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iwd/unit/test-ecc.c

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#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
#include <string.h>
#include <assert.h>
#include <ell/ell.h>
#include "src/ecc.h"
#define HEX2BUF(s, buf) { \
unsigned char *tmp = l_util_from_hexstring(s, NULL); \
memcpy(buf, tmp, 32); \
l_free(tmp); \
}
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#define CURVE_P_32_STR "ffffffffffffffffffffffff00000000"\
"000000000000000001000000ffffffff"
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enum ecc_test_type {
TEST_ADD = 0,
TEST_SUB,
TEST_MULT,
TEST_INV,
TEST_EXP,
TEST_POINT_ADD,
TEST_SCALAR_MULT
};
struct ecc_test_data {
enum ecc_test_type type;
/* basic math arguments/result */
char *a;
char *b;
char *mod;
char *result;
/* point operations */
char *scalar;
char *ax, *ay;
char *bx, *by;
char *rx, *ry;
};
/* (a + b) mod c */
struct ecc_test_data add_test = {
.type = TEST_ADD,
.a = "cae1d5624344984073fd955a72d4ebacedc084679333e4beebff94869e9f6ca8",
.b = "93a02ae89d15e38a33bf3fea4c99937825b279fa8fa81dded1ccb687cec88461",
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.mod = CURVE_P_32_STR,
.result = "5e82004ae05a7bcaa7bcd545bf6e7f25"
"1372fe6222dc029dbccc4b0d6d67f10a"
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};
/* (a - b) mod c */
struct ecc_test_data sub_test = {
.type = TEST_SUB,
.a = "cae1d5624344984073fd955a72d4ebacedc084679333e4beebff94869e9f6ca8",
.b = "93a02ae89d15e38a33bf3fea4c99937825b279fa8fa81dded1ccb687cec88461",
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.mod = CURVE_P_32_STR,
.result = "3741aa79a62eb4b6403e5570263b5834"
"c80e0a6d038bc6e01a32ddfecfd6e847"
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};
/* (a * b) mod c */
struct ecc_test_data mult_test = {
.type = TEST_MULT,
.a = "cae1d5624344984073fd955a72d4ebacedc084679333e4beebff94869e9f6ca8",
.b = "93a02ae89d15e38a33bf3fea4c99937825b279fa8fa81dded1ccb687cec88461",
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.mod = CURVE_P_32_STR,
.result = "a31ff5c7d65d8bd806b0407f27d1f1bc"
"2c072e28c19720f6a654a75efc2faab5"
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};
/* (a^-1) mod c */
struct ecc_test_data inv_test = {
.type = TEST_INV,
.a = "cae1d5624344984073fd955a72d4ebacedc084679333e4beebff94869e9f6ca8",
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.mod = CURVE_P_32_STR,
.result = "48faaac115571047ead565911fc334fd"
"633c986755e87ab10fd79a4453a60bc5"
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};
/* (a^-1) mod c */
struct ecc_test_data inv_test2 = {
.type = TEST_INV,
.a = "698e5c10b63a9c79a9720b3f7f4d2f5c9fbb31daf93ac0f8fa8ca5cde8234418",
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.mod = CURVE_P_32_STR,
.result = "5fd113c3b6053c38e54e5917826c8520"
"c5a0708a8a47345edbb7fc1d67d9b42b"
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};
/* (a ^ b) mod c */
struct ecc_test_data exp_test = {
.type = TEST_EXP,
.a = "cae1d5624344984073fd955a72d4ebacedc084679333e4beebff94869e9f6ca8",
.b = "93a02ae89d15e38a33bf3fea4c99937825b279fa8fa81dded1ccb687cec88461",
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.mod = CURVE_P_32_STR,
.result = "415b2e00b2dfd0bf4889a64398c0fe6f"
"b4960df8e18c95799e08bfffb5814d5a"
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};
struct ecc_test_data point_add_test = {
.type = TEST_POINT_ADD,
.ax = "d36b6768a3279fbe23a5bf5cc19b13354"
"fa2c6d6fd9de467d62db007c39452df",
.ay = "4d601e7be3efd7f357452de7584274c54"
