1*042d53a7SEvalZero /* ecc.c - TinyCrypt implementation of common ECC functions */
2*042d53a7SEvalZero
3*042d53a7SEvalZero /*
4*042d53a7SEvalZero * Copyright (c) 2014, Kenneth MacKay
5*042d53a7SEvalZero * All rights reserved.
6*042d53a7SEvalZero *
7*042d53a7SEvalZero * Redistribution and use in source and binary forms, with or without
8*042d53a7SEvalZero * modification, are permitted provided that the following conditions are met:
9*042d53a7SEvalZero * * Redistributions of source code must retain the above copyright notice,
10*042d53a7SEvalZero * this list of conditions and the following disclaimer.
11*042d53a7SEvalZero * * Redistributions in binary form must reproduce the above copyright notice,
12*042d53a7SEvalZero * this list of conditions and the following disclaimer in the documentation
13*042d53a7SEvalZero * and/or other materials provided with the distribution.
14*042d53a7SEvalZero *
15*042d53a7SEvalZero * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
16*042d53a7SEvalZero * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
17*042d53a7SEvalZero * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
18*042d53a7SEvalZero * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR
19*042d53a7SEvalZero * ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
20*042d53a7SEvalZero * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
21*042d53a7SEvalZero * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON
22*042d53a7SEvalZero * ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
23*042d53a7SEvalZero * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
24*042d53a7SEvalZero * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
25*042d53a7SEvalZero *
26*042d53a7SEvalZero * Copyright (C) 2017 by Intel Corporation, All Rights Reserved.
27*042d53a7SEvalZero *
28*042d53a7SEvalZero * Redistribution and use in source and binary forms, with or without
29*042d53a7SEvalZero * modification, are permitted provided that the following conditions are met:
30*042d53a7SEvalZero *
31*042d53a7SEvalZero * - Redistributions of source code must retain the above copyright notice,
32*042d53a7SEvalZero * this list of conditions and the following disclaimer.
33*042d53a7SEvalZero *
34*042d53a7SEvalZero * - Redistributions in binary form must reproduce the above copyright
35*042d53a7SEvalZero * notice, this list of conditions and the following disclaimer in the
36*042d53a7SEvalZero * documentation and/or other materials provided with the distribution.
37*042d53a7SEvalZero *
38*042d53a7SEvalZero * - Neither the name of Intel Corporation nor the names of its contributors
39*042d53a7SEvalZero * may be used to endorse or promote products derived from this software
40*042d53a7SEvalZero * without specific prior written permission.
41*042d53a7SEvalZero *
42*042d53a7SEvalZero * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
43*042d53a7SEvalZero * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
44*042d53a7SEvalZero * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
45*042d53a7SEvalZero * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
46*042d53a7SEvalZero * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
47*042d53a7SEvalZero * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
48*042d53a7SEvalZero * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
49*042d53a7SEvalZero * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
50*042d53a7SEvalZero * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
51*042d53a7SEvalZero * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
52*042d53a7SEvalZero * POSSIBILITY OF SUCH DAMAGE.
53*042d53a7SEvalZero */
54*042d53a7SEvalZero
55*042d53a7SEvalZero #include <tinycrypt/ecc.h>
56*042d53a7SEvalZero #include <tinycrypt/ecc_platform_specific.h>
57*042d53a7SEvalZero #include <string.h>
58*042d53a7SEvalZero
59*042d53a7SEvalZero /* IMPORTANT: Make sure a cryptographically-secure PRNG is set and the platform
60*042d53a7SEvalZero * has access to enough entropy in order to feed the PRNG regularly. */
61*042d53a7SEvalZero #if default_RNG_defined
62*042d53a7SEvalZero static uECC_RNG_Function g_rng_function = &default_CSPRNG;
63*042d53a7SEvalZero #else
64*042d53a7SEvalZero static uECC_RNG_Function g_rng_function = 0;
65*042d53a7SEvalZero #endif
66*042d53a7SEvalZero
uECC_set_rng(uECC_RNG_Function rng_function)67*042d53a7SEvalZero void uECC_set_rng(uECC_RNG_Function rng_function)
68*042d53a7SEvalZero {
69*042d53a7SEvalZero g_rng_function = rng_function;
70*042d53a7SEvalZero }
71*042d53a7SEvalZero
uECC_get_rng(void)72*042d53a7SEvalZero uECC_RNG_Function uECC_get_rng(void)
73*042d53a7SEvalZero {
74*042d53a7SEvalZero return g_rng_function;
75*042d53a7SEvalZero }
76*042d53a7SEvalZero
uECC_curve_private_key_size(uECC_Curve curve)77*042d53a7SEvalZero int uECC_curve_private_key_size(uECC_Curve curve)
78*042d53a7SEvalZero {
79*042d53a7SEvalZero return BITS_TO_BYTES(curve->num_n_bits);
80*042d53a7SEvalZero }
81*042d53a7SEvalZero
uECC_curve_public_key_size(uECC_Curve curve)82*042d53a7SEvalZero int uECC_curve_public_key_size(uECC_Curve curve)
83*042d53a7SEvalZero {
84*042d53a7SEvalZero return 2 * curve->num_bytes;
85*042d53a7SEvalZero }
86*042d53a7SEvalZero
uECC_vli_clear(uECC_word_t * vli,wordcount_t num_words)87*042d53a7SEvalZero void uECC_vli_clear(uECC_word_t *vli, wordcount_t num_words)
88*042d53a7SEvalZero {
89*042d53a7SEvalZero wordcount_t i;
90*042d53a7SEvalZero for (i = 0; i < num_words; ++i) {
91*042d53a7SEvalZero vli[i] = 0;
92*042d53a7SEvalZero }
93*042d53a7SEvalZero }
94*042d53a7SEvalZero
uECC_vli_isZero(const uECC_word_t * vli,wordcount_t num_words)95*042d53a7SEvalZero uECC_word_t uECC_vli_isZero(const uECC_word_t *vli, wordcount_t num_words)
96*042d53a7SEvalZero {
97*042d53a7SEvalZero uECC_word_t bits = 0;
98*042d53a7SEvalZero wordcount_t i;
99*042d53a7SEvalZero for (i = 0; i < num_words; ++i) {
100*042d53a7SEvalZero bits |= vli[i];
101*042d53a7SEvalZero }
102*042d53a7SEvalZero return (bits == 0);
103*042d53a7SEvalZero }
104*042d53a7SEvalZero
uECC_vli_testBit(const uECC_word_t * vli,bitcount_t bit)105*042d53a7SEvalZero uECC_word_t uECC_vli_testBit(const uECC_word_t *vli, bitcount_t bit)
106*042d53a7SEvalZero {
107*042d53a7SEvalZero return (vli[bit >> uECC_WORD_BITS_SHIFT] &
108*042d53a7SEvalZero ((uECC_word_t)1 << (bit & uECC_WORD_BITS_MASK)));
109*042d53a7SEvalZero }
110*042d53a7SEvalZero
