/* * pkcs15-pubkey.c: PKCS #15 public key functions * * Copyright (C) 2002 Juha Yrjölä * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #include "config.h" #include #include #include #include #include #include "internal.h" #include "asn1.h" #include "pkcs15.h" static const struct sc_asn1_entry c_asn1_pkinfo[] = { { "algorithm", SC_ASN1_ALGORITHM_ID, SC_ASN1_TAG_SEQUENCE | SC_ASN1_CONS, 0, NULL, NULL }, { "subjectPublicKey", SC_ASN1_BIT_STRING_NI, SC_ASN1_TAG_BIT_STRING, SC_ASN1_ALLOC, NULL, NULL}, { NULL, 0, 0, 0, NULL, NULL } }; static const struct sc_asn1_entry c_asn1_com_key_attr[] = { { "iD", SC_ASN1_PKCS15_ID, SC_ASN1_TAG_OCTET_STRING, 0, NULL, NULL }, { "usage", SC_ASN1_BIT_FIELD, SC_ASN1_TAG_BIT_STRING, 0, NULL, NULL }, { "native", SC_ASN1_BOOLEAN, SC_ASN1_TAG_BOOLEAN, SC_ASN1_OPTIONAL, NULL, NULL }, { "accessFlags", SC_ASN1_BIT_FIELD, SC_ASN1_TAG_BIT_STRING, SC_ASN1_OPTIONAL, NULL, NULL }, { "keyReference",SC_ASN1_INTEGER, SC_ASN1_TAG_INTEGER, SC_ASN1_OPTIONAL, NULL, NULL }, { NULL, 0, 0, 0, NULL, NULL } }; static const struct sc_asn1_entry c_asn1_com_pubkey_attr[] = { /* FIXME */ { NULL, 0, 0, 0, NULL, NULL } }; static const struct sc_asn1_entry c_asn1_rsakey_value_choice[] = { { "path", SC_ASN1_PATH, SC_ASN1_TAG_SEQUENCE | SC_ASN1_CONS, SC_ASN1_EMPTY_ALLOWED, NULL, NULL }, { "direct", SC_ASN1_OCTET_STRING, SC_ASN1_CTX | 0 | SC_ASN1_CONS, SC_ASN1_OPTIONAL | SC_ASN1_ALLOC, NULL, NULL }, { NULL, 0, 0, 0, NULL, NULL } }; static const struct sc_asn1_entry c_asn1_rsakey_attr[] = { { "value", SC_ASN1_CHOICE, 0, 0, NULL, NULL }, { "modulusLength", SC_ASN1_INTEGER, SC_ASN1_TAG_INTEGER, 0, NULL, NULL }, { "keyInfo", SC_ASN1_INTEGER, SC_ASN1_TAG_INTEGER, SC_ASN1_OPTIONAL, NULL, NULL }, { NULL, 0, 0, 0, NULL, NULL } }; static const struct sc_asn1_entry c_asn1_rsa_type_attr[] = { { "publicRSAKeyAttributes", SC_ASN1_STRUCT, SC_ASN1_TAG_SEQUENCE | SC_ASN1_CONS, 0, NULL, NULL }, { NULL, 0, 0, 0, NULL, NULL } }; static const struct sc_asn1_entry c_asn1_dsakey_attr[] = { { "value", SC_ASN1_PATH, SC_ASN1_TAG_SEQUENCE | SC_ASN1_CONS, 0, NULL, NULL }, { NULL, 0, 0, 0, NULL, NULL } }; static const struct sc_asn1_entry c_asn1_dsa_type_attr[] = { { "publicDSAKeyAttributes", SC_ASN1_STRUCT, SC_ASN1_TAG_SEQUENCE | SC_ASN1_CONS, 0, NULL, NULL }, { NULL, 0, 0, 0, NULL, NULL } }; static const struct sc_asn1_entry c_asn1_gostr3410key_attr[] = { { "value", SC_ASN1_PATH, SC_ASN1_TAG_SEQUENCE | SC_ASN1_CONS, 0, NULL, NULL }, { "params_r3410", SC_ASN1_INTEGER, SC_ASN1_TAG_INTEGER, 0, NULL, NULL }, { "params_r3411", SC_ASN1_INTEGER, SC_ASN1_TAG_INTEGER, SC_ASN1_OPTIONAL, NULL, NULL }, { "params_28147", SC_ASN1_INTEGER, SC_ASN1_TAG_INTEGER, SC_ASN1_OPTIONAL, NULL, NULL }, { NULL, 0, 0, 0, NULL, NULL } }; static const struct sc_asn1_entry c_asn1_gostr3410_type_attr[] = { { "publicGOSTR3410KeyAttributes", SC_ASN1_STRUCT, SC_ASN1_TAG_SEQUENCE | SC_ASN1_CONS, 0, NULL, NULL }, { NULL, 0, 0, 0, NULL, NULL } }; static const struct sc_asn1_entry c_asn1_pubkey_choice[] = { { "publicRSAKey", SC_ASN1_PKCS15_OBJECT, SC_ASN1_TAG_SEQUENCE | SC_ASN1_CONS, 0, NULL, NULL }, { "publicDSAKey", SC_ASN1_PKCS15_OBJECT, 2 | SC_ASN1_CTX | SC_ASN1_CONS, 0, NULL, NULL }, { "publicGOSTR3410Key", SC_ASN1_PKCS15_OBJECT, 3 | SC_ASN1_CTX | SC_ASN1_CONS, 0, NULL, NULL }, /*TODO: -DEE not clear EC is needed here as look like it is for pukdf */ { NULL, 0, 0, 0, NULL, NULL } }; static const struct sc_asn1_entry c_asn1_pubkey[] = { { "publicKey", SC_ASN1_CHOICE, 0, 0, NULL, NULL }, { NULL, 0, 0, 0, NULL, NULL } }; int sc_pkcs15_decode_pukdf_entry(struct sc_pkcs15_card *p15card, struct sc_pkcs15_object *obj, const u8 ** buf, size_t *buflen) { sc_context_t *ctx = p15card->card->ctx; struct sc_pkcs15_pubkey_info info; int r, gostr3410_params[3]; struct sc_pkcs15_keyinfo_gostparams *keyinfo_gostparams; size_t usage_len = sizeof(info.usage); size_t af_len = sizeof(info.access_flags); struct sc_pkcs15_der *der = &obj->content; struct sc_asn1_entry asn1_com_key_attr[6], asn1_com_pubkey_attr[1]; struct sc_asn1_entry asn1_rsakey_value_choice[3]; struct sc_asn1_entry asn1_rsakey_attr[4], asn1_rsa_type_attr[2]; struct sc_asn1_entry asn1_dsakey_attr[2], asn1_dsa_type_attr[2]; struct