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 #if defined(WITH_SIG_ECRDSA) && defined(USE_CRYPTOFUZZ) 18*f0865ec9SKyle Evans 19*f0865ec9SKyle Evans #include <libecc/nn/nn_rand.h> 20*f0865ec9SKyle Evans #include <libecc/nn/nn_mul.h> 21*f0865ec9SKyle Evans #include <libecc/nn/nn_logical.h> 22*f0865ec9SKyle Evans 23*f0865ec9SKyle Evans #include <libecc/sig/sig_algs_internal.h> 24*f0865ec9SKyle Evans #include <libecc/sig/ec_key.h> 25*f0865ec9SKyle Evans #include <libecc/utils/utils.h> 26*f0865ec9SKyle Evans #ifdef VERBOSE_INNER_VALUES 27*f0865ec9SKyle Evans #define EC_SIG_ALG "ECRDSA" 28*f0865ec9SKyle Evans #endif 29*f0865ec9SKyle Evans #include <libecc/utils/dbg_sig.h> 30*f0865ec9SKyle Evans 31*f0865ec9SKyle Evans /* NOTE: the following versions of ECRDSA are "raw" with 32*f0865ec9SKyle Evans * no hash functions and nonce override. They are DANGEROUS and 33*f0865ec9SKyle Evans * should NOT be used in production mode! They are however useful 34*f0865ec9SKyle Evans * for corner cases tests and fuzzing. 35*f0865ec9SKyle Evans */ 36*f0865ec9SKyle Evans 37*f0865ec9SKyle Evans /* 38*f0865ec9SKyle Evans * NOTE: ISO/IEC 14888-3 standard seems to diverge from the existing implementations 39*f0865ec9SKyle Evans * of ECRDSA when treating the message hash, and from the examples of certificates provided 40*f0865ec9SKyle Evans * in RFC 7091 and draft-deremin-rfc4491-bis. While in ISO/IEC 14888-3 it is explicitely asked 41*f0865ec9SKyle Evans * to proceed with the hash of the message as big endian, the RFCs derived from the Russian 42*f0865ec9SKyle Evans * standard expect the hash value to be treated as little endian when importing it as an integer 43*f0865ec9SKyle Evans * (this discrepancy is exhibited and confirmed by test vectors present in ISO/IEC 14888-3, and 44*f0865ec9SKyle Evans * by X.509 certificates present in the RFCs). This seems (to be confirmed) to be a discrepancy of 45*f0865ec9SKyle Evans * ISO/IEC 14888-3 algorithm description that must be fixed there. 46*f0865ec9SKyle Evans * 47*f0865ec9SKyle Evans * In order to be conservative, libecc uses the Russian standard behavior as expected to be in line with 48*f0865ec9SKyle Evans * other implemetations, but keeps the ISO/IEC 14888-3 behavior if forced/asked by the user using 49*f0865ec9SKyle Evans * the USE_ISO14888_3_ECRDSA toggle. This allows to keep backward compatibility with previous versions of the 50*f0865ec9SKyle Evans * library if needed. 