1*f0865ec9SKyle Evans /*
2*f0865ec9SKyle Evans * Copyright (C) 2017 - This file is part of libecc project
3*f0865ec9SKyle Evans *
4*f0865ec9SKyle Evans * Authors:
5*f0865ec9SKyle Evans * Ryad BENADJILA <ryadbenadjila@gmail.com>
6*f0865ec9SKyle Evans * Arnaud EBALARD <arnaud.ebalard@ssi.gouv.fr>
7*f0865ec9SKyle Evans * Jean-Pierre FLORI <jean-pierre.flori@ssi.gouv.fr>
8*f0865ec9SKyle Evans *
9*f0865ec9SKyle Evans * Contributors:
10*f0865ec9SKyle Evans * Nicolas VIVET <nicolas.vivet@ssi.gouv.fr>
11*f0865ec9SKyle Evans * Karim KHALFALLAH <karim.khalfallah@ssi.gouv.fr>
12*f0865ec9SKyle Evans *
13*f0865ec9SKyle Evans * This software is licensed under a dual BSD and GPL v2 license.
14*f0865ec9SKyle Evans * See LICENSE file at the root folder of the project.
15*f0865ec9SKyle Evans */
16*f0865ec9SKyle Evans #include <libecc/lib_ecc_config.h>
17*f0865ec9SKyle Evans #ifdef WITH_SIG_ECGDSA
18*f0865ec9SKyle Evans
19*f0865ec9SKyle Evans #include <libecc/nn/nn.h>
20*f0865ec9SKyle Evans #include <libecc/nn/nn_rand.h>
21*f0865ec9SKyle Evans #include <libecc/nn/nn_mul_public.h>
22*f0865ec9SKyle Evans #include <libecc/nn/nn_logical.h>
23*f0865ec9SKyle Evans
24*f0865ec9SKyle Evans #include <libecc/sig/sig_algs_internal.h>
25*f0865ec9SKyle Evans #include <libecc/sig/ec_key.h>
26*f0865ec9SKyle Evans #ifdef VERBOSE_INNER_VALUES
27*f0865ec9SKyle Evans #define EC_SIG_ALG "ECGDSA"
28*f0865ec9SKyle Evans #endif
29*f0865ec9SKyle Evans #include <libecc/utils/dbg_sig.h>
30*f0865ec9SKyle Evans
ecgdsa_init_pub_key(ec_pub_key * out_pub,const ec_priv_key * in_priv)31*f0865ec9SKyle Evans int ecgdsa_init_pub_key(ec_pub_key *out_pub, const ec_priv_key *in_priv)
32*f0865ec9SKyle Evans {
33*f0865ec9SKyle Evans prj_pt_src_t G;
34*f0865ec9SKyle Evans nn_src_t q;
35*f0865ec9SKyle Evans nn xinv;
36*f0865ec9SKyle Evans int ret, cmp;
37*f0865ec9SKyle Evans xinv.magic = WORD(0);
38*f0865ec9SKyle Evans
39*f0865ec9SKyle Evans MUST_HAVE((out_pub != NULL), ret, err);
40*f0865ec9SKyle Evans
41*f0865ec9SKyle Evans /* Zero init public key to be generated */
42*f0865ec9SKyle Evans ret = local_memset(out_pub, 0, sizeof(ec_pub_key)); EG(ret, err);
43*f0865ec9SKyle Evans
44*f0865ec9SKyle Evans ret = priv_key_check_initialized_and_type(in_priv, ECGDSA); EG(ret, err);
45*f0865ec9SKyle Evans q = &(in_priv->params->ec_gen_order);
46*f0865ec9SKyle Evans
47*f0865ec9SKyle Evans /* Sanity check on key */
48*f0865ec9SKyle Evans MUST_HAVE((!nn_cmp(&(in_priv->x), q, &cmp)) && (cmp < 0), ret, err);
49*f0865ec9SKyle Evans
50*f0865ec9SKyle Evans /* Y = (x^-1)G */
51*f0865ec9SKyle Evans G = &(in_priv->params->ec_gen);
52*f0865ec9SKyle Evans /* NOTE: we use Fermat's little theorem inversion for
53*f0865ec9SKyle Evans * constant time here. This is possible since q is prime.
54*f0865ec9SKyle Evans */
55*f0865ec9SKyle Evans ret = nn_modinv_fermat(&xinv, &(in_priv->x), &(in_priv->params->ec_gen_order)); EG(ret, err);
56*f0865ec9SKyle Evans /* Use blinding with scalar_b when computing point scalar multiplication */
57*f0865ec9SKyle Evans ret = prj_pt_mul_blind(&(out_pub->y), &xinv, G); EG(ret, err);
58*f0865ec9SKyle Evans
59*f0865ec9SKyle Evans out_pub->key_type = ECGDSA;
60*f0865ec9SKyle Evans out_pub->params = in_priv->params;
61*f0865ec9SKyle Evans out_pub->magic = PUB_KEY_MAGIC;
62*f0865ec9SKyle Evans
63*f0865ec9SKyle Evans err:
64*f0865ec9SKyle Evans nn_uninit(&xinv);
65*f0865ec9SKyle Evans
66*f0865ec9SKyle Evans return ret;
67*f0865ec9SKyle Evans }
68*f0865ec9SKyle Evans
ecgdsa_siglen(u16 p_bit_len,u16 q_bit_len,u8 hsize,u8 blocksize,u8 * siglen)69*f0865ec9SKyle Evans int ecgdsa_siglen(u16 p_bit_len, u16 q_bit_len, u8 hsize, u8 blocksize, u8 *siglen)
70*f0865ec9SKyle Evans {
71*f0865ec9SKyle Evans int ret;
72*f0865ec9SKyle Evans
73*f0865ec9SKyle Evans MUST_HAVE((siglen != NULL), ret, err);
74*f0865ec9SKyle Evans MUST_HAVE((p_bit_len <= CURVES_MAX_P_BIT_LEN) &&
75*f0865ec9SKyle Evans (q_bit_len <= CURVES_MAX_Q_BIT_LEN) &&
76*f0865ec9SKyle Evans (hsize <= MAX_DIGEST_SIZE) && (blocksize <= MAX_BLOCK_SIZE), ret, err);
77*f0865ec9SKyle Evans
78*f0865ec9SKyle Evans (*siglen) = (u8)ECGDSA_SIGLEN(q_bit_len);
79*f0865ec9SKyle Evans
80*f0865ec9SKyle Evans ret = 0;
81*f0865ec9SKyle Evans
82*f0865ec9SKyle Evans err:
83*f0865ec9SKyle Evans return ret;
84*f0865ec9SKyle Evans }
85*f0865ec9SKyle Evans
86*f0865ec9SKyle Evans /*
87*f0865ec9SKyle Evans * Generic *internal* EC-GDSA signature functions (init, update and finalize).
