/* * Copyright (c) 2021 - 2021 The GmSSL Project. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in * the documentation and/or other materials provided with the * distribution. * * 3. All advertising materials mentioning features or use of this * software must display the following acknowledgment: * "This product includes software developed by the GmSSL Project. * (http://gmssl.org/)" * * 4. The name "GmSSL Project" must not be used to endorse or promote * products derived from this software without prior written * permission. For written permission, please contact * guanzhi1980@gmail.com. * * 5. Products derived from this software may not be called "GmSSL" * nor may "GmSSL" appear in their names without prior written * permission of the GmSSL Project. * * 6. Redistributions of any form whatsoever must retain the following * acknowledgment: * "This product includes software developed by the GmSSL Project * (http://gmssl.org/)" * * THIS SOFTWARE IS PROVIDED BY THE GmSSL PROJECT ``AS IS'' AND ANY * EXPRESSED OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE GmSSL PROJECT OR * ITS CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, * STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED * OF THE POSSIBILITY OF SUCH DAMAGE. */ #include #include #include #include #include #include #define oid_x9_62 1,2,840,10045 static uint32_t oid_sm3[] = { 1,2,156,10197,1,401 }; static uint32_t oid_md5[] = { 1,2,840,113549,2,5 }; static uint32_t oid_sha1[] = { 1,3,14,3,2,26 }; static uint32_t oid_sha256[] = { 2,16,840,1,101,3,4,2,1 }; static uint32_t oid_sha384[] = { 2,16,840,1,101,3,4,2,2 }; static uint32_t oid_sha512[] = { 2,16,840,1,101,3,4,2,3 }; static uint32_t oid_sha224[] = { 2,16,840,1,101,3,4,2,4 }; static const ASN1_OID_INFO x509_digest_algors[] = { { OID_sm3, "sm3", oid_sm3, sizeof(oid_sm3)/sizeof(int) }, { OID_md5, "md5", oid_md5, sizeof(oid_md5)/sizeof(int) }, { OID_sha1, "sha1", oid_sha1, sizeof(oid_sha1)/sizeof(int) }, { OID_sha224, "sha224", oid_sha224, sizeof(oid_sha224)/sizeof(int) }, { OID_sha256, "sha256", oid_sha256, sizeof(oid_sha256)/sizeof(int) }, { OID_sha384, "sha384", oid_sha384, sizeof(oid_sha384)/sizeof(int) }, { OID_sha512, "sha512", oid_sha512, sizeof(oid_sha512)/sizeof(int) }, }; static const int x509_digest_algors_count = sizeof(x509_digest_algors)/sizeof(x509_digest_algors[0]); const char *x509_digest_algor_name(int oid) { const ASN1_OID_INFO *info; if (!(info = asn1_oid_info_from_oid(x509_digest_algors, x509_digest_algors_count, oid))) { error_print(); return NULL; } return info->name; } int x509_digest_algor_from_name(const char *name) { const ASN1_OID_INFO *info; if (!(info = asn1_oid_info_from_name(x509_digest_algors, x509_digest_algors_count, name))) { error_print(); return OID_undef; } return info->oid; } int x509_digest_algor_to_der(int oid, uint8_t **out, size_t *outlen) { const ASN1_OID_INFO *info; size_t len = 0; if (!