/* Copyright (c) 2000, 2019, Oracle and/or its affiliates. All rights reserved. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License, version 2.0, as published by the Free Software Foundation. This program is also distributed with certain software (including but not limited to OpenSSL) that is licensed under separate terms, as designated in a particular file or component or in included license documentation. The authors of MySQL hereby grant you an additional permission to link the program and your derivative works with the separately licensed software that they have included with MySQL. 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, version 2.0, for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA */ #include "my_global.h" /* NO_EMBEDDED_ACCESS_CHECKS */ #include #include #include #include #include #include "sql_priv.h" #include "unireg.h" #include #include "sql_parse.h" // test_if_data_home_dir #include "sql_cache.h" // query_cache, query_cache_* #include "sql_locale.h" // MY_LOCALES, my_locales, my_locale_by_name #include "sql_show.h" // free_status_vars, add_status_vars, // reset_status_vars #include "strfunc.h" // find_set_from_flags #include "parse_file.h" // File_parser_dummy_hook #include "sql_db.h" // my_dboptions_cache_free // my_dboptions_cache_init #include "sql_table.h" // release_ddl_log, execute_ddl_log_recovery #include "sql_connect.h" // free_max_user_conn, init_max_user_conn, // handle_one_connection #include "sql_time.h" // known_date_time_formats, // get_date_time_format_str, // date_time_format_make #include "tztime.h" // my_tz_free, my_tz_init, my_tz_SYSTEM #include "hostname.h" // hostname_cache_free, hostname_cache_init #include "sql_acl.h" // acl_free, grant_free, acl_init, // grant_init #include "sql_base.h" // table_def_free, table_def_init, // Table_cache, // cached_table_definitions #include "sql_test.h" // mysql_print_status #include "item_create.h" // item_create_cleanup, item_create_init #include "sql_servers.h" // servers_free, servers_init #include "init.h" // unireg_init #include "derror.h" // init_errmessage #include "derror.h" // init_errmessage #include "des_key_file.h" // load_des_key_file #include "sql_manager.h" // stop_handle_manager, start_handle_manager #include #include #include #include "rpl_gtid.h" #include "rpl_slave.h" #include "rpl_master.h" #include "rpl_mi.h" #include "rpl_filter.h" #include #include #include "mysqld_suffix.h" #include "mysys_err.h" #include "events.h" #include "sql_audit.h" #include "probes_mysql.h" #include "scheduler.h" #include "debug_sync.h" #ifdef WITH_WSREP #include "wsrep_mysqld.h" #include "wsrep_var.h" #include "wsrep_thd.h" #include "wsrep_sst.h" #endif #include "sql_callback.h" #include "opt_trace_context.h" #include "global_threads.h" #include "mysqld.h" #include "my_default.h" #ifdef WITH_PERFSCHEMA_STORAGE_ENGINE #include "../storage/perfschema/pfs_server.h" #else #include "lf.h" int dummy_variable_to_pull_in_lf_hash_functions= LF_HASH_OVERHEAD; #endif /* WITH_PERFSCHEMA_STORAGE_ENGINE */ #include #include #include #include "mysql_com_server.h" #include "keycaches.h" #include "../storage/myisam/ha_myisam.h" #include "set_var.h" #include "sys_vars_shared.h" #include "rpl_injector.h" #include "rpl_handler.h" #ifdef HAVE_SYS_PRCTL_H #include #endif #include #include #include #include "sp_rcontext.h" #include "sp_cache.h" #include "sql_reload.h" // reload_acl_and_cache #ifdef HAVE_POLL_H #include #endif #ifdef HAVE_FESETROUND #include #endif #include "table_cache.h" // table_cache_manager using std::min; using std::max; using std::vector; #define mysqld_charset &my_charset_latin1 /* We have HAVE_purify below as this speeds up the shutdown of MySQL */ #if defined(HAVE_DEC_3_2_THREADS) || defined(SIGNALS_DONT_BREAK_READ) || defined(HAVE_purify) && defined(__linux__) #define HAVE_CLOSE_SERVER_SOCK 1 #endif extern "C" { // Because of SCO 3.2V4.2 #include #include #ifndef __GNU_LIBRARY__ #define __GNU_LIBRARY__ // Skip warnings in getopt.h #endif #include #ifdef HAVE_SYSENT_H #include #endif #ifdef HAVE_PWD_H #include // For getpwent #endif #ifdef HAVE_GRP_H #include #endif #include #if !defined(__WIN__) #include #ifdef HAVE_SYS_UN_H #include #endif #ifdef HAVE_SELECT_H #include #endif #ifdef HAVE_SYS_SELECT_H #include #endif #include #endif /* __WIN__ */ #include #ifdef HAVE_SYS_MMAN_H #include #endif #ifdef __WIN__ #include #endif #ifdef HAVE_SOLARIS_LARGE_PAGES #include #if defined(__sun__) && defined(__GNUC__) && defined(__cplusplus) \ && defined(_XOPEN_SOURCE) extern int getpagesizes(size_t *, int); extern int getpagesizes2(size_t *, int); extern int memcntl(caddr_t, size_t, int, caddr_t, int, int); #endif /* __sun__ ... */ #endif /* HAVE_SOLARIS_LARGE_PAGES */ #ifdef _AIX41 int initgroups(const char *,unsigned int); #endif #if defined(__FreeBSD__) && defined(HAVE_IEEEFP_H) && !defined(HAVE_FEDISABLEEXCEPT) #include #ifdef HAVE_FP_EXCEPT // Fix type conflict typedef fp_except fp_except_t; #endif #endif /* __FreeBSD__ && HAVE_IEEEFP_H && !HAVE_FEDISABLEEXCEPT */ #ifdef HAVE_SYS_FPU_H /* for IRIX to use set_fpc_csr() */ #include #endif #ifdef HAVE_FPU_CONTROL_H #include #endif #if defined(__i386__) && !defined(HAVE_FPU_CONTROL_H) # define fpu_control_t unsigned int # define _FPU_EXTENDED 0x300 # define _FPU_DOUBLE 0x200 # if defined(__GNUC__) || (defined(__SUNPRO_CC) && __SUNPRO_CC >= 0x590) # define _FPU_GETCW(cw) asm volatile ("fnstcw %0" : "=m" (*&cw)) # define _FPU_SETCW(cw) asm volatile ("fldcw %0" : : "m" (*&cw)) # else # define _FPU_GETCW(cw) (cw= 0) # define _FPU_SETCW(cw) # endif #endif extern "C" my_bool reopen_fstreams(const char *filename, FILE *outstream, FILE *errstream); inline void setup_fpu() { #if defined(__FreeBSD__) && defined(HAVE_IEEEFP_H) && !defined(HAVE_FEDISABLEEXCEPT) /* We can't handle floating point exceptions with threads, so disable this on freebsd Don't fall for overflow, underflow,divide-by-zero or loss of precision. fpsetmask() is deprecated in favor of fedisableexcept() in C99. */ #if defined(FP_X_DNML) fpsetmask(~(FP_X_INV | FP_X_DNML | FP_X_OFL | FP_X_UFL | FP_X_DZ | FP_X_IMP)); #else fpsetmask(~(FP_X_INV | FP_X_OFL | FP_X_UFL | FP_X_DZ | FP_X_IMP)); #endif /* FP_X_DNML */ #endif /* __FreeBSD__ && HAVE_IEEEFP_H && !HAVE_FEDISABLEEXCEPT */ #ifdef HAVE_FEDISABLEEXCEPT fedisableexcept(FE_ALL_EXCEPT); #endif #ifdef HAVE_FESETROUND /* Set FPU rounding mode to "round-to-nearest" */ fesetround(FE_TONEAREST); #endif /* HAVE_FESETROUND */ /* x86 (32-bit) requires FPU precision to be explicitly set to 64 bit (double precision) for portable results of floating point operations. However, there is no need to do so if compiler is using SSE2 for floating point, double values will be stored and processed in 64 bits anyway. */ #if defined(__i386__) && !defined(__SSE2_MATH__) #if defined(_WIN32) #if !defined(_WIN64) _control87(_PC_53, MCW_PC); #endif /* !_WIN64 */ #else /* !_WIN32 */ fpu_control_t cw; _FPU_GETCW(cw); cw= (cw & ~_FPU_EXTENDED) | _FPU_DOUBLE; _FPU_SETCW(cw); #endif /* _WIN32 && */ #endif /* __i386__ */ #if defined(__sgi) && defined(HAVE_SYS_FPU_H) /* Enable denormalized DOUBLE values support for IRIX */ union fpc_csr n; n.fc_word = get_fpc_csr(); n.fc_struct.flush = 0; set_fpc_csr(n.fc_word); #endif } } /* cplusplus */ #define MYSQL_KILL_SIGNAL SIGTERM #include // For thr_setconcurency() #ifdef SOLARIS extern "C" int gethostname(char *name, int namelen); #endif extern "C" sig_handler handle_fatal_signal(int sig); #if defined(__linux__) #define ENABLE_TEMP_POOL 1 #else #define ENABLE_TEMP_POOL 0 #endif /* Constants */ #include // ORACLE_WELCOME_COPYRIGHT_NOTICE const char *show_comp_option_name[]= {"YES", "NO", "DISABLED"}; static const char *tc_heuristic_recover_names[]= { "COMMIT", "ROLLBACK", NullS }; static TYPELIB tc_heuristic_recover_typelib= { array_elements(tc_heuristic_recover_names)-1,"", tc_heuristic_recover_names, NULL }; const char *first_keyword= "first", *binary_keyword= "BINARY"; const char *my_localhost= "localhost", *delayed_user= "DELAYED"; bool opt_large_files= sizeof(my_off_t) > 4; static my_bool opt_autocommit; ///< for --autocommit command-line option /* Used with --help for detailed option */ static my_bool opt_help= 0, opt_verbose= 0; arg_cmp_func Arg_comparator::comparator_matrix[5][2] = {{&Arg_comparator::compare_string, &Arg_comparator::compare_e_string}, {&Arg_comparator::compare_real, &Arg_comparator::compare_e_real}, {&Arg_comparator::compare_int_signed, &Arg_comparator::compare_e_int}, {&Arg_comparator::compare_row, &Arg_comparator::compare_e_row}, {&Arg_comparator::compare_decimal, &Arg_comparator::compare_e_decimal}}; /* static variables */ #ifdef HAVE_PSI_INTERFACE #if (defined(_WIN32) || defined(HAVE_SMEM)) && !defined(EMBEDDED_LIBRARY) static PSI_thread_key key_thread_handle_con_namedpipes; static PSI_cond_key key_COND_handler_count; static PSI_rwlock_key key_rwlock_LOCK_named_pipe_full_access_group; #endif /* _WIN32 || HAVE_SMEM && !EMBEDDED_LIBRARY */ #if defined(HAVE_SMEM) && !defined(EMBEDDED_LIBRARY) static PSI_thread_key key_thread_handle_con_sharedmem; #endif /* HAVE_SMEM && !EMBEDDED_LIBRARY */ #if (defined(_WIN32) || defined(HAVE_SMEM)) && !defined(EMBEDDED_LIBRARY) static PSI_thread_key key_thread_handle_con_sockets; #endif /* _WIN32 || HAVE_SMEM && !EMBEDDED_LIBRARY */ #ifdef __WIN__ static PSI_thread_key key_thread_handle_shutdown; #endif /* __WIN__ */ #if defined (HAVE_OPENSSL) static PSI_rwlock_key key_rwlock_openssl; #endif #endif /* HAVE_PSI_INTERFACE */ /** Statement instrumentation key for replication. */ #ifdef HAVE_PSI_STATEMENT_INTERFACE PSI_statement_info stmt_info_rpl; #endif /* the default log output is log tables */ static bool lower_case_table_names_used= 0; static bool volatile select_thread_in_use, signal_thread_in_use; /* See Bug#56666 and Bug#56760 */; volatile bool ready_to_exit; static my_bool opt_debugging= 0, opt_external_locking= 0, opt_console= 0; static my_bool opt_short_log_format= 0; static uint kill_blocked_pthreads_flag, wake_pthread; static ulong killed_threads; ulong max_used_connections; static char *mysqld_user, *mysqld_chroot; static char *default_character_set_name; static char *character_set_filesystem_name; static char *lc_messages; static char *lc_time_names_name; char *my_bind_addr_str; static char *default_collation_name; char *default_storage_engine; char *default_tmp_storage_engine; static char compiled_default_collation_name[]= MYSQL_DEFAULT_COLLATION_NAME; static bool binlog_format_used= false; LEX_STRING opt_init_connect, opt_init_slave; static mysql_cond_t COND_thread_cache, COND_flush_thread_cache; /* Global variables */ bool opt_bin_log, opt_ignore_builtin_innodb= 0; my_bool opt_log, opt_slow_log, opt_log_raw; ulonglong log_output_options; my_bool opt_log_queries_not_using_indexes= 0; ulong opt_log_throttle_queries_not_using_indexes= 0; bool opt_error_log= IF_WIN(1,0); bool