RetroZilla/security/nss/lib/freebl/ecl/tests/ec2_test.c
2015-10-20 23:03:22 -04:00

517 lines
17 KiB
C

/*
* ***** BEGIN LICENSE BLOCK *****
* Version: MPL 1.1/GPL 2.0/LGPL 2.1
*
* The contents of this file are subject to the Mozilla Public License Version
* 1.1 (the "License"); you may not use this file except in compliance with
* the License. You may obtain a copy of the License at
* http://www.mozilla.org/MPL/
*
* Software distributed under the License is distributed on an "AS IS" basis,
* WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License
* for the specific language governing rights and limitations under the
* License.
*
* The Original Code is the elliptic curve math library for binary polynomial field curves.
*
* The Initial Developer of the Original Code is
* Sun Microsystems, Inc.
* Portions created by the Initial Developer are Copyright (C) 2003
* the Initial Developer. All Rights Reserved.
*
* Contributor(s):
* Douglas Stebila <douglas@stebila.ca>, Sun Microsystems Laboratories
*
* Alternatively, the contents of this file may be used under the terms of
* either the GNU General Public License Version 2 or later (the "GPL"), or
* the GNU Lesser General Public License Version 2.1 or later (the "LGPL"),
* in which case the provisions of the GPL or the LGPL are applicable instead
* of those above. If you wish to allow use of your version of this file only
* under the terms of either the GPL or the LGPL, and not to allow others to
* use your version of this file under the terms of the MPL, indicate your
* decision by deleting the provisions above and replace them with the notice
* and other provisions required by the GPL or the LGPL. If you do not delete
* the provisions above, a recipient may use your version of this file under
* the terms of any one of the MPL, the GPL or the LGPL.
*
* ***** END LICENSE BLOCK ***** */
#include "mpi.h"
#include "mplogic.h"
#include "mpprime.h"
#include "mp_gf2m.h"
#include "ecl.h"
#include "ecl-curve.h"
#include "ec2.h"
#include <stdio.h>
#include <strings.h>
#include <assert.h>
#include <time.h>
#include <sys/time.h>
#include <sys/resource.h>
/* Time k repetitions of operation op. */
#define M_TimeOperation(op, k) { \
double dStart, dNow, dUserTime; \
struct rusage ru; \
int i; \
getrusage(RUSAGE_SELF, &ru); \
dStart = (double)ru.ru_utime.tv_sec+(double)ru.ru_utime.tv_usec*0.000001; \
for (i = 0; i < k; i++) { \
{ op; } \
}; \
getrusage(RUSAGE_SELF, &ru); \
dNow = (double)ru.ru_utime.tv_sec+(double)ru.ru_utime.tv_usec*0.000001; \
dUserTime = dNow-dStart; \
if (dUserTime) printf(" %-45s k: %6i, t: %6.2f sec\n", #op, k, dUserTime); \
}
/* Test curve using generic field arithmetic. */
#define ECTEST_GENERIC_GF2M(name_c, name) \
