kem_460896pc_t;
static void *storage_kem_460896pc_p2;
static unsigned char *test_kem_460896pc_p2;
static void *storage_kem_460896pc_s2;
static unsigned char *test_kem_460896pc_s2;
static void *storage_kem_460896pc_k2;
static unsigned char *test_kem_460896pc_k2;
static void *storage_kem_460896pc_c2;
static unsigned char *test_kem_460896pc_c2;
static void *storage_kem_460896pc_t2;
static unsigned char *test_kem_460896pc_t2;
static void test_kem_460896pc_impl(long long impl)
{
unsigned char *p = test_kem_460896pc_p;
unsigned char *s = test_kem_460896pc_s;
unsigned char *k = test_kem_460896pc_k;
unsigned char *c = test_kem_460896pc_c;
unsigned char *t = test_kem_460896pc_t;
unsigned char *p2 = test_kem_460896pc_p2;
unsigned char *s2 = test_kem_460896pc_s2;
unsigned char *k2 = test_kem_460896pc_k2;
unsigned char *c2 = test_kem_460896pc_c2;
unsigned char *t2 = test_kem_460896pc_t2;
long long plen = crypto_kem_PUBLICKEYBYTES;
long long slen = crypto_kem_SECRETKEYBYTES;
long long klen = crypto_kem_BYTES;
long long clen = crypto_kem_CIPHERTEXTBYTES;
long long tlen = crypto_kem_BYTES;
if (targeti && strcmp(targeti,".") && strcmp(targeti,mceliece_dispatch_kem_460896pc_implementation(impl))) return;
if (targetn && atol(targetn) != impl) return;
if (impl >= 0) {
crypto_kem_keypair = mceliece_dispatch_kem_460896pc_keypair(impl);
crypto_kem_enc = mceliece_dispatch_kem_460896pc_enc(impl);
crypto_kem_dec = mceliece_dispatch_kem_460896pc_dec(impl);
printf("kem_460896pc %lld implementation %s compiler %s\n",impl,mceliece_dispatch_kem_460896pc_implementation(impl),mceliece_dispatch_kem_460896pc_compiler(impl));
} else {
crypto_kem_keypair = mceliece_kem_460896pc_keypair;
crypto_kem_enc = mceliece_kem_460896pc_enc;
crypto_kem_dec = mceliece_kem_460896pc_dec;
printf("kem_460896pc selected implementation %s compiler %s\n",mceliece_kem_460896pc_implementation(),mceliece_kem_460896pc_compiler());
}
for (long long checksumbig = 0;checksumbig < 2;++checksumbig) {
long long loops = checksumbig ? 64 : 8;
checksum_clear();
for (long long loop = 0;loop < loops;++loop) {
int result;
output_prepare(p2,p,plen);
output_prepare(s2,s,slen);
crypto_kem_keypair(p,s);
public(p,plen);
public(s,slen);
checksum(p,plen);
checksum(s,slen);
output_compare(p2,p,plen,"crypto_kem_keypair");
output_compare(s2,s,slen,"crypto_kem_keypair");
output_prepare(c2,c,clen);
output_prepare(k2,k,klen);
memcpy(p2,p,plen);
double_canary(p2,p,plen);
secret(p,plen);
result = crypto_kem_enc(c,k,p);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_enc returns nonzero\n");
public(p,plen);
public(c,clen);
public(k,klen);
checksum(c,clen);
checksum(k,klen);
output_compare(c2,c,clen,"crypto_kem_enc");
output_compare(k2,k,klen,"crypto_kem_enc");
input_compare(p2,p,plen,"crypto_kem_enc");
output_prepare(t2,t,tlen);
memcpy(c2,c,clen);
double_canary(c2,c,clen);
memcpy(s2,s,slen);
double_canary(s2,s,slen);
secret(c,clen);
secret(s,slen);
result = crypto_kem_dec(t,c,s);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec returns nonzero\n");
public(c,clen);
public(s,slen);
public(t,tlen);
if (memcmp(t,k,klen) != 0) fail("failure: crypto_kem_dec does not match k\n");
checksum(t,tlen);
output_compare(t2,t,tlen,"crypto_kem_dec");
input_compare(c2,c,clen,"crypto_kem_dec");
input_compare(s2,s,slen,"crypto_kem_dec");
double_canary(t2,t,tlen);
double_canary(c2,c,clen);
double_canary(s2,s,slen);
secret(c2,clen);
secret(s2,slen);
result = crypto_kem_dec(t2,c2,s2);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec returns nonzero\n");
public(c2,clen);
public(s2,slen);
public(t2,tlen);
if (memcmp(t2,t,tlen) != 0) fail("failure: crypto_kem_dec is nondeterministic\n");
double_canary(t2,t,tlen);
double_canary(c2,c,clen);
double_canary(s2,s,slen);
secret(c2,clen);
secret(s,slen);
result = crypto_kem_dec(c2,c2,s);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec with c=t overlap returns nonzero\n");
public(c2,tlen);
public(s,slen);
if (memcmp(c2,t,tlen) != 0) fail("failure: crypto_kem_dec does not handle c=t overlap\n");
memcpy(c2,c,clen);
secret(c,clen);
secret(s2,slen);
result = crypto_kem_dec(s2,c,s2);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec with s=t overlap returns nonzero\n");
public(s2,tlen);
public(c,clen);
if (memcmp(s2,t,tlen) != 0) fail("failure: crypto_kem_dec does not handle s=t overlap\n");
memcpy(s2,s,slen);
c[myrandom() % clen] += 1 + (myrandom() % 255);
if (crypto_kem_dec(t,c,s) == 0)
checksum(t,tlen);
else
checksum(c,clen);
c[myrandom() % clen] += 1 + (myrandom() % 255);
if (crypto_kem_dec(t,c,s) == 0)
checksum(t,tlen);
else
checksum(c,clen);
c[myrandom() % clen] += 1 + (myrandom() % 255);
if (crypto_kem_dec(t,c,s) == 0)
checksum(t,tlen);
else
checksum(c,clen);
}
checksum_expected(kem_460896pc_checksums[checksumbig]);
}
}
static void test_kem_460896pc(void)
{
if (targeto && strcmp(targeto,"kem")) return;
if (targetp && strcmp(targetp,"460896pc")) return;
storage_kem_460896pc_p = callocplus(crypto_kem_PUBLICKEYBYTES);
test_kem_460896pc_p = aligned(storage_kem_460896pc_p,crypto_kem_PUBLICKEYBYTES);
storage_kem_460896pc_s = callocplus(crypto_kem_SECRETKEYBYTES);
test_kem_460896pc_s = aligned(storage_kem_460896pc_s,crypto_kem_SECRETKEYBYTES);
storage_kem_460896pc_k = callocplus(crypto_kem_BYTES);
test_kem_460896pc_k = aligned(storage_kem_460896pc_k,crypto_kem_BYTES);
storage_kem_460896pc_c = callocplus(crypto_kem_CIPHERTEXTBYTES);
test_kem_460896pc_c = aligned(storage_kem_460896pc_c,crypto_kem_CIPHERTEXTBYTES);
storage_kem_460896pc_t = callocplus(crypto_kem_BYTES);
test_kem_460896pc_t = aligned(storage_kem_460896pc_t,crypto_kem_BYTES);
storage_kem_460896pc_p2 = callocplus(crypto_kem_PUBLICKEYBYTES);
test_kem_460896pc_p2 = aligned(storage_kem_460896pc_p2,crypto_kem_PUBLICKEYBYTES);
storage_kem_460896pc_s2 = callocplus(crypto_kem_SECRETKEYBYTES);
test_kem_460896pc_s2 = aligned(storage_kem_460896pc_s2,crypto_kem_SECRETKEYBYTES);
storage_kem_460896pc_k2 = callocplus(crypto_kem_BYTES);
test_kem_460896pc_k2 = aligned(storage_kem_460896pc_k2,crypto_kem_BYTES);
storage_kem_460896pc_c2 = callocplus(crypto_kem_CIPHERTEXTBYTES);
test_kem_460896pc_c2 = aligned(storage_kem_460896pc_c2,crypto_kem_CIPHERTEXTBYTES);
storage_kem_460896pc_t2 = callocplus(crypto_kem_BYTES);
test_kem_460896pc_t2 = aligned(storage_kem_460896pc_t2,crypto_kem_BYTES);