51*f0865ec9SKyle Evans * 52*f0865ec9SKyle Evans */ 53*f0865ec9SKyle Evans #ifndef USE_ISO14888_3_ECRDSA 54*f0865ec9SKyle Evans /* Reverses the endiannes of a buffer in place */ 55*f0865ec9SKyle Evans ATTRIBUTE_WARN_UNUSED_RET static inline int _reverse_endianness(u8 *buf, u16 buf_size) 56*f0865ec9SKyle Evans { 57*f0865ec9SKyle Evans u16 i; 58*f0865ec9SKyle Evans u8 tmp; 59*f0865ec9SKyle Evans int ret; 60*f0865ec9SKyle Evans 61*f0865ec9SKyle Evans MUST_HAVE((buf != NULL), ret, err); 62*f0865ec9SKyle Evans 63*f0865ec9SKyle Evans if(buf_size > 1){ 64*f0865ec9SKyle Evans for(i = 0; i < (buf_size / 2); i++){ 65*f0865ec9SKyle Evans tmp = buf[i]; 66*f0865ec9SKyle Evans buf[i] = buf[buf_size - 1 - i]; 67*f0865ec9SKyle Evans buf[buf_size - 1 - i] = tmp; 68*f0865ec9SKyle Evans } 69*f0865ec9SKyle Evans } 70*f0865ec9SKyle Evans 71*f0865ec9SKyle Evans ret = 0; 72*f0865ec9SKyle Evans err: 73*f0865ec9SKyle Evans return ret; 74*f0865ec9SKyle Evans } 75*f0865ec9SKyle Evans #endif 76*f0865ec9SKyle Evans 77*f0865ec9SKyle Evans #define ECRDSA_SIGN_MAGIC ((word_t)(0xcc97bbc8ada8973cULL)) 78*f0865ec9SKyle Evans #define ECRDSA_SIGN_CHECK_INITIALIZED(A, ret, err) \ 79*f0865ec9SKyle Evans MUST_HAVE((((const void *)(A)) != NULL) && \ 80*f0865ec9SKyle Evans ((A)->magic == ECRDSA_SIGN_MAGIC), ret, err) 81*f0865ec9SKyle Evans 82*f0865ec9SKyle Evans int ecrdsa_sign_raw(struct ec_sign_context *ctx, const u8 *input, u8 inputlen, u8 *sig, u8 siglen, const u8 *nonce, u8 noncelen) 83*f0865ec9SKyle Evans { 84*f0865ec9SKyle Evans bitcnt_t q_bit_len, p_bit_len; 85*f0865ec9SKyle Evans const ec_priv_key *priv_key; 86*f0865ec9SKyle Evans /* NOTE: hash here is not really a hash ... */ 87*f0865ec9SKyle Evans u8 h_buf[LOCAL_MIN(255, BIT_LEN_WORDS(NN_MAX_BIT_LEN) * (WORDSIZE / 8))]; 88*f0865ec9SKyle Evans prj_pt_src_t G; 89*f0865ec9SKyle Evans prj_pt kG; 90*f0865ec9SKyle Evans nn_src_t q, x; 91*f0865ec9SKyle Evans u8 hsize, r_len, s_len; 92*f0865ec9SKyle Evans int ret, iszero; 93*f0865ec9SKyle Evans nn tmp, s, rx, ke, k, r, e; 94*f0865ec9SKyle Evans #ifdef USE_SIG_BLINDING 95*f0865ec9SKyle Evans /* b is the blinding mask */ 96*f0865ec9SKyle Evans nn b, binv; 97*f0865ec9SKyle Evans b.magic = binv.magic = WORD(0); 98*f0865ec9SKyle Evans #endif /* USE_SIG_BLINDING */ 99*f0865ec9SKyle Evans 100*f0865ec9SKyle Evans tmp.magic = s.magic = rx.magic = ke.magic = WORD(0); 101*f0865ec9SKyle Evans k.magic = r.magic = e.magic = WORD(0); 102*f0865ec9SKyle Evans kG.magic = WORD(0); 103*f0865ec9SKyle Evans 104*f0865ec9SKyle Evans /* 105*f0865ec9SKyle Evans * First, verify context has been initialized and private 106*f0865ec9SKyle Evans * part too. This guarantees the context is an EC-RDSA 107*f0865ec9SKyle Evans * signature one and we do not finalize() before init(). 