88*f0865ec9SKyle Evans * Their purpose is to allow passing a specific hash function (along with
89*f0865ec9SKyle Evans * its output size) and the random ephemeral key k, so that compliance
90*f0865ec9SKyle Evans * tests against test vectors can be made without ugly hack in the code
91*f0865ec9SKyle Evans * itself.
92*f0865ec9SKyle Evans *
93*f0865ec9SKyle Evans * Global EC-GDSA signature process is as follows (I,U,F provides
94*f0865ec9SKyle Evans * information in which function(s) (init(), update() or finalize())
95*f0865ec9SKyle Evans * a specific step is performed):
96*f0865ec9SKyle Evans *
97*f0865ec9SKyle Evans *| IUF - EC-GDSA signature
98*f0865ec9SKyle Evans *|
99*f0865ec9SKyle Evans *| UF 1. Compute h = H(m). If |h| > bitlen(q), set h to bitlen(q)
100*f0865ec9SKyle Evans *| leftmost (most significant) bits of h
101*f0865ec9SKyle Evans *| F 2. Compute e = - OS2I(h) mod q
102*f0865ec9SKyle Evans *| F 3. Get a random value k in ]0,q[
103*f0865ec9SKyle Evans *| F 4. Compute W = (W_x,W_y) = kG
104*f0865ec9SKyle Evans *| F 5. Compute r = W_x mod q
105*f0865ec9SKyle Evans *| F 6. If r is 0, restart the process at step 4.
106*f0865ec9SKyle Evans *| F 7. Compute s = x(kr + e) mod q
107*f0865ec9SKyle Evans *| F 8. If s is 0, restart the process at step 4.
108*f0865ec9SKyle Evans *| F 9. Return (r,s)
109*f0865ec9SKyle Evans *
110*f0865ec9SKyle Evans * Implementation notes:
111*f0865ec9SKyle Evans *
112*f0865ec9SKyle Evans * a) Usually (this is for instance the case in ISO 14888-3 and X9.62), the
113*f0865ec9SKyle Evans * process starts with steps 4 to 7 and is followed by steps 1 to 3.
114*f0865ec9SKyle Evans * The order is modified here w/o impact on the result and the security
115*f0865ec9SKyle Evans * in order to allow the algorithm to be compatible with an
116*f0865ec9SKyle Evans * init/update/finish API. More explicitly, the generation of k, which
117*f0865ec9SKyle Evans * may later result in a (unlikely) restart of the whole process is
118*f0865ec9SKyle Evans * postponed until the hash of the message has been computed.
119*f0865ec9SKyle Evans * b) sig is built as the concatenation of r and s. Both r and s are
120*f0865ec9SKyle Evans * encoded on ceil(bitlen(q)/8) bytes.
121*f0865ec9SKyle Evans * c) in EC-GDSA, the public part of the key is not needed per se during the
122*f0865ec9SKyle Evans * signature but - as it is needed in other signature algs implemented
123*f0865ec9SKyle Evans * in the library - the whole key pair is passed instead of just the
124*f0865ec9SKyle Evans * private key.
125*f0865ec9SKyle Evans */
126*f0865ec9SKyle Evans
127*f0865ec9SKyle Evans #define ECGDSA_SIGN_MAGIC ((word_t)(0xe2f60ea3353ecc9eULL))
128*f0865ec9SKyle Evans #define ECGDSA_SIGN_CHECK_INITIALIZED(A, ret, err) \
129*f0865ec9SKyle Evans MUST_HAVE((((void *)(A)) != NULL) && \
130*f0865ec9SKyle Evans ((A)->magic == ECGDSA_SIGN_MAGIC), ret, err)
131*f0865ec9SKyle Evans
_ecgdsa_sign_init(struct ec_sign_context * ctx)132*f0865ec9SKyle Evans int _ecgdsa_sign_init(struct ec_sign_context *ctx)
133*f0865ec9SKyle Evans {
134*f0865ec9SKyle Evans int ret;
135*f0865ec9SKyle Evans
136*f0865ec9SKyle Evans /* First, verify context has been initialized */
137*f0865ec9SKyle Evans ret = sig_sign_check_initialized(ctx); EG(ret, err);
138*f0865ec9SKyle Evans
139*f0865ec9SKyle Evans /* Additional sanity checks on input params from context */
140*f0865ec9SKyle Evans ret = key_pair_check_initialized_and_type(ctx->key_pair, ECGDSA); EG(ret, err);
141*f0865ec9SKyle Evans MUST_HAVE((ctx->h != NULL) && (ctx->h->digest_size <= MAX_DIGEST_SIZE) &&
142*f0865ec9SKyle Evans (ctx->h->block_size <= MAX_BLOCK_SIZE), ret, err);
143*f0865ec9SKyle Evans
144*f0865ec9SKyle Evans /*
145*f0865ec9SKyle Evans * Initialize hash context stored in our private part of context
146*f0865ec9SKyle Evans * and record data init has been done
147*f0865ec9SKyle Evans */
148*f0865ec9SKyle Evans /* Since we call a callback, sanity check our mapping */
149*f0865ec9SKyle Evans ret = hash_mapping_callbacks_sanity_check(ctx->h); EG(ret, err);
150*f0865ec9SKyle Evans ret = ctx->h->hfunc_init(&(ctx->sign_data.ecgdsa.h_ctx)); EG(ret, err);
151*f0865ec9SKyle Evans
152*f0865ec9SKyle Evans ctx->sign_data.ecgdsa.magic = ECGDSA_SIGN_MAGIC;
153*f0865ec9SKyle Evans
154*f0865ec9SKyle Evans err:
155*f0865ec9SKyle Evans return ret;
156*f0865ec9SKyle Evans }
157*f0865ec9SKyle Evans
_ecgdsa_sign_update(struct ec_sign_context * ctx,const u8 * chunk,u32 chunklen)158*f0865ec9SKyle Evans int _ecgdsa_sign_update(struct ec_sign_context *ctx,
159*f0865ec9SKyle Evans const u8 *chunk, u32 chunklen)
160*f0865ec9SKyle Evans {
161*f0865ec9SKyle Evans int ret;
162*f0865ec9SKyle Evans
163*f0865ec9SKyle Evans /*
164*f0865ec9SKyle Evans * First, verify context has been initialized and private
165*f0865ec9SKyle Evans * part too. This guarantees the context is an EC-GDSA
166*f0865ec9SKyle Evans * signature one and we do not update() or finalize()
167*f0865ec9SKyle Evans * before init().
