/* Copyright (c) 2005, 2018, Oracle and/or its affiliates. Copyright (c) 2010, 2018, MariaDB Corporation 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 */ #include "sql_plugin.h" // Includes my_global.h #include "sql_priv.h" // SHOW_MY_BOOL #include "unireg.h" #include "sql_class.h" // set_var.h: THD #include "sys_vars_shared.h" #include "sql_locale.h" #include "sql_plugin.h" #include "sql_parse.h" // check_table_access #include "sql_base.h" // close_mysql_tables #include "key.h" // key_copy #include "sql_table.h" #include "sql_show.h" // remove_status_vars, add_status_vars #include "strfunc.h" // find_set #include "sql_acl.h" // *_ACL #include "records.h" // init_read_record, end_read_record #include #include #include "sql_audit.h" #include #include "lock.h" // MYSQL_LOCK_IGNORE_TIMEOUT #include #include #include #include "sql_plugin_compat.h" #define REPORT_TO_LOG 1 #define REPORT_TO_USER 2 #ifdef HAVE_LINK_H #include #endif extern struct st_maria_plugin *mysql_optional_plugins[]; extern struct st_maria_plugin *mysql_mandatory_plugins[]; /** @note The order of the enumeration is critical. @see construct_options */ const char *global_plugin_typelib_names[]= { "OFF", "ON", "FORCE", "FORCE_PLUS_PERMANENT", NULL }; static TYPELIB global_plugin_typelib= { array_elements(global_plugin_typelib_names)-1, "", global_plugin_typelib_names, NULL }; static I_List opt_plugin_load_list; I_List *opt_plugin_load_list_ptr= &opt_plugin_load_list; char *opt_plugin_dir_ptr; char opt_plugin_dir[FN_REFLEN]; ulong plugin_maturity; /* not really needed now, this map will become essential when we add more maturity levels. We cannot change existing maturity constants, so the next value - even if it will be MariaDB_PLUGIN_MATURITY_VERY_BUGGY - will inevitably be larger than MariaDB_PLUGIN_MATURITY_STABLE. To be able to compare them we use this mapping array */ uint plugin_maturity_map[]= { 0, 1, 2, 3, 4, 5, 6 }; /* When you add a new plugin type, add both a string and make sure that the init and deinit array are correctly updated. */ const LEX_STRING plugin_type_names[MYSQL_MAX_PLUGIN_TYPE_NUM]= { { C_STRING_WITH_LEN("UDF") }, { C_STRING_WITH_LEN("STORAGE ENGINE") }, { C_STRING_WITH_LEN("FTPARSER") }, { C_STRING_WITH_LEN("DAEMON") }, { C_STRING_WITH_LEN("INFORMATION SCHEMA") }, { C_STRING_WITH_LEN("AUDIT") }, { C_STRING_WITH_LEN("REPLICATION") }, { C_STRING_WITH_LEN("AUTHENTICATION") }, { C_STRING_WITH_LEN("PASSWORD VALIDATION") }, { C_STRING_WITH_LEN("ENCRYPTION") } }; extern int initialize_schema_table(st_plugin_int *plugin); extern int finalize_schema_table(st_plugin_int *plugin); extern int initialize_audit_plugin(st_plugin_int *plugin); extern int finalize_audit_plugin(st_plugin_int *plugin); extern int initialize_encryption_plugin(st_plugin_int *plugin); extern int finalize_encryption_plugin(st_plugin_int *plugin); /* The number of elements in both plugin_type_initialize and plugin_type_deinitialize should equal to the number of plugins defined. */ plugin_type_init plugin_type_initialize[MYSQL_MAX_PLUGIN_TYPE_NUM]= { 0, ha_initialize_handlerton, 0, 0,initialize_schema_table, initialize_audit_plugin, 0, 0, 0, initialize_encryption_plugin }; plugin_type_init plugin_type_deinitialize[MYSQL_MAX_PLUGIN_TYPE_NUM]= { 0, ha_finalize_handlerton, 0, 0, finalize_schema_table, finalize_audit_plugin, 0, 0, 0, finalize_encryption_plugin }; /* Defines in which order plugin types have to be initialized. Essentially, we want to initialize MYSQL_KEY_MANAGEMENT_PLUGIN before MYSQL_STORAGE_ENGINE_PLUGIN, and that before MYSQL_INFORMATION_SCHEMA_PLUGIN */ static int plugin_type_initialization_order[MYSQL_MAX_PLUGIN_TYPE_NUM]= { MYSQL_DAEMON_PLUGIN, MariaDB_ENCRYPTION_PLUGIN, MYSQL_STORAGE_ENGINE_PLUGIN, MYSQL_INFORMATION_SCHEMA_PLUGIN, MYSQL_FTPARSER_PLUGIN, MYSQL_AUTHENTICATION_PLUGIN, MariaDB_PASSWORD_VALIDATION_PLUGIN, MYSQL_AUDIT_PLUGIN, MYSQL_REPLICATION_PLUGIN, MYSQL_UDF_PLUGIN }; #ifdef HAVE_DLOPEN static const char *plugin_interface_version_sym= "_mysql_plugin_interface_version_"; static const char *sizeof_st_plugin_sym= "_mysql_sizeof_struct_st_plugin_"; static const char *plugin_declarations_sym= "_mysql_plugin_declarations_"; static int min_plugin_interface_version= MYSQL_PLUGIN_INTERFACE_VERSION & ~0xFF; static const char *maria_plugin_interface_version_sym= "_maria_plugin_interface_version_"; static const char *maria_sizeof_st_plugin_sym= "_maria_sizeof_struct_st_plugin_"; static const char *maria_plugin_declarations_sym= "_maria_plugin_declarations_"; static int min_maria_plugin_interface_version= MARIA_PLUGIN_INTERFACE_VERSION & ~0xFF; #endif /* Note that 'int version' must be the first field of every plugin sub-structure (plugin->info). */ static int min_plugin_info_interface_version[MYSQL_MAX_PLUGIN_TYPE_NUM]= { 0x0000, MYSQL_HANDLERTON_INTERFACE_VERSION, MYSQL_FTPARSER_INTERFACE_VERSION, MYSQL_DAEMON_INTERFACE_VERSION, MYSQL_INFORMATION_SCHEMA_INTERFACE_VERSION, MYSQL_AUDIT_INTERFACE_VERSION, MYSQL_REPLICATION_INTERFACE_VERSION, MIN_AUTHENTICATION_INTERFACE_VERSION, MariaDB_PASSWORD_VALIDATION_INTERFACE_VERSION, MariaDB_ENCRYPTION_INTERFACE_VERSION }; static int cur_plugin_info_interface_version[MYSQL_MAX_PLUGIN_TYPE_NUM]= { 0x0000, /* UDF: not implemented */ MYSQL_HANDLERTON_INTERFACE_VERSION, MYSQL_FTPARSER_INTERFACE_VERSION, MYSQL_DAEMON_INTERFACE_VERSION, MYSQL_INFORMATION_SCHEMA_INTERFACE_VERSION, MYSQL_AUDIT_INTERFACE_VERSION, MYSQL_REPLICATION_INTERFACE_VERSION, MYSQL_AUTHENTICATION_INTERFACE_VERSION, MariaDB_PASSWORD_VALIDATION_INTERFACE_VERSION, MariaDB_ENCRYPTION_INTERFACE_VERSION }; static struct { const char *plugin_name; enum enum_plugin_load_option override; } override_plugin_load_policy[]={ /* If the performance schema is compiled in, treat the storage engine plugin as 'mandatory', to suppress any plugin-level options such as '--performance-schema'. This is specific to the performance schema, and is done on purpose: the server-level option '--performance-schema' controls the overall performance schema initialization, which consists of much more that the underlying storage engine initialization. See mysqld.cc, set_vars.cc. Suppressing ways to interfere directly with the storage engine alone prevents awkward situations where: - the user wants the performance schema functionality, by using '--enable-performance-schema' (the server option), - yet disable explicitly a component needed for the functionality to work, by using '--skip-performance-schema' (the plugin) */ { "performance_schema", PLUGIN_FORCE } /* we disable few other plugins by default */ ,{ "feedback", PLUGIN_OFF } }; /* support for Services */ #include "sql_plugin_services.ic" /* A mutex LOCK_plugin must be acquired before accessing the following variables/structures. We are always manipulating ref count, so a rwlock here is unneccessary. */ mysql_mutex_t LOCK_plugin; static DYNAMIC_ARRAY plugin_dl_array; static DYNAMIC_ARRAY plugin_array; static HASH plugin_hash[MYSQL_MAX_PLUGIN_TYPE_NUM]; static MEM_ROOT plugin_mem_root; static bool reap_needed= false; volatile int global_plugin_version= 1; static bool initialized= 0; ulong dlopen_count; /* write-lock on LOCK_system_variables_hash is required before modifying the following variables/structures */ static MEM_ROOT plugin_vars_mem_root; static uint global_variables_dynamic_size= 0; static HASH bookmark_hash; /* hidden part of opaque value passed to variable check functions. Used to provide a object-like structure to non C++ consumers. */ struct st_item_value_holder : public st_mysql_value { Item *item; }; /* stored in bookmark_hash, this structure is never removed from the hash and is used to mark a single offset for a thd local variable even if plugins have been uninstalled and reinstalled, repeatedly. This structure is allocated from plugin_mem_root. The key format is as follows: 1 byte - variable type code name_len bytes - variable name '\0' - end of key */ struct st_bookmark { uint name_len; int offset; uint version; char key[1]; }; /* skeleton of a plugin variable - portion of structure common to all. */ struct st_mysql_sys_var { MYSQL_PLUGIN_VAR_HEADER; }; /* sys_var class for access to all plugin variables visible to the user */ class sys_var_pluginvar: public sys_var, public Sql_alloc { public: struct st_plugin_int *plugin; struct st_mysql_sys_var *plugin_var; sys_var_pluginvar(sys_var_chain *chain, const char *name_arg, st_plugin_int *p, st_mysql_sys_var *plugin_var_arg); sys_var_pluginvar *cast_pluginvar() { return this; } uchar* real_value_ptr(THD *thd, enum_var_type type); TYPELIB* plugin_var_typelib(void); uchar* do_value_ptr(THD *thd, enum_var_type type, const LEX_STRING *base); uchar* session_value_ptr(THD *thd, const LEX_STRING *base) { return do_value_ptr(thd, OPT_SESSION, base); } uchar* global_value_ptr(THD *thd, const LEX_STRING *base) { return do_value_ptr(thd, OPT_GLOBAL, base); } uchar *default_value_ptr(THD *thd) { return do_value_ptr(thd, OPT_DEFAULT, 0); } bool do_check(THD *thd, set_var *var); virtual void session_save_default(THD *thd, set_var *var) {} virtual void global_save_default(THD *thd, set_var *var) {} bool session_update(THD *thd, set_var *var); bool global_update(THD *thd, set_var *var); bool session_is_default(THD *thd); }; /* prototypes */ static void plugin_load(MEM_ROOT *tmp_root); static bool plugin_load_list(MEM_ROOT *, const char *); static int test_plugin_options(MEM_ROOT *, struct st_plugin_int *, int *, char **); static bool register_builtin(struct st_maria_plugin *, struct st_plugin_int *, struct st_plugin_int **); static void unlock_variables(THD *thd, struct system_variables *vars); static void cleanup_variables(struct system_variables *vars); static void plugin_vars_free_values(sys_var *vars); static void restore_ptr_backup(uint n, st_ptr_backup *backup); static void intern_plugin_unlock(LEX *lex, plugin_ref plugin); static void reap_plugins(void); bool plugin_is_forced(struct st_plugin_int *p) { return p->load_option == PLUGIN_FORCE || p->load_option == PLUGIN_FORCE_PLUS_PERMANENT; } static void report_error(int where_to, uint error, ...) { va_list args; DBUG_ASSERT(where_to & (REPORT_TO_USER | REPORT_TO_LOG)); if (where_to & REPORT_TO_USER) { va_start(args, error); my_printv_error(error, ER(error), MYF(0), args); va_end(args); } if (where_to & REPORT_TO_LOG) { va_start(args, error); error_log_print(ERROR_LEVEL, ER_DEFAULT(error), args); va_end(args); } } /** Check if the provided path is valid in the sense that it does cause a relative reference outside the directory. @note Currently, this function only check if there are any characters in FN_DIRSEP in the string, but it might change in the future. @code check_valid_path("../foo.so") -> true check_valid_path("foo.so") -> false @endcode */ bool check_valid_path(const char *path, size_t len) { size_t prefix= my_strcspn(files_charset_info, path, path + len, FN_DIRSEP); return prefix < len; } static void fix_dl_name(MEM_ROOT *root, LEX_STRING *dl) { const size_t so_ext_len= sizeof(SO_EXT) - 1; if (my_strcasecmp(&my_charset_latin1, dl->str + dl->length - so_ext_len, SO_EXT)) { char *s= (char*)alloc_root(root, dl->length + so_ext_len + 1); memcpy(s, dl->str, dl->length); strcpy(s + dl->length, SO_EXT); dl->str= s; dl->length+= so_ext_len; } } /**************************************************************************** Value type thunks, allows the C world to play in the C++ world ****************************************************************************/ static int item_value_type(struct st_mysql_value *value) { switch (((st_item_value_holder*)value)->item->result_type()) { case INT_RESULT: return MYSQL_VALUE_TYPE_INT; case REAL_RESULT: return MYSQL_VALUE_TYPE_REAL; default: return MYSQL_VALUE_TYPE_STRING; } } static const char *item_val_str(struct st_mysql_value *value, char *buffer, int *length) { String str(buffer, *length, system_charset_info), *res; if (!(res= ((st_item_value_holder*)value)->item->val_str(&str))) return NULL; *length= res->length(); if (res->c_ptr_quick() == buffer) return buffer; /* Lets be nice and create a temporary string since the buffer was too small */ return current_thd->strmake(res->ptr(), res->length()); } static int item_val_int(struct st_mysql_value *value, long long *buf) { Item *item= ((st_item_value_holder*)value)->item; *buf= item->val_int(); if (item->is_null()) return 1; return 0; } static int item_is_unsigned(struct st_mysql_value *value) { Item *item= ((st_item_value_holder*)value)->item; return item->unsigned_flag; } static int item_val_real(struct st_mysql_value *value, double *buf) { Item *item= ((st_item_value_holder*)value)->item; *buf= item->val_real(); if (item->is_null()) return 1; return 0; } /**************************************************************************** Plugin support code ****************************************************************************/ #ifdef HAVE_DLOPEN static struct st_plugin_dl *plugin_dl_find(const LEX_STRING *dl) { uint i; struct st_plugin_dl *tmp; DBUG_ENTER("plugin_dl_find"); for (i= 0; i < plugin_dl_array.elements; i++) { tmp= *dynamic_element(&plugin_dl_array, i, struct st_plugin_dl **); if (tmp->ref_count && ! my_strnncoll(files_charset_info, (const uchar *)dl->str, dl->length, (const uchar *)tmp->dl.str, tmp->dl.length)) DBUG_RETURN(tmp); } DBUG_RETURN(0); } static st_plugin_dl *plugin_dl_insert_or_reuse(struct st_plugin_dl *plugin_dl) { uint i; struct st_plugin_dl *tmp; DBUG_ENTER("plugin_dl_insert_or_reuse"); for (i= 0; i < plugin_dl_array.elements; i++) { tmp= *dynamic_element(&plugin_dl_array, i, struct st_plugin_dl **); if (! tmp->ref_count) { memcpy(tmp, plugin_dl, sizeof(struct st_plugin_dl)); DBUG_RETURN(tmp); } } if (insert_dynamic(&plugin_dl_array, (uchar*)&plugin_dl)) DBUG_RETURN(0); tmp= *dynamic_element(&plugin_dl_array, plugin_dl_array.elements - 1, struct st_plugin_dl **)= (struct st_plugin_dl *) memdup_root(&plugin_mem_root, (uchar*)plugin_dl, sizeof(struct st_plugin_dl)); DBUG_RETURN(tmp); } #else static struct st_plugin_dl *plugin_dl_find(const LEX_STRING *) { return 0; } #endif /* HAVE_DLOPEN */ static void free_plugin_mem(struct st_plugin_dl *p) { #ifdef HAVE_DLOPEN if (p->ptr_backup) { DBUG_ASSERT(p->nbackups); DBUG_ASSERT(p->handle); restore_ptr_backup(p->nbackups, p->ptr_backup); my_free(p->ptr_backup); } if (p->handle) dlclose(p->handle); #endif my_free(p->dl.str); if (p->allocated) my_free(p->plugins); } /** Reads data from mysql plugin interface @param plugin_dl Structure where the data should be put @param sym Reverence on version info @param dlpath Path to the module @param report What errors should be reported @retval FALSE OK @retval TRUE ERROR */ #ifdef HAVE_DLOPEN static my_bool read_mysql_plugin_info(struct st_plugin_dl *plugin_dl, void *sym, char *dlpath, int report) { DBUG_ENTER("read_maria_plugin_info"); /* Determine interface version */ if (!sym) { report_error(report, ER_CANT_FIND_DL_ENTRY, plugin_interface_version_sym); DBUG_RETURN(TRUE); } plugin_dl->mariaversion= 0; plugin_dl->mysqlversion= *(int *)sym; /* Versioning */ if (plugin_dl->mysqlversion < min_plugin_interface_version || (plugin_dl->mysqlversion >> 8) > (MYSQL_PLUGIN_INTERFACE_VERSION >> 8)) { report_error(report, ER_CANT_OPEN_LIBRARY, dlpath, ENOEXEC, "plugin interface version mismatch"); DBUG_RETURN(TRUE); } /* Find plugin declarations */ if (!