111*042d53a7SEvalZero /* Counts the number of words in vli. */
vli_numDigits(const uECC_word_t * vli,const wordcount_t max_words)112*042d53a7SEvalZero static wordcount_t vli_numDigits(const uECC_word_t *vli,
113*042d53a7SEvalZero const wordcount_t max_words)
114*042d53a7SEvalZero {
115*042d53a7SEvalZero
116*042d53a7SEvalZero wordcount_t i;
117*042d53a7SEvalZero /* Search from the end until we find a non-zero digit. We do it in reverse
118*042d53a7SEvalZero * because we expect that most digits will be nonzero. */
119*042d53a7SEvalZero for (i = max_words - 1; i >= 0 && vli[i] == 0; --i) {
120*042d53a7SEvalZero }
121*042d53a7SEvalZero
122*042d53a7SEvalZero return (i + 1);
123*042d53a7SEvalZero }
124*042d53a7SEvalZero
uECC_vli_numBits(const uECC_word_t * vli,const wordcount_t max_words)125*042d53a7SEvalZero bitcount_t uECC_vli_numBits(const uECC_word_t *vli,
126*042d53a7SEvalZero const wordcount_t max_words)
127*042d53a7SEvalZero {
128*042d53a7SEvalZero
129*042d53a7SEvalZero uECC_word_t i;
130*042d53a7SEvalZero uECC_word_t digit;
131*042d53a7SEvalZero
132*042d53a7SEvalZero wordcount_t num_digits = vli_numDigits(vli, max_words);
133*042d53a7SEvalZero if (num_digits == 0) {
134*042d53a7SEvalZero return 0;
135*042d53a7SEvalZero }
136*042d53a7SEvalZero
137*042d53a7SEvalZero digit = vli[num_digits - 1];
138*042d53a7SEvalZero for (i = 0; digit; ++i) {
139*042d53a7SEvalZero digit >>= 1;
140*042d53a7SEvalZero }
141*042d53a7SEvalZero
142*042d53a7SEvalZero return (((bitcount_t)(num_digits - 1) << uECC_WORD_BITS_SHIFT) + i);
143*042d53a7SEvalZero }
144*042d53a7SEvalZero
uECC_vli_set(uECC_word_t * dest,const uECC_word_t * src,wordcount_t num_words)145*042d53a7SEvalZero void uECC_vli_set(uECC_word_t *dest, const uECC_word_t *src,
146*042d53a7SEvalZero wordcount_t num_words)
147*042d53a7SEvalZero {
148*042d53a7SEvalZero wordcount_t i;
149*042d53a7SEvalZero
150*042d53a7SEvalZero for (i = 0; i < num_words; ++i) {
151*042d53a7SEvalZero dest[i] = src[i];
152*042d53a7SEvalZero }
153*042d53a7SEvalZero }
154*042d53a7SEvalZero
uECC_vli_cmp_unsafe(const uECC_word_t * left,const uECC_word_t * right,wordcount_t num_words)155*042d53a7SEvalZero cmpresult_t uECC_vli_cmp_unsafe(const uECC_word_t *left,
156*042d53a7SEvalZero const uECC_word_t *right,
157*042d53a7SEvalZero wordcount_t num_words)
158*042d53a7SEvalZero {
159*042d53a7SEvalZero wordcount_t i;
160*042d53a7SEvalZero
161*042d53a7SEvalZero for (i = num_words - 1; i >= 0; --i) {
162*042d53a7SEvalZero if (left[i] > right[i]) {
163*042d53a7SEvalZero return 1;
164*042d53a7SEvalZero } else if (left[i] < right[i]) {
165*042d53a7SEvalZero return -1;
166*042d53a7SEvalZero }
167*042d53a7SEvalZero }
168*042d53a7SEvalZero return 0;
169*042d53a7SEvalZero }
170*042d53a7SEvalZero
uECC_vli_equal(const uECC_word_t * left,const uECC_word_t * right,wordcount_t num_words)171*042d53a7SEvalZero uECC_word_t uECC_vli_equal(const uECC_word_t *left, const uECC_word_t *right,
172*042d53a7SEvalZero wordcount_t num_words)
173*042d53a7SEvalZero {
174*042d53a7SEvalZero
175*042d53a7SEvalZero uECC_word_t diff = 0;
176*042d53a7SEvalZero wordcount_t i;
177*042d53a7SEvalZero
178*042d53a7SEvalZero for (i = num_words - 1; i >= 0; --i) {
179*042d53a7SEvalZero diff |= (left[i] ^ right[i]);
180*042d53a7SEvalZero }
181*042d53a7SEvalZero return !(diff == 0);
182*042d53a7SEvalZero }
183*042d53a7SEvalZero
cond_set(uECC_word_t p_true,uECC_word_t p_false,unsigned int cond)184*042d53a7SEvalZero uECC_word_t cond_set(uECC_word_t p_true, uECC_word_t p_false, unsigned int cond)
185*042d53a7SEvalZero {
186*042d53a7SEvalZero return (p_true*(cond)) | (p_false*(!cond));
187*042d53a7SEvalZero }
188*042d53a7SEvalZero
189*042d53a7SEvalZero /* Computes result = left - right, returning borrow, in constant time.
190*042d53a7SEvalZero * Can modify in place. */
uECC_vli_sub(uECC_word_t * result,const uECC_word_t * left,const uECC_word_t * right,wordcount_t num_words)191*042d53a7SEvalZero uECC_word_t uECC_vli_sub(uECC_word_t *result, const uECC_word_t *left,
192*042d53a7SEvalZero const uECC_word_t *right, wordcount_t num_words)
193*042d53a7SEvalZero {
194*042d53a7SEvalZero uECC_word_t borrow = 0;
195*042d53a7SEvalZero wordcount_t i;
196*042d53a7SEvalZero for (i = 0; i < num_words; ++i) {
197*042d53a7SEvalZero uECC_word_t diff = left[i] - right[i] - borrow;
198*042d53a7SEvalZero uECC_word_t val = (diff > left[i]);
199*042d53a7SEvalZero borrow = cond_set(val, borrow, (diff != left[i]));
200*042d53a7SEvalZero
201*042d53a7SEvalZero result[i] = diff;
202*042d53a7SEvalZero }
203*042d53a7SEvalZero return borrow;
204*042d53a7SEvalZero }
205*042d53a7SEvalZero
206*042d53a7SEvalZero /* Computes result = left + right, returning carry, in constant time.
207*042d53a7SEvalZero * Can modify in place. */
uECC_vli_add(uECC_word_t * result,const uECC_word_t * left,const uECC_word_t * right,wordcount_t num_words)208*042d53a7SEvalZero static uECC_word_t uECC_vli_add(uECC_word_t *result, const uECC_word_t *left,
209*042d53a7SEvalZero const uECC_word_t *right, wordcount_t num_words)
210*042d53a7SEvalZero {
211*042d53a7SEvalZero uECC_word_t carry = 0;
212*042d53a7SEvalZero wordcount_t i;
213*042d53a7SEvalZero for (i = 0; i < num_words; ++i) {
214*042d53a7SEvalZero uECC_word_t sum = left[i] + right[i] + carry;
215*042d53a7SEvalZero uECC_word_t val = (sum < left[i]);
216*042d53a7SEvalZero carry = cond_set(val, carry, (sum != left[i]));
217*042d53a7SEvalZero result[i] = sum;
218*042d53a7SEvalZero }
219*042d53a7SEvalZero return carry;
220*042d53a7SEvalZero }
221*042d53a7SEvalZero
uECC_vli_cmp(const uECC_word_t * left,const uECC_word_t * right,wordcount_t num_words)222*042d53a7SEvalZero cmpresult_t uECC_vli_cmp(const uECC_word_t *left, const uECC_word_t *right,
223*042d53a7SEvalZero wordcount_t num_words)
224*042d53a7SEvalZero {
225*042d53a7SEvalZero uECC_word_t tmp[NUM_ECC_WORDS];
226*042d53a7SEvalZero uECC_word_t neg = !!uECC_vli_sub(tmp, left, right, num_words);
227*042d53a7SEvalZero uECC_word_t equal = uECC_vli_isZero(tmp, num_words);
228*042d53a7SEvalZero return (!equal - 2 * neg);
229*042d53a7SEvalZero }
230*042d53a7SEvalZero
231*042d53a7SEvalZero /* Computes vli = vli >> 1. */
uECC_vli_rshift1(uECC_word_t * vli,wordcount_t num_words)232*042d53a7SEvalZero static void uECC_vli_rshift1(uECC_word_t *vli, wordcount_t num_words)
233*042d53a7SEvalZero {
234*042d53a7SEvalZero uECC_word_t *end = vli;