"c18ddb0ef2f0f4cf43375152a9780c4",
.bx = "c833c5d3ab916ed37f16597ace5dcf41f"
"080891c0c41b6ce561705bd736a29e0",
.by = "9d266e5ba8ba3e8d9679238f44a376b05"
"133df0510a7b8e6e7dd3a654d40a04a",
.rx = "24c4ede340dbdd144ccaaea67e5b1fca"
"87b3aa26dc11114fcd12186318533101",
.ry = "1d96391fb2942bf286e9251c257b960e"
"7d23d4caff4b6fc898aff87e1f6f5514"
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};
struct ecc_test_data point_mult_test = {
.type = TEST_SCALAR_MULT,
.ax = "768bc2f17fbf4e49282fbd4068994562b"
"fc7145306762c26a90be1e9c346ac67",
.ay = "93a02ae89d15e38a33bf3fea4c9993782"
"5b279fa8fa81dded1ccb687cec88461",
.scalar = "7521d940aa073c1675114ed27b866561"
"9c826cac8eaa341f70d61b43ad32058b",
.rx = "d4c80de349966df5542c984e80885d36"
"a965ceb74ffe6a0fdc8343184dedfe66",
.ry = "6d3a1ac3d1d392413286a0e00e94b01e"
"ae8423c7f53b9d39cc7fc9c3a5880f3b"
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};
static void run_test(const void *arg)
{
const struct ecc_test_data *data = arg;
uint64_t a[NUM_ECC_DIGITS], b[NUM_ECC_DIGITS], mod[NUM_ECC_DIGITS],
scalar[NUM_ECC_DIGITS], result[NUM_ECC_DIGITS],
check[NUM_ECC_DIGITS];
struct ecc_point point1, point2, point_ret;
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memset(result, 0, sizeof(result));
if (data->a) {
HEX2BUF(data->a, a);
ecc_be2native(a);
}
if (data->b) {
HEX2BUF(data->b, b);
ecc_be2native(b);
}
if (data->mod) {
HEX2BUF(data->mod, mod);
ecc_be2native(mod);
}
if (data->ax) {
HEX2BUF(data->ax, point1.x);
ecc_be2native(point1.x);
}
if (data->ay) {
HEX2BUF(data->ay, point1.y);
ecc_be2native(point1.y);
}
if (data->bx) {
HEX2BUF(data->bx, point2.x);
ecc_be2native(point2.x);
}
if (data->by) {
HEX2BUF(data->by, point2.y);
ecc_be2native(point2.y);
}
if (data->scalar) {
HEX2BUF(data->scalar, scalar);
ecc_be2native(scalar);
}
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switch (data->type) {
case TEST_ADD:
vli_mod_add(result, a, b, mod);
break;
case TEST_SUB:
vli_mod_sub(result, a, b, mod);
break;
case TEST_MULT:
vli_mod_mult_fast(result, a, b);
break;
case TEST_INV:
vli_mod_inv(result, a, mod);
break;
case TEST_EXP:
vli_mod_exp(result, a, b, mod);
break;
case TEST_POINT_ADD:
assert(ecc_valid_point(&point1) == true);
assert(ecc_valid_point(&point2) == true);
ecc_point_add(&point_ret, &point1, &point2);
break;
case TEST_SCALAR_MULT:
assert(ecc_valid_point(&point1) == true);
ecc_point_mult(&point_ret, &point1, scalar, NULL,
vli_num_bits(scalar));
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break;
}
if (data->type <= TEST_EXP) {
HEX2BUF(data->result, check);
ecc_native2be(check);
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assert(memcmp(result, check, 32) == 0);
} else {
uint64_t checkx[NUM_ECC_DIGITS];
uint64_t checky[NUM_ECC_DIGITS];
HEX2BUF(data->rx, checkx);
ecc_native2be(checkx);
HEX2BUF(data->ry, checky);
ecc_native2be(checky);
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assert(memcmp(checkx, point_ret.x, 32) == 0);
assert(memcmp(checky, point_ret.y, 32) == 0);
assert(ecc_valid_point(&point_ret) == true);
}
}
int main(int argc, char *argv[])
{
l_test_init(&argc, &argv);
l_test_add("ECC add test", run_test, &add_test);
l_test_add("ECC sub test", run_test, &sub_test);
l_test_add("ECC mult test", run_test, &mult_test);
l_test_add("ECC inv test", run_test, &inv_test);
l_test_add("ECC inv test", run_test, &inv_test2);
l_test_add("ECC exp test", run_test, &exp_test);
l_test_add("ECC point add test", run_test, &point_add_test);
l_test_add("ECC point mult test", run_test, &point_mult_test);
return l_test_run();
}