(sym= dlsym(plugin_dl->handle, plugin_declarations_sym))) { report_error(report, ER_CANT_FIND_DL_ENTRY, plugin_declarations_sym); DBUG_RETURN(TRUE); } /* convert mysql declaration to maria one */ { int i; uint sizeof_st_plugin; struct st_mysql_plugin *old; struct st_maria_plugin *cur; char *ptr= (char *)sym; if ((sym= dlsym(plugin_dl->handle, sizeof_st_plugin_sym))) sizeof_st_plugin= *(int *)sym; else { DBUG_ASSERT(min_plugin_interface_version == 0); sizeof_st_plugin= (int)offsetof(struct st_mysql_plugin, version); } for (i= 0; ((struct st_mysql_plugin *)(ptr + i * sizeof_st_plugin))->info; i++) /* no op */; cur= (struct st_maria_plugin*) my_malloc((i + 1) * sizeof(struct st_maria_plugin), MYF(MY_ZEROFILL|MY_WME)); if (!cur) { report_error(report, ER_OUTOFMEMORY, static_cast(plugin_dl->dl.length)); DBUG_RETURN(TRUE); } /* All st_plugin fields not initialized in the plugin explicitly, are set to 0. It matches C standard behaviour for struct initializers that have less values than the struct definition. */ for (i=0; (old= (struct st_mysql_plugin *)(ptr + i * sizeof_st_plugin))->info; i++) { cur[i].type= old->type; cur[i].info= old->info; cur[i].name= old->name; cur[i].author= old->author; cur[i].descr= old->descr; cur[i].license= old->license; cur[i].init= old->init; cur[i].deinit= old->deinit; cur[i].version= old->version; cur[i].status_vars= old->status_vars; cur[i].system_vars= old->system_vars; /* Something like this should be added to process new mysql plugin versions: if (plugin_dl->mysqlversion > 0x0101) { cur[i].newfield= CONSTANT_MEANS_UNKNOWN; } else { cur[i].newfield= old->newfield; } */ /* Maria only fields */ cur[i].version_info= "Unknown"; cur[i].maturity= MariaDB_PLUGIN_MATURITY_UNKNOWN; } plugin_dl->allocated= true; plugin_dl->plugins= (struct st_maria_plugin *)cur; } DBUG_RETURN(FALSE); } /** Reads data from maria plugin interface @param plugin_dl Structure where the data should be put @param sym Reverence on version info @param dlpath Path to the module @param report what errors should be reported @retval FALSE OK @retval TRUE ERROR */ static my_bool read_maria_plugin_info(struct st_plugin_dl *plugin_dl, void *sym, char *dlpath, int report) { DBUG_ENTER("read_maria_plugin_info"); /* Determine interface version */ if (!(sym)) { /* Actually this branch impossible because in case of absence of maria version we try mysql version. */ report_error(report, ER_CANT_FIND_DL_ENTRY, maria_plugin_interface_version_sym); DBUG_RETURN(TRUE); } plugin_dl->mariaversion= *(int *)sym; plugin_dl->mysqlversion= 0; /* Versioning */ if (plugin_dl->mariaversion < min_maria_plugin_interface_version || (plugin_dl->mariaversion >> 8) > (MARIA_PLUGIN_INTERFACE_VERSION >> 8)) { report_error(report, ER_CANT_OPEN_LIBRARY, dlpath, ENOEXEC, "plugin interface version mismatch"); DBUG_RETURN(TRUE); } /* Find plugin declarations */ if (!(sym= dlsym(plugin_dl->handle, maria_plugin_declarations_sym))) { report_error(report, ER_CANT_FIND_DL_ENTRY, maria_plugin_declarations_sym); DBUG_RETURN(TRUE); } if (plugin_dl->mariaversion != MARIA_PLUGIN_INTERFACE_VERSION) { uint sizeof_st_plugin; struct st_maria_plugin *old, *cur; char *ptr= (char *)sym; if ((sym= dlsym(plugin_dl->handle, maria_sizeof_st_plugin_sym))) sizeof_st_plugin= *(int *)sym; else { report_error(report, ER_CANT_FIND_DL_ENTRY, maria_sizeof_st_plugin_sym); DBUG_RETURN(TRUE); } if (sizeof_st_plugin != sizeof(st_mysql_plugin)) { int i; for (i= 0; ((struct st_maria_plugin *)(ptr + i * sizeof_st_plugin))->info; i++) /* no op */; cur= (struct st_maria_plugin*) my_malloc((i + 1) * sizeof(struct st_maria_plugin), MYF(MY_ZEROFILL|MY_WME)); if (!cur) { report_error(report, ER_OUTOFMEMORY, static_cast(plugin_dl->dl.length)); DBUG_RETURN(TRUE); } /* All st_plugin fields not initialized in the plugin explicitly, are set to 0. It matches C standard behaviour for struct initializers that have less values than the struct definition. */ for (i=0; (old= (struct st_maria_plugin *)(ptr + i * sizeof_st_plugin))->info; i++) memcpy(cur + i, old, MY_MIN(sizeof(cur[i]), sizeof_st_plugin)); sym= cur; plugin_dl->allocated= true; } else sym= ptr; } plugin_dl->plugins= (struct st_maria_plugin *)sym; DBUG_RETURN(FALSE); } #endif /* HAVE_DLOPEN */ static st_plugin_dl *plugin_dl_add(const LEX_STRING *dl, int report) { #ifdef HAVE_DLOPEN char dlpath[FN_REFLEN]; uint plugin_dir_len, dummy_errors, i; struct st_plugin_dl *tmp= 0, plugin_dl; void *sym; st_ptr_backup tmp_backup[array_elements(list_of_services)]; DBUG_ENTER("plugin_dl_add"); DBUG_PRINT("enter", ("dl->str: '%s', dl->length: %d", dl->str, (int) dl->length)); mysql_mutex_assert_owner(&LOCK_plugin); plugin_dir_len= strlen(opt_plugin_dir); /* Ensure that the dll doesn't have a path. This is done to ensure that only approved libraries from the plugin directory are used (to make this even remotely secure). */ if (check_string_char_length((LEX_STRING *) dl, 0, NAME_CHAR_LEN, system_charset_info, 1) || check_valid_path(dl->str, dl->length) || plugin_dir_len + dl->length + 1 >= FN_REFLEN) { report_error(report, ER_UDF_NO_PATHS); DBUG_RETURN(0); } /* If this dll is already loaded just increase ref_count. */ if ((tmp= plugin_dl_find(dl))) { tmp->ref_count++; DBUG_RETURN(tmp); } bzero(&plugin_dl, sizeof(plugin_dl)); /* Compile dll path */ strxnmov(dlpath, sizeof(dlpath) - 1, opt_plugin_dir, "/", dl->str, NullS); (void) unpack_filename(dlpath, dlpath); plugin_dl.ref_count= 1; /* Open new dll handle */ if (!(plugin_dl.handle= dlopen(dlpath, RTLD_NOW))) { report_error(report, ER_CANT_OPEN_LIBRARY, dlpath, errno, my_dlerror(dlpath)); goto ret; } dlopen_count++; #ifdef HAVE_LINK_H if (global_system_variables.log_warnings > 2) { struct link_map *lm = (struct link_map*) plugin_dl.handle; sql_print_information("Loaded '%s' with offset 0x%lx", dl->str, lm->l_addr); } #endif /* Checks which plugin interface present and reads info */ if (!(sym= dlsym(plugin_dl.handle, maria_plugin_interface_version_sym))) { if (read_mysql_plugin_info(&plugin_dl, dlsym(plugin_dl.handle, plugin_interface_version_sym), dlpath, report)) goto ret; } else { if (read_maria_plugin_info(&plugin_dl, sym, dlpath, report)) goto ret; } /* link the services in */ for (i= 0; i < array_elements(list_of_services); i++) { if ((sym= dlsym(plugin_dl.handle, list_of_services[i].name))) { void **ptr= (void **)sym; uint ver= (uint)(intptr)*ptr; if (ver > list_of_services[i].version || (ver >> 8) < (list_of_services[i].version >> 8)) { char buf[MYSQL_ERRMSG_SIZE]; my_snprintf(buf, sizeof(buf), "service '%s' interface version mismatch", list_of_services[i].name); report_error(report, ER_CANT_OPEN_LIBRARY, dlpath, ENOEXEC, buf); goto ret; } tmp_backup[plugin_dl.nbackups++].save(ptr); *ptr= list_of_services[i].service; } } if (plugin_dl.nbackups) { size_t bytes= plugin_dl.nbackups * sizeof(plugin_dl.ptr_backup[0]); plugin_dl.ptr_backup= (st_ptr_backup *)my_malloc(bytes, MYF(0)); if (!plugin_dl.ptr_backup) { restore_ptr_backup(plugin_dl.nbackups, tmp_backup); report_error(report, ER_OUTOFMEMORY, bytes); goto ret; } memcpy(plugin_dl.ptr_backup, tmp_backup, bytes); } /* Duplicate and convert dll name */ plugin_dl.dl.length= dl->length * files_charset_info->mbmaxlen + 1; if (! (plugin_dl.dl.str= (char*) my_malloc(plugin_dl.dl.length, MYF(0)))) { report_error(report, ER_OUTOFMEMORY, static_cast(plugin_dl.dl.length)); goto ret; } plugin_dl.dl.length= copy_and_convert(plugin_dl.dl.str, plugin_dl.dl.length, files_charset_info, dl->str, dl->length, system_charset_info, &dummy_errors); plugin_dl.dl.str[plugin_dl.dl.length]= 0; /* Add this dll to array */ if (! (tmp= plugin_dl_insert_or_reuse(&plugin_dl))) { report_error(report, ER_OUTOFMEMORY, static_cast(sizeof(struct st_plugin_dl))); goto ret; } ret: if (!tmp) free_plugin_mem(&plugin_dl); DBUG_RETURN(tmp); #else DBUG_ENTER("plugin_dl_add"); report_error(report, ER_FEATURE_DISABLED, "plugin", "HAVE_DLOPEN"); DBUG_RETURN(0); #endif } static void plugin_dl_del(struct st_plugin_dl *plugin_dl) { DBUG_ENTER("plugin_dl_del"); if (!plugin_dl) DBUG_VOID_RETURN; mysql_mutex_assert_owner(&LOCK_plugin); /* Do not remove this element, unless no other plugin uses this dll. */ if (! --plugin_dl->ref_count) { free_plugin_mem(plugin_dl); bzero(plugin_dl, sizeof(struct st_plugin_dl)); } DBUG_VOID_RETURN; } static struct st_plugin_int *plugin_find_internal(const LEX_STRING *name, int type) { uint i; DBUG_ENTER("plugin_find_internal"); if (! initialized) DBUG_RETURN(0); mysql_mutex_assert_owner(&LOCK_plugin); if (type == MYSQL_ANY_PLUGIN) { for (i= 0; i < MYSQL_MAX_PLUGIN_TYPE_NUM; i++) { struct st_plugin_int *plugin= (st_plugin_int *) my_hash_search(&plugin_hash[i], (const uchar *)name->str, name->length); if (plugin) DBUG_RETURN(plugin); } } else DBUG_RETURN((st_plugin_int *) my_hash_search(&plugin_hash[type], (const uchar *)name->str, name->length)); DBUG_RETURN(0); } static SHOW_COMP_OPTION plugin_status(const LEX_STRING *name, int type) { SHOW_COMP_OPTION rc= SHOW_OPTION_NO; struct st_plugin_int *plugin; DBUG_ENTER("plugin_is_ready"); mysql_mutex_lock(&LOCK_plugin); if ((plugin= plugin_find_internal(name, type))) { rc= SHOW_OPTION_DISABLED; if (plugin->state == PLUGIN_IS_READY) rc= SHOW_OPTION_YES; } mysql_mutex_unlock(&LOCK_plugin); DBUG_RETURN(rc); } bool plugin_is_ready(const LEX_STRING *name, int type) { bool rc= FALSE; if (plugin_status(name, type) == SHOW_OPTION_YES) rc= TRUE; return rc; } SHOW_COMP_OPTION plugin_status(const char *name, size_t len, int type) { LEX_STRING plugin_name= { (char *) name, len }; return plugin_status(&plugin_name, type); } static plugin_ref intern_plugin_lock(LEX *lex, plugin_ref rc, uint state_mask= PLUGIN_IS_READY | PLUGIN_IS_UNINITIALIZED | PLUGIN_IS_DELETED) { st_plugin_int *pi= plugin_ref_to_int(rc); DBUG_ENTER("intern_plugin_lock"); mysql_mutex_assert_owner(&LOCK_plugin); if (pi->state & state_mask) { plugin_ref plugin; #ifdef DBUG_OFF /* In optimized builds we don't do reference counting for built-in (plugin->plugin_dl == 0) plugins. */ if (!pi->plugin_dl) DBUG_RETURN(pi); plugin= pi; #else /* For debugging, we do an additional malloc which allows the memory manager and/or valgrind to track locked references and double unlocks to aid resolving reference counting problems. */ if (!(plugin= (plugin_ref) my_malloc(sizeof(pi), MYF(MY_WME)))) DBUG_RETURN(NULL); *plugin= pi; #endif pi->ref_count++; DBUG_PRINT("lock",("thd: 0x%lx plugin: \"%s\" LOCK ref_count: %d", (long) current_thd, pi->name.str, pi->ref_count)); if (lex) insert_dynamic(&lex->plugins, (uchar*)&plugin); DBUG_RETURN(plugin); } DBUG_RETURN(NULL); } plugin_ref plugin_lock(THD *thd, plugin_ref ptr) { LEX *lex= thd ? thd->lex : 0; plugin_ref rc; DBUG_ENTER("plugin_lock"); #ifdef DBUG_OFF /* In optimized builds we don't do reference counting for built-in (plugin->plugin_dl == 0) plugins. Note that we access plugin->plugin_dl outside of LOCK_plugin, and for dynamic plugins a 'plugin' could correspond to plugin that was unloaded meanwhile! But because st_plugin_int is always allocated on plugin_mem_root, the pointer can never be invalid - the memory is never freed. Of course, the memory that 'plugin' points to can be overwritten by another plugin being loaded, but plugin->plugin_dl can never change from zero to non-zero or vice versa. That is, it's always safe to check for plugin->plugin_dl==0 even without a mutex. */ if (! plugin_dlib(ptr)) { plugin_ref_to_int(ptr)->locks_total++; DBUG_RETURN(ptr); } #endif mysql_mutex_lock(&LOCK_plugin); plugin_ref_to_int(ptr)->locks_total++; rc= intern_plugin_lock(lex, ptr); mysql_mutex_unlock(&LOCK_plugin); DBUG_RETURN(rc); } plugin_ref plugin_lock_by_name(THD *thd, const LEX_STRING *name, int type) { LEX *lex= thd ? thd->lex : 0; plugin_ref rc= NULL; st_plugin_int *plugin; DBUG_ENTER("plugin_lock_by_name"); mysql_mutex_lock(&LOCK_plugin); if ((plugin= plugin_find_internal(name, type))) rc= intern_plugin_lock(lex, plugin_int_to_ref(plugin)); mysql_mutex_unlock(&LOCK_plugin); DBUG_RETURN(rc); } static st_plugin_int *plugin_insert_or_reuse(struct st_plugin_int *plugin) { uint i; struct st_plugin_int *tmp; DBUG_ENTER("plugin_insert_or_reuse"); for (i= 0; i < plugin_array.elements; i++) { tmp= *dynamic_element(&plugin_array, i, struct st_plugin_int **); if (tmp->state == PLUGIN_IS_FREED) { memcpy(tmp, plugin, sizeof(struct st_plugin_int)); DBUG_RETURN(tmp); } } if (insert_dynamic(&plugin_array, (uchar*)&plugin)) DBUG_RETURN(0); tmp= *dynamic_element(&plugin_array, plugin_array.elements - 1, struct st_plugin_int **)= (struct st_plugin_int *) memdup_root(&plugin_mem_root, (uchar*)plugin, sizeof(struct st_plugin_int)); DBUG_RETURN(tmp); } /* NOTE Requires that a write-lock is held on LOCK_system_variables_hash */ static bool plugin_add(MEM_ROOT *tmp_root, const LEX_STRING *name, LEX_STRING *dl, int report) { struct st_plugin_int tmp, *maybe_dupe; struct st_maria_plugin *plugin; uint oks= 0, errs= 0, dupes= 0; DBUG_ENTER("plugin_add"); DBUG_PRINT("enter", ("name: %s