168*f0865ec9SKyle Evans */
169*f0865ec9SKyle Evans ret = sig_sign_check_initialized(ctx); EG(ret, err);
170*f0865ec9SKyle Evans ECGDSA_SIGN_CHECK_INITIALIZED(&(ctx->sign_data.ecgdsa), ret, err);
171*f0865ec9SKyle Evans
172*f0865ec9SKyle Evans /* 1. Compute h = H(m) */
173*f0865ec9SKyle Evans /* Since we call a callback, sanity check our mapping */
174*f0865ec9SKyle Evans ret = hash_mapping_callbacks_sanity_check(ctx->h); EG(ret, err);
175*f0865ec9SKyle Evans ret = ctx->h->hfunc_update(&(ctx->sign_data.ecgdsa.h_ctx), chunk, chunklen);
176*f0865ec9SKyle Evans
177*f0865ec9SKyle Evans err:
178*f0865ec9SKyle Evans return ret;
179*f0865ec9SKyle Evans }
180*f0865ec9SKyle Evans
_ecgdsa_sign_finalize(struct ec_sign_context * ctx,u8 * sig,u8 siglen)181*f0865ec9SKyle Evans int _ecgdsa_sign_finalize(struct ec_sign_context *ctx, u8 *sig, u8 siglen)
182*f0865ec9SKyle Evans {
183*f0865ec9SKyle Evans nn_src_t q, x;
184*f0865ec9SKyle Evans u8 e_buf[MAX_DIGEST_SIZE];
185*f0865ec9SKyle Evans const ec_priv_key *priv_key;
186*f0865ec9SKyle Evans prj_pt_src_t G;
187*f0865ec9SKyle Evans u8 hsize, r_len, s_len;
188*f0865ec9SKyle Evans bitcnt_t q_bit_len, p_bit_len, rshift;
189*f0865ec9SKyle Evans prj_pt kG;
190*f0865ec9SKyle Evans int ret, cmp, iszero;
191*f0865ec9SKyle Evans nn tmp, s, e, kr, k, r;
192*f0865ec9SKyle Evans #ifdef USE_SIG_BLINDING
193*f0865ec9SKyle Evans /* b is the blinding mask */
194*f0865ec9SKyle Evans nn b, binv;
195*f0865ec9SKyle Evans b.magic = binv.magic = WORD(0);
196*f0865ec9SKyle Evans #endif
197*f0865ec9SKyle Evans
198*f0865ec9SKyle Evans tmp.magic = s.magic = e.magic = WORD(0);
199*f0865ec9SKyle Evans kr.magic = k.magic = r.magic = WORD(0);
200*f0865ec9SKyle Evans kG.magic = WORD(0);
201*f0865ec9SKyle Evans
202*f0865ec9SKyle Evans /*
203*f0865ec9SKyle Evans * First, verify context has been initialized and private
204*f0865ec9SKyle Evans * part too. This guarantees the context is an EC-GDSA
205*f0865ec9SKyle Evans * signature one and we do not finalize() before init().
206*f0865ec9SKyle Evans */
207*f0865ec9SKyle Evans ret = sig_sign_check_initialized(ctx); EG(ret, err);
208*f0865ec9SKyle Evans ECGDSA_SIGN_CHECK_INITIALIZED(&(ctx->sign_data.ecgdsa), ret, err);
209*f0865ec9SKyle Evans MUST_HAVE((sig != NULL), ret, err);
210*f0865ec9SKyle Evans
211*f0865ec9SKyle Evans /* Zero init points */
212*f0865ec9SKyle Evans ret = local_memset(&kG, 0, sizeof(prj_pt)); EG(ret, err);
213*f0865ec9SKyle Evans
214*f0865ec9SKyle Evans /* Make things more readable */
215*f0865ec9SKyle Evans priv_key = &(ctx->key_pair->priv_key);
216*f0865ec9SKyle Evans G = &(priv_key->params->ec_gen);
217*f0865ec9SKyle Evans q = &(priv_key->params->ec_gen_order);
218*f0865ec9SKyle Evans x = &(priv_key->x);
219*f0865ec9SKyle Evans q_bit_len = priv_key->params->ec_gen_order_bitlen;
220*f0865ec9SKyle Evans p_bit_len = priv_key->params->ec_fp.p_bitlen;
221*f0865ec9SKyle Evans MUST_HAVE(((u32)BYTECEIL(p_bit_len) <= NN_MAX_BYTE_LEN), ret, err);
222*f0865ec9SKyle Evans r_len = (u8)ECGDSA_R_LEN(q_bit_len);
223*f0865ec9SKyle Evans s_len = (u8)ECGDSA_S_LEN(q_bit_len);
224*f0865ec9SKyle Evans hsize = ctx->h->digest_size;
225*f0865ec9SKyle Evans
226*f0865ec9SKyle Evans /* Sanity check */
227*f0865ec9SKyle Evans ret = nn_cmp(x, q, &cmp); EG(ret, err);
228*f0865ec9SKyle Evans /* This should not happen and means that our
229*f0865ec9SKyle Evans * private key is not compliant!