sc_asn1_entry asn1_gostr3410key_attr[5], asn1_gostr3410_type_attr[2]; struct sc_asn1_entry asn1_pubkey_choice[4]; struct sc_asn1_entry asn1_pubkey[2]; struct sc_asn1_pkcs15_object rsakey_obj = { obj, asn1_com_key_attr, asn1_com_pubkey_attr, asn1_rsa_type_attr }; struct sc_asn1_pkcs15_object dsakey_obj = { obj, asn1_com_key_attr, asn1_com_pubkey_attr, asn1_dsa_type_attr }; struct sc_asn1_pkcs15_object gostr3410key_obj = { obj, asn1_com_key_attr, asn1_com_pubkey_attr, asn1_gostr3410_type_attr }; sc_copy_asn1_entry(c_asn1_pubkey, asn1_pubkey); sc_copy_asn1_entry(c_asn1_pubkey_choice, asn1_pubkey_choice); sc_copy_asn1_entry(c_asn1_rsa_type_attr, asn1_rsa_type_attr); sc_copy_asn1_entry(c_asn1_rsakey_value_choice, asn1_rsakey_value_choice); sc_copy_asn1_entry(c_asn1_rsakey_attr, asn1_rsakey_attr); sc_copy_asn1_entry(c_asn1_dsa_type_attr, asn1_dsa_type_attr); sc_copy_asn1_entry(c_asn1_dsakey_attr, asn1_dsakey_attr); sc_copy_asn1_entry(c_asn1_gostr3410_type_attr, asn1_gostr3410_type_attr); sc_copy_asn1_entry(c_asn1_gostr3410key_attr, asn1_gostr3410key_attr); sc_copy_asn1_entry(c_asn1_com_pubkey_attr, asn1_com_pubkey_attr); sc_copy_asn1_entry(c_asn1_com_key_attr, asn1_com_key_attr); sc_format_asn1_entry(asn1_pubkey_choice + 0, &rsakey_obj, NULL, 0); sc_format_asn1_entry(asn1_pubkey_choice + 1, &dsakey_obj, NULL, 0); sc_format_asn1_entry(asn1_pubkey_choice + 2, &gostr3410key_obj, NULL, 0); sc_format_asn1_entry(asn1_rsa_type_attr + 0, asn1_rsakey_attr, NULL, 0); sc_format_asn1_entry(asn1_rsakey_value_choice + 0, &info.path, NULL, 0); sc_format_asn1_entry(asn1_rsakey_value_choice + 1, &der->value, &der->len, 0); sc_format_asn1_entry(asn1_rsakey_attr + 0, asn1_rsakey_value_choice, NULL, 0); sc_format_asn1_entry(asn1_rsakey_attr + 1, &info.modulus_length, NULL, 0); sc_format_asn1_entry(asn1_dsa_type_attr + 0, asn1_dsakey_attr, NULL, 0); sc_format_asn1_entry(asn1_dsakey_attr + 0, &info.path, NULL, 0); sc_format_asn1_entry(asn1_gostr3410_type_attr + 0, asn1_gostr3410key_attr, NULL, 0); sc_format_asn1_entry(asn1_gostr3410key_attr + 0, &info.path, NULL, 0); sc_format_asn1_entry(asn1_gostr3410key_attr + 1, &gostr3410_params[0], NULL, 0); sc_format_asn1_entry(asn1_gostr3410key_attr + 2, &gostr3410_params[1], NULL, 0); sc_format_asn1_entry(asn1_gostr3410key_attr + 3, &gostr3410_params[2], NULL, 0); sc_format_asn1_entry(asn1_com_key_attr + 0, &info.id, NULL, 0); sc_format_asn1_entry(asn1_com_key_attr + 1, &info.usage, &usage_len, 0); sc_format_asn1_entry(asn1_com_key_attr + 2, &info.native, NULL, 0); sc_format_asn1_entry(asn1_com_key_attr + 3, &info.access_flags, &af_len, 0); sc_format_asn1_entry(asn1_com_key_attr + 4, &info.key_reference, NULL, 0); sc_format_asn1_entry(asn1_pubkey + 0, asn1_pubkey_choice, NULL, 0); /* Fill in defaults */ memset(&info, 0, sizeof(info)); info.key_reference = -1; info.native = 1; memset(gostr3410_params, 0, sizeof(gostr3410_params)); r = sc_asn1_decode(ctx, asn1_pubkey, *buf, *buflen, buf, buflen); if (r == SC_ERROR_ASN1_END_OF_CONTENTS) return r; SC_TEST_RET(ctx, SC_LOG_DEBUG_NORMAL, r, "ASN.1 decoding failed"); if (asn1_pubkey_choice[0].flags & SC_ASN1_PRESENT) { obj->type = SC_PKCS15_TYPE_PUBKEY_RSA; } else if (asn1_pubkey_choice[2].flags & SC_ASN1_PRESENT) { obj->type = SC_PKCS15_TYPE_PUBKEY_GOSTR3410; assert(info.modulus_length == 0); info.modulus_length = SC_PKCS15_GOSTR3410_KEYSIZE; assert(info.params.len == 0); info.params.len = sizeof(struct sc_pkcs15_keyinfo_gostparams); info.params.data = malloc(info.params.len); if (info.params.data == NULL) SC_FUNC_RETURN(ctx, SC_LOG_DEBUG_NORMAL, SC_ERROR_OUT_OF_MEMORY); assert(sizeof(*keyinfo_gostparams) == info.params.len); keyinfo_gostparams = info.params.data; keyinfo_gostparams->gostr3410 = (unsigned int)gostr3410_params[0]; keyinfo_gostparams->gostr3411 = (unsigned int)gostr3410_params[1]; keyinfo_gostparams->gost28147 = (unsigned int)gostr3410_params[2]; } else { obj->type = SC_PKCS15_TYPE_PUBKEY_DSA; } if (!p15card->app || !p15card->app->ddo.aid.len) { r = sc_pkcs15_make_absolute_path(&p15card->file_app->path, &info.path); if (r < 0) { sc_pkcs15_free_key_params(&info.params); return r; } } else { info.path.aid = p15card->app->ddo.aid; } sc_debug(ctx, SC_LOG_DEBUG_ASN1, "PubKey path '%s'", sc_print_path(&info.path)); /* OpenSC 0.11.4 and older encoded "keyReference" as a negative value. Fixed in 0.11.5 we need to add a hack, so old cards continue to work. */ if (info.key_reference < -1) info.key_reference += 256; obj->data = malloc(sizeof(info)); if (obj->data == NULL) { sc_pkcs15_free_key_params(&info.params); SC_FUNC_RETURN(ctx, SC_LOG_DEBUG_NORMAL, SC_ERROR_OUT_OF_MEMORY); } memcpy(obj->data, &info, sizeof(info)); return 0; } int sc_pkcs15_encode_pukdf_entry(sc_context_t *ctx, const struct sc_pkcs15_object *obj, u8 **buf, size_t *buflen) { struct sc_asn1_entry asn1_com_key_attr[6], asn1_com_pubkey_attr[1]; struct sc_asn1_entry asn1_rsakey_value_choice[3]; struct sc_asn1_entry asn1_rsakey_attr[4], asn1_rsa_type_attr[2]; struct sc_asn1_entry asn1_dsakey_attr[2], asn1_dsa_type_attr[2]; struct sc_asn1_entry asn1_gostr3410key_attr[5], asn1_gostr3410_type_attr[2]; struct sc_asn1_entry asn1_pubkey_choice[4]; struct sc_asn1_entry asn1_pubkey[2]; struct sc_pkcs15_pubkey_info *pubkey = (struct sc_pkcs15_pubkey_info *) obj->data; struct sc_asn1_pkcs15_object rsakey_obj = { (struct sc_pkcs15_object *) obj, asn1_com_key_attr, asn1_com_pubkey_attr, asn1_rsa_type_attr }; struct sc_asn1_pkcs15_object dsakey_obj = { (struct sc_pkcs15_object *) obj, asn1_com_key_attr, asn1_com_pubkey_attr, asn1_dsa_type_attr }; struct sc_asn1_pkcs15_object gostr3410key_obj = { (struct sc_pkcs15_object *) obj, asn1_com_key_attr, asn1_com_pubkey_attr, asn1_gostr3410_type_attr }; struct sc_pkcs15_keyinfo_gostparams *keyinfo_gostparams; int r; size_t af_len, usage_len; sc_copy_asn1_entry(c_asn1_pubkey, asn1_pubkey); sc_copy_asn1_entry(c_asn1_pubkey_choice, asn1_pubkey_choice); sc_copy_asn1_entry(c_asn1_rsa_type_attr, asn1_rsa_type_attr); sc_copy_asn1_entry(c_asn1_rsakey_value_choice, asn1_rsakey_value_choice); sc_copy_asn1_entry(c_asn1_rsakey_attr, asn1_rsakey_attr); sc_copy_asn1_entry(c_asn1_dsa_type_attr, asn1_dsa_type_attr); sc_copy_asn1_entry(c_asn1_dsakey_attr, asn1_dsakey_attr); sc_copy_asn1_entry(c_asn1_gostr3410_type_attr, asn1_gostr3410_type_attr); sc_copy_asn1_entry(c_asn1_gostr3410key_attr, asn1_gostr3410key_attr); sc_copy_asn1_entry(c_asn1_com_pubkey_attr, asn1_com_pubkey_attr); sc_copy_asn1_entry(c_asn1_com_key_attr, asn1_com_key_attr); switch (obj->type) { case SC_PKCS15_TYPE_PUBKEY_RSA: sc_format_asn1_entry(asn1_pubkey_choice + 0, &rsakey_obj, NULL, 1); sc_format_asn1_entry(asn1_rsa_type_attr + 0, asn1_rsakey_attr, NULL, 1); if (pubkey->path.len || !obj->content.value) sc_format_asn1_entry(asn1_rsakey_value_choice + 0, &pubkey->path, NULL, 1); else sc_format_asn1_entry(asn1_rsakey_value_choice + 1, obj->content.value, (void *)&obj->content.len, 1); sc_format_asn1_entry(asn1_rsakey_attr + 0, asn1_rsakey_value_choice, NULL, 1); sc_format_asn1_entry(asn1_rsakey_attr + 1, &pubkey->modulus_length, NULL, 1); break; case SC_PKCS15_TYPE_PUBKEY_DSA: sc_format_asn1_entry(asn1_pubkey_choice + 1, &dsakey_obj, NULL, 1); sc_format_asn1_entry(asn1_dsa_type_attr + 0, asn1_dsakey_attr, NULL, 1); sc_format_asn1_entry(asn1_dsakey_attr + 0, &pubkey->path, NULL, 1); break; case SC_PKCS15_TYPE_PUBKEY_GOSTR3410: sc_format_asn1_entry(asn1_pubkey_choice + 2, &gostr3410key_obj, NULL, 1); sc_format_asn1_entry(asn1_gostr3410_type_attr + 0, asn1_gostr3410key_attr, NULL, 1); sc_format_asn1_entry(asn1_gostr3410key_attr + 0, &pubkey->path, NULL, 1); if (pubkey->params.len == sizeof(*keyinfo_gostparams)) { keyinfo_gostparams = pubkey->params.data; sc_format_asn1_entry(asn1_gostr3410key_attr + 1, &keyinfo_gostparams->gostr3410, NULL, 1); sc_format_asn1_entry(asn1_gostr3410key_attr + 2, &keyinfo_gostparams->gostr3411, NULL, 1); sc_format_asn1_entry(asn1_gostr3410key_attr + 3, &keyinfo_gostparams->gost28147, NULL, 1); } break; default: /* TODO: -DEE Should add ECC but don't have PKCS15 card with ECC */ sc_debug(ctx, SC_LOG_DEBUG_NORMAL, "Unsupported public key type: %X\n", obj->type); SC_FUNC_RETURN(ctx, SC_LOG_DEBUG_NORMAL, SC_ERROR_INTERNAL); break; } sc_format_asn1_entry(asn1_com_key_attr + 0, &pubkey->id, NULL, 1); usage_len = sizeof(pubkey->usage); sc_format_asn1_entry(asn1_com_key_attr + 1, &pubkey->usage, &usage_len, 1); if (pubkey->native == 0) sc_format_asn1_entry(asn1_com_key_attr + 2, &pubkey->native, NULL, 1); if (pubkey->access_flags) { af_len = sizeof(pubkey->access_flags); sc_format_asn1_entry(asn1_com_key_attr + 3, &pubkey->access_flags, &af_len, 1); } if (pubkey->key_reference >= 0) sc_format_asn1_entry(asn1_com_key_attr + 4, &pubkey->key_reference, NULL, 1); sc_format_asn1_entry(asn1_pubkey + 0, asn1_pubkey_choice, NULL, 1); r = sc_asn1_encode(ctx, asn1_pubkey, buf, buflen); return r; } /* this should be required, not optional. But it is missing in some siemens cards and thus causes warnings */ /* so we silence these warnings by making it optional - the card works ok without. :/ */ static struct sc_asn1_entry c_asn1_public_key[2] = { { "publicKeyCoefficients", SC_ASN1_STRUCT, SC_ASN1_TAG_SEQUENCE | SC_ASN1_CONS, SC_ASN1_OPTIONAL, NULL, NULL }, { NULL, 0, 0, 0, NULL, NULL } }; static struct sc_asn1_entry c_asn1_rsa_pub_coefficients[3] = { { "modulus", SC_ASN1_OCTET_STRING, SC_ASN1_TAG_INTEGER, SC_ASN1_ALLOC|SC_ASN1_UNSIGNED, NULL, NULL }, { "exponent", SC_ASN1_OCTET_STRING, SC_ASN1_TAG_INTEGER, SC_ASN1_ALLOC|SC_ASN1_UNSIGNED, NULL, NULL }, { NULL, 0, 0, 0, NULL, NULL } }; static struct sc_asn1_entry c_asn1_dsa_pub_coefficients[5] = { { "publicKey",SC_ASN1_OCTET_STRING, SC_ASN1_TAG_INTEGER, SC_ASN1_ALLOC|SC_ASN1_UNSIGNED, NULL, NULL }, { "paramP", SC_ASN1_OCTET_STRING, SC_ASN1_TAG_INTEGER, SC_ASN1_ALLOC|SC_ASN1_UNSIGNED, NULL, NULL }, { "paramQ", SC_ASN1_OCTET_STRING, SC_ASN1_TAG_INTEGER, SC_ASN1_ALLOC|SC_ASN1_UNSIGNED, NULL, NULL }, { "paramG", SC_ASN1_OCTET_STRING, SC_ASN1_TAG_INTEGER, SC_ASN1_ALLOC|SC_ASN1_UNSIGNED, NULL, NULL }, { NULL, 0, 0, 0, NULL, NULL }, }; static struct sc_asn1_entry c_asn1_gostr3410_pub_coefficients[2] = { { "xy", SC_ASN1_OCTET_STRING, SC_ASN1_TAG_OCTET_STRING, SC_ASN1_ALLOC, NULL, NULL }, { NULL, 0, 0, 0, NULL, NULL } }; static struct sc_asn1_entry c_asn1_ec_pointQ[2] = { { "ecpointQ", SC_ASN1_OCTET_STRING, SC_ASN1_TAG_OCTET_STRING, SC_ASN1_ALLOC, NULL, NULL }, { NULL, 0, 0, 0, NULL, NULL } }; int sc_pkcs15_decode_pubkey_rsa(sc_context_t *ctx, struct sc_pkcs15_pubkey_rsa *key, const u8 *buf, size_t buflen) { struct sc_asn1_entry asn1_public_key[2]; struct sc_asn1_entry asn1_rsa_coeff[3]; int r; sc_copy_asn1_entry(c_asn1_public_key, asn1_public_key); sc_format_asn1_entry(asn1_public_key + 0, asn1_rsa_coeff, NULL, 0); sc_copy_asn1_entry(c_asn1_rsa_pub_coefficients, asn1_rsa_coeff); sc_format_asn1_entry(asn1_rsa_coeff + 0, &key->modulus.data, &key->modulus.len, 0); sc_format_asn1_entry(asn1_rsa_coeff + 1, &key->exponent.data, &key->exponent.len, 0); r = sc_asn1_decode(ctx, asn1_public_key, buf, buflen, NULL, NULL); SC_TEST_RET(ctx, SC_LOG_DEBUG_NORMAL, r, "ASN.1 parsing of public key failed"); return 0; } int sc_pkcs15_encode_pubkey_rsa(sc_context_t *ctx, struct sc_pkcs15_pubkey_rsa *key, u8 **buf, size_t *buflen) { struct sc_asn1_entry asn1_public_key[2]; struct sc_asn1_entry asn1_rsa_pub_coeff[3]; int r; sc_copy_asn1_entry(c_asn1_public_key, asn1_public_key); sc_format_asn1_entry(asn1_public_key + 0, asn1_rsa_pub_coeff, NULL, 1); sc_copy_asn1_entry(c_asn1_rsa_pub_coefficients, asn1_rsa_pub_coeff); sc_format_asn1_entry(asn1_rsa_pub_coeff + 0, key->modulus.data, &key->modulus.len, 1); sc_format_asn1_entry(asn1_rsa_pub_coeff + 1, key->exponent.data, &key->exponent.len, 1); r = sc_asn1_encode(ctx, asn1_public_key, buf, buflen); SC_TEST_RET(ctx, SC_LOG_DEBUG_NORMAL, r, "ASN.1 encoding failed"); return 0; } int sc_pkcs15_decode_pubkey_dsa(sc_context_t *ctx, struct sc_pkcs15_pubkey_dsa *key, const u8 *buf, size_t buflen) { struct sc_asn1_entry asn1_public_key[2]; struct sc_asn1_entry asn1_dsa_pub_coeff[5]; int r; sc_copy_asn1_entry(c_asn1_public_key, asn1_public_key); sc_copy_asn1_entry(c_asn1_dsa_pub_coefficients, asn1_dsa_pub_coeff); sc_format_asn1_entry(asn1_public_key + 0, asn1_dsa_pub_coeff, NULL, 1); sc_format_asn1_entry(asn1_dsa_pub_coeff + 0, &key->pub.data, &key->pub.len, 0); sc_format_asn1_entry(asn1_dsa_pub_coeff + 1, &key->g.data, &key->g.len, 0); sc_format_asn1_entry(asn1_dsa_pub_coeff + 2, &key->p.data, &key->p.len, 