108*f0865ec9SKyle Evans */ 109*f0865ec9SKyle Evans ret = sig_sign_check_initialized(ctx); EG(ret, err); 110*f0865ec9SKyle Evans ECRDSA_SIGN_CHECK_INITIALIZED(&(ctx->sign_data.ecrdsa), ret, err); 111*f0865ec9SKyle Evans 112*f0865ec9SKyle Evans /* Zero init points */ 113*f0865ec9SKyle Evans ret = local_memset(&kG, 0, sizeof(prj_pt)); EG(ret, err); 114*f0865ec9SKyle Evans 115*f0865ec9SKyle Evans /* Make things more readable */ 116*f0865ec9SKyle Evans priv_key = &(ctx->key_pair->priv_key); 117*f0865ec9SKyle Evans G = &(priv_key->params->ec_gen); 118*f0865ec9SKyle Evans q = &(priv_key->params->ec_gen_order); 119*f0865ec9SKyle Evans p_bit_len = priv_key->params->ec_fp.p_bitlen; 120*f0865ec9SKyle Evans q_bit_len = priv_key->params->ec_gen_order_bitlen; 121*f0865ec9SKyle Evans x = &(priv_key->x); 122*f0865ec9SKyle Evans r_len = (u8)ECRDSA_R_LEN(q_bit_len); 123*f0865ec9SKyle Evans s_len = (u8)ECRDSA_S_LEN(q_bit_len); 124*f0865ec9SKyle Evans hsize = inputlen; 125*f0865ec9SKyle Evans 126*f0865ec9SKyle Evans MUST_HAVE((NN_MAX_BIT_LEN >= p_bit_len), ret, err); 127*f0865ec9SKyle Evans 128*f0865ec9SKyle Evans MUST_HAVE((siglen == ECRDSA_SIGLEN(q_bit_len)), ret, err); 129*f0865ec9SKyle Evans 130*f0865ec9SKyle Evans dbg_nn_print("p", &(priv_key->params->ec_fp.p)); 131*f0865ec9SKyle Evans dbg_nn_print("q", q); 132*f0865ec9SKyle Evans dbg_priv_key_print("x", priv_key); 133*f0865ec9SKyle Evans dbg_pub_key_print("Y", &(ctx->key_pair->pub_key)); 134*f0865ec9SKyle Evans dbg_ec_point_print("G", G); 135*f0865ec9SKyle Evans 136*f0865ec9SKyle Evans /* 137*f0865ec9SKyle Evans NOTE: the restart label is removed in CRYPTOFUZZ mode as 138*f0865ec9SKyle Evans we trigger MUST_HAVE instead of restarting in this mode. 139*f0865ec9SKyle Evans restart: 140*f0865ec9SKyle Evans */ 141*f0865ec9SKyle Evans /* 2. Get a random value k in ]0, q[ ... */ 142*f0865ec9SKyle Evans /* NOTE: copy our input nonce if not NULL */ 143*f0865ec9SKyle Evans if(nonce != NULL){ 144*f0865ec9SKyle Evans MUST_HAVE((noncelen <= (u8)(BYTECEIL(q_bit_len))), ret, err); 145*f0865ec9SKyle Evans ret = nn_init_from_buf(&k, nonce, noncelen); EG(ret, err); 146*f0865ec9SKyle Evans } 147*f0865ec9SKyle Evans else{ 148*f0865ec9SKyle Evans ret = ctx->rand(&k, q); EG(ret, err); 149*f0865ec9SKyle Evans } 150*f0865ec9SKyle Evans 151*f0865ec9SKyle Evans dbg_nn_print("k", &k); 152*f0865ec9SKyle Evans #ifdef USE_SIG_BLINDING 153*f0865ec9SKyle Evans /* Note: if we use blinding, k and e are multiplied by 154*f0865ec9SKyle Evans * a random value b in ]0,q[ */ 155*f0865ec9SKyle Evans ret = nn_get_random_mod(&b, q); EG(ret, err); 156*f0865ec9SKyle Evans dbg_nn_print("b", &b); 157*f0865ec9SKyle Evans #endif /* USE_SIG_BLINDING */ 158*f0865ec9SKyle Evans 159*f0865ec9SKyle Evans /* 3. Compute W = kG = (Wx, Wy) */ 160*f0865ec9SKyle Evans #ifdef USE_SIG_BLINDING 161*f0865ec9SKyle Evans /* We use blinding for the scalar multiplication */ 162*f0865ec9SKyle Evans ret = prj_pt_mul_blind(&kG, &k, G); EG(ret, err); 163*f0865ec9SKyle Evans #else 164*f0865ec9SKyle Evans ret = prj_pt_mul(&kG, &k, G); EG(ret, err); 165*f0865ec9SKyle Evans #endif /* USE_SIG_BLINDING */ 