230*f0865ec9SKyle Evans */
231*f0865ec9SKyle Evans MUST_HAVE((cmp < 0), ret, err);
232*f0865ec9SKyle Evans
233*f0865ec9SKyle Evans MUST_HAVE((siglen == ECGDSA_SIGLEN(q_bit_len)), ret, err);
234*f0865ec9SKyle Evans
235*f0865ec9SKyle Evans dbg_nn_print("p", &(priv_key->params->ec_fp.p));
236*f0865ec9SKyle Evans dbg_nn_print("q", q);
237*f0865ec9SKyle Evans dbg_priv_key_print("x", priv_key);
238*f0865ec9SKyle Evans dbg_ec_point_print("G", G);
239*f0865ec9SKyle Evans dbg_pub_key_print("Y", &(ctx->key_pair->pub_key));
240*f0865ec9SKyle Evans
241*f0865ec9SKyle Evans /* 1. Compute h = H(m) */
242*f0865ec9SKyle Evans ret = local_memset(e_buf, 0, hsize); EG(ret, err);
243*f0865ec9SKyle Evans /* Since we call a callback, sanity check our mapping */
244*f0865ec9SKyle Evans ret = hash_mapping_callbacks_sanity_check(ctx->h); EG(ret, err);
245*f0865ec9SKyle Evans ret = ctx->h->hfunc_finalize(&(ctx->sign_data.ecgdsa.h_ctx), e_buf); EG(ret, err);
246*f0865ec9SKyle Evans dbg_buf_print("H(m)", e_buf, hsize);
247*f0865ec9SKyle Evans
248*f0865ec9SKyle Evans /*
249*f0865ec9SKyle Evans * If |h| > bitlen(q), set h to bitlen(q)
250*f0865ec9SKyle Evans * leftmost bits of h.
251*f0865ec9SKyle Evans *
252*f0865ec9SKyle Evans */
253*f0865ec9SKyle Evans rshift = 0;
254*f0865ec9SKyle Evans if ((hsize * 8) > q_bit_len) {
255*f0865ec9SKyle Evans rshift = (bitcnt_t)((hsize * 8) - q_bit_len);
256*f0865ec9SKyle Evans }
257*f0865ec9SKyle Evans ret = nn_init_from_buf(&tmp, e_buf, hsize); EG(ret, err);
258*f0865ec9SKyle Evans ret = local_memset(e_buf, 0, hsize); EG(ret, err);
259*f0865ec9SKyle Evans if (rshift) {
260*f0865ec9SKyle Evans ret = nn_rshift_fixedlen(&tmp, &tmp, rshift); EG(ret, err);
261*f0865ec9SKyle Evans }
262*f0865ec9SKyle Evans dbg_nn_print("H(m) truncated as nn", &tmp);
263*f0865ec9SKyle Evans
264*f0865ec9SKyle Evans /*
265*f0865ec9SKyle Evans * 2. Convert h to an integer and then compute e = -h mod q,
266*f0865ec9SKyle Evans * i.e. compute e = - OS2I(h) mod q
267*f0865ec9SKyle Evans *
268*f0865ec9SKyle Evans * Because we only support positive integers, we compute
269*f0865ec9SKyle Evans * e = q - (h mod q) (except when h is 0).
270*f0865ec9SKyle Evans */
271*f0865ec9SKyle Evans ret = nn_mod(&tmp, &tmp, q); EG(ret, err);
272*f0865ec9SKyle Evans ret = nn_mod_neg(&e, &tmp, q); EG(ret, err);
273*f0865ec9SKyle Evans
274*f0865ec9SKyle Evans restart:
275*f0865ec9SKyle Evans /* 3. Get a random value k in ]0,q[ */
276*f0865ec9SKyle Evans #ifdef NO_KNOWN_VECTORS
277*f0865ec9SKyle Evans /* NOTE: when we do not need self tests for known vectors,
278*f0865ec9SKyle Evans * we can be strict about random function handler!
279*f0865ec9SKyle Evans * This allows us to avoid the corruption of such a pointer.
280*f0865ec9SKyle Evans */
281*f0865ec9SKyle Evans /* Sanity check on the handler before calling it */
282*f0865ec9SKyle Evans MUST_HAVE(ctx->rand == nn_get_random_mod, ret, err);
283*f0865ec9SKyle Evans #endif
284*f0865ec9SKyle Evans MUST_HAVE(ctx->rand != NULL, ret, err);
285*f0865ec9SKyle Evans
286*f0865ec9SKyle Evans ret = ctx->rand(&k, q); EG(ret, err);
287*f0865ec9SKyle Evans
288*f0865ec9SKyle Evans #ifdef USE_SIG_BLINDING
289*f0865ec9SKyle Evans /* Note: if we use blinding, e and e are multiplied by
290*f0865ec9SKyle Evans * a random value b in ]0,q[ */
291*f0865ec9SKyle Evans ret = nn_get_random_mod(&b, q); EG(ret, err);
292*f0865ec9SKyle Evans dbg_nn_print("b", &b);
293*f0865ec9SKyle Evans #endif /* USE_SIG_BLINDING */
294*f0865ec9SKyle Evans
295*f0865ec9SKyle Evans /* 4. Compute W = kG = (Wx, Wy) */
296*f0865ec9SKyle Evans #ifdef USE_SIG_BLINDING
297*f0865ec9SKyle Evans /* We use blinding for the scalar multiplication */
298*f0865ec9SKyle Evans ret = prj_pt_mul_blind(&kG, &k, G); EG(ret, err);
299*f0865ec9SKyle Evans #else
300*f0865ec9SKyle Evans ret = prj_pt_mul(&kG, &k, G); EG(ret, err);
301*f0865ec9SKyle Evans #endif /* USE_SIG_BLINDING */
302*f0865ec9SKyle Evans ret = prj_pt_unique(&kG, &kG); EG(ret, err);
303*f0865ec9SKyle Evans
304*f0865ec9SKyle Evans dbg_nn_print("W_x", &(kG.X.fp_val));
305*f0865ec9SKyle Evans dbg_nn_print("W_y", &(kG.Y.fp_val));