dl: %s", name->str, dl->str)); if (name->str && plugin_find_internal(name, MYSQL_ANY_PLUGIN)) { report_error(report, ER_PLUGIN_INSTALLED, name->str); DBUG_RETURN(TRUE); } /* Clear the whole struct to catch future extensions. */ bzero((char*) &tmp, sizeof(tmp)); fix_dl_name(tmp_root, dl); if (! (tmp.plugin_dl= plugin_dl_add(dl, report))) DBUG_RETURN(TRUE); /* Find plugin by name */ for (plugin= tmp.plugin_dl->plugins; plugin->info; plugin++) { tmp.name.str= (char *)plugin->name; tmp.name.length= strlen(plugin->name); if (plugin->type < 0 || plugin->type >= MYSQL_MAX_PLUGIN_TYPE_NUM) continue; // invalid plugin type if (plugin->type == MYSQL_UDF_PLUGIN || (plugin->type == MariaDB_PASSWORD_VALIDATION_PLUGIN && tmp.plugin_dl->mariaversion == 0)) continue; // unsupported plugin type if (name->str && my_strnncoll(system_charset_info, (const uchar *)name->str, name->length, (const uchar *)tmp.name.str, tmp.name.length)) continue; // plugin name doesn't match if (!name->str && (maybe_dupe= plugin_find_internal(&tmp.name, MYSQL_ANY_PLUGIN))) { if (plugin->name != maybe_dupe->plugin->name) { report_error(report, ER_UDF_EXISTS, plugin->name); DBUG_RETURN(TRUE); } dupes++; continue; // already installed } struct st_plugin_int *tmp_plugin_ptr; if (*(int*)plugin->info < min_plugin_info_interface_version[plugin->type] || ((*(int*)plugin->info) >> 8) > (cur_plugin_info_interface_version[plugin->type] >> 8)) { char buf[256]; strxnmov(buf, sizeof(buf) - 1, "API version for ", plugin_type_names[plugin->type].str, " plugin ", tmp.name.str, " not supported by this version of the server", NullS); report_error(report, ER_CANT_OPEN_LIBRARY, dl->str, ENOEXEC, buf); goto err; } if (plugin_maturity_map[plugin->maturity] < plugin_maturity) { char buf[256]; strxnmov(buf, sizeof(buf) - 1, "Loading of ", plugin_maturity_names[plugin->maturity], " plugin ", tmp.name.str, " is prohibited by --plugin-maturity=", plugin_maturity_names[plugin_maturity], NullS); report_error(report, ER_CANT_OPEN_LIBRARY, dl->str, EPERM, buf); goto err; } tmp.plugin= plugin; tmp.ref_count= 0; tmp.state= PLUGIN_IS_UNINITIALIZED; tmp.load_option= PLUGIN_ON; if (!(tmp_plugin_ptr= plugin_insert_or_reuse(&tmp))) goto err; if (my_hash_insert(&plugin_hash[plugin->type], (uchar*)tmp_plugin_ptr)) tmp_plugin_ptr->state= PLUGIN_IS_FREED; init_alloc_root(&tmp_plugin_ptr->mem_root, 4096, 4096, MYF(0)); if (name->str) DBUG_RETURN(FALSE); // all done oks++; tmp.plugin_dl->ref_count++; continue; // otherwise - go on err: errs++; if (name->str) break; } DBUG_ASSERT(!name->str || !dupes); // dupes is ONLY for name->str == 0 if (errs == 0 && oks == 0 && !dupes) // no plugin was found report_error(report, ER_CANT_FIND_DL_ENTRY, name->str); plugin_dl_del(tmp.plugin_dl); DBUG_RETURN(errs > 0 || oks + dupes == 0); } static void plugin_deinitialize(struct st_plugin_int *plugin, bool ref_check) { /* we don't want to hold the LOCK_plugin mutex as it may cause deinitialization to deadlock if plugins have worker threads with plugin locks */ mysql_mutex_assert_not_owner(&LOCK_plugin); if (plugin->plugin->status_vars) { /* historical ndb behavior caused MySQL plugins to specify status var names in full, with the plugin name prefix. this was never fixed in MySQL. MariaDB fixes that but supports MySQL style too. */ SHOW_VAR *show_vars= plugin->plugin->status_vars; SHOW_VAR tmp_array[2]= { {plugin->plugin->name, (char*)plugin->plugin->status_vars, SHOW_ARRAY}, {0, 0, SHOW_UNDEF} }; if (strncasecmp(show_vars->name, plugin->name.str, plugin->name.length)) show_vars= tmp_array; remove_status_vars(show_vars); } if (plugin_type_deinitialize[plugin->plugin->type]) { if ((*plugin_type_deinitialize[plugin->plugin->type])(plugin)) { sql_print_error("Plugin '%s' of type %s failed deinitialization", plugin->name.str, plugin_type_names[plugin->plugin->type].str); } } else if (plugin->plugin->deinit) { DBUG_PRINT("info", ("Deinitializing plugin: '%s'", plugin->name.str)); if (plugin->plugin->deinit(plugin)) { DBUG_PRINT("warning", ("Plugin '%s' deinit function returned error.", plugin->name.str)); } } plugin->state= PLUGIN_IS_UNINITIALIZED; if (ref_check && plugin->ref_count) sql_print_error("Plugin '%s' has ref_count=%d after deinitialization.", plugin->name.str, plugin->ref_count); mysql_del_sys_var_chain(plugin->system_vars); } static void plugin_del(struct st_plugin_int *plugin) { DBUG_ENTER("plugin_del"); mysql_mutex_assert_owner(&LOCK_plugin); /* Free allocated strings before deleting the plugin. */ plugin_vars_free_values(plugin->system_vars); restore_ptr_backup(plugin->nbackups, plugin->ptr_backup); if (plugin->plugin_dl) { my_hash_delete(&plugin_hash[plugin->plugin->type], (uchar*)plugin); plugin_dl_del(plugin->plugin_dl); plugin->state= PLUGIN_IS_FREED; free_root(&plugin->mem_root, MYF(0)); } else plugin->state= PLUGIN_IS_UNINITIALIZED; DBUG_VOID_RETURN; } static void reap_plugins(void) { uint count; struct st_plugin_int *plugin, **reap, **list; mysql_mutex_assert_owner(&LOCK_plugin); if (!reap_needed) return; reap_needed= false; count= plugin_array.elements; reap= (struct st_plugin_int **)my_alloca(sizeof(plugin)*(count+1)); *(reap++)= NULL; for (uint i=0; i < MYSQL_MAX_PLUGIN_TYPE_NUM; i++) { HASH *hash= plugin_hash + plugin_type_initialization_order[i]; for (uint j= 0; j < hash->records; j++) { plugin= (struct st_plugin_int *) my_hash_element(hash, j); if (plugin->state == PLUGIN_IS_DELETED && !plugin->ref_count) { /* change the status flag to prevent reaping by another thread */ plugin->state= PLUGIN_IS_DYING; *(reap++)= plugin; } } } mysql_mutex_unlock(&LOCK_plugin); list= reap; while ((plugin= *(--list))) plugin_deinitialize(plugin, true); mysql_mutex_lock(&LOCK_plugin); while ((plugin= *(--reap))) plugin_del(plugin); my_afree(reap); } static void intern_plugin_unlock(LEX *lex, plugin_ref plugin) { int i; st_plugin_int *pi; DBUG_ENTER("intern_plugin_unlock"); mysql_mutex_assert_owner(&LOCK_plugin); if (!plugin) DBUG_VOID_RETURN; pi= plugin_ref_to_int(plugin); #ifdef DBUG_OFF if (!pi->plugin_dl) DBUG_VOID_RETURN; #else my_free(plugin); #endif if (lex) { /* Remove one instance of this plugin from the use list. We are searching backwards so that plugins locked last could be unlocked faster - optimizing for LIFO semantics. */ for (i= lex->plugins.elements - 1; i >= 0; i--) if (plugin == *dynamic_element(&lex->plugins, i, plugin_ref*)) { delete_dynamic_element(&lex->plugins, i); break; } DBUG_ASSERT(i >= 0); } DBUG_ASSERT(pi->ref_count); pi->ref_count--; DBUG_PRINT("lock",("thd: 0x%lx plugin: \"%s\" UNLOCK ref_count: %d", (long) current_thd, pi->name.str, pi->ref_count)); if (pi->state == PLUGIN_IS_DELETED && !pi->ref_count) reap_needed= true; DBUG_VOID_RETURN; } void plugin_unlock(THD *thd, plugin_ref plugin) { LEX *lex= thd ? thd->lex : 0; DBUG_ENTER("plugin_unlock"); if (!plugin) DBUG_VOID_RETURN; #ifdef DBUG_OFF /* built-in plugins don't need ref counting */ if (!plugin_dlib(plugin)) DBUG_VOID_RETURN; #endif mysql_mutex_lock(&LOCK_plugin); intern_plugin_unlock(lex, plugin); reap_plugins(); mysql_mutex_unlock(&LOCK_plugin); DBUG_VOID_RETURN; } void plugin_unlock_list(THD *thd, plugin_ref *list, uint count) { LEX *lex= thd ? thd->lex : 0; DBUG_ENTER("plugin_unlock_list"); if (count == 0) DBUG_VOID_RETURN; DBUG_ASSERT(list); mysql_mutex_lock(&LOCK_plugin); while (count--) intern_plugin_unlock(lex, *list++); reap_plugins(); mysql_mutex_unlock(&LOCK_plugin); DBUG_VOID_RETURN; } static int plugin_initialize(MEM_ROOT *tmp_root, struct st_plugin_int *plugin, int *argc, char **argv, bool options_only) { int ret= 1; DBUG_ENTER("plugin_initialize"); mysql_mutex_assert_owner(&LOCK_plugin); uint state= plugin->state; DBUG_ASSERT(state == PLUGIN_IS_UNINITIALIZED); mysql_mutex_unlock(&LOCK_plugin); mysql_rwlock_wrlock(&LOCK_system_variables_hash); if (test_plugin_options(tmp_root, plugin, argc, argv)) state= PLUGIN_IS_DISABLED; mysql_rwlock_unlock(&LOCK_system_variables_hash); if (options_only || state == PLUGIN_IS_DISABLED) { ret= !options_only && plugin_is_forced(plugin); state= PLUGIN_IS_DISABLED; goto err; } if (plugin_type_initialize[plugin->plugin->type]) { if ((*plugin_type_initialize[plugin->plugin->type])(plugin)) { sql_print_error("Plugin '%s' registration as a %s failed.", plugin->name.str, plugin_type_names[plugin->plugin->type].str); goto err; } } else if (plugin->plugin->init) { if (plugin->plugin->init(plugin)) { sql_print_error("Plugin '%s' init function returned error.", plugin->name.str); goto err; } } state= PLUGIN_IS_READY; // plugin->init() succeeded if (plugin->plugin->status_vars) { /* historical ndb behavior caused MySQL plugins to specify status var names in full, with the plugin name prefix. this was never fixed in MySQL. MariaDB fixes that but supports MySQL style too. */ SHOW_VAR *show_vars= plugin->plugin->status_vars; SHOW_VAR tmp_array[2]= { {plugin->plugin->name, (char*)plugin->plugin->status_vars, SHOW_ARRAY}, {0, 0, SHOW_UNDEF} }; if (strncasecmp(show_vars->name, plugin->name.str, plugin->name.length)) show_vars= tmp_array; if (add_status_vars(show_vars)) goto err; } ret= 0; err: if (ret) mysql_del_sys_var_chain(plugin->system_vars); mysql_mutex_lock(&LOCK_plugin); plugin->state= state; DBUG_RETURN(ret); } extern "C" uchar *get_plugin_hash_key(const uchar *, size_t *, my_bool); extern "C" uchar *get_bookmark_hash_key(const uchar *, size_t *, my_bool); uchar *get_plugin_hash_key(const uchar *buff, size_t *length, my_bool not_used __attribute__((unused))) { struct st_plugin_int *plugin= (st_plugin_int *)buff; *length= (uint)plugin->name.length; return((uchar *)plugin->name.str); } uchar *get_bookmark_hash_key(const uchar *buff, size_t *length, my_bool not_used __attribute__((unused))) { struct st_bookmark *var= (st_bookmark *)buff; *length= var->name_len + 1; return (uchar*) var->key; } static inline void convert_dash_to_underscore(char *str, int len) { for (char *p= str; p <= str+len; p++) if (*p == '-') *p= '_'; } static inline void convert_underscore_to_dash(char *str, int len) { for (char *p= str; p <= str+len; p++) if (*p == '_') *p= '-'; } #ifdef HAVE_PSI_INTERFACE static PSI_mutex_key key_LOCK_plugin; static PSI_mutex_info all_plugin_mutexes[]= { { &key_LOCK_plugin, "LOCK_plugin", PSI_FLAG_GLOBAL} }; static void init_plugin_psi_keys(void) { const char* category= "sql"; int count; if (PSI_server == NULL) return; count= array_elements(all_plugin_mutexes); PSI_server->register_mutex(category, all_plugin_mutexes, count); } #endif /* HAVE_PSI_INTERFACE */ /* The logic is that we first load and initialize all compiled in plugins. From there we load up the dynamic types (assuming we have not been told to skip this part). Finally we initialize everything, aka the dynamic that have yet to initialize. */ int plugin_init(int *argc, char **argv, int flags) { uint i; struct st_maria_plugin **builtins; struct st_maria_plugin *plugin; struct st_plugin_int tmp, *plugin_ptr, **reap; MEM_ROOT tmp_root; bool reaped_mandatory_plugin= false; bool mandatory= true; LEX_STRING MyISAM= { C_STRING_WITH_LEN("MyISAM") }; DBUG_ENTER("plugin_init"); if (initialized) DBUG_RETURN(0); dlopen_count =0; init_alloc_root(&plugin_mem_root, 4096, 4096, MYF(0)); init_alloc_root(&plugin_vars_mem_root, 4096, 4096, MYF(0)); init_alloc_root(&tmp_root, 4096, 4096, MYF(0)); if (my_hash_init(&bookmark_hash, &my_charset_bin, 16, 0, 0, get_bookmark_hash_key, NULL, HASH_UNIQUE)) goto err; if (my_init_dynamic_array(&plugin_dl_array, sizeof(struct st_plugin_dl *), 16, 16, MYF(0)) || my_init_dynamic_array(&plugin_array, sizeof(struct st_plugin_int *), 16, 16, MYF(0))) goto err; for (i= 0; i < MYSQL_MAX_PLUGIN_TYPE_NUM; i++) { if (my_hash_init(&plugin_hash[i], system_charset_info, 16, 0, 0, get_plugin_hash_key, NULL, HASH_UNIQUE)) goto err; } /* prepare debug_sync service */ DBUG_ASSERT(strcmp(list_of_services[1].name, "debug_sync_service") == 0); list_of_services[1].service= *(void**)&debug_sync_C_callback_ptr; /* prepare encryption_keys service */ finalize_encryption_plugin(0); mysql_mutex_lock(&LOCK_plugin); initialized= 1; /* First we register builtin plugins */ if (global_system_variables.log_warnings >= 9) sql_print_information("Initializing built-in plugins"); for (builtins= mysql_mandatory_plugins; *builtins || mandatory; builtins++) { if (!*builtins) { builtins= mysql_optional_plugins; mandatory= false; if (!*builtins) break; } for (plugin= *builtins; plugin->info; plugin++) { if (opt_ignore_builtin_innodb && !my_strnncoll(&my_charset_latin1, (const uchar*) plugin->name, 6, (const uchar*) "InnoDB", 6)) continue; bzero(&tmp, sizeof(tmp)); tmp.plugin= plugin; tmp.name.str= (char *)plugin->name; tmp.name.length= strlen(plugin->name); tmp.state= 0; tmp.load_option= mandatory ? PLUGIN_FORCE : PLUGIN_ON; for (i=0; i < array_elements(override_plugin_load_policy); i++) { if (!my_strcasecmp(&my_charset_latin1, plugin->name, override_plugin_load_policy[i].plugin_name)) { tmp.load_option= override_plugin_load_policy[i].override; break; } } free_root(&tmp_root, MYF(MY_MARK_BLOCKS_FREE)); tmp.state= PLUGIN_IS_UNINITIALIZED; if (register_builtin(plugin, &tmp, &plugin_ptr)) goto err_unlock; } } /* First, we initialize only MyISAM - that should almost always succeed (almost always, because plugins can be loaded outside of the server, too). */ plugin_ptr= plugin_find_internal(&MyISAM, MYSQL_STORAGE_ENGINE_PLUGIN); DBUG_ASSERT(plugin_ptr || !mysql_mandatory_plugins[0]); if (plugin_ptr) { DBUG_ASSERT(plugin_ptr->load_option == PLUGIN_FORCE); if (plugin_initialize(&tmp_root, plugin_ptr, argc, argv, false)) goto err_unlock; /* set the global default storage engine variable so that it will not be null in any child thread. */ global_system_variables.table_plugin = intern_plugin_lock(NULL, plugin_int_to_ref(plugin_ptr)); DBUG_ASSERT(plugin_ptr->ref_count == 1); } mysql_mutex_unlock(&LOCK_plugin); /* Register (not initialize!) all dynamic plugins */ if (!(flags & PLUGIN_INIT_SKIP_DYNAMIC_LOADING)) { I_List_iterator iter(opt_plugin_load_list); i_string *item; if (global_system_variables.log_warnings >= 9) sql_print_information("Initializing plugins specified on the command line"); while (NULL != (item= iter++)) plugin_load_list(&tmp_root, item->ptr); if (!