(info = asn1_oid_info_from_oid(x509_digest_algors, x509_digest_algors_count, oid))) { error_print(); return -1; } if (asn1_object_identifier_to_der(info->nodes, info->nodes_cnt, NULL, &len) != 1 || asn1_sequence_header_to_der(len, out, outlen) != 1 || asn1_object_identifier_to_der(info->nodes, info->nodes_cnt, out, outlen) != 1) { error_print(); return -1; } return 1; } int x509_digest_algor_from_der(int *oid, const uint8_t **in, size_t *inlen) { int ret; const uint8_t *p; size_t len; const ASN1_OID_INFO *info; *oid = 0; if ((ret = asn1_sequence_from_der(&p, &len, in, inlen)) != 1) { if (ret < 0) error_print(); return ret; } if ((ret = asn1_oid_info_from_der(&info, x509_digest_algors, x509_digest_algors_count, &p, &len)) != 1 || asn1_length_is_zero(len) != 1) { error_print(); return ret; } *oid = info->oid; return 1; } int x509_digest_algor_print(FILE *fp, int fmt, int ind, const char *label, const uint8_t *d, size_t dlen) { const ASN1_OID_INFO *info; format_print(fp, fmt, ind, "%s\n", label); ind += 4; if (asn1_oid_info_from_der(&info, x509_digest_algors, x509_digest_algors_count, &d, &dlen) != 1) goto err; format_print(fp, fmt, ind, "algorithm: %s\n", info->name); if (asn1_length_is_zero(dlen) != 1) goto err; return 1; err: error_print(); return -1; } static uint32_t oid_sm4_cbc[] = { 1,2,156,10197,1,104,2 }; static uint32_t oid_aes128_cbc[] = { 2,16,840,1,101,3,4,1,2 }; static uint32_t oid_aes192_cbc[] = { 2,16,840,1,101,3,4,1,22 }; static uint32_t oid_aes256_cbc[] = { 2,16,840,1,101,3,4,1,42 }; static const ASN1_OID_INFO x509_enc_algors[] = { { OID_sm4_cbc, "sm4-cbc", oid_sm4_cbc, sizeof(oid_sm4_cbc)/sizeof(int) }, { OID_aes128_cbc, "aes128-cbc", oid_aes128_cbc, sizeof(oid_aes128_cbc)/sizeof(int) }, { OID_aes192_cbc, "aes192-cbc", oid_aes192_cbc, sizeof(oid_aes192_cbc)/sizeof(int) }, { OID_aes256_cbc, "aes256-cbc", oid_aes256_cbc, sizeof(oid_aes256_cbc)/sizeof(int) }, }; static const int x509_enc_algors_count = sizeof(x509_enc_algors)/sizeof(x509_enc_algors[0]); const char *x509_encryption_algor_name(int oid) { const ASN1_OID_INFO *info; if (!(info = asn1_oid_info_from_oid(x509_enc_algors, x509_enc_algors_count, oid))) { error_print(); return NULL; } return info->name; } int x509_encryption_algor_from_name(const char *name) { const ASN1_OID_INFO *info; if (!(info = asn1_oid_info_from_name(x509_enc_algors, x509_enc_algors_count, name))) { error_print(); return OID_undef; } return info->oid; } int x509_encryption_algor_to_der(int oid, const uint8_t *iv, size_t ivlen, uint8_t **out, size_t *outlen) { const ASN1_OID_INFO *info; size_t len = 0; if (!(info = asn1_oid_info_from_oid(x509_enc_algors, x509_enc_algors_count, oid))) { error_print(); return -1; } if (asn1_object_identifier_to_der(info->nodes, info->nodes_cnt, NULL, &len) != 1 || asn1_octet_string_to_der(iv, ivlen, NULL, &len) != 1 || asn1_sequence_header_to_der(len, out, outlen) != 1 || asn1_object_identifier_to_der(info->nodes, info->nodes_cnt, out, outlen) != 1 || asn1_octet_string_to_der(iv, ivlen, out, outlen) != 1) { error_print(); return -1; } return 1; } int x509_encryption_algor_from_der(int *oid, const uint8_t **iv, size_t *ivlen, const uint8_t **in, size_t *inlen) { int ret; const uint8_t *p; size_t len; const ASN1_OID_INFO *info; *oid = OID_undef; *iv = NULL; *ivlen = 0; if ((ret = asn1_sequence_from_der(&p, &len, in, inlen)) != 1) { if (ret < 0) error_print(); return ret; } if (asn1_oid_info_from_der(&info, x509_enc_algors, x509_enc_algors_count, &p, &len) != 1 || asn1_octet_string_from_der(iv, ivlen, &p, &len) != 1 || asn1_length_is_zero(len) != 1) { error_print(); return -1; } if (!