306*f0865ec9SKyle Evans
307*f0865ec9SKyle Evans /* 5. Compute r = Wx mod q */
308*f0865ec9SKyle Evans ret = nn_mod(&r, &(kG.X.fp_val), q); EG(ret, err);
309*f0865ec9SKyle Evans dbg_nn_print("r", &r);
310*f0865ec9SKyle Evans
311*f0865ec9SKyle Evans /* 6. If r is 0, restart the process at step 4. */
312*f0865ec9SKyle Evans ret = nn_iszero(&r, &iszero); EG(ret, err);
313*f0865ec9SKyle Evans if (iszero) {
314*f0865ec9SKyle Evans goto restart;
315*f0865ec9SKyle Evans }
316*f0865ec9SKyle Evans
317*f0865ec9SKyle Evans /* Export r */
318*f0865ec9SKyle Evans ret = nn_export_to_buf(sig, r_len, &r); EG(ret, err);
319*f0865ec9SKyle Evans
320*f0865ec9SKyle Evans #ifdef USE_SIG_BLINDING
321*f0865ec9SKyle Evans /* Blind e and r with b */
322*f0865ec9SKyle Evans ret = nn_mod_mul(&e, &e, &b, q); EG(ret, err);
323*f0865ec9SKyle Evans ret = nn_mod_mul(&r, &r, &b, q); EG(ret, err);
324*f0865ec9SKyle Evans #endif /* USE_SIG_BLINDING */
325*f0865ec9SKyle Evans /* 7. Compute s = x(kr + e) mod q */
326*f0865ec9SKyle Evans ret = nn_mod_mul(&kr, &k, &r, q); EG(ret, err);
327*f0865ec9SKyle Evans ret = nn_mod_add(&tmp, &kr, &e, q); EG(ret, err);
328*f0865ec9SKyle Evans ret = nn_mod_mul(&s, x, &tmp, q); EG(ret, err);
329*f0865ec9SKyle Evans #ifdef USE_SIG_BLINDING
330*f0865ec9SKyle Evans /* Unblind s */
331*f0865ec9SKyle Evans /* NOTE: we use Fermat's little theorem inversion for
332*f0865ec9SKyle Evans * constant time here. This is possible since q is prime.
333*f0865ec9SKyle Evans */
334*f0865ec9SKyle Evans ret = nn_modinv_fermat(&binv, &b, q); EG(ret, err);
335*f0865ec9SKyle Evans ret = nn_mod_mul(&s, &s, &binv, q); EG(ret, err);
336*f0865ec9SKyle Evans #endif
337*f0865ec9SKyle Evans dbg_nn_print("s", &s);
338*f0865ec9SKyle Evans
339*f0865ec9SKyle Evans /* 8. If s is 0, restart the process at step 4. */
340*f0865ec9SKyle Evans ret = nn_iszero(&s, &iszero); EG(ret, err);
341*f0865ec9SKyle Evans if (iszero) {
342*f0865ec9SKyle Evans goto restart;
343*f0865ec9SKyle Evans }
344*f0865ec9SKyle Evans
345*f0865ec9SKyle Evans /* 9. Return (r,s) */
346*f0865ec9SKyle Evans ret = nn_export_to_buf(sig + r_len, s_len, &s);
347*f0865ec9SKyle Evans
348*f0865ec9SKyle Evans err:
349*f0865ec9SKyle Evans nn_uninit(&tmp);
350*f0865ec9SKyle Evans nn_uninit(&s);
351*f0865ec9SKyle Evans nn_uninit(&e);
352*f0865ec9SKyle Evans nn_uninit(&kr);
353*f0865ec9SKyle Evans nn_uninit(&k);
354*f0865ec9SKyle Evans nn_uninit(&r);
355*f0865ec9SKyle Evans prj_pt_uninit(&kG);
356*f0865ec9SKyle Evans #ifdef USE_SIG_BLINDING
357*f0865ec9SKyle Evans nn_uninit(&b);
358*f0865ec9SKyle Evans nn_uninit(&binv);
359*f0865ec9SKyle Evans #endif
360*f0865ec9SKyle Evans
361*f0865ec9SKyle Evans /*
362*f0865ec9SKyle Evans * We can now clear data part of the context. This will clear
363*f0865ec9SKyle Evans * magic and avoid further reuse of the whole context.
364*f0865ec9SKyle Evans */
365*f0865ec9SKyle Evans if(ctx != NULL){
366*f0865ec9SKyle Evans IGNORE_RET_VAL(local_memset(&(ctx->sign_data.ecgdsa), 0, sizeof(ecgdsa_sign_data)));
367*f0865ec9SKyle Evans }
368*f0865ec9SKyle Evans
369*f0865ec9SKyle Evans /* Clean what remains on the stack */
370*f0865ec9SKyle Evans VAR_ZEROIFY(q_bit_len);
371*f0865ec9SKyle Evans VAR_ZEROIFY(p_bit_len);
372*f0865ec9SKyle Evans VAR_ZEROIFY(r_len);
373*f0865ec9SKyle Evans VAR_ZEROIFY(s_len);
374*f0865ec9SKyle Evans VAR_ZEROIFY(hsize);
375*f0865ec9SKyle Evans PTR_NULLIFY(q);
376*f0865ec9SKyle Evans PTR_NULLIFY(x);
377*f0865ec9SKyle Evans PTR_NULLIFY(priv_key);
378*f0865ec9SKyle Evans PTR_NULLIFY(G);
379*f0865ec9SKyle Evans
380*f0865ec9SKyle Evans return ret;
381*f0865ec9SKyle Evans }
382*f0865ec9SKyle Evans
383*f0865ec9SKyle Evans /*
384*f0865ec9SKyle Evans * Generic *internal* EC-GDSA verification functions (init, update and finalize).
385*f0865ec9SKyle Evans * Their purpose is to allow passing a specific hash function (along with
386*f0865ec9SKyle Evans * their output size) and the random ephemeral key k, so that compliance
387*f0865ec9SKyle Evans * tests against test vectors can be made without ugly hack in the code
388*f0865ec9SKyle Evans * itself.
