Path: blob/main/crypto/libecc/src/sig/fuzzing_ecgdsa.c
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/*1* Copyright (C) 2017 - This file is part of libecc project2*3* Authors:4* Ryad BENADJILA <[email protected]>5* Arnaud EBALARD <[email protected]>6* Jean-Pierre FLORI <[email protected]>7*8* Contributors:9* Nicolas VIVET <[email protected]>10* Karim KHALFALLAH <[email protected]>11*12* This software is licensed under a dual BSD and GPL v2 license.13* See LICENSE file at the root folder of the project.14*/15#include <libecc/lib_ecc_config.h>16#if defined(WITH_SIG_ECGDSA) && defined(USE_CRYPTOFUZZ)1718#include <libecc/nn/nn_rand.h>19#include <libecc/nn/nn_mul.h>20#include <libecc/nn/nn_logical.h>2122#include <libecc/sig/sig_algs_internal.h>23#include <libecc/sig/ec_key.h>24#include <libecc/utils/utils.h>25#ifdef VERBOSE_INNER_VALUES26#define EC_SIG_ALG "ECGDSA"27#endif28#include <libecc/utils/dbg_sig.h>2930/* NOTE: the following versions of ECGDSA are "raw" with31* no hash functions and nonce override. They are DANGEROUS and32* should NOT be used in production mode! They are however useful33* for corner cases tests and fuzzing.34*/35#define ECGDSA_SIGN_MAGIC ((word_t)(0xe2f60ea3353ecc9eULL))36#define ECGDSA_SIGN_CHECK_INITIALIZED(A, ret, err) \37MUST_HAVE((((const void *)(A)) != NULL) && \38((A)->magic == ECGDSA_SIGN_MAGIC), ret, err)3940int ecgdsa_sign_raw(struct ec_sign_context *ctx, const u8 *input, u8 inputlen, u8 *sig, u8 siglen, const u8 *nonce, u8 noncelen)41{42nn_src_t q, x;43/* NOTE: hash here is not really a hash ... */44u8 e_buf[LOCAL_MIN(255, BIT_LEN_WORDS(NN_MAX_BIT_LEN) * (WORDSIZE / 8))];45const ec_priv_key *priv_key;46prj_pt_src_t G;47u8 hsize, r_len, s_len;48bitcnt_t q_bit_len, p_bit_len, rshift;49prj_pt kG;50int ret, iszero;51nn tmp, tmp2, s, e, kr, k, r;52#ifdef USE_SIG_BLINDING53/* b is the blinding mask */54nn b, binv;55b.magic = binv.magic = WORD(0);56#endif57tmp.magic = tmp2.magic = s.magic = e.magic = WORD(0);58kr.magic = k.magic = r.magic = WORD(0);59kG.magic = WORD(0);6061/*62* First, verify context has been initialized and private63* part too. This guarantees the context is an EC-GDSA64* signature one and we do not finalize() before init().65*/66ret = sig_sign_check_initialized(ctx); EG(ret, err);67ECGDSA_SIGN_CHECK_INITIALIZED(&(ctx->sign_data.ecgdsa), ret, err);68MUST_HAVE((sig != NULL) && (input != NULL), ret, err);6970/* Zero init points */71ret = local_memset(&kG, 0, sizeof(prj_pt)); EG(ret, err);7273/* Make things more readable */74priv_key = &(ctx->key_pair->priv_key);75G = &(priv_key->params->ec_gen);76q = &(priv_key->params->ec_gen_order);77x = &(priv_key->x);78q_bit_len = priv_key->params->ec_gen_order_bitlen;79p_bit_len = priv_key->params->ec_fp.p_bitlen;80MUST_HAVE(((u32)BYTECEIL(p_bit_len) <= NN_MAX_BYTE_LEN), ret, err);81r_len = (u8)ECGDSA_R_LEN(q_bit_len);82s_len = (u8)ECGDSA_S_LEN(q_bit_len);83hsize = inputlen;8485MUST_HAVE((siglen == ECGDSA_SIGLEN(q_bit_len)), ret, err);8687dbg_nn_print("p", &(priv_key->params->ec_fp.p));88dbg_nn_print("q", q);89dbg_priv_key_print("x", priv_key);90dbg_ec_point_print("G", G);91dbg_pub_key_print("Y", &(ctx->key_pair->pub_key));9293/* 