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Direktori : /proc/self/root/proc/self/root/usr/include/mysql/server/mysql/ |
Current File : //proc/self/root/proc/self/root/usr/include/mysql/server/mysql/service_encryption.h |
#ifndef MYSQL_SERVICE_ENCRYPTION_INCLUDED /* Copyright (c) 2015, MariaDB 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; version 2 of the License. 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., 51 Franklin St, Fifth Floor, Boston, MA 02110-1335 USA */ /** @file encryption service Functions to support data encryption and encryption key management. They are normally implemented in an encryption plugin, so this service connects encryption *consumers* (e.g. storage engines) to the encryption *provider* (encryption plugin). */ #ifdef __cplusplus extern "C" { #endif #ifndef MYSQL_ABI_CHECK #ifdef _WIN32 #include <malloc.h> #ifndef __cplusplus #define inline __inline #endif #else #include <stdlib.h> #ifdef HAVE_ALLOCA_H #include <alloca.h> #endif #endif #endif /* returned from encryption_key_get_latest_version() */ #define ENCRYPTION_KEY_VERSION_INVALID (~(unsigned int)0) #define ENCRYPTION_KEY_NOT_ENCRYPTED (0) #define ENCRYPTION_KEY_SYSTEM_DATA 1 #define ENCRYPTION_KEY_TEMPORARY_DATA 2 /* returned from encryption_key_get() */ #define ENCRYPTION_KEY_BUFFER_TOO_SMALL (100) #define ENCRYPTION_FLAG_DECRYPT 0 #define ENCRYPTION_FLAG_ENCRYPT 1 #define ENCRYPTION_FLAG_NOPAD 2 struct encryption_service_st { unsigned int (*encryption_key_get_latest_version_func)(unsigned int key_id); unsigned int (*encryption_key_get_func)(unsigned int key_id, unsigned int key_version, unsigned char* buffer, unsigned int* length); unsigned int (*encryption_ctx_size_func)(unsigned int key_id, unsigned int key_version); int (*encryption_ctx_init_func)(void *ctx, const unsigned char* key, unsigned int klen, const unsigned char* iv, unsigned int ivlen, int flags, unsigned int key_id, unsigned int key_version); int (*encryption_ctx_update_func)(void *ctx, const unsigned char* src, unsigned int slen, unsigned char* dst, unsigned int* dlen); int (*encryption_ctx_finish_func)(void *ctx, unsigned char* dst, unsigned int* dlen); unsigned int (*encryption_encrypted_length_func)(unsigned int slen, unsigned int key_id, unsigned int key_version); }; #ifdef MYSQL_DYNAMIC_PLUGIN extern struct encryption_service_st *encryption_service; #define encryption_key_get_latest_version(KI) encryption_service->encryption_key_get_latest_version_func(KI) #define encryption_key_get(KI,KV,K,S) encryption_service->encryption_key_get_func((KI),(KV),(K),(S)) #define encryption_ctx_size(KI,KV) encryption_service->encryption_ctx_size_func((KI),(KV)) #define encryption_ctx_init(CTX,K,KL,IV,IVL,F,KI,KV) encryption_service->encryption_ctx_init_func((CTX),(K),(KL),(IV),(IVL),(F),(KI),(KV)) #define encryption_ctx_update(CTX,S,SL,D,DL) encryption_service->encryption_ctx_update_func((CTX),(S),(SL),(D),(DL)) #define encryption_ctx_finish(CTX,D,DL) encryption_service->encryption_ctx_finish_func((CTX),(D),(DL)) #define encryption_encrypted_length(SL,KI,KV) encryption_service->encryption_encrypted_length_func((SL),(KI),(KV)) #else extern struct encryption_service_st encryption_handler; #define encryption_key_get_latest_version(KI) encryption_handler.encryption_key_get_latest_version_func(KI) #define encryption_key_get(KI,KV,K,S) encryption_handler.encryption_key_get_func((KI),(KV),(K),(S)) #define encryption_ctx_size(KI,KV) encryption_handler.encryption_ctx_size_func((KI),(KV)) #define encryption_ctx_init(CTX,K,KL,IV,IVL,F,KI,KV) encryption_handler.encryption_ctx_init_func((CTX),(K),(KL),(IV),(IVL),(F),(KI),(KV)) #define encryption_ctx_update(CTX,S,SL,D,DL) encryption_handler.encryption_ctx_update_func((CTX),(S),(SL),(D),(DL)) #define encryption_ctx_finish(CTX,D,DL) encryption_handler.encryption_ctx_finish_func((CTX),(D),(DL)) #define encryption_encrypted_length(SL,KI,KV) encryption_handler.encryption_encrypted_length_func((SL),(KI),(KV)) #endif static inline unsigned int encryption_key_id_exists(unsigned int id) { return encryption_key_get_latest_version(id) != ENCRYPTION_KEY_VERSION_INVALID; } static inline unsigned int encryption_key_version_exists(unsigned int id, unsigned int version) { unsigned int unused; return encryption_key_get(id, version, NULL, &unused) != ENCRYPTION_KEY_VERSION_INVALID; } static inline int encryption_crypt(const unsigned char* src, unsigned int slen, unsigned char* dst, unsigned int* dlen, const unsigned char* key, unsigned int klen, const unsigned char* iv, unsigned int ivlen, int flags, unsigned int key_id, unsigned int key_version) { void *ctx= alloca(encryption_ctx_size(key_id, key_version)); int res1, res2; unsigned int d1, d2; if ((res1= encryption_ctx_init(ctx, key, klen, iv, ivlen, flags, key_id, key_version))) return res1; res1= encryption_ctx_update(ctx, src, slen, dst, &d1); res2= encryption_ctx_finish(ctx, dst + d1, &d2); *dlen= d1 + d2; return res1 ? res1 : res2; } #ifdef __cplusplus } #endif #define MYSQL_SERVICE_ENCRYPTION_INCLUDED #endif