0); sc_format_asn1_entry(asn1_dsa_pub_coeff + 3, &key->q.data, &key->q.len, 0); r = sc_asn1_decode(ctx, asn1_public_key, buf, buflen, NULL, NULL); SC_TEST_RET(ctx, SC_LOG_DEBUG_NORMAL, r, "ASN.1 decoding failed"); return 0; } int sc_pkcs15_encode_pubkey_dsa(sc_context_t *ctx, struct sc_pkcs15_pubkey_dsa *key, u8 **buf, size_t *buflen) { struct sc_asn1_entry asn1_public_key[2]; struct sc_asn1_entry asn1_dsa_pub_coeff[5]; int r; sc_copy_asn1_entry(c_asn1_public_key, asn1_public_key); sc_copy_asn1_entry(c_asn1_dsa_pub_coefficients, asn1_dsa_pub_coeff); sc_format_asn1_entry(asn1_public_key + 0, asn1_dsa_pub_coeff, NULL, 1); sc_format_asn1_entry(asn1_dsa_pub_coeff + 0, key->pub.data, &key->pub.len, 1); sc_format_asn1_entry(asn1_dsa_pub_coeff + 1, key->g.data, &key->g.len, 1); sc_format_asn1_entry(asn1_dsa_pub_coeff + 2, key->p.data, &key->p.len, 1); sc_format_asn1_entry(asn1_dsa_pub_coeff + 3, key->q.data, &key->q.len, 1); r = sc_asn1_encode(ctx, asn1_public_key, buf, buflen); SC_TEST_RET(ctx, SC_LOG_DEBUG_NORMAL, r, "ASN.1 encoding failed"); return 0; } int sc_pkcs15_decode_pubkey_gostr3410(sc_context_t *ctx, struct sc_pkcs15_pubkey_gostr3410 *key, const u8 *buf, size_t buflen) { struct sc_asn1_entry asn1_gostr3410_pub_coeff[2]; int r; sc_copy_asn1_entry(c_asn1_gostr3410_pub_coefficients, asn1_gostr3410_pub_coeff); sc_format_asn1_entry(asn1_gostr3410_pub_coeff + 0, &key->xy.data, &key->xy.len, 0); r = sc_asn1_decode(ctx, asn1_gostr3410_pub_coeff, buf, buflen, NULL, NULL); SC_TEST_RET(ctx, SC_LOG_DEBUG_NORMAL, r, "ASN.1 parsing of public key failed"); return 0; } int sc_pkcs15_encode_pubkey_gostr3410(sc_context_t *ctx, struct sc_pkcs15_pubkey_gostr3410 *key, u8 **buf, size_t *buflen) { struct sc_asn1_entry asn1_gostr3410_pub_coeff[2]; int r; sc_copy_asn1_entry(c_asn1_gostr3410_pub_coefficients, asn1_gostr3410_pub_coeff); sc_format_asn1_entry(asn1_gostr3410_pub_coeff + 0, key->xy.data, &key->xy.len, 1); r = sc_asn1_encode(ctx, asn1_gostr3410_pub_coeff, buf, buflen); SC_TEST_RET(ctx, SC_LOG_DEBUG_NORMAL, r, "ASN.1 encoding failed"); return 0; } /* * We are storing the ec_pointQ as a octet string. * Thus we will just copy the string. * But to get the field length we decode it. */ int sc_pkcs15_decode_pubkey_ec(sc_context_t *ctx, struct sc_pkcs15_pubkey_ec *key, const u8 *buf, size_t buflen) { int r; u8 * ecpoint_data; size_t ecpoint_len; struct sc_asn1_entry asn1_ec_pointQ[2]; sc_copy_asn1_entry(c_asn1_ec_pointQ, asn1_ec_pointQ); sc_format_asn1_entry(asn1_ec_pointQ + 0, &ecpoint_data, &ecpoint_len, 1); r = sc_asn1_decode(ctx, asn1_ec_pointQ, buf, buflen, NULL, NULL); if (r < 0) SC_TEST_RET(ctx, SC_LOG_DEBUG_NORMAL, r, "ASN.1 encoding failed"); sc_debug(ctx, SC_LOG_DEBUG_NORMAL,"DEE-EC key=%p, buf=%p, buflen=%d", key, buf, buflen); key->ecpointQ.value = malloc(buflen); if (key->ecpointQ.value == NULL) return SC_ERROR_OUT_OF_MEMORY; key->ecpointQ.len = buflen; memcpy(key->ecpointQ.value, buf, buflen); /* An uncompressed ecpoint is of the form 04||x||y * The 04 indicates uncompressed * x and y are same size, and field_length = sizeof(x) in bits. */ /* TODO: -DEE support more then uncompressed */ key->params.field_length = (ecpoint_len - 1)/2 * 8; if (ecpoint_data) free (ecpoint_data); return r; } int sc_pkcs15_encode_pubkey_ec(sc_context_t *ctx, struct sc_pkcs15_pubkey_ec *key, u8 **buf, size_t *buflen) { *buf = malloc(key->ecpointQ.len); if (*buf == NULL) return SC_ERROR_OUT_OF_MEMORY; memcpy(*buf, key->ecpointQ.value, key->ecpointQ.len); *buflen = key->ecpointQ.len; sc_debug(ctx, SC_LOG_DEBUG_NORMAL,"DEE-EC key->ecpointQ=%p:%d *buf=%p:%d", key->ecpointQ.value, key->ecpointQ.len, *buf, *buflen); return 0; } int sc_pkcs15_encode_pubkey(sc_context_t *ctx, struct sc_pkcs15_pubkey *key, u8 **buf, size_t *len) { if (key->algorithm == SC_ALGORITHM_RSA) return sc_pkcs15_encode_pubkey_rsa(ctx, &key->u.rsa, buf, len); if (key->algorithm == SC_ALGORITHM_DSA) return sc_pkcs15_encode_pubkey_dsa(ctx, &key->u.dsa, buf, len); if (key->algorithm == SC_ALGORITHM_GOSTR3410) return sc_pkcs15_encode_pubkey_gostr3410(ctx, &key->u.gostr3410, buf, len); if (key->algorithm == SC_ALGORITHM_EC) return sc_pkcs15_encode_pubkey_ec(ctx, &key->u.ec, buf, len); sc_debug(ctx, SC_LOG_DEBUG_NORMAL, "Encoding