(flags & PLUGIN_INIT_SKIP_PLUGIN_TABLE)) { char path[FN_REFLEN + 1]; build_table_filename(path, sizeof(path) - 1, "mysql", "plugin", reg_ext, 0); char engine_name_buf[NAME_CHAR_LEN + 1]; LEX_STRING maybe_myisam= { engine_name_buf, 0 }; frm_type_enum frm_type= dd_frm_type(NULL, path, &maybe_myisam); /* if mysql.plugin table is MyISAM - load it right away */ if (frm_type == FRMTYPE_TABLE && !strcasecmp(maybe_myisam.str, "MyISAM")) { plugin_load(&tmp_root); flags|= PLUGIN_INIT_SKIP_PLUGIN_TABLE; } } } /* Now we initialize all remaining plugins */ mysql_mutex_lock(&LOCK_plugin); reap= (st_plugin_int **) my_alloca((plugin_array.elements+1) * sizeof(void*)); *(reap++)= NULL; for(;;) { for (i=0; i < MYSQL_MAX_PLUGIN_TYPE_NUM; i++) { HASH *hash= plugin_hash + plugin_type_initialization_order[i]; for (uint idx= 0; idx < hash->records; idx++) { plugin_ptr= (struct st_plugin_int *) my_hash_element(hash, idx); if (plugin_ptr->state == PLUGIN_IS_UNINITIALIZED) { if (plugin_initialize(&tmp_root, plugin_ptr, argc, argv, (flags & PLUGIN_INIT_SKIP_INITIALIZATION))) { plugin_ptr->state= PLUGIN_IS_DYING; *(reap++)= plugin_ptr; } } } } /* load and init plugins from the plugin table (unless done already) */ if (flags & PLUGIN_INIT_SKIP_PLUGIN_TABLE) break; mysql_mutex_unlock(&LOCK_plugin); plugin_load(&tmp_root); flags|= PLUGIN_INIT_SKIP_PLUGIN_TABLE; mysql_mutex_lock(&LOCK_plugin); } /* Check if any plugins have to be reaped */ while ((plugin_ptr= *(--reap))) { mysql_mutex_unlock(&LOCK_plugin); if (plugin_is_forced(plugin_ptr)) reaped_mandatory_plugin= TRUE; plugin_deinitialize(plugin_ptr, true); mysql_mutex_lock(&LOCK_plugin); plugin_del(plugin_ptr); } mysql_mutex_unlock(&LOCK_plugin); my_afree(reap); if (reaped_mandatory_plugin) goto err; free_root(&tmp_root, MYF(0)); DBUG_RETURN(0); err_unlock: mysql_mutex_unlock(&LOCK_plugin); err: free_root(&tmp_root, MYF(0)); DBUG_RETURN(1); } static bool register_builtin(struct st_maria_plugin *plugin, struct st_plugin_int *tmp, struct st_plugin_int **ptr) { DBUG_ENTER("register_builtin"); tmp->ref_count= 0; tmp->plugin_dl= 0; if (insert_dynamic(&plugin_array, (uchar*)&tmp)) DBUG_RETURN(1); *ptr= *dynamic_element(&plugin_array, plugin_array.elements - 1, struct st_plugin_int **)= (struct st_plugin_int *) memdup_root(&plugin_mem_root, (uchar*)tmp, sizeof(struct st_plugin_int)); if (my_hash_insert(&plugin_hash[plugin->type],(uchar*) *ptr)) DBUG_RETURN(1); DBUG_RETURN(0); } /* called only by plugin_init() */ static void plugin_load(MEM_ROOT *tmp_root) { TABLE_LIST tables; TABLE *table; READ_RECORD read_record_info; int error; THD *new_thd= new THD; bool result; DBUG_ENTER("plugin_load"); if (global_system_variables.log_warnings >= 9) sql_print_information("Initializing installed plugins"); new_thd->thread_stack= (char*) &tables; new_thd->store_globals(); new_thd->db= my_strdup("mysql", MYF(0)); new_thd->db_length= 5; bzero((char*) &new_thd->net, sizeof(new_thd->net)); tables.init_one_table(STRING_WITH_LEN("mysql"), STRING_WITH_LEN("plugin"), "plugin", TL_READ); tables.open_strategy= TABLE_LIST::OPEN_NORMAL; result= open_and_lock_tables(new_thd, &tables, FALSE, MYSQL_LOCK_IGNORE_TIMEOUT); table= tables.table; if (result) { DBUG_PRINT("error",("Can't open plugin table")); if (!opt_help) sql_print_error("Could not open mysql.plugin table. " "Some plugins may be not loaded"); else sql_print_warning("Could not open mysql.plugin table. " "Some options may be missing from the help text"); goto end; } if (init_read_record(&read_record_info, new_thd, table, NULL, 1, 0, FALSE)) { sql_print_error("Could not initialize init_read_record; Plugins not " "loaded"); goto end; } table->use_all_columns(); while (!(error= read_record_info.read_record(&read_record_info))) { DBUG_PRINT("info", ("init plugin record")); String str_name, str_dl; get_field(tmp_root, table->field[0], &str_name); get_field(tmp_root, table->field[1], &str_dl); LEX_STRING name= {(char *)str_name.ptr(), str_name.length()}; LEX_STRING dl= {(char *)str_dl.ptr(), str_dl.length()}; if (!name.length || !dl.length) continue; /* there're no other threads running yet, so we don't need a mutex. but plugin_add() before is designed to work in multi-threaded environment, and it uses mysql_mutex_assert_owner(), so we lock the mutex here to satisfy the assert */ mysql_mutex_lock(&LOCK_plugin); plugin_add(tmp_root, &name, &dl, REPORT_TO_LOG); free_root(tmp_root, MYF(MY_MARK_BLOCKS_FREE)); mysql_mutex_unlock(&LOCK_plugin); } if (error > 0) sql_print_error(ER_THD(new_thd, ER_GET_ERRNO), my_errno, table->file->table_type()); end_read_record(&read_record_info); table->m_needs_reopen= TRUE; // Force close to free memory close_mysql_tables(new_thd); end: delete new_thd; DBUG_VOID_RETURN; } /* called only by plugin_init() */ static bool plugin_load_list(MEM_ROOT *tmp_root, const char *list) { char buffer[FN_REFLEN]; LEX_STRING name= {buffer, 0}, dl= {NULL, 0}, *str= &name; char *p= buffer; DBUG_ENTER("plugin_load_list"); while (list) { if (p == buffer + sizeof(buffer) - 1) { sql_print_error("plugin-load parameter too long"); DBUG_RETURN(TRUE); } switch ((*(p++)= *(list++))) { case '\0': list= NULL; /* terminate the loop */ /* fall through */ case ';': #ifndef __WIN__ case ':': /* can't use this as delimiter as it may be drive letter */ #endif str->str[str->length]= '\0'; if (str == &name) // load all plugins in named module { if (!name.length) { p--; /* reset pointer */ continue; } dl= name; mysql_mutex_lock(&LOCK_plugin); free_root(tmp_root, MYF(MY_MARK_BLOCKS_FREE)); name.str= 0; // load everything if (plugin_add(tmp_root, &name, &dl, REPORT_TO_LOG)) goto error; } else { free_root(tmp_root, MYF(MY_MARK_BLOCKS_FREE)); mysql_mutex_lock(&LOCK_plugin); if (plugin_add(tmp_root, &name, &dl, REPORT_TO_LOG)) goto error; } mysql_mutex_unlock(&LOCK_plugin); name.length= dl.length= 0; dl.str= NULL; name.str= p= buffer; str= &name; continue; case '=': case '#': if (str == &name) { name.str[name.length]= '\0'; str= &dl; str->str= p; continue; } /* fall through */ default: str->length++; continue; } } DBUG_RETURN(FALSE); error: mysql_mutex_unlock(&LOCK_plugin); if (name.str) sql_print_error("Couldn't load plugin '%s' from '%s'.", name.str, dl.str); else sql_print_error("Couldn't load plugins from '%s'.", dl.str); DBUG_RETURN(TRUE); } void plugin_shutdown(void) { uint i, count= plugin_array.elements; struct st_plugin_int **plugins, *plugin; struct st_plugin_dl **dl; DBUG_ENTER("plugin_shutdown"); if (initialized) { mysql_mutex_lock(&LOCK_plugin); reap_needed= true; /* We want to shut down plugins in a reasonable order, this will become important when we have plugins which depend upon each other. Circular references cannot be reaped so they are forced afterwards. TODO: Have an additional step here to notify all active plugins that shutdown is requested to allow plugins to deinitialize in parallel. */ while (reap_needed && (count= plugin_array.elements)) { reap_plugins(); for (i= 0; i < count; i++) { plugin= *dynamic_element(&plugin_array, i, struct st_plugin_int **); if (plugin->state == PLUGIN_IS_READY) { plugin->state= PLUGIN_IS_DELETED; reap_needed= true; } } if (!reap_needed) { /* release any plugin references held. */ unlock_variables(NULL, &global_system_variables); unlock_variables(NULL, &max_system_variables); } } plugins= (struct st_plugin_int **) my_alloca(sizeof(void*) * (count+1)); /* If we have any plugins which did not die cleanly, we force shutdown */ for (i= 0; i < count; i++) { plugins[i]= *dynamic_element(&plugin_array, i, struct st_plugin_int **); /* change the state to ensure no reaping races */ if (plugins[i]->state == PLUGIN_IS_DELETED) plugins[i]->state= PLUGIN_IS_DYING; } mysql_mutex_unlock(&LOCK_plugin); /* We loop through all plugins and call deinit() if they have one. */ for (i= 0; i < count; i++) if (!(plugins[i]->state & (PLUGIN_IS_UNINITIALIZED | PLUGIN_IS_FREED | PLUGIN_IS_DISABLED))) { /* We are forcing deinit on plugins so we don't want to do a ref_count check until we have processed all the plugins. */ plugin_deinitialize(plugins[i], false); } /* It's perfectly safe not to lock LOCK_plugin, as there're no concurrent threads anymore. But some functions called from here use mysql_mutex_assert_owner(), so we lock the mutex to satisfy it */ mysql_mutex_lock(&LOCK_plugin); /* We defer checking ref_counts until after all plugins are deinitialized as some may have worker threads holding on to plugin references. */ for (i= 0; i < count; i++) { if (plugins[i]->ref_count) sql_print_error("Plugin '%s' has ref_count=%d after shutdown.", plugins[i]->name.str, plugins[i]->ref_count); if (plugins[i]->state & PLUGIN_IS_UNINITIALIZED || plugins[i]->state & PLUGIN_IS_DISABLED) plugin_del(plugins[i]); } /* Now we can deallocate all memory. */ cleanup_variables(&global_system_variables); cleanup_variables(&max_system_variables); mysql_mutex_unlock(&LOCK_plugin); initialized= 0; mysql_mutex_destroy(&LOCK_plugin); my_afree(plugins); } /* Dispose of the memory */ for (i= 0; i < MYSQL_MAX_PLUGIN_TYPE_NUM; i++) my_hash_free(&plugin_hash[i]); delete_dynamic(&plugin_array); count= plugin_dl_array.elements; dl= (struct st_plugin_dl **)my_alloca(sizeof(void*) * count); for (i= 0; i < count; i++) dl[i]= *dynamic_element(&plugin_dl_array, i, struct st_plugin_dl **); for (i= 0; i < plugin_dl_array.elements; i++) free_plugin_mem(dl[i]); my_afree(dl); delete_dynamic(&plugin_dl_array); my_hash_free(&bookmark_hash); free_root(&plugin_mem_root, MYF(0)); free_root(&plugin_vars_mem_root, MYF(0)); global_variables_dynamic_size= 0; DBUG_VOID_RETURN; } /** complete plugin installation (after plugin_add). That is, initialize it, and update mysql.plugin table */ static bool finalize_install(THD *thd, TABLE *table, const LEX_STRING *name, int *argc, char **argv) { struct st_plugin_int *tmp= plugin_find_internal(name, MYSQL_ANY_PLUGIN); int error; DBUG_ASSERT(tmp); mysql_mutex_assert_owner(&LOCK_plugin); // because of tmp->state if (tmp->state != PLUGIN_IS_UNINITIALIZED) { /* already installed */ return 0; } else { if (plugin_initialize(thd->mem_root, tmp, argc, argv, false)) { report_error(REPORT_TO_USER, ER_CANT_INITIALIZE_UDF, name->str, "Plugin initialization function failed."); tmp->state= PLUGIN_IS_DELETED; return 1; } } if (tmp->state == PLUGIN_IS_DISABLED) { if (global_system_variables.log_warnings) push_warning_printf(thd, Sql_condition::WARN_LEVEL_WARN, ER_CANT_INITIALIZE_UDF, ER_THD(thd, ER_CANT_INITIALIZE_UDF), name->str, "Plugin is disabled"); } /* We do not replicate the INSTALL PLUGIN statement. Disable binlogging of the insert into the plugin table, so that it is not replicated in row based mode. */ tmp_disable_binlog(thd); table->use_all_columns(); restore_record(table, s->default_values); table->field[0]->store(name->str, name->length, system_charset_info); table->field[1]->store(tmp->plugin_dl->dl.str, tmp->plugin_dl->dl.length, files_charset_info); error= table->file->ha_write_row(table->record[0]); reenable_binlog(thd); if (error) { table->file->print_error(error, MYF(0)); tmp->state= PLUGIN_IS_DELETED; return 1; } return 0; } bool mysql_install_plugin(THD *thd, const LEX_STRING *name, const LEX_STRING *dl_arg) { TABLE_LIST tables; TABLE *table; LEX_STRING dl= *dl_arg; bool error; int argc=orig_argc; char **argv=orig_argv; unsigned long event_class_mask[MYSQL_AUDIT_CLASS_MASK_SIZE] = { MYSQL_AUDIT_GENERAL_CLASSMASK }; DBUG_ENTER("mysql_install_plugin"); tables.init_one_table("mysql", 5, "plugin", 6, "plugin", TL_WRITE); if (!opt_noacl && check_table_access(thd, INSERT_ACL, &tables, FALSE, 1, FALSE)) DBUG_RETURN(TRUE); WSREP_TO_ISOLATION_BEGIN(WSREP_MYSQL_DB, NULL, NULL); /* need to open before acquiring LOCK_plugin or it will deadlock */ if (! (table = open_ltable(thd, &tables, TL_WRITE, MYSQL_LOCK_IGNORE_TIMEOUT))) DBUG_RETURN(TRUE); if (my_load_defaults(MYSQL_CONFIG_NAME, load_default_groups, &argc, &argv, NULL)) { report_error(REPORT_TO_USER, ER_PLUGIN_IS_NOT_LOADED, name->str); DBUG_RETURN(TRUE); } /* Pre-acquire audit plugins for events that may potentially occur during [UN]INSTALL PLUGIN. When audit event is triggered, audit subsystem acquires interested plugins by walking through plugin list. Evidently plugin list iterator protects plugin list by acquiring LOCK_plugin, see plugin_foreach_with_mask(). On the other hand [UN]INSTALL PLUGIN is acquiring LOCK_plugin rather for a long time. When audit event is triggered during [UN]INSTALL PLUGIN, plugin list iterator acquires the same lock (within the same thread) second time. This hack should be removed when LOCK_plugin is fixed so it protects only what it supposed to protect. See also mysql_uninstall_plugin() and initialize_audit_plugin() */ mysql_audit_acquire_plugins(thd, event_class_mask); mysql_mutex_lock(&LOCK_plugin); error= plugin_add(thd->mem_root, name, &dl, REPORT_TO_USER); if (error) goto err; if (name->str) error= finalize_install(thd, table, name, &argc, argv); else { st_plugin_dl *plugin_dl= plugin_dl_find(&dl); struct st_maria_plugin *plugin; for (plugin= plugin_dl->plugins; plugin->info; plugin++) { LEX_STRING str= { const_cast(plugin->name), strlen(plugin->name) }; error|= finalize_install(thd, table, &str, &argc, argv); } } if (error) { reap_needed= true; reap_plugins(); } err: global_plugin_version++; mysql_mutex_unlock(&LOCK_plugin); if (argv) free_defaults(argv); DBUG_RETURN(error); WSREP_ERROR_LABEL: DBUG_RETURN(TRUE); } static bool do_uninstall(THD *thd, TABLE *table, const LEX_STRING *name) { struct st_plugin_int *plugin; mysql_mutex_assert_owner(&LOCK_plugin); if (!(plugin= plugin_find_internal(name, MYSQL_ANY_PLUGIN)) || plugin->state & (PLUGIN_IS_UNINITIALIZED | PLUGIN_IS_DYING)) { my_error(ER_SP_DOES_NOT_EXIST, MYF(0), "PLUGIN", name->str); return 1; } if (!plugin->plugin_dl) { my_error(ER_PLUGIN_DELETE_BUILTIN, MYF(0)); return 1; } if (plugin->load_option == PLUGIN_FORCE_PLUS_PERMANENT) { my_error(ER_PLUGIN_IS_PERMANENT, MYF(0), name->str); return 1; } plugin->state= PLUGIN_IS_DELETED; if (plugin->ref_count) push_warning(thd, Sql_condition::WARN_LEVEL_WARN, WARN_PLUGIN_BUSY, ER_THD(thd, WARN_PLUGIN_BUSY)); else reap_needed= true; uchar user_key[MAX_KEY_LENGTH]; table->use_all_columns(); table->field[0]->store(name->str, name->length, system_charset_info); key_copy(user_key, table->record[0], table->key_info, table->key_info->key_length); if (! table->file->ha_index_read_idx_map(table->record[0], 0, user_key, HA_WHOLE_KEY, HA_READ_KEY_EXACT)) { int error; /* We do not replicate the UNINSTALL PLUGIN statement. Disable binlogging of the delete from the plugin table, so that it is not replicated in row based mode. */ tmp_disable_binlog(thd); error= table->file->ha_delete_row(table->record[0]); reenable_binlog(thd); if (error) { table->file->print_error(error, MYF(0)); return 1; } } return 0; } bool mysql_uninstall_plugin(THD *thd, const LEX_STRING *name, const LEX_STRING *dl_arg) { TABLE *table; TABLE_LIST tables; LEX_STRING dl= *dl_arg; bool error= false; unsigned long event_class_mask[MYSQL_AUDIT_CLASS_MASK_SIZE] = { MYSQL_AUDIT_GENERAL_CLASSMASK }; DBUG_ENTER("mysql_uninstall_plugin"); tables.init_one_table("mysql", 5, "plugin", 6, "plugin", TL_WRITE); if (!opt_noacl && check_table_access(thd, DELETE_ACL, &tables, FALSE, 1, FALSE)) DBUG_RETURN(TRUE); WSREP_TO_ISOLATION_BEGIN(WSREP_MYSQL_DB, NULL, NULL) /* need to open before acquiring LOCK_plugin or it will deadlock */ if (! (table= open_ltable(thd, &tables, TL_WRITE, MYSQL_LOCK_IGNORE_TIMEOUT))) DBUG_RETURN(TRUE); if (!table->key_info) { my_printf_error(ER_UNKNOWN_ERROR, "The table %s.%s has no primary key. " "Please check the table definition and " "create the primary key accordingly.", MYF(0), table->s->db.str, table->s->table_name.str); DBUG_RETURN(TRUE); } /* Pre-acquire audit plugins for events that may potentially occur during [UN]INSTALL PLUGIN. When audit event is triggered, audit subsystem acquires interested plugins by walking through plugin list. Evidently plugin list iterator protects plugin list by acquiring LOCK_plugin, see plugin_foreach_with_mask(). On the other hand [UN]INSTALL PLUGIN is acquiring LOCK_plugin rather for a long time. When audit event is triggered during [UN]INSTALL PLUGIN, plugin list iterator acquires the same lock (within the same thread) second time. This hack should be removed when LOCK_plugin is fixed so it protects only what it supposed to protect. See also mysql_install_plugin() and initialize_audit_plugin() */ mysql_audit_acquire_plugins(thd, event_class_mask); mysql_mutex_lock(&LOCK_plugin); if (name->str) error= do_uninstall(thd, table, name); else { fix_dl_name(thd->mem_root, &dl); st_plugin_dl *plugin_dl= plugin_dl_find(&dl); if (plugin_dl) { for (struct st_maria_plugin *plugin= plugin_dl->plugins; plugin->info; plugin++) { LEX_STRING str= { const_cast(plugin->name), strlen(plugin->name) }; error|= do_uninstall(thd, table, &str); } } else { my_error(ER_SP_DOES_NOT_EXIST, MYF(0), "SONAME", dl.str); error= true; } } reap_plugins(); global_plugin_version++; mysql_mutex_unlock(&LOCK_plugin); DBUG_RETURN(error); WSREP_ERROR_LABEL: DBUG_RETURN(TRUE); } bool plugin_foreach_with_mask(THD *thd, plugin_foreach_func *func, int type, uint state_mask, void *arg) { uint idx, total= 0; struct st_plugin_int *plugin; plugin_ref *plugins; my_bool res= FALSE; DBUG_ENTER("plugin_foreach_with_mask"); if (!initialized) DBUG_RETURN(FALSE); mysql_mutex_lock(&LOCK_plugin); /* Do the alloca out here in case we do have a working alloca: leaving the nested stack frame invalidates alloca allocation. */ if (type == MYSQL_ANY_PLUGIN) { plugins= (plugin_ref*) my_alloca(plugin_array.elements * sizeof(plugin_ref)); for (idx= 0; idx < plugin_array.elements; idx++) { plugin= *dynamic_element(&plugin_array, idx, struct st_plugin_int **); if ((plugins[total]= intern_plugin_lock(0, plugin_int_to_ref(plugin), state_mask))) total++; } } else { HASH *hash= plugin_hash + type; plugins= (plugin_ref*) my_alloca(hash->records * sizeof(plugin_ref)); for (idx= 0; idx < hash->records; idx++) { plugin= (struct st_plugin_int *) my_hash_element(hash, idx); if ((plugins[total]= intern_plugin_lock(0, plugin_int_to_ref(plugin), state_mask))) total++; } } mysql_mutex_unlock(&LOCK_plugin); for (idx= 0; idx < total; idx++) { /* It will stop iterating on first engine error when "func" returns TRUE */ if ((res= func(thd, plugins[idx], arg))) break; } plugin_unlock_list(0, plugins, total); my_afree(plugins); DBUG_RETURN(res); } static bool plugin_dl_foreach_internal(THD *thd, st_plugin_dl *plugin_dl, st_maria_plugin *plug, plugin_foreach_func *func, void *arg) { for (; plug->name; plug++) { st_plugin_int tmp, *plugin; tmp.name.str= const_cast(plug->name); tmp.name.length= strlen(plug->name); tmp.plugin= plug; tmp.plugin_dl= plugin_dl; mysql_mutex_lock(&LOCK_plugin); if ((plugin= plugin_find_internal(&tmp.name, MYSQL_ANY_PLUGIN)) && plugin->plugin == plug) { tmp.state= plugin->state; tmp.load_option= plugin->load_option; } else { tmp.state= PLUGIN_IS_FREED; tmp.load_option= PLUGIN_OFF; } mysql_mutex_unlock(&LOCK_plugin); plugin= &tmp; if (func(thd, plugin_int_to_ref(plugin), arg)) return 1; } return 0; } bool plugin_dl_foreach(THD *thd, const LEX_STRING *dl, plugin_foreach_func *func, void *arg) { bool err= 0; if (dl) { mysql_mutex_lock(&LOCK_plugin); st_plugin_dl *plugin_dl= plugin_dl_add(dl, REPORT_TO_USER); mysql_mutex_unlock(&LOCK_plugin); if (!plugin_dl) return 1; err= plugin_dl_foreach_internal(thd, plugin_dl, plugin_dl->plugins, func, arg); mysql_mutex_lock(&LOCK_plugin); plugin_dl_del(plugin_dl); mysql_mutex_unlock(&LOCK_plugin); } else { struct st_maria_plugin **builtins; for (builtins= mysql_mandatory_plugins; !err && *builtins; builtins++) err= plugin_dl_foreach_internal(thd, 0, *builtins, func, arg); for (builtins= mysql_optional_plugins; !err && *builtins; builtins++) err= plugin_dl_foreach_internal(thd, 0, *builtins, func, arg); } return err; } /**************************************************************************** Internal type declarations for variables support ****************************************************************************/ #undef MYSQL_SYSVAR_NAME #define MYSQL_SYSVAR_NAME(name) name #define PLUGIN_VAR_TYPEMASK 0x7f #define BOOKMARK_MEMALLOC 0x80 static inline char plugin_var_bookmark_key(uint flags) { return (flags & PLUGIN_VAR_TYPEMASK) | (flags & PLUGIN_VAR_MEMALLOC ? BOOKMARK_MEMALLOC : 0); } #define EXTRA_OPTIONS 3 /* options for: 'foo', 'plugin-foo' and NULL */ typedef DECLARE_MYSQL_SYSVAR_BASIC(sysvar_bool_t, my_bool); typedef DECLARE_MYSQL_THDVAR_BASIC(thdvar_bool_t, my_bool); typedef DECLARE_MYSQL_SYSVAR_BASIC(sysvar_str_t, char *); typedef DECLARE_MYSQL_THDVAR_BASIC(thdvar_str_t, char *); typedef DECLARE_MYSQL_SYSVAR_TYPELIB(sysvar_enum_t, unsigned long); typedef DECLARE_MYSQL_THDVAR_TYPELIB(thdvar_enum_t, unsigned long); typedef DECLARE_MYSQL_SYSVAR_TYPELIB(sysvar_set_t, ulonglong); typedef DECLARE_MYSQL_THDVAR_TYPELIB(thdvar_set_t, ulonglong); typedef DECLARE_MYSQL_SYSVAR_SIMPLE(sysvar_int_t, int); typedef DECLARE_MYSQL_SYSVAR_SIMPLE(sysvar_long_t, long); typedef DECLARE_MYSQL_SYSVAR_SIMPLE(sysvar_longlong_t, longlong); typedef DECLARE_MYSQL_SYSVAR_SIMPLE(sysvar_uint_t, uint); typedef DECLARE_MYSQL_SYSVAR_SIMPLE(sysvar_ulong_t, ulong); typedef DECLARE_MYSQL_SYSVAR_SIMPLE(sysvar_ulonglong_t, ulonglong); typedef DECLARE_MYSQL_SYSVAR_SIMPLE(sysvar_double_t, double); typedef DECLARE_MYSQL_THDVAR_SIMPLE(thdvar_int_t, int); typedef DECLARE_MYSQL_THDVAR_SIMPLE(thdvar_long_t, long); typedef DECLARE_MYSQL_THDVAR_SIMPLE(thdvar_longlong_t, longlong); typedef DECLARE_MYSQL_THDVAR_SIMPLE(thdvar_uint_t, uint); typedef DECLARE_MYSQL_THDVAR_SIMPLE(thdvar_ulong_t, ulong); typedef DECLARE_MYSQL_THDVAR_SIMPLE(thdvar_ulonglong_t, ulonglong); typedef DECLARE_MYSQL_THDVAR_SIMPLE(thdvar_double_t, double); /**************************************************************************** default variable data check and update functions ****************************************************************************/ static int check_func_bool(THD *thd, struct st_mysql_sys_var *var, void *save, st_mysql_value *value) { char buff[STRING_BUFFER_USUAL_SIZE]; const char *str; int result, length; long long tmp; if (value->value_type(value) == MYSQL_VALUE_TYPE_STRING) { length= sizeof(buff); if (!(str= value->val_str(value, buff, &length)) || (result= find_type(&bool_typelib, str, length, 1)-1) < 0) goto err; } else { if (value->val_int(value, &tmp) < 0) goto err; if (tmp != 0 && tmp != 1) goto err; result= (int) tmp; } *(my_bool *) save= result ? 1 : 0; return 0; err: return 1; } static int check_func_int(THD *thd, struct st_mysql_sys_var *var, void *save, st_mysql_value *value) { my_bool fixed1, fixed2; long long orig, val; struct my_option options; value->val_int(value, &orig); val= orig; plugin_opt_set_limits(&options, var); if (var->flags & PLUGIN_VAR_UNSIGNED) { if ((fixed1= (!value->is_unsigned(value) && val < 0))) val=0; *(uint *)save= (uint) getopt_ull_limit_value((ulonglong) val, &options, &fixed2); } else { if ((fixed1= (value->is_unsigned(value) && val < 0))) val=LONGLONG_MAX; *(int *)save= (int) getopt_ll_limit_value(val, &options, &fixed2); } return throw_bounds_warning(thd, var->name, fixed1 || fixed2, value->is_unsigned(value), (longlong) orig); } static int check_func_long(THD *thd, struct st_mysql_sys_var *var, void *save, st_mysql_value *value) { my_bool fixed1, fixed2; long long orig, val; struct my_option options; value->val_int(value, &orig); val= orig; plugin_opt_set_limits(&options, var); if (var->flags & PLUGIN_VAR_UNSIGNED) { if ((fixed1= (!value->is_unsigned(value) && val < 0))) val=0; *(ulong *)save= (ulong) getopt_ull_limit_value((ulonglong) val, &options, &fixed2); } else { if ((fixed1= (value->is_unsigned(value) && val < 0))) val=LONGLONG_MAX; *(long *)save= (long) getopt_ll_limit_value(val, &options, &fixed2); } return throw_bounds_warning(thd, var->name, fixed1 || fixed2, value->is_unsigned(value), (longlong) orig); } static int check_func_longlong(THD *thd, struct st_mysql_sys_var *var, void *save, st_mysql_value *value) { my_bool fixed1, fixed2; long long orig, val; struct my_option options; value->val_int(value, &orig); val= orig; plugin_opt_set_limits(&options, var); if (var->flags & PLUGIN_VAR_UNSIGNED) { if ((fixed1= (!value->is_unsigned(value) && val < 0))) val=0; *(ulonglong *)save= getopt_ull_limit_value((ulonglong) val, &options, &fixed2); } else { if ((fixed1= (value->is_unsigned(value) && val < 0))) val=LONGLONG_MAX; *(longlong *)save= getopt_ll_limit_value(val, &options, &fixed2); } return throw_bounds_warning(thd, var->name, fixed1 || fixed2, value->is_unsigned(value), (longlong) orig); } static int check_func_str(THD *thd, struct st_mysql_sys_var *var, void *save, st_mysql_value *value) { char buff[STRING_BUFFER_USUAL_SIZE]; const char *str; int length; length= sizeof(buff); if ((str= value->val_str(value, buff, &length))) str= thd->strmake(str, length); *(const char**)save= str; return 0; } static int check_func_enum(THD *thd, struct st_mysql_sys_var *var, void *save, st_mysql_value *value) { char buff[STRING_BUFFER_USUAL_SIZE]; const char *str; TYPELIB *typelib; long long tmp; long result; int length; if (var->flags & PLUGIN_VAR_THDLOCAL) typelib= ((thdvar_enum_t*) var)->typelib; else typelib= ((sysvar_enum_t*) var)->typelib; if (value->value_type(value) == MYSQL_VALUE_TYPE_STRING) { length= sizeof(buff); if (!(str= value->val_str(value, buff, &length))) goto err; if ((result= (long)find_type(typelib, str, length, 0) - 1) < 0) goto err; } else { if (value->val_int(value, &tmp)) goto err; if (tmp < 0 || tmp >= typelib->count) goto err; result= (long) tmp; } *(long*)save= result; return 0; err: return 1; } static int check_func_set(THD *thd, struct st_mysql_sys_var *var, void *save, st_mysql_value *value) { char buff[STRING_BUFFER_USUAL_SIZE], *error= 0; const char *str; TYPELIB *typelib; ulonglong result; uint error_len= 0; // init as only set on error bool not_used; int length; if (var->flags & PLUGIN_VAR_THDLOCAL) typelib= ((thdvar_set_t*) var)->typelib; else typelib= ((sysvar_set_t*)var)->typelib; if (value->value_type(value) == MYSQL_VALUE_TYPE_STRING) { length= sizeof(buff); if (!(str= value->val_str(value, buff, &length))) goto err; result= find_set(typelib, str, length, NULL, &error, &error_len, ¬_used); if (error_len) goto err; } else { if (value->val_int(value, (long long *)&result)) goto err; if (unlikely((result >= (1ULL << typelib->count)) && (typelib->count < sizeof(long)*8))) goto err; } *(ulonglong*)save= result; return 0; err: return 1; } static int check_func_double(THD *thd, struct st_mysql_sys_var *var, void *save, st_mysql_value *value) { double v; my_bool fixed; struct my_option option; value->val_real(value, &v); plugin_opt_set_limits(&option, var); *(double *) save= getopt_double_limit_value(v, &option, &fixed); return throw_bounds_warning(thd, var->name, fixed, v); } static void update_func_bool(THD *thd, struct st_mysql_sys_var *var, void *tgt, const void *save) { *(my_bool *) tgt= *(my_bool *) save ? 1 : 0; } static void update_func_int(THD *thd, struct st_mysql_sys_var *var, void *tgt, const void *save) { *(int *)tgt= *(int *) save; } static void update_func_long(THD *thd, struct st_mysql_sys_var *var, void *tgt, const void *save) { *(long *)tgt= *(long *) save; } static void update_func_longlong(THD *thd, struct st_mysql_sys_var *var, void *tgt, const void *save) { *(longlong *)tgt= *(ulonglong *) save; } static void update_func_str(THD *thd, struct st_mysql_sys_var *var, void *tgt, const void *save) { char *value= *(char**) save; if (var->flags & PLUGIN_VAR_MEMALLOC) { char *old= *(char**) tgt; if (value) *(char**) tgt= my_strdup(value, MYF(0)); else *(char**) tgt= 0; my_free(old); } else *(char**) tgt= value; } static void update_func_double(THD *thd, struct st_mysql_sys_var *var, void *tgt, const void *save) { *(double *) tgt= *(double *) save; } /**************************************************************************** System Variables support ****************************************************************************/ sys_var *find_sys_var(THD *thd, const char *str, uint length) { sys_var *var; sys_var_pluginvar *pi= NULL; plugin_ref plugin; DBUG_ENTER("find_sys_var"); mysql_mutex_lock(&LOCK_plugin); mysql_rwlock_rdlock(&LOCK_system_variables_hash); if ((var= intern_find_sys_var(str, length)) && (pi= var->cast_pluginvar())) { mysql_rwlock_unlock(&LOCK_system_variables_hash); LEX *lex= thd ? thd->lex : 0; if (!