printf("Testing %s using generic implementation...\n", name_c); \
params = EC_GetNamedCurveParams(name); \
if (params == NULL) { \
printf(" Error: could not construct params.\n"); \
res = MP_NO; \
goto CLEANUP; \
} \
ECGroup_free(group); \
group = ECGroup_fromHex(params); \
if (group == NULL) { \
printf(" Error: could not construct group.\n"); \
res = MP_NO; \
goto CLEANUP; \
} \
MP_CHECKOK( ectest_curve_GF2m(group, ectestPrint, ectestTime, 1) ); \
printf("... okay.\n");
/* Test curve using specific field arithmetic. */
#define ECTEST_NAMED_GF2M(name_c, name) \
printf("Testing %s using specific implementation...\n", name_c); \
ECGroup_free(group); \
group = ECGroup_fromName(name); \
if (group == NULL) { \
printf(" Warning: could not construct group.\n"); \
printf("... failed; continuing with remaining tests.\n"); \
} else { \
MP_CHECKOK( ectest_curve_GF2m(group, ectestPrint, ectestTime, 0) ); \
printf("... okay.\n"); \
}
/* Performs basic tests of elliptic curve cryptography over binary
* polynomial fields. If tests fail, then it prints an error message,
* aborts, and returns an error code. Otherwise, returns 0. */
int
ectest_curve_GF2m(ECGroup *group, int ectestPrint, int ectestTime,
int generic)
{
mp_int one, order_1, gx, gy, rx, ry, n;
int size;
mp_err res;
char s[1000];
/* initialize values */
MP_CHECKOK(mp_init(&one));
MP_CHECKOK(mp_init(&order_1));
MP_CHECKOK(mp_init(&gx));
MP_CHECKOK(mp_init(&gy));
MP_CHECKOK(mp_init(&rx));
MP_CHECKOK(mp_init(&ry));
MP_CHECKOK(mp_init(&n));
MP_CHECKOK(mp_set_int(&one, 1));
MP_CHECKOK(mp_sub(&group->order, &one, &order_1));
/* encode base point */
if (group->meth->field_dec) {
MP_CHECKOK(group->meth->field_dec(&group->genx, &gx, group->meth));
MP_CHECKOK(group->meth->field_dec(&group->geny, &gy, group->meth));
} else {
MP_CHECKOK(mp_copy(&group->genx, &gx));
MP_CHECKOK(mp_copy(&group->geny, &gy));
}
if (ectestPrint) {
/* output base point */
printf(" base point P:\n");
MP_CHECKOK(mp_toradix(&gx, s, 16));
printf(" %s\n", s);
MP_CHECKOK(mp_toradix(&gy, s, 16));
printf(" %s\n", s);
if (group->meth->field_enc) {
printf(" base point P (encoded):\n");
MP_CHECKOK(mp_toradix(&group->genx, s, 16));
printf(" %s\n", s);
MP_CHECKOK(mp_toradix(&group->geny, s, 16));
printf(" %s\n", s);
}
}
#ifdef ECL_ENABLE_GF2M_PT_MUL_AFF
/* multiply base point by order - 1 and check for negative of base
* point */
MP_CHECKOK(ec_GF2m_pt_mul_aff
(&order_1, &group->genx, &group->geny, &rx, &ry, group));
if (ectestPrint) {
printf(" (order-1)*P (affine):\n");
MP_CHECKOK(mp_toradix(&rx, s, 16));
printf(" %s\n", s);
MP_CHECKOK(mp_toradix(&ry, s, 16));
printf(" %s\n", s);
}
MP_CHECKOK(group->meth->field_add(&ry, &rx, &ry, group->meth));
if ((mp_cmp(&rx, &group->genx) != 0)
|| (mp_cmp(&ry, &group->geny) != 0)) {