166*f0865ec9SKyle Evans ret = prj_pt_unique(&kG, &kG); EG(ret, err); 167*f0865ec9SKyle Evans dbg_nn_print("W_x", &(kG.X.fp_val)); 168*f0865ec9SKyle Evans dbg_nn_print("W_y", &(kG.Y.fp_val)); 169*f0865ec9SKyle Evans 170*f0865ec9SKyle Evans /* 4. Compute r = Wx mod q */ 171*f0865ec9SKyle Evans ret = nn_mod(&r, &(kG.X.fp_val), q); EG(ret, err); 172*f0865ec9SKyle Evans 173*f0865ec9SKyle Evans /* 5. If r is 0, restart the process at step 2. */ 174*f0865ec9SKyle Evans /* NOTE: for the CRYPTOFUZZ mode, we do not restart 175*f0865ec9SKyle Evans * the procedure but throw an assert exception instead. 176*f0865ec9SKyle Evans */ 177*f0865ec9SKyle Evans ret = nn_iszero(&r, &iszero); EG(ret, err); 178*f0865ec9SKyle Evans MUST_HAVE((!iszero), ret, err); 179*f0865ec9SKyle Evans 180*f0865ec9SKyle Evans dbg_nn_print("r", &r); 181*f0865ec9SKyle Evans 182*f0865ec9SKyle Evans /* Export r */ 183*f0865ec9SKyle Evans ret = nn_export_to_buf(sig, r_len, &r); EG(ret, err); 184*f0865ec9SKyle Evans 185*f0865ec9SKyle Evans /* 6. Compute e = OS2I(h) mod q. If e is 0, set e to 1. */ 186*f0865ec9SKyle Evans /* NOTE: here we have raw ECRDSA, this is the raw input */ 187*f0865ec9SKyle Evans MUST_HAVE((input != NULL), ret, err); 188*f0865ec9SKyle Evans /* NOTE: the MUST_HAVE is protected by a preprocessing check 189*f0865ec9SKyle Evans * to avoid -Werror=type-limits errors: 190*f0865ec9SKyle Evans * "error: comparison is always true due to limited range of data type" 191*f0865ec9SKyle Evans */ 192*f0865ec9SKyle Evans #if LOCAL_MIN(255, BIT_LEN_WORDS(NN_MAX_BIT_LEN) * (WORDSIZE / 8)) < 255 193*f0865ec9SKyle Evans MUST_HAVE(((u32)inputlen <= sizeof(h_buf)), ret, err); 194*f0865ec9SKyle Evans #endif 195*f0865ec9SKyle Evans ret = local_memset(h_buf, 0, sizeof(h_buf)); EG(ret, err); 196*f0865ec9SKyle Evans ret = local_memcpy(h_buf, input, hsize); EG(ret, err); 197*f0865ec9SKyle Evans dbg_buf_print("H(m)", h_buf, hsize); 198*f0865ec9SKyle Evans /* NOTE: this handles a discrepancy between ISO/IEC 14888-3 and 199*f0865ec9SKyle Evans * Russian standard based RFCs. 200*f0865ec9SKyle Evans */ 201*f0865ec9SKyle Evans #ifndef USE_ISO14888_3_ECRDSA 202*f0865ec9SKyle Evans ret = _reverse_endianness(h_buf, hsize); EG(ret, err); 203*f0865ec9SKyle Evans #endif 204*f0865ec9SKyle Evans 205*f0865ec9SKyle Evans ret = nn_init_from_buf(&tmp, h_buf, hsize); EG(ret, err); 206*f0865ec9SKyle Evans ret = local_memset(h_buf, 0, hsize); EG(ret, err); 207*f0865ec9SKyle Evans ret = nn_mod(&e, &tmp, q); EG(ret, err); 208*f0865ec9SKyle Evans ret = nn_iszero(&e, &iszero); EG(ret, err); 209*f0865ec9SKyle Evans if (iszero) { 210*f0865ec9SKyle Evans ret = nn_inc(&e, &e); EG(ret, err); 211*f0865ec9SKyle Evans } 212*f0865ec9SKyle Evans dbg_nn_print("e", &e); 213*f0865ec9SKyle Evans 214*f0865ec9SKyle