for (long long offset = 0;offset < 2;++offset) {
if (targetoffset && atol(targetoffset) != offset) continue;
if (offset && valgrind) break;
printf("kem_460896pc offset %lld\n",offset);
for (long long impl = -1;impl < mceliece_numimpl_kem_460896pc();++impl)
forked(test_kem_460896pc_impl,impl);
++test_kem_460896pc_p;
++test_kem_460896pc_s;
++test_kem_460896pc_k;
++test_kem_460896pc_c;
++test_kem_460896pc_t;
++test_kem_460896pc_p2;
++test_kem_460896pc_s2;
++test_kem_460896pc_k2;
++test_kem_460896pc_c2;
++test_kem_460896pc_t2;
}
free(storage_kem_460896pc_t2);
free(storage_kem_460896pc_c2);
free(storage_kem_460896pc_k2);
free(storage_kem_460896pc_s2);
free(storage_kem_460896pc_p2);
free(storage_kem_460896pc_t);
free(storage_kem_460896pc_c);
free(storage_kem_460896pc_k);
free(storage_kem_460896pc_s);
free(storage_kem_460896pc_p);
}
#undef crypto_kem_PUBLICKEYBYTES
#undef crypto_kem_SECRETKEYBYTES
#undef crypto_kem_CIPHERTEXTBYTES
#undef crypto_kem_BYTES
static const char *kem_460896pcf_checksums[] = {
"1980e3f38d8258eca9d8d4300ac8dd6a6cde2f2c10c5e7b589971972531c8505",
"063a2ecf26e027499a9f6b4e8344800819c28bf094926af1e3ec45107175ce53",
} ;
static void (*crypto_kem_keypair)(unsigned char *,unsigned char *);
static int (*crypto_kem_enc)(unsigned char *,unsigned char *,const unsigned char *);
static int (*crypto_kem_dec)(unsigned char *,const unsigned char *,const unsigned char *);
#define crypto_kem_PUBLICKEYBYTES mceliece_kem_460896pcf_PUBLICKEYBYTES
#define crypto_kem_SECRETKEYBYTES mceliece_kem_460896pcf_SECRETKEYBYTES
#define crypto_kem_CIPHERTEXTBYTES mceliece_kem_460896pcf_CIPHERTEXTBYTES
#define crypto_kem_BYTES mceliece_kem_460896pcf_BYTES
static void *storage_kem_460896pcf_p;
static unsigned char *test_kem_460896pcf_p;
static void *storage_kem_460896pcf_s;
static unsigned char *test_kem_460896pcf_s;
static void *storage_kem_460896pcf_k;
static unsigned char *test_kem_460896pcf_k;
static void *storage_kem_460896pcf_c;
static unsigned char *test_kem_460896pcf_c;
static void *storage_kem_460896pcf_t;
static unsigned char *test_kem_460896pcf_t;
static void *storage_kem_460896pcf_p2;
static unsigned char *test_kem_460896pcf_p2;
static void *storage_kem_460896pcf_s2;
static unsigned char *test_kem_460896pcf_s2;
static void *storage_kem_460896pcf_k2;
static unsigned char *test_kem_460896pcf_k2;
static void *storage_kem_460896pcf_c2;
static unsigned char *test_kem_460896pcf_c2;
static void *storage_kem_460896pcf_t2;
static unsigned char *test_kem_460896pcf_t2;
static void test_kem_460896pcf_impl(long long impl)
{
unsigned char *p = test_kem_460896pcf_p;
unsigned char *s = test_kem_460896pcf_s;
unsigned char *k = test_kem_460896pcf_k;
unsigned char *c = test_kem_460896pcf_c;
unsigned char *t = test_kem_460896pcf_t;
unsigned char *p2 = test_kem_460896pcf_p2;
unsigned char *s2 = test_kem_460896pcf_s2;
unsigned char *k2 = test_kem_460896pcf_k2;
unsigned char *c2 = test_kem_460896pcf_c2;
unsigned char *t2 = test_kem_460896pcf_t2;
long long plen = crypto_kem_PUBLICKEYBYTES;
long long slen = crypto_kem_SECRETKEYBYTES;
long long klen = crypto_kem_BYTES;
long long clen = crypto_kem_CIPHERTEXTBYTES;
long long tlen = crypto_kem_BYTES;
if (targeti && strcmp(targeti,".") && strcmp(targeti,mceliece_dispatch_kem_460896pcf_implementation(impl))) return;
if (targetn && atol(targetn) != impl) return;
if (impl >= 0) {
crypto_kem_keypair = mceliece_dispatch_kem_460896pcf_keypair(impl);
crypto_kem_enc = mceliece_dispatch_kem_460896pcf_enc(impl);
crypto_kem_dec = mceliece_dispatch_kem_460896pcf_dec(impl);
printf("kem_460896pcf %lld implementation %s compiler %s\n",impl,mceliece_dispatch_kem_460896pcf_implementation(impl),mceliece_dispatch_kem_460896pcf_compiler(impl));
} else {
crypto_kem_keypair = mceliece_kem_460896pcf_keypair;
crypto_kem_enc = mceliece_kem_460896pcf_enc;
crypto_kem_dec = mceliece_kem_460896pcf_dec;
printf("kem_460896pcf selected implementation %s compiler %s\n",mceliece_kem_460896pcf_implementation(),mceliece_kem_460896pcf_compiler());
}
for (long long checksumbig = 0;checksumbig < 2;++checksumbig) {
long long loops = checksumbig ? 64 : 8;
checksum_clear();
for (long long loop = 0;loop < loops;++loop) {
int result;
output_prepare(p2,p,plen);
output_prepare(s2,s,slen);
crypto_kem_keypair(p,s);
public(p,plen);
public(s,slen);
checksum(p,plen);
checksum(s,slen);
output_compare(p2,p,plen,"crypto_kem_keypair");
output_compare(s2,s,slen,"crypto_kem_keypair");
output_prepare(c2,c,clen);
output_prepare(k2,k,klen);
memcpy(p2,p,plen);
double_canary(p2,p,plen);
secret(p,plen);
result = crypto_kem_enc(c,k,p);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_enc returns nonzero\n");
public(p,plen);
public(c,clen);
public(k,klen);
checksum(c,clen);
checksum(k,klen);
output_compare(c2,c,clen,"crypto_kem_enc");
output_compare(k2,k,klen,"crypto_kem_enc");
input_compare(p2,p,plen,"crypto_kem_enc");
output_prepare(t2,t,tlen);
memcpy(c2,c,clen);
double_canary(c2,c,clen);
memcpy(s2,s,slen);
double_canary(s2,s,slen);
secret(c,clen);
secret(s,slen);
result = crypto_kem_dec(t,c,s);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec returns nonzero\n");
public(c,clen);
public(s,slen);
public(t,tlen);
if (memcmp(t,k,klen) != 0) fail("failure: crypto_kem_dec does not match k\n");
checksum(t,tlen);
output_compare(t2,t,tlen,"crypto_kem_dec");
input_compare(c2,c,clen,"crypto_kem_dec");
input_compare(s2,s,slen,"crypto_kem_dec");
double_canary(t2,t,tlen);
double_canary(c2,c,clen);
double_canary(s2,s,slen);
secret(c2,clen);
secret(s2,slen);
result = crypto_kem_dec(t2,c2,s2);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec returns nonzero\n");
public(c2,clen);
public(s2,slen);
public(t2,tlen);
if (memcmp(t2,t,tlen) != 0) fail("failure: crypto_kem_dec is nondeterministic\n");
double_canary(t2,t,tlen);
double_canary(c2,c,clen);
double_canary(s2,s,slen);
secret(c2,clen);
secret(s,slen);
result = crypto_kem_dec(c2,c2,s);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec with c=t overlap returns nonzero\n");
public(c2,tlen);
public(s,slen);
if (memcmp(c2,t,tlen) != 0) fail("failure: crypto_kem_dec does not handle c=t overlap\n");
memcpy(c2,c,clen);
secret(c,clen);
secret(s2,slen);
result = crypto_kem_dec(s2,c,s2);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec with s=t overlap returns nonzero\n");