printf(" Error: invalid result (expected (- base point)).\n");
res = MP_NO;
goto CLEANUP;
}
#endif
/* multiply base point by order - 1 and check for negative of base
* point */
MP_CHECKOK(ec_GF2m_pt_mul_mont
(&order_1, &group->genx, &group->geny, &rx, &ry, group));
if (ectestPrint) {
printf(" (order-1)*P (montgomery):\n");
MP_CHECKOK(mp_toradix(&rx, s, 16));
printf(" %s\n", s);
MP_CHECKOK(mp_toradix(&ry, s, 16));
printf(" %s\n", s);
}
MP_CHECKOK(group->meth->field_add(&ry, &rx, &ry, group->meth));
if ((mp_cmp(&rx, &group->genx) != 0)
|| (mp_cmp(&ry, &group->geny) != 0)) {
printf(" Error: invalid result (expected (- base point)).\n");
res = MP_NO;
goto CLEANUP;
}
#ifdef ECL_ENABLE_GF2M_PROJ
/* multiply base point by order - 1 and check for negative of base
* point */
MP_CHECKOK(ec_GF2m_pt_mul_proj
(&order_1, &group->genx, &group->geny, &rx, &ry, group));
if (ectestPrint) {
printf(" (order-1)*P (projective):\n");
MP_CHECKOK(mp_toradix(&rx, s, 16));
printf(" %s\n", s);
MP_CHECKOK(mp_toradix(&ry, s, 16));
printf(" %s\n", s);
}
MP_CHECKOK(group->meth->field_add(&ry, &rx, &ry, group->meth));
if ((mp_cmp(&rx, &group->genx) != 0)
|| (mp_cmp(&ry, &group->geny) != 0)) {
printf(" Error: invalid result (expected (- base point)).\n");
res = MP_NO;
goto CLEANUP;
}
#endif
/* multiply base point by order - 1 and check for negative of base
* point */
MP_CHECKOK(ECPoint_mul(group, &order_1, NULL, NULL, &rx, &ry));
if (ectestPrint) {
printf(" (order-1)*P (ECPoint_mul):\n");
MP_CHECKOK(mp_toradix(&rx, s, 16));
printf(" %s\n", s);
MP_CHECKOK(mp_toradix(&ry, s, 16));
printf(" %s\n", s);
}
MP_CHECKOK(ec_GF2m_add(&ry, &rx, &ry, group->meth));
if ((mp_cmp(&rx, &gx) != 0) || (mp_cmp(&ry, &gy) != 0)) {
printf(" Error: invalid result (expected (- base point)).\n");
res = MP_NO;
goto CLEANUP;
}
/* multiply base point by order - 1 and check for negative of base
* point */
MP_CHECKOK(ECPoint_mul(group, &order_1, &gx, &gy, &rx, &ry));
if (ectestPrint) {
printf(" (order-1)*P (ECPoint_mul):\n");
MP_CHECKOK(mp_toradix(&rx, s, 16));
printf(" %s\n", s);
MP_CHECKOK(mp_toradix(&ry, s, 16));
printf(" %s\n", s);
}
MP_CHECKOK(ec_GF2m_add(&ry, &rx, &ry, group->meth));
if ((mp_cmp(&rx, &gx) != 0) || (mp_cmp(&ry, &gy) != 0)) {
printf(" Error: invalid result (expected (- base point)).\n");
res = MP_NO;
goto CLEANUP;
}
#ifdef ECL_ENABLE_GF2M_PT_MUL_AFF
/* multiply base point by order and check for point at infinity */
MP_CHECKOK(ec_GF2m_pt_mul_aff
(&group->order, &group->genx, &group->geny, &rx, &ry,
group));
if (ectestPrint) {
printf(" (order)*P (affine):\n");
MP_CHECKOK(mp_toradix(&rx, s, 16));
printf(" %s\n", s);
MP_CHECKOK(mp_toradix(&ry, s, 16));
printf(" %s\n", s);
}
if (ec_GF2m_pt_is_inf_aff(&rx, &ry) != MP_YES) {
printf(" Error: invalid result (expected point at infinity).\n");
