int rsa_private_key_from_der_iterator(struct rsa_public_key *pub, struct rsa_private_key *priv, unsigned limit, struct asn1_der_iterator *i) { /* RSAPrivateKey ::= SEQUENCE { version Version, modulus INTEGER, -- n publicExponent INTEGER, -- e privateExponent INTEGER, -- d prime1 INTEGER, -- p prime2 INTEGER, -- q exponent1 INTEGER, -- d mod (p-1) exponent2 INTEGER, -- d mod (q-1) coefficient INTEGER, -- (inverse of q) mod p otherPrimeInfos OtherPrimeInfos OPTIONAL } */ uint32_t version; if (i->type != ASN1_SEQUENCE) return 0; if (asn1_der_decode_constructed_last(i) == ASN1_ITERATOR_PRIMITIVE && i->type == ASN1_INTEGER && asn1_der_get_uint32(i, &version) && version <= 1 && GET(i, pub->n, limit) && GET(i, pub->e, limit) && rsa_public_key_prepare(pub) && GET(i, priv->d, limit) && GET(i, priv->p, limit) && GET(i, priv->q, limit) && GET(i, priv->a, limit) && GET(i, priv->b, limit) && GET(i, priv->c, limit) && rsa_private_key_prepare(priv)) { if (version == 1) { /* otherPrimeInfos must be present. We ignore the contents */ if (!(asn1_der_iterator_next(i) == ASN1_ITERATOR_CONSTRUCTED && i->type == ASN1_SEQUENCE)) return 0; } return (asn1_der_iterator_next(i) == ASN1_ITERATOR_END); } return 0; }
int rsa_public_key_from_der_iterator(struct rsa_public_key *pub, unsigned limit, struct asn1_der_iterator *i) { /* RSAPublicKey ::= SEQUENCE { modulus INTEGER, -- n publicExponent INTEGER -- e } */ return (i->type == ASN1_SEQUENCE && asn1_der_decode_constructed_last(i) == ASN1_ITERATOR_PRIMITIVE && asn1_der_get_bignum(i, pub->n, limit) && mpz_sgn(pub->n) > 0 && GET(i, pub->e, limit) && asn1_der_iterator_next(i) == ASN1_ITERATOR_END && rsa_public_key_prepare(pub)); }
/* Returns 1 on success, 0 on error, and -1 for unsupported algorithms. */ static int convert_public_key(struct nettle_buffer *buffer, unsigned length, const uint8_t *data) { /* SubjectPublicKeyInfo ::= SEQUENCE { algorithm AlgorithmIdentifier, subjectPublicKey BIT STRING } AlgorithmIdentifier ::= SEQUENCE { algorithm OBJECT IDENTIFIER, parameters OPTIONAL } */ struct asn1_der_iterator i; struct asn1_der_iterator j; int res = 0; if (asn1_der_iterator_first(&i, length, data) == ASN1_ITERATOR_CONSTRUCTED && i.type == ASN1_SEQUENCE && asn1_der_decode_constructed_last(&i) == ASN1_ITERATOR_CONSTRUCTED && i.type == ASN1_SEQUENCE /* Use the j iterator to parse the algorithm identifier */ && asn1_der_decode_constructed(&i, &j) == ASN1_ITERATOR_PRIMITIVE && j.type == ASN1_IDENTIFIER && asn1_der_iterator_next(&i) == ASN1_ITERATOR_PRIMITIVE && i.type == ASN1_BITSTRING /* Use i to parse the object wrapped in the bit string.*/ && asn1_der_decode_bitstring_last(&i)) { /* pkcs-1 { iso(1) member-body(2) us(840) rsadsi(113549) pkcs(1) pkcs-1(1) modules(0) pkcs-1(1) } -- -- When rsaEncryption is used in an AlgorithmIdentifier the -- parameters MUST be present and MUST be NULL. -- rsaEncryption OBJECT IDENTIFIER ::= { pkcs-1 1 } */ static const uint8_t id_rsaEncryption[9] = { 0x2A, 0x86, 0x48, 0x86, 0xF7, 0x0D, 0x01, 0x01, 0x01 }; /* -- -- When dsa is used in an AlgorithmIdentifier the -- parameters MUST be present and MUST NOT be NULL. -- dsa OBJECT IDENTIFIER ::= { iso(1) member-body(2) us(840) x9-57(10040) x9algorithm(4) 1 } */ static const uint8_t id_dsa[7] = { 0x2A, 0x86, 0x48, 0xCE, 0x38, 0x04, 0x01 }; switch (j.length) { unknown: default: werror("SubjectPublicKeyInfo: Unsupported algorithm.\n"); res = -1; break; case 7: if (memcmp(j.data, id_dsa, 7) == 0) { if (asn1_der_iterator_next(&j) == ASN1_ITERATOR_CONSTRUCTED && asn1_der_decode_constructed_last(&j) == ASN1_ITERATOR_PRIMITIVE) { struct dsa_public_key pub; dsa_public_key_init(&pub); if (dsa_params_from_der_iterator(&pub, 0, &i) && dsa_public_key_from_der_iterator(&pub, 0, &j)) { nettle_buffer_reset(buffer); res = dsa_keypair_to_sexp(buffer, NULL, &pub, NULL) > 0; } } if (!res) werror("SubjectPublicKeyInfo: Invalid DSA key.\n"); break; } else goto unknown; case 9: if (memcmp(j.data, id_rsaEncryption, 9) == 0) { if (asn1_der_iterator_next(&j) == ASN1_ITERATOR_PRIMITIVE && j.type == ASN1_NULL && j.length == 0 && asn1_der_iterator_next(&j) == ASN1_ITERATOR_END) { struct rsa_public_key pub; rsa_public_key_init(&pub); if (rsa_public_key_from_der_iterator(&pub, 0, &i)) { nettle_buffer_reset(buffer); res = rsa_keypair_to_sexp(buffer, NULL, &pub, NULL) > 0; } } if (!res) werror("SubjectPublicKeyInfo: Invalid RSA key.\n"); break; } else goto unknown; } } else werror("SubjectPublicKeyInfo: Invalid object.\n"); return res; }