(*iv) || *ivlen != 16) { error_print(); return -1; } *oid = info->oid; return 1; } int x509_encryption_algor_print(FILE *fp, int fmt, int ind, const char *label, const uint8_t *d, size_t dlen) { const ASN1_OID_INFO *info; const uint8_t *iv; size_t ivlen; format_print(fp, fmt, ind, "%s\n", label); ind += 4; if (asn1_oid_info_from_der(&info, x509_enc_algors, x509_enc_algors_count, &d, &dlen) != 1) goto err; format_print(fp, fmt, ind, "algorithm: %s\n", info->name); if (asn1_octet_string_from_der(&iv, &ivlen, &d, &dlen) != 1) goto err; format_bytes(fp, fmt, ind, "iv: ", iv, ivlen); if (asn1_length_is_zero(dlen) != 1) goto err; return 1; err: error_print(); return -1; } static uint32_t oid_sm2sign_with_sm3[] = { 1,2,156,10197,1,501 }; static uint32_t oid_rsasign_with_sm3[] = { 1,2,156,10197,1,504 }; static uint32_t oid_ecdsa_with_sha1[] = { 1,2,840,10045,4,1 }; static uint32_t oid_ecdsa_with_sha224[] = { 1,2,840,10045,4,3,1 }; static uint32_t oid_ecdsa_with_sha256[] = { 1,2,840,10045,4,3,2 }; static uint32_t oid_ecdsa_with_sha384[] = { 1,2,840,10045,4,3,3 }; static uint32_t oid_ecdsa_with_sha512[] = { 1,2,840,10045,4,3,4 }; static uint32_t oid_rsasign_with_sha1[] = { 1,2,840,113549,1,1,5 }; static uint32_t oid_rsasign_with_sha224[] = { 1,2,840,113549,1,1,14 }; static uint32_t oid_rsasign_with_sha256[] = { 1,2,840,113549,1,1,11 }; static uint32_t oid_rsasign_with_sha384[] = { 1,2,840,113549,1,1,12 }; static uint32_t oid_rsasign_with_sha512[] = { 1,2,840,113549,1,1,13 }; #define X509_ALGOR_OPT_NULL_PARAM 1 static const ASN1_OID_INFO x509_sign_algors[] = { { OID_sm2sign_with_sm3, "sm2sign-with-sm3", oid_sm2sign_with_sm3, sizeof(oid_sm2sign_with_sm3)/sizeof(int), 0 }, { OID_rsasign_with_sm3, "rsasign-with-sm3", oid_rsasign_with_sm3, sizeof(oid_rsasign_with_sm3)/sizeof(int), X509_ALGOR_OPT_NULL_PARAM }, { OID_ecdsa_with_sha1, "ecdsa-with-sha1", oid_ecdsa_with_sha1, sizeof(oid_ecdsa_with_sha1)/sizeof(int), 0 }, { OID_ecdsa_with_sha224, "ecdsa-with-sha224", oid_ecdsa_with_sha224, sizeof(oid_ecdsa_with_sha224)/sizeof(int), 0} , { OID_ecdsa_with_sha256, "ecdsa-with-sha256", oid_ecdsa_with_sha256, sizeof(oid_ecdsa_with_sha256)/sizeof(int), 0}, { OID_ecdsa_with_sha384, "ecdsa-with-sha384", oid_ecdsa_with_sha384, sizeof(oid_ecdsa_with_sha384)/sizeof(int), 0 }, { OID_ecdsa_with_sha512, "ecdsa-with-sha512", oid_ecdsa_with_sha512, sizeof(oid_ecdsa_with_sha512)/sizeof(int), 0 }, { OID_rsasign_with_sha1, "sha1WithRSAEncryption", oid_rsasign_with_sha1, sizeof(oid_rsasign_with_sha1)/sizeof(int), 0 }, { OID_rsasign_with_sha224, "sha224WithRSAEncryption", oid_rsasign_with_sha224, sizeof(oid_rsasign_with_sha224)/sizeof(int), X509_ALGOR_OPT_NULL_PARAM }, { OID_rsasign_with_sha256, "sha256WithRSAEncryption", oid_rsasign_with_sha256, sizeof(oid_rsasign_with_sha256)/sizeof(int), X509_ALGOR_OPT_NULL_PARAM }, { OID_rsasign_with_sha384, "sha384WithRSAEncryption", oid_rsasign_with_sha384, sizeof(oid_rsasign_with_sha384)/sizeof(int), X509_ALGOR_OPT_NULL_PARAM }, { OID_rsasign_with_sha512, "sha512WithRSAEncryption", oid_rsasign_with_sha512, sizeof(oid_rsasign_with_sha512)/sizeof(int), X509_ALGOR_OPT_NULL_PARAM }, }; static const int x509_sign_algors_count = sizeof(x509_sign_algors)/sizeof(x509_sign_algors[0]); const char *x509_signature_algor_name(int oid) { const ASN1_OID_INFO *info; if (!