of public key type %u not supported\n", key->algorithm); return SC_ERROR_NOT_SUPPORTED; } int sc_pkcs15_decode_pubkey(sc_context_t *ctx, struct sc_pkcs15_pubkey *key, const u8 *buf, size_t len) { if (key->algorithm == SC_ALGORITHM_RSA) return sc_pkcs15_decode_pubkey_rsa(ctx, &key->u.rsa, buf, len); if (key->algorithm == SC_ALGORITHM_DSA) return sc_pkcs15_decode_pubkey_dsa(ctx, &key->u.dsa, buf, len); if (key->algorithm == SC_ALGORITHM_GOSTR3410) return sc_pkcs15_decode_pubkey_gostr3410(ctx, &key->u.gostr3410, buf, len); if (key->algorithm == SC_ALGORITHM_EC) return sc_pkcs15_decode_pubkey_ec(ctx, &key->u.ec, buf, len); sc_debug(ctx, SC_LOG_DEBUG_NORMAL, "Decoding of public key type %u not supported\n", key->algorithm); return SC_ERROR_NOT_SUPPORTED; } /* * Read public key. */ int sc_pkcs15_read_pubkey(struct sc_pkcs15_card *p15card, const struct sc_pkcs15_object *obj, struct sc_pkcs15_pubkey **out) { struct sc_context *ctx = p15card->card->ctx; const struct sc_pkcs15_pubkey_info *info; struct sc_pkcs15_pubkey *pubkey; u8 *data; size_t len; int algorithm, r; assert(p15card != NULL && obj != NULL && out != NULL); SC_FUNC_CALLED(ctx, SC_LOG_DEBUG_NORMAL); switch (obj->type) { case SC_PKCS15_TYPE_PUBKEY_RSA: algorithm = SC_ALGORITHM_RSA; break; case SC_PKCS15_TYPE_PUBKEY_DSA: algorithm = SC_ALGORITHM_DSA; break; case SC_PKCS15_TYPE_PUBKEY_GOSTR3410: algorithm = SC_ALGORITHM_GOSTR3410; break; case SC_PKCS15_TYPE_PUBKEY_EC: algorithm = SC_ALGORITHM_EC; break; default: SC_TEST_RET(ctx, SC_LOG_DEBUG_NORMAL, SC_ERROR_NOT_SUPPORTED, "Unsupported public key type."); } info = (const struct sc_pkcs15_pubkey_info *) obj->data; if (obj->content.value && obj->content.len) { /* public key data is present as 'direct' value of pkcs#15 object */ data = calloc(1, obj->content.len); if (!data) SC_FUNC_RETURN(ctx, SC_LOG_DEBUG_NORMAL, SC_ERROR_OUT_OF_MEMORY); memcpy(data, obj->content.value, obj->content.len); len = obj->content.len; } else { r = sc_pkcs15_read_file(p15card, &info->path, &data, &len, NULL); SC_TEST_RET(ctx, SC_LOG_DEBUG_NORMAL, r, "Failed to read public key file."); } pubkey = calloc(1, sizeof(struct sc_pkcs15_pubkey)); if (pubkey == NULL) { free(data); SC_FUNC_RETURN(ctx, SC_LOG_DEBUG_NORMAL, SC_ERROR_OUT_OF_MEMORY); } pubkey->algorithm = algorithm; pubkey->data.value = data; pubkey->data.len = len; if (sc_pkcs15_decode_pubkey(ctx, pubkey, data, len)) { free(data); free(pubkey); SC_FUNC_RETURN(ctx, SC_LOG_DEBUG_NORMAL, SC_ERROR_INVALID_ASN1_OBJECT); } *out = pubkey; SC_FUNC_RETURN(ctx, SC_LOG_DEBUG_NORMAL, SC_SUCCESS); } static int sc_pkcs15_dup_bignum (struct sc_pkcs15_bignum *dst, struct sc_pkcs15_bignum *src) { assert(dst && src); if (src->data && src->len) { dst->data = calloc(1, src->len); if (!dst->data) return SC_ERROR_OUT_OF_MEMORY; memcpy(dst->data, src->data, src->len); dst->len = src->len; } return 0; } int sc_pkcs15_pubkey_from_prvkey(struct sc_context *ctx, struct sc_pkcs15_prkey *prvkey, struct sc_pkcs15_pubkey **out) { struct sc_pkcs15_pubkey *pubkey; int rv = SC_SUCCESS; assert(prvkey && out); *out = NULL; pubkey = calloc(1, sizeof(struct sc_pkcs15_pubkey)); if (!pubkey) return SC_ERROR_OUT_OF_MEMORY; pubkey->algorithm = prvkey->algorithm; switch (prvkey->algorithm) { case SC_ALGORITHM_RSA: rv = sc_pkcs15_dup_bignum(&pubkey->u.rsa.modulus, &prvkey->u.rsa.modulus); if (!rv) rv = sc_pkcs15_dup_bignum(&pubkey->u.rsa.exponent, &prvkey->u.rsa.exponent); break; case SC_ALGORITHM_DSA: rv = sc_pkcs15_dup_bignum(&pubkey->u.dsa.pub, &prvkey->u.dsa.pub); if (!rv) rv = sc_pkcs15_dup_bignum(&pubkey->u.dsa.p, &prvkey->u.dsa.p); if (!rv) rv = sc_pkcs15_dup_bignum(&pubkey->u.dsa.q, &prvkey->u.dsa.q); if (!rv) rv = sc_pkcs15_dup_bignum(&pubkey->u.dsa.g, &prvkey->u.dsa.g); break; case SC_ALGORITHM_GOSTR3410: break; default: sc_debug(ctx, SC_LOG_DEBUG_NORMAL, "Unsupported private key algorithm"); return SC_ERROR_NOT_SUPPORTED; } if (rv) sc_pkcs15_free_pubkey(pubkey); else *out = pubkey; return SC_SUCCESS; } void sc_pkcs15_erase_pubkey(struct sc_pkcs15_pubkey *key) { assert(key != NULL); if (key->alg_id) { sc_asn1_clear_algorithm_id(key->alg_id); free(key->alg_id); } switch (key->algorithm) { case SC_ALGORITHM_RSA: if (key->u.rsa.modulus.data) free(key->u.rsa.modulus.data); if (key->u.rsa.exponent.data) free(key->u.rsa.exponent.data); break; case SC_ALGORITHM_DSA: if (key->u.dsa.pub.data) free(key->u.dsa.pub.data); if (key->u.dsa.g.data) free(key->u.dsa.g.data); if (key->u.dsa.p.data) free(key->u.dsa.p.data); if (key->u.dsa.q.data) free(key->u.dsa.q.data); break; case SC_ALGORITHM_GOSTR3410: if (key->u.gostr3410.xy.data) free(key->u.gostr3410.xy.data); break; case SC_ALGORITHM_EC: if (key->u.ec.params.der.value) free(key->u.ec.params.der.value); if (key->u.ec.params.named_curve) free(key->u.ec.params.named_curve); if (key->u.ec.ecpointQ.value) free(key->u.ec.ecpointQ.value); break; } if (key->data.value) free(key->data.value); sc_mem_clear(key, sizeof(*key)); } void sc_pkcs15_free_pubkey(struct sc_pkcs15_pubkey *key) { sc_pkcs15_erase_pubkey(key); free(key); } void sc_pkcs15_free_pubkey_info(sc_pkcs15_pubkey_info_t *key) { if (key->subject.value) free(key->subject.value); sc_pkcs15_free_key_params(&key->params); free(key); } static int sc_pkcs15_read_der_file(sc_context_t *ctx, char * filename, u8 ** buf, size_t * buflen) { int r; int f = -1; size_t len; u8 tagbuf[16]; /* enough to read in the tag and length */ u8 * rbuf = NULL; size_t rbuflen; const u8 * body; size_t bodylen; unsigned int cla_out, tag_out; *buf = NULL; SC_FUNC_CALLED(ctx, SC_LOG_DEBUG_VERBOSE); f = open(filename, O_RDONLY); if (f < 0) { r = SC_ERROR_FILE_NOT_FOUND; goto out; } r = read(f, tagbuf, sizeof(tagbuf)); /* get tag and length */ if (r < 2) { sc_debug(ctx, SC_LOG_DEBUG_NORMAL,"Problem with \"%s\"\n",filename); r = SC_ERROR_DATA_OBJECT_NOT_FOUND; goto out; } len = r; body = tagbuf; if (sc_asn1_read_tag(&body, 0xfffff, &cla_out, &tag_out, &bodylen) != SC_SUCCESS) { sc_debug(ctx, SC_LOG_DEBUG_NORMAL, "DER problem\n"); r = SC_ERROR_INVALID_ASN1_OBJECT; goto out; } rbuflen = body - tagbuf + bodylen; rbuf = malloc(rbuflen); if (rbuf == NULL) { r = SC_ERROR_OUT_OF_MEMORY; goto out; } memcpy(rbuf, tagbuf, len); /* copy first or only part */ if (rbuflen > len) { /* read rest of file */ r = read(f, rbuf + len, rbuflen - len); if (r < (int)(rbuflen - len)) { r = SC_ERROR_INVALID_ASN1_OBJECT; free (rbuf); rbuf = NULL; goto out; } } *buflen = rbuflen; *buf = rbuf; rbuf = NULL; r = rbuflen; out: if (rbuf) free(rbuf); if (f > 0) close(f); SC_FUNC_RETURN(ctx, SC_LOG_DEBUG_NORMAL, r); } /* * can be used as an SC_ASN1_CALLBACK while parsing a certificate, * or can be called from the sc_pkcs15_pubkey_from_spki_filename */ int sc_pkcs15_pubkey_from_spki(sc_context_t *ctx, sc_pkcs15_pubkey_t ** outpubkey, u8 *buf, size_t buflen, int depth) { int r; sc_pkcs15_pubkey_t * pubkey = NULL; sc_pkcs15_der_t pk = { NULL, 0 }; struct sc_algorithm_id pk_alg; struct sc_asn1_entry asn1_pkinfo[3]; struct sc_asn1_entry asn1_ec_pointQ[2]; sc_debug(ctx,SC_LOG_DEBUG_NORMAL,"sc_pkcs15_pubkey_from_spki %p:%d", buf, buflen); memset(&pk_alg, 0, sizeof(pk_alg)); pubkey = calloc(1, sizeof(sc_pkcs15_pubkey_t)); if (pubkey == NULL) { r = SC_ERROR_OUT_OF_MEMORY; goto err; } sc_copy_asn1_entry(c_asn1_pkinfo, asn1_pkinfo); sc_format_asn1_entry(asn1_pkinfo + 0, &pk_alg, NULL, 0); sc_format_asn1_entry(asn1_pkinfo + 1, &pk.value, &pk.len, 0); r = sc_asn1_decode(ctx, asn1_pkinfo, buf, buflen, NULL, NULL); if (r < 0) goto err; pubkey->alg_id = calloc(1, sizeof(struct sc_algorithm_id)); if (pubkey->alg_id == NULL) { r = SC_ERROR_OUT_OF_MEMORY; goto err; } memcpy(pubkey->alg_id, &pk_alg, sizeof(struct sc_algorithm_id)); pubkey->algorithm = pk_alg.algorithm; sc_debug(ctx,SC_LOG_DEBUG_NORMAL,"DEE pk_alg.algorithm=%d",pk_alg.algorithm); /* pk.len is in bits at this point */ switch (pk_alg.algorithm) { case SC_ALGORITHM_EC: /* * For most keys, the above ASN.1 parsing of a key works, but for EC keys, * the ec_pointQ in a certificate is stored in a bitstring, but * in PKCS#11 it is an octet string and we just decoded its * contents from the bitstring in the certificate. So we need to encode it * back to an octet string so we can store it as an octet string. */ pk.len >>= 3; /* Assume it is multiple of 8 */ // pubkey->u.ec.field_length = (pk.len - 1)/2 * 