Evans #ifdef USE_SIG_BLINDING 215*f0865ec9SKyle Evans /* In case of blinding, we blind r and e */ 216*f0865ec9SKyle Evans ret = nn_mod_mul(&r, &r, &b, q); EG(ret, err); 217*f0865ec9SKyle Evans ret = nn_mod_mul(&e, &e, &b, q); EG(ret, err); 218*f0865ec9SKyle Evans #endif /* USE_SIG_BLINDING */ 219*f0865ec9SKyle Evans 220*f0865ec9SKyle Evans /* Compute s = (rx + ke) mod q */ 221*f0865ec9SKyle Evans ret = nn_mod_mul(&rx, &r, x, q); EG(ret, err); 222*f0865ec9SKyle Evans ret = nn_mod_mul(&ke, &k, &e, q); EG(ret, err); 223*f0865ec9SKyle Evans ret = nn_mod_add(&s, &rx, &ke, q); EG(ret, err); 224*f0865ec9SKyle Evans #ifdef USE_SIG_BLINDING 225*f0865ec9SKyle Evans /* Unblind s */ 226*f0865ec9SKyle Evans /* NOTE: we use Fermat's little theorem inversion for 227*f0865ec9SKyle Evans * constant time here. This is possible since q is prime. 228*f0865ec9SKyle Evans */ 229*f0865ec9SKyle Evans ret = nn_modinv_fermat(&binv, &b, q); EG(ret, err); 230*f0865ec9SKyle Evans ret = nn_mod_mul(&s, &s, &binv, q); EG(ret, err); 231*f0865ec9SKyle Evans #endif /* USE_SIG_BLINDING */ 232*f0865ec9SKyle Evans 233*f0865ec9SKyle Evans /* If s is 0, restart the process at step 2. */ 234*f0865ec9SKyle Evans /* 10. If s is 0, restart the process at step 4. */ 235*f0865ec9SKyle Evans /* NOTE: for the CRYPTOFUZZ mode, we do not restart 236*f0865ec9SKyle Evans * the procedure but throw an assert exception instead. 237*f0865ec9SKyle Evans */ 238*f0865ec9SKyle Evans ret = nn_iszero(&s, &iszero); EG(ret, err); 239*f0865ec9SKyle Evans MUST_HAVE((!iszero), ret, err); 240*f0865ec9SKyle Evans 241*f0865ec9SKyle Evans dbg_nn_print("s", &s); 242*f0865ec9SKyle Evans 243*f0865ec9SKyle Evans /* Return (r,s) */ 244*f0865ec9SKyle Evans ret = nn_export_to_buf(sig + r_len, s_len, &s); EG(ret, err); 245*f0865ec9SKyle Evans 246*f0865ec9SKyle Evans err: 247*f0865ec9SKyle Evans nn_uninit(&r); 248*f0865ec9SKyle Evans nn_uninit(&s); 249*f0865ec9SKyle Evans nn_uninit(&tmp); 250*f0865ec9SKyle Evans nn_uninit(&rx); 251*f0865ec9SKyle Evans nn_uninit(&ke); 252*f0865ec9SKyle Evans nn_uninit(&k); 253*f0865ec9SKyle Evans nn_uninit(&e); 254*f0865ec9SKyle Evans prj_pt_uninit(&kG); 255*f0865ec9SKyle Evans 256*f0865ec9SKyle Evans /* 257*f0865ec9SKyle Evans * We can now clear data part of the context. This will clear 258*f0865ec9SKyle Evans * magic and avoid further reuse of the whole context. 