public(s2,tlen);
public(c,clen);
if (memcmp(s2,t,tlen) != 0) fail("failure: crypto_kem_dec does not handle s=t overlap\n");
memcpy(s2,s,slen);
c[myrandom() % clen] += 1 + (myrandom() % 255);
if (crypto_kem_dec(t,c,s) == 0)
checksum(t,tlen);
else
checksum(c,clen);
c[myrandom() % clen] += 1 + (myrandom() % 255);
if (crypto_kem_dec(t,c,s) == 0)
checksum(t,tlen);
else
checksum(c,clen);
c[myrandom() % clen] += 1 + (myrandom() % 255);
if (crypto_kem_dec(t,c,s) == 0)
checksum(t,tlen);
else
checksum(c,clen);
}
checksum_expected(kem_460896pcf_checksums[checksumbig]);
}
}
static void test_kem_460896pcf(void)
{
if (targeto && strcmp(targeto,"kem")) return;
if (targetp && strcmp(targetp,"460896pcf")) return;
storage_kem_460896pcf_p = callocplus(crypto_kem_PUBLICKEYBYTES);
test_kem_460896pcf_p = aligned(storage_kem_460896pcf_p,crypto_kem_PUBLICKEYBYTES);
storage_kem_460896pcf_s = callocplus(crypto_kem_SECRETKEYBYTES);
test_kem_460896pcf_s = aligned(storage_kem_460896pcf_s,crypto_kem_SECRETKEYBYTES);
storage_kem_460896pcf_k = callocplus(crypto_kem_BYTES);
test_kem_460896pcf_k = aligned(storage_kem_460896pcf_k,crypto_kem_BYTES);
storage_kem_460896pcf_c = callocplus(crypto_kem_CIPHERTEXTBYTES);
test_kem_460896pcf_c = aligned(storage_kem_460896pcf_c,crypto_kem_CIPHERTEXTBYTES);
storage_kem_460896pcf_t = callocplus(crypto_kem_BYTES);
test_kem_460896pcf_t = aligned(storage_kem_460896pcf_t,crypto_kem_BYTES);
storage_kem_460896pcf_p2 = callocplus(crypto_kem_PUBLICKEYBYTES);
test_kem_460896pcf_p2 = aligned(storage_kem_460896pcf_p2,crypto_kem_PUBLICKEYBYTES);
storage_kem_460896pcf_s2 = callocplus(crypto_kem_SECRETKEYBYTES);
test_kem_460896pcf_s2 = aligned(storage_kem_460896pcf_s2,crypto_kem_SECRETKEYBYTES);
storage_kem_460896pcf_k2 = callocplus(crypto_kem_BYTES);
test_kem_460896pcf_k2 = aligned(storage_kem_460896pcf_k2,crypto_kem_BYTES);
storage_kem_460896pcf_c2 = callocplus(crypto_kem_CIPHERTEXTBYTES);
test_kem_460896pcf_c2 = aligned(storage_kem_460896pcf_c2,crypto_kem_CIPHERTEXTBYTES);
storage_kem_460896pcf_t2 = callocplus(crypto_kem_BYTES);
test_kem_460896pcf_t2 = aligned(storage_kem_460896pcf_t2,crypto_kem_BYTES);
for (long long offset = 0;offset < 2;++offset) {
if (targetoffset && atol(targetoffset) != offset) continue;
if (offset && valgrind) break;
printf("kem_460896pcf offset %lld\n",offset);
for (long long impl = -1;impl < mceliece_numimpl_kem_460896pcf();++impl)
forked(test_kem_460896pcf_impl,impl);
++test_kem_460896pcf_p;
++test_kem_460896pcf_s;
++test_kem_460896pcf_k;
++test_kem_460896pcf_c;
++test_kem_460896pcf_t;
++test_kem_460896pcf_p2;
++test_kem_460896pcf_s2;
++test_kem_460896pcf_k2;
++test_kem_460896pcf_c2;
++test_kem_460896pcf_t2;
}
free(storage_kem_460896pcf_t2);
free(storage_kem_460896pcf_c2);
free(storage_kem_460896pcf_k2);
free(storage_kem_460896pcf_s2);
free(storage_kem_460896pcf_p2);
free(storage_kem_460896pcf_t);
free(storage_kem_460896pcf_c);
free(storage_kem_460896pcf_k);
free(storage_kem_460896pcf_s);
free(storage_kem_460896pcf_p);
}
#undef crypto_kem_PUBLICKEYBYTES
#undef crypto_kem_SECRETKEYBYTES
#undef crypto_kem_CIPHERTEXTBYTES
#undef crypto_kem_BYTES
static const char *kem_348864_checksums[] = {
"2f36e1825115c5accc9a6ea609dec708f83be85e7fe448637bd502de50a1dd91",
"df7965299cab8d4669eb29ebe87a2f61a539aa016a8dcda268a8cd595bf6d8da",
} ;
static void (*crypto_kem_keypair)(unsigned char *,unsigned char *);
static int (*crypto_kem_enc)(unsigned char *,unsigned char *,const unsigned char *);
static int (*crypto_kem_dec)(unsigned char *,const unsigned char *,const unsigned char *);
#define crypto_kem_PUBLICKEYBYTES mceliece_kem_348864_PUBLICKEYBYTES
#define crypto_kem_SECRETKEYBYTES mceliece_kem_348864_SECRETKEYBYTES
#define crypto_kem_CIPHERTEXTBYTES mceliece_kem_348864_CIPHERTEXTBYTES
#define crypto_kem_BYTES mceliece_kem_348864_BYTES
static void *storage_kem_348864_p;
static unsigned char *test_kem_348864_p;
static void *storage_kem_348864_s;
static unsigned char *test_kem_348864_s;
static void *storage_kem_348864_k;
static unsigned char *test_kem_348864_k;
static void *storage_kem_348864_c;
static unsigned char *test_kem_348864_c;
static void *storage_kem_348864_t;
static unsigned char *test_kem_348864_t;
static void *storage_kem_348864_p2;
static unsigned char *test_kem_348864_p2;
static void *storage_kem_348864_s2;
static unsigned char *test_kem_348864_s2;
static void *storage_kem_348864_k2;
static unsigned char *test_kem_348864_k2;
static void *storage_kem_348864_c2;
static unsigned char *test_kem_348864_c2;
static void *storage_kem_348864_t2;
static unsigned char *test_kem_348864_t2;
static void test_kem_348864_impl(long long impl)
{
unsigned char *p = test_kem_348864_p;
unsigned char *s = test_kem_348864_s;
unsigned char *k = test_kem_348864_k;
unsigned char *c = test_kem_348864_c;
unsigned char *t = test_kem_348864_t;
unsigned char *p2 = test_kem_348864_p2;
unsigned char *s2 = test_kem_348864_s2;
unsigned char *k2 = test_kem_348864_k2;
unsigned char *c2 = test_kem_348864_c2;
unsigned char *t2 = test_kem_348864_t2;
long long plen = crypto_kem_PUBLICKEYBYTES;
long long slen = crypto_kem_SECRETKEYBYTES;
long long klen = crypto_kem_BYTES;
long long clen = crypto_kem_CIPHERTEXTBYTES;
long long tlen = crypto_kem_BYTES;
if (targeti && strcmp(targeti,".") && strcmp(targeti,mceliece_dispatch_kem_348864_implementation(impl))) return;
if (targetn && atol(targetn) != impl) return;
if (impl >= 0) {
crypto_kem_keypair = mceliece_dispatch_kem_348864_keypair(impl);
crypto_kem_enc = mceliece_dispatch_kem_348864_enc(impl);
crypto_kem_dec = mceliece_dispatch_kem_348864_dec(impl);
printf("kem_348864 %lld implementation %s compiler %s\n",impl,mceliece_dispatch_kem_348864_implementation(impl),mceliece_dispatch_kem_348864_compiler(impl));
} else {
crypto_kem_keypair = mceliece_kem_348864_keypair;
crypto_kem_enc = mceliece_kem_348864_enc;
crypto_kem_dec = mceliece_kem_348864_dec;
printf("kem_348864 selected implementation %s compiler %s\n",mceliece_kem_348864_implementation(),mceliece_kem_348864_compiler());
}
for (long long checksumbig = 0;checksumbig < 2;++checksumbig) {
long long loops = checksumbig ? 64 : 8;
checksum_clear();
for (long long loop = 0;loop < loops;++loop) {
int result;
output_prepare(p2,p,plen);
output_prepare(s2,s,slen);
crypto_kem_keypair(p,s);
public(p,plen);
public(s,slen);
checksum(p,plen);
checksum(s,slen);
output_compare(p2,p,plen,"crypto_kem_keypair");
output_compare(s2,s,slen,"crypto_kem_keypair");
output_prepare(c2,c,clen);
output_prepare(k2,k,klen);
memcpy(p2,p,plen);
double_canary(p2,p,plen);
secret(p,plen);
result = crypto_kem_enc(c,k,p);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_enc returns nonzero\n");
public(p,plen);
public(c,clen);
public(k,klen);
checksum(c,clen);
checksum(k,klen);
output_compare(c2,c,clen,"crypto_kem_enc");
output_compare(k2,k,klen,"crypto_kem_enc");
input_compare(p2,p,plen,"crypto_kem_enc");
output_prepare(t2,t,tlen);
memcpy(c2,c,clen);
double_canary(c2,c,clen);
memcpy(s2,s,slen);
double_canary(s2,s,slen);
secret(c,clen);
secret(s,slen);
result = crypto_kem_dec(t,c,s);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec returns nonzero\n");
public(c,clen);
public(s,slen);
public(t,tlen);
if (memcmp(t,k,klen) != 0) fail("failure: crypto_kem_dec does not match k\n");
checksum(t,tlen);
output_compare(t2,t,tlen,"crypto_kem_dec");
input_compare(c2,c,clen,"crypto_kem_dec");
input_compare(s2,s,slen,"crypto_kem_dec");
double_canary(t2,t,tlen);
double_canary(c2,c,clen);
double_canary(s2,s,slen);
secret(c2,clen);
secret(s2,slen);
result = crypto_kem_dec(t2,c2,s2);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec returns nonzero\n");
public(c2,clen);
public(s2,slen);
public(t2,tlen);
if (memcmp(t2,t,tlen) != 0) fail("failure: crypto_kem_dec is nondeterministic\n");
double_canary(t2,t,tlen);
double_canary(c2,c,clen);
double_canary(s2,s,slen);
secret(c2,clen);
secret(s,slen);
result = crypto_kem_dec(c2,c2,s);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec with c=t overlap returns nonzero\n");
public(c2,tlen);
public(s,slen);
if (memcmp(c2,t,tlen) != 0) fail("failure: crypto_kem_dec does not handle c=t overlap\n");
memcpy(c2,c,clen);
secret(c,clen);
secret(s2,slen);
result = crypto_kem_dec(s2,c,s2);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec with s=t overlap returns nonzero\n");
public(s2,tlen);
public(c,clen);
if (memcmp(s2,t,tlen) != 0) fail("failure: crypto_kem_dec does not handle s=t overlap\n");
memcpy(s2,s,slen);
c[myrandom() % clen] += 1 + (myrandom() % 255);
if (crypto_kem_dec(t,c,s) == 0)
checksum(t,tlen);
else
checksum(c,clen);
c[myrandom() % clen] += 1 + (myrandom() % 255);
if (crypto_kem_dec(t,c,s) == 0)
checksum(t,tlen);
else
checksum(c,clen);
c[myrandom() % clen] += 1 + (myrandom() % 255);
if (crypto_kem_dec(t,c,s) == 0)
checksum(t,tlen);
else
checksum(c,clen);
}
checksum_expected(kem_348864_checksums[checksumbig]);
}
}
static void test_kem_348864(void)
{
if (targeto && strcmp(targeto,"kem")) return;
if (targetp && strcmp(targetp,"348864")) return;
storage_kem_348864_p = callocplus(crypto_kem_PUBLICKEYBYTES);
test_kem_348864_p = aligned(storage_kem_348864_p,crypto_kem_PUBLICKEYBYTES);
storage_kem_348864_s = callocplus(crypto_kem_SECRETKEYBYTES);
test_kem_348864_s = aligned(storage_kem_348864_s,crypto_kem_SECRETKEYBYTES);
storage_kem_348864_k = callocplus(crypto_kem_BYTES);
test_kem_348864_k = aligned(storage_kem_348864_k,crypto_kem_BYTES);
storage_kem_348864_c = callocplus(crypto_kem_CIPHERTEXTBYTES);
test_kem_348864_c = aligned(storage_kem_348864_c,crypto_kem_CIPHERTEXTBYTES);
storage_kem_348864_t = callocplus(crypto_kem_BYTES);
test_kem_348864_t = aligned(storage_kem_348864_t,crypto_kem_BYTES);
storage_kem_348864_p2 = callocplus(crypto_kem_PUBLICKEYBYTES);
test_kem_348864_p2 = aligned(storage_kem_348864_p2,crypto_kem_PUBLICKEYBYTES);
storage_kem_348864_s2 = callocplus(crypto_kem_SECRETKEYBYTES);
test_kem_348864_s2 = aligned(storage_kem_348864_s2,crypto_kem_SECRETKEYBYTES);
storage_kem_348864_k2 = callocplus(crypto_kem_BYTES);
test_kem_348864_k2 = aligned(storage_kem_348864_k2,crypto_kem_BYTES);
storage_kem_348864_c2 = callocplus(crypto_kem_CIPHERTEXTBYTES);
test_kem_348864_c2 = aligned(storage_kem_348864_c2,crypto_kem_CIPHERTEXTBYTES);
storage_kem_348864_t2 = callocplus(crypto_kem_BYTES);
test_kem_348864_t2 = aligned(storage_kem_348864_t2,crypto_kem_BYTES);
for (long long offset = 0;offset < 2;++offset) {
if (targetoffset && atol(targetoffset) != offset) continue;
if (offset && valgrind) break;
printf("kem_348864 offset %lld\n",offset);
for (long long impl = -1;impl < mceliece_numimpl_kem_348864();++impl)
forked(test_kem_348864_impl,impl);
++test_kem_348864_p;
++test_kem_348864_s;
++test_kem_348864_k;
++test_kem_348864_c;
++test_kem_348864_t;
++test_kem_348864_p2;
++test_kem_348864_s2;
++test_kem_348864_k2;
++test_kem_348864_c2;
++test_kem_348864_t2;
}
free(storage_kem_348864_t2);
free(storage_kem_348864_c2);
free(storage_kem_348864_k2);
free(storage_kem_348864_s2);
free(storage_kem_348864_p2);
free(storage_kem_348864_t);
free(storage_kem_348864_c);
free(storage_kem_348864_k);
free(storage_kem_348864_s);
free(storage_kem_348864_p);
}
#undef crypto_kem_PUBLICKEYBYTES
#undef crypto_kem_SECRETKEYBYTES
#undef crypto_kem_CIPHERTEXTBYTES
#undef crypto_kem_BYTES
static const char *kem_348864f_checksums[] = {
"5ad76eff6b5ccaedc1615e9795880cfd79b44c4247db4b8a13684c507a5db437",
"471a096310df17d7650c5d1a2e798909598b3b16652c70eb722be84673cf2f8f",
} ;
static void (*crypto_kem_keypair)(unsigned char *,unsigned char *);
static int (*crypto_kem_enc)(unsigned char *,unsigned char *,const unsigned char *);
static int (*crypto_kem_dec)(unsigned char *,const unsigned char *,const unsigned char *);
#define crypto_kem_PUBLICKEYBYTES mceliece_kem_348864f_PUBLICKEYBYTES
#define crypto_kem_SECRETKEYBYTES mceliece_kem_348864f_SECRETKEYBYTES
#define crypto_kem_CIPHERTEXTBYTES mceliece_kem_348864f_CIPHERTEXTBYTES
#define crypto_kem_BYTES mceliece_kem_348864f_BYTES
static void *storage_kem_348864f_p;
static unsigned char *test_kem_348864f_p;
static void *storage_kem_348864f_s;
static unsigned char *test_kem_348864f_s;
static void *storage_kem_348864f_k;
static unsigned char *test_kem_348864f_k;
static void *storage_kem_348864f_c;
static unsigned char *test_kem_348864f_c;
static void *storage_kem_348864f_t;
static unsigned char *test_kem_348864f_t;
static void *storage_kem_348864f_p2;
static unsigned char *test_kem_348864f_p2;
static void *storage_kem_348864f_s2;
static unsigned char *test_kem_348864f_s2;