235*042d53a7SEvalZero uECC_word_t carry = 0;
236*042d53a7SEvalZero
237*042d53a7SEvalZero vli += num_words;
238*042d53a7SEvalZero while (vli-- > end) {
239*042d53a7SEvalZero uECC_word_t temp = *vli;
240*042d53a7SEvalZero *vli = (temp >> 1) | carry;
241*042d53a7SEvalZero carry = temp << (uECC_WORD_BITS - 1);
242*042d53a7SEvalZero }
243*042d53a7SEvalZero }
244*042d53a7SEvalZero
muladd(uECC_word_t a,uECC_word_t b,uECC_word_t * r0,uECC_word_t * r1,uECC_word_t * r2)245*042d53a7SEvalZero static void muladd(uECC_word_t a, uECC_word_t b, uECC_word_t *r0,
246*042d53a7SEvalZero uECC_word_t *r1, uECC_word_t *r2)
247*042d53a7SEvalZero {
248*042d53a7SEvalZero
249*042d53a7SEvalZero uECC_dword_t p = (uECC_dword_t)a * b;
250*042d53a7SEvalZero uECC_dword_t r01 = ((uECC_dword_t)(*r1) << uECC_WORD_BITS) | *r0;
251*042d53a7SEvalZero r01 += p;
252*042d53a7SEvalZero *r2 += (r01 < p);
253*042d53a7SEvalZero *r1 = r01 >> uECC_WORD_BITS;
254*042d53a7SEvalZero *r0 = (uECC_word_t)r01;
255*042d53a7SEvalZero
256*042d53a7SEvalZero }
257*042d53a7SEvalZero
258*042d53a7SEvalZero /* Computes result = left * right. Result must be 2 * num_words long. */
uECC_vli_mult(uECC_word_t * result,const uECC_word_t * left,const uECC_word_t * right,wordcount_t num_words)259*042d53a7SEvalZero static void uECC_vli_mult(uECC_word_t *result, const uECC_word_t *left,
260*042d53a7SEvalZero const uECC_word_t *right, wordcount_t num_words)
261*042d53a7SEvalZero {
262*042d53a7SEvalZero
263*042d53a7SEvalZero uECC_word_t r0 = 0;
264*042d53a7SEvalZero uECC_word_t r1 = 0;
265*042d53a7SEvalZero uECC_word_t r2 = 0;
266*042d53a7SEvalZero wordcount_t i, k;
267*042d53a7SEvalZero
268*042d53a7SEvalZero /* Compute each digit of result in sequence, maintaining the carries. */
269*042d53a7SEvalZero for (k = 0; k < num_words; ++k) {
270*042d53a7SEvalZero
271*042d53a7SEvalZero for (i = 0; i <= k; ++i) {
272*042d53a7SEvalZero muladd(left[i], right[k - i], &r0, &r1, &r2);
273*042d53a7SEvalZero }
274*042d53a7SEvalZero
275*042d53a7SEvalZero result[k] = r0;
276*042d53a7SEvalZero r0 = r1;
277*042d53a7SEvalZero r1 = r2;
278*042d53a7SEvalZero r2 = 0;
279*042d53a7SEvalZero }
280*042d53a7SEvalZero
281*042d53a7SEvalZero for (k = num_words; k < num_words * 2 - 1; ++k) {
282*042d53a7SEvalZero
283*042d53a7SEvalZero for (i = (k + 1) - num_words; i < num_words; ++i) {
284*042d53a7SEvalZero muladd(left[i], right[k - i], &r0, &r1, &r2);
285*042d53a7SEvalZero }
286*042d53a7SEvalZero result[k] = r0;
287*042d53a7SEvalZero r0 = r1;
288*042d53a7SEvalZero r1 = r2;
289*042d53a7SEvalZero r2 = 0;
290*042d53a7SEvalZero }
291*042d53a7SEvalZero result[num_words * 2 - 1] = r0;
292*042d53a7SEvalZero }
293*042d53a7SEvalZero
uECC_vli_modAdd(uECC_word_t * result,const uECC_word_t * left,const uECC_word_t * right,const uECC_word_t * mod,wordcount_t num_words)294*042d53a7SEvalZero void uECC_vli_modAdd(uECC_word_t *result, const uECC_word_t *left,
295*042d53a7SEvalZero const uECC_word_t *right, const uECC_word_t *mod,
296*042d53a7SEvalZero wordcount_t num_words)
297*042d53a7SEvalZero {
298*042d53a7SEvalZero uECC_word_t carry = uECC_vli_add(result, left, right, num_words);
299*042d53a7SEvalZero if (carry || uECC_vli_cmp_unsafe(mod, result, num_words) != 1) {
300*042d53a7SEvalZero /* result > mod (result = mod + remainder), so subtract mod to get
301*042d53a7SEvalZero * remainder. */
302*042d53a7SEvalZero uECC_vli_sub(result, result, mod, num_words);
303*042d53a7SEvalZero }
304*042d53a7SEvalZero }
305*042d53a7SEvalZero
uECC_vli_modSub(uECC_word_t * result,const uECC_word_t * left,const uECC_word_t * right,const uECC_word_t * mod,wordcount_t num_words)306*042d53a7SEvalZero void uECC_vli_modSub(uECC_word_t *result, const uECC_word_t *left,
307*042d53a7SEvalZero const uECC_word_t *right, const uECC_word_t *mod,
308*042d53a7SEvalZero wordcount_t num_words)
309*042d53a7SEvalZero {
310*042d53a7SEvalZero uECC_word_t l_borrow = uECC_vli_sub(result, left, right, num_words);
311*042d53a7SEvalZero if (l_borrow) {
312*042d53a7SEvalZero /* In this case, result == -diff == (max int) - diff. Since -x % d == d - x,
313*042d53a7SEvalZero * we can get the correct result from result + mod (with overflow). */
314*042d53a7SEvalZero uECC_vli_add(result, result, mod, num_words);
315*042d53a7SEvalZero }
316*042d53a7SEvalZero }
317*042d53a7SEvalZero
318*042d53a7SEvalZero /* Computes result = product % mod, where product is 2N words long. */
319*042d53a7SEvalZero /* Currently only designed to work for curve_p or curve_n. */
uECC_vli_mmod(uECC_word_t * result,uECC_word_t * product,const uECC_word_t * mod,wordcount_t num_words)320*042d53a7SEvalZero void uECC_vli_mmod(uECC_word_t *result, uECC_word_t *product,
321*042d53a7SEvalZero const uECC_word_t *mod, wordcount_t num_words)
322*042d53a7SEvalZero {
323*042d53a7SEvalZero uECC_word_t mod_multiple[2 * NUM_ECC_WORDS];
324*042d53a7SEvalZero uECC_word_t tmp[2 * NUM_ECC_WORDS];
325*042d53a7SEvalZero uECC_word_t *v[2] = {tmp, product};
326*042d53a7SEvalZero uECC_word_t index;
327*042d53a7SEvalZero
328*042d53a7SEvalZero /* Shift mod so its highest set bit is at the maximum position. */
329*042d53a7SEvalZero bitcount_t shift = (num_words * 2 * uECC_WORD_BITS) -
330*042d53a7SEvalZero uECC_vli_numBits(mod, num_words);
331*042d53a7SEvalZero wordcount_t word_shift = shift / uECC_WORD_BITS;
332*042d53a7SEvalZero wordcount_t bit_shift = shift % uECC_WORD_BITS;
333*042d53a7SEvalZero uECC_word_t carry = 0;
334*042d53a7SEvalZero uECC_vli_clear(mod_multiple, word_shift);
335*042d53a7SEvalZero if (bit_shift > 0) {
336*042d53a7SEvalZero for(index = 0; index < (uECC_word_t)num_words; ++index) {
337*042d53a7SEvalZero mod_multiple[word_shift + index] = (mod[index] << bit_shift) | carry;
338*042d53a7SEvalZero carry = mod[index] >> (uECC_WORD_BITS - bit_shift);
339*042d53a7SEvalZero }
340*042d53a7SEvalZero } else {
341*042d53a7SEvalZero uECC_vli_set(mod_multiple + word_shift, mod, num_words);
342*042d53a7SEvalZero }
343*042d53a7SEvalZero
344*042d53a7SEvalZero for (index = 1; shift >= 0; --shift) {
345*042d53a7SEvalZero uECC_word_t borrow = 0;
346*042d53a7SEvalZero wordcount_t i;
347*042d53a7SEvalZero for (i = 0; i < num_words * 2; ++i) {
348*042d53a7SEvalZero uECC_word_t diff = v[index][i] - mod_multiple[i] - borrow;
349*042d53a7SEvalZero if (diff != v[index][i]) {
350*042d53a7SEvalZero borrow = (diff > v[index][i]);
351*042d53a7SEvalZero }
352*042d53a7SEvalZero v[1 - index][i] = diff;