opt_disable_networking=0, opt_skip_show_db=0; bool opt_skip_name_resolve=0; my_bool opt_character_set_client_handshake= 1; bool server_id_supplied = 0; bool opt_endinfo, using_udf_functions; my_bool locked_in_memory; bool opt_using_transactions; bool volatile abort_loop; bool volatile shutdown_in_progress; ulong log_warnings; uint host_cache_size; #if defined(_WIN32) && !defined(EMBEDDED_LIBRARY) ulong slow_start_timeout; #endif /* True if the bootstrap thread is running. Protected by LOCK_thread_count. Used in bootstrap() function to determine if the bootstrap thread has completed. Note, that we can't use 'thread_count' instead, since in 5.1, in presence of the Event Scheduler, there may be event threads running in parallel, so it's impossible to know what value of 'thread_count' is a sign of completion of the bootstrap thread. At the same time, we can't start the event scheduler after bootstrap either, since we want to be able to process event-related SQL commands in the init file and in --bootstrap mode. */ bool in_bootstrap= FALSE; my_bool opt_bootstrap= 0; /** @brief 'grant_option' is used to indicate if privileges needs to be checked, in which case the lock, LOCK_grant, is used to protect access to the grant table. @note This flag is dropped in 5.1 @see grant_init() */ bool volatile grant_option; my_bool opt_skip_slave_start = 0; ///< If set, slave is not autostarted my_bool opt_reckless_slave = 0; my_bool opt_enable_named_pipe= 0; my_bool opt_local_infile, opt_slave_compressed_protocol; my_bool opt_safe_user_create = 0; my_bool opt_show_slave_auth_info; my_bool opt_log_slave_updates= 0; char *opt_slave_skip_errors; my_bool opt_slave_allow_batching= 0; /** compatibility option: - index usage hints (USE INDEX without a FOR clause) behave as in 5.0 */ my_bool old_mode; /* Legacy global handlerton. These will be removed (please do not add more). */ handlerton *heap_hton; handlerton *myisam_hton; handlerton *partition_hton; uint opt_server_id_bits= 0; ulong opt_server_id_mask= 0; my_bool read_only= 0, opt_readonly= 0; my_bool use_temp_pool, relay_log_purge; my_bool relay_log_recovery; my_bool opt_sync_frm, opt_allow_suspicious_udfs; my_bool opt_secure_auth= 0; char* opt_secure_file_priv; my_bool opt_log_slow_admin_statements= 0; my_bool opt_log_slow_slave_statements= 0; my_bool lower_case_file_system= 0; my_bool opt_large_pages= 0; my_bool opt_super_large_pages= 0; my_bool opt_myisam_use_mmap= 0; uint opt_large_page_size= 0; #if defined(ENABLED_DEBUG_SYNC) MYSQL_PLUGIN_IMPORT uint opt_debug_sync_timeout= 0; #endif /* defined(ENABLED_DEBUG_SYNC) */ my_bool opt_old_style_user_limits= 0, trust_function_creators= 0; /* True if there is at least one per-hour limit for some user, so we should check them before each query (and possibly reset counters when hour is changed). False otherwise. */ volatile bool mqh_used = 0; my_bool opt_noacl= 0; my_bool sp_automatic_privileges= 1; ulong opt_binlog_rows_event_max_size; const char *binlog_checksum_default= "NONE"; ulong binlog_checksum_options; my_bool opt_master_verify_checksum= 0; my_bool opt_slave_sql_verify_checksum= 1; const char *binlog_format_names[]= {"MIXED", "STATEMENT", "ROW", NullS}; #ifdef WITH_WSREP const char *wsrep_binlog_format_names[]= {"MIXED", "STATEMENT", "ROW", "NONE", NullS}; #endif /*WITH_WSREP */ my_bool enforce_gtid_consistency; my_bool binlog_gtid_simple_recovery; ulong binlog_error_action; const char *binlog_error_action_list[]= {"IGNORE_ERROR", "ABORT_SERVER", NullS}; ulong gtid_mode; const char *gtid_mode_names[]= {"OFF", "UPGRADE_STEP_1", "UPGRADE_STEP_2", "ON", NullS}; TYPELIB gtid_mode_typelib= { array_elements(gtid_mode_names) - 1, "", gtid_mode_names, NULL }; #ifdef HAVE_INITGROUPS volatile sig_atomic_t calling_initgroups= 0; /**< Used in SIGSEGV handler. */ #endif uint mysqld_port, test_flags, select_errors, dropping_tables, ha_open_options; uint mysqld_port_timeout; ulong delay_key_write_options; uint protocol_version; uint lower_case_table_names; ulong tc_heuristic_recover= 0; int32 num_thread_running; ulong thread_created; ulong back_log, connect_timeout, concurrency, server_id; ulong table_cache_size, table_def_size; ulong table_cache_instances; ulong table_cache_size_per_instance; ulong what_to_log; ulong slow_launch_time; int32 slave_open_temp_tables; ulong open_files_limit, max_binlog_size, max_relay_log_size; ulong slave_trans_retries; uint slave_net_timeout; ulong slave_exec_mode_options; ulonglong slave_type_conversions_options; ulong opt_mts_slave_parallel_workers; ulonglong opt_mts_pending_jobs_size_max; ulonglong slave_rows_search_algorithms_options; #ifndef DBUG_OFF uint slave_rows_last_search_algorithm_used; #endif ulong binlog_cache_size=0; ulonglong max_binlog_cache_size=0; ulong slave_max_allowed_packet= 0; ulong binlog_stmt_cache_size=0; my_atomic_rwlock_t opt_binlog_max_flush_queue_time_lock; int32 opt_binlog_max_flush_queue_time= 0; ulonglong max_binlog_stmt_cache_size=0; ulong query_cache_size=0; ulong refresh_version; /* Increments on each reload */ query_id_t global_query_id; my_atomic_rwlock_t global_query_id_lock; my_atomic_rwlock_t thread_running_lock; my_atomic_rwlock_t slave_open_temp_tables_lock; ulong aborted_threads, aborted_connects; ulong delayed_insert_timeout, delayed_insert_limit, delayed_queue_size; ulong delayed_insert_threads, delayed_insert_writes, delayed_rows_in_use; ulong delayed_insert_errors,flush_time; ulong specialflag=0; ulong binlog_cache_use= 0, binlog_cache_disk_use= 0; ulong binlog_stmt_cache_use= 0, binlog_stmt_cache_disk_use= 0; ulong max_connections, max_connect_errors; ulong rpl_stop_slave_timeout= LONG_TIMEOUT; my_bool log_bin_use_v1_row_events= 0; bool thread_cache_size_specified= false; bool host_cache_size_specified= false; bool table_definition_cache_specified= false; Error_log_throttle err_log_throttle(Log_throttle::LOG_THROTTLE_WINDOW_SIZE, sql_print_error, "Error log throttle: %10lu 'Can't create" " thread to handle new connection'" " error(s) suppressed"); /** Limit of the total number of prepared statements in the server. Is necessary to protect the server against out-of-memory attacks. */ ulong max_prepared_stmt_count; /** Current total number of prepared statements in the server. This number is exact, and therefore may not be equal to the difference between `com_stmt_prepare' and `com_stmt_close' (global status variables), as the latter ones account for all registered attempts to prepare a statement (including unsuccessful ones). Prepared statements are currently connection-local: if the same SQL query text is prepared in two different connections, this counts as two distinct prepared statements. */ ulong prepared_stmt_count=0; ulong thread_id=1L,current_pid; ulong slow_launch_threads = 0; uint sync_binlog_period= 0, sync_relaylog_period= 0, sync_relayloginfo_period= 0, sync_masterinfo_period= 0, opt_mts_checkpoint_period, opt_mts_checkpoint_group; ulong expire_logs_days = 0; /** Soft upper limit for number of sp_head objects that can be stored in the sp_cache for one connection. */ ulong stored_program_cache_size= 0; /** Compatibility option to prevent auto upgrade of old temporals during certain ALTER TABLE operations. */ my_bool avoid_temporal_upgrade; const double log_10[] = { 1e000, 1e001, 1e002, 1e003, 1e004, 1e005, 1e006, 1e007, 1e008, 1e009, 1e010, 1e011, 1e012, 1e013, 1e014, 1e015, 1e016, 1e017, 1e018, 1e019, 1e020, 1e021, 1e022, 1e023, 1e024, 1e025, 1e026, 1e027, 1e028, 1e029, 1e030, 1e031, 1e032, 1e033, 1e034, 1e035, 1e036, 1e037, 1e038, 1e039, 1e040, 1e041, 1e042, 1e043, 1e044, 1e045, 1e046, 1e047, 1e048, 1e049, 1e050, 1e051, 1e052, 1e053, 1e054, 1e055, 1e056, 1e057, 1e058, 1e059, 1e060, 1e061, 1e062, 1e063, 1e064, 1e065, 1e066, 1e067, 1e068, 1e069, 1e070, 1e071, 1e072, 1e073, 1e074, 1e075, 1e076, 1e077, 1e078, 1e079, 1e080, 1e081, 1e082, 1e083, 1e084, 1e085, 1e086, 1e087, 1e088, 1e089, 1e090, 1e091, 1e092, 1e093, 1e094, 1e095, 1e096, 1e097, 1e098, 1e099, 1e100, 1e101, 1e102, 1e103, 1e104, 1e105, 1e106, 1e107, 1e108, 1e109, 1e110, 1e111, 1e112, 1e113, 1e114, 1e115, 1e116, 1e117, 1e118, 1e119, 1e120, 1e121, 1e122, 1e123, 1e124, 1e125, 1e126, 1e127, 1e128, 1e129, 1e130, 1e131, 1e132, 1e133, 1e134, 1e135, 1e136, 1e137, 1e138, 1e139, 1e140, 1e141, 1e142, 1e143, 1e144, 1e145, 1e146, 1e147, 1e148, 1e149, 1e150, 1e151, 1e152, 1e153, 1e154, 1e155, 1e156, 1e157, 1e158, 1e159, 1e160, 1e161, 1e162, 1e163, 1e164, 1e165, 1e166, 1e167, 1e168, 1e169, 1e170, 1e171, 1e172, 1e173, 1e174, 1e175, 1e176, 1e177, 1e178, 1e179, 1e180, 1e181, 1e182, 1e183, 1e184, 1e185, 1e186, 1e187, 1e188, 1e189, 1e190, 1e191, 1e192, 1e193, 1e194, 1e195, 1e196, 1e197, 1e198, 1e199, 1e200, 1e201, 1e202, 1e203, 1e204, 1e205, 1e206, 1e207, 1e208, 1e209, 1e210, 1e211, 1e212, 1e213, 1e214, 1e215, 1e216, 1e217, 1e218, 1e219, 1e220, 1e221, 1e222, 1e223, 1e224, 1e225, 1e226, 1e227, 1e228, 1e229, 1e230, 1e231, 1e232, 1e233, 1e234, 1e235, 1e236, 1e237, 1e238, 1e239, 1e240, 1e241, 1e242, 1e243, 1e244, 1e245, 1e246, 1e247, 1e248, 1e249, 1e250, 1e251, 1e252, 1e253, 1e254, 1e255, 1e256, 1e257, 1e258, 1e259, 1e260, 1e261, 1e262, 1e263, 1e264, 1e265, 1e266, 1e267, 1e268, 1e269, 1e270, 1e271, 1e272, 1e273, 1e274, 1e275, 1e276, 1e277, 1e278, 1e279, 1e280, 1e281, 1e282, 1e283, 1e284, 1e285, 1e286, 1e287, 1e288, 1e289, 1e290, 1e291, 1e292, 1e293, 1e294, 1e295, 1e296, 1e297, 1e298, 1e299, 1e300, 1e301, 1e302, 1e303, 1e304, 1e305, 1e306, 1e307, 1e308 }; time_t server_start_time, flush_status_time; char server_uuid[UUID_LENGTH+1]; const char *server_uuid_ptr; char mysql_home[FN_REFLEN], pidfile_name[FN_REFLEN], system_time_zone[30]; char default_logfile_name[FN_REFLEN]; char *default_tz_name; char log_error_file[FN_REFLEN], glob_hostname[FN_REFLEN]; char mysql_real_data_home[FN_REFLEN], lc_messages_dir[FN_REFLEN], reg_ext[FN_EXTLEN], mysql_charsets_dir[FN_REFLEN], *opt_init_file, *opt_tc_log_file; char *lc_messages_dir_ptr, *log_error_file_ptr; char mysql_unpacked_real_data_home[FN_REFLEN]; int mysql_unpacked_real_data_home_len; uint mysql_real_data_home_len, mysql_data_home_len= 1; uint reg_ext_length; const key_map key_map_empty(0); key_map key_map_full(0); // Will be initialized later char logname_path[FN_REFLEN]; char slow_logname_path[FN_REFLEN]; char secure_file_real_path[FN_REFLEN]; DATE_TIME_FORMAT global_date_format, global_datetime_format, global_time_format; Time_zone *default_tz; char *mysql_data_home= const_cast("."); const char *mysql_real_data_home_ptr= mysql_real_data_home; char server_version[SERVER_VERSION_LENGTH]; char *mysqld_unix_port, *opt_mysql_tmpdir; ulong thread_handling; /** name of reference on left expression in rewritten IN subquery */ const char *in_left_expr_name= ""; /** name of additional condition */ const char *in_additional_cond= ""; const char *in_having_cond= ""; my_decimal decimal_zero; /** Number of connection errors when selecting on the listening port */ ulong connection_errors_select= 0; /** Number of connection