389*f0865ec9SKyle Evans *
390*f0865ec9SKyle Evans * Global EC-GDSA verification process is as follows (I,U,F provides
391*f0865ec9SKyle Evans * information in which function(s) (init(), update() or finalize())
392*f0865ec9SKyle Evans * a specific step is performed):
393*f0865ec9SKyle Evans *
394*f0865ec9SKyle Evans *| IUF - EC-GDSA verification
395*f0865ec9SKyle Evans *|
396*f0865ec9SKyle Evans *| I 1. Reject the signature if r or s is 0.
397*f0865ec9SKyle Evans *| UF 2. Compute h = H(m). If |h| > bitlen(q), set h to bitlen(q)
398*f0865ec9SKyle Evans *| leftmost (most significant) bits of h
399*f0865ec9SKyle Evans *| F 3. Compute e = OS2I(h) mod q
400*f0865ec9SKyle Evans *| F 4. Compute u = ((r^-1)e mod q)
401*f0865ec9SKyle Evans *| F 5. Compute v = ((r^-1)s mod q)
402*f0865ec9SKyle Evans *| F 6. Compute W' = uG + vY
403*f0865ec9SKyle Evans *| F 7. Compute r' = W'_x mod q
404*f0865ec9SKyle Evans *| F 8. Accept the signature if and only if r equals r'
405*f0865ec9SKyle Evans *
406*f0865ec9SKyle Evans */
407*f0865ec9SKyle Evans
408*f0865ec9SKyle Evans #define ECGDSA_VERIFY_MAGIC ((word_t)(0xd4da37527288d1b6ULL))
409*f0865ec9SKyle Evans #define ECGDSA_VERIFY_CHECK_INITIALIZED(A, ret, err) \
410*f0865ec9SKyle Evans MUST_HAVE((((void *)(A)) != NULL) && \
411*f0865ec9SKyle Evans ((A)->magic == ECGDSA_VERIFY_MAGIC), ret, err)
412*f0865ec9SKyle Evans
_ecgdsa_verify_init(struct ec_verify_context * ctx,const u8 * sig,u8 siglen)413*f0865ec9SKyle Evans int _ecgdsa_verify_init(struct ec_verify_context *ctx,
414*f0865ec9SKyle Evans const u8 *sig, u8 siglen)
415*f0865ec9SKyle Evans {
416*f0865ec9SKyle Evans u8 r_len, s_len;
417*f0865ec9SKyle Evans bitcnt_t q_bit_len;
418*f0865ec9SKyle Evans nn_src_t q;
419*f0865ec9SKyle Evans nn *s, *r;
420*f0865ec9SKyle Evans int ret, iszero1, iszero2, cmp1, cmp2;
421*f0865ec9SKyle Evans
422*f0865ec9SKyle Evans /* First, verify context has been initialized */
423*f0865ec9SKyle Evans ret = sig_verify_check_initialized(ctx); EG(ret, err);
424*f0865ec9SKyle Evans
425*f0865ec9SKyle Evans /* Do some sanity checks on input params */
426*f0865ec9SKyle Evans ret = pub_key_check_initialized_and_type(ctx->pub_key, ECGDSA); EG(ret, err);
427*f0865ec9SKyle Evans MUST_HAVE((ctx->h != NULL) && (ctx->h->digest_size <= MAX_DIGEST_SIZE) &&
428*f0865ec9SKyle Evans (ctx->h->block_size <= MAX_BLOCK_SIZE), ret, err);
429*f0865ec9SKyle Evans MUST_HAVE((sig != NULL), ret, err);
430*f0865ec9SKyle Evans
431*f0865ec9SKyle Evans /* Make things more readable */
432*f0865ec9SKyle Evans q = &(ctx->pub_key->params->ec_gen_order);
433*f0865ec9SKyle Evans q_bit_len = ctx->pub_key->params->ec_gen_order_bitlen;
434*f0865ec9SKyle Evans r = &(ctx->verify_data.ecgdsa.r);
435*f0865ec9SKyle Evans s = &(ctx->verify_data.ecgdsa.s);
436*f0865ec9SKyle Evans r_len = (u8)ECGDSA_R_LEN(q_bit_len);
437*f0865ec9SKyle Evans s_len = (u8)ECGDSA_S_LEN(q_bit_len);
438*f0865ec9SKyle Evans
439*f0865ec9SKyle Evans /* Check given signature length is the expected one */
440*f0865ec9SKyle Evans MUST_HAVE((siglen == ECGDSA_SIGLEN(q_bit_len)), ret, err);
441*f0865ec9SKyle Evans
442*f0865ec9SKyle Evans /* 1. Reject the signature if r or s is 0. */
443*f0865ec9SKyle Evans
444*f0865ec9SKyle Evans /* Let's first import r, the x coordinates of the point reduced mod q */
445*f0865ec9SKyle Evans ret = nn_init_from_buf(r, sig, r_len); EG(ret, err);
446*f0865ec9SKyle Evans
447*f0865ec9SKyle Evans /* Import s as a nn */
448*f0865ec9SKyle Evans ret = nn_init_from_buf(s, sig + r_len, s_len); EG(ret, err);
449*f0865ec9SKyle Evans
450*f0865ec9SKyle Evans /* Check that r and s are both in ]0,q[ */
451*f0865ec9SKyle Evans ret = nn_iszero(s, &iszero1); EG(ret, err);
452*f0865ec9SKyle Evans ret = nn_iszero(r, &iszero2); EG(ret, err);
453*f0865ec9SKyle Evans ret = nn_cmp(s, q, &cmp1); EG(ret, err);
454*f0865ec9SKyle Evans ret = nn_cmp(r, q, &cmp2); EG(ret, err);
455*f0865ec9SKyle Evans
456*f0865ec9SKyle Evans MUST_HAVE((!iszero1) && (cmp1 < 0) && (!iszero2) && (cmp2 < 0), ret, err);
457*f0865ec9SKyle Evans
458*f0865ec9SKyle Evans /* Initialize the remaining of verify context */
459*f0865ec9SKyle Evans /* Since we call a callback, sanity check our mapping */
460*f0865ec9SKyle Evans ret = hash_mapping_callbacks_sanity_check(ctx->h); EG(ret, err);
461*f0865ec9SKyle Evans ret = ctx->h->hfunc_init(&(ctx->verify_data.ecgdsa.h_ctx)); EG(ret, err);
462*f0865ec9SKyle Evans
463*f0865ec9SKyle Evans ctx->verify_data.ecgdsa.magic = ECGDSA_VERIFY_MAGIC;
464*f0865ec9SKyle Evans
465*f0865ec9SKyle Evans err:
466*f0865ec9SKyle Evans VAR_ZEROIFY(q_bit_len);
467*f0865ec9SKyle Evans VAR_ZEROIFY(r_len);
468*f0865ec9SKyle Evans VAR_ZEROIFY(s_len);
469*f0865ec9SKyle Evans PTR_NULLIFY(q);
470*f0865ec9SKyle Evans PTR_NULLIFY(s);
471*f0865ec9SKyle Evans PTR_NULLIFY(r);
472*f0865ec9SKyle Evans
473*f0865ec9SKyle Evans return ret;
474*f0865ec9SKyle Evans }
475*f0865ec9SKyle Evans
_ecgdsa_verify_update(struct ec_verify_context * ctx,const u8 * chunk,u32 chunklen)476*f0865ec9SKyle Evans int _ecgdsa_verify_update(struct ec_verify_context *ctx,
477*f0865ec9SKyle Evans const u8 *chunk, u32 chunklen)
478*f0865ec9SKyle Evans {
479*f0865ec9SKyle Evans int ret;
480*f0865ec9SKyle Evans
481*f0865ec9SKyle Evans /*
482*f0865ec9SKyle Evans * First, verify context has been initialized and public
483*f0865ec9SKyle Evans * part too. This guarantees the context is an EC-GDSA
484*f0865ec9SKyle Evans * verification one and we do not update() or finalize()
485*f0865ec9SKyle Evans * before init().