(info = asn1_oid_info_from_oid(x509_sign_algors, x509_sign_algors_count, oid))) { error_print(); return NULL; } return info->name; } int x509_signature_algor_from_name(const char *name) { const ASN1_OID_INFO *info; if (!(info = asn1_oid_info_from_name(x509_sign_algors, x509_sign_algors_count, name))) { error_print(); return OID_undef; } return info->oid; } int x509_signature_algor_to_der(int oid, uint8_t **out, size_t *outlen) { const ASN1_OID_INFO *info; size_t len = 0; if (!(info = asn1_oid_info_from_oid(x509_sign_algors, x509_sign_algors_count, oid))) { error_print(); return -1; } if (asn1_object_identifier_to_der(info->nodes, info->nodes_cnt, NULL, &len) != 1 || (info->flags && asn1_null_to_der(NULL, &len) != 1) || asn1_sequence_header_to_der(len, out, outlen) != 1 || asn1_object_identifier_to_der(info->nodes, info->nodes_cnt, out, outlen) != 1 || (info->flags && asn1_null_to_der(out, outlen) != 1)) { error_print(); return -1; } return 1; } int x509_signature_algor_from_der(int *oid, const uint8_t **in, size_t *inlen) { int ret; const uint8_t *p; size_t len; const ASN1_OID_INFO *info; int has_null_obj; int i; *oid = OID_undef; if ((ret = asn1_sequence_from_der(&p, &len, in, inlen)) != 1) { if (ret < 0) error_print(); return ret; } if (asn1_oid_info_from_der(&info, x509_sign_algors, x509_sign_algors_count, &p, &len) != 1 || (info->flags && asn1_null_from_der(&p, &len) < 0) || asn1_length_is_zero(len) != 1) { error_print(); return -1; } *oid = info->oid; return 1; } int x509_signature_algor_print(FILE *fp, int fmt, int ind, const char *label, const uint8_t *d, size_t dlen) { const ASN1_OID_INFO *info; int null_param; format_print(fp, fmt, ind, "%s\n", label); ind += 4; if (asn1_oid_info_from_der(&info, x509_sign_algors, x509_sign_algors_count, &d, &dlen) != 1) goto err; format_print(fp, fmt, ind, "algorithm: %s\n", info->name); if ((null_param = asn1_null_from_der(&d, &dlen)) < 0) goto err; if (null_param) format_print(fp, fmt, ind, "parameters: %s\n", asn1_tag_name(ASN1_TAG_NULL)); if (asn1_length_is_zero(dlen) != 1) goto err; return 1; err: error_print(); return -1; } /* sm2encrypt: no parameters rsaes_oaep: from rfc 3560 RSAES-OAEP-params ::= SEQUENCE { hashFunc [0] AlgorithmIdentifier DEFAULT sha1Identifier, maskGenFunc [1] AlgorithmIdentifier DEFAULT mgf1SHA1Identifier, pSourceFunc [2] AlgorithmIdentifier DEFAULT */ static uint32_t oid_sm2encrypt[] = { 1,2,156,10197,1,301,2 }; static uint32_t oid_rsa_encryption[] = { 1,2,840,113549,1,1,1 }; static uint32_t oid_rsaes_oaep[] = { 1,2,840,113549,1,1,7 }; static const ASN1_OID_INFO x509_pke_algors[] = { { OID_sm2encrypt, "sm2encrypt", oid_sm2encrypt, sizeof(oid_sm2encrypt)/sizeof(int) }, { OID_rsa_encryption, "rsaEncryption", oid_rsa_encryption, sizeof(oid_rsa_encryption)/sizeof(int) }, { OID_rsaes_oaep, "rsaesOAEP", oid_rsaes_oaep, sizeof(oid_rsaes_oaep)/sizeof(int) }, }; static const int x509_pke_algors_count = sizeof(x509_pke_algors)/sizeof(x509_pke_algors[0]); const char *x509_public_key_encryption_algor_name(int oid) { const ASN1_OID_INFO *info; if (!(info = asn1_oid_info_from_oid(x509_pke_algors, x509_pke_algors_count, oid))) { error_print(); return NULL; } return info->name; } int x509_public_key_encryption_algor_from_name(const char *name) { const ASN1_OID_INFO *info; if (!