errors when accepting sockets in the listening port. */ ulong connection_errors_accept= 0; /** Number of connection errors from TCP wrappers. */ ulong connection_errors_tcpwrap= 0; /** Number of connection errors from internal server errors. */ ulong connection_errors_internal= 0; /** Number of connection errors from the server max_connection limit. */ ulong connection_errors_max_connection= 0; /** Number of errors when reading the peer address. */ ulong connection_errors_peer_addr= 0; /* classes for comparation parsing/processing */ Eq_creator eq_creator; Ne_creator ne_creator; Gt_creator gt_creator; Lt_creator lt_creator; Ge_creator ge_creator; Le_creator le_creator; MYSQL_FILE *bootstrap_file; int bootstrap_error; Rpl_filter* rpl_filter; Rpl_filter* binlog_filter; struct system_variables global_system_variables; struct system_variables max_system_variables; struct system_status_var global_status_var; MY_TMPDIR mysql_tmpdir_list; MY_BITMAP temp_pool; CHARSET_INFO *system_charset_info, *files_charset_info ; CHARSET_INFO *national_charset_info, *table_alias_charset; CHARSET_INFO *character_set_filesystem; CHARSET_INFO *error_message_charset_info; MY_LOCALE *my_default_lc_messages; MY_LOCALE *my_default_lc_time_names; SHOW_COMP_OPTION have_ssl, have_symlink, have_dlopen, have_query_cache; SHOW_COMP_OPTION have_geometry, have_rtree_keys; SHOW_COMP_OPTION have_crypt, have_compress; SHOW_COMP_OPTION have_profiling; /* Thread specific variables */ pthread_key(MEM_ROOT**,THR_MALLOC); pthread_key(THD*, THR_THD); mysql_mutex_t LOCK_thread_created; mysql_mutex_t LOCK_thread_count, LOCK_thd_remove; mysql_mutex_t LOCK_status, LOCK_error_log, LOCK_uuid_generator, LOCK_delayed_insert, LOCK_delayed_status, LOCK_delayed_create, LOCK_crypt, LOCK_global_system_variables, LOCK_user_conn, LOCK_slave_list, LOCK_active_mi, LOCK_connection_count, LOCK_error_messages; mysql_mutex_t LOCK_sql_rand; /** The below lock protects access to two global server variables: max_prepared_stmt_count and prepared_stmt_count. These variables set the limit and hold the current total number of prepared statements in the server, respectively. As PREPARE/DEALLOCATE rate in a loaded server may be fairly high, we need a dedicated lock. */ mysql_mutex_t LOCK_prepared_stmt_count; /* The below two locks are introudced as guards (second mutex) for the global variables sql_slave_skip_counter and slave_net_timeout respectively. See fix_slave_skip_counter/fix_slave_net_timeout for more details */ mysql_mutex_t LOCK_sql_slave_skip_counter; mysql_mutex_t LOCK_slave_net_timeout; mysql_mutex_t LOCK_log_throttle_qni; #ifdef HAVE_OPENSSL mysql_mutex_t LOCK_des_key_file; #endif mysql_rwlock_t LOCK_grant, LOCK_sys_init_connect, LOCK_sys_init_slave; mysql_rwlock_t LOCK_system_variables_hash; mysql_cond_t COND_thread_count; pthread_t signal_thread; pthread_attr_t connection_attrib; mysql_mutex_t LOCK_server_started; mysql_cond_t COND_server_started; #ifdef WITH_WSREP mysql_mutex_t LOCK_wsrep_ready; mysql_cond_t COND_wsrep_ready; mysql_mutex_t LOCK_wsrep_sst; mysql_cond_t COND_wsrep_sst; mysql_mutex_t LOCK_wsrep_sst_init; mysql_cond_t COND_wsrep_sst_init; mysql_mutex_t LOCK_wsrep_rollback; mysql_cond_t COND_wsrep_rollback; wsrep_aborting_thd_t wsrep_aborting_thd= NULL; mysql_mutex_t LOCK_wsrep_replaying; mysql_cond_t COND_wsrep_replaying; mysql_mutex_t LOCK_wsrep_slave_threads; mysql_mutex_t LOCK_wsrep_desync; int wsrep_replaying= 0; ulong wsrep_running_threads = 0; // # of currently running wsrep threads static void wsrep_close_threads(THD* thd); int mysqld_server_initialized= 0; #endif /* WITH_WSREP */ int mysqld_server_started= 0; File_parser_dummy_hook file_parser_dummy_hook; /* replication parameters, if master_host is not NULL, we are a slave */ uint report_port= 0; ulong master_retry_count=0; char *master_info_file; char *relay_log_info_file, *report_user, *report_password, *report_host; char *opt_relay_logname = 0, *opt_relaylog_index_name=0; char *opt_logname, *opt_slow_logname, *opt_bin_logname; /* Static variables */ static volatile sig_atomic_t kill_in_progress; static my_bool opt_myisam_log; static int cleanup_done; static ulong opt_specialflag; static char *opt_update_logname; char *opt_binlog_index_name; char *mysql_home_ptr, *pidfile_name_ptr; /** Initial command line arguments (count), after load_defaults().*/ static int defaults_argc; /** Initial command line arguments (arguments), after load_defaults(). This memory is allocated by @c load_defaults() and should be freed using @c free_defaults(). Do not modify defaults_argc / defaults_argv, use remaining_argc / remaining_argv instead to parse the command line arguments in multiple steps. */ static char **defaults_argv; /** Remaining command line arguments (count), filtered by handle_options().*/ static int remaining_argc; /** Remaining command line arguments (arguments), filtered by handle_options().*/ static char **remaining_argv; int orig_argc; char **orig_argv; #if defined(HAVE_OPENSSL) bool init_rsa_keys(void); void deinit_rsa_keys(void); int show_rsa_public_key(THD *thd, SHOW_VAR *var, char *buff); #endif static volatile sig_atomic_t global_thread_count= 0; static std::set *global_thread_list= NULL; ulong max_blocked_pthreads= 0; static ulong blocked_pthread_count= 0; static std::list *waiting_thd_list= NULL; Checkable_rwlock *global_sid_lock= NULL; Sid_map *global_sid_map= NULL; Gtid_state *gtid_state= NULL; /* global_thread_list and waiting_thd_list are both pointers to objects on the heap, to avoid potential problems with running destructors atexit(). */ static void delete_global_thread_list() { delete global_thread_list; delete waiting_thd_list; global_thread_list= NULL; waiting_thd_list= NULL; } Thread_iterator global_thread_list_begin() { mysql_mutex_assert_owner(&LOCK_thread_count); return global_thread_list->begin(); } Thread_iterator global_thread_list_end() { mysql_mutex_assert_owner(&LOCK_thread_count); return global_thread_list->end(); } void copy_global_thread_list(std::set *new_copy) { mysql_mutex_assert_owner(&LOCK_thd_remove); mysql_mutex_lock(&LOCK_thread_count); *new_copy= *global_thread_list; mysql_mutex_unlock(&LOCK_thread_count); } void add_global_thread(THD *thd) { DBUG_PRINT("info", ("add_global_thread %p", thd)); mysql_mutex_assert_owner(&LOCK_thread_count); const bool have_thread= global_thread_list->find(thd) != global_thread_list->end(); if (!have_thread) { ++global_thread_count; global_thread_list->insert(thd); } // Adding the same THD twice is an error. DBUG_ASSERT(!have_thread); } void remove_global_thread(THD *thd) { DBUG_PRINT("info", ("remove_global_thread %p current_linfo %p", thd, thd->current_linfo)); mysql_mutex_lock(&LOCK_thd_remove); mysql_mutex_lock(&LOCK_thread_count); DBUG_ASSERT(thd->release_resources_done()); /* Used by binlog_reset_master. It would be cleaner to use DEBUG_SYNC here, but that's not possible because the THD's debug sync feature has been shut down at this point. */ DBUG_EXECUTE_IF("sleep_after_lock_thread_count_before_delete_thd", sleep(5);); const size_t num_erased= global_thread_list->erase(thd); if (num_erased == 1) --global_thread_count; // Removing a THD that was never added is an error. DBUG_ASSERT(1 == num_erased); mysql_mutex_unlock(&LOCK_thd_remove); mysql_cond_broadcast(&COND_thread_count); mysql_mutex_unlock(&LOCK_thread_count); } uint get_thread_count() { return (uint) global_thread_count; } void set_remaining_args(int argc, char **argv) { remaining_argc= argc; remaining_argv= argv; } /* Multiple threads of execution use the random state maintained in global sql_rand to generate random numbers. sql_rnd_with_mutex use mutex LOCK_sql_rand to protect sql_rand across multiple instantiations that use sql_rand to generate random numbers. */ ulong sql_rnd_with_mutex() { mysql_mutex_lock(&LOCK_sql_rand); ulong tmp=(ulong) (my_rnd(&sql_rand) * 0xffffffff); /* make all bits random */ mysql_mutex_unlock(&LOCK_sql_rand); return tmp; } #ifdef HAVE_PSI_STATEMENT_INTERFACE PSI_statement_info stmt_info_new_packet; #endif #ifndef EMBEDDED_LIBRARY void net_before_header_psi(struct st_net *net, void *user_data, size_t /* unused: count */) { THD *thd; thd= static_cast (user_data); DBUG_ASSERT(thd != NULL); if (thd->m_server_idle) { /* The server is IDLE, waiting for the next command. Technically, it is a wait on a socket, which may take a long time, because the call is blocking. Disable the socket instrumentation, to avoid recording a SOCKET event. Instead, start explicitly an IDLE event. */ MYSQL_SOCKET_SET_STATE(net->vio->mysql_socket, PSI_SOCKET_STATE_IDLE); MYSQL_START_IDLE_WAIT(thd->m_idle_psi, &thd->m_idle_state); } } void net_after_header_psi(struct st_net *net, void *user_data, size_t /* unused: count */, my_bool rc) { THD *thd; thd= static_cast (user_data); DBUG_ASSERT(thd != NULL); if (thd->m_server_idle) { /* The server just got data for a network packet header, from the network layer. The IDLE event is now complete, since we now have a message to process. We need to: - start a new STATEMENT event - start a new STAGE event, within this statement, - start recording SOCKET WAITS events, within this stage. The proper order is critical to get events numbered correctly, and nested in the proper parent. */ MYSQL_END_IDLE_WAIT(thd->m_idle_psi); if (! rc) { thd->m_statement_psi= MYSQL_START_STATEMENT(&thd->m_statement_state, stmt_info_new_packet.m_key, thd->db, thd->db_length, thd->charset()); /* Starts a new stage in performance schema, if compiled in and enabled. Also sets THD::proc_info (used by SHOW PROCESSLIST, column STATE) */ THD_STAGE_INFO(thd, stage_init); } /* TODO: consider recording a SOCKET event for the bytes just read, by also passing count here. */ MYSQL_SOCKET_SET_STATE(net->vio->mysql_socket, PSI_SOCKET_STATE_ACTIVE); thd->m_server_idle= false; } } void init_net_server_extension(THD *thd) { /* Start with a clean state for connection events. */ thd->m_idle_psi= NULL; thd->m_statement_psi= NULL; thd->m_server_idle= false; /* Hook up the NET_SERVER callback in the net layer. */ thd->m_net_server_extension.m_user_data= thd; thd->m_net_server_extension.m_before_header= net_before_header_psi; thd->m_net_server_extension.m_after_header= net_after_header_psi; /* Activate this private extension for the mysqld server. */ thd->net.extension= & thd->m_net_server_extension; } #endif /* EMBEDDED_LIBRARY */ /** A log message for the error log, buffered in memory. Log messages are temporarily buffered when generated before the error log is initialized, and then printed once the error log is ready. */ class Buffered_log : public Sql_alloc { public: Buffered_log(enum loglevel level, const char *message); ~Buffered_log() {} void print(void); private: /** Log message level. */ enum loglevel m_level; /** Log message text. */ String m_message; }; /** Constructor. @param level the message log level @param message the message text */ Buffered_log::Buffered_log(enum