res = MP_NO;
goto CLEANUP;
}
#endif
/* multiply base point by order and check for point at infinity */
MP_CHECKOK(ec_GF2m_pt_mul_mont
(&group->order, &group->genx, &group->geny, &rx, &ry,
group));
if (ectestPrint) {
printf(" (order)*P (montgomery):\n");
MP_CHECKOK(mp_toradix(&rx, s, 16));
printf(" %s\n", s);
MP_CHECKOK(mp_toradix(&ry, s, 16));
printf(" %s\n", s);
}
if (ec_GF2m_pt_is_inf_aff(&rx, &ry) != MP_YES) {
printf(" Error: invalid result (expected point at infinity).\n");
res = MP_NO;
goto CLEANUP;
}
#ifdef ECL_ENABLE_GF2M_PROJ
/* multiply base point by order and check for point at infinity */
MP_CHECKOK(ec_GF2m_pt_mul_proj
(&group->order, &group->genx, &group->geny, &rx, &ry,
group));
if (ectestPrint) {
printf(" (order)*P (projective):\n");
MP_CHECKOK(mp_toradix(&rx, s, 16));
printf(" %s\n", s);
MP_CHECKOK(mp_toradix(&ry, s, 16));
printf(" %s\n", s);
}
if (ec_GF2m_pt_is_inf_aff(&rx, &ry) != MP_YES) {
printf(" Error: invalid result (expected point at infinity).\n");
res = MP_NO;
goto CLEANUP;
}
#endif
/* multiply base point by order and check for point at infinity */
MP_CHECKOK(ECPoint_mul(group, &group->order, NULL, NULL, &rx, &ry));
if (ectestPrint) {
printf(" (order)*P (ECPoint_mul):\n");
MP_CHECKOK(mp_toradix(&rx, s, 16));
printf(" %s\n", s);
MP_CHECKOK(mp_toradix(&ry, s, 16));
printf(" %s\n", s);
}
if (ec_GF2m_pt_is_inf_aff(&rx, &ry) != MP_YES) {
printf(" Error: invalid result (expected point at infinity).\n");
res = MP_NO;
goto CLEANUP;
}
/* multiply base point by order and check for point at infinity */
MP_CHECKOK(ECPoint_mul(group, &group->order, &gx, &gy, &rx, &ry));
if (ectestPrint) {
printf(" (order)*P (ECPoint_mul):\n");
MP_CHECKOK(mp_toradix(&rx, s, 16));
printf(" %s\n", s);
MP_CHECKOK(mp_toradix(&ry, s, 16));
printf(" %s\n", s);
}
if (ec_GF2m_pt_is_inf_aff(&rx, &ry) != MP_YES) {
printf(" Error: invalid result (expected point at infinity).\n");
res = MP_NO;
goto CLEANUP;
}
/* check that (order-1)P + (order-1)P + P == (order-1)P */
MP_CHECKOK(ECPoints_mul
(group, &order_1, &order_1, &gx, &gy, &rx, &ry));
MP_CHECKOK(ECPoints_mul(group, &one, &one, &rx, &ry, &rx, &ry));
if (ectestPrint) {
printf
(" (order-1)*P + (order-1)*P + P == (order-1)*P (ECPoints_mul):\n");
MP_CHECKOK(mp_toradix(&rx, s, 16));
printf(" %s\n", s);
MP_CHECKOK(mp_toradix(&ry, s, 16));
printf(" %s\n", s);
}
MP_CHECKOK(ec_GF2m_add(&ry, &rx, &ry, group->meth));
if ((mp_cmp(&rx, &gx) != 0) || (mp_cmp(&ry, &gy) != 0)) {
printf(" Error: invalid result (expected (- base point)).\n");
res = MP_NO;
goto CLEANUP;
}
/* test validate_point function */
if (ECPoint_validate(group, &gx, &gy) != MP_YES) {
printf(" Error: validate point on base point failed.\n");
res = MP_NO;
goto CLEANUP;
}
MP_CHECKOK(mp_add_d(&gy, 1, &ry));
if (ECPoint_validate(group, &gx, &ry) != MP_NO) {
printf(" Error: validate point on invalid point passed.\n");
res = MP_NO;
goto CLEANUP;
}
if (ectestTime) {
/* compute random scalar */
size = mpl_significant_bits(&group->meth->irr);
if (size < MP_OKAY) {
goto CLEANUP;
}
MP_CHECKOK(mpp_random_size(&n, (size + ECL_BITS - 1) / ECL_BITS));
MP_CHECKOK(group->meth->field_mod(&n, &n, group->meth));
/* timed test */
if (generic) {
#ifdef ECL_ENABLE_GF2M_PT_MUL_AFF
M_TimeOperation(MP_CHECKOK
(ec_GF2m_pt_mul_aff
(&n, &group->genx, &group->geny, &rx, &ry,
group)), 100);
#endif
M_TimeOperation(MP_CHECKOK
(ECPoint_mul(group, &n, NULL, NULL, &rx, &ry)),
100);
M_TimeOperation(MP_CHECKOK
(ECPoints_mul
(group, &n, &n, &gx, &gy, &rx, &ry)), 100);
} else {
M_TimeOperation(MP_CHECKOK
(ECPoint_mul(group, &n, NULL, NULL, &rx, &ry)),
100);
M_TimeOperation(MP_CHECKOK
(ECPoint_mul(group, &n, &gx, &gy, &rx, &ry)),
100);
M_TimeOperation(MP_CHECKOK
(ECPoints_mul
(group, &n, &n, &gx, &gy, &rx, &ry)), 100);
}
}
CLEANUP:
mp_clear(&one);
mp_clear(&order_1);
mp_clear(&gx);
mp_clear(&gy);
mp_clear(&rx);
mp_clear(&ry);
mp_clear(&n);
if (res != MP_OKAY) {
printf(" Error: exiting with error value %i\n", res);
}
return res;
}
/* Prints help information. */
void
printUsage()
{
printf("Usage: ecp_test [--print] [--time]\n");
printf
(" --print Print out results of each point arithmetic test.\n");
printf
(" --time Benchmark point operations and print results.\n");
}
/* Performs tests of elliptic curve cryptography over binary polynomial
* fields. If tests fail, then it prints an error message, aborts, and
* returns an error code. Otherwise, returns 0. */
int
main(int argv, char **argc)
{
int ectestTime = 0;
int ectestPrint = 0;
int i;
ECGroup *group = NULL;
ECCurveParams *params = NULL;
mp_err res;
/* read command-line arguments */
for (i = 1; i < argv; i++) {
if ((strcasecmp(argc[i], "time") == 0)
|| (strcasecmp(argc[i], "-time") == 0)
|| (strcasecmp(argc[i], "--time") == 0)) {
ectestTime = 1;
} else if ((strcasecmp(argc[i], "print") == 0)
|| (strcasecmp(argc[i], "-print") == 0)
|| (strcasecmp(argc[i], "--print") == 0)) {
ectestPrint = 1;
} else {
printUsage();
return 0;
}
}
/* generic arithmetic tests */
ECTEST_GENERIC_GF2M("SECT-131R1", ECCurve_SECG_CHAR2_131R1);
/* specific arithmetic tests */
ECTEST_NAMED_GF2M("NIST-K163", ECCurve_NIST_K163);
ECTEST_NAMED_GF2M("NIST-B163", ECCurve_NIST_B163);
ECTEST_NAMED_GF2M("NIST-K233", ECCurve_NIST_K233);
ECTEST_NAMED_GF2M("NIST-B233", ECCurve_NIST_B233);
ECTEST_NAMED_GF2M("NIST-K283", ECCurve_NIST_K283);
ECTEST_NAMED_GF2M("NIST-B283", ECCurve_NIST_B283);
ECTEST_NAMED_GF2M("NIST-K409", ECCurve_NIST_K409);
ECTEST_NAMED_GF2M("NIST-B409", ECCurve_NIST_B409);
ECTEST_NAMED_GF2M("NIST-K571", ECCurve_NIST_K571);
