📄 rsa.c
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#include "mycrypt.h"#ifdef MRSAint rsa_make_key(prng_state *prng, int wprng, int size, long e, rsa_key *key){ mp_int p, q, tmp1, tmp2, tmp3; int res, errno; _ARGCHK(key != NULL); if ((size < (1024/8)) || (size > (4096/8))) { return CRYPT_INVALID_KEYSIZE; } if ((e < 3) || (!(e & 1))) { return CRYPT_INVALID_ARG; } if ((errno = prng_is_valid(wprng)) != CRYPT_OK) { return errno; } if (mp_init_multi(&p, &q, &tmp1, &tmp2, &tmp3, NULL) != MP_OKAY) { return CRYPT_MEM; } /* make primes p and q (optimization provided by Wayne Scott) */ if (mp_set_int(&tmp3, e) != MP_OKAY) { goto error; } /* tmp3 = e */ /* make prime "p" */ do { if (rand_prime(&p, size/2, prng, wprng) != CRYPT_OK) { res = CRYPT_ERROR; goto done; } if (mp_sub_d(&p, 1, &tmp1) != MP_OKAY) { goto error; } /* tmp1 = p-1 */ if (mp_gcd(&tmp1, &tmp3, &tmp2) != MP_OKAY) { goto error; } /* tmp2 = gcd(p-1, e) */ } while (mp_cmp_d(&tmp2, 1) != 0); /* make prime "q" */ do { if (rand_prime(&q, size/2, prng, wprng) != CRYPT_OK) { res = CRYPT_ERROR; goto done; } if (mp_sub_d(&q, 1, &tmp1) != MP_OKAY) { goto error; } /* tmp1 = q-1 */ if (mp_gcd(&tmp1, &tmp3, &tmp2) != MP_OKAY) { goto error; } /* tmp2 = gcd(q-1, e) */ } while (mp_cmp_d(&tmp2, 1) != 0); /* tmp1 = lcm(p-1, q-1) */ if (mp_sub_d(&p, 1, &tmp2) != MP_OKAY) { goto error; } /* tmp2 = p-1 */ /* tmp1 = q-1 (previous do/while loop) */ if (mp_lcm(&tmp1, &tmp2, &tmp1) != MP_OKAY) { goto error; } /* tmp1 = lcm(p-1, q-1) */ /* make key */ if (mp_init_multi(&key->e, &key->d, &key->N, &key->dQ, &key->dP, &key->qP, &key->pQ, &key->p, &key->q, NULL) != MP_OKAY) { goto error; } mp_set_int(&key->e, e); /* key->e = e */ if (mp_invmod(&key->e, &tmp1, &key->d) != MP_OKAY) goto error2; /* key->d = 1/e mod lcm(p-1,q-1) */ if (mp_mul(&p, &q, &key->N) != MP_OKAY) goto error2; /* key->N = pq *//* optimize for CRT now */ /* find d mod q-1 and d mod p-1 */ if (mp_sub_d(&p, 1, &tmp1) != MP_OKAY) { goto error2; } /* tmp1 = q-1 */ if (mp_sub_d(&q, 1, &tmp2) != MP_OKAY) { goto error2; } /* tmp2 = p-1 */ if (mp_mod(&key->d, &tmp1, &key->dP) != MP_OKAY) { goto error2; } /* dP = d mod p-1 */ if (mp_mod(&key->d, &tmp2, &key->dQ) != MP_OKAY) { goto error2; } /* dQ = d mod q-1 */ if (mp_invmod(&q, &p, &key->qP) != MP_OKAY) { goto error2; } /* qP = 1/q mod p */ if (mp_mulmod(&key->qP, &q, &key->N, &key->qP)) { goto error2; } /* qP = q * (1/q mod p) mod N */ if (mp_invmod(&p, &q, &key->pQ) != MP_OKAY) { goto error2; } /* pQ = 1/p mod q */ if (mp_mulmod(&key->pQ, &p, &key->N, &key->pQ)) { goto error2; } /* pQ = p * (1/p mod q) mod N */ if (mp_copy(&p, &key->p) != MP_OKAY) { goto error2; } if (mp_copy(&q, &key->q) != MP_OKAY) { goto error2; } res = CRYPT_OK; key->type = PK_PRIVATE_OPTIMIZED; goto done;error2: mp_clear_multi(&key->d, &key->e, &key->N, &key->dQ, &key->dP, &key->qP, &key->pQ, &key->p, &key->q, NULL);error: res = CRYPT_MEM;done: mp_clear_multi(&tmp3, &tmp2, &tmp1, &p, &q, NULL); return res;}void rsa_free(rsa_key *key){ _ARGCHK(key != NULL); mp_clear_multi(&key->e, &key->d, &key->N, &key->dQ, &key->dP, &key->qP, &key->pQ, &key->p, &key->q, NULL);}int rsa_exptmod(const unsigned char *in, unsigned long inlen, unsigned char *out, unsigned long *outlen, int which, rsa_key *key){ mp_int tmp, tmpa, tmpb; unsigned long x; int res; _ARGCHK(in != NULL); _ARGCHK(out != NULL); _ARGCHK(outlen != NULL); _ARGCHK(key != NULL); if (which == PK_PRIVATE && (key->type != PK_PRIVATE && key->type != PK_PRIVATE_OPTIMIZED)) { return CRYPT_PK_NOT_PRIVATE; } /* init and copy into tmp */ if (mp_init_multi(&tmp, &tmpa, &tmpb, NULL) != MP_OKAY) { goto error; } if (mp_read_unsigned_bin(&tmp, (unsigned char *)in, inlen) != MP_OKAY) { goto error; } /* sanity check on the input */ if (mp_cmp(&key->N, &tmp) == MP_LT) { res = CRYPT_PK_INVALID_SIZE; goto done; } /* are we using the private exponent and is the key optimized? */ if (which == PK_PRIVATE && key->type == PK_PRIVATE_OPTIMIZED) { /* tmpa = tmp^dP mod p */ if (mp_exptmod(&tmp, &key->dP, &key->p, &tmpa) != MP_OKAY) { goto error; } /* tmpb = tmp^dQ mod q */ if (mp_exptmod(&tmp, &key->dQ, &key->q, &tmpb) != MP_OKAY) { goto error; } /* tmp = tmpa*qP + tmpb*pQ mod N */ if (mp_mul(&tmpa, &key->qP, &tmpa) != MP_OKAY) { goto error; } if (mp_mul(&tmpb, &key->pQ, &tmpb) != MP_OKAY) { goto error; } if (mp_addmod(&tmpa, &tmpb, &key->N, &tmp) != MP_OKAY) { goto error; } } else { /* exptmod it */ if (mp_exptmod(&tmp, which==PK_PRIVATE?&key->d:&key->e, &key->N, &tmp) != MP_OKAY) { goto error; } } /* read it back */ x = mp_raw_size(&tmp)-1; if (x > *outlen) { res = CRYPT_BUFFER_OVERFLOW; goto done; } *outlen = x; /* convert it */ mp_to_unsigned_bin(&tmp, out); /* clean up and return */ res = CRYPT_OK; goto done;error: res = CRYPT_MEM;done: mp_clear_multi(&tmp, &tmpa, &tmpb, NULL); return res;}int rsa_signpad(const unsigned char *in, unsigned long inlen, unsigned char *out, unsigned long *outlen){ unsigned long x, y; _ARGCHK(in != NULL); _ARGCHK(out != NULL); _ARGCHK(outlen != NULL); if (*outlen < (3 * inlen)) { return CRYPT_BUFFER_OVERFLOW; } /* check inlen */ if ((inlen <= 0) || inlen > 512) { return CRYPT_PK_INVALID_SIZE; } for (y = x = 0; x < inlen; x++) out[y++] = 0xFF; for (x = 0; x < inlen; x++) out[y++] = in[x]; for (x = 0; x < inlen; x++) out[y++] = 0xFF; *outlen = 3 * inlen; return CRYPT_OK;}int rsa_pad(const unsigned char *in, unsigned long inlen, unsigned char *out, unsigned long *outlen, int wprng, prng_state *prng){ unsigned char buf[2048]; unsigned long x; int errno; _ARGCHK(in != NULL); _ARGCHK(out != NULL); _ARGCHK(outlen != NULL); /* is output big enough? */ if (*outlen < (3 * inlen)) { return CRYPT_BUFFER_OVERFLOW; } /* get random padding required */ if ((errno = prng_is_valid(wprng)) != CRYPT_OK) { return errno; } /* check inlen */ if ((inlen <= 0) || inlen > 512) { return CRYPT_PK_INVALID_SIZE; } if (prng_descriptor[wprng].read(buf, inlen*2-2, prng) != (inlen*2 - 2)) { return CRYPT_ERROR_READPRNG; } /* pad it like a sandwitch (sp?) * * Looks like 0xFF R1 M R2 0xFF * * Where R1/R2 are random and exactly equal to the length of M minus one byte. */ for (x = 0; x < inlen-1; x++) { out[x+1] = buf[x]; } for (x = 0; x < inlen; x++) { out[x+inlen] = in[x]; } for (x = 0; x < inlen-1; x++) { out[x+inlen+inlen] = buf[x+inlen-1]; } /* last and first bytes are 0xFF */ out[0] = 0xFF; out[inlen+inlen+inlen-1] = 0xFF; /* clear up and return */#ifdef CLEAN_STACK zeromem(buf, sizeof(buf));#endif *outlen = inlen*3; return CRYPT_OK;}int rsa_signdepad(const unsigned char *in, unsigned long inlen, unsigned char *out, unsigned long *outlen){ unsigned long x; _ARGCHK(in != NULL); _ARGCHK(out != NULL); _ARGCHK(outlen != NULL); if (*outlen < inlen/3) { return CRYPT_BUFFER_OVERFLOW; } /* check padding bytes */ for (x = 0; x < inlen/3; x++) { if (in[x] != 0xFF || in[x+(inlen/3)+(inlen/3)] != 0xFF) { return CRYPT_INVALID_PACKET; } } for (x = 0; x < inlen/3; x++) out[x] = in[x+(inlen/3)]; *outlen = inlen/3; return CRYPT_OK;}int rsa_depad(const unsigned char *in, unsigned long inlen, unsigned char *out, unsigned long *outlen){ unsigned long x; _ARGCHK(in != NULL); _ARGCHK(out != NULL); _ARGCHK(outlen != NULL); if (*outlen < inlen/3) { return CRYPT_BUFFER_OVERFLOW; } for (x = 0; x < inlen/3; x++) out[x] = in[x+(inlen/3)]; *outlen = inlen/3; return CRYPT_OK;}#define OUTPUT_BIGNUM(num, buf2, y, z) \{ \ z = mp_raw_size(num); \ STORE32L(z, buf2+y); \ y += 4; \ mp_toraw(num, buf2+y); \ y += z; \}#define INPUT_BIGNUM(num, in, x, y) \{ \ /* load value */ \ LOAD32L(x, in+y); \ y += 4; \ \ /* sanity check... */ \ if (x > 1024) { \ goto error2; \ } \ \ /* load it */ \ if (mp_read_raw(num, (unsigned char *)in+y, x) != MP_OKAY) {\ goto error2; \ } \ y += x; \}int rsa_export(unsigned char *out, unsigned long *outlen, int type, rsa_key *key){ unsigned char buf2[5120]; unsigned long y, z; _ARGCHK(out != NULL); _ARGCHK(outlen != NULL); _ARGCHK(key != NULL); /* type valid? */ if (!(key->type == PK_PRIVATE || key->type == PK_PRIVATE_OPTIMIZED) && (type == PK_PRIVATE || type == PK_PRIVATE_OPTIMIZED)) { return CRYPT_PK_INVALID_TYPE; } /* start at offset y=PACKET_SIZE */ y = PACKET_SIZE; /* output key type */ buf2[y++] = type; /* output modulus */ OUTPUT_BIGNUM(&key->N, buf2, y, z); /* output public key */ OUTPUT_BIGNUM(&key->e, buf2, y, z); if (type == PK_PRIVATE || type == PK_PRIVATE_OPTIMIZED) { OUTPUT_BIGNUM(&key->d, buf2, y, z); } if (type == PK_PRIVATE_OPTIMIZED) { OUTPUT_BIGNUM(&key->dQ, buf2, y, z); OUTPUT_BIGNUM(&key->dP, buf2, y, z); OUTPUT_BIGNUM(&key->pQ, buf2, y, z); OUTPUT_BIGNUM(&key->qP, buf2, y, z); OUTPUT_BIGNUM(&key->p, buf2, y, z); OUTPUT_BIGNUM(&key->q, buf2, y, z); } /* check size */ if (*outlen < y) { return CRYPT_BUFFER_OVERFLOW; } /* store packet header */ packet_store_header(buf2, PACKET_SECT_RSA, PACKET_SUB_KEY, y); /* copy to the user buffer */ memcpy(out, buf2, y); *outlen = y; /* clear stack and return */#ifdef CLEAN_STACK zeromem(buf2, sizeof(buf2));#endif return CRYPT_OK;}int rsa_import(const unsigned char *in, rsa_key *key){ unsigned long x, y; int errno; _ARGCHK(in != NULL); _ARGCHK(key != NULL); /* test packet header */ if ((errno = packet_valid_header((unsigned char *)in, PACKET_SECT_RSA, PACKET_SUB_KEY)) != CRYPT_OK) { return errno; } /* init key */ if (mp_init_multi(&key->e, &key->d, &key->N, &key->dQ, &key->dP, &key->qP, &key->pQ, &key->p, &key->q, NULL) != MP_OKAY) { return CRYPT_MEM; } /* get key type */ y = PACKET_SIZE; key->type = in[y++]; /* load the modulus */ INPUT_BIGNUM(&key->N, in, x, y); /* load public exponent */ INPUT_BIGNUM(&key->e, in, x, y); /* get private exponent */ if (key->type == PK_PRIVATE || key->type == PK_PRIVATE_OPTIMIZED) { INPUT_BIGNUM(&key->d, in, x, y); } /* get CRT private data if required */ if (key->type == PK_PRIVATE_OPTIMIZED) { INPUT_BIGNUM(&key->dQ, in, x, y); INPUT_BIGNUM(&key->dP, in, x, y); INPUT_BIGNUM(&key->pQ, in, x, y); INPUT_BIGNUM(&key->qP, in, x, y); INPUT_BIGNUM(&key->p, in, x, y); INPUT_BIGNUM(&key->q, in, x, y); } return CRYPT_OK;error2: mp_clear_multi(&key->d, &key->e, &key->N, &key->dQ, &key->dP, &key->pQ, &key->qP, &key->p, &key->q, NULL); return CRYPT_MEM;}#include "rsa_sys.c"#endif /* RSA */⌨️ 快捷键说明
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