(plugin= intern_plugin_lock(lex, plugin_int_to_ref(pi->plugin)))) var= NULL; /* failed to lock it, it must be uninstalling */ else if (!(plugin_state(plugin) & PLUGIN_IS_READY)) { /* initialization not completed */ var= NULL; intern_plugin_unlock(lex, plugin); } } else mysql_rwlock_unlock(&LOCK_system_variables_hash); mysql_mutex_unlock(&LOCK_plugin); if (!var) my_error(ER_UNKNOWN_SYSTEM_VARIABLE, MYF(0), (char*) str); DBUG_RETURN(var); } /* called by register_var, construct_options and test_plugin_options. Returns the 'bookmark' for the named variable. LOCK_system_variables_hash should be at least read locked */ static st_bookmark *find_bookmark(const char *plugin, const char *name, int flags) { st_bookmark *result= NULL; uint namelen, length, pluginlen= 0; char *varname, *p; if (!(flags & PLUGIN_VAR_THDLOCAL)) return NULL; namelen= strlen(name); if (plugin) pluginlen= strlen(plugin) + 1; length= namelen + pluginlen + 2; varname= (char*) my_alloca(length); if (plugin) { strxmov(varname + 1, plugin, "_", name, NullS); for (p= varname + 1; *p; p++) if (*p == '-') *p= '_'; } else memcpy(varname + 1, name, namelen + 1); varname[0]= plugin_var_bookmark_key(flags); result= (st_bookmark*) my_hash_search(&bookmark_hash, (const uchar*) varname, length - 1); my_afree(varname); return result; } static size_t var_storage_size(int flags) { switch (flags & PLUGIN_VAR_TYPEMASK) { case PLUGIN_VAR_BOOL: return sizeof(my_bool); case PLUGIN_VAR_INT: return sizeof(int); case PLUGIN_VAR_LONG: return sizeof(long); case PLUGIN_VAR_ENUM: return sizeof(long); case PLUGIN_VAR_LONGLONG: return sizeof(ulonglong); case PLUGIN_VAR_SET: return sizeof(ulonglong); case PLUGIN_VAR_STR: return sizeof(char*); case PLUGIN_VAR_DOUBLE: return sizeof(double); default: DBUG_ASSERT(0); return 0; } } /* returns a bookmark for thd-local variables, creating if neccessary. returns null for non thd-local variables. Requires that a write lock is obtained on LOCK_system_variables_hash */ static st_bookmark *register_var(const char *plugin, const char *name, int flags) { uint length= strlen(plugin) + strlen(name) + 3, size, offset, new_size; st_bookmark *result; char *varname, *p; DBUG_ASSERT(flags & PLUGIN_VAR_THDLOCAL); size= var_storage_size(flags); varname= ((char*) my_alloca(length)); strxmov(varname + 1, plugin, "_", name, NullS); for (p= varname + 1; *p; p++) if (*p == '-') *p= '_'; if (!(result= find_bookmark(NULL, varname + 1, flags))) { result= (st_bookmark*) alloc_root(&plugin_vars_mem_root, sizeof(struct st_bookmark) + length-1); varname[0]= plugin_var_bookmark_key(flags); memcpy(result->key, varname, length); result->name_len= length - 2; result->offset= -1; DBUG_ASSERT(size && !(size & (size-1))); /* must be power of 2 */ offset= global_system_variables.dynamic_variables_size; offset= (offset + size - 1) & ~(size - 1); result->offset= (int) offset; new_size= (offset + size + 63) & ~63; if (new_size > global_variables_dynamic_size) { global_system_variables.dynamic_variables_ptr= (char*) my_realloc(global_system_variables.dynamic_variables_ptr, new_size, MYF(MY_WME | MY_FAE | MY_ALLOW_ZERO_PTR)); max_system_variables.dynamic_variables_ptr= (char*) my_realloc(max_system_variables.dynamic_variables_ptr, new_size, MYF(MY_WME | MY_FAE | MY_ALLOW_ZERO_PTR)); /* Clear the new variable value space. This is required for string variables. If their value is non-NULL, it must point to a valid string. */ bzero(global_system_variables.dynamic_variables_ptr + global_variables_dynamic_size, new_size - global_variables_dynamic_size); bzero(max_system_variables.dynamic_variables_ptr + global_variables_dynamic_size, new_size - global_variables_dynamic_size); global_variables_dynamic_size= new_size; } global_system_variables.dynamic_variables_head= offset; max_system_variables.dynamic_variables_head= offset; global_system_variables.dynamic_variables_size= offset + size; max_system_variables.dynamic_variables_size= offset + size; global_system_variables.dynamic_variables_version++; max_system_variables.dynamic_variables_version++; result->version= global_system_variables.dynamic_variables_version; /* this should succeed because we have already checked if a dup exists */ if (my_hash_insert(&bookmark_hash, (uchar*) result)) { fprintf(stderr, "failed to add placeholder to hash"); DBUG_ASSERT(0); } } my_afree(varname); return result; } void sync_dynamic_session_variables(THD* thd, bool global_lock) { uint idx; thd->variables.dynamic_variables_ptr= (char*) my_realloc(thd->variables.dynamic_variables_ptr, global_variables_dynamic_size, MYF(MY_WME | MY_FAE | MY_ALLOW_ZERO_PTR)); if (global_lock) mysql_mutex_lock(&LOCK_global_system_variables); mysql_mutex_assert_owner(&LOCK_global_system_variables); memcpy(thd->variables.dynamic_variables_ptr + thd->variables.dynamic_variables_size, global_system_variables.dynamic_variables_ptr + thd->variables.dynamic_variables_size, global_system_variables.dynamic_variables_size - thd->variables.dynamic_variables_size); /* now we need to iterate through any newly copied 'defaults' and if it is a string type with MEMALLOC flag, we need to strdup */ for (idx= 0; idx < bookmark_hash.records; idx++) { st_bookmark *v= (st_bookmark*) my_hash_element(&bookmark_hash,idx); if (v->version <= thd->variables.dynamic_variables_version) continue; /* already in thd->variables */ /* Here we do anything special that may be required of the data types */ if ((v->key[0] & PLUGIN_VAR_TYPEMASK) == PLUGIN_VAR_STR && v->key[0] & BOOKMARK_MEMALLOC) { char **pp= (char**) (thd->variables.dynamic_variables_ptr + v->offset); if (*pp) *pp= my_strdup(*pp, MYF(MY_WME|MY_FAE)); } } if (global_lock) mysql_mutex_unlock(&LOCK_global_system_variables); thd->variables.dynamic_variables_version= global_system_variables.dynamic_variables_version; thd->variables.dynamic_variables_head= global_system_variables.dynamic_variables_head; thd->variables.dynamic_variables_size= global_system_variables.dynamic_variables_size; } /* returns a pointer to the memory which holds the thd-local variable or a pointer to the global variable if thd==null. If required, will sync with global variables if the requested variable has not yet been allocated in the current thread. */ static uchar *intern_sys_var_ptr(THD* thd, int offset, bool global_lock) { DBUG_ENTER("intern_sys_var_ptr"); DBUG_ASSERT(offset >= 0); DBUG_ASSERT((uint)offset <= global_system_variables.dynamic_variables_head); if (!thd) DBUG_RETURN((uchar*) global_system_variables.dynamic_variables_ptr + offset); /* dynamic_variables_head points to the largest valid offset */ if (!thd->variables.dynamic_variables_ptr || (uint)offset > thd->variables.dynamic_variables_head) { mysql_rwlock_rdlock(&LOCK_system_variables_hash); sync_dynamic_session_variables(thd, global_lock); mysql_rwlock_unlock(&LOCK_system_variables_hash); } DBUG_RETURN((uchar*)thd->variables.dynamic_variables_ptr + offset); } /** For correctness and simplicity's sake, a pointer to a function must be compatible with pointed-to type, that is, the return and parameters types must be the same. Thus, a callback function is defined for each scalar type. The functions are assigned in construct_options to their respective types. */ static char *mysql_sys_var_char(THD* thd, int offset) { return (char *) intern_sys_var_ptr(thd, offset, true); } static int *mysql_sys_var_int(THD* thd, int offset) { return (int *) intern_sys_var_ptr(thd, offset, true); } static long *mysql_sys_var_long(THD* thd, int offset) { return (long *) intern_sys_var_ptr(thd, offset, true); } static unsigned long *mysql_sys_var_ulong(THD* thd, int offset) { return (unsigned long *) intern_sys_var_ptr(thd, offset, true); } static long long *mysql_sys_var_longlong(THD* thd, int offset) { return (long long *) intern_sys_var_ptr(thd, offset, true); } static unsigned long long *mysql_sys_var_ulonglong(THD* thd, int offset) { return (unsigned long long *) intern_sys_var_ptr(thd, offset, true); } static char **mysql_sys_var_str(THD* thd, int offset) { return (char **) intern_sys_var_ptr(thd, offset, true); } static double *mysql_sys_var_double(THD* thd, int offset) { return (double *) intern_sys_var_ptr(thd, offset, true); } void plugin_thdvar_init(THD *thd) { plugin_ref old_table_plugin= thd->variables.table_plugin; plugin_ref old_tmp_table_plugin= thd->variables.tmp_table_plugin; plugin_ref old_enforced_table_plugin= thd->variables.enforced_table_plugin; DBUG_ENTER("plugin_thdvar_init"); // This function may be called many times per THD (e.g. on COM_CHANGE_USER) thd->variables.table_plugin= NULL; thd->variables.tmp_table_plugin= NULL; thd->variables.enforced_table_plugin= NULL; cleanup_variables(&thd->variables); thd->variables= global_system_variables; /* we are going to allocate these lazily */ thd->variables.dynamic_variables_version= 0; thd->variables.dynamic_variables_size= 0; thd->variables.dynamic_variables_ptr= 0; mysql_mutex_lock(&LOCK_plugin); thd->variables.table_plugin= intern_plugin_lock(NULL, global_system_variables.table_plugin); if (global_system_variables.tmp_table_plugin) thd->variables.tmp_table_plugin= intern_plugin_lock(NULL, global_system_variables.tmp_table_plugin); if (global_system_variables.enforced_table_plugin) thd->variables.enforced_table_plugin= intern_plugin_lock(NULL, global_system_variables.enforced_table_plugin); intern_plugin_unlock(NULL, old_table_plugin); intern_plugin_unlock(NULL, old_tmp_table_plugin); intern_plugin_unlock(NULL, old_enforced_table_plugin); mysql_mutex_unlock(&LOCK_plugin); DBUG_VOID_RETURN; } /* Unlocks all system variables which hold a reference */ static void unlock_variables(THD *thd, struct system_variables *vars) { intern_plugin_unlock(NULL, vars->table_plugin); intern_plugin_unlock(NULL, vars->tmp_table_plugin); intern_plugin_unlock(NULL, vars->enforced_table_plugin); vars->table_plugin= vars->tmp_table_plugin= vars->enforced_table_plugin= NULL; } /* Frees memory used by system variables Unlike plugin_vars_free_values() it frees all variables of all plugins, it's used on shutdown. */ static void cleanup_variables(struct system_variables *vars) { st_bookmark *v; uint idx; mysql_rwlock_rdlock(&LOCK_system_variables_hash); for (idx= 0; idx < bookmark_hash.records; idx++) { v= (st_bookmark*) my_hash_element(&bookmark_hash, idx); if (v->version > vars->dynamic_variables_version) continue; /* not in vars */ DBUG_ASSERT((uint)v->offset <= vars->dynamic_variables_head); /* free allocated strings (PLUGIN_VAR_STR | PLUGIN_VAR_MEMALLOC) */ if ((v->key[0] & PLUGIN_VAR_TYPEMASK) == PLUGIN_VAR_STR && v->key[0] & BOOKMARK_MEMALLOC) { char **ptr= (char**)(vars->dynamic_variables_ptr + v->offset); my_free(*ptr); *ptr= NULL; } } mysql_rwlock_unlock(&LOCK_system_variables_hash); DBUG_ASSERT(vars->table_plugin == NULL); DBUG_ASSERT(vars->tmp_table_plugin == NULL); DBUG_ASSERT(vars->enforced_table_plugin == NULL); my_free(vars->dynamic_variables_ptr); vars->dynamic_variables_ptr= NULL; vars->dynamic_variables_size= 0; vars->dynamic_variables_version= 0; } void plugin_thdvar_cleanup(THD *thd) { uint idx; plugin_ref *list; DBUG_ENTER("plugin_thdvar_cleanup"); mysql_mutex_lock(&LOCK_plugin); unlock_variables(thd, &thd->variables); cleanup_variables(&thd->variables); if ((idx= thd->lex->plugins.elements)) { list= ((plugin_ref*) thd->lex->plugins.buffer) + idx - 1; DBUG_PRINT("info",("unlocking %d plugins", idx)); while ((uchar*) list >= thd->lex->plugins.buffer) intern_plugin_unlock(NULL, *list--); } reap_plugins(); mysql_mutex_unlock(&LOCK_plugin); reset_dynamic(&thd->lex->plugins); DBUG_VOID_RETURN; } /** @brief Free values of thread variables of a plugin. This must be called before a plugin is deleted. Otherwise its variables are no longer accessible and the value space is lost. Note that only string values with PLUGIN_VAR_MEMALLOC are allocated and must be freed. @param[in] vars Chain of system variables of a plugin */ static void plugin_vars_free_values(sys_var *vars) { DBUG_ENTER("plugin_vars_free_values"); for (sys_var *var= vars; var; var= var->next) { sys_var_pluginvar *piv= var->cast_pluginvar(); if (piv && ((piv->plugin_var->flags & PLUGIN_VAR_TYPEMASK) == PLUGIN_VAR_STR) && (piv->plugin_var->flags & PLUGIN_VAR_MEMALLOC)) { /* Free the string from global_system_variables. */ char **valptr= (char**) piv->real_value_ptr(NULL, OPT_GLOBAL); DBUG_PRINT("plugin", ("freeing value for: '%s' addr: 0x%lx", var->name.str, (long) valptr)); my_free(*valptr); *valptr= NULL; } } DBUG_VOID_RETURN; } static SHOW_TYPE pluginvar_show_type(const st_mysql_sys_var *plugin_var) { switch (plugin_var->flags & (PLUGIN_VAR_TYPEMASK | PLUGIN_VAR_UNSIGNED)) { case PLUGIN_VAR_BOOL: return SHOW_MY_BOOL; case PLUGIN_VAR_INT: return SHOW_SINT; case PLUGIN_VAR_INT | PLUGIN_VAR_UNSIGNED: return SHOW_UINT; case PLUGIN_VAR_LONG: return SHOW_SLONG; case PLUGIN_VAR_LONG | PLUGIN_VAR_UNSIGNED: return SHOW_ULONG; case PLUGIN_VAR_LONGLONG: return SHOW_SLONGLONG; case PLUGIN_VAR_LONGLONG | PLUGIN_VAR_UNSIGNED: return SHOW_ULONGLONG; case PLUGIN_VAR_STR: return SHOW_CHAR_PTR; case PLUGIN_VAR_ENUM: case PLUGIN_VAR_SET: return SHOW_CHAR; case PLUGIN_VAR_DOUBLE: return SHOW_DOUBLE; default: DBUG_ASSERT(0); return SHOW_UNDEF; } } static int pluginvar_sysvar_flags(const st_mysql_sys_var *p) { return (p->flags & PLUGIN_VAR_THDLOCAL ? sys_var::SESSION : sys_var::GLOBAL) | (p->flags & PLUGIN_VAR_READONLY ? sys_var::READONLY : 0); } sys_var_pluginvar::sys_var_pluginvar(sys_var_chain *chain, const char *name_arg, st_plugin_int *p, st_mysql_sys_var *pv) : sys_var(chain, name_arg, pv->comment, pluginvar_sysvar_flags(pv), 0, pv->flags & PLUGIN_VAR_NOCMDOPT ? -1 : 0, NO_ARG, pluginvar_show_type(pv), 0, NULL, VARIABLE_NOT_IN_BINLOG, NULL, NULL, NULL), plugin(p), plugin_var(pv) { plugin_var->name= name_arg; plugin_opt_set_limits(&option, pv); } uchar* sys_var_pluginvar::real_value_ptr(THD *thd, enum_var_type type) { if (type == OPT_DEFAULT) { switch (plugin_var->flags & PLUGIN_VAR_TYPEMASK) { case PLUGIN_VAR_BOOL: thd->sys_var_tmp.my_bool_value= option.def_value; return (uchar*) &thd->sys_var_tmp.my_bool_value; case PLUGIN_VAR_INT: thd->sys_var_tmp.int_value= option.def_value; return (uchar*) &thd->sys_var_tmp.int_value; case PLUGIN_VAR_LONG: case PLUGIN_VAR_ENUM: thd->sys_var_tmp.long_value= option.def_value; return (uchar*) &thd->sys_var_tmp.long_value; case PLUGIN_VAR_LONGLONG: case PLUGIN_VAR_SET: return (uchar*) &option.def_value; case PLUGIN_VAR_STR: thd->sys_var_tmp.ptr_value= (void*) option.def_value; return (uchar*) &thd->sys_var_tmp.ptr_value; case PLUGIN_VAR_DOUBLE: thd->sys_var_tmp.double_value= getopt_ulonglong2double(option.def_value); return (uchar*) &thd->sys_var_tmp.double_value; default: DBUG_ASSERT(0); } } DBUG_ASSERT(thd || (type == OPT_GLOBAL)); if (plugin_var->flags & PLUGIN_VAR_THDLOCAL) { if (type == OPT_GLOBAL) thd= NULL; return intern_sys_var_ptr(thd, *(int*) (plugin_var+1), false); } return *(uchar**) (plugin_var+1); } bool sys_var_pluginvar::session_is_default(THD *thd) { uchar *value= plugin_var->flags & PLUGIN_VAR_THDLOCAL ? intern_sys_var_ptr(thd, *(int*) (plugin_var+1), true) : *(uchar**) (plugin_var+1); real_value_ptr(thd, OPT_SESSION); switch (plugin_var->flags & PLUGIN_VAR_TYPEMASK) { case PLUGIN_VAR_BOOL: return option.def_value == *(my_bool*)value; case PLUGIN_VAR_INT: return option.def_value == *(int*)value; case PLUGIN_VAR_LONG: case PLUGIN_VAR_ENUM: return option.def_value == *(long*)value; case PLUGIN_VAR_LONGLONG: case PLUGIN_VAR_SET: return option.def_value == *(longlong*)value; case PLUGIN_VAR_STR: { const char *a=(char*)option.def_value; const char *b=(char*)value; return (!a && !b) || (a && b && strcmp(a,b)); } case PLUGIN_VAR_DOUBLE: return getopt_ulonglong2double(option.def_value) == *(double*)value; } DBUG_ASSERT(0); return 0; } TYPELIB* sys_var_pluginvar::plugin_var_typelib(void) { switch (plugin_var->flags & (PLUGIN_VAR_TYPEMASK | PLUGIN_VAR_THDLOCAL)) { case PLUGIN_VAR_ENUM: return ((sysvar_enum_t *)plugin_var)->typelib; case PLUGIN_VAR_SET: return ((sysvar_set_t *)plugin_var)->typelib; case PLUGIN_VAR_ENUM | PLUGIN_VAR_THDLOCAL: return ((thdvar_enum_t *)plugin_var)->typelib; case PLUGIN_VAR_SET | PLUGIN_VAR_THDLOCAL: return ((thdvar_set_t *)plugin_var)->typelib; default: return NULL; } return NULL; /* Keep compiler happy */ } uchar* sys_var_pluginvar::do_value_ptr(THD *thd, enum_var_type type, const LEX_STRING *base) { uchar* result; result= real_value_ptr(thd, type); if ((plugin_var->flags & PLUGIN_VAR_TYPEMASK) == PLUGIN_VAR_ENUM) result= (uchar*) get_type(plugin_var_typelib(), *(ulong*)result); else if ((plugin_var->flags & PLUGIN_VAR_TYPEMASK) == PLUGIN_VAR_SET) result= (uchar*) set_to_string(thd, 0, *(ulonglong*) result, plugin_var_typelib()->type_names); return result; } bool sys_var_pluginvar::do_check(THD *thd, set_var *var) { st_item_value_holder value; DBUG_ASSERT(!is_readonly()); DBUG_ASSERT(plugin_var->check); value.value_type= item_value_type; value.val_str= item_val_str; value.val_int= item_val_int; value.val_real= item_val_real; value.is_unsigned= item_is_unsigned; value.item= var->value; return plugin_var->check(thd, plugin_var, &var->save_result, &value); } bool sys_var_pluginvar::session_update(THD *thd, set_var *var) { DBUG_ASSERT(!is_readonly()); DBUG_ASSERT(plugin_var->flags & PLUGIN_VAR_THDLOCAL); DBUG_ASSERT(thd == current_thd); mysql_mutex_lock(&LOCK_global_system_variables); void *tgt= real_value_ptr(thd, OPT_SESSION); const void *src= var->value ? (void*)&var->save_result : (void*)real_value_ptr(thd, OPT_GLOBAL); mysql_mutex_unlock(&LOCK_global_system_variables); plugin_var->update(thd, plugin_var, tgt, src); return false; } static const void *var_def_ptr(st_mysql_sys_var *pv) { switch (pv->flags & (PLUGIN_VAR_TYPEMASK | PLUGIN_VAR_THDLOCAL)) { case PLUGIN_VAR_INT: return &((sysvar_uint_t*) pv)->def_val; case PLUGIN_VAR_LONG: return &((sysvar_ulong_t*) pv)->def_val; case PLUGIN_VAR_LONGLONG: return &((sysvar_ulonglong_t*) pv)->def_val; case PLUGIN_VAR_ENUM: return &((sysvar_enum_t*) pv)->def_val; case PLUGIN_VAR_SET: return &((sysvar_set_t*) pv)->def_val; case PLUGIN_VAR_BOOL: return &((sysvar_bool_t*) pv)->def_val; case PLUGIN_VAR_STR: return &((sysvar_str_t*) pv)->def_val; case PLUGIN_VAR_DOUBLE: return &((sysvar_double_t*) pv)->def_val; case PLUGIN_VAR_INT | PLUGIN_VAR_THDLOCAL: return &((thdvar_uint_t*) pv)->def_val; case PLUGIN_VAR_LONG | PLUGIN_VAR_THDLOCAL: return &((thdvar_ulong_t*) pv)->def_val; case PLUGIN_VAR_LONGLONG | PLUGIN_VAR_THDLOCAL: return &((thdvar_ulonglong_t*) pv)->def_val; case PLUGIN_VAR_ENUM | PLUGIN_VAR_THDLOCAL: return &((thdvar_enum_t*) pv)->def_val; case PLUGIN_VAR_SET | PLUGIN_VAR_THDLOCAL: return &((thdvar_set_t*) pv)->def_val; case PLUGIN_VAR_BOOL | PLUGIN_VAR_THDLOCAL: return &((thdvar_bool_t*) pv)->def_val; case PLUGIN_VAR_STR | PLUGIN_VAR_THDLOCAL: return &((thdvar_str_t*) pv)->def_val; case PLUGIN_VAR_DOUBLE | PLUGIN_VAR_THDLOCAL: return &((thdvar_double_t*) pv)->def_val; default: DBUG_ASSERT(0); return NULL; } } bool sys_var_pluginvar::global_update(THD *thd, set_var *var) { DBUG_ASSERT(!is_readonly()); mysql_mutex_assert_owner(&LOCK_global_system_variables); void *tgt= real_value_ptr(thd, OPT_GLOBAL); const void *src= &var->save_result; if (!var->value) src= var_def_ptr(plugin_var); plugin_var->update(thd, plugin_var, tgt, src); return false; } #define OPTION_SET_LIMITS(type, options, opt) \ options->var_type= type; \ options->def_value= (opt)->def_val; \ options->min_value= (opt)->min_val; \ options->max_value= (opt)->max_val; \ options->block_size= (long) (opt)->blk_sz #define OPTION_SET_LIMITS_DOUBLE(options, opt) \ options->var_type= GET_DOUBLE; \ options->def_value= (longlong) getopt_double2ulonglong((opt)->def_val); \ options->min_value= (longlong) getopt_double2ulonglong((opt)->min_val); \ options->max_value= getopt_double2ulonglong((opt)->max_val); \ options->block_size= (long) (opt)->blk_sz; void plugin_opt_set_limits(struct my_option *options, const struct st_mysql_sys_var *opt) { options->sub_size= 0; switch (opt->flags & (PLUGIN_VAR_TYPEMASK | PLUGIN_VAR_UNSIGNED | PLUGIN_VAR_THDLOCAL)) { /* global system variables */ case PLUGIN_VAR_INT: OPTION_SET_LIMITS(GET_INT, options, (sysvar_int_t*) opt); break; case PLUGIN_VAR_INT | PLUGIN_VAR_UNSIGNED: OPTION_SET_LIMITS(GET_UINT, options, (sysvar_uint_t*) opt); break; case PLUGIN_VAR_LONG: OPTION_SET_LIMITS(GET_LONG, options, (sysvar_long_t*) opt); break; case PLUGIN_VAR_LONG | PLUGIN_VAR_UNSIGNED: OPTION_SET_LIMITS(GET_ULONG, options, (sysvar_ulong_t*) opt); break; case PLUGIN_VAR_LONGLONG: OPTION_SET_LIMITS(GET_LL, options, (sysvar_longlong_t*) opt); break; case PLUGIN_VAR_LONGLONG | PLUGIN_VAR_UNSIGNED: OPTION_SET_LIMITS(GET_ULL, options, (sysvar_ulonglong_t*) opt); break; case PLUGIN_VAR_ENUM: options->var_type= GET_ENUM; options->typelib= ((sysvar_enum_t*) opt)->typelib; options->def_value= ((sysvar_enum_t*) opt)->def_val; options->min_value= options->block_size= 0; options->max_value= options->typelib->count - 1; break; case PLUGIN_VAR_SET: options->var_type= GET_SET; options->typelib= ((sysvar_set_t*) opt)->typelib; options->def_value= ((sysvar_set_t*) opt)->def_val; options->min_value= options->block_size= 0; options->max_value= (1ULL << options->typelib->count) - 1; break; case PLUGIN_VAR_BOOL: options->var_type= GET_BOOL; options->def_value= ((sysvar_bool_t*) opt)->def_val; options->typelib= &bool_typelib; break; case PLUGIN_VAR_STR: options->var_type= ((opt->flags & PLUGIN_VAR_MEMALLOC) ? GET_STR_ALLOC : GET_STR); options->def_value= (intptr) ((sysvar_str_t*) opt)->def_val; break; case PLUGIN_VAR_DOUBLE: OPTION_SET_LIMITS_DOUBLE(options, (sysvar_double_t*) opt); break; /* threadlocal variables */ case PLUGIN_VAR_INT | PLUGIN_VAR_THDLOCAL: OPTION_SET_LIMITS(GET_INT, options, (thdvar_int_t*) opt); break; case PLUGIN_VAR_INT | PLUGIN_VAR_UNSIGNED | PLUGIN_VAR_THDLOCAL: OPTION_SET_LIMITS(GET_UINT, options, (thdvar_uint_t*) opt); break; case PLUGIN_VAR_LONG | PLUGIN_VAR_THDLOCAL: OPTION_SET_LIMITS(GET_LONG, options, (thdvar_long_t*) opt); break; case PLUGIN_VAR_LONG | PLUGIN_VAR_UNSIGNED | PLUGIN_VAR_THDLOCAL: OPTION_SET_LIMITS(GET_ULONG, options, (thdvar_ulong_t*) opt); break; case PLUGIN_VAR_LONGLONG | PLUGIN_VAR_THDLOCAL: OPTION_SET_LIMITS(GET_LL, options, (thdvar_longlong_t*) opt); break; case PLUGIN_VAR_LONGLONG | PLUGIN_VAR_UNSIGNED | PLUGIN_VAR_THDLOCAL: OPTION_SET_LIMITS(GET_ULL, options, (thdvar_ulonglong_t*) opt); break; case PLUGIN_VAR_DOUBLE | PLUGIN_VAR_THDLOCAL: OPTION_SET_LIMITS_DOUBLE(options, (thdvar_double_t*) opt); break; case PLUGIN_VAR_ENUM | PLUGIN_VAR_THDLOCAL: options->var_type= GET_ENUM; options->typelib= ((thdvar_enum_t*) opt)->typelib; options->def_value= ((thdvar_enum_t*) opt)->def_val; options->min_value= options->block_size= 0; options->max_value= options->typelib->count - 1; break; case PLUGIN_VAR_SET | PLUGIN_VAR_THDLOCAL: options->var_type= GET_SET; options->typelib= ((thdvar_set_t*) opt)->typelib; options->def_value= ((thdvar_set_t*) opt)->def_val; options->min_value= options->block_size= 0; options->max_value= (1ULL << options->typelib->count) - 1; break; case PLUGIN_VAR_BOOL | PLUGIN_VAR_THDLOCAL: options->var_type= GET_BOOL; options->def_value= ((thdvar_bool_t*) opt)->def_val; options->typelib= &bool_typelib; break; case PLUGIN_VAR_STR | PLUGIN_VAR_THDLOCAL: options->var_type= ((opt->flags & PLUGIN_VAR_MEMALLOC) ? GET_STR_ALLOC : GET_STR); options->def_value= (intptr) ((thdvar_str_t*) opt)->def_val; break; default: DBUG_ASSERT(0); } options->arg_type= REQUIRED_ARG; if (opt->flags & PLUGIN_VAR_NOCMDARG) options->arg_type= NO_ARG; if (opt->flags & PLUGIN_VAR_OPCMDARG) options->arg_type= OPT_ARG; } /** Creates a set of my_option objects associated with a specified plugin- handle. @param mem_root Memory allocator to be used. @param tmp A pointer to a plugin handle @param[out] options A pointer to a pre-allocated static array The set is stored in the pre-allocated static array supplied to the function. The size of the array is calculated as (number_of_plugin_varaibles*2+3). The reason is that each option can have a prefix '--plugin-' in addtion to the shorter form '--<plugin-name>'. There is also space allocated for terminating NULL pointers. @return @retval -1 An error occurred @retval 0 Success */ static int construct_options(MEM_ROOT *mem_root, struct st_plugin_int *tmp, my_option *options) { const char *plugin_name= tmp->plugin->name; const LEX_STRING plugin_dash = { C_STRING_WITH_LEN("plugin-") }; uint plugin_name_len= strlen(plugin_name); uint optnamelen; const int max_comment_len= 255; char *comment= (char *) alloc_root(mem_root, max_comment_len + 1); char *optname; int index= 0, UNINIT_VAR(offset); st_mysql_sys_var *opt, **plugin_option; st_bookmark *v; /** Used to circumvent the const attribute on my_option::name */ char *plugin_name_ptr, *plugin_name_with_prefix_ptr; DBUG_ENTER("construct_options"); plugin_name_ptr= (char*) alloc_root(mem_root, plugin_name_len + 1); strcpy(plugin_name_ptr, plugin_name); my_casedn_str(&my_charset_latin1, plugin_name_ptr); convert_underscore_to_dash(plugin_name_ptr, plugin_name_len); plugin_name_with_prefix_ptr= (char*) alloc_root(mem_root, plugin_name_len + plugin_dash.length + 1); strxmov(plugin_name_with_prefix_ptr, plugin_dash.str, plugin_name_ptr, NullS); if (!plugin_is_forced(tmp)) { /* support --skip-plugin-foo syntax */ options[0].name= plugin_name_ptr; options[1].name= plugin_name_with_prefix_ptr; options[0].id= options[1].id= 0; options[0].var_type= options[1].var_type= GET_ENUM; options[0].arg_type= options[1].arg_type= OPT_ARG; options[0].def_value= options[1].def_value= 1; /* ON */ options[0].typelib= options[1].typelib= &global_plugin_typelib; strxnmov(comment, max_comment_len, "Enable or disable ", plugin_name, " plugin. One of: ON, OFF, FORCE (don't start if the plugin" " fails to load), FORCE_PLUS_PERMANENT (like FORCE, but the" " plugin can not be uninstalled).", NullS); options[0].comment= comment; /* Allocate temporary space for the value of the tristate. This option will have a limited lifetime and is not used beyond server initialization. GET_ENUM value is an unsigned long integer. */ options[0].value= options[1].value= (uchar **)alloc_root(mem_root, sizeof(ulong)); *((ulong*) options[0].value)= (ulong) options[0].def_value; options+= 2; } /* Two passes as the 2nd pass will take pointer addresses for use by my_getopt and register_var() in the first pass uses realloc */ for (plugin_option= tmp->plugin->system_vars; plugin_option && *plugin_option; plugin_option++, index++) { opt= *plugin_option; if (!opt->name) { sql_print_error("Missing variable name in plugin '%s'.", plugin_name); DBUG_RETURN(-1); } if (!(opt->flags & PLUGIN_VAR_THDLOCAL)) continue; if (!(register_var(plugin_name_ptr, opt->name, opt->flags))) continue; switch (opt->flags & PLUGIN_VAR_TYPEMASK) { case PLUGIN_VAR_BOOL: ((thdvar_bool_t *) opt)->resolve= mysql_sys_var_char; break; case PLUGIN_VAR_INT: ((thdvar_int_t *) opt)->resolve= mysql_sys_var_int; break; case PLUGIN_VAR_LONG: ((thdvar_long_t *) opt)->resolve= mysql_sys_var_long; break; case PLUGIN_VAR_LONGLONG: ((thdvar_longlong_t *) opt)->resolve= mysql_sys_var_longlong; break; case PLUGIN_VAR_STR: ((thdvar_str_t *) opt)->resolve= mysql_sys_var_str; break; case PLUGIN_VAR_ENUM: ((thdvar_enum_t *) opt)->resolve= mysql_sys_var_ulong; break; case PLUGIN_VAR_SET: ((thdvar_set_t *) opt)->resolve= mysql_sys_var_ulonglong; break; case PLUGIN_VAR_DOUBLE: ((thdvar_double_t *) opt)->resolve= mysql_sys_var_double; break; default: sql_print_error("Unknown variable type code 0x%x in plugin '%s'.", opt->flags, plugin_name); DBUG_RETURN(-1); }; } for (plugin_option= tmp->plugin->system_vars; plugin_option && *plugin_option; plugin_option++, index++) { switch ((opt= *plugin_option)->flags & PLUGIN_VAR_TYPEMASK) { case PLUGIN_VAR_BOOL: if (!opt->check) opt->check= check_func_bool; if (!opt->update) opt->update= update_func_bool; break; case PLUGIN_VAR_INT: if (!opt->check) opt->check= check_func_int; if (!opt->update) opt->update= update_func_int; break; case PLUGIN_VAR_LONG: if (!opt->check) opt->check= check_func_long; if (!opt->update) opt->update= update_func_long; break; case PLUGIN_VAR_LONGLONG: if (!opt->check) opt->check= check_func_longlong; if (!opt->update) opt->update= update_func_longlong; break; case PLUGIN_VAR_STR: if (!opt->check) opt->check= check_func_str; if (!opt->update) { opt->update= update_func_str; if (!