/** * \file lib/fko_digest.c * * \brief Create the base64-encoded digest for the current spa data. The * digest used is determined by the digest_type setting in the * fko context. */ /* Fwknop is developed primarily by the people listed in the file 'AUTHORS'. * Copyright (C) 2009-2015 fwknop developers and contributors. For a full * list of contributors, see the file 'CREDITS'. * * License (GNU General Public License): * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * * This program 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 General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 * USA * ***************************************************************************** */ #include "fko_common.h" #include "fko.h" #include "digest.h" /* Set the SPA digest type. */ static int set_spa_digest_type(fko_ctx_t ctx, short *digest_type_field, const short digest_type) { #if HAVE_LIBFIU fiu_return_on("set_spa_digest_type_init", FKO_ERROR_CTX_NOT_INITIALIZED); #endif /* Must be initialized */ if(!CTX_INITIALIZED(ctx)) return(FKO_ERROR_CTX_NOT_INITIALIZED); #if HAVE_LIBFIU fiu_return_on("set_spa_digest_type_val", FKO_ERROR_INVALID_DATA_ENCODE_DIGEST_VALIDFAIL); #endif if(digest_type < 1 || digest_type >= FKO_LAST_DIGEST_TYPE) return(FKO_ERROR_INVALID_DATA_ENCODE_DIGEST_VALIDFAIL); *digest_type_field = digest_type; ctx->state |= FKO_DIGEST_TYPE_MODIFIED; return(FKO_SUCCESS); } int fko_set_spa_digest_type(fko_ctx_t ctx, const short digest_type) { return set_spa_digest_type(ctx, &ctx->digest_type, digest_type); } int fko_set_raw_spa_digest_type(fko_ctx_t ctx, const short raw_digest_type) { return set_spa_digest_type(ctx, &ctx->raw_digest_type, raw_digest_type); } /* Return the SPA digest type. */ int fko_get_spa_digest_type(fko_ctx_t ctx, short *digest_type) { #if HAVE_LIBFIU fiu_return_on("fko_get_spa_digest_type_init", FKO_ERROR_CTX_NOT_INITIALIZED); #endif /* Must be initialized */ if(!CTX_INITIALIZED(ctx)) return(FKO_ERROR_CTX_NOT_INITIALIZED); #if HAVE_LIBFIU fiu_return_on("fko_get_spa_digest_type_val", FKO_ERROR_INVALID_DATA); #endif if(digest_type == NULL) return(FKO_ERROR_INVALID_DATA); *digest_type = ctx->digest_type; return(FKO_SUCCESS); } /* Return the SPA digest type. */ int fko_get_raw_spa_digest_type(fko_ctx_t ctx, short *raw_digest_type) { #if HAVE_LIBFIU fiu_return_on("fko_get_raw_spa_digest_type_init", FKO_ERROR_CTX_NOT_INITIALIZED); #endif /* Must be initialized */ if(!CTX_INITIALIZED(ctx)) return(FKO_ERROR_CTX_NOT_INITIALIZED); *raw_digest_type = ctx->raw_digest_type; return(FKO_SUCCESS); } static int set_digest(char *data, char **digest, short digest_type, int *digest_len) { char *md = NULL; int data_len; data_len = strnlen(data, MAX_SPA_ENCODED_MSG_SIZE); #if HAVE_LIBFIU fiu_return_on("set_digest_toobig", FKO_ERROR_INVALID_DATA_ENCODE_DIGEST_TOOBIG); #endif if(data_len == MAX_SPA_ENCODED_MSG_SIZE) return(FKO_ERROR_INVALID_DATA_ENCODE_DIGEST_TOOBIG); #if HAVE_LIBFIU fiu_return_on("set_digest_invalidtype", FKO_ERROR_INVALID_DIGEST_TYPE); fiu_return_on("set_digest_calloc", FKO_ERROR_MEMORY_ALLOCATION); #endif switch(digest_type) { case FKO_DIGEST_MD5: md = calloc(1, MD_HEX_SIZE(MD5_DIGEST_LEN)+1); if(md == NULL) return(FKO_ERROR_MEMORY_ALLOCATION); md5_base64(md, (unsigned char*)data, data_len); *digest_len = MD5_B64_LEN; break; case FKO_DIGEST_SHA1: md = calloc(1, MD_HEX_SIZE(SHA1_DIGEST_LEN)+1); if(md == NULL) return(FKO_ERROR_MEMORY_ALLOCATION); sha1_base64(md, (unsigned char*)data, data_len); *digest_len = SHA1_B64_LEN; break; case FKO_DIGEST_SHA256: md = calloc(1, MD_HEX_SIZE(SHA256_DIGEST_LEN)+1); if(md == NULL) return(FKO_ERROR_MEMORY_ALLOCATION); sha256_base64(md, (unsigned char*)data, data_len); *digest_len = SHA256_B64_LEN; break; case FKO_DIGEST_SHA384: md = calloc(1, MD_HEX_SIZE(SHA384_DIGEST_LEN)+1); if(md == NULL) return(FKO_ERROR_MEMORY_ALLOCATION); sha384_base64(md, (unsigned char*)data, data_len); *digest_len = SHA384_B64_LEN; break; case FKO_DIGEST_SHA512: md = calloc(1, MD_HEX_SIZE(SHA512_DIGEST_LEN)+1); if(md == NULL) return(FKO_ERROR_MEMORY_ALLOCATION); sha512_base64(md, (unsigned char*)data, data_len); *digest_len = SHA512_B64_LEN; break; case FKO_DIGEST_SHA3_256: md = calloc(1, MD_HEX_SIZE(SHA3_256_DIGEST_LEN)+1); if(md == NULL) return(FKO_ERROR_MEMORY_ALLOCATION); sha3_256_base64(md, (unsigned char*)data, data_len); *digest_len = SHA3_256_B64_LEN; break; case FKO_DIGEST_SHA3_512: md = calloc(1, MD_HEX_SIZE(SHA3_512_DIGEST_LEN)+1); if(md == NULL) return(FKO_ERROR_MEMORY_ALLOCATION); sha3_512_base64(md, (unsigned char*)data, data_len); *digest_len = SHA3_512_B64_LEN; break; default: return(FKO_ERROR_INVALID_DIGEST_TYPE); } /* Just in case this is a subsequent call to this function. We * do not want to be leaking memory. */ if(*digest != NULL) free(*digest); *digest = md; return(FKO_SUCCESS); } int fko_set_spa_digest(fko_ctx_t ctx) { #if HAVE_LIBFIU fiu_return_on("fko_set_spa_digest_init", FKO_ERROR_CTX_NOT_INITIALIZED); #endif /* Must be initialized */ if(!CTX_INITIALIZED(ctx)) return(FKO_ERROR_CTX_NOT_INITIALIZED); /* Must have encoded message data to start with. */ if(ctx->encoded_msg == NULL) return(FKO_ERROR_MISSING_ENCODED_DATA); #if HAVE_LIBFIU fiu_return_on("fko_set_spa_digest_encoded", FKO_ERROR_MISSING_ENCODED_DATA); #endif return set_digest(ctx->encoded_msg, &ctx->digest, ctx->digest_type, &ctx->digest_len); } int fko_set_raw_spa_digest(fko_ctx_t ctx) { #if HAVE_LIBFIU fiu_return_on("fko_set_raw_spa_digest_init", FKO_ERROR_CTX_NOT_INITIALIZED); #endif /* Must be initialized */ if(!CTX_INITIALIZED(ctx)) return(FKO_ERROR_CTX_NOT_INITIALIZED); /* Must have encoded message data to start with. */ if(ctx->encrypted_msg == NULL) return(FKO_ERROR_MISSING_ENCODED_DATA); #if HAVE_LIBFIU fiu_return_on("fko_set_raw_spa_digest_val", FKO_ERROR_MISSING_ENCODED_DATA); #endif return set_digest(ctx->encrypted_msg, &ctx->raw_digest, ctx->raw_digest_type, &ctx->raw_digest_len); } int fko_get_spa_digest(fko_ctx_t ctx, char **md) { #if HAVE_LIBFIU fiu_return_on("fko_get_spa_digest_init", FKO_ERROR_CTX_NOT_INITIALIZED); #endif /* Must be initialized */ if(!CTX_INITIALIZED(ctx)) return(FKO_ERROR_CTX_NOT_INITIALIZED); #if HAVE_LIBFIU fiu_return_on("fko_get_spa_digest_val", FKO_ERROR_INVALID_DATA); #endif if(md == NULL) return(FKO_ERROR_INVALID_DATA); *md = ctx->digest; return(FKO_SUCCESS); } int fko_get_raw_spa_digest(fko_ctx_t ctx, char **md) { #if HAVE_LIBFIU fiu_return_on("fko_get_raw_spa_digest_init", FKO_ERROR_CTX_NOT_INITIALIZED); #endif /* Must be initialized */ if(!CTX_INITIALIZED(ctx)) return(FKO_ERROR_CTX_NOT_INITIALIZED); *md = ctx->raw_digest; return(FKO_SUCCESS); } /***EOF***/