loglevel level, const char *message) : m_level(level), m_message() { m_message.copy(message, strlen(message), &my_charset_latin1); } /** Print a buffered log to the real log file. */ void Buffered_log::print() { /* Since messages are buffered, they can be printed out of order with other entries in the log. Add "Buffered xxx" to the message text to prevent confusion. */ switch(m_level) { case ERROR_LEVEL: sql_print_error("Buffered error: %s\n", m_message.c_ptr_safe()); break; case WARNING_LEVEL: sql_print_warning("Buffered warning: %s\n", m_message.c_ptr_safe()); break; case INFORMATION_LEVEL: /* Messages printed as "information" still end up in the mysqld *error* log, but with a [Note] tag instead of an [ERROR] tag. While this is probably fine for a human reading the log, it is upsetting existing automated scripts used to parse logs, because such scripts are likely to not already handle [Note] properly. INFORMATION_LEVEL messages are simply silenced, on purpose, to avoid un needed verbosity. */ break; } } /** Collection of all the buffered log messages. */ class Buffered_logs { public: Buffered_logs() {} ~Buffered_logs() {} void init(); void cleanup(); void buffer(enum loglevel m_level, const char *msg); void print(); private: /** Memory root to use to store buffered logs. This memory root lifespan is between init and cleanup. Once the buffered logs are printed, they are not needed anymore, and all the memory used is reclaimed. */ MEM_ROOT m_root; /** List of buffered log messages. */ List m_list; }; void Buffered_logs::init() { init_alloc_root(&m_root, 1024, 0); } void Buffered_logs::cleanup() { m_list.delete_elements(); free_root(&m_root, MYF(0)); } /** Add a log message to the buffer. */ void Buffered_logs::buffer(enum loglevel level, const char *msg) { /* Do not let Sql_alloc::operator new(size_t) allocate memory, there is no memory root associated with the main() thread. Give explicitly the proper memory root to use to Sql_alloc::operator new(size_t, MEM_ROOT *) instead. */ Buffered_log *log= new (&m_root) Buffered_log(level, msg); if (log) m_list.push_back(log, &m_root); } /** Print buffered log messages. */ void Buffered_logs::print() { Buffered_log *log; List_iterator_fast it(m_list); while ((log= it++)) log->print(); } /** Logs reported before a logger is available. */ static Buffered_logs buffered_logs; /** Error reporter that buffer log messages. @param level log message level @param format log message format string */ C_MODE_START static void buffered_option_error_reporter(enum loglevel level, const char *format, ...) { va_list args; char buffer[1024]; va_start(args, format); my_vsnprintf(buffer, sizeof(buffer), format, args); va_end(args); buffered_logs.buffer(level, buffer); } /** Character set and collation error reporter that prints to sql error log. @param level log message level @param format log message format string This routine is used to print character set and collation warnings and errors inside an already running mysqld server, e.g. when a character set or collation is requested for the very first time and its initialization does not go well for some reasons. Note: At early mysqld initialization stage, when error log is not yet available, we use buffered_option_error_reporter() instead, to print general character set subsystem initialization errors, such as Index.xml syntax problems, bad XML tag hierarchy, etc. */ static void charset_error_reporter(enum loglevel level, const char *format, ...) { va_list args; va_start(args, format); vprint_msg_to_log(level, format, args); va_end(args); } C_MODE_END static MYSQL_SOCKET unix_sock, ip_sock; struct rand_struct sql_rand; ///< used by sql_class.cc:THD::THD() #ifndef EMBEDDED_LIBRARY struct passwd *user_info; static pthread_t select_thread; static uint thr_kill_signal; #endif /* OS specific variables */ #ifdef __WIN__ #undef getpid #include static mysql_cond_t COND_handler_count; static uint handler_count; static bool start_mode=0, use_opt_args; static int opt_argc; static char **opt_argv; #if !defined(EMBEDDED_LIBRARY) static HANDLE hEventShutdown; static char shutdown_event_name[40]; #include "nt_servc.h" static NTService Service; ///< Service object for WinNT #endif /* EMBEDDED_LIBRARY */ #endif /* __WIN__ */ #ifdef _WIN32 static char pipe_name[512]; #include #include "named_pipe.h" static SECURITY_ATTRIBUTES saPipeSecurity; static SECURITY_DESCRIPTOR sdPipeDescriptor; static SECURITY_ATTRIBUTES *psaPipeSecurity; static HANDLE hPipe = INVALID_HANDLE_VALUE; mysql_rwlock_t LOCK_named_pipe_full_access_group; char *named_pipe_full_access_group; #endif #ifndef EMBEDDED_LIBRARY bool mysqld_embedded=0; #else bool mysqld_embedded=1; #endif #ifndef EMBEDDED_LIBRARY static my_bool plugins_are_initialized= FALSE; #endif #ifndef DBUG_OFF static const char* default_dbug_option; #endif #ifdef HAVE_LIBWRAP const char *libwrapName= NULL; int allow_severity = LOG_INFO; int deny_severity = LOG_WARNING; #endif /* HAVE_LIBWRAP */ #ifdef HAVE_QUERY_CACHE ulong query_cache_min_res_unit= QUERY_CACHE_MIN_RESULT_DATA_SIZE; Query_cache query_cache; #endif #ifdef HAVE_SMEM char *shared_memory_base_name= default_shared_memory_base_name; my_bool opt_enable_shared_memory; HANDLE smem_event_connect_request= 0; #endif my_bool opt_use_ssl = 0; char *opt_ssl_ca= NULL, *opt_ssl_capath= NULL, *opt_ssl_cert= NULL, *opt_ssl_cipher= NULL, *opt_ssl_key= NULL, *opt_ssl_crl= NULL, *opt_ssl_crlpath= NULL; #ifdef HAVE_OPENSSL #if OPENSSL_VERSION_NUMBER < 0x10100000L #include typedef struct CRYPTO_dynlock_value { mysql_rwlock_t lock; } openssl_lock_t; static openssl_lock_t *openssl_stdlocks; static openssl_lock_t *openssl_dynlock_create(const char *, int); static void openssl_dynlock_destroy(openssl_lock_t *, const char *, int); static void openssl_lock_function(int, int, const char *, int); static void openssl_lock(int, openssl_lock_t *, const char *, int); static unsigned long openssl_id_function(); #endif /* OPENSSL_VERSION_NUMBER < 0x10100000L */ char *des_key_file; #ifndef EMBEDDED_LIBRARY struct st_VioSSLFd *ssl_acceptor_fd; #endif #endif /* HAVE_OPENSSL */ /** Number of currently active user connections. The variable is protected by LOCK_connection_count. */ uint connection_count= 0; mysql_cond_t COND_connection_count; /* Function declarations */ pthread_handler_t signal_hand(void *arg); static int mysql_init_variables(void); static int get_options(int *argc_ptr, char ***argv_ptr); static void add_terminator(vector *options); extern "C" my_bool mysqld_get_one_option(int, const struct my_option *, char *); static void set_server_version(void); static int init_thread_environment(); static char *get_relative_path(const char *path); static int fix_paths(void); void handle_connections_sockets(); #ifdef _WIN32 pthread_handler_t handle_connections_sockets_thread(void *arg); #endif pthread_handler_t kill_server_thread(void *arg); static void bootstrap(MYSQL_FILE *file); static bool read_init_file(char *file_name); #ifdef _WIN32 pthread_handler_t handle_connections_namedpipes(void *arg); #endif #ifdef HAVE_SMEM pthread_handler_t handle_connections_shared_memory(void *arg); #endif pthread_handler_t handle_slave(void *arg); static void clean_up(bool print_message); static int test_if_case_insensitive(const char *dir_name); #ifndef EMBEDDED_LIBRARY static bool pid_file_created= false; static void usage(void); static void start_signal_handler(void); static void close_server_sock(); static void clean_up_mutexes(void); static void wait_for_signal_thread_to_end(void); static void create_pid_file(); static void mysqld_exit(int exit_code) MY_ATTRIBUTE((noreturn)); #endif static void delete_pid_file(myf flags); static void end_ssl(); #ifndef EMBEDDED_LIBRARY /**************************************************************************** ** Code to end mysqld ****************************************************************************/ static void close_connections(void) { #ifdef EXTRA_DEBUG int count=0; #endif DBUG_ENTER("close_connections"); /* Kill blocked pthreads */ kill_blocked_pthreads_flag++; kill_blocked_pthreads(); uint dump_thread_count= 0; uint dump_thread_kill_retries= 8; /* kill connection thread */ #if !defined(__WIN__) DBUG_PRINT("quit", ("waiting for select thread: 0x%lx", (ulong) select_thread)); mysql_mutex_lock(&LOCK_thread_count); while (select_thread_in_use) { struct timespec abstime; int error; LINT_INIT(error); DBUG_PRINT("info",("Waiting for select thread")); #ifndef DONT_USE_THR_ALARM if (pthread_kill(select_thread, thr_client_alarm)) break; // allready dead #endif set_timespec(abstime, 2); for (uint tmp=0 ; tmp < 10 && select_thread_in_use; tmp++) { error= mysql_cond_timedwait(&COND_thread_count, &LOCK_thread_count, &abstime); if (error != EINTR) break; } #ifdef EXTRA_DEBUG if (error != 0 && !count++) sql_print_error("Got error %d from mysql_cond_timedwait", error); #endif close_server_sock(); } mysql_mutex_unlock(&LOCK_thread_count); #endif /* __WIN__ */ /* Abort listening to new connections */ DBUG_PRINT("quit",("Closing sockets")); if (!opt_disable_networking ) { if (mysql_socket_getfd(ip_sock) != INVALID_SOCKET) { (void) mysql_socket_shutdown(ip_sock, SHUT_RDWR); (void) mysql_socket_close(ip_sock); ip_sock= MYSQL_INVALID_SOCKET; } } #ifdef _WIN32 if (hPipe != INVALID_HANDLE_VALUE && opt_enable_named_pipe) { HANDLE temp; DBUG_PRINT("quit", ("Closing named pipes") ); /* Create connection to the handle named pipe handler to break the loop */ if ((temp = CreateFile(pipe_name, GENERIC_READ | GENERIC_WRITE, 0, NULL, OPEN_EXISTING, 0, NULL )) != INVALID_HANDLE_VALUE) { WaitNamedPipe(pipe_name, 1000); DWORD dwMode = PIPE_READMODE_BYTE | PIPE_WAIT; SetNamedPipeHandleState(temp, &dwMode, NULL, NULL); CancelIo(temp); DisconnectNamedPipe(temp); CloseHandle(temp); } } #endif #ifdef HAVE_SYS_UN_H if (mysql_socket_getfd(unix_sock) != INVALID_SOCKET) { (void) mysql_socket_shutdown(unix_sock, SHUT_RDWR); (void) mysql_socket_close(unix_sock); (void) unlink(mysqld_unix_port); unix_sock= MYSQL_INVALID_SOCKET; } #endif end_thr_alarm(0); // Abort old alarms. /* First signal all threads that it's time to die This will give the threads some time to gracefully abort their statements and inform their clients that the server is about to die. */ sql_print_information("Giving %d client threads a chance to die gracefully", static_cast(get_thread_count())); mysql_mutex_lock(&LOCK_thread_count); Thread_iterator it= global_thread_list->begin(); for (; it != global_thread_list->end(); ++it) { THD *tmp= *it; DBUG_PRINT("quit",("Informing thread %ld that it's time to die", tmp->thread_id)); /* We skip slave threads & scheduler on this first loop through. */ if (tmp->slave_thread) continue; #ifdef WITH_WSREP /* skip wsrep system threads as well */ if (WSREP(tmp) && (tmp->wsrep_exec_mode==REPL_RECV || tmp->wsrep_applier)) continue; #endif /* WITH_WSREP */ if (tmp->get_command() == COM_BINLOG_DUMP || tmp->get_command() == COM_BINLOG_DUMP_GTID) { ++dump_thread_count; continue; } tmp->killed= THD::KILL_CONNECTION; DBUG_EXECUTE_IF("Check_dump_thread_is_alive", { DBUG_ASSERT(tmp->get_command() != COM_BINLOG_DUMP && tmp->get_command() != COM_BINLOG_DUMP_GTID); };); MYSQL_CALLBACK(thread_scheduler, post_kill_notification, (tmp)); mysql_mutex_lock(&tmp->LOCK_thd_data); if (tmp->mysys_var) { tmp->mysys_var->abort=1; mysql_mutex_lock(&tmp->mysys_var->mutex); if (tmp->mysys_var->current_cond) { mysql_mutex_lock(tmp->mysys_var->current_mutex); mysql_cond_broadcast(tmp->mysys_var->current_cond); mysql_mutex_unlock(tmp->mysys_var->current_mutex); } mysql_mutex_unlock(&tmp->mysys_var->mutex); } mysql_mutex_unlock(&tmp->LOCK_thd_data); } mysql_mutex_unlock(&LOCK_thread_count); Events::deinit(); sql_print_information("Shutting down slave threads"); end_slave(); if (dump_thread_count) { /* Replication dump thread should be terminated after the clients are terminated. Wait for few more seconds for other sessions to end. */ while (get_thread_count() > dump_thread_count && dump_thread_kill_retries) { sleep(1); dump_thread_kill_retries--; } mysql_mutex_lock(&LOCK_thread_count); for (it= global_thread_list->begin(); it != global_thread_list->end(); ++it) { THD *tmp= *it; DBUG_PRINT("quit",("Informing dump thread %ld that it's time to die", tmp->thread_id)); if (tmp->get_command() == COM_BINLOG_DUMP || tmp->get_command() == COM_BINLOG_DUMP_GTID) { tmp->killed= THD::KILL_CONNECTION; MYSQL_CALLBACK(thread_scheduler, post_kill_notification, (tmp)); mysql_mutex_lock(&tmp->LOCK_thd_data); if (tmp->mysys_var) { tmp->mysys_var->abort= 1; mysql_mutex_lock(&tmp->mysys_var->mutex); if (tmp->mysys_var->current_cond) { mysql_mutex_lock(tmp->mysys_var->current_mutex); mysql_cond_broadcast(tmp->mysys_var->current_cond); mysql_mutex_unlock(tmp->mysys_var->current_mutex); } mysql_mutex_unlock(&tmp->mysys_var->mutex); } mysql_mutex_unlock(&tmp->LOCK_thd_data); } } mysql_mutex_unlock(&LOCK_thread_count); } if (get_thread_count() > 0) sleep(2); // Give threads time to die /* Force remaining threads to die by closing the connection to the client This will ensure that threads that are waiting for a command from the client on a blocking read call are aborted. */ sql_print_information("Forcefully disconnecting %d remaining clients", static_cast(get_thread_count())); #ifndef __bsdi__ // Bug in BSDI kernel DBUG_PRINT("quit", ("Locking LOCK_thread_count")); mysql_mutex_lock(&LOCK_thread_count); for (it= global_thread_list->begin(); it != global_thread_list->end(); ++it) { THD *tmp= *it; if (tmp->vio_ok()) { if (log_warnings) sql_print_warning(ER_DEFAULT(ER_FORCING_CLOSE),my_progname, tmp->thread_id, (tmp->main_security_ctx.user ? tmp->main_security_ctx.user : "")); close_connection(tmp); } #ifdef WITH_WSREP /* * TODO: this code block may turn out redundant. wsrep->disconnect() * should terminate slave threads gracefully, and we don't need * to signal them here. * The code here makes sure mysqld will not hang during shutdown * even if wsrep provider has problems in shutting down. */ if (WSREP(tmp) && tmp->wsrep_exec_mode==REPL_RECV) { sql_print_information("closing wsrep system thread"); tmp->killed= THD::KILL_CONNECTION; MYSQL_CALLBACK(thread_scheduler, post_kill_notification, (tmp)); if (tmp->mysys_var) { tmp->mysys_var->abort=1; mysql_mutex_lock(&tmp->mysys_var->mutex); if (tmp->mysys_var->current_cond) { mysql_mutex_lock(tmp->mysys_var->current_mutex); mysql_cond_broadcast(tmp->mysys_var->current_cond); mysql_mutex_unlock(tmp->mysys_var->current_mutex); } mysql_mutex_unlock(&tmp->mysys_var->mutex); } } #endif } DBUG_PRINT("quit",("Unlocking LOCK_thread_count")); mysql_mutex_unlock(&LOCK_thread_count); #endif // Bug in BSDI kernel /* All threads has now been aborted */ DBUG_PRINT("quit",("Waiting for threads to die (count=%u)", get_thread_count())); mysql_mutex_lock(&LOCK_thread_count); while (get_thread_count() > 0) { mysql_cond_wait(&COND_thread_count, &LOCK_thread_count); DBUG_PRINT("quit", ("One thread died (count=%u)", get_thread_count())); } mysql_mutex_unlock(&LOCK_thread_count); /* Connection threads might take a little while to go down after removing from global thread list. Give it some time. */ mysql_mutex_lock(&LOCK_connection_count); while (connection_count > 0) { mysql_cond_wait(&COND_connection_count, &LOCK_connection_count); } mysql_mutex_unlock(&LOCK_connection_count); close_active_mi(); DBUG_PRINT("quit",("close_connections thread")); DBUG_VOID_RETURN; } static void close_server_sock() { #ifdef HAVE_CLOSE_SERVER_SOCK DBUG_ENTER("close_server_sock"); MYSQL_SOCKET tmp_sock; tmp_sock=ip_sock; if (mysql_socket_getfd(tmp_sock) != INVALID_SOCKET) { ip_sock= MYSQL_INVALID_SOCKET; DBUG_PRINT("info",("calling shutdown on TCP/IP socket")); (void) mysql_socket_shutdown(tmp_sock, SHUT_RDWR); } tmp_sock=unix_sock; if (mysql_socket_getfd(tmp_sock) != INVALID_SOCKET) { unix_sock= MYSQL_INVALID_SOCKET; DBUG_PRINT("info",("calling shutdown on unix socket")); (void) mysql_socket_shutdown(tmp_sock, SHUT_RDWR); (void) unlink(mysqld_unix_port); } DBUG_VOID_RETURN; #endif } #endif /*EMBEDDED_LIBRARY*/ void kill_mysql(void) { DBUG_ENTER("kill_mysql"); #if defined(SIGNALS_DONT_BREAK_READ) && !defined(EMBEDDED_LIBRARY) abort_loop=1; // Break connection loops close_server_sock(); // Force accept to wake up #endif #if defined(__WIN__) #if !defined(EMBEDDED_LIBRARY) { if (!SetEvent(hEventShutdown)) { DBUG_PRINT("error",("Got error: %ld from SetEvent",GetLastError())); } /* or: HANDLE hEvent=OpenEvent(0, FALSE, "MySqlShutdown"); SetEvent(hEventShutdown); CloseHandle(hEvent); */ } #endif #elif defined(HAVE_PTHREAD_KILL) if (pthread_kill(signal_thread, MYSQL_KILL_SIGNAL)) { DBUG_PRINT("error",("Got error %d from pthread_kill",errno)); /* purecov: inspected */ } #elif !defined(SIGNALS_DONT_BREAK_READ) kill(current_pid, MYSQL_KILL_SIGNAL); #endif DBUG_PRINT("quit",("After pthread_kill")); shutdown_in_progress=1; // Safety if kill didn't work #ifdef SIGNALS_DONT_BREAK_READ if (!kill_in_progress) { pthread_t tmp; int error; abort_loop=1; if ((error= mysql_thread_create(0, /* Not instrumented */ &tmp, &connection_attrib, kill_server_thread, (void*) 0))) sql_print_error("Can't create thread to kill server (errno= %d).", error); } #endif DBUG_VOID_RETURN; } /** Force server down. Kill all connections and threads and exit. @param sig_ptr Signal number that caused kill_server to be called. @note A signal number of 0 mean that the function was not called from a signal handler and there is thus no signal to block or stop, we just want to kill the server. */ #if !defined(__WIN__) static void *kill_server(void *sig_ptr) #define RETURN_FROM_KILL_SERVER return 0 #else static void __cdecl kill_server(int sig_ptr) #define RETURN_FROM_KILL_SERVER return #endif { DBUG_ENTER("kill_server"); #ifndef EMBEDDED_LIBRARY int sig=(int) (long) sig_ptr; // This is passed a int // if there is a signal during the kill in progress, ignore the other if (kill_in_progress) // Safety { DBUG_LEAVE; RETURN_FROM_KILL_SERVER; } kill_in_progress=TRUE; abort_loop=1; // This should be set if (sig != 0) // 0 is not a valid signal number my_sigset(sig, SIG_IGN); /* purify inspected */ if (sig == MYSQL_KILL_SIGNAL || sig == 0) sql_print_information(ER_DEFAULT(ER_NORMAL_SHUTDOWN),my_progname); else sql_print_error(ER_DEFAULT(ER_GOT_SIGNAL),my_progname,sig); /* purecov: inspected */ #if defined(HAVE_SMEM) && defined(__WIN__) /* Send event to smem_event_connect_request for aborting */ if (opt_enable_shared_memory) { if (!SetEvent(smem_event_connect_request)) { DBUG_PRINT("error", ("Got error: %ld from SetEvent of smem_event_connect_request", GetLastError())); } } #endif #ifdef WITH_WSREP /* Stop wsrep threads in case they are running. */ if (wsrep_running_threads > 0) { wsrep_stop_replication(NULL); } #endif close_connections(); #ifdef WITH_WSREP if (WSREP_ON) wsrep_deinit(); #endif if (sig != MYSQL_KILL_SIGNAL && sig != 0) unireg_abort(1); /* purecov: inspected */ else unireg_end(); /* purecov: begin deadcode */ DBUG_LEAVE; // Must match DBUG_ENTER() my_thread_end(); pthread_exit(0); /* purecov: end */ RETURN_FROM_KILL_SERVER; // Avoid compiler warnings #else /* EMBEDDED_LIBRARY*/ DBUG_LEAVE; RETURN_FROM_KILL_SERVER; #endif /* EMBEDDED_LIBRARY */ } #if defined(USE_ONE_SIGNAL_HAND) pthread_handler_t kill_server_thread(void *arg MY_ATTRIBUTE((unused))) { my_thread_init(); // Initialize new thread kill_server(0); /* purecov: begin deadcode */ my_thread_end(); pthread_exit(0); return 0; /* purecov: end */ } #endif extern "C" sig_handler print_signal_warning(int sig) { if (log_warnings) sql_print_warning("Got signal %d from thread %ld", sig,my_thread_id()); #ifdef SIGNAL_HANDLER_RESET_ON_DELIVERY my_sigset(sig,print_signal_warning); /* int. thread system calls */ #endif #if !defined(__WIN__) if (sig == SIGALRM) alarm(2); /* reschedule alarm */ #endif } #ifndef EMBEDDED_LIBRARY static void init_error_log_mutex() { mysql_mutex_init(key_LOCK_error_log, &LOCK_error_log, MY_MUTEX_INIT_FAST); } static void clean_up_error_log_mutex() { mysql_mutex_destroy(&LOCK_error_log); } /** cleanup all memory and end program nicely. If SIGNALS_DONT_BREAK_READ is defined, this function is called by the main thread. To get MySQL to shut down nicely in this case (Mac OS X) we have to call exit() instead if pthread_exit(). @note This function never returns. */ void unireg_end(void) { clean_up(1); my_thread_end(); #if defined(SIGNALS_DONT_BREAK_READ) exit(0); #else pthread_exit(0); // Exit is in main thread #endif } extern "C" void unireg_abort(int exit_code) { DBUG_ENTER("unireg_abort"); if (opt_help) usage(); if (exit_code) sql_print_error("Aborting\n"); #ifdef WITH_WSREP if (wsrep) { /* This is an abort situation, we cannot expect to gracefully close all * wsrep threads here, we can only diconnect from service */ wsrep_close_client_connections(FALSE); shutdown_in_progress= 1; THD* thd(0); wsrep->disconnect(wsrep); WSREP_INFO("Service disconnected."); wsrep_close_threads(thd); /* this won't close all threads */ sleep(1); /* so give some time to exit for those which can */ WSREP_INFO("Some threads may fail to exit."); /* Signal possible SE initialization waiters with error. */ wsrep_SE_initialized(WSREP_SE_INIT_RESULT_FAILURE); wsrep_deinit(); } #endif // WITH_WSREP clean_up(!opt_help && (exit_code || !opt_bootstrap)); /* purecov: inspected */ DBUG_PRINT("quit",("done with cleanup in unireg_abort")); mysqld_exit(exit_code); } static void mysqld_exit(int exit_code) { /* Important note: we wait for the signal thread to end, but if a kill -15 signal was sent, the signal thread did spawn the kill_server_thread thread, which is running concurrently. */ wait_for_signal_thread_to_end(); mysql_audit_finalize(); clean_up_mutexes(); clean_up_error_log_mutex(); #ifdef WITH_PERFSCHEMA_STORAGE_ENGINE shutdown_performance_schema(); #endif my_end(opt_endinfo ? MY_CHECK_ERROR | MY_GIVE_INFO : 0); exit(exit_code); /* purecov: inspected */ } #endif /* !EMBEDDED_LIBRARY */ /** GTID cleanup destroys objects and reset their pointer. Function is reentrant. */ void gtid_server_cleanup() { delete gtid_state; delete global_sid_map; delete global_sid_lock; global_sid_lock= NULL; global_sid_map= NULL; gtid_state= NULL; } /** GTID initialization. @return true if allocation does not succeed false if OK */ bool gtid_server_init() { bool res= (!