(opt->flags & (PLUGIN_VAR_MEMALLOC | PLUGIN_VAR_READONLY))) { opt->flags|= PLUGIN_VAR_READONLY; sql_print_warning("Server variable %s of plugin %s was forced " "to be read-only: string variable without " "update_func and PLUGIN_VAR_MEMALLOC flag", opt->name, plugin_name); } } break; case PLUGIN_VAR_ENUM: if (!opt->check) opt->check= check_func_enum; if (!opt->update) opt->update= update_func_long; break; case PLUGIN_VAR_SET: if (!opt->check) opt->check= check_func_set; if (!opt->update) opt->update= update_func_longlong; break; case PLUGIN_VAR_DOUBLE: if (!opt->check) opt->check= check_func_double; if (!opt->update) opt->update= update_func_double; break; default: sql_print_error("Unknown variable type code 0x%x in plugin '%s'.", opt->flags, plugin_name); DBUG_RETURN(-1); } if ((opt->flags & (PLUGIN_VAR_NOCMDOPT | PLUGIN_VAR_THDLOCAL)) == PLUGIN_VAR_NOCMDOPT) continue; if (!(opt->flags & PLUGIN_VAR_THDLOCAL)) { optnamelen= strlen(opt->name); optname= (char*) alloc_root(mem_root, plugin_name_len + optnamelen + 2); strxmov(optname, plugin_name_ptr, "-", opt->name, NullS); optnamelen= plugin_name_len + optnamelen + 1; } else { /* this should not fail because register_var should create entry */ if (!(v= find_bookmark(plugin_name_ptr, opt->name, opt->flags))) { sql_print_error("Thread local variable '%s' not allocated " "in plugin '%s'.", opt->name, plugin_name); DBUG_RETURN(-1); } *(int*)(opt + 1)= offset= v->offset; if (opt->flags & PLUGIN_VAR_NOCMDOPT) { char *val= global_system_variables.dynamic_variables_ptr + offset; if (((opt->flags & PLUGIN_VAR_TYPEMASK) == PLUGIN_VAR_STR) && (opt->flags & PLUGIN_VAR_MEMALLOC)) { char *def_val= *(char**)var_def_ptr(opt); *(char**)val= def_val ? my_strdup(def_val, MYF(0)) : NULL; } else memcpy(val, var_def_ptr(opt), var_storage_size(opt->flags)); continue; } optname= (char*) memdup_root(mem_root, v->key + 1, (optnamelen= v->name_len) + 1); } convert_underscore_to_dash(optname, optnamelen); options->name= optname; options->comment= opt->comment; options->app_type= (opt->flags & PLUGIN_VAR_NOSYSVAR) ? NULL : opt; options->id= 0; plugin_opt_set_limits(options, opt); if (opt->flags & PLUGIN_VAR_THDLOCAL) options->value= options->u_max_value= (uchar**) (global_system_variables.dynamic_variables_ptr + offset); else options->value= options->u_max_value= *(uchar***) (opt + 1); char *option_name_ptr; options[1]= options[0]; options[1].name= option_name_ptr= (char*) alloc_root(mem_root, plugin_dash.length + optnamelen + 1); options[1].comment= 0; /* Hidden from the help text */ strxmov(option_name_ptr, plugin_dash.str, optname, NullS); options+= 2; } DBUG_RETURN(0); } static my_option *construct_help_options(MEM_ROOT *mem_root, struct st_plugin_int *p) { st_mysql_sys_var **opt; my_option *opts; uint count= EXTRA_OPTIONS; DBUG_ENTER("construct_help_options"); for (opt= p->plugin->system_vars; opt && *opt; opt++, count+= 2) ; if (!(opts= (my_option*) alloc_root(mem_root, sizeof(my_option) * count))) DBUG_RETURN(NULL); bzero(opts, sizeof(my_option) * count); /** some plugin variables (those that don't have PLUGIN_VAR_NOSYSVAR flag) have their names prefixed with the plugin name. Restore the names here to get the correct (not double-prefixed) help text. We won't need @@sysvars anymore and don't care about their proper names. */ restore_ptr_backup(p->nbackups, p->ptr_backup); if (construct_options(mem_root, p, opts)) DBUG_RETURN(NULL); DBUG_RETURN(opts); } extern "C" my_bool mark_changed(int, const struct my_option *, char *); my_bool mark_changed(int, const struct my_option *opt, char *) { if (opt->app_type) { sys_var *var= (sys_var*) opt->app_type; var->value_origin= sys_var::CONFIG; } return 0; } /** Create and register system variables supplied from the plugin and assigns initial values from corresponding command line arguments. @param tmp_root Temporary scratch space @param[out] plugin Internal plugin structure @param argc Number of command line arguments @param argv Command line argument vector The plugin will be updated with a policy on how to handle errors during initialization. @note Requires that a write-lock is held on LOCK_system_variables_hash @return How initialization of the plugin should be handled. @retval 0 Initialization should proceed. @retval 1 Plugin is disabled. @retval -1 An error has occurred. */ static int test_plugin_options(MEM_ROOT *tmp_root, struct st_plugin_int *tmp, int *argc, char **argv) { struct sys_var_chain chain= { NULL, NULL }; bool disable_plugin; enum_plugin_load_option plugin_load_option= tmp->load_option; MEM_ROOT *mem_root= alloc_root_inited(&tmp->mem_root) ? &tmp->mem_root : &plugin_vars_mem_root; st_mysql_sys_var **opt; my_option *opts= NULL; int error= 1; struct st_bookmark *var; uint len=0, count= EXTRA_OPTIONS; st_ptr_backup *tmp_backup= 0; DBUG_ENTER("test_plugin_options"); DBUG_ASSERT(tmp->plugin && tmp->name.str); if (tmp->plugin->system_vars || (*argc > 1)) { for (opt= tmp->plugin->system_vars; opt && *opt; opt++) { len++; if (!((*opt)->flags & PLUGIN_VAR_NOCMDOPT)) count+= 2; /* --{plugin}-{optname} and --plugin-{plugin}-{optname} */ } if (!(opts= (my_option*) alloc_root(tmp_root, sizeof(my_option) * count))) { sql_print_error("Out of memory for plugin '%s'.", tmp->name.str); DBUG_RETURN(-1); } bzero(opts, sizeof(my_option) * count); if (construct_options(tmp_root, tmp, opts)) { sql_print_error("Bad options for plugin '%s'.", tmp->name.str); DBUG_RETURN(-1); } if (tmp->plugin->system_vars) { tmp_backup= (st_ptr_backup *)my_alloca(len * sizeof(tmp_backup[0])); DBUG_ASSERT(tmp->nbackups == 0); DBUG_ASSERT(tmp->ptr_backup == 0); for (opt= tmp->plugin->system_vars; *opt; opt++) { st_mysql_sys_var *o= *opt; char *varname; sys_var *v; if (o->flags & PLUGIN_VAR_NOSYSVAR) continue; tmp_backup[tmp->nbackups++].save(&o->name); if ((var= find_bookmark(tmp->name.str, o->name, o->flags))) varname= var->key + 1; else { len= tmp->name.length + strlen(o->name) + 2; varname= (char*) alloc_root(mem_root, len); strxmov(varname, tmp->name.str, "-", o->name, NullS); my_casedn_str(&my_charset_latin1, varname); convert_dash_to_underscore(varname, len-1); } v= new (mem_root) sys_var_pluginvar(&chain, varname, tmp, o); if (!(o->flags & PLUGIN_VAR_NOCMDOPT)) { // update app_type, used for I_S.SYSTEM_VARIABLES for (my_option *mo=opts; mo->name; mo++) if (mo->app_type == o) mo->app_type= v; } } if (tmp->nbackups) { size_t bytes= tmp->nbackups * sizeof(tmp->ptr_backup[0]); tmp->ptr_backup= (st_ptr_backup *)alloc_root(mem_root, bytes); if (!tmp->ptr_backup) { restore_ptr_backup(tmp->nbackups, tmp_backup); my_afree(tmp_backup); goto err; } memcpy(tmp->ptr_backup, tmp_backup, bytes); } my_afree(tmp_backup); } /* We adjust the default value to account for the hardcoded exceptions we have set for the federated and ndbcluster storage engines. */ if (!plugin_is_forced(tmp)) opts[0].def_value= opts[1].def_value= plugin_load_option; error= handle_options(argc, &argv, opts, mark_changed); (*argc)++; /* add back one for the program name */ if (error) { sql_print_error("Parsing options for plugin '%s' failed.", tmp->name.str); goto err; } /* Set plugin loading policy from option value. First element in the option list is always the option value. */ if (!plugin_is_forced(tmp)) plugin_load_option= (enum_plugin_load_option) *(ulong*) opts[0].value; } disable_plugin= (plugin_load_option == PLUGIN_OFF); tmp->load_option= plugin_load_option; error= 1; /* If the plugin is disabled it should not be initialized. */ if (disable_plugin) { if (global_system_variables.log_warnings) sql_print_information("Plugin '%s' is disabled.", tmp->name.str); goto err; } if (tmp->plugin->system_vars) { for (opt= tmp->plugin->system_vars; *opt; opt++) { /* PLUGIN_VAR_STR command-line options without PLUGIN_VAR_MEMALLOC, point directly to values in the argv[] array. For plugins started at the server startup, argv[] array is allocated with load_defaults(), and freed when the server is shut down. But for plugins loaded with INSTALL PLUGIN, the memory allocated with load_defaults() is freed with free() at the end of mysql_install_plugin(). Which means we cannot allow any pointers into that area. Thus, for all plugins loaded after the server was started, we copy string values to a plugin's memroot. */ if (mysqld_server_started && (((*opt)->flags & (PLUGIN_VAR_TYPEMASK | PLUGIN_VAR_NOCMDOPT | PLUGIN_VAR_MEMALLOC)) == PLUGIN_VAR_STR)) { sysvar_str_t* str= (sysvar_str_t *)*opt; if (*str->value) *str->value= strdup_root(mem_root, *str->value); } } if (chain.first) { chain.last->next = NULL; if (mysql_add_sys_var_chain(chain.first)) { sql_print_error("Plugin '%s' has conflicting system variables", tmp->name.str); goto err; } tmp->system_vars= chain.first; } } DBUG_RETURN(0); err: if (opts) my_cleanup_options(opts); DBUG_RETURN(error); } /**************************************************************************** Help Verbose text with Plugin System Variables ****************************************************************************/ void add_plugin_options(DYNAMIC_ARRAY *options, MEM_ROOT *mem_root) { struct st_plugin_int *p; my_option *opt; if (!initialized) return; for (uint idx= 0; idx < plugin_array.elements; idx++) { p= *dynamic_element(&plugin_array, idx, struct st_plugin_int **); if (!(opt= construct_help_options(mem_root, p))) continue; /* Only options with a non-NULL comment are displayed in help text */ for (;opt->name; opt++) if (opt->comment) insert_dynamic(options, (uchar*) opt); } } /** Returns a sys_var corresponding to a particular MYSQL_SYSVAR(...) */ sys_var *find_plugin_sysvar(st_plugin_int *plugin, st_mysql_sys_var *plugin_var) { for (sys_var *var= plugin->system_vars; var; var= var->next) { sys_var_pluginvar *pvar=var->cast_pluginvar(); if (pvar->plugin_var == plugin_var) return var; } return 0; } /* On dlclose() we need to restore values of all symbols that we've modified in the DSO. The reason is - the DSO might not actually be unloaded, so on the next dlopen() these symbols will have old values, they won't be reinitialized. Perhaps, there can be many reason, why a DSO won't be unloaded. Strictly speaking, it's implementation defined whether to unload an unused DSO or to keep it in memory. In particular, this happens for some plugins: In 2009 a new ELF stub was introduced, see Ulrich Drepper's email "Unique symbols for C++" http://www.redhat.com/archives/posix-c++-wg/2009-August/msg00002.html DSO that has objects with this stub (STB_GNU_UNIQUE) cannot be unloaded (this is mentioned in the email, see the url above). These "unique" objects are, for example, static variables in templates, in inline functions, in classes. So any DSO that uses them can only be loaded once. And because Boost has them, any DSO that uses Boost almost certainly cannot be unloaded. To know whether a particular DSO has these objects, one can use readelf -s /path/to/plugin.so|grep UNIQUE There's nothing we can do about it, but to reset the DSO to its initial state before dlclose(). */ static void restore_ptr_backup(uint n, st_ptr_backup *backup) { while (n--) (backup++)->restore(); } /**************************************************************************** thd specifics service, see include/mysql/service_thd_specifics.h ****************************************************************************/ static const int INVALID_THD_KEY= -1; static uint thd_key_no = 42; int thd_key_create(MYSQL_THD_KEY_T *key) { int flags= PLUGIN_VAR_THDLOCAL | PLUGIN_VAR_STR | PLUGIN_VAR_NOSYSVAR | PLUGIN_VAR_NOCMDOPT; char namebuf[256]; snprintf(namebuf, sizeof(namebuf), "%u", thd_key_no++); mysql_rwlock_wrlock(&LOCK_system_variables_hash); // non-letters in the name as an extra safety st_bookmark *bookmark= register_var("\a\v\a\t\a\r", namebuf, flags); mysql_rwlock_unlock(&LOCK_system_variables_hash); if (bookmark) { *key= bookmark->offset; return 0; } return ENOMEM; } void thd_key_delete(MYSQL_THD_KEY_T *key) { *key= INVALID_THD_KEY; } void* thd_getspecific(MYSQL_THD thd, MYSQL_THD_KEY_T key) { DBUG_ASSERT(key != INVALID_THD_KEY); if (key == INVALID_THD_KEY || (!thd && !(thd= current_thd))) return 0; return *(void**)(intern_sys_var_ptr(thd, key, true)); } int thd_setspecific(MYSQL_THD thd, MYSQL_THD_KEY_T key, void *value) { DBUG_ASSERT(key != INVALID_THD_KEY); if (key == INVALID_THD_KEY || (!thd && !(thd= current_thd))) return EINVAL; memcpy(intern_sys_var_ptr(thd, key, true), &value, sizeof(void*)); return 0; } void plugin_mutex_init() { #ifdef HAVE_PSI_INTERFACE init_plugin_psi_keys(); #endif mysql_mutex_init(key_LOCK_plugin, &LOCK_plugin, MY_MUTEX_INIT_FAST); } #ifdef WITH_WSREP /* Placeholder for global_system_variables.table_plugin required during initialization of startup wsrep threads. */ static st_plugin_int wsrep_dummy_plugin; static st_plugin_int *wsrep_dummy_plugin_ptr; /* Initialize wsrep_dummy_plugin and assign it to global_system_variables.table_plugin. */ void wsrep_plugins_pre_init() { wsrep_dummy_plugin_ptr= &wsrep_dummy_plugin; wsrep_dummy_plugin.state= PLUGIN_IS_DISABLED; global_system_variables.table_plugin= plugin_int_to_ref(wsrep_dummy_plugin_ptr); } /* This function is intended to be called after the plugins and related global system variables are initialized. It re-initializes some data members of wsrep startup threads with correct values, as these value were not available at the time these threads were created. */ void wsrep_plugins_post_init() { THD *thd; I_List_iterator it(threads); while ((thd= it++)) { if (IF_WSREP(thd->wsrep_applier,1)) { // Save options_bits as it will get overwritten in plugin_thdvar_init() ulonglong option_bits_saved= thd->variables.option_bits; plugin_thdvar_init(thd); // Restore option_bits thd->variables.option_bits= option_bits_saved; } } return; } #endif /* WITH_WSREP */