8; sc_copy_asn1_entry(c_asn1_ec_pointQ, asn1_ec_pointQ); sc_format_asn1_entry(&asn1_ec_pointQ[0], pk.value, &pk.len, 1); r = sc_asn1_encode(ctx, asn1_ec_pointQ, &pubkey->data.value, &pubkey->data.len); sc_debug(ctx,SC_LOG_DEBUG_NORMAL,"DEE r=%d data=%p:%d", r,pubkey->data.value, pubkey->data.len); break; default: pk.len >>= 3; /* convert number of bits to bytes */ pubkey->data = pk; /* save in publey */ pk.value = NULL; break; } /* Now decode what every is in pk as it depends on the key algorthim */ r = sc_pkcs15_decode_pubkey(ctx, pubkey, pubkey->data.value, pubkey->data.len); if (r < 0) goto err; *outpubkey = pubkey; pubkey = NULL; return 0; err: if (pubkey) free(pubkey); if (pk.value) free(pk.value); SC_TEST_RET(ctx, SC_LOG_DEBUG_NORMAL, r, "ASN.1 parsing of subjectPubkeyInfo failed"); SC_FUNC_RETURN(ctx, SC_LOG_DEBUG_NORMAL, r); } int sc_pkcs15_pubkey_from_spki_filename(sc_context_t *ctx, char * filename, sc_pkcs15_pubkey_t ** outpubkey) { int r; u8 * buf = NULL; size_t buflen = 0; sc_pkcs15_pubkey_t * pubkey = NULL; struct sc_asn1_entry asn1_spki[] = { { "PublicKeyInfo",SC_ASN1_CALLBACK, SC_ASN1_TAG_SEQUENCE | SC_ASN1_CONS, 0, sc_pkcs15_pubkey_from_spki, &pubkey}, { NULL, 0, 0, 0, NULL, NULL } }; *outpubkey = NULL; r = sc_pkcs15_read_der_file(ctx, filename, &buf, &buflen); if (r < 0) return r; r = sc_asn1_decode(ctx, asn1_spki, buf, buflen, NULL, NULL); if (buf) free(buf); *outpubkey = pubkey; return r; } static struct ec_curve_info { const char *name; const char *oid_str; const char *oid_encoded; size_t size; } ec_curve_infos[] = { {"prime256v1", "1.2.840.10045.3.1.7", "06082A8648CE3D030107", 256}, {"secp256r1", "1.2.840.10045.3.1.7", "06082A8648CE3D030107", 256}, {"ansiX9p256r1", "1.2.840.10045.3.1.7", "06082A8648CE3D030107", 256}, {"secp384r1", "1.3.132.0.34", "06052B81040022", 384}, {"prime384v1", "1.3.132.0.34", "06052B81040022", 384}, {"ansiX9p384r1", "1.3.132.0.34", "06052B81040022", 384}, {NULL, NULL, NULL, 0}, }; int sc_pkcs15_fix_ec_parameters(struct sc_context *ctx, struct sc_pkcs15_ec_parameters *ecparams) { int rv, ii; LOG_FUNC_CALLED(ctx); /* In PKCS#11 EC parameters arrives in DER encoded form */ if (ecparams->der.value && ecparams->der.len) { for (ii=0; ec_curve_infos[ii].name; ii++) { struct sc_object_id id; unsigned char *buf = NULL; size_t len = 0; sc_format_oid(&id, ec_curve_infos[ii].oid_str); sc_encode_oid (ctx, &id, &buf, &len); if (ecparams->der.len == len && !memcmp(ecparams->der.value, buf, len)) { free(buf); break; } free(buf); } /* TODO: support of explicit EC parameters form */ if (!ec_curve_infos[ii].name) LOG_TEST_RET(ctx, SC_ERROR_NOT_SUPPORTED, "Unsupported named curve"); sc_debug(ctx,SC_LOG_DEBUG_NORMAL, "Found known curve '%s'", ec_curve_infos[ii].name); if (!ecparams->named_curve) { ecparams->named_curve = strdup(ec_curve_infos[ii].name); if (!ecparams->named_curve) SC_FUNC_RETURN(ctx, SC_LOG_DEBUG_NORMAL, SC_ERROR_OUT_OF_MEMORY); sc_debug(ctx,SC_LOG_DEBUG_NORMAL, "Curve name: '%s'", ecparams->named_curve); } if (ecparams->id.value[0] <=0 || ecparams->id.value[1] <=0) sc_format_oid(&ecparams->id, ec_curve_infos[ii].oid_str); ecparams->field_length = ec_curve_infos[ii].size; sc_debug(ctx,SC_LOG_DEBUG_NORMAL, "Curve length %i", ecparams->field_length); } else if (ecparams->named_curve) { /* it can be name of curve or OID in ASCII form */ for (ii=0; ec_curve_infos[ii].name; ii++) { if (!strcmp(ec_curve_infos[ii].name, ecparams->named_curve)) break; if (!strcmp(ec_curve_infos[ii].oid_str, ecparams->named_curve)) break; } if (!ec_curve_infos[ii].name) LOG_TEST_RET(ctx, SC_ERROR_NOT_SUPPORTED, "Unsupported named curve"); rv = sc_format_oid(&ecparams->id, ec_curve_infos[ii].oid_str); LOG_TEST_RET(ctx, rv, "Invalid OID format"); ecparams->field_length = ec_curve_infos[ii].size; if (!ecparams->der.value || !ecparams->der.len) { rv = sc_encode_oid (ctx, &ecparams->id, &ecparams->der.value, &ecparams->der.len); LOG_TEST_RET(ctx, rv, "Cannot encode object ID"); } } else if (ecparams->id.value[0] > 0 && ecparams->id.value[1] > 0) { LOG_TEST_RET(ctx, SC_ERROR_NOT_IMPLEMENTED, "EC parameters has to be presented as a named curve or explicit data"); } LOG_FUNC_RETURN(ctx, SC_SUCCESS); }