259*f0865ec9SKyle Evans */ 260*f0865ec9SKyle Evans if(ctx != NULL){ 261*f0865ec9SKyle Evans IGNORE_RET_VAL(local_memset(&(ctx->sign_data.ecrdsa), 0, sizeof(ecrdsa_sign_data))); 262*f0865ec9SKyle Evans } 263*f0865ec9SKyle Evans 264*f0865ec9SKyle Evans /* Clean what remains on the stack */ 265*f0865ec9SKyle Evans VAR_ZEROIFY(r_len); 266*f0865ec9SKyle Evans VAR_ZEROIFY(s_len); 267*f0865ec9SKyle Evans VAR_ZEROIFY(q_bit_len); 268*f0865ec9SKyle Evans VAR_ZEROIFY(p_bit_len); 269*f0865ec9SKyle Evans VAR_ZEROIFY(hsize); 270*f0865ec9SKyle Evans PTR_NULLIFY(priv_key); 271*f0865ec9SKyle Evans PTR_NULLIFY(G); 272*f0865ec9SKyle Evans PTR_NULLIFY(q); 273*f0865ec9SKyle Evans PTR_NULLIFY(x); 274*f0865ec9SKyle Evans 275*f0865ec9SKyle Evans #ifdef USE_SIG_BLINDING 276*f0865ec9SKyle Evans nn_uninit(&b); 277*f0865ec9SKyle Evans nn_uninit(&binv); 278*f0865ec9SKyle Evans #endif /* USE_SIG_BLINDING */ 279*f0865ec9SKyle Evans 280*f0865ec9SKyle Evans return ret; 281*f0865ec9SKyle Evans } 282*f0865ec9SKyle Evans 283*f0865ec9SKyle Evans /******************************/ 284*f0865ec9SKyle Evans #define ECRDSA_VERIFY_MAGIC ((word_t)(0xa8e16b7e8180cb9aULL)) 285*f0865ec9SKyle Evans #define ECRDSA_VERIFY_CHECK_INITIALIZED(A, ret, err) \ 286*f0865ec9SKyle Evans MUST_HAVE((((const void *)(A)) != NULL) && \ 287*f0865ec9SKyle Evans ((A)->magic == ECRDSA_VERIFY_MAGIC), ret, err) 288*f0865ec9SKyle Evans 289*f0865ec9SKyle Evans int ecrdsa_verify_raw(struct ec_verify_context *ctx, const u8 *input, u8 inputlen) 290*f0865ec9SKyle Evans { 291*f0865ec9SKyle Evans prj_pt_src_t G, Y; 292*f0865ec9SKyle Evans nn_src_t q; 293*f0865ec9SKyle Evans nn tmp, h, r_prime, e, v, u; 294*f0865ec9SKyle Evans prj_pt vY, uG; 295*f0865ec9SKyle Evans prj_pt_t Wprime; 296*f0865ec9SKyle Evans /* NOTE: hash here is not really a hash ... */ 297*f0865ec9SKyle Evans u8 h_buf[LOCAL_MIN(255, BIT_LEN_WORDS(NN_MAX_BIT_LEN) * (WORDSIZE / 8))]; 298*f0865ec9SKyle Evans nn *r, *s; 299*f0865ec9SKyle Evans u8 hsize; 300*f0865ec9SKyle Evans int ret, iszero, cmp; 301*f0865ec9SKyle Evans 302*f0865ec9SKyle Evans tmp.magic = h.magic = r_prime.magic = e.magic = WORD(0); 303*f0865ec9SKyle Evans v.magic = u.magic = WORD(0); 304*f0865ec9SKyle Evans vY.magic = uG.magic = WORD(0); 305*f0865ec9SKyle Evans 306*f0865ec9SKyle Evans /* NOTE: we reuse uG for Wprime to optimize local variables */ 307*f0865ec9SKyle Evans Wprime = &uG; 308*f0865ec9SKyle Evans 309*f0865ec9SKyle Evans /* 310*f0865ec9SKyle Evans * First, verify context has been initialized and public 311*f0865ec9SKyle Evans * part too. This guarantees the context is an EC-RDSA 312*f0865ec9SKyle Evans * verification one and we do not finalize() before init(). 313*f0865ec9SKyle Evans */ 314*f0865ec9SKyle Evans ret = sig_verify_check_initialized(ctx); EG(ret, err); 315*f0865ec9SKyle Evans ECRDSA_VERIFY_CHECK_INITIALIZED(&(ctx->verify_data.ecrdsa), ret, err); 316*f0865ec9SKyle Evans 317*f0865ec9SKyle Evans /* Zero init points */ 318*f0865ec9SKyle Evans ret = local_memset(&uG, 0, sizeof(prj_pt)); EG(ret, err); 319*f0865ec9SKyle Evans ret = local_memset(&vY, 0, sizeof(prj_pt)); EG(ret, err); 320*f0865ec9SKyle Evans 321*f0865ec9SKyle Evans /* Make things more readable */ 