(global_sid_lock= new Checkable_rwlock) || !(global_sid_map= new Sid_map(global_sid_lock)) || !(gtid_state= new Gtid_state(global_sid_lock, global_sid_map))); if (res) { gtid_server_cleanup(); } return res; } void clean_up(bool print_message) { DBUG_PRINT("exit",("clean_up")); if (cleanup_done++) return; /* purecov: inspected */ stop_handle_manager(); release_ddl_log(); memcached_shutdown(); /* make sure that handlers finish up what they have that is dependent on the binlog */ if ((opt_help == 0) || (opt_verbose > 0)) sql_print_information("Binlog end"); ha_binlog_end(current_thd); logger.cleanup_base(); injector::free_instance(); mysql_bin_log.cleanup(); gtid_server_cleanup(); #ifdef HAVE_REPLICATION if (use_slave_mask) bitmap_free(&slave_error_mask); #endif my_tz_free(); my_dboptions_cache_free(); ignore_db_dirs_free(); #ifndef NO_EMBEDDED_ACCESS_CHECKS servers_free(1); acl_free(1); grant_free(); #endif query_cache_destroy(); hostname_cache_free(); item_user_lock_free(); lex_free(); /* Free some memory */ item_create_cleanup(); if (!opt_noacl) { #ifdef HAVE_DLOPEN udf_free(); #endif } table_def_start_shutdown(); plugin_shutdown(); ha_end(); if (tc_log) tc_log->close(); delegates_destroy(); xid_cache_free(); table_def_free(); mdl_destroy(); key_caches.delete_elements((void (*)(const char*, uchar*)) free_key_cache); multi_keycache_free(); free_status_vars(); end_thr_alarm(1); /* Free allocated memory */ my_free_open_file_info(); if (defaults_argv) free_defaults(defaults_argv); free_tmpdir(&mysql_tmpdir_list); my_free(opt_bin_logname); bitmap_free(&temp_pool); free_max_user_conn(); #ifdef HAVE_REPLICATION end_slave_list(); #endif delete binlog_filter; delete rpl_filter; end_ssl(); vio_end(); my_regex_end(); #if defined(ENABLED_DEBUG_SYNC) /* End the debug sync facility. See debug_sync.cc. */ debug_sync_end(); #endif /* defined(ENABLED_DEBUG_SYNC) */ delete_pid_file(MYF(0)); if (print_message && my_default_lc_messages && server_start_time) sql_print_information(ER_DEFAULT(ER_SHUTDOWN_COMPLETE),my_progname); cleanup_errmsgs(); MYSQL_CALLBACK(thread_scheduler, end, ()); mysql_client_plugin_deinit(); finish_client_errs(); (void) my_error_unregister(ER_ERROR_FIRST, ER_ERROR_LAST); // finish server errs DBUG_PRINT("quit", ("Error messages freed")); /* Tell main we are ready */ logger.cleanup_end(); my_atomic_rwlock_destroy(&opt_binlog_max_flush_queue_time_lock); my_atomic_rwlock_destroy(&global_query_id_lock); my_atomic_rwlock_destroy(&thread_running_lock); free_charsets(); mysql_mutex_lock(&LOCK_thread_count); DBUG_PRINT("quit", ("got thread count lock")); ready_to_exit=1; /* do the broadcast inside the lock to ensure that my_end() is not called */ mysql_cond_broadcast(&COND_thread_count); mysql_mutex_unlock(&LOCK_thread_count); sys_var_end(); delete_global_thread_list(); my_free(const_cast(log_bin_basename)); my_free(const_cast(log_bin_index)); #ifndef EMBEDDED_LIBRARY my_free(const_cast(relay_log_basename)); my_free(const_cast(relay_log_index)); #endif free_list(opt_plugin_load_list_ptr); if (THR_THD) (void) pthread_key_delete(THR_THD); if (THR_MALLOC) (void) pthread_key_delete(THR_MALLOC); /* The following lines may never be executed as the main thread may have killed us */ DBUG_PRINT("quit", ("done with cleanup")); } /* clean_up */ #ifndef EMBEDDED_LIBRARY /** This is mainly needed when running with purify, but it's still nice to know that all child threads have died when mysqld exits. */ static void wait_for_signal_thread_to_end() { uint i; /* Wait up to 10 seconds for signal thread to die. We use this mainly to avoid getting warnings that my_thread_end has not been called */ for (i= 0 ; i < 100 && signal_thread_in_use; i++) { if (pthread_kill(signal_thread, MYSQL_KILL_SIGNAL) != ESRCH) break; my_sleep(100); // Give it time to die } } static void clean_up_mutexes() { mysql_rwlock_destroy(&LOCK_grant); mysql_mutex_destroy(&LOCK_thread_created); mysql_mutex_destroy(&LOCK_thread_count); mysql_mutex_destroy(&LOCK_log_throttle_qni); mysql_mutex_destroy(&LOCK_status); mysql_mutex_destroy(&LOCK_delayed_insert); mysql_mutex_destroy(&LOCK_delayed_status); mysql_mutex_destroy(&LOCK_delayed_create); mysql_mutex_destroy(&LOCK_manager); mysql_mutex_destroy(&LOCK_crypt); mysql_mutex_destroy(&LOCK_user_conn); mysql_mutex_destroy(&LOCK_connection_count); #ifdef HAVE_OPENSSL mysql_mutex_destroy(&LOCK_des_key_file); #if OPENSSL_VERSION_NUMBER < 0x10100000L for (int i= 0; i < CRYPTO_num_locks(); ++i) mysql_rwlock_destroy(&openssl_stdlocks[i].lock); OPENSSL_free(openssl_stdlocks); #endif /* OPENSSL_VERSION_NUMBER < 0x10100000L */ #endif mysql_mutex_destroy(&LOCK_active_mi); mysql_rwlock_destroy(&LOCK_sys_init_connect); mysql_rwlock_destroy(&LOCK_sys_init_slave); mysql_mutex_destroy(&LOCK_global_system_variables); mysql_rwlock_destroy(&LOCK_system_variables_hash); mysql_mutex_destroy(&LOCK_uuid_generator); mysql_mutex_destroy(&LOCK_sql_rand); mysql_mutex_destroy(&LOCK_prepared_stmt_count); mysql_mutex_destroy(&LOCK_sql_slave_skip_counter); mysql_mutex_destroy(&LOCK_slave_net_timeout); mysql_mutex_destroy(&LOCK_error_messages); mysql_cond_destroy(&COND_thread_count); mysql_mutex_destroy(&LOCK_thd_remove); mysql_cond_destroy(&COND_thread_cache); mysql_cond_destroy(&COND_flush_thread_cache); mysql_cond_destroy(&COND_manager); #ifdef WITH_WSREP (void) mysql_mutex_destroy(&LOCK_wsrep_ready); (void) mysql_cond_destroy(&COND_wsrep_ready); (void) mysql_mutex_destroy(&LOCK_wsrep_sst); (void) mysql_cond_destroy(&COND_wsrep_sst); (void) mysql_mutex_destroy(&LOCK_wsrep_sst_init); (void) mysql_cond_destroy(&COND_wsrep_sst_init); (void) mysql_mutex_destroy(&LOCK_wsrep_rollback); (void) mysql_cond_destroy(&COND_wsrep_rollback); (void) mysql_mutex_destroy(&LOCK_wsrep_replaying); (void) mysql_cond_destroy(&COND_wsrep_replaying); (void) mysql_mutex_destroy(&LOCK_wsrep_slave_threads); (void) mysql_mutex_destroy(&LOCK_wsrep_desync); #endif mysql_cond_destroy(&COND_connection_count); #ifdef _WIN32 mysql_rwlock_destroy(&LOCK_named_pipe_full_access_group); #endif } #endif /*EMBEDDED_LIBRARY*/ /**************************************************************************** ** Init IP and UNIX socket ****************************************************************************/ /** MY_BIND_ALL_ADDRESSES defines a special value for the bind-address option, which means that the server should listen to all available network addresses, both IPv6 (if available) and IPv4. Basically, this value instructs the server to make an attempt to bind the server socket to '::' address, and rollback to '0.0.0.0' if the attempt fails. */ const char *MY_BIND_ALL_ADDRESSES= "*"; #ifndef EMBEDDED_LIBRARY static void set_ports() { char *env; if (!mysqld_port && !opt_disable_networking) { // Get port if not from commandline mysqld_port= MYSQL_PORT; /* if builder specifically requested a default port, use that (even if it coincides with our factory default). only if they didn't do we check /etc/services (and, failing on that, fall back to the factory default of 3306). either default can be overridden by the environment variable MYSQL_TCP_PORT, which in turn can be overridden with command line options. */ #if MYSQL_PORT_DEFAULT == 0 struct servent *serv_ptr; if ((serv_ptr= getservbyname("mysql", "tcp"))) mysqld_port= ntohs((u_short) serv_ptr->s_port); /* purecov: inspected */ #endif if ((env = getenv("MYSQL_TCP_PORT"))) mysqld_port= (uint) atoi(env); /* purecov: inspected */ } if (!mysqld_unix_port) { #ifdef __WIN__ mysqld_unix_port= (char*) MYSQL_NAMEDPIPE; #else mysqld_unix_port= (char*) MYSQL_UNIX_ADDR; #endif if ((env = getenv("MYSQL_UNIX_PORT"))) mysqld_unix_port= env; /* purecov: inspected */ } } /* Change to run as another user if started with --user */ static struct passwd *check_user(const char *user) { #if !defined(__WIN__) struct passwd *tmp_user_info; uid_t user_id= geteuid(); // Don't bother if we aren't superuser if (user_id) { if (user) { /* Don't give a warning, if real user is same as given with --user */ /* purecov: begin tested */ tmp_user_info= getpwnam(user); if ((!tmp_user_info || user_id != tmp_user_info->pw_uid) && log_warnings) sql_print_warning( "One can only use the --user switch if running as root\n"); /* purecov: end */ } return NULL; } if (!user) { if (!opt_bootstrap && !opt_help) { sql_print_error("Fatal error: Please read \"Security\" section of the manual to find out how to run mysqld as root!\n"); unireg_abort(1); } return NULL; } /* purecov: begin tested */ if (!strcmp(user,"root")) return NULL; // Avoid problem with dynamic libraries if (!(tmp_user_info= getpwnam(user))) { // Allow a numeric uid to be used const char *pos; for (pos= user; my_isdigit(mysqld_charset,*pos); pos++) ; if (*pos) // Not numeric id goto err; if (!(tmp_user_info= getpwuid(atoi(user)))) goto err; } return tmp_user_info; /* purecov: end */ err: sql_print_error("Fatal error: Can't change to run as user '%s' ; Please check that the user exists!