353*042d53a7SEvalZero }
354*042d53a7SEvalZero /* Swap the index if there was no borrow */
355*042d53a7SEvalZero index = !(index ^ borrow);
356*042d53a7SEvalZero uECC_vli_rshift1(mod_multiple, num_words);
357*042d53a7SEvalZero mod_multiple[num_words - 1] |= mod_multiple[num_words] <<
358*042d53a7SEvalZero (uECC_WORD_BITS - 1);
359*042d53a7SEvalZero uECC_vli_rshift1(mod_multiple + num_words, num_words);
360*042d53a7SEvalZero }
361*042d53a7SEvalZero uECC_vli_set(result, v[index], num_words);
362*042d53a7SEvalZero }
363*042d53a7SEvalZero
uECC_vli_modMult(uECC_word_t * result,const uECC_word_t * left,const uECC_word_t * right,const uECC_word_t * mod,wordcount_t num_words)364*042d53a7SEvalZero void uECC_vli_modMult(uECC_word_t *result, const uECC_word_t *left,
365*042d53a7SEvalZero const uECC_word_t *right, const uECC_word_t *mod,
366*042d53a7SEvalZero wordcount_t num_words)
367*042d53a7SEvalZero {
368*042d53a7SEvalZero uECC_word_t product[2 * NUM_ECC_WORDS];
369*042d53a7SEvalZero uECC_vli_mult(product, left, right, num_words);
370*042d53a7SEvalZero uECC_vli_mmod(result, product, mod, num_words);
371*042d53a7SEvalZero }
372*042d53a7SEvalZero
uECC_vli_modMult_fast(uECC_word_t * result,const uECC_word_t * left,const uECC_word_t * right,uECC_Curve curve)373*042d53a7SEvalZero void uECC_vli_modMult_fast(uECC_word_t *result, const uECC_word_t *left,
374*042d53a7SEvalZero const uECC_word_t *right, uECC_Curve curve)
375*042d53a7SEvalZero {
376*042d53a7SEvalZero uECC_word_t product[2 * NUM_ECC_WORDS];
377*042d53a7SEvalZero uECC_vli_mult(product, left, right, curve->num_words);
378*042d53a7SEvalZero
379*042d53a7SEvalZero curve->mmod_fast(result, product);
380*042d53a7SEvalZero }
381*042d53a7SEvalZero
uECC_vli_modSquare_fast(uECC_word_t * result,const uECC_word_t * left,uECC_Curve curve)382*042d53a7SEvalZero static void uECC_vli_modSquare_fast(uECC_word_t *result,
383*042d53a7SEvalZero const uECC_word_t *left,
384*042d53a7SEvalZero uECC_Curve curve)
385*042d53a7SEvalZero {
386*042d53a7SEvalZero uECC_vli_modMult_fast(result, left, left, curve);
387*042d53a7SEvalZero }
388*042d53a7SEvalZero
389*042d53a7SEvalZero
390*042d53a7SEvalZero #define EVEN(vli) (!(vli[0] & 1))
391*042d53a7SEvalZero
vli_modInv_update(uECC_word_t * uv,const uECC_word_t * mod,wordcount_t num_words)392*042d53a7SEvalZero static void vli_modInv_update(uECC_word_t *uv,
393*042d53a7SEvalZero const uECC_word_t *mod,
394*042d53a7SEvalZero wordcount_t num_words)
395*042d53a7SEvalZero {
396*042d53a7SEvalZero
397*042d53a7SEvalZero uECC_word_t carry = 0;
398*042d53a7SEvalZero
399*042d53a7SEvalZero if (!EVEN(uv)) {
400*042d53a7SEvalZero carry = uECC_vli_add(uv, uv, mod, num_words);
401*042d53a7SEvalZero }
402*042d53a7SEvalZero uECC_vli_rshift1(uv, num_words);
403*042d53a7SEvalZero if (carry) {
404*042d53a7SEvalZero uv[num_words - 1] |= HIGH_BIT_SET;
405*042d53a7SEvalZero }
406*042d53a7SEvalZero }
407*042d53a7SEvalZero
uECC_vli_modInv(uECC_word_t * result,const uECC_word_t * input,const uECC_word_t * mod,wordcount_t num_words)408*042d53a7SEvalZero void uECC_vli_modInv(uECC_word_t *result, const uECC_word_t *input,
409*042d53a7SEvalZero const uECC_word_t *mod, wordcount_t num_words)
410*042d53a7SEvalZero {
411*042d53a7SEvalZero uECC_word_t a[NUM_ECC_WORDS], b[NUM_ECC_WORDS];
412*042d53a7SEvalZero uECC_word_t u[NUM_ECC_WORDS], v[NUM_ECC_WORDS];
413*042d53a7SEvalZero cmpresult_t cmpResult;
414*042d53a7SEvalZero
415*042d53a7SEvalZero if (uECC_vli_isZero(input, num_words)) {
416*042d53a7SEvalZero uECC_vli_clear(result, num_words);
417*042d53a7SEvalZero return;
418*042d53a7SEvalZero }
419*042d53a7SEvalZero
420*042d53a7SEvalZero uECC_vli_set(a, input, num_words);
421*042d53a7SEvalZero uECC_vli_set(b, mod, num_words);
422*042d53a7SEvalZero uECC_vli_clear(u, num_words);
423*042d53a7SEvalZero u[0] = 1;
424*042d53a7SEvalZero uECC_vli_clear(v, num_words);
425*042d53a7SEvalZero while ((cmpResult = uECC_vli_cmp_unsafe(a, b, num_words)) != 0) {
426*042d53a7SEvalZero if (EVEN(a)) {
427*042d53a7SEvalZero uECC_vli_rshift1(a, num_words);
428*042d53a7SEvalZero vli_modInv_update(u, mod, num_words);
429*042d53a7SEvalZero } else if (EVEN(b)) {
430*042d53a7SEvalZero uECC_vli_rshift1(b, num_words);
431*042d53a7SEvalZero vli_modInv_update(v, mod, num_words);
432*042d53a7SEvalZero } else if (cmpResult > 0) {
433*042d53a7SEvalZero uECC_vli_sub(a, a, b, num_words);
434*042d53a7SEvalZero uECC_vli_rshift1(a, num_words);
435*042d53a7SEvalZero if (uECC_vli_cmp_unsafe(u, v, num_words) < 0) {
436*042d53a7SEvalZero uECC_vli_add(u, u, mod, num_words);
437*042d53a7SEvalZero }
438*042d53a7SEvalZero uECC_vli_sub(u, u, v, num_words);
439*042d53a7SEvalZero vli_modInv_update(u, mod, num_words);
440*042d53a7SEvalZero } else {
441*042d53a7SEvalZero uECC_vli_sub(b, b, a, num_words);
442*042d53a7SEvalZero uECC_vli_rshift1(b, num_words);
443*042d53a7SEvalZero if (uECC_vli_cmp_unsafe(v, u, num_words) < 0) {
444*042d53a7SEvalZero uECC_vli_add(v, v, mod, num_words);
445*042d53a7SEvalZero }
446*042d53a7SEvalZero uECC_vli_sub(v, v, u, num_words);
447*042d53a7SEvalZero vli_modInv_update(v, mod, num_words);
448*042d53a7SEvalZero }
449*042d53a7SEvalZero }
450*042d53a7SEvalZero uECC_vli_set(result, u, num_words);
451*042d53a7SEvalZero }
452*042d53a7SEvalZero
453*042d53a7SEvalZero /* ------ Point operations ------ */
454*042d53a7SEvalZero
double_jacobian_default(uECC_word_t * X1,uECC_word_t * Y1,uECC_word_t * Z1,uECC_Curve curve)455*042d53a7SEvalZero void double_jacobian_default(uECC_word_t * X1, uECC_word_t * Y1,
456*042d53a7SEvalZero uECC_word_t * Z1, uECC_Curve curve)
457*042d53a7SEvalZero {
458*042d53a7SEvalZero /* t1 = X, t2 = Y, t3 = Z */
459*042d53a7SEvalZero uECC_word_t t4[NUM_ECC_WORDS];
460*042d53a7SEvalZero uECC_word_t t5[NUM_ECC_WORDS];
461*042d53a7SEvalZero wordcount_t num_words = curve->num_words;
462*042d53a7SEvalZero
463*042d53a7SEvalZero if (uECC_vli_isZero(Z1, num_words)) {
464*042d53a7SEvalZero return;
465*042d53a7SEvalZero }
466*042d53a7SEvalZero
467*042d53a7SEvalZero uECC_vli_modSquare_fast(t4, Y1, curve); /* t4 = y1^2 */
468*042d53a7SEvalZero uECC_vli_modMult_fast(t5, X1, t4, curve); /* t5 = x1*y1^2 = A */
469*042d53a7SEvalZero uECC_vli_modSquare_fast(t4, t4, curve); /* t4 = y1^4 */
470*042d53a7SEvalZero uECC_vli_modMult_fast(Y1, Y1, Z1, curve); /* t2 = y1*z1 = z3 */
471*042d53a7SEvalZero uECC_vli_modSquare_fast(Z1, Z1, curve); /* t3 = z1^2 */