static void *storage_kem_348864f_k2;
static unsigned char *test_kem_348864f_k2;
static void *storage_kem_348864f_c2;
static unsigned char *test_kem_348864f_c2;
static void *storage_kem_348864f_t2;
static unsigned char *test_kem_348864f_t2;
static void test_kem_348864f_impl(long long impl)
{
unsigned char *p = test_kem_348864f_p;
unsigned char *s = test_kem_348864f_s;
unsigned char *k = test_kem_348864f_k;
unsigned char *c = test_kem_348864f_c;
unsigned char *t = test_kem_348864f_t;
unsigned char *p2 = test_kem_348864f_p2;
unsigned char *s2 = test_kem_348864f_s2;
unsigned char *k2 = test_kem_348864f_k2;
unsigned char *c2 = test_kem_348864f_c2;
unsigned char *t2 = test_kem_348864f_t2;
long long plen = crypto_kem_PUBLICKEYBYTES;
long long slen = crypto_kem_SECRETKEYBYTES;
long long klen = crypto_kem_BYTES;
long long clen = crypto_kem_CIPHERTEXTBYTES;
long long tlen = crypto_kem_BYTES;
if (targeti && strcmp(targeti,".") && strcmp(targeti,mceliece_dispatch_kem_348864f_implementation(impl))) return;
if (targetn && atol(targetn) != impl) return;
if (impl >= 0) {
crypto_kem_keypair = mceliece_dispatch_kem_348864f_keypair(impl);
crypto_kem_enc = mceliece_dispatch_kem_348864f_enc(impl);
crypto_kem_dec = mceliece_dispatch_kem_348864f_dec(impl);
printf("kem_348864f %lld implementation %s compiler %s\n",impl,mceliece_dispatch_kem_348864f_implementation(impl),mceliece_dispatch_kem_348864f_compiler(impl));
} else {
crypto_kem_keypair = mceliece_kem_348864f_keypair;
crypto_kem_enc = mceliece_kem_348864f_enc;
crypto_kem_dec = mceliece_kem_348864f_dec;
printf("kem_348864f selected implementation %s compiler %s\n",mceliece_kem_348864f_implementation(),mceliece_kem_348864f_compiler());
}
for (long long checksumbig = 0;checksumbig < 2;++checksumbig) {
long long loops = checksumbig ? 64 : 8;
checksum_clear();
for (long long loop = 0;loop < loops;++loop) {
int result;
output_prepare(p2,p,plen);
output_prepare(s2,s,slen);
crypto_kem_keypair(p,s);
public(p,plen);
public(s,slen);
checksum(p,plen);
checksum(s,slen);
output_compare(p2,p,plen,"crypto_kem_keypair");
output_compare(s2,s,slen,"crypto_kem_keypair");
output_prepare(c2,c,clen);
output_prepare(k2,k,klen);
memcpy(p2,p,plen);
double_canary(p2,p,plen);
secret(p,plen);
result = crypto_kem_enc(c,k,p);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_enc returns nonzero\n");
public(p,plen);
public(c,clen);
public(k,klen);
checksum(c,clen);
checksum(k,klen);
output_compare(c2,c,clen,"crypto_kem_enc");
output_compare(k2,k,klen,"crypto_kem_enc");
input_compare(p2,p,plen,"crypto_kem_enc");
output_prepare(t2,t,tlen);
memcpy(c2,c,clen);
double_canary(c2,c,clen);
memcpy(s2,s,slen);
double_canary(s2,s,slen);
secret(c,clen);
secret(s,slen);
result = crypto_kem_dec(t,c,s);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec returns nonzero\n");
public(c,clen);
public(s,slen);
public(t,tlen);
if (memcmp(t,k,klen) != 0) fail("failure: crypto_kem_dec does not match k\n");
checksum(t,tlen);
output_compare(t2,t,tlen,"crypto_kem_dec");
input_compare(c2,c,clen,"crypto_kem_dec");
input_compare(s2,s,slen,"crypto_kem_dec");
double_canary(t2,t,tlen);
double_canary(c2,c,clen);
double_canary(s2,s,slen);
secret(c2,clen);
secret(s2,slen);
result = crypto_kem_dec(t2,c2,s2);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec returns nonzero\n");
public(c2,clen);
public(s2,slen);
public(t2,tlen);
if (memcmp(t2,t,tlen) != 0) fail("failure: crypto_kem_dec is nondeterministic\n");
double_canary(t2,t,tlen);
double_canary(c2,c,clen);
double_canary(s2,s,slen);
secret(c2,clen);
secret(s,slen);
result = crypto_kem_dec(c2,c2,s);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec with c=t overlap returns nonzero\n");
public(c2,tlen);
public(s,slen);
if (memcmp(c2,t,tlen) != 0) fail("failure: crypto_kem_dec does not handle c=t overlap\n");
memcpy(c2,c,clen);
secret(c,clen);
secret(s2,slen);
result = crypto_kem_dec(s2,c,s2);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec with s=t overlap returns nonzero\n");
public(s2,tlen);
public(c,clen);
if (memcmp(s2,t,tlen) != 0) fail("failure: crypto_kem_dec does not handle s=t overlap\n");
memcpy(s2,s,slen);
c[myrandom() % clen] += 1 + (myrandom() % 255);
if (crypto_kem_dec(t,c,s) == 0)
checksum(t,tlen);
else
checksum(c,clen);
c[myrandom() % clen] += 1 + (myrandom() % 255);
if (crypto_kem_dec(t,c,s) == 0)
checksum(t,tlen);
else
checksum(c,clen);
c[myrandom() % clen] += 1 + (myrandom() % 255);
if (crypto_kem_dec(t,c,s) == 0)
checksum(t,tlen);
else
checksum(c,clen);
}
checksum_expected(kem_348864f_checksums[checksumbig]);
}
}
static void test_kem_348864f(void)
{
if (targeto && strcmp(targeto,"kem")) return;
if (targetp && strcmp(targetp,"348864f")) return;
storage_kem_348864f_p = callocplus(crypto_kem_PUBLICKEYBYTES);
test_kem_348864f_p = aligned(storage_kem_348864f_p,crypto_kem_PUBLICKEYBYTES);
storage_kem_348864f_s = callocplus(crypto_kem_SECRETKEYBYTES);
test_kem_348864f_s = aligned(storage_kem_348864f_s,crypto_kem_SECRETKEYBYTES);
storage_kem_348864f_k = callocplus(crypto_kem_BYTES);
test_kem_348864f_k = aligned(storage_kem_348864f_k,crypto_kem_BYTES);
storage_kem_348864f_c = callocplus(crypto_kem_CIPHERTEXTBYTES);
test_kem_348864f_c = aligned(storage_kem_348864f_c,crypto_kem_CIPHERTEXTBYTES);
storage_kem_348864f_t = callocplus(crypto_kem_BYTES);
test_kem_348864f_t = aligned(storage_kem_348864f_t,crypto_kem_BYTES);
storage_kem_348864f_p2 = callocplus(crypto_kem_PUBLICKEYBYTES);
test_kem_348864f_p2 = aligned(storage_kem_348864f_p2,crypto_kem_PUBLICKEYBYTES);
storage_kem_348864f_s2 = callocplus(crypto_kem_SECRETKEYBYTES);
test_kem_348864f_s2 = aligned(storage_kem_348864f_s2,crypto_kem_SECRETKEYBYTES);
storage_kem_348864f_k2 = callocplus(crypto_kem_BYTES);
test_kem_348864f_k2 = aligned(storage_kem_348864f_k2,crypto_kem_BYTES);
storage_kem_348864f_c2 = callocplus(crypto_kem_CIPHERTEXTBYTES);
test_kem_348864f_c2 = aligned(storage_kem_348864f_c2,crypto_kem_CIPHERTEXTBYTES);
storage_kem_348864f_t2 = callocplus(crypto_kem_BYTES);
test_kem_348864f_t2 = aligned(storage_kem_348864f_t2,crypto_kem_BYTES);
for (long long offset = 0;offset < 2;++offset) {
if (targetoffset && atol(targetoffset) != offset) continue;
if (offset && valgrind) break;
printf("kem_348864f offset %lld\n",offset);
for (long long impl = -1;impl < mceliece_numimpl_kem_348864f();++impl)
forked(test_kem_348864f_impl,impl);
++test_kem_348864f_p;
++test_kem_348864f_s;
++test_kem_348864f_k;
++test_kem_348864f_c;
++test_kem_348864f_t;
++test_kem_348864f_p2;
++test_kem_348864f_s2;
++test_kem_348864f_k2;
++test_kem_348864f_c2;
++test_kem_348864f_t2;
}
free(storage_kem_348864f_t2);
free(storage_kem_348864f_c2);
free(storage_kem_348864f_k2);
free(storage_kem_348864f_s2);
free(storage_kem_348864f_p2);
free(storage_kem_348864f_t);
free(storage_kem_348864f_c);
free(storage_kem_348864f_k);
free(storage_kem_348864f_s);
free(storage_kem_348864f_p);
}
#undef crypto_kem_PUBLICKEYBYTES
#undef crypto_kem_SECRETKEYBYTES
#undef crypto_kem_CIPHERTEXTBYTES
#undef crypto_kem_BYTES
static const char *kem_348864pc_checksums[] = {
"ddfa65df30bee9c97e153089d24cce158a7979aa01ebdbb7bf374da13bd81feb",
"9866af598e967b1b3903d9e125bf756a92aed474f750678238b2bb52129cd213",
} ;
static void (*crypto_kem_keypair)(unsigned char *,unsigned char *);
static int (*crypto_kem_enc)(unsigned char *,unsigned char *,const unsigned char *);
static int (*crypto_kem_dec)(unsigned char *,const unsigned char *,const unsigned char *);
#define crypto_kem_PUBLICKEYBYTES mceliece_kem_348864pc_PUBLICKEYBYTES
#define crypto_kem_SECRETKEYBYTES mceliece_kem_348864pc_SECRETKEYBYTES
#define crypto_kem_CIPHERTEXTBYTES mceliece_kem_348864pc_CIPHERTEXTBYTES
#define crypto_kem_BYTES mceliece_kem_348864pc_BYTES
static void *storage_kem_348864pc_p;
static unsigned char *test_kem_348864pc_p;
static void *storage_kem_348864pc_s;
static unsigned char *test_kem_348864pc_s;
static void *storage_kem_348864pc_k;
static unsigned char *test_kem_348864pc_k;
static void *storage_kem_348864pc_c;
static unsigned char *test_kem_348864pc_c;
static void *storage_kem_348864pc_t;
static unsigned char *test_kem_348864pc_t;
static void *storage_kem_348864pc_p2;
static unsigned char *test_kem_348864pc_p2;
static void *storage_kem_348864pc_s2;
static unsigned char *test_kem_348864pc_s2;
static void *storage_kem_348864pc_k2;
static unsigned char *test_kem_348864pc_k2;
static void *storage_kem_348864pc_c2;
static unsigned char *test_kem_348864pc_c2;
static void *storage_kem_348864pc_t2;
static unsigned char *test_kem_348864pc_t2;
static void test_kem_348864pc_impl(long long impl)
{
unsigned char *p = test_kem_348864pc_p;
unsigned char *s = test_kem_348864pc_s;
unsigned char *k = test_kem_348864pc_k;
unsigned char *c = test_kem_348864pc_c;
unsigned char *t = test_kem_348864pc_t;
unsigned char *p2 = test_kem_348864pc_p2;
unsigned char *s2 = test_kem_348864pc_s2;
unsigned char *k2 = test_kem_348864pc_k2;
unsigned char *c2 = test_kem_348864pc_c2;
unsigned char *t2 = test_kem_348864pc_t2;
long long plen = crypto_kem_PUBLICKEYBYTES;
long long slen = crypto_kem_SECRETKEYBYTES;
long long klen = crypto_kem_BYTES;
long long clen = crypto_kem_CIPHERTEXTBYTES;
long long tlen = crypto_kem_BYTES;
if (targeti && strcmp(targeti,".") && strcmp(targeti,mceliece_dispatch_kem_348864pc_implementation(impl))) return;
if (targetn && atol(targetn) != impl) return;
if (impl >= 0) {
crypto_kem_keypair = mceliece_dispatch_kem_348864pc_keypair(impl);
crypto_kem_enc = mceliece_dispatch_kem_348864pc_enc(impl);
crypto_kem_dec = mceliece_dispatch_kem_348864pc_dec(impl);
printf("kem_348864pc %lld implementation %s compiler %s\n",impl,mceliece_dispatch_kem_348864pc_implementation(impl),mceliece_dispatch_kem_348864pc_compiler(impl));
} else {
crypto_kem_keypair = mceliece_kem_348864pc_keypair;
crypto_kem_enc = mceliece_kem_348864pc_enc;
crypto_kem_dec = mceliece_kem_348864pc_dec;
printf("kem_348864pc selected implementation %s compiler %s\n",mceliece_kem_348864pc_implementation(),mceliece_kem_348864pc_compiler());
}
for (long long checksumbig = 0;checksumbig < 2;++checksumbig) {
long long loops = checksumbig ? 64 : 8;
checksum_clear();
for (long long loop = 0;loop < loops;++loop) {
int result;
output_prepare(p2,p,plen);
output_prepare(s2,s,slen);
crypto_kem_keypair(p,s);
public(p,plen);
public(s,slen);
checksum(p,plen);
checksum(s,slen);
output_compare(p2,p,plen,"crypto_kem_keypair");
output_compare(s2,s,slen,"crypto_kem_keypair");
output_prepare(c2,c,clen);
output_prepare(k2,k,klen);
memcpy(p2,p,plen);
double_canary(p2,p,plen);
secret(p,plen);
result = crypto_kem_enc(c,k,p);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_enc returns nonzero\n");
public(p,plen);
public(c,clen);
public(k,klen);
checksum(c,clen);
checksum(k,klen);
output_compare(c2,c,clen,"crypto_kem_enc");
output_compare(k2,k,klen,"crypto_kem_enc");
input_compare(p2,p,plen,"crypto_kem_enc");
output_prepare(t2,t,tlen);
memcpy(c2,c,clen);
double_canary(c2,c,clen);
memcpy(s2,s,slen);
double_canary(s2,s,slen);
secret(c,clen);
secret(s,slen);
result = crypto_kem_dec(t,c,s);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec returns nonzero\n");
public(c,clen);
public(s,slen);
public(t,tlen);
if (memcmp(t,k,klen) != 0) fail("failure: crypto_kem_dec does not match k\n");
checksum(t,tlen);
output_compare(t2,t,tlen,"crypto_kem_dec");
input_compare(c2,c,clen,"crypto_kem_dec");
input_compare(s2,s,slen,"crypto_kem_dec");
double_canary(t2,t,tlen);
double_canary(c2,c,clen);
double_canary(s2,s,slen);
secret(c2,clen);
secret(s2,slen);
result = crypto_kem_dec(t2,c2,s2);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec returns nonzero\n");
public(c2,clen);
public(s2,slen);
public(t2,tlen);
if (memcmp(t2,t,tlen) != 0) fail("failure: crypto_kem_dec is nondeterministic\n");
double_canary(t2,t,tlen);
double_canary(c2,c,clen);
double_canary(s2,s,slen);
secret(c2,clen);
secret(s,slen);
result = crypto_kem_dec(c2,c2,s);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec with c=t overlap returns nonzero\n");
public(c2,tlen);
public(s,slen);
if (memcmp(c2,t,tlen) != 0) fail("failure: crypto_kem_dec does not handle c=t overlap\n");
memcpy(c2,c,clen);
secret(c,clen);
secret(s2,slen);
result = crypto_kem_dec(s2,c,s2);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec with s=t overlap returns nonzero\n");
public(s2,tlen);
public(c,clen);
if (memcmp(s2,t,tlen) != 0) fail("failure: crypto_kem_dec does not handle s=t overlap\n");
memcpy(s2,s,slen);
c[myrandom() % clen] += 1 + (myrandom() % 255);
if (crypto_kem_dec(t,c,s) == 0)
checksum(t,tlen);
else
checksum(c,clen);