322*f0865ec9SKyle Evans G = &(ctx->pub_key->params->ec_gen); 323*f0865ec9SKyle Evans Y = &(ctx->pub_key->y); 324*f0865ec9SKyle Evans q = &(ctx->pub_key->params->ec_gen_order); 325*f0865ec9SKyle Evans r = &(ctx->verify_data.ecrdsa.r); 326*f0865ec9SKyle Evans s = &(ctx->verify_data.ecrdsa.s); 327*f0865ec9SKyle Evans hsize = inputlen; 328*f0865ec9SKyle Evans 329*f0865ec9SKyle Evans /* 2. Compute h = H(m) */ 330*f0865ec9SKyle Evans /* NOTE: here we have raw ECRDSA, this is the raw input */ 331*f0865ec9SKyle Evans MUST_HAVE((input != NULL), ret, err); 332*f0865ec9SKyle Evans /* NOTE: the MUST_HAVE is protected by a preprocessing check 333*f0865ec9SKyle Evans * to avoid -Werror=type-limits errors: 334*f0865ec9SKyle Evans * "error: comparison is always true due to limited range of data type" 335*f0865ec9SKyle Evans */ 336*f0865ec9SKyle Evans #if LOCAL_MIN(255, BIT_LEN_WORDS(NN_MAX_BIT_LEN) * (WORDSIZE / 8)) < 255 337*f0865ec9SKyle Evans MUST_HAVE(((u32)inputlen <= sizeof(h_buf)), ret, err); 338*f0865ec9SKyle Evans #endif 339*f0865ec9SKyle Evans 340*f0865ec9SKyle Evans ret = local_memset(h_buf, 0, sizeof(h_buf)); EG(ret, err); 341*f0865ec9SKyle Evans ret = local_memcpy(h_buf, input, hsize); EG(ret, err); 342*f0865ec9SKyle Evans dbg_buf_print("H(m)", h_buf, hsize); 343*f0865ec9SKyle Evans /* NOTE: this handles a discrepancy between ISO/IEC 14888-3 and 344*f0865ec9SKyle Evans * Russian standard based RFCs. 345*f0865ec9SKyle Evans */ 346*f0865ec9SKyle Evans #ifndef USE_ISO14888_3_ECRDSA 347*f0865ec9SKyle Evans ret = _reverse_endianness(h_buf, hsize); EG(ret, err); 348*f0865ec9SKyle Evans #endif 349*f0865ec9SKyle Evans 350*f0865ec9SKyle Evans /* 3. Compute e = OS2I(h)^-1 mod q */ 351*f0865ec9SKyle Evans ret = nn_init_from_buf(&tmp, h_buf, hsize); EG(ret, err); 352*f0865ec9SKyle Evans ret = local_memset(h_buf, 0, hsize); EG(ret, err); 353*f0865ec9SKyle Evans ret = nn_mod(&h, &tmp, q); EG(ret, err); /* h = OS2I(h) mod q */ 354*f0865ec9SKyle Evans ret = nn_iszero(&h, &iszero); EG(ret, err); 355*f0865ec9SKyle Evans if (iszero) { /* If h is equal to 0, set it to 1 */ 356*f0865ec9SKyle Evans ret = nn_inc(&h, &h); EG(ret, err); 357*f0865ec9SKyle Evans } 358*f0865ec9SKyle Evans ret = nn_modinv(&e, &h, q); EG(ret, err); /* e = h^-1 mod q */ 359*f0865ec9SKyle Evans 360*f0865ec9SKyle Evans /* 4. Compute u = es mod q */ 361*f0865ec9SKyle Evans ret = nn_mul(&tmp, &e, s); EG(ret, err); 362*f0865ec9SKyle Evans ret = nn_mod(&u, &tmp, q); EG(ret, err); 363*f0865ec9SKyle Evans 364*f0865ec9SKyle Evans /* 5. Compute v = -er mod q 365*f0865ec9SKyle Evans * 366*f0865ec9SKyle Evans * Because we only support positive integers, we compute 367*f0865ec9SKyle Evans * v = -er mod q = q - (er mod q) (except when er is 0). 