472*042d53a7SEvalZero
473*042d53a7SEvalZero uECC_vli_modAdd(X1, X1, Z1, curve->p, num_words); /* t1 = x1 + z1^2 */
474*042d53a7SEvalZero uECC_vli_modAdd(Z1, Z1, Z1, curve->p, num_words); /* t3 = 2*z1^2 */
475*042d53a7SEvalZero uECC_vli_modSub(Z1, X1, Z1, curve->p, num_words); /* t3 = x1 - z1^2 */
476*042d53a7SEvalZero uECC_vli_modMult_fast(X1, X1, Z1, curve); /* t1 = x1^2 - z1^4 */
477*042d53a7SEvalZero
478*042d53a7SEvalZero uECC_vli_modAdd(Z1, X1, X1, curve->p, num_words); /* t3 = 2*(x1^2 - z1^4) */
479*042d53a7SEvalZero uECC_vli_modAdd(X1, X1, Z1, curve->p, num_words); /* t1 = 3*(x1^2 - z1^4) */
480*042d53a7SEvalZero if (uECC_vli_testBit(X1, 0)) {
481*042d53a7SEvalZero uECC_word_t l_carry = uECC_vli_add(X1, X1, curve->p, num_words);
482*042d53a7SEvalZero uECC_vli_rshift1(X1, num_words);
483*042d53a7SEvalZero X1[num_words - 1] |= l_carry << (uECC_WORD_BITS - 1);
484*042d53a7SEvalZero } else {
485*042d53a7SEvalZero uECC_vli_rshift1(X1, num_words);
486*042d53a7SEvalZero }
487*042d53a7SEvalZero
488*042d53a7SEvalZero /* t1 = 3/2*(x1^2 - z1^4) = B */
489*042d53a7SEvalZero uECC_vli_modSquare_fast(Z1, X1, curve); /* t3 = B^2 */
490*042d53a7SEvalZero uECC_vli_modSub(Z1, Z1, t5, curve->p, num_words); /* t3 = B^2 - A */
491*042d53a7SEvalZero uECC_vli_modSub(Z1, Z1, t5, curve->p, num_words); /* t3 = B^2 - 2A = x3 */
492*042d53a7SEvalZero uECC_vli_modSub(t5, t5, Z1, curve->p, num_words); /* t5 = A - x3 */
493*042d53a7SEvalZero uECC_vli_modMult_fast(X1, X1, t5, curve); /* t1 = B * (A - x3) */
494*042d53a7SEvalZero /* t4 = B * (A - x3) - y1^4 = y3: */
495*042d53a7SEvalZero uECC_vli_modSub(t4, X1, t4, curve->p, num_words);
496*042d53a7SEvalZero
497*042d53a7SEvalZero uECC_vli_set(X1, Z1, num_words);
498*042d53a7SEvalZero uECC_vli_set(Z1, Y1, num_words);
499*042d53a7SEvalZero uECC_vli_set(Y1, t4, num_words);
500*042d53a7SEvalZero }
501*042d53a7SEvalZero
x_side_default(uECC_word_t * result,const uECC_word_t * x,uECC_Curve curve)502*042d53a7SEvalZero void x_side_default(uECC_word_t *result,
503*042d53a7SEvalZero const uECC_word_t *x,
504*042d53a7SEvalZero uECC_Curve curve)
505*042d53a7SEvalZero {
506*042d53a7SEvalZero uECC_word_t _3[NUM_ECC_WORDS] = {3}; /* -a = 3 */
507*042d53a7SEvalZero wordcount_t num_words = curve->num_words;
508*042d53a7SEvalZero
509*042d53a7SEvalZero uECC_vli_modSquare_fast(result, x, curve); /* r = x^2 */
510*042d53a7SEvalZero uECC_vli_modSub(result, result, _3, curve->p, num_words); /* r = x^2 - 3 */
511*042d53a7SEvalZero uECC_vli_modMult_fast(result, result, x, curve); /* r = x^3 - 3x */
512*042d53a7SEvalZero /* r = x^3 - 3x + b: */
513*042d53a7SEvalZero uECC_vli_modAdd(result, result, curve->b, curve->p, num_words);
514*042d53a7SEvalZero }
515*042d53a7SEvalZero
uECC_secp256r1(void)516*042d53a7SEvalZero uECC_Curve uECC_secp256r1(void)
517*042d53a7SEvalZero {
518*042d53a7SEvalZero return &curve_secp256r1;
519*042d53a7SEvalZero }
520*042d53a7SEvalZero
vli_mmod_fast_secp256r1(unsigned int * result,unsigned int * product)521*042d53a7SEvalZero void vli_mmod_fast_secp256r1(unsigned int *result, unsigned int*product)
522*042d53a7SEvalZero {
523*042d53a7SEvalZero unsigned int tmp[NUM_ECC_WORDS];
524*042d53a7SEvalZero int carry;
525*042d53a7SEvalZero
526*042d53a7SEvalZero /* t */
527*042d53a7SEvalZero uECC_vli_set(result, product, NUM_ECC_WORDS);
528*042d53a7SEvalZero
529*042d53a7SEvalZero /* s1 */
530*042d53a7SEvalZero tmp[0] = tmp[1] = tmp[2] = 0;
531*042d53a7SEvalZero tmp[3] = product[11];
532*042d53a7SEvalZero tmp[4] = product[12];
533*042d53a7SEvalZero tmp[5] = product[13];
534*042d53a7SEvalZero tmp[6] = product[14];
535*042d53a7SEvalZero tmp[7] = product[15];
536*042d53a7SEvalZero carry = uECC_vli_add(tmp, tmp, tmp, NUM_ECC_WORDS);
537*042d53a7SEvalZero carry += uECC_vli_add(result, result, tmp, NUM_ECC_WORDS);
538*042d53a7SEvalZero
539*042d53a7SEvalZero /* s2 */
540*042d53a7SEvalZero tmp[3] = product[12];
541*042d53a7SEvalZero tmp[4] = product[13];
542*042d53a7SEvalZero tmp[5] = product[14];
543*042d53a7SEvalZero tmp[6] = product[15];
544*042d53a7SEvalZero tmp[7] = 0;
545*042d53a7SEvalZero carry += uECC_vli_add(tmp, tmp, tmp, NUM_ECC_WORDS);
546*042d53a7SEvalZero carry += uECC_vli_add(result, result, tmp, NUM_ECC_WORDS);
547*042d53a7SEvalZero
548*042d53a7SEvalZero /* s3 */
549*042d53a7SEvalZero tmp[0] = product[8];
550*042d53a7SEvalZero tmp[1] = product[9];
551*042d53a7SEvalZero tmp[2] = product[10];
552*042d53a7SEvalZero tmp[3] = tmp[4] = tmp[5] = 0;
553*042d53a7SEvalZero tmp[6] = product[14];
554*042d53a7SEvalZero tmp[7] = product[15];
555*042d53a7SEvalZero carry += uECC_vli_add(result, result, tmp, NUM_ECC_WORDS);
556*042d53a7SEvalZero
557*042d53a7SEvalZero /* s4 */
558*042d53a7SEvalZero tmp[0] = product[9];
559*042d53a7SEvalZero tmp[1] = product[10];
560*042d53a7SEvalZero tmp[2] = product[11];
561*042d53a7SEvalZero tmp[3] = product[13];
562*042d53a7SEvalZero tmp[4] = product[14];
563*042d53a7SEvalZero tmp[5] = product[15];
564*042d53a7SEvalZero tmp[6] = product[13];
565*042d53a7SEvalZero tmp[7] = product[8];
566*042d53a7SEvalZero carry += uECC_vli_add(result, result, tmp, NUM_ECC_WORDS);
567*042d53a7SEvalZero
568*042d53a7SEvalZero /* d1 */
569*042d53a7SEvalZero tmp[0] = product[11];
570*042d53a7SEvalZero tmp[1] = product[12];
571*042d53a7SEvalZero tmp[2] = product[13];
572*042d53a7SEvalZero tmp[3] = tmp[4] = tmp[5] = 0;
573*042d53a7SEvalZero tmp[6] = product[8];
574*042d53a7SEvalZero tmp[7] = product[10];
575*042d53a7SEvalZero carry -= uECC_vli_sub(result, result, tmp, NUM_ECC_WORDS);
576*042d53a7SEvalZero
577*042d53a7SEvalZero /* d2 */
578*042d53a7SEvalZero tmp[0] = product[12];
579*042d53a7SEvalZero tmp[1] = product[13];
580*042d53a7SEvalZero tmp[2] = product[14];
581*042d53a7SEvalZero tmp[3] = product[15];
582*042d53a7SEvalZero tmp[4] = tmp[5] = 0;
583*042d53a7SEvalZero tmp[6] = product[9];
584*042d53a7SEvalZero tmp[7] = product[11];
585*042d53a7SEvalZero carry -= uECC_vli_sub(result, result, tmp, NUM_ECC_WORDS);
586*042d53a7SEvalZero
587*042d53a7SEvalZero /* d3 */
588*042d53a7SEvalZero tmp[0] = product[13];
589*042d53a7SEvalZero tmp[1] = product[14];
590*042d53a7SEvalZero tmp[2] = product[15];
591*042d53a7SEvalZero tmp[3] = product[8];
592*042d53a7SEvalZero tmp[4] = product[9];
593*042d53a7SEvalZero tmp[5] = product[10];
594*042d53a7SEvalZero tmp[6] = 0;
595*042d53a7SEvalZero tmp[7] = product[12];
596*042d53a7SEvalZero carry -= uECC_vli_sub(result, result, tmp, NUM_ECC_WORDS);
597*042d53a7SEvalZero
598*042d53a7SEvalZero /* d4 */
599*042d53a7SEvalZero tmp[0] = product[14];
600*042d53a7SEvalZero tmp[1] = product[15];
601*042d53a7SEvalZero tmp[2] = 0;
602*042d53a7SEvalZero tmp[3] = product[9];
603*042d53a7SEvalZero tmp[4] = product[10];
604*042d53a7SEvalZero tmp[5] = product[11];
605*042d53a7SEvalZero tmp[6] = 0;
606*042d53a7SEvalZero tmp[7] = product[13];
607*042d53a7SEvalZero carry -= uECC_vli_sub(result, result, tmp, NUM_ECC_WORDS);
608*042d53a7SEvalZero
609*042d53a7SEvalZero if (carry < 0) {
610*042d53a7SEvalZero do {
611*042d53a7SEvalZero carry += uECC_vli_add(result, result, curve_secp256r1.p, NUM_ECC_WORDS);
612*042d53a7SEvalZero }
613*042d53a7SEvalZero while (carry < 0);
614*042d53a7SEvalZero } else {
615*042d53a7SEvalZero while (carry ||
616*042d53a7SEvalZero uECC_vli_cmp_unsafe(curve_secp256r1.p, result, NUM_ECC_WORDS) != 1) {
617*042d53a7SEvalZero carry -= uECC_vli_sub(result, result, curve_secp256r1.p, NUM_ECC_WORDS);
618*042d53a7SEvalZero }
619*042d53a7SEvalZero }
620*042d53a7SEvalZero }
621*042d53a7SEvalZero
EccPoint_isZero(const uECC_word_t * point,uECC_Curve curve)622*042d53a7SEvalZero uECC_word_t EccPoint_isZero(const uECC_word_t *point, uECC_Curve curve)
623*042d53a7SEvalZero {
624*042d53a7SEvalZero return uECC_vli_isZero(point, curve->num_words * 2);
625*042d53a7SEvalZero }
626*042d53a7SEvalZero
apply_z(uECC_word_t * X1,uECC_word_t * Y1,const uECC_word_t * const Z,uECC_Curve curve)627*042d53a7SEvalZero void apply_z(uECC_word_t * X1, uECC_word_t * Y1, const uECC_word_t * const Z,
628*042d53a7SEvalZero uECC_Curve curve)
629*042d53a7SEvalZero {
630*042d53a7SEvalZero uECC_word_t t1[NUM_ECC_WORDS];
631*042d53a7SEvalZero
632*042d53a7SEvalZero uECC_vli_modSquare_fast(t1, Z, curve); /* z^2 */
633*042d53a7SEvalZero uECC_vli_modMult_fast(X1, X1, t1, curve); /* x1 * z^2 */
634*042d53a7SEvalZero uECC_vli_modMult_fast(t1, t1, Z, curve); /* z^3 */
635*042d53a7SEvalZero uECC_vli_modMult_fast(Y1, Y1, t1, curve); /* y1 * z^3 */
636*042d53a7SEvalZero }
637*042d53a7SEvalZero
638*042d53a7SEvalZero /* P = (x1, y1) => 2P, (x2, y2) => P' */
XYcZ_initial_double(uECC_word_t * X1,uECC_word_t * Y1,uECC_word_t * X2,uECC_word_t * Y2,const uECC_word_t * const initial_Z,uECC_Curve curve)639*042d53a7SEvalZero static void XYcZ_initial_double(uECC_word_t * X1, uECC_word_t * Y1,
640*042d53a7SEvalZero uECC_word_t * X2, uECC_word_t * Y2,
641*042d53a7SEvalZero const uECC_word_t * const initial_Z,
642*042d53a7SEvalZero uECC_Curve curve)
643*042d53a7SEvalZero {
644*042d53a7SEvalZero uECC_word_t z[NUM_ECC_WORDS];
645*042d53a7SEvalZero wordcount_t num_words = curve->num_words;
646*042d53a7SEvalZero if (initial_Z) {
647*042d53a7SEvalZero uECC_vli_set(z, initial_Z, num_words);
648*042d53a7SEvalZero } else {
649*042d53a7SEvalZero uECC_vli_clear(z, num_words);
650*042d53a7SEvalZero z[0] = 1;
651*042d53a7SEvalZero }
652*042d53a7SEvalZero
653*042d53a7SEvalZero uECC_vli_set(X2, X1, num_words);
654*042d53a7SEvalZero uECC_vli_set(Y2, Y1, num_words);
655*042d53a7SEvalZero
656*042d53a7SEvalZero apply_z(X1, Y1, z, curve);
657*042d53a7SEvalZero curve->double_jacobian(X1, Y1, z, curve);
658*042d53a7SEvalZero apply_z(X2, Y2, z, curve);
659*042d53a7SEvalZero }
660*042d53a7SEvalZero
XYcZ_add(uECC_word_t * X1,uECC_word_t * Y1,uECC_word_t * X2,uECC_word_t * Y2,uECC_Curve curve)661*042d53a7SEvalZero void XYcZ_add(uECC_word_t * X1, uECC_word_t * Y1,
662*042d53a7SEvalZero uECC_word_t * X2, uECC_word_t * Y2,
663*042d53a7SEvalZero uECC_Curve curve)
664*042d53a7SEvalZero {
665*042d53a7SEvalZero /* t1 = X1, t2 = Y1, t3 = X2, t4 = Y2 */
666*042d53a7SEvalZero uECC_word_t t5[NUM_ECC_WORDS];
667*042d53a7SEvalZero wordcount_t num_words = curve->num_words;
668*042d53a7SEvalZero
669*042d53a7SEvalZero uECC_vli_modSub(t5, X2, X1, curve->p, num_words); /* t5 = x2 - x1 */
670*042d53a7SEvalZero uECC_vli_modSquare_fast(t5, t5, curve); /* t5 = (x2 - x1)^2 = A */
671*042d53a7SEvalZero uECC_vli_modMult_fast(X1, X1, t5, curve); /* t1 = x1*A = B */
672*042d53a7SEvalZero uECC_vli_modMult_fast(X2, X2, t5, curve); /* t3 = x2*A = C */
673*042d53a7SEvalZero uECC_vli_modSub(Y2, Y2, Y1, curve->p, num_words); /* t4 = y2 - y1 */
674*042d53a7SEvalZero uECC_vli_modSquare_fast(t5, Y2, curve); /* t5 = (y2 - y1)^2 = D */
675*042d53a7SEvalZero
676*042d53a7SEvalZero uECC_vli_modSub(t5, t5, X1, curve->p, num_words); /* t5 = D - B */
677*042d53a7SEvalZero uECC_vli_modSub(t5, t5, X2, curve->p, num_words); /* t5 = D - B - C = x3 */
678*042d53a7SEvalZero uECC_vli_modSub(X2, X2, X1, curve->p, num_words); /* t3 = C - B */
679*042d53a7SEvalZero uECC_vli_modMult_fast(Y1, Y1, X2, curve); /* t2 = y1*(C - B) */
680*042d53a7SEvalZero uECC_vli_modSub(X2, X1, t5, curve->p, num_words); /* t3 = B - x3 */
681*042d53a7SEvalZero uECC_vli_modMult_fast(Y2, Y2, X2, curve); /* t4 = (y2 - y1)*(B - x3) */
682*042d53a7SEvalZero uECC_vli_modSub(Y2, Y2, Y1, curve->p, num_words); /* t4 = y3 */
683*042d53a7SEvalZero
684*042d53a7SEvalZero uECC_vli_set(X2, t5, num_words);
685*042d53a7SEvalZero }
686*042d53a7SEvalZero
687*042d53a7SEvalZero /* Input P = (x1, y1, Z), Q = (x2, y2, Z)
688*042d53a7SEvalZero Output P + Q = (x3, y3, Z3), P - Q = (x3', y3', Z3)
689*042d53a7SEvalZero or P => P - Q, Q => P + Q
690*042d53a7SEvalZero */
XYcZ_addC(uECC_word_t * X1,uECC_word_t * Y1,uECC_word_t * X2,uECC_word_t * Y2,uECC_Curve curve)691*042d53a7SEvalZero static void XYcZ_addC(uECC_word_t * X1, uECC_word_t * Y1,
692*042d53a7SEvalZero uECC_word_t * X2, uECC_word_t * Y2,
693*042d53a7SEvalZero uECC_Curve curve)
694*042d53a7SEvalZero {
695*042d53a7SEvalZero /* t1 = X1, t2 = Y1, t3 = X2, t4 = Y2 */
696*042d53a7SEvalZero uECC_word_t t5[NUM_ECC_WORDS];
697*042d53a7SEvalZero uECC_word_t t6[NUM_ECC_WORDS];
698*042d53a7SEvalZero uECC_word_t t7[NUM_ECC_WORDS];
699*042d53a7SEvalZero wordcount_t num_words = curve->num_words;
700*042d53a7SEvalZero
701*042d53a7SEvalZero uECC_vli_modSub(t5, X2, X1, curve->p, num_words); /* t5 = x2 - x1 */
702*042d53a7SEvalZero uECC_vli_modSquare_fast(t5, t5, curve); /* t5 = (x2 - x1)^2 = A */
703*042d53a7SEvalZero uECC_vli_modMult_fast(X1, X1, t5, curve); /* t1 = x1*A = B */
704*042d53a7SEvalZero uECC_vli_modMult_fast(X2, X2, t5, curve); /* t3 = x2*A = C */
705*042d53a7SEvalZero uECC_vli_modAdd(t5, Y2, Y1, curve->p, num_words); /* t5 = y2 + y1 */