486*f0865ec9SKyle Evans */
487*f0865ec9SKyle Evans ret = sig_verify_check_initialized(ctx); EG(ret, err);
488*f0865ec9SKyle Evans ECGDSA_VERIFY_CHECK_INITIALIZED(&(ctx->verify_data.ecgdsa), ret, err);
489*f0865ec9SKyle Evans
490*f0865ec9SKyle Evans /* 2. Compute h = H(m) */
491*f0865ec9SKyle Evans /* Since we call a callback, sanity check our mapping */
492*f0865ec9SKyle Evans ret = hash_mapping_callbacks_sanity_check(ctx->h); EG(ret, err);
493*f0865ec9SKyle Evans ret = ctx->h->hfunc_update(&(ctx->verify_data.ecgdsa.h_ctx), chunk,
494*f0865ec9SKyle Evans chunklen);
495*f0865ec9SKyle Evans
496*f0865ec9SKyle Evans err:
497*f0865ec9SKyle Evans return ret;
498*f0865ec9SKyle Evans }
499*f0865ec9SKyle Evans
_ecgdsa_verify_finalize(struct ec_verify_context * ctx)500*f0865ec9SKyle Evans int _ecgdsa_verify_finalize(struct ec_verify_context *ctx)
501*f0865ec9SKyle Evans {
502*f0865ec9SKyle Evans nn e, r_prime, rinv, uv, *r, *s;
503*f0865ec9SKyle Evans prj_pt uG, vY;
504*f0865ec9SKyle Evans prj_pt_t Wprime;
505*f0865ec9SKyle Evans prj_pt_src_t G, Y;
506*f0865ec9SKyle Evans u8 e_buf[MAX_DIGEST_SIZE];
507*f0865ec9SKyle Evans nn_src_t q;
508*f0865ec9SKyle Evans u8 hsize;
509*f0865ec9SKyle Evans bitcnt_t q_bit_len, rshift;
510*f0865ec9SKyle Evans int ret, cmp;
511*f0865ec9SKyle Evans
512*f0865ec9SKyle Evans e.magic = r_prime.magic = WORD(0);
513*f0865ec9SKyle Evans rinv.magic = uv.magic = WORD(0);
514*f0865ec9SKyle Evans uG.magic = vY.magic = WORD(0);
515*f0865ec9SKyle Evans
516*f0865ec9SKyle Evans /* NOTE: we reuse uG for Wprime to optimize local variables */
517*f0865ec9SKyle Evans Wprime = &uG;
518*f0865ec9SKyle Evans
519*f0865ec9SKyle Evans /*
520*f0865ec9SKyle Evans * First, verify context has been initialized and public
521*f0865ec9SKyle Evans * part too. This guarantees the context is an EC-GDSA
522*f0865ec9SKyle Evans * verification one and we do not finalize() before init().
523*f0865ec9SKyle Evans */
524*f0865ec9SKyle Evans ret = sig_verify_check_initialized(ctx); EG(ret, err);
525*f0865ec9SKyle Evans ECGDSA_VERIFY_CHECK_INITIALIZED(&(ctx->verify_data.ecgdsa), ret, err);
526*f0865ec9SKyle Evans
527*f0865ec9SKyle Evans /* Zero init points */
528*f0865ec9SKyle Evans ret = local_memset(&uG, 0, sizeof(prj_pt)); EG(ret, err);
529*f0865ec9SKyle Evans ret = local_memset(&vY, 0, sizeof(prj_pt)); EG(ret, err);
530*f0865ec9SKyle Evans
531*f0865ec9SKyle Evans /* Make things more readable */
532*f0865ec9SKyle Evans G = &(ctx->pub_key->params->ec_gen);
533*f0865ec9SKyle Evans Y = &(ctx->pub_key->y);
534*f0865ec9SKyle Evans q = &(ctx->pub_key->params->ec_gen_order);
535*f0865ec9SKyle Evans r = &(ctx->verify_data.ecgdsa.r);
536*f0865ec9SKyle Evans s = &(ctx->verify_data.ecgdsa.s);
537*f0865ec9SKyle Evans q_bit_len = ctx->pub_key->params->ec_gen_order_bitlen;
538*f0865ec9SKyle Evans hsize = ctx->h->digest_size;
539*f0865ec9SKyle Evans
540*f0865ec9SKyle Evans /* 2. Compute h = H(m) */
541*f0865ec9SKyle Evans /* Since we call a callback, sanity check our mapping */
542*f0865ec9SKyle Evans ret = hash_mapping_callbacks_sanity_check(ctx->h); EG(ret, err);
543*f0865ec9SKyle Evans ret = ctx->h->hfunc_finalize(&(ctx->verify_data.ecgdsa.h_ctx), e_buf); EG(ret, err);
544*f0865ec9SKyle Evans dbg_buf_print("H(m)", e_buf, hsize);
545*f0865ec9SKyle Evans
546*f0865ec9SKyle Evans /*
547*f0865ec9SKyle Evans * If |h| > bitlen(q), set h to bitlen(q)
548*f0865ec9SKyle Evans * leftmost bits of h.