368*f0865ec9SKyle Evans */ 369*f0865ec9SKyle Evans ret = nn_mul(&tmp, &e, r); EG(ret, err); /* tmp = er */ 370*f0865ec9SKyle Evans ret = nn_mod(&tmp, &tmp, q); EG(ret, err); /* tmp = er mod q */ 371*f0865ec9SKyle Evans ret = nn_mod_neg(&v, &tmp, q); EG(ret, err); /* negate tmp */ 372*f0865ec9SKyle Evans 373*f0865ec9SKyle Evans /* 6. Compute W' = uG + vY = (W'_x, W'_y) */ 374*f0865ec9SKyle Evans ret = prj_pt_mul(&uG, &u, G); EG(ret, err); 375*f0865ec9SKyle Evans ret = prj_pt_mul(&vY, &v, Y); EG(ret, err); 376*f0865ec9SKyle Evans ret = prj_pt_add(Wprime, &uG, &vY); EG(ret, err); 377*f0865ec9SKyle Evans ret = prj_pt_unique(Wprime, Wprime); EG(ret, err); 378*f0865ec9SKyle Evans dbg_nn_print("W'_x", &(Wprime->X.fp_val)); 379*f0865ec9SKyle Evans dbg_nn_print("W'_y", &(Wprime->Y.fp_val)); 380*f0865ec9SKyle Evans 381*f0865ec9SKyle Evans /* 7. Compute r' = W'_x mod q */ 382*f0865ec9SKyle Evans ret = nn_mod(&r_prime, &(Wprime->X.fp_val), q); EG(ret, err); 383*f0865ec9SKyle Evans 384*f0865ec9SKyle Evans /* 8. Check r and r' are the same */ 385*f0865ec9SKyle Evans ret = nn_cmp(r, &r_prime, &cmp); EG(ret, err); 386*f0865ec9SKyle Evans ret = (cmp == 0) ? 0 : -1; 387*f0865ec9SKyle Evans 388*f0865ec9SKyle Evans err: 389*f0865ec9SKyle Evans nn_uninit(&r_prime); 390*f0865ec9SKyle Evans nn_uninit(&tmp); 391*f0865ec9SKyle Evans nn_uninit(&h); 392*f0865ec9SKyle Evans nn_uninit(&e); 393*f0865ec9SKyle Evans nn_uninit(&u); 394*f0865ec9SKyle Evans nn_uninit(&v); 395*f0865ec9SKyle Evans prj_pt_uninit(&vY); 396*f0865ec9SKyle Evans prj_pt_uninit(&uG); 397*f0865ec9SKyle Evans 398*f0865ec9SKyle Evans /* 399*f0865ec9SKyle Evans * We can now clear data part of the context. This will clear 400*f0865ec9SKyle Evans * magic and avoid further reuse of the whole context. 401*f0865ec9SKyle Evans */ 402*f0865ec9SKyle Evans if(ctx != NULL){ 403*f0865ec9SKyle Evans IGNORE_RET_VAL(local_memset(&(ctx->verify_data.ecrdsa), 0, 404*f0865ec9SKyle Evans sizeof(ecrdsa_verify_data))); 405*f0865ec9SKyle Evans } 406*f0865ec9SKyle Evans 407*f0865ec9SKyle Evans /* Clean what remains on the stack */ 408*f0865ec9SKyle Evans PTR_NULLIFY(Wprime); 409*f0865ec9SKyle Evans PTR_NULLIFY(G); 410*f0865ec9SKyle Evans PTR_NULLIFY(Y); 411*f0865ec9SKyle Evans PTR_NULLIFY(q); 412*f0865ec9SKyle Evans PTR_NULLIFY(r); 413*f0865ec9SKyle Evans PTR_NULLIFY(s); 414*f0865ec9SKyle Evans VAR_ZEROIFY(hsize); 415*f0865ec9SKyle Evans 416*f0865ec9SKyle Evans return ret; 417*f0865ec9SKyle Evans } 418*f0865ec9SKyle Evans 419*f0865ec9SKyle Evans #else /* WITH_SIG_ECRDSA && USE_CRYPTOFUZZ */ 420*f0865ec9SKyle Evans 421*f0865ec9SKyle Evans /* 422*f0865ec9SKyle Evans * Dummy definition to avoid the empty translation unit ISO C warning 423*f0865ec9SKyle Evans */ 424*f0865ec9SKyle Evans typedef int dummy; 425*f0865ec9SKyle Evans #endif /* WITH_SIG_ECRDSA */ 426