-rw-r--r-- 4886 lib25519-20240928/speedcomparison/eng25519/eng25519speed.c raw
#include <stdio.h>
#include <string.h>
#include <assert.h>
#include <cpucycles.h>
#include <openssl/rand.h>
#include "ecdh.h"
#include "ed255.h"
extern void scalar_mult_var_base(unsigned char *q, const unsigned char *n,
const unsigned char *p, const unsigned char *A);
static unsigned char alicepk[256];
static unsigned char alicesk[256];
static unsigned char bobpk[256];
static unsigned char bobsk[256];
static unsigned char charliepk[256];
static unsigned char charliesk[256];
static unsigned char alicebobk[256];
static unsigned char bobalicek[256];
static unsigned char alicecharliek[256];
static unsigned char charliealicek[256];
static unsigned char bobcharliek[256];
static unsigned char charliebobk[256];
static unsigned char message[59];
static unsigned char sig[64];
#define MAXEVENTS 16384
static long long start_pos;
static const char *start_event[MAXEVENTS];
static long long start_timestamp[MAXEVENTS];
static inline void start(const char *e)
{
if (start_pos < MAXEVENTS) {
start_event[start_pos] = e;
start_timestamp[start_pos] = cpucycles();
++start_pos;
}
}
static long long statistics_interval[MAXEVENTS];
static void statistics(const char *e)
{
long long nume = 0;
long long median = 0;
printf("%s",e);
for (long long j = 0;j+1 < start_pos;++j)
if (!strcmp(e,start_event[j])) {
statistics_interval[nume++] = start_timestamp[j+1]-start_timestamp[j];
}
assert(nume&1);
for (long long j = 0;j < nume;++j) {
long long below = 0;
long long above = 0;
long long maybemedian = statistics_interval[j];
for (long long i = 0;i < nume;++i) if (statistics_interval[i] < maybemedian) ++below;
for (long long i = 0;i < nume;++i) if (statistics_interval[i] > maybemedian) ++above;
if (below*2 < nume && above*2 < nume) {
median = maybemedian;
break;
}
}
printf(" %lld ",median);
for (long long i = 0;i < nume;++i)
printf("%+lld",statistics_interval[i]-median);
printf("\n");
fflush(stdout);
}
static void x25519_keygen8(unsigned char pk8[256],unsigned char sk8[256])
{
start("x25519-keygen8-rand");
RAND_bytes(sk8,256);
start("x25519-keygen8-pk");
crypto_x25519_batch_keygen(pk8,sk8);
start("x25519-keygen8-done");
}
static const unsigned char A[32] = {
0x06, 0x6D, 0x07, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00};
static void x25519_dh(unsigned char k8[256],const unsigned char pk8[256],const unsigned char sk8[256])
{
start("x25519-dh-main");
scalar_mult_var_base(k8,sk8,pk8,A);
start("x25519-dh-done");
}
static void ed25519_keygen8(unsigned char pk8[256],unsigned char sk8[256])
{
start("ed25519-keygen8-rand");
RAND_bytes(sk8,256);
start("ed25519-keygen8-pk");
crypto_ed25519_batch_keygen(pk8,sk8);
start("ed25519-keygen8-done");
}
static void ed25519_sign_global(unsigned char pk8[256],unsigned char sk8[256])
{
start("ed25519-sign-main");
assert(ed25519_sign(sig,message,59,pk8,sk8) == 1);
start("ed25519-sign-done");
}
static void ed25519_verify_global(unsigned char pk8[256])
{
start("ed25519-verify-main");
assert(ed25519_verify(message,59,pk8,sig) == 1);
start("ed25519-verify-done");
}
int main()
{
for (long long loop = 0;loop < 45;++loop) {
ed25519_keygen8(alicepk,alicesk);
ed25519_sign_global(alicepk,alicesk);
ed25519_verify_global(alicepk);
}
for (long long loop = 0;loop < 15;++loop) {
x25519_keygen8(alicepk,alicesk);
x25519_keygen8(bobpk,bobsk);
x25519_keygen8(charliepk,charliesk);
x25519_dh(alicebobk,bobpk,alicesk);
x25519_dh(alicecharliek,charliepk,alicesk);
x25519_dh(bobcharliek,charliepk,bobsk);
x25519_dh(bobalicek,alicepk,bobsk);
x25519_dh(charliealicek,alicepk,charliesk);
x25519_dh(charliebobk,bobpk,charliesk);
assert(!memcmp(alicebobk,bobalicek,sizeof(alicebobk)));
assert(!memcmp(alicecharliek,charliealicek,sizeof(alicecharliek)));
assert(!memcmp(bobcharliek,charliebobk,sizeof(bobcharliek)));
x25519_dh(charliebobk,bobpk,charliesk);
}
start("timestampsdone");
printf("cpucycles persecond %lld\n",cpucycles_persecond());
printf("cpucycles version %s\n",cpucycles_version());
printf("cpucycles implementation %s\n",cpucycles_implementation());
printf("events %lld\n",start_pos);
statistics("x25519-keygen8-rand");
statistics("x25519-keygen8-pk");
statistics("x25519-keygen8-done");
statistics("x25519-dh-main");
statistics("x25519-dh-done");
statistics("ed25519-keygen8-rand");
statistics("ed25519-keygen8-pk");
statistics("ed25519-keygen8-done");
statistics("ed25519-sign-main");
statistics("ed25519-sign-done");
statistics("ed25519-verify-main");
statistics("ed25519-verify-done");
return 0;
}