ECTEST_NAMED_GF2M("NIST-B571", ECCurve_NIST_B571);
ECTEST_NAMED_GF2M("ANSI X9.62 C2PNB163V1", ECCurve_X9_62_CHAR2_PNB163V1);
ECTEST_NAMED_GF2M("ANSI X9.62 C2PNB163V2", ECCurve_X9_62_CHAR2_PNB163V2);
ECTEST_NAMED_GF2M("ANSI X9.62 C2PNB163V3", ECCurve_X9_62_CHAR2_PNB163V3);
ECTEST_NAMED_GF2M("ANSI X9.62 C2PNB176V1", ECCurve_X9_62_CHAR2_PNB176V1);
ECTEST_NAMED_GF2M("ANSI X9.62 C2TNB191V1", ECCurve_X9_62_CHAR2_TNB191V1);
ECTEST_NAMED_GF2M("ANSI X9.62 C2TNB191V2", ECCurve_X9_62_CHAR2_TNB191V2);
ECTEST_NAMED_GF2M("ANSI X9.62 C2TNB191V3", ECCurve_X9_62_CHAR2_TNB191V3);
ECTEST_NAMED_GF2M("ANSI X9.62 C2PNB208W1", ECCurve_X9_62_CHAR2_PNB208W1);
ECTEST_NAMED_GF2M("ANSI X9.62 C2TNB239V1", ECCurve_X9_62_CHAR2_TNB239V1);
ECTEST_NAMED_GF2M("ANSI X9.62 C2TNB239V2", ECCurve_X9_62_CHAR2_TNB239V2);
ECTEST_NAMED_GF2M("ANSI X9.62 C2TNB239V3", ECCurve_X9_62_CHAR2_TNB239V3);
ECTEST_NAMED_GF2M("ANSI X9.62 C2PNB272W1", ECCurve_X9_62_CHAR2_PNB272W1);
ECTEST_NAMED_GF2M("ANSI X9.62 C2PNB304W1", ECCurve_X9_62_CHAR2_PNB304W1);
ECTEST_NAMED_GF2M("ANSI X9.62 C2TNB359V1", ECCurve_X9_62_CHAR2_TNB359V1);
ECTEST_NAMED_GF2M("ANSI X9.62 C2PNB368W1", ECCurve_X9_62_CHAR2_PNB368W1);
ECTEST_NAMED_GF2M("ANSI X9.62 C2TNB431R1", ECCurve_X9_62_CHAR2_TNB431R1);
ECTEST_NAMED_GF2M("SECT-113R1", ECCurve_SECG_CHAR2_113R1);
ECTEST_NAMED_GF2M("SECT-113R2", ECCurve_SECG_CHAR2_113R2);
ECTEST_NAMED_GF2M("SECT-131R1", ECCurve_SECG_CHAR2_131R1);
ECTEST_NAMED_GF2M("SECT-131R2", ECCurve_SECG_CHAR2_131R2);
ECTEST_NAMED_GF2M("SECT-163K1", ECCurve_SECG_CHAR2_163K1);
ECTEST_NAMED_GF2M("SECT-163R1", ECCurve_SECG_CHAR2_163R1);
ECTEST_NAMED_GF2M("SECT-163R2", ECCurve_SECG_CHAR2_163R2);
ECTEST_NAMED_GF2M("SECT-193R1", ECCurve_SECG_CHAR2_193R1);
ECTEST_NAMED_GF2M("SECT-193R2", ECCurve_SECG_CHAR2_193R2);
ECTEST_NAMED_GF2M("SECT-233K1", ECCurve_SECG_CHAR2_233K1);
ECTEST_NAMED_GF2M("SECT-233R1", ECCurve_SECG_CHAR2_233R1);
ECTEST_NAMED_GF2M("SECT-239K1", ECCurve_SECG_CHAR2_239K1);
ECTEST_NAMED_GF2M("SECT-283K1", ECCurve_SECG_CHAR2_283K1);
ECTEST_NAMED_GF2M("SECT-283R1", ECCurve_SECG_CHAR2_283R1);
ECTEST_NAMED_GF2M("SECT-409K1", ECCurve_SECG_CHAR2_409K1);
ECTEST_NAMED_GF2M("SECT-409R1", ECCurve_SECG_CHAR2_409R1);
ECTEST_NAMED_GF2M("SECT-571K1", ECCurve_SECG_CHAR2_571K1);
ECTEST_NAMED_GF2M("SECT-571R1", ECCurve_SECG_CHAR2_571R1);
ECTEST_NAMED_GF2M("WTLS-1 (113)", ECCurve_WTLS_1);
ECTEST_NAMED_GF2M("WTLS-3 (163)", ECCurve_WTLS_3);
ECTEST_NAMED_GF2M("WTLS-4 (113)", ECCurve_WTLS_4);
ECTEST_NAMED_GF2M("WTLS-5 (163)", ECCurve_WTLS_5);
ECTEST_NAMED_GF2M("WTLS-10 (233)", ECCurve_WTLS_10);
ECTEST_NAMED_GF2M("WTLS-11 (233)", ECCurve_WTLS_11);
CLEANUP:
EC_FreeCurveParams(params);
ECGroup_free(group);
if (res != MP_OKAY) {
printf("Error: exiting with error value %i\n", res);
}
return res;
}