706*042d53a7SEvalZero uECC_vli_modSub(Y2, Y2, Y1, curve->p, num_words); /* t4 = y2 - y1 */
707*042d53a7SEvalZero
708*042d53a7SEvalZero uECC_vli_modSub(t6, X2, X1, curve->p, num_words); /* t6 = C - B */
709*042d53a7SEvalZero uECC_vli_modMult_fast(Y1, Y1, t6, curve); /* t2 = y1 * (C - B) = E */
710*042d53a7SEvalZero uECC_vli_modAdd(t6, X1, X2, curve->p, num_words); /* t6 = B + C */
711*042d53a7SEvalZero uECC_vli_modSquare_fast(X2, Y2, curve); /* t3 = (y2 - y1)^2 = D */
712*042d53a7SEvalZero uECC_vli_modSub(X2, X2, t6, curve->p, num_words); /* t3 = D - (B + C) = x3 */
713*042d53a7SEvalZero
714*042d53a7SEvalZero uECC_vli_modSub(t7, X1, X2, curve->p, num_words); /* t7 = B - x3 */
715*042d53a7SEvalZero uECC_vli_modMult_fast(Y2, Y2, t7, curve); /* t4 = (y2 - y1)*(B - x3) */
716*042d53a7SEvalZero /* t4 = (y2 - y1)*(B - x3) - E = y3: */
717*042d53a7SEvalZero uECC_vli_modSub(Y2, Y2, Y1, curve->p, num_words);
718*042d53a7SEvalZero
719*042d53a7SEvalZero uECC_vli_modSquare_fast(t7, t5, curve); /* t7 = (y2 + y1)^2 = F */
720*042d53a7SEvalZero uECC_vli_modSub(t7, t7, t6, curve->p, num_words); /* t7 = F - (B + C) = x3' */
721*042d53a7SEvalZero uECC_vli_modSub(t6, t7, X1, curve->p, num_words); /* t6 = x3' - B */
722*042d53a7SEvalZero uECC_vli_modMult_fast(t6, t6, t5, curve); /* t6 = (y2+y1)*(x3' - B) */
723*042d53a7SEvalZero /* t2 = (y2+y1)*(x3' - B) - E = y3': */
724*042d53a7SEvalZero uECC_vli_modSub(Y1, t6, Y1, curve->p, num_words);
725*042d53a7SEvalZero
726*042d53a7SEvalZero uECC_vli_set(X1, t7, num_words);
727*042d53a7SEvalZero }
728*042d53a7SEvalZero
EccPoint_mult(uECC_word_t * result,const uECC_word_t * point,const uECC_word_t * scalar,const uECC_word_t * initial_Z,bitcount_t num_bits,uECC_Curve curve)729*042d53a7SEvalZero void EccPoint_mult(uECC_word_t * result, const uECC_word_t * point,
730*042d53a7SEvalZero const uECC_word_t * scalar,
731*042d53a7SEvalZero const uECC_word_t * initial_Z,
732*042d53a7SEvalZero bitcount_t num_bits, uECC_Curve curve)
733*042d53a7SEvalZero {
734*042d53a7SEvalZero /* R0 and R1 */
735*042d53a7SEvalZero uECC_word_t Rx[2][NUM_ECC_WORDS];
736*042d53a7SEvalZero uECC_word_t Ry[2][NUM_ECC_WORDS];
737*042d53a7SEvalZero uECC_word_t z[NUM_ECC_WORDS];
738*042d53a7SEvalZero bitcount_t i;
739*042d53a7SEvalZero uECC_word_t nb;
740*042d53a7SEvalZero wordcount_t num_words = curve->num_words;
741*042d53a7SEvalZero
742*042d53a7SEvalZero uECC_vli_set(Rx[1], point, num_words);
743*042d53a7SEvalZero uECC_vli_set(Ry[1], point + num_words, num_words);
744*042d53a7SEvalZero
745*042d53a7SEvalZero XYcZ_initial_double(Rx[1], Ry[1], Rx[0], Ry[0], initial_Z, curve);
746*042d53a7SEvalZero
747*042d53a7SEvalZero for (i = num_bits - 2; i > 0; --i) {
748*042d53a7SEvalZero nb = !uECC_vli_testBit(scalar, i);
749*042d53a7SEvalZero XYcZ_addC(Rx[1 - nb], Ry[1 - nb], Rx[nb], Ry[nb], curve);
750*042d53a7SEvalZero XYcZ_add(Rx[nb], Ry[nb], Rx[1 - nb], Ry[1 - nb], curve);
751*042d53a7SEvalZero }
752*042d53a7SEvalZero
753*042d53a7SEvalZero nb = !uECC_vli_testBit(scalar, 0);
754*042d53a7SEvalZero XYcZ_addC(Rx[1 - nb], Ry[1 - nb], Rx[nb], Ry[nb], curve);
755*042d53a7SEvalZero
756*042d53a7SEvalZero /* Find final 1/Z value. */
757*042d53a7SEvalZero uECC_vli_modSub(z, Rx[1], Rx[0], curve->p, num_words); /* X1 - X0 */
758*042d53a7SEvalZero uECC_vli_modMult_fast(z, z, Ry[1 - nb], curve); /* Yb * (X1 - X0) */
759*042d53a7SEvalZero uECC_vli_modMult_fast(z, z, point, curve); /* xP * Yb * (X1 - X0) */
760*042d53a7SEvalZero uECC_vli_modInv(z, z, curve->p, num_words); /* 1 / (xP * Yb * (X1 - X0))*/
761*042d53a7SEvalZero /* yP / (xP * Yb * (X1 - X0)) */
762*042d53a7SEvalZero uECC_vli_modMult_fast(z, z, point + num_words, curve);
763*042d53a7SEvalZero /* Xb * yP / (xP * Yb * (X1 - X0)) */
764*042d53a7SEvalZero uECC_vli_modMult_fast(z, z, Rx[1 - nb], curve);
765*042d53a7SEvalZero /* End 1/Z calculation */
766*042d53a7SEvalZero
767*042d53a7SEvalZero XYcZ_add(Rx[nb], Ry[nb], Rx[1 - nb], Ry[1 - nb], curve);
768*042d53a7SEvalZero apply_z(Rx[0], Ry[0], z, curve);
769*042d53a7SEvalZero
770*042d53a7SEvalZero uECC_vli_set(result, Rx[0], num_words);
771*042d53a7SEvalZero uECC_vli_set(result + num_words, Ry[0], num_words);
772*042d53a7SEvalZero }
773*042d53a7SEvalZero
regularize_k(const uECC_word_t * const k,uECC_word_t * k0,uECC_word_t * k1,uECC_Curve curve)774*042d53a7SEvalZero uECC_word_t regularize_k(const uECC_word_t * const k, uECC_word_t *k0,
775*042d53a7SEvalZero uECC_word_t *k1, uECC_Curve curve)
776*042d53a7SEvalZero {
777*042d53a7SEvalZero
778*042d53a7SEvalZero wordcount_t num_n_words = BITS_TO_WORDS(curve->num_n_bits);
779*042d53a7SEvalZero
780*042d53a7SEvalZero bitcount_t num_n_bits = curve->num_n_bits;
781*042d53a7SEvalZero
782*042d53a7SEvalZero uECC_word_t carry = uECC_vli_add(k0, k, curve->n, num_n_words) ||
783*042d53a7SEvalZero (num_n_bits < ((bitcount_t)num_n_words * uECC_WORD_SIZE * 8) &&
784*042d53a7SEvalZero uECC_vli_testBit(k0, num_n_bits));
785*042d53a7SEvalZero
786*042d53a7SEvalZero uECC_vli_add(k1, k0, curve->n, num_n_words);
787*042d53a7SEvalZero
788*042d53a7SEvalZero return carry;
789*042d53a7SEvalZero }
790*042d53a7SEvalZero
EccPoint_compute_public_key(uECC_word_t * result,uECC_word_t * private_key,uECC_Curve curve)791*042d53a7SEvalZero uECC_word_t EccPoint_compute_public_key(uECC_word_t *result,
792*042d53a7SEvalZero uECC_word_t *private_key,
793*042d53a7SEvalZero uECC_Curve curve)
794*042d53a7SEvalZero {
795*042d53a7SEvalZero
796*042d53a7SEvalZero uECC_word_t tmp1[NUM_ECC_WORDS];
797*042d53a7SEvalZero uECC_word_t tmp2[NUM_ECC_WORDS];
798*042d53a7SEvalZero uECC_word_t *p2[2] = {tmp1, tmp2};
799*042d53a7SEvalZero uECC_word_t carry;
800*042d53a7SEvalZero
801*042d53a7SEvalZero /* Regularize the bitcount for the private key so that attackers cannot
802*042d53a7SEvalZero * use a side channel attack to learn the number of leading zeros. */
803*042d53a7SEvalZero carry = regularize_k(private_key, tmp1, tmp2, curve);
804*042d53a7SEvalZero
805*042d53a7SEvalZero EccPoint_mult(result, curve->G, p2[!carry], 0, curve->num_n_bits + 1, curve);
806*042d53a7SEvalZero
807*042d53a7SEvalZero if (EccPoint_isZero(result, curve)) {
808*042d53a7SEvalZero return 0;
809*042d53a7SEvalZero }
810*042d53a7SEvalZero return 1;
811*042d53a7SEvalZero }
812*042d53a7SEvalZero
813*042d53a7SEvalZero /* Converts an integer in uECC native format to big-endian bytes. */
