/* 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 02110-1301 USA */ #include #include #include "log.h" #include "sql_plugin.h" #include /* there can be only one encryption plugin enabled */ static plugin_ref encryption_manager= 0; struct encryption_service_st encryption_handler; extern "C" { uint no_key(uint) { return ENCRYPTION_KEY_VERSION_INVALID; } static int ctx_init(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) { return my_aes_crypt_init(ctx, MY_AES_CBC, flags, key, klen, iv, ivlen); } static unsigned int get_length(unsigned int slen, unsigned int key_id, unsigned int key_version) { return my_aes_get_size(MY_AES_CBC, slen); } } /* extern "C" */ int initialize_encryption_plugin(st_plugin_int *plugin) { if (encryption_manager) return 1; if (plugin->plugin->init && plugin->plugin->init(plugin)) { sql_print_error("Plugin '%s' init function returned error.", plugin->name.str); return 1; } encryption_manager= plugin_lock(NULL, plugin_int_to_ref(plugin)); st_mariadb_encryption *handle= (struct st_mariadb_encryption*) plugin->plugin->info; /* Copmiler on Spark doesn't like the '?' operator here as it belives the (uint (*)...) implies the C++ call model. */ if (handle->crypt_ctx_size) encryption_handler.encryption_ctx_size_func= handle->crypt_ctx_size; else encryption_handler.encryption_ctx_size_func= (uint (*)(unsigned int, unsigned int))my_aes_ctx_size; encryption_handler.encryption_ctx_init_func= handle->crypt_ctx_init ? handle->crypt_ctx_init : ctx_init; encryption_handler.encryption_ctx_update_func= handle->crypt_ctx_update ? handle->crypt_ctx_update : my_aes_crypt_update; encryption_handler.encryption_ctx_finish_func= handle->crypt_ctx_finish ? handle->crypt_ctx_finish : my_aes_crypt_finish; encryption_handler.encryption_encrypted_length_func= handle->encrypted_length ? handle->encrypted_length : get_length; encryption_handler.encryption_key_get_func= handle->get_key; encryption_handler.encryption_key_get_latest_version_func= handle->get_latest_key_version; // must be the last return 0; } int finalize_encryption_plugin(st_plugin_int *plugin) { encryption_handler.encryption_key_get_func= (uint (*)(uint, uint, uchar*, uint*))no_key; encryption_handler.encryption_key_get_latest_version_func= no_key; if (plugin && plugin->plugin->deinit && plugin->plugin->deinit(NULL)) { DBUG_PRINT("warning", ("Plugin '%s' deinit function returned error.", plugin->name.str)); } if (encryption_manager) plugin_unlock(NULL, encryption_manager); encryption_manager= 0; return 0; } /****************************************************************** Encryption Scheme service ******************************************************************/ static uint scheme_get_key(st_encryption_scheme *scheme, st_encryption_scheme_key *key) { if (scheme->locker) scheme->locker(scheme, 0); // Check if we already have key for (uint i = 0; i < array_elements(scheme->key); i++) { if (scheme->key[i].version == 0) // no more keys break; if (scheme->key[i].version == key->version) { *key= scheme->key[i]; if (scheme->locker) scheme->locker(scheme, 1); return 0; } } // Not found! scheme->keyserver_requests++; uchar global_key[MY_AES_MAX_KEY_LENGTH]; uint global_key_len= sizeof(global_key), key_len; uint rc = encryption_key_get(scheme->key_id, key->version, global_key, & global_key_len); if (rc) goto ret; /* Now generate the local key by encrypting IV using the global key */ rc = my_aes_crypt(MY_AES_ECB, ENCRYPTION_FLAG_ENCRYPT | ENCRYPTION_FLAG_NOPAD, scheme->iv, sizeof(scheme->iv), key->key, &key_len, global_key, global_key_len, NULL, 0); DBUG_ASSERT(key_len == sizeof(key->key)); if (rc) goto ret; // Rotate keys to make room for a new for (uint i = array_elements(scheme->key) - 1; i; i--) scheme->key[i] = scheme->key[i - 1]; scheme->key[0]= *key; ret: if (scheme->locker) scheme->locker(scheme, 1); return rc; } int do_crypt(const unsigned char* src, unsigned int slen, unsigned char* dst, unsigned int* dlen, struct st_encryption_scheme *scheme, unsigned int key_version, unsigned int i32_1, unsigned int i32_2, unsigned long long i64, int flag) { compile_time_assert(ENCRYPTION_SCHEME_KEY_INVALID == (int)ENCRYPTION_KEY_VERSION_INVALID); // Maybe temporal solution for MDEV-8173 // Rationale: scheme->type is currently global/object // and when used here might not represent actual state // of smaller granularity objects e.g. InnoDB page state // as type is stored to tablespace (FIL) and could represent // state where key rotation is trying to reach //DBUG_ASSERT(scheme->type == 1); if (key_version == ENCRYPTION_KEY_VERSION_INVALID || key_version == ENCRYPTION_KEY_NOT_ENCRYPTED) return ENCRYPTION_SCHEME_KEY_INVALID; st_encryption_scheme_key key; key.version= key_version; uint rc= scheme_get_key(scheme, &key); if (rc) return (int)rc; unsigned char iv[4 + 4 + 8]; int4store(iv + 0, i32_1); int4store(iv + 4, i32_2); int8store(iv + 8, i64); return encryption_crypt(src, slen, dst, dlen, key.key, sizeof(key.key), iv, sizeof(iv), flag, scheme->key_id, key_version); } int encryption_scheme_encrypt(const unsigned char* src, unsigned int slen, unsigned char* dst, unsigned int* dlen, struct st_encryption_scheme *scheme, unsigned int key_version, unsigned int i32_1, unsigned int i32_2, unsigned long long i64) { return do_crypt(src, slen, dst, dlen, scheme, key_version, i32_1, i32_2, i64, ENCRYPTION_FLAG_NOPAD | ENCRYPTION_FLAG_ENCRYPT); } int encryption_scheme_decrypt(const unsigned char* src, unsigned int slen, unsigned char* dst, unsigned int* dlen, struct st_encryption_scheme *scheme, unsigned int key_version, unsigned int i32_1, unsigned int i32_2, unsigned long long i64) { return do_crypt(src, slen, dst, dlen, scheme, key_version, i32_1, i32_2, i64, ENCRYPTION_FLAG_NOPAD | ENCRYPTION_FLAG_DECRYPT); }