(info = asn1_oid_info_from_name(x509_pke_algors, x509_pke_algors_count, name))) { error_print(); return OID_undef; } return info->oid; } int x509_public_key_encryption_algor_to_der(int oid, uint8_t **out, size_t *outlen) { const ASN1_OID_INFO *info; size_t len = 0; if (oid != OID_sm2encrypt) { error_print(); return -1; } if (!(info = asn1_oid_info_from_oid(x509_pke_algors, x509_pke_algors_count, oid))) { error_print(); return -1; } if (asn1_object_identifier_to_der(info->nodes, info->nodes_cnt, NULL, &len) != 1 || asn1_sequence_header_to_der(len, out, outlen) != 1 || asn1_object_identifier_to_der(info->nodes, info->nodes_cnt, out, outlen) != 1) { error_print(); return -1; } return 1; } int x509_public_key_encryption_algor_from_der(int *oid, const uint8_t **params, size_t *params_len, const uint8_t **in, size_t *inlen) { int ret; const uint8_t *p; size_t len; const ASN1_OID_INFO *info; *oid = OID_undef; *params = NULL; *params_len = 0; if ((ret = asn1_sequence_from_der(&p, &len, in, inlen)) != 1) { if (ret < 0) error_print(); return ret; } if (asn1_oid_info_from_der(&info, x509_pke_algors, x509_pke_algors_count, &p, &len) != 1) { error_print(); return -1; } *oid = info->oid; if (asn1_length_is_zero(len) != 1) { if (info->oid == OID_sm2encrypt) { error_print(); return -1; } *params = p; *params_len = len; } return 1; } int x509_public_key_encryption_algor_print(FILE *fp, int fmt, int ind, const char *label, const uint8_t *d, size_t dlen) { const ASN1_OID_INFO *info; format_print(fp, fmt, ind, "%s\n", label); ind += 4; if (asn1_oid_info_from_der(&info, x509_pke_algors, x509_pke_algors_count, &d, &dlen) != 1) goto err; format_print(fp, fmt, ind, "algorithm: %s\n", info->name); if (asn1_length_is_zero(dlen) != 1) { if (info->oid == OID_sm2encrypt) goto err; format_bytes(fp, fmt, ind, "parameters: ", d, dlen); } return 1; err: error_print(); return -1; } #define oid_sm_scheme 1,2,156,10197,1 static uint32_t oid_sm2[] = { oid_sm_scheme,301 }; #define oid_x9_62_curves oid_x9_62,3 #define oid_x9_62_prime_curves oid_x9_62_curves,1 static uint32_t oid_prime192v1[] = { oid_x9_62_prime_curves,1 }; static uint32_t oid_prime256v1[] = { oid_x9_62_prime_curves,7 }; // NIST P-256 #define oid_secg_curve 1,3,132,0 static uint32_t oid_secp256k1[] = { oid_secg_curve,10 }; static uint32_t oid_secp384r1[] = { oid_secg_curve,34 }; // NIST P-384 static uint32_t oid_secp521r1[] = { oid_secg_curve,35 }; // NIST P-521 static const ASN1_OID_INFO ec_curves[] = { { OID_sm2, "sm2", oid_sm2, sizeof(oid_sm2)/sizeof(int), 0, "SM2" }, { OID_prime192v1, "prime192v1", oid_prime192v1, sizeof(oid_prime192v1)/sizeof(int), 0, }, { OID_prime256v1, "prime256v1", oid_prime256v1, sizeof(oid_prime256v1)/sizeof(int), 0, "NIST P-256" }, { OID_secp256k1, "secp256k1", oid_secp256k1, sizeof(oid_secp256k1)/sizeof(int) }, { OID_secp384r1, "secp384r1", oid_secp384r1, sizeof(oid_secp384r1)/sizeof(int), 0, "NIST P-384" }, { OID_secp521r1, "secp521r1", oid_secp521r1, sizeof(oid_secp521r1)/sizeof(int), 0, "NIST P-521" } }; static const int ec_curves_count = sizeof(ec_curves)/sizeof(ec_curves[0]); const char *ec_curve_name(int oid) { const ASN1_OID_INFO *info; if (!