\n",user); unireg_abort(1); #ifdef PR_SET_DUMPABLE if (test_flags & TEST_CORE_ON_SIGNAL) { /* inform kernel that process is dumpable */ (void) prctl(PR_SET_DUMPABLE, 1); } #endif #endif return NULL; } static void set_user(const char *user, struct passwd *user_info_arg) { /* purecov: begin tested */ #if !defined(__WIN__) DBUG_ASSERT(user_info_arg != 0); #ifdef HAVE_INITGROUPS /* We can get a SIGSEGV when calling initgroups() on some systems when NSS is configured to use LDAP and the server is statically linked. We set calling_initgroups as a flag to the SIGSEGV handler that is then used to output a specific message to help the user resolve this problem. */ calling_initgroups= 1; initgroups((char*) user, user_info_arg->pw_gid); calling_initgroups= 0; #endif if (setgid(user_info_arg->pw_gid) == -1) { sql_perror("setgid"); unireg_abort(1); } if (setuid(user_info_arg->pw_uid) == -1) { sql_perror("setuid"); unireg_abort(1); } #endif /* purecov: end */ } static void set_effective_user(struct passwd *user_info_arg) { #if !defined(__WIN__) DBUG_ASSERT(user_info_arg != 0); if (setregid((gid_t)-1, user_info_arg->pw_gid) == -1) { sql_perror("setregid"); unireg_abort(1); } if (setreuid((uid_t)-1, user_info_arg->pw_uid) == -1) { sql_perror("setreuid"); unireg_abort(1); } #endif } /** Change root user if started with @c --chroot . */ static void set_root(const char *path) { #if !defined(__WIN__) if (chroot(path) == -1) { sql_perror("chroot"); unireg_abort(1); } my_setwd("/", MYF(0)); #endif } static MYSQL_SOCKET create_socket(const struct addrinfo *addrinfo_list, int addr_family, struct addrinfo **use_addrinfo) { MYSQL_SOCKET sock= MYSQL_INVALID_SOCKET; for (const struct addrinfo *cur_ai= addrinfo_list; cur_ai != NULL; cur_ai= cur_ai->ai_next) { if (cur_ai->ai_family != addr_family) continue; sock= mysql_socket_socket(key_socket_tcpip, cur_ai->ai_family, cur_ai->ai_socktype, cur_ai->ai_protocol); char ip_addr[INET6_ADDRSTRLEN]; if (vio_getnameinfo(cur_ai->ai_addr, ip_addr, sizeof (ip_addr), NULL, 0, NI_NUMERICHOST)) { ip_addr[0]= 0; } if (mysql_socket_getfd(sock) == INVALID_SOCKET) { sql_print_error("Failed to create a socket for %s '%s': errno: %d.", (addr_family == AF_INET) ? "IPv4" : "IPv6", (const char *) ip_addr, (int) socket_errno); continue; } sql_print_information("Server socket created on IP: '%s'.", (const char *) ip_addr); *use_addrinfo= (struct addrinfo *)cur_ai; return sock; } return MYSQL_INVALID_SOCKET; } static void network_init(void) { #ifdef HAVE_SYS_UN_H struct sockaddr_un UNIXaddr; #endif int arg; int ret; uint waited; uint this_wait; uint retry; char port_buf[NI_MAXSERV]; DBUG_ENTER("network_init"); LINT_INIT(ret); if (MYSQL_CALLBACK_ELSE(thread_scheduler, init, (), 0)) unireg_abort(1); /* purecov: inspected */ set_ports(); if (report_port == 0) { report_port= mysqld_port; } #ifndef DBUG_OFF if (!opt_disable_networking) DBUG_ASSERT(report_port != 0); #endif if (mysqld_port != 0 && !opt_disable_networking && !opt_bootstrap) { struct addrinfo *ai; struct addrinfo hints; const char *bind_address_str= NULL; const char *ipv6_all_addresses= "::"; const char *ipv4_all_addresses= "0.0.0.0"; sql_print_information("Server hostname (bind-address): '%s'; port: %d", my_bind_addr_str, mysqld_port); // Get list of IP-addresses associated with the bind-address. memset(&hints, 0, sizeof (hints)); hints.ai_flags= AI_PASSIVE; hints.ai_socktype= SOCK_STREAM; hints.ai_family= AF_UNSPEC; my_snprintf(port_buf, NI_MAXSERV, "%d", mysqld_port); if (strcasecmp(my_bind_addr_str, MY_BIND_ALL_ADDRESSES) == 0) { /* That's the case when bind-address is set to a special value ('*'), meaning "bind to all available IP addresses". If the box supports the IPv6 stack, that means binding to '::'. If only IPv4 is available, bind to '0.0.0.0'. */ bool ipv6_available= false; if (!getaddrinfo(ipv6_all_addresses, port_buf, &hints, &ai)) { /* IPv6 might be available (the system might be able to resolve an IPv6 address, but not be able to create an IPv6-socket). Try to create a dummy IPv6-socket. Do not instrument that socket by P_S. */ MYSQL_SOCKET s= mysql_socket_socket(0, AF_INET6, SOCK_STREAM, 0); ipv6_available= mysql_socket_getfd(s) != INVALID_SOCKET; mysql_socket_close(s); } if (ipv6_available) { sql_print_information("IPv6 is available."); // Address info (ai) for IPv6 address is already set. bind_address_str= ipv6_all_addresses; } else { sql_print_information("IPv6 is not available."); // Retrieve address info (ai) for IPv4 address. if (getaddrinfo(ipv4_all_addresses, port_buf, &hints, &ai)) { sql_perror(ER_DEFAULT(ER_IPSOCK_ERROR)); sql_print_error("Can't start server: cannot resolve hostname!"); unireg_abort(1); } bind_address_str= ipv4_all_addresses; } } else { if (getaddrinfo(my_bind_addr_str, port_buf, &hints, &ai)) { sql_perror(ER_DEFAULT(ER_IPSOCK_ERROR)); /* purecov: tested */ sql_print_error("Can't start server: cannot resolve hostname!"); unireg_abort(1); /* purecov: tested */ } bind_address_str= my_bind_addr_str; } // Log all the IP-addresses. for (struct addrinfo *cur_ai= ai; cur_ai != NULL; cur_ai= cur_ai->ai_next) { char ip_addr[INET6_ADDRSTRLEN]; if (vio_getnameinfo(cur_ai->ai_addr, ip_addr, sizeof (ip_addr), NULL, 0, NI_NUMERICHOST)) { sql_print_error("Fails to print out IP-address."); continue; } sql_print_information(" - '%s' resolves to '%s';", bind_address_str, ip_addr); } /* If the 'bind-address' option specifies the hostname, which resolves to multiple IP-address, use the following rule: - if there are IPv4-addresses, use the first IPv4-address returned by getaddrinfo(); - if there are IPv6-addresses, use the first IPv6-address returned by getaddrinfo(); */ struct addrinfo *a = NULL; ip_sock= create_socket(ai, AF_INET, &a); if (mysql_socket_getfd(ip_sock) == INVALID_SOCKET) ip_sock= create_socket(ai, AF_INET6, &a); // Report user-error if we failed to create a socket. if (mysql_socket_getfd(ip_sock) == INVALID_SOCKET) { sql_perror(ER_DEFAULT(ER_IPSOCK_ERROR)); /* purecov: tested */ unireg_abort(1); /* purecov: tested */ } mysql_socket_set_thread_owner(ip_sock); #ifndef __WIN__ /* We should not use SO_REUSEADDR on windows as this would enable a user to open two mysqld servers with the same TCP/IP port. */ arg= 1; (void) mysql_socket_setsockopt(ip_sock, SOL_SOCKET, SO_REUSEADDR, (char*)&arg,sizeof(arg)); #endif /* __WIN__ */ #ifdef IPV6_V6ONLY /* For interoperability with older clients, IPv6 socket should listen on both IPv6 and IPv4 wildcard addresses. Turn off IPV6_V6ONLY option. NOTE: this will work starting from Windows Vista only. On Windows XP dual stack is not available, so it will not listen on the corresponding IPv4-address. */ if (a->ai_family == AF_INET6) { arg= 0; if (mysql_socket_setsockopt(ip_sock, IPPROTO_IPV6, IPV6_V6ONLY, (char *) &arg, sizeof (arg))) { sql_print_warning("Failed to reset IPV6_V6ONLY flag (error: %d). " "The server will listen to IPv6 addresses only.", (int) socket_errno); } } #endif /* Sometimes the port is not released fast enough when stopping and restarting the server. This happens quite often with the test suite on busy Linux systems. Retry to bind the address at these intervals: Sleep intervals: 1, 2, 4, 6, 9, 13, 17, 22, ... Retry at second: 1, 3, 7, 13, 22, 35, 52, 74, ... Limit the sequence by mysqld_port_timeout (set --port-open-timeout=#). */ for (waited= 0, retry= 1; ; retry++, waited+= this_wait) { if (((ret= mysql_socket_bind(ip_sock, a->ai_addr, a->ai_addrlen)) >= 0 ) || (socket_errno != SOCKET_EADDRINUSE) || (waited >= mysqld_port_timeout)) break; sql_print_information("Retrying bind on TCP/IP port %u", mysqld_port); this_wait= retry * retry / 3 + 1; sleep(this_wait); } freeaddrinfo(ai); if (ret < 0) { DBUG_PRINT("error",("Got error: %d from bind",socket_errno)); sql_perror("Can't start server: Bind on TCP/IP port"); sql_print_error("Do you already have another mysqld server running on port: %d ?",mysqld_port); unireg_abort(1); } if (mysql_socket_listen(ip_sock, (int)back_log) < 0) { sql_perror("Can't start server: listen() on TCP/IP port"); sql_print_error("listen() on TCP/IP failed with error %d", socket_errno); unireg_abort(1); } #if defined(WITH_WSREP) && defined(HAVE_FCNTL) && defined(FD_CLOEXEC) (void) fcntl(mysql_socket_getfd(ip_sock), F_SETFD, FD_CLOEXEC); #endif /* WITH_WSREP */ } #ifdef _WIN32 /* create named pipe */ if (Service.IsNT() && mysqld_unix_port[0] && !opt_bootstrap && opt_enable_named_pipe) { hPipe= create_server_named_pipe(&psaPipeSecurity, global_system_variables.net_buffer_length, mysqld_unix_port, pipe_name, sizeof(pipe_name)-1, named_pipe_full_access_group); if (hPipe == INVALID_HANDLE_VALUE) { sql_print_error("Can't start server: failed to create named pipe"); unireg_abort(1); } } #endif #if defined(HAVE_SYS_UN_H) /* ** Create the UNIX socket */ if (mysqld_unix_port[0] && !opt_bootstrap) { DBUG_PRINT("general",("UNIX Socket is %s",mysqld_unix_port)); if (strlen(mysqld_unix_port) > (sizeof(UNIXaddr.sun_path) - 1)) { sql_print_error("The socket file path is too long (> %u): %s", (uint) sizeof(UNIXaddr.sun_path) - 1, mysqld_unix_port); unireg_abort(1); } unix_sock= mysql_socket_socket(key_socket_unix, AF_UNIX, SOCK_STREAM, 0); if (mysql_socket_getfd(unix_sock) < 0) { sql_perror("Can't start server : UNIX Socket "); /* purecov: inspected */ unireg_abort(1); /* purecov: inspected */ } mysql_socket_set_thread_owner(unix_sock); memset(&UNIXaddr, 0, sizeof(UNIXaddr)); UNIXaddr.sun_family = AF_UNIX; strmov(UNIXaddr.sun_path, mysqld_unix_port); (void) unlink(mysqld_unix_port); arg= 1; (void) mysql_socket_setsockopt(unix_sock, SOL_SOCKET, SO_REUSEADDR, (char*)&arg, sizeof(arg)); umask(0); if (mysql_socket_bind(unix_sock, reinterpret_cast (&UNIXaddr), sizeof(UNIXaddr)) < 0) { sql_perror("Can't start server : Bind on unix socket"); /* purecov: tested */ sql_print_error("Do you already have another mysqld server running on socket: %s ?",mysqld_unix_port); unireg_abort(1); /* purecov: tested */ } umask(((~my_umask) & 0666)); #if defined(S_IFSOCK) && defined(SECURE_SOCKETS) (void) chmod(mysqld_unix_port,S_IFSOCK); /* Fix solaris 2.6 bug */ #endif if (mysql_socket_listen(unix_sock, (int)back_log) < 0) sql_print_warning("listen() on Unix socket failed with error %d", socket_errno); #if defined(WITH_WSREP) && defined(HAVE_FCNTL) && defined(FD_CLOEXEC) (void) fcntl(mysql_socket_getfd(unix_sock), F_SETFD, FD_CLOEXEC); #endif /* WITH_WSREP */ } #endif DBUG_PRINT("info",("server started")); DBUG_VOID_RETURN; } #endif /*!EMBEDDED_LIBRARY*/ #ifndef EMBEDDED_LIBRARY /** Close a connection. @param thd Thread handle. @param sql_errno The error code to send before disconnect. @note For the connection that is doing shutdown, this is called twice */ #ifdef WITH_WSREP void close_connection(THD *thd, uint sql_errno, bool lock) #else void close_connection(THD *thd, uint sql_errno) #endif { DBUG_ENTER("close_connection"); if (sql_errno) net_send_error(thd, sql_errno, ER_DEFAULT(sql_errno), NULL); thd->disconnect(); MYSQL_CONNECTION_DONE((int) sql_errno, thd->thread_id); if (MYSQL_CONNECTION_DONE_ENABLED()) { sleep(0); /* Workaround to avoid tailcall optimisation */ } MYSQL_AUDIT_NOTIFY_CONNECTION_DISCONNECT(thd, sql_errno); DBUG_VOID_RETURN; } #endif /* EMBEDDED_LIBRARY */ /** Called when a thread is aborted. */ /* ARGSUSED */ extern "C" sig_handler end_thread_signal(int sig MY_ATTRIBUTE((unused))) { THD *thd=current_thd; my_safe_printf_stderr("end_thread_signal %p", thd); if (thd && ! thd->bootstrap) { statistic_increment(killed_threads, &LOCK_status); MYSQL_CALLBACK(thread_scheduler, end_thread, (thd,0)); /* purecov: inspected */ } } /* Rlease resources of the THD, prior to destruction. SYNOPSIS thd_release_resources() thd Thread handler */ void thd_release_resources(THD *thd) { thd->release_resources(); } /* Decrease number of connections SYNOPSIS dec_connection_count() */ void dec_connection_count() { mysql_mutex_lock(&LOCK_connection_count); --connection_count; if (connection_count == 0) mysql_cond_signal(&COND_connection_count); mysql_mutex_unlock(&LOCK_connection_count); } /** Delete the THD object. */ void destroy_thd(THD *thd) { mysql_mutex_assert_not_owner(&LOCK_thread_count); delete thd; } /** Block the current pthread for reuse by new connections. @retval false Pthread was not blocked for reuse. @retval true Pthread is to be reused by new connection. (ie, caller should return, not abort with pthread_exit()) */ static bool block_until_new_connection() { mysql_mutex_lock(&LOCK_thread_count); if (blocked_pthread_count < max_blocked_pthreads && !abort_loop && !kill_blocked_pthreads_flag) { /* Don't kill the pthread, just block it for reuse */ DBUG_PRINT("info", ("Blocking pthread for reuse")); blocked_pthread_count++; DBUG_POP(); /* mysys_var is bound to the physical thread, so make sure mysys_var->dbug is reset to a clean state before picking another session in the thread cache. */ DBUG_ASSERT( ! _db_is_pushed_()); // Block pthread while (!abort_loop && !wake_pthread && !kill_blocked_pthreads_flag) mysql_cond_wait(&COND_thread_cache, &LOCK_thread_count); blocked_pthread_count--; if (kill_blocked_pthreads_flag) mysql_cond_signal(&COND_flush_thread_cache); if (wake_pthread) { THD *thd; wake_pthread--; DBUG_ASSERT(!waiting_thd_list->empty()); thd= waiting_thd_list->front(); waiting_thd_list->pop_front(); DBUG_PRINT("info", ("waiting_thd_list->pop %p", thd)); thd->thread_stack= (char*) &thd; // For store_globals (void) thd->store_globals(); #ifdef HAVE_PSI_THREAD_INTERFACE /* Create new instrumentation for the new THD job, and attach it to this running pthread. */ PSI_thread *psi= PSI_THREAD_CALL(new_thread) (key_thread_one_connection, thd, thd->thread_id); PSI_THREAD_CALL(set_thread)(psi); #endif /* THD::mysys_var::abort is associated with physical thread rather than with THD object. So we need to reset this flag before using this thread for handling of new THD object/connection. */ thd->mysys_var->abort= 0; thd->thr_create_utime= thd->start_utime= my_micro_time(); add_global_thread(thd); mysql_mutex_unlock(&LOCK_thread_count); return true; } } mysql_mutex_unlock(&LOCK_thread_count); return false; } /** End thread for the current connection @param thd Thread handler @param block_pthread Block the pthread so it can be reused later. Normally this is true in all cases except when we got out of resources initializing the current thread @retval false Signal to handle_one_connection to reuse connection @note If the pthread is blocked, we will wait until the pthread is scheduled to be reused and then return. If the pthread is not to be blocked, it will be ended. */ bool one_thread_per_connection_end(THD *thd, bool block_pthread) { DBUG_ENTER("one_thread_per_connection_end"); DBUG_PRINT("info", ("thd %p block_pthread %d", thd, (int) block_pthread)); thd->release_resources(); remove_global_thread(thd); dec_connection_count(); if (kill_blocked_pthreads_flag) { // Do not block if we are about to shut down block_pthread= false; } #ifdef WITH_WSREP if (WSREP(thd) && thd->wsrep_applier) { WSREP_DEBUG("avoiding thread re-use for applier, thd: %lu", thd->thread_id); block_pthread= false; } #endif /* WITH_WSREP */ // Clean up errors now, before possibly waiting for a new connection. #ifndef EMBEDDED_LIBRARY #if OPENSSL_VERSION_NUMBER < 0x10100000L ERR_remove_thread_state(0); #endif /* OPENSSL_VERSION_NUMBER < 0x10100000L */ #endif delete thd; #ifdef HAVE_PSI_THREAD_INTERFACE /* Delete the instrumentation for the job that just completed. */ PSI_THREAD_CALL(delete_current_thread)(); #endif if (block_pthread) block_pthread= block_until_new_connection(); if (block_pthread) DBUG_RETURN(false); // Pthread is reused /* It's safe to broadcast outside a lock (COND... is not deleted here) */ DBUG_PRINT("signal", ("Broadcasting COND_thread_count")); DBUG_LEAVE; // Must match DBUG_ENTER() my_thread_end(); mysql_cond_broadcast(&COND_thread_count); pthread_exit(0); return false; // Avoid compiler warnings } void kill_blocked_pthreads() { mysql_mutex_lock(&LOCK_thread_count); kill_blocked_pthreads_flag++; while (blocked_pthread_count) { mysql_cond_broadcast(&COND_thread_cache); mysql_cond_wait(&COND_flush_thread_cache, &LOCK_thread_count); } kill_blocked_pthreads_flag--; mysql_mutex_unlock(&LOCK_thread_count); } #ifdef THREAD_SPECIFIC_SIGPIPE /** Aborts a thread nicely. Comes here on SIGPIPE. @todo One should have to fix that thr_alarm know about this thread too. */ extern "C" sig_handler abort_thread(int sig MY_ATTRIBUTE((unused))) { THD *thd=current_thd; DBUG_ENTER("abort_thread"); if (thd) thd->killed= THD::KILL_CONNECTION; DBUG_VOID_RETURN; } #endif /****************************************************************************** Setup a signal thread with handles all signals. Because Linux doesn't support schemas use a mutex to check that the signal thread is ready before continuing ******************************************************************************/ #if defined(__WIN__) /* On Windows, we use native SetConsoleCtrlHandler for handle events like Ctrl-C with graceful shutdown. Also, we do not use signal(), but SetUnhandledExceptionFilter instead - as it provides possibility to pass the exception to just-in-time debugger, collect dumps and potentially also the exception and thread context used to output callstack. */ static BOOL WINAPI console_event_handler( DWORD type ) { DBUG_ENTER("console_event_handler"); #ifndef EMBEDDED_LIBRARY if(type == CTRL_C_EVENT) { /* Do not shutdown before startup is finished and shutdown thread is initialized. Otherwise there is a race condition between main thread doing initialization and CTRL-C thread doing cleanup, which can result into crash. */ #ifndef EMBEDDED_LIBRARY if(hEventShutdown) kill_mysql(); else #endif sql_print_warning("CTRL-C ignored during startup"); DBUG_RETURN(TRUE); } #endif DBUG_RETURN(FALSE); } #ifdef DEBUG_UNHANDLED_EXCEPTION_FILTER #define DEBUGGER_ATTACH_TIMEOUT 120 /* Wait for debugger to attach and break into debugger. If debugger is not attached, resume after timeout. */ static void wait_for_debugger(int timeout_sec) { if(!IsDebuggerPresent()) { int i; printf("Waiting for debugger to attach, pid=%u\n",GetCurrentProcessId()); fflush(stdout); for(i= 0; i < timeout_sec; i++) { Sleep(1000); if(IsDebuggerPresent()) { /* Break into debugger */ __debugbreak(); return; } } printf("pid=%u, debugger not attached after %d seconds, resuming\n",GetCurrentProcessId(), timeout_sec); fflush(stdout); } } #endif /* DEBUG_UNHANDLED_EXCEPTION_FILTER */ LONG WINAPI my_unhandler_exception_filter(EXCEPTION_POINTERS *ex_pointers) { static BOOL first_time= TRUE; if(!first_time) { /* This routine can be called twice, typically when detaching in JIT debugger. Return EXCEPTION_EXECUTE_HANDLER to terminate process. */ return EXCEPTION_EXECUTE_HANDLER; } first_time= FALSE; #ifdef DEBUG_UNHANDLED_EXCEPTION_FILTER /* Unfortunately there is no clean way to debug unhandled exception filters, as debugger does not stop there(also documented in MSDN) To overcome, one could put a MessageBox, but this will not work in service. Better solution is to print error message and sleep some minutes until debugger is attached */ wait_for_debugger(DEBUGGER_ATTACH_TIMEOUT); #endif /* DEBUG_UNHANDLED_EXCEPTION_FILTER */ __try { my_set_exception_pointers(ex_pointers); handle_fatal_signal(ex_pointers->ExceptionRecord->ExceptionCode); } __except(EXCEPTION_EXECUTE_HANDLER) { DWORD written; const char msg[] = "Got exception in exception handler!\n"; WriteFile(GetStdHandle(STD_OUTPUT_HANDLE),msg, sizeof(msg)-1, &written,NULL); } /* Return EXCEPTION_CONTINUE_SEARCH to give JIT debugger (drwtsn32 or vsjitdebugger) possibility to attach, if JIT debugger is configured. Windows Error reporting might generate a dump here. */ return EXCEPTION_CONTINUE_SEARCH; } void my_init_signals(void) { if(opt_console) SetConsoleCtrlHandler(console_event_handler,TRUE); /* Avoid MessageBox()es*/ _CrtSetReportMode(_CRT_WARN, _CRTDBG_MODE_FILE); _CrtSetReportFile(_CRT_WARN, _CRTDBG_FILE_STDERR); _CrtSetReportMode(_CRT_ERROR, _CRTDBG_MODE_FILE); _CrtSetReportFile(_CRT_ERROR, _CRTDBG_FILE_STDERR); _CrtSetReportMode(_CRT_ASSERT, _CRTDBG_MODE_FILE); _CrtSetReportFile(_CRT_ASSERT, _CRTDBG_FILE_STDERR); /* Do not use SEM_NOGPFAULTERRORBOX in the following SetErrorMode (), because it would prevent JIT debugger and Windows error reporting from working. We need WER or JIT-debugging, since our own unhandled exception filter is not guaranteed to work in all situation (like heap corruption or stack overflow) */ SetErrorMode(SetErrorMode(0) | SEM_FAILCRITICALERRORS | SEM_NOOPENFILEERRORBOX); SetUnhandledExceptionFilter(my_unhandler_exception_filter); } static void start_signal_handler(void) { #ifndef EMBEDDED_LIBRARY // Save vm id of this process if (!opt_bootstrap) create_pid_file(); #endif /* EMBEDDED_LIBRARY */ } static void check_data_home(const char *path) {} #endif /* __WIN__ */ #if BACKTRACE_DEMANGLE #include extern "C" char *my_demangle(const char *mangled_name, int *status) { return abi::__cxa_demangle(mangled_name, NULL, NULL, status); } #endif #if !defined(__WIN__) #ifndef SA_RESETHAND #define SA_RESETHAND 0 #endif #ifndef SA_NODEFER #define SA_NODEFER 0 #endif #ifndef EMBEDDED_LIBRARY void my_init_signals(void) { sigset_t set; struct sigaction sa; DBUG_ENTER("my_init_signals"); my_sigset(THR_SERVER_ALARM,print_signal_warning); // Should never be called! if (!(test_flags & TEST_NO_STACKTRACE) || (test_flags & TEST_CORE_ON_SIGNAL)) { sa.sa_flags = SA_RESETHAND | SA_NODEFER; sigemptyset(&sa.sa_mask); sigprocmask(SIG_SETMASK,&sa.sa_mask,NULL); #ifdef HAVE_STACKTRACE my_init_stacktrace(); #endif #if defined(__amiga__) sa.sa_handler=(void(*)())handle_fatal_signal; #else sa.sa_handler=handle_fatal_signal; #endif sigaction(SIGSEGV, &sa, NULL); sigaction(SIGABRT, &sa, NULL); #ifdef SIGBUS sigaction(SIGBUS, &sa, NULL); #endif sigaction(SIGILL, &sa, NULL); sigaction(SIGFPE, &sa, NULL); } #ifdef HAVE_GETRLIMIT if (test_flags & TEST_CORE_ON_SIGNAL) { /* Change limits so that we will get a core file */ STRUCT_RLIMIT rl; rl.rlim_cur = rl.rlim_max = RLIM_INFINITY; if (setrlimit(RLIMIT_CORE, &rl) && log_warnings) sql_print_warning("setrlimit could not change the size of core files to 'infinity'; We may not be able to generate a core file on signals"); } #endif (void) sigemptyset(&set); my_sigset(SIGPIPE,SIG_IGN); sigaddset(&set,SIGPIPE); #ifndef IGNORE_SIGHUP_SIGQUIT sigaddset(&set,SIGQUIT); sigaddset(&set,SIGHUP); #endif sigaddset(&set,SIGTERM); /* Fix signals if blocked by parents (can happen on Mac OS X) */ sigemptyset(&sa.sa_mask); sa.sa_flags = 0; sa.sa_handler = print_signal_warning; sigaction(SIGTERM, &sa, (struct sigaction*) 0); sa.sa_flags = 0; sa.sa_handler = print_signal_warning; sigaction(SIGHUP, &sa, (struct sigaction*) 0); #ifdef SIGTSTP sigaddset(&set,SIGTSTP); #endif sigaddset(&set,THR_SERVER_ALARM); if (test_flags & TEST_SIGINT) { my_sigset(thr_kill_signal, end_thread_signal); // May be SIGINT sigdelset(&set, thr_kill_signal); } else sigaddset(&set,SIGINT); sigprocmask(SIG_SETMASK,&set,NULL); pthread_sigmask(SIG_SETMASK,&set,NULL); DBUG_VOID_RETURN; } static void start_signal_handler(void) { int error; pthread_attr_t thr_attr; DBUG_ENTER("start_signal_handler"); (void) pthread_attr_init(&thr_attr); #if !defined(HAVE_DEC_3_2_THREADS) pthread_attr_setscope(&thr_attr,PTHREAD_SCOPE_SYSTEM); (void) pthread_attr_setdetachstate(&thr_attr,PTHREAD_CREATