/* * pkcs15-sec.c: PKCS#15 cryptography functions * * Copyright (C) 2001, 2002 Juha Yrjölä * Copyrigth (C) 2007 Nils Larsch * * 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 #ifdef HAVE_UNISTD_H #include #endif #include "internal.h" #include "pkcs15.h" static int select_key_file(struct sc_pkcs15_card *p15card, const struct sc_pkcs15_prkey_info *prkey, sc_security_env_t *senv) { sc_context_t *ctx = p15card->card->ctx; sc_path_t path, file_id; int r; LOG_FUNC_CALLED(ctx); if (prkey->path.len < 2) LOG_TEST_RET(ctx, SC_ERROR_INVALID_ARGUMENTS, "invalid private key path"); memset(&path, 0, sizeof(sc_path_t)); memset(&file_id, 0, sizeof(sc_path_t)); /* For pkcs15-emulated cards, the file_app may be NULL, in that case we allways assume an absolute path */ if (prkey->path.len == 2 && p15card->file_app != NULL) { /* Path is relative to app. DF */ path = p15card->file_app->path; file_id = prkey->path; sc_append_path(&path, &file_id); } else { path = prkey->path; memcpy(file_id.value, prkey->path.value + prkey->path.len - 2, 2); file_id.len = 2; file_id.type = SC_PATH_TYPE_FILE_ID; } senv->file_ref = file_id; senv->flags |= SC_SEC_ENV_FILE_REF_PRESENT; r = sc_select_file(p15card->card, &path, NULL); LOG_TEST_RET(ctx, r, "sc_select_file() failed"); LOG_FUNC_RETURN(ctx, SC_SUCCESS); } int sc_pkcs15_decipher(struct sc_pkcs15_card *p15card, const struct sc_pkcs15_object *obj, unsigned long flags, const u8 * in, size_t inlen, u8 *out, size_t outlen) { sc_context_t *ctx = p15card->card->ctx; int r; sc_algorithm_info_t *alg_info; sc_security_env_t senv; const struct sc_pkcs15_prkey_info *prkey = (const struct sc_pkcs15_prkey_info *) obj->data; unsigned long pad_flags = 0, sec_flags = 0; LOG_FUNC_CALLED(ctx); memset(&senv, 0, sizeof(senv)); /* Card driver should have the access to supported algorithms from 'tokenInfo'. So that * it can get value of card specific 'AlgorithmInfo::algRef'. */ memcpy(&senv.supported_algos, &p15card->tokeninfo->supported_algos, sizeof(senv.supported_algos)); /* If the key is not native, we can't operate with it. */ if (!prkey->native) LOG_TEST_RET(ctx, SC_ERROR_NOT_SUPPORTED, "This key is not native, cannot operate with it"); if (!(prkey->usage & (SC_PKCS15_PRKEY_USAGE_DECRYPT|SC_PKCS15_PRKEY_USAGE_UNWRAP))) LOG_TEST_RET(ctx, SC_ERROR_NOT_ALLOWED, "This key cannot be used for decryption"); switch (obj->type) { case SC_PKCS15_TYPE_PRKEY_RSA: alg_info = sc_card_find_rsa_alg(p15card->card, prkey->modulus_length); if (alg_info == NULL) { sc_log(ctx, "Card does not support RSA with key length %d", prkey->modulus_length); LOG_FUNC_RETURN(ctx, SC_ERROR_NOT_SUPPORTED); } senv.algorithm = SC_ALGORITHM_RSA; break; case SC_PKCS15_TYPE_PRKEY_GOSTR3410: alg_info = sc_card_find_gostr3410_alg(p15card->card, prkey->modulus_length); if (alg_info == NULL) { sc_log(ctx, "Card does not support GOSTR3410 with key length %d", prkey->modulus_length); LOG_FUNC_RETURN(ctx, SC_ERROR_NOT_SUPPORTED); } senv.algorithm = SC_ALGORITHM_GOSTR3410; break; default: LOG_TEST_RET(ctx, SC_ERROR_NOT_SUPPORTED,"Key type not supported"); } r = sc_get_encoding_flags(ctx, flags, alg_info->flags, &pad_flags, &sec_flags); LOG_TEST_RET(ctx, r, "cannot encode security operation flags"); senv.algorithm_flags = sec_flags; senv.operation = SC_SEC_OPERATION_DECIPHER; senv.flags = 0; /* optional keyReference attribute (the default value is -1) */ if (prkey->key_reference >= 0) { senv.key_ref_len = 1; senv.key_ref[0] = prkey->key_reference & 0xFF; senv.flags |= SC_SEC_ENV_KEY_REF_PRESENT; } senv.flags |= SC_SEC_ENV_ALG_PRESENT; r = sc_lock(p15card->card); LOG_TEST_RET(ctx, r, "sc_lock() failed"); if (prkey->path.len != 0) { r = select_key_file(p15card, prkey, &senv); if (r < 0) { sc_unlock(p15card->card); LOG_TEST_RET(ctx, r,"Unable to select private key file"); } } r = sc_set_security_env(p15card->card, &senv, 0); if (r < 0) { sc_unlock(p15card->card); LOG_TEST_RET(ctx, r, "sc_set_security_env() failed"); } r = sc_decipher(p15card->card, in, inlen, out, outlen); if (r == SC_ERROR_SECURITY_STATUS_NOT_SATISFIED) { if (sc_pkcs15_pincache_revalidate(p15card, obj) == SC_SUCCESS) r = sc_decipher(p15card->card, in, inlen, out, outlen); } sc_unlock(p15card->card); LOG_TEST_RET(ctx, r, "sc_decipher() failed"); /* Strip any padding */ if (pad_flags & SC_ALGORITHM_RSA_PAD_PKCS1) { size_t s = r; r = sc_pkcs1_strip_02_padding(out, s, out, &s); LOG_TEST_RET(ctx, r, "Invalid PKCS#1 padding"); } LOG_FUNC_RETURN(ctx, r); } /* copied from pkcs15-cardos.c */ #define USAGE_ANY_SIGN (SC_PKCS15_PRKEY_USAGE_SIGN|\ SC_PKCS15_PRKEY_USAGE_NONREPUDIATION) #define USAGE_ANY_DECIPHER (SC_PKCS15_PRKEY_USAGE_DECRYPT|\ SC_PKCS15_PRKEY_USAGE_UNWRAP) int sc_pkcs15_compute_signature(struct sc_pkcs15_card *p15card, const struct sc_pkcs15_object *obj, unsigned long flags, const u8 *in, size_t inlen, u8 *out, size_t outlen) { sc_context_t *ctx = p15card->card->ctx; int r; sc_security_env_t senv; sc_algorithm_info_t *alg_info; const struct sc_pkcs15_prkey_info *prkey = (const struct sc_pkcs15_prkey_info *) obj->data; u8 buf[512], *tmp; size_t modlen; unsigned long pad_flags = 0, sec_flags = 0; LOG_FUNC_CALLED(ctx); sc_log(ctx, "security operation flags 0x%X", flags); memset(&senv, 0, sizeof(senv)); /* Card driver should have the access to supported algorithms from 'tokenInfo'. So that * it can get value of card specific 'AlgorithmInfo::algRef'. */ memcpy(&senv.supported_algos, &p15card->tokeninfo->supported_algos, sizeof(senv.supported_algos)); if ((obj->type & SC_PKCS15_TYPE_CLASS_MASK) != SC_PKCS15_TYPE_PRKEY) LOG_TEST_RET(ctx, SC_ERROR_NOT_ALLOWED, "This is not a private key"); /* If the key is not native, we can't operate with it. */ if (!prkey->native) LOG_TEST_RET(ctx, SC_ERROR_NOT_SUPPORTED, "This key is not native, cannot operate with it"); if (!(prkey->usage & (SC_PKCS15_PRKEY_USAGE_SIGN|SC_PKCS15_PRKEY_USAGE_SIGNRECOVER| SC_PKCS15_PRKEY_USAGE_NONREPUDIATION))) LOG_TEST_RET(ctx, SC_ERROR_NOT_ALLOWED, "This key cannot be used for signing"); switch (obj->type) { case SC_PKCS15_TYPE_PRKEY_RSA: modlen = prkey->modulus_length / 8; alg_info = sc_card_find_rsa_alg(p15card->card, prkey->modulus_length); if (alg_info == NULL) { sc_log(ctx, "Card does not support RSA with key length %d", prkey->modulus_length); LOG_FUNC_RETURN(ctx, SC_ERROR_NOT_SUPPORTED); } senv.flags |= SC_SEC_ENV_ALG_PRESENT; senv.algorithm = SC_ALGORITHM_RSA; break; case SC_PKCS15_TYPE_PRKEY_GOSTR3410: modlen = (prkey->modulus_length + 7) / 8 * 2; alg_info = sc_card_find_gostr3410_alg(p15card->card, prkey->modulus_length); if (alg_info == NULL) { sc_log(ctx, "Card does not support GOSTR3410 with key length %d", prkey->modulus_length); LOG_FUNC_RETURN(ctx, SC_ERROR_NOT_SUPPORTED); } senv.flags |= SC_SEC_ENV_ALG_PRESENT; senv.algorithm = SC_ALGORITHM_GOSTR3410; break; case SC_PKCS15_TYPE_PRKEY_EC: modlen = ((prkey->field_length +7) / 8) * 2; /* 2*nLen */ alg_info = sc_card_find_ec_alg(p15card->card, prkey->field_length); if (alg_info == NULL) { sc_log(ctx, "Card does not support EC with field_size %d", prkey->field_length); LOG_FUNC_RETURN(ctx, SC_ERROR_NOT_SUPPORTED); } senv.algorithm = SC_ALGORITHM_EC; senv.flags |= SC_SEC_ENV_ALG_PRESENT; senv.flags |= SC_SEC_ENV_ALG_REF_PRESENT; senv.algorithm_ref = prkey->field_length; break; /* add other crypto types here */ default: LOG_TEST_RET(ctx, SC_ERROR_NOT_SUPPORTED, "Key type not supported"); } /* Probably never happens, but better make sure */ if (inlen > sizeof(buf) || outlen < modlen) LOG_FUNC_RETURN(ctx, SC_ERROR_BUFFER_TOO_SMALL); memcpy(buf, in, inlen); tmp = buf; /* flags: the requested algo * algo_info->flags: what is supported by the card * senv.algorithm_flags: what the card will have to do */ /* if the card has SC_ALGORITHM_NEED_USAGE set, and the key is for signing and decryption, we need to emulate signing */ /* TODO: -DEE assume only RSA keys will ever use _NEED_USAGE */ sc_log(ctx, "supported algorithm flags 0x%X, private key usage 0x%X", alg_info->flags, prkey->usage); if ((alg_info->flags & SC_ALGORITHM_NEED_USAGE) && ((prkey->usage & USAGE_ANY_SIGN) && (prkey->usage & USAGE_ANY_DECIPHER)) ) { size_t tmplen = sizeof(buf); if (flags & SC_ALGORITHM_RSA_RAW) { r = sc_pkcs15_decipher(p15card, obj,flags, in, inlen, out, outlen); LOG_FUNC_RETURN(ctx, r); } if (modlen > tmplen) LOG_TEST_RET(ctx, SC_ERROR_NOT_ALLOWED, "Buffer too small, needs recompile!"); r = sc_pkcs1_encode(ctx, flags, in, inlen, buf, &tmplen, modlen); /* no padding needed - already done */ flags &= ~SC_ALGORITHM_RSA_PADS; /* instead use raw rsa */ flags |= SC_ALGORITHM_RSA_RAW; LOG_TEST_RET(ctx, r, "Unable to add padding"); r = sc_pkcs15_decipher(p15card, obj,flags, buf, modlen, out, outlen); LOG_FUNC_RETURN(ctx, r); } /* If the card doesn't support the requested algorithm, see if we * can strip the input so a more restrictive algo can be used */ if ((flags == (SC_ALGORITHM_RSA_PAD_PKCS1 | SC_ALGORITHM_RSA_HASH_NONE)) && !(alg_info->flags & (SC_ALGORITHM_RSA_RAW | SC_ALGORITHM_RSA_HASH_NONE))) { unsigned int algo; size_t tmplen = sizeof(buf); r = sc_pkcs1_strip_digest_info_prefix(&algo, tmp, inlen, tmp, &tmplen); if (r != SC_SUCCESS || algo == SC_ALGORITHM_RSA_HASH_NONE) { sc_mem_clear(buf, sizeof(buf)); LOG_FUNC_RETURN(ctx, SC_ERROR_INVALID_DATA); } flags &= ~SC_ALGORITHM_RSA_HASH_NONE; flags |= algo; inlen = tmplen; } r = sc_get_encoding_flags(ctx, flags, alg_info->flags, &pad_flags, &sec_flags); if (r != SC_SUCCESS) { sc_mem_clear(buf, sizeof(buf)); LOG_FUNC_RETURN(ctx, r); } senv.algorithm_flags = sec_flags; sc_log(ctx, "DEE flags:0x%8.8x alg_info->flags:0x%8.8x pad:0x%8.8x sec:0x%8.8x", flags, alg_info->flags, pad_flags, sec_flags); /* add the padding bytes (if necessary) */ if (pad_flags != 0) { size_t tmplen = sizeof(buf); r = sc_pkcs1_encode(ctx, pad_flags, tmp, inlen, tmp, &tmplen, modlen); SC_TEST_RET(ctx, SC_LOG_DEBUG_NORMAL, r, "Unable to add padding"); inlen = tmplen; } else if ( senv.algorithm == SC_ALGORITHM_RSA && (flags & SC_ALGORITHM_RSA_PADS) == SC_ALGORITHM_RSA_PAD_NONE) { /* Add zero-padding if input is shorter than the modulus */ if (inlen < modlen) { if (modlen > sizeof(buf)) return SC_ERROR_BUFFER_TOO_SMALL; memmove(tmp+modlen-inlen, tmp, inlen); memset(tmp, 0, modlen-inlen); } } senv.operation = SC_SEC_OPERATION_SIGN; /* optional keyReference attribute (the default value is -1) */ if (prkey->key_reference >= 0) { senv.key_ref_len = 1; senv.key_ref[0] = prkey->key_reference & 0xFF; senv.flags |= SC_SEC_ENV_KEY_REF_PRESENT; } r = sc_lock(p15card->card); LOG_TEST_RET(ctx, r, "sc_lock() failed"); if (prkey->path.len != 0) { r = select_key_file(p15card, prkey, &senv); if (r < 0) { sc_unlock(p15card->card); LOG_TEST_RET(ctx, r,"Unable to select private key file"); } } r = sc_set_security_env(p15card->card, &senv, 0); if (r < 0) { sc_unlock(p15card->card); LOG_TEST_RET(ctx, r, "sc_set_security_env() failed"); } r = sc_compute_signature(p15card->card, tmp, inlen, out, outlen); if (r == SC_ERROR_SECURITY_STATUS_NOT_SATISFIED) { if (sc_pkcs15_pincache_revalidate(p15card, obj) == SC_SUCCESS) r = sc_compute_signature(p15card->card, tmp, inlen, out, outlen); } sc_mem_clear(buf, sizeof(buf)); sc_unlock(p15card->card); LOG_TEST_RET(ctx, r, "sc_compute_signature() failed"); LOG_FUNC_RETURN(ctx, r); }