uECC_vli_nativeToBytes(uint8_t * bytes,int num_bytes,const unsigned int * native)814*042d53a7SEvalZero void uECC_vli_nativeToBytes(uint8_t *bytes, int num_bytes,
815*042d53a7SEvalZero const unsigned int *native)
816*042d53a7SEvalZero {
817*042d53a7SEvalZero wordcount_t i;
818*042d53a7SEvalZero for (i = 0; i < num_bytes; ++i) {
819*042d53a7SEvalZero unsigned b = num_bytes - 1 - i;
820*042d53a7SEvalZero bytes[i] = native[b / uECC_WORD_SIZE] >> (8 * (b % uECC_WORD_SIZE));
821*042d53a7SEvalZero }
822*042d53a7SEvalZero }
823*042d53a7SEvalZero
824*042d53a7SEvalZero /* Converts big-endian bytes to an integer in uECC native format. */
uECC_vli_bytesToNative(unsigned int * native,const uint8_t * bytes,int num_bytes)825*042d53a7SEvalZero void uECC_vli_bytesToNative(unsigned int *native, const uint8_t *bytes,
826*042d53a7SEvalZero int num_bytes)
827*042d53a7SEvalZero {
828*042d53a7SEvalZero wordcount_t i;
829*042d53a7SEvalZero uECC_vli_clear(native, (num_bytes + (uECC_WORD_SIZE - 1)) / uECC_WORD_SIZE);
830*042d53a7SEvalZero for (i = 0; i < num_bytes; ++i) {
831*042d53a7SEvalZero unsigned b = num_bytes - 1 - i;
832*042d53a7SEvalZero native[b / uECC_WORD_SIZE] |=
833*042d53a7SEvalZero (uECC_word_t)bytes[i] << (8 * (b % uECC_WORD_SIZE));
834*042d53a7SEvalZero }
835*042d53a7SEvalZero }
836*042d53a7SEvalZero
uECC_generate_random_int(uECC_word_t * random,const uECC_word_t * top,wordcount_t num_words)837*042d53a7SEvalZero int uECC_generate_random_int(uECC_word_t *random, const uECC_word_t *top,
838*042d53a7SEvalZero wordcount_t num_words)
839*042d53a7SEvalZero {
840*042d53a7SEvalZero uECC_word_t mask = (uECC_word_t)-1;
841*042d53a7SEvalZero uECC_word_t tries;
842*042d53a7SEvalZero bitcount_t num_bits = uECC_vli_numBits(top, num_words);
843*042d53a7SEvalZero
844*042d53a7SEvalZero if (!g_rng_function) {
845*042d53a7SEvalZero return 0;
846*042d53a7SEvalZero }
847*042d53a7SEvalZero
848*042d53a7SEvalZero for (tries = 0; tries < uECC_RNG_MAX_TRIES; ++tries) {
849*042d53a7SEvalZero if (!g_rng_function((uint8_t *)random, num_words * uECC_WORD_SIZE)) {
850*042d53a7SEvalZero return 0;
851*042d53a7SEvalZero }
852*042d53a7SEvalZero random[num_words - 1] &=
853*042d53a7SEvalZero mask >> ((bitcount_t)(num_words * uECC_WORD_SIZE * 8 - num_bits));
854*042d53a7SEvalZero if (!uECC_vli_isZero(random, num_words) &&
855*042d53a7SEvalZero uECC_vli_cmp(top, random, num_words) == 1) {
856*042d53a7SEvalZero return 1;
857*042d53a7SEvalZero }
858*042d53a7SEvalZero }
859*042d53a7SEvalZero return 0;
860*042d53a7SEvalZero }
861*042d53a7SEvalZero
862*042d53a7SEvalZero
uECC_valid_point(const uECC_word_t * point,uECC_Curve curve)863*042d53a7SEvalZero int uECC_valid_point(const uECC_word_t *point, uECC_Curve curve)
864*042d53a7SEvalZero {
865*042d53a7SEvalZero uECC_word_t tmp1[NUM_ECC_WORDS];
866*042d53a7SEvalZero uECC_word_t tmp2[NUM_ECC_WORDS];
867*042d53a7SEvalZero wordcount_t num_words = curve->num_words;
868*042d53a7SEvalZero
869*042d53a7SEvalZero /* The point at infinity is invalid. */
870*042d53a7SEvalZero if (EccPoint_isZero(point, curve)) {
871*042d53a7SEvalZero return -1;
872*042d53a7SEvalZero }
873*042d53a7SEvalZero
874*042d53a7SEvalZero /* x and y must be smaller than p. */
875*042d53a7SEvalZero if (uECC_vli_cmp_unsafe(curve->p, point, num_words) != 1 ||
876*042d53a7SEvalZero uECC_vli_cmp_unsafe(curve->p, point + num_words, num_words) != 1) {
877*042d53a7SEvalZero return -2;
878*042d53a7SEvalZero }
879*042d53a7SEvalZero
880*042d53a7SEvalZero uECC_vli_modSquare_fast(tmp1, point + num_words, curve);
881*042d53a7SEvalZero curve->x_side(tmp2, point, curve); /* tmp2 = x^3 + ax + b */
882*042d53a7SEvalZero
883*042d53a7SEvalZero /* Make sure that y^2 == x^3 + ax + b */
884*042d53a7SEvalZero if (uECC_vli_equal(tmp1, tmp2, num_words) != 0)
885*042d53a7SEvalZero return -3;
886*042d53a7SEvalZero
887*042d53a7SEvalZero return 0;
888*042d53a7SEvalZero }
889*042d53a7SEvalZero
uECC_valid_public_key(const uint8_t * public_key,uECC_Curve curve)890*042d53a7SEvalZero int uECC_valid_public_key(const uint8_t *public_key, uECC_Curve curve)
891*042d53a7SEvalZero {
892*042d53a7SEvalZero
893*042d53a7SEvalZero uECC_word_t _public[NUM_ECC_WORDS * 2];
894*042d53a7SEvalZero
895*042d53a7SEvalZero uECC_vli_bytesToNative(_public, public_key, curve->num_bytes);
896*042d53a7SEvalZero uECC_vli_bytesToNative(
897*042d53a7SEvalZero _public + curve->num_words,
898*042d53a7SEvalZero public_key + curve->num_bytes,
899*042d53a7SEvalZero curve->num_bytes);
900*042d53a7SEvalZero
901*042d53a7SEvalZero if (uECC_vli_cmp_unsafe(_public, curve->G, NUM_ECC_WORDS * 2) == 0) {
902*042d53a7SEvalZero return -4;
903*042d53a7SEvalZero }
904*042d53a7SEvalZero
905*042d53a7SEvalZero return uECC_valid_point(_public, curve);
906*042d53a7SEvalZero }
907*042d53a7SEvalZero
uECC_compute_public_key(const uint8_t * private_key,uint8_t * public_key,uECC_Curve curve)908*042d53a7SEvalZero int uECC_compute_public_key(const uint8_t *private_key, uint8_t *public_key,
909*042d53a7SEvalZero uECC_Curve curve)
910*042d53a7SEvalZero {
911*042d53a7SEvalZero
912*042d53a7SEvalZero uECC_word_t _private[NUM_ECC_WORDS];
913*042d53a7SEvalZero uECC_word_t _public[NUM_ECC_WORDS * 2];
914*042d53a7SEvalZero
915*042d53a7SEvalZero uECC_vli_bytesToNative(
916*042d53a7SEvalZero _private,
917*042d53a7SEvalZero private_key,
918*042d53a7SEvalZero BITS_TO_BYTES(curve->num_n_bits));
919*042d53a7SEvalZero
920*042d53a7SEvalZero /* Make sure the private key is in the range [1, n-1]. */
921*042d53a7SEvalZero if (uECC_vli_isZero(_private, BITS_TO_WORDS(curve->num_n_bits))) {
922*042d53a7SEvalZero return 0;
923*042d53a7SEvalZero }
924*042d53a7SEvalZero
925*042d53a7SEvalZero if (uECC_vli_cmp(curve->n, _private, BITS_TO_WORDS(curve->num_n_bits)) != 1) {
926*042d53a7SEvalZero return 0;
927*042d53a7SEvalZero }
928*042d53a7SEvalZero
929*042d53a7SEvalZero /* Compute public key. */
930*042d53a7SEvalZero if (!EccPoint_compute_public_key(_public, _private, curve)) {
931*042d53a7SEvalZero return 0;
932*042d53a7SEvalZero }
933*042d53a7SEvalZero
934*042d53a7SEvalZero uECC_vli_nativeToBytes(public_key, curve->num_bytes, _public);
935*042d53a7SEvalZero uECC_vli_nativeToBytes(
936*042d53a7SEvalZero public_key +
937*042d53a7SEvalZero curve->num_bytes, curve->num_bytes, _public + curve->num_words);
938*042d53a7SEvalZero return 1;
939*042d53a7SEvalZero }
940*042d53a7SEvalZero
941*042d53a7SEvalZero
942*042d53a7SEvalZero
943