(info = asn1_oid_info_from_oid(ec_curves, ec_curves_count, oid))) { error_print(); return NULL; } return info->name; } int ec_curve_from_name(const char *name) { const ASN1_OID_INFO *info; if (!(info = asn1_oid_info_from_name(ec_curves, ec_curves_count, name))) { error_print(); return OID_undef; } return info->oid; } static uint32_t oid_ec_public_key[] = { oid_x9_62,2,1 }; //static uint32_t oid_rsa_encryption[] = { 1,2,840,113549,1,1,1 }; static const ASN1_OID_INFO x509_public_key_algors[] = { { OID_ec_public_key, "ecPublicKey", oid_ec_public_key, sizeof(oid_ec_public_key)/sizeof(int), 0, "X9.62 ecPublicKey" }, { OID_rsa_encryption, "rsaEncryption", oid_rsa_encryption, sizeof(oid_rsa_encryption)/sizeof(int), 0, "RSAEncryption" }, }; static const int x509_public_key_algors_count = sizeof(x509_public_key_algors)/sizeof(x509_public_key_algors[0]); const char *x509_public_key_algor_name(int oid) { const ASN1_OID_INFO *info; if (!(info = asn1_oid_info_from_oid(x509_public_key_algors, x509_public_key_algors_count, oid))) { error_print(); return NULL; } return info->name; } int x509_public_key_algor_from_name(const char *name) { const ASN1_OID_INFO *info; if (!(info = asn1_oid_info_from_name(x509_public_key_algors, x509_public_key_algors_count, name))) { error_print(); return OID_undef; } return info->oid; } int x509_ec_public_key_algor_to_der(int curve_oid, uint8_t **out, size_t *outlen) { const ASN1_OID_INFO *info; size_t len = 0; if (!(info = asn1_oid_info_from_oid(ec_curves, ec_curves_count, curve_oid))) { error_print(); return -1; } if (asn1_object_identifier_to_der(oid_ec_public_key, sizeof(oid_ec_public_key)/sizeof(int), NULL, &len) != 1 || asn1_object_identifier_to_der(info->nodes, info->nodes_cnt, NULL, &len) != 1 || asn1_sequence_header_to_der(len, out, outlen) != 1 || asn1_object_identifier_to_der(oid_ec_public_key, sizeof(oid_ec_public_key)/sizeof(int), out, outlen) != 1 || asn1_object_identifier_to_der(info->nodes, info->nodes_cnt, out, outlen) != 1) { error_print(); return -1; } return 1; } int x509_ec_public_key_algor_from_der(int *curve_oid, const uint8_t **in, size_t *inlen) { int ret; const uint8_t *p; size_t len; const ASN1_OID_INFO *info; *curve_oid = OID_undef; if ((ret = asn1_sequence_from_der(&p, &len, in, inlen)) != 1) { if (ret < 0) error_print(); return ret; } if (asn1_oid_info_from_der(&info, x509_public_key_algors, x509_public_key_algors_count, &p, &len) != 1) { error_print(); return -1; } if (info->oid != OID_ec_public_key) { error_print(); return -1; } if (asn1_oid_info_from_der(&info, ec_curves, ec_curves_count, &p, &len) != 1 || asn1_length_is_zero(len) != 1) { error_print(); return -1; } *curve_oid = info->oid; return 1; } int x509_public_key_algor_print(FILE *fp, int fmt, int ind, const char *label, const uint8_t *d, size_t dlen) { const ASN1_OID_INFO *info; format_print(fp, fmt, ind, "%s\n", label); ind += 4; if (asn1_oid_info_from_der(&info, x509_public_key_algors, x509_public_key_algors_count, &d, &dlen) != 1) goto err; format_print(fp, fmt, ind, "algorithm: %s\n", info->description); if (info->oid != OID_ec_public_key) goto err; if (asn1_oid_info_from_der(&info, ec_curves, ec_curves_count, &d, &dlen) != 1) goto err; format_print(fp, fmt, ind, "namedCurve: %s\n", info->name); if (asn1_length_is_zero(dlen) != 1) goto err; return 1; err: error_print(); return -1; }