549*f0865ec9SKyle Evans *
550*f0865ec9SKyle Evans */
551*f0865ec9SKyle Evans rshift = 0;
552*f0865ec9SKyle Evans if ((hsize * 8) > q_bit_len) {
553*f0865ec9SKyle Evans rshift = (bitcnt_t)((hsize * 8) - q_bit_len);
554*f0865ec9SKyle Evans }
555*f0865ec9SKyle Evans ret = nn_init_from_buf(&e, e_buf, hsize); EG(ret, err);
556*f0865ec9SKyle Evans ret = local_memset(e_buf, 0, hsize); EG(ret, err);
557*f0865ec9SKyle Evans if (rshift) {
558*f0865ec9SKyle Evans ret = nn_rshift_fixedlen(&e, &e, rshift); EG(ret, err);
559*f0865ec9SKyle Evans }
560*f0865ec9SKyle Evans dbg_nn_print("H(m) truncated as nn", &e);
561*f0865ec9SKyle Evans
562*f0865ec9SKyle Evans /* 3. Compute e by converting h to an integer and reducing it mod q */
563*f0865ec9SKyle Evans ret = nn_mod(&e, &e, q); EG(ret, err);
564*f0865ec9SKyle Evans
565*f0865ec9SKyle Evans /* 4. Compute u = (r^-1)e mod q */
566*f0865ec9SKyle Evans ret = nn_modinv(&rinv, r, q); EG(ret, err); /* r^-1 */
567*f0865ec9SKyle Evans ret = nn_mod_mul(&uv, &rinv, &e, q); EG(ret, err);
568*f0865ec9SKyle Evans ret = prj_pt_mul(&uG, &uv, G); EG(ret, err);
569*f0865ec9SKyle Evans
570*f0865ec9SKyle Evans /* 5. Compute v = (r^-1)s mod q */
571*f0865ec9SKyle Evans ret = nn_mod_mul(&uv, &rinv, s, q); EG(ret, err);
572*f0865ec9SKyle Evans ret = prj_pt_mul(&vY, &uv, Y); EG(ret, err);
573*f0865ec9SKyle Evans
574*f0865ec9SKyle Evans /* 6. Compute W' = uG + vY */
575*f0865ec9SKyle Evans ret = prj_pt_add(Wprime, &uG, &vY); EG(ret, err);
576*f0865ec9SKyle Evans
577*f0865ec9SKyle Evans /* 7. Compute r' = W'_x mod q */
578*f0865ec9SKyle Evans ret = prj_pt_unique(Wprime, Wprime); EG(ret, err);
579*f0865ec9SKyle Evans dbg_nn_print("W'_x", &(Wprime->X.fp_val));
580*f0865ec9SKyle Evans dbg_nn_print("W'_y", &(Wprime->Y.fp_val));
581*f0865ec9SKyle Evans ret = nn_mod(&r_prime, &(Wprime->X.fp_val), q); EG(ret, err);
582*f0865ec9SKyle Evans
583*f0865ec9SKyle Evans /* 8. Accept the signature if and only if r equals r' */
584*f0865ec9SKyle Evans ret = nn_cmp(r, &r_prime, &cmp); EG(ret, err);
585*f0865ec9SKyle Evans ret = (cmp != 0) ? -1 : 0;
586*f0865ec9SKyle Evans
587*f0865ec9SKyle Evans err:
588*f0865ec9SKyle Evans nn_uninit(&e);
589*f0865ec9SKyle Evans nn_uninit(&r_prime);
590*f0865ec9SKyle Evans nn_uninit(&rinv);
591*f0865ec9SKyle Evans nn_uninit(&uv);
592*f0865ec9SKyle Evans prj_pt_uninit(&uG);
593*f0865ec9SKyle Evans prj_pt_uninit(&vY);
594*f0865ec9SKyle Evans
595*f0865ec9SKyle Evans /*
596*f0865ec9SKyle Evans * We can now clear data part of the context. This will clear
597*f0865ec9SKyle Evans * magic and avoid further reuse of the whole context.
598*f0865ec9SKyle Evans */
599*f0865ec9SKyle Evans if(ctx != NULL){
600*f0865ec9SKyle Evans IGNORE_RET_VAL(local_memset(&(ctx->verify_data.ecgdsa), 0,
601*f0865ec9SKyle Evans sizeof(ecgdsa_verify_data)));
602*f0865ec9SKyle Evans }
603*f0865ec9SKyle Evans
604*f0865ec9SKyle Evans PTR_NULLIFY(Wprime);
605*f0865ec9SKyle Evans PTR_NULLIFY(r);
606*f0865ec9SKyle Evans PTR_NULLIFY(s);
607*f0865ec9SKyle Evans PTR_NULLIFY(G);
608*f0865ec9SKyle Evans PTR_NULLIFY(Y);
609*f0865ec9SKyle Evans PTR_NULLIFY(q);
610*f0865ec9SKyle Evans VAR_ZEROIFY(hsize);
611*f0865ec9SKyle Evans
612*f0865ec9SKyle Evans return ret;
613*f0865ec9SKyle Evans }
614*f0865ec9SKyle Evans
615*f0865ec9SKyle Evans #else /* WITH_SIG_ECGDSA */
616*f0865ec9SKyle Evans
617*f0865ec9SKyle Evans /*
618*f0865ec9SKyle Evans * Dummy definition to avoid the empty translation unit ISO C warning
619*f0865ec9SKyle Evans */
620*f0865ec9SKyle Evans typedef int dummy;
621*f0865ec9SKyle Evans #endif /* WITH_SIG_ECGDSA */
622