c[myrandom() % clen] += 1 + (myrandom() % 255);
if (crypto_kem_dec(t,c,s) == 0)
checksum(t,tlen);
else
checksum(c,clen);
c[myrandom() % clen] += 1 + (myrandom() % 255);
if (crypto_kem_dec(t,c,s) == 0)
checksum(t,tlen);
else
checksum(c,clen);
}
checksum_expected(kem_348864pc_checksums[checksumbig]);
}
}
static void test_kem_348864pc(void)
{
if (targeto && strcmp(targeto,"kem")) return;
if (targetp && strcmp(targetp,"348864pc")) return;
storage_kem_348864pc_p = callocplus(crypto_kem_PUBLICKEYBYTES);
test_kem_348864pc_p = aligned(storage_kem_348864pc_p,crypto_kem_PUBLICKEYBYTES);
storage_kem_348864pc_s = callocplus(crypto_kem_SECRETKEYBYTES);
test_kem_348864pc_s = aligned(storage_kem_348864pc_s,crypto_kem_SECRETKEYBYTES);
storage_kem_348864pc_k = callocplus(crypto_kem_BYTES);
test_kem_348864pc_k = aligned(storage_kem_348864pc_k,crypto_kem_BYTES);
storage_kem_348864pc_c = callocplus(crypto_kem_CIPHERTEXTBYTES);
test_kem_348864pc_c = aligned(storage_kem_348864pc_c,crypto_kem_CIPHERTEXTBYTES);
storage_kem_348864pc_t = callocplus(crypto_kem_BYTES);
test_kem_348864pc_t = aligned(storage_kem_348864pc_t,crypto_kem_BYTES);
storage_kem_348864pc_p2 = callocplus(crypto_kem_PUBLICKEYBYTES);
test_kem_348864pc_p2 = aligned(storage_kem_348864pc_p2,crypto_kem_PUBLICKEYBYTES);
storage_kem_348864pc_s2 = callocplus(crypto_kem_SECRETKEYBYTES);
test_kem_348864pc_s2 = aligned(storage_kem_348864pc_s2,crypto_kem_SECRETKEYBYTES);
storage_kem_348864pc_k2 = callocplus(crypto_kem_BYTES);
test_kem_348864pc_k2 = aligned(storage_kem_348864pc_k2,crypto_kem_BYTES);
storage_kem_348864pc_c2 = callocplus(crypto_kem_CIPHERTEXTBYTES);
test_kem_348864pc_c2 = aligned(storage_kem_348864pc_c2,crypto_kem_CIPHERTEXTBYTES);
storage_kem_348864pc_t2 = callocplus(crypto_kem_BYTES);
test_kem_348864pc_t2 = aligned(storage_kem_348864pc_t2,crypto_kem_BYTES);
for (long long offset = 0;offset < 2;++offset) {
if (targetoffset && atol(targetoffset) != offset) continue;
if (offset && valgrind) break;
printf("kem_348864pc offset %lld\n",offset);
for (long long impl = -1;impl < mceliece_numimpl_kem_348864pc();++impl)
forked(test_kem_348864pc_impl,impl);
++test_kem_348864pc_p;
++test_kem_348864pc_s;
++test_kem_348864pc_k;
++test_kem_348864pc_c;
++test_kem_348864pc_t;
++test_kem_348864pc_p2;
++test_kem_348864pc_s2;
++test_kem_348864pc_k2;
++test_kem_348864pc_c2;
++test_kem_348864pc_t2;
}
free(storage_kem_348864pc_t2);
free(storage_kem_348864pc_c2);
free(storage_kem_348864pc_k2);
free(storage_kem_348864pc_s2);
free(storage_kem_348864pc_p2);
free(storage_kem_348864pc_t);
free(storage_kem_348864pc_c);
free(storage_kem_348864pc_k);
free(storage_kem_348864pc_s);
free(storage_kem_348864pc_p);
}
#undef crypto_kem_PUBLICKEYBYTES
#undef crypto_kem_SECRETKEYBYTES
#undef crypto_kem_CIPHERTEXTBYTES
#undef crypto_kem_BYTES
static const char *kem_348864pcf_checksums[] = {
"4dcfc56d5e162873f227befd1e7c51f2b317f9ccf811e931e86e2fcdeea6c10e",
"48fffebf6cd92a688b4724d88cf989ab199066040c7c62202dab6f30ef188d68",
} ;
static void (*crypto_kem_keypair)(unsigned char *,unsigned char *);
static int (*crypto_kem_enc)(unsigned char *,unsigned char *,const unsigned char *);
static int (*crypto_kem_dec)(unsigned char *,const unsigned char *,const unsigned char *);
#define crypto_kem_PUBLICKEYBYTES mceliece_kem_348864pcf_PUBLICKEYBYTES
#define crypto_kem_SECRETKEYBYTES mceliece_kem_348864pcf_SECRETKEYBYTES
#define crypto_kem_CIPHERTEXTBYTES mceliece_kem_348864pcf_CIPHERTEXTBYTES
#define crypto_kem_BYTES mceliece_kem_348864pcf_BYTES
static void *storage_kem_348864pcf_p;
static unsigned char *test_kem_348864pcf_p;
static void *storage_kem_348864pcf_s;
static unsigned char *test_kem_348864pcf_s;
static void *storage_kem_348864pcf_k;
static unsigned char *test_kem_348864pcf_k;
static void *storage_kem_348864pcf_c;
static unsigned char *test_kem_348864pcf_c;
static void *storage_kem_348864pcf_t;
static unsigned char *test_kem_348864pcf_t;
static void *storage_kem_348864pcf_p2;
static unsigned char *test_kem_348864pcf_p2;
static void *storage_kem_348864pcf_s2;
static unsigned char *test_kem_348864pcf_s2;
static void *storage_kem_348864pcf_k2;
static unsigned char *test_kem_348864pcf_k2;
static void *storage_kem_348864pcf_c2;
static unsigned char *test_kem_348864pcf_c2;
static void *storage_kem_348864pcf_t2;
static unsigned char *test_kem_348864pcf_t2;
static void test_kem_348864pcf_impl(long long impl)
{
unsigned char *p = test_kem_348864pcf_p;
unsigned char *s = test_kem_348864pcf_s;
unsigned char *k = test_kem_348864pcf_k;
unsigned char *c = test_kem_348864pcf_c;
unsigned char *t = test_kem_348864pcf_t;
unsigned char *p2 = test_kem_348864pcf_p2;
unsigned char *s2 = test_kem_348864pcf_s2;
unsigned char *k2 = test_kem_348864pcf_k2;
unsigned char *c2 = test_kem_348864pcf_c2;
unsigned char *t2 = test_kem_348864pcf_t2;
long long plen = crypto_kem_PUBLICKEYBYTES;
long long slen = crypto_kem_SECRETKEYBYTES;
long long klen = crypto_kem_BYTES;
long long clen = crypto_kem_CIPHERTEXTBYTES;
long long tlen = crypto_kem_BYTES;
if (targeti && strcmp(targeti,".") && strcmp(targeti,mceliece_dispatch_kem_348864pcf_implementation(impl))) return;
if (targetn && atol(targetn) != impl) return;
if (impl >= 0) {
crypto_kem_keypair = mceliece_dispatch_kem_348864pcf_keypair(impl);
crypto_kem_enc = mceliece_dispatch_kem_348864pcf_enc(impl);
crypto_kem_dec = mceliece_dispatch_kem_348864pcf_dec(impl);
printf("kem_348864pcf %lld implementation %s compiler %s\n",impl,mceliece_dispatch_kem_348864pcf_implementation(impl),mceliece_dispatch_kem_348864pcf_compiler(impl));
} else {
crypto_kem_keypair = mceliece_kem_348864pcf_keypair;
crypto_kem_enc = mceliece_kem_348864pcf_enc;
crypto_kem_dec = mceliece_kem_348864pcf_dec;
printf("kem_348864pcf selected implementation %s compiler %s\n",mceliece_kem_348864pcf_implementation(),mceliece_kem_348864pcf_compiler());
}
for (long long checksumbig = 0;checksumbig < 2;++checksumbig) {
long long loops = checksumbig ? 64 : 8;
checksum_clear();
for (long long loop = 0;loop < loops;++loop) {
int result;
output_prepare(p2,p,plen);
output_prepare(s2,s,slen);
crypto_kem_keypair(p,s);
public(p,plen);
public(s,slen);
checksum(p,plen);
checksum(s,slen);
output_compare(p2,p,plen,"crypto_kem_keypair");
output_compare(s2,s,slen,"crypto_kem_keypair");
output_prepare(c2,c,clen);