1. Compute h = H(m) */94/* NOTE: here we have raw ECGDSA, this is the raw input */95/* NOTE: the MUST_HAVE is protected by a preprocessing check96* to avoid -Werror=type-limits errors:97* "error: comparison is always true due to limited range of data type"98*/99#if LOCAL_MIN(255, BIT_LEN_WORDS(NN_MAX_BIT_LEN) * (WORDSIZE / 8)) < 255100MUST_HAVE(((u32)inputlen <= sizeof(e_buf)), ret, err);101#endif102ret = local_memset(e_buf, 0, sizeof(e_buf)); EG(ret, err);103ret = local_memcpy(e_buf, input, hsize); EG(ret, err);104dbg_buf_print("H(m)", e_buf, hsize);105106/*107* If |h| > bitlen(q), set h to bitlen(q)108* leftmost bits of h.109*110*/111rshift = 0;112if ((hsize * 8) > q_bit_len) {113rshift = (bitcnt_t)((hsize * 8) - q_bit_len);114}115ret = nn_init_from_buf(&tmp, e_buf, hsize); EG(ret, err);116ret = local_memset(e_buf, 0, hsize); EG(ret, err);117if (rshift) {118ret = nn_rshift_fixedlen(&tmp, &tmp, rshift); EG(ret, err);119}120dbg_nn_print("H(m) truncated as nn", &tmp);121122/*123* 2. Convert h to an integer and then compute e = -h mod q,124* i.e. compute e = - OS2I(h) mod q125*126* Because we only support positive integers, we compute127* e = q - (h mod q) (except when h is 0).128*/129ret = nn_mod(&tmp2, &tmp, q); EG(ret, err);130ret = nn_mod_neg(&e, &tmp2, q); EG(ret, err);131132/*133NOTE: the restart label is removed in CRYPTOFUZZ mode as134we trigger MUST_HAVE instead of restarting in this mode.135restart:136*/137/* 3. Get a random value k in ]0,q[ */138/* NOTE: copy our input nonce if not NULL */139if(nonce != NULL){140MUST_HAVE((noncelen <= (u8)(BYTECEIL(q_bit_len))), ret, err);141ret = nn_init_from_buf(&k, nonce, noncelen); EG(ret, err);142}143else{144ret = ctx->rand(&k, q); EG(ret, err);145}146147#ifdef USE_SIG_BLINDING148/* Note: if we use blinding, e and e are multiplied by149* a random value b in ]0,q[ */150ret = nn_get_random_mod(&b, q); EG(ret, err);151dbg_nn_print("b", &b);152#endif /* USE_SIG_BLINDING */153154155/* 4. Compute W = kG = (Wx, Wy) */156#ifdef USE_SIG_BLINDING157/* We use blinding for the scalar multiplication */158ret = prj_pt_mul_blind(&kG, &k, G); EG(ret, err);159#else160ret = prj_pt_mul(&kG, &k, G); EG(ret, err);161#endif /* USE_SIG_BLINDING */162ret = prj_pt_unique(&kG, &kG); EG(ret, err);163164dbg_nn_print("W_x", &(kG.X.fp_val));165dbg_nn_print("W_y", &(kG.Y.fp_val));166167/* 5. Compute r = Wx mod q */168ret = nn_mod(&r, &(kG.X.fp_val), q); EG(ret, err);169dbg_nn_print("r", &r);170171/* 6. If r is 0, restart the process at step 4. */172/* NOTE: for the CRYPTOFUZZ mode, we do not restart173* the procedure but throw an assert exception instead.174*/175ret = nn_iszero(&r, &iszero); EG(ret, err);176MUST_HAVE((!iszero), ret, err);177178/* Export r */179ret = nn_export_to_buf(sig, r_len, &r); EG(ret, err);180181#ifdef USE_SIG_BLINDING182/* Blind e and r with b */183ret = nn_mod_mul(&e, &e, &b, q); EG(ret, err);184ret = nn_mod_mul(&r, &r, &b, q); EG(ret, err);185#endif /* USE_SIG_BLINDING */186/* 7. Compute s = x(kr + e) mod q */187ret = nn_mod_mul(&kr, &k, &r, q); EG(ret, err);188ret = nn_mod_add(&tmp2, &kr, &e, q); EG(ret, err);189ret = nn_mod_mul(&s, x, &tmp2, q); EG(ret, err);190#ifdef USE_SIG_BLINDING191/* Unblind s */192/* NOTE: we use Fermat's little theorem inversion for193* constant time here. This is possible since q is prime.194*/195ret = nn_modinv_fermat(&binv, &b, q); EG(ret, err);196ret = nn_mod_mul(&s, &s, &binv, q); EG(ret, err);197#endif198dbg_nn_print("s", &s);199200/* 8. If s is 0, restart the process at step 4. */201/* NOTE: for the CRYPTOFUZZ mode, we do not restart202* the procedure but throw an assert exception instead.203*/204ret = nn_iszero(&s, &iszero); EG(ret, err);205MUST_HAVE((!iszero), ret, err);206207/* 9. Return (r,s) */208ret = nn_export_to_buf(sig + r_len, s_len, &s);209210err:211nn_uninit(&r);212nn_uninit(&s);213nn_uninit(&tmp2);214nn_uninit(&tmp);215nn_uninit(&e);216nn_uninit(&kr);217nn_uninit(&k);218219prj_pt_uninit(&kG);220221/*222* We can now clear data part of the context. This will clear223* magic and avoid further reuse of the whole context.224*/225if(ctx != NULL){226IGNORE_RET_VAL(local_memset(&(ctx->sign_data.ecgdsa), 0, sizeof(ecgdsa_sign_data)));227}228229/* Clean what remains on the stack */230VAR_ZEROIFY(q_bit_len);231VAR_ZEROIFY(p_bit_len);232VAR_ZEROIFY(r_len);233VAR_ZEROIFY(s_len);234VAR_ZEROIFY(hsize);235PTR_NULLIFY(q);236PTR_NULLIFY(x);237PTR_NULLIFY(priv_key);238PTR_NULLIFY(G);239240#ifdef USE_SIG_BLINDING241nn_uninit(&b);242nn_uninit(&binv);243#endif /* USE_SIG_BLINDING */244245return ret;246}247248/******************************/249#define ECGDSA_VERIFY_MAGIC ((word_t)(0xd4da37527288d1b6ULL))250#define ECGDSA_VERIFY_CHECK_INITIALIZED(A, ret, err) \251MUST_HAVE((((const void *)(A)) != NULL) && \252((A)->magic == ECGDSA_VERIFY_MAGIC), ret, err)253254int ecgdsa_verify_raw(struct ec_verify_context *ctx, const u8 *input, u8 inputlen)255{256nn tmp, e, r_prime, rinv, uv, *r, *s;257prj_pt uG, vY;258prj_pt_t Wprime;259prj_pt_src_t G, Y;260/* NOTE: hash here is not really a hash ... */261u8 e_buf[LOCAL_MIN(255, BIT_LEN_WORDS(NN_MAX_BIT_LEN) * (WORDSIZE / 8))];262nn_src_t q;263u8 hsize;264bitcnt_t q_bit_len, rshift;265int ret, cmp;266267tmp.magic = e.magic = r_prime.magic = rinv.magic = uv.magic = WORD(0);268uG.magic = vY.magic = WORD(0);269270/* NOTE: we reuse uG for Wprime to optimize local variables */271Wprime = &uG;272273/*274* First, verify context has been initialized and public275* part too. This guarantees the context is an EC-GDSA276* verification one and we do not finalize() before init().277*/278ret = sig_verify_check_initialized(ctx); EG(ret, err);279ECGDSA_VERIFY_CHECK_INITIALIZED(&(ctx->verify_data.ecgdsa), ret, err);280MUST_HAVE((input != NULL), ret, err);281282/* Zero init points */283ret = local_memset(&uG, 0, sizeof(prj_pt)); EG(ret, err);284ret = local_memset(&vY, 0, sizeof(prj_pt)); EG(ret, err);285286/* Make things more readable */287G = &(ctx->pub_key->params->ec_gen);288Y = &(ctx->pub_key->y);289q = &(ctx->pub_key->params->ec_gen_order);290r = &(ctx->verify_data.ecgdsa.r);291s = &(ctx->verify_data.ecgdsa.s);292q_bit_len = ctx->pub_key->params->ec_gen_order_bitlen;293hsize = inputlen;294295/* 2. Compute h = H(m) */296/* NOTE: here we have raw ECGDSA, this is the raw input */297MUST_HAVE((input != NULL), ret, err);298/* NOTE: the MUST_HAVE is protected by a preprocessing check299* to avoid -Werror=type-limits errors:300* "error: comparison is always true due to limited range of data type"301*/302#if LOCAL_MIN(255, BIT_LEN_WORDS(NN_MAX_BIT_LEN) * (WORDSIZE / 8)) < 255303MUST_HAVE(((u32)inputlen <= sizeof(e_buf)), ret, err);304#endif305306ret = local_memset(e_buf, 0, sizeof(e_buf)); EG(ret, err);307ret = local_memcpy(e_buf, input, hsize); EG(ret, err);308dbg_buf_print("H(m)", e_buf, hsize);309310/*311* If |h| > bitlen(q), set h to bitlen(q)312* leftmost bits of h.313*314*/315rshift = 0;316if ((hsize * 8) > q_bit_len) {317rshift = (bitcnt_t)((hsize * 8) - q_bit_len);318}319ret = nn_init_from_buf(&tmp, e_buf, hsize); EG(ret, err);320ret = local_memset(e_buf, 0, hsize); EG(ret, err);321if (rshift) {322ret = nn_rshift_fixedlen(&tmp, &tmp, rshift); EG(ret, err);323}324dbg_nn_print("H(m) truncated as nn", &tmp);325326/* 3. Compute e by converting h to an integer and reducing it mod q */327ret = nn_mod(&e, &tmp, q); EG(ret, err);328329/* 4. Compute u = (r^-1)e mod q */330ret = nn_modinv(&rinv, r, q); EG(ret, err); /* r^-1 */331ret = nn_mul(&tmp, &rinv, &e); EG(ret, err); /* r^-1 * e */332ret = nn_mod(&uv, &tmp, q); EG(ret, err); /* (r^-1 * e) mod q */333ret = prj_pt_mul(&uG, &uv, G); EG(ret, err);334335/* 5. Compute v = (r^-1)s mod q */336ret = nn_mul(&tmp, &rinv, s); EG(ret, err); /* r^-1 * s */337ret = nn_mod(&uv, &tmp, q); EG(ret, err); /* (r^-1 * s) mod q */338ret = prj_pt_mul(&vY, &uv, Y); EG(ret, err);339340/* 6. Compute W' = uG + vY */341ret = prj_pt_add(Wprime, &uG, &vY); EG(ret, err);342343/* 7. Compute r' = W'_x mod q */344ret = prj_pt_unique(Wprime, Wprime); EG(ret, err);345dbg_nn_print("W'_x", &(Wprime->X.fp_val));346dbg_nn_print("W'_y", &(Wprime->Y.fp_val));347ret = nn_mod(&r_prime, &(Wprime->X.fp_val), q); EG(ret, err);348349/* 8. Accept the signature if and only if r equals r' */350ret = nn_cmp(r, &r_prime, &cmp); EG(ret, err);351ret = (cmp != 0) ? -1 : 0;352353err:354nn_uninit(&r_prime);355nn_uninit(&e);356nn_uninit(&uv);357nn_uninit(&tmp);358nn_uninit(&rinv);359360prj_pt_uninit(&uG);361prj_pt_uninit(&vY);362363/*364* We can now clear data part of the context. This will clear365* magic and avoid further reuse of the whole context.366*/367if(ctx != NULL){368IGNORE_RET_VAL(local_memset(&(ctx->verify_data.ecgdsa), 0,369sizeof(ecgdsa_verify_data)));370}371372PTR_NULLIFY(Wprime);373PTR_NULLIFY(r);374PTR_NULLIFY(s);375PTR_NULLIFY(G);376PTR_NULLIFY(Y);377PTR_NULLIFY(q);378VAR_ZEROIFY(hsize);379380return ret;381}382383384#else /* WITH_SIG_ECGDSA && USE_CRYPTOFUZZ */385386/*387* Dummy definition to avoid the empty translation unit ISO C warning388*/389typedef int dummy;390#endif /* WITH_SIG_ECGDSA */391392393