output_prepare(k2,k,klen);
memcpy(p2,p,plen);
double_canary(p2,p,plen);
secret(p,plen);
result = crypto_kem_enc(c,k,p);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_enc returns nonzero\n");
public(p,plen);
public(c,clen);
public(k,klen);
checksum(c,clen);
checksum(k,klen);
output_compare(c2,c,clen,"crypto_kem_enc");
output_compare(k2,k,klen,"crypto_kem_enc");
input_compare(p2,p,plen,"crypto_kem_enc");
output_prepare(t2,t,tlen);
memcpy(c2,c,clen);
double_canary(c2,c,clen);
memcpy(s2,s,slen);
double_canary(s2,s,slen);
secret(c,clen);
secret(s,slen);
result = crypto_kem_dec(t,c,s);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec returns nonzero\n");
public(c,clen);
public(s,slen);
public(t,tlen);
if (memcmp(t,k,klen) != 0) fail("failure: crypto_kem_dec does not match k\n");
checksum(t,tlen);
output_compare(t2,t,tlen,"crypto_kem_dec");
input_compare(c2,c,clen,"crypto_kem_dec");
input_compare(s2,s,slen,"crypto_kem_dec");
double_canary(t2,t,tlen);
double_canary(c2,c,clen);
double_canary(s2,s,slen);
secret(c2,clen);
secret(s2,slen);
result = crypto_kem_dec(t2,c2,s2);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec returns nonzero\n");
public(c2,clen);
public(s2,slen);
public(t2,tlen);
if (memcmp(t2,t,tlen) != 0) fail("failure: crypto_kem_dec is nondeterministic\n");
double_canary(t2,t,tlen);
double_canary(c2,c,clen);
double_canary(s2,s,slen);
secret(c2,clen);
secret(s,slen);
result = crypto_kem_dec(c2,c2,s);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec with c=t overlap returns nonzero\n");
public(c2,tlen);
public(s,slen);
if (memcmp(c2,t,tlen) != 0) fail("failure: crypto_kem_dec does not handle c=t overlap\n");
memcpy(c2,c,clen);
secret(c,clen);
secret(s2,slen);
result = crypto_kem_dec(s2,c,s2);
public(&result,sizeof result);
if (result != 0) fail("failure: crypto_kem_dec with s=t overlap returns nonzero\n");
public(s2,tlen);
public(c,clen);
if (memcmp(s2,t,tlen) != 0) fail("failure: crypto_kem_dec does not handle s=t overlap\n");
memcpy(s2,s,slen);
c[myrandom() % clen] += 1 + (myrandom() % 255);
if (crypto_kem_dec(t,c,s) == 0)
checksum(t,tlen);
else
checksum(c,clen);
c[myrandom() % clen] += 1 + (myrandom() % 255);
if (crypto_kem_dec(t,c,s) == 0)
checksum(t,tlen);
else
checksum(c,clen);
c[myrandom() % clen] += 1 + (myrandom() % 255);
if (crypto_kem_dec(t,c,s) == 0)
checksum(t,tlen);
else
checksum(c,clen);
}
checksum_expected(kem_348864pcf_checksums[checksumbig]);
}
}
static void test_kem_348864pcf(void)
{
if (targeto && strcmp(targeto,"kem")) return;
if (targetp && strcmp(targetp,"348864pcf")) return;
storage_kem_348864pcf_p = callocplus(crypto_kem_PUBLICKEYBYTES);
test_kem_348864pcf_p = aligned(storage_kem_348864pcf_p,crypto_kem_PUBLICKEYBYTES);
storage_kem_348864pcf_s = callocplus(crypto_kem_SECRETKEYBYTES);
test_kem_348864pcf_s = aligned(storage_kem_348864pcf_s,crypto_kem_SECRETKEYBYTES);
storage_kem_348864pcf_k = callocplus(crypto_kem_BYTES);
test_kem_348864pcf_k = aligned(storage_kem_348864pcf_k,crypto_kem_BYTES);
storage_kem_348864pcf_c = callocplus(crypto_kem_CIPHERTEXTBYTES);
test_kem_348864pcf_c = aligned(storage_kem_348864pcf_c,crypto_kem_CIPHERTEXTBYTES);
storage_kem_348864pcf_t = callocplus(crypto_kem_BYTES);
test_kem_348864pcf_t = aligned(storage_kem_348864pcf_t,crypto_kem_BYTES);
storage_kem_348864pcf_p2 = callocplus(crypto_kem_PUBLICKEYBYTES);
test_kem_348864pcf_p2 = aligned(storage_kem_348864pcf_p2,crypto_kem_PUBLICKEYBYTES);
storage_kem_348864pcf_s2 = callocplus(crypto_kem_SECRETKEYBYTES);
test_kem_348864pcf_s2 = aligned(storage_kem_348864pcf_s2,crypto_kem_SECRETKEYBYTES);
storage_kem_348864pcf_k2 = callocplus(crypto_kem_BYTES);
test_kem_348864pcf_k2 = aligned(storage_kem_348864pcf_k2,crypto_kem_BYTES);
storage_kem_348864pcf_c2 = callocplus(crypto_kem_CIPHERTEXTBYTES);
test_kem_348864pcf_c2 = aligned(storage_kem_348864pcf_c2,crypto_kem_CIPHERTEXTBYTES);
storage_kem_348864pcf_t2 = callocplus(crypto_kem_BYTES);
test_kem_348864pcf_t2 = aligned(storage_kem_348864pcf_t2,crypto_kem_BYTES);
for (long long offset = 0;offset < 2;++offset) {
if (targetoffset && atol(targetoffset) != offset) continue;
if (offset && valgrind) break;
printf("kem_348864pcf offset %lld\n",offset);
for (long long impl = -1;impl < mceliece_numimpl_kem_348864pcf();++impl)
forked(test_kem_348864pcf_impl,impl);
++test_kem_348864pcf_p;
++test_kem_348864pcf_s;
++test_kem_348864pcf_k;
++test_kem_348864pcf_c;
++test_kem_348864pcf_t;
++test_kem_348864pcf_p2;
++test_kem_348864pcf_s2;
++test_kem_348864pcf_k2;
++test_kem_348864pcf_c2;
++test_kem_348864pcf_t2;
}
free(storage_kem_348864pcf_t2);
free(storage_kem_348864pcf_c2);
free(storage_kem_348864pcf_k2);
free(storage_kem_348864pcf_s2);
free(storage_kem_348864pcf_p2);
free(storage_kem_348864pcf_t);
free(storage_kem_348864pcf_c);
free(storage_kem_348864pcf_k);
free(storage_kem_348864pcf_s);
free(storage_kem_348864pcf_p);
}
#undef crypto_kem_PUBLICKEYBYTES
#undef crypto_kem_SECRETKEYBYTES
#undef crypto_kem_CIPHERTEXTBYTES
#undef crypto_kem_BYTES
/* ----- top level */
#include "print_cpuid.inc"
int main(int argc,char **argv)
{
valgrind_init();
if (valgrind) limits();
setvbuf(stdout,0,_IOLBF,0);
printf("mceliece version %s\n",mceliece_version);
printf("mceliece arch %s\n",mceliece_arch);
print_cpuid();
if (valgrind) {
printf("valgrind %d",(int) valgrind);
printf(" declassify %d",(int) crypto_declassify_uses_valgrind);
if (!crypto_declassify_uses_valgrind)
printf(" (expect false positives)");
printf("\n");
}
if (*argv) ++argv;
if (*argv) {
targeto = *argv++;
if (*argv) {
targetp = *argv++;
if (*argv) {
targeti = *argv++;
if (*argv) {
targetn = *argv++;
if (*argv) {
targetoffset = *argv++;
}
}
}
}
}
test_xof_shake256();
test_xof_bitwrite16();
test_sort_int16();
test_sort_int32();
test_sort_int64();
test_kem_6960119();
test_kem_6960119f();
test_kem_6960119pc();
test_kem_6960119pcf();
test_kem_6688128();
test_kem_6688128f();
test_kem_6688128pc();
test_kem_6688128pcf();
test_kem_8192128();
test_kem_8192128f();
test_kem_8192128pc();
test_kem_8192128pcf();
test_kem_460896();
test_kem_460896f();
test_kem_460896pc();
test_kem_460896pcf();
test_kem_348864();
test_kem_348864f();
test_kem_348864pc();
test_kem_348864pcf();
if (!ok) {
printf("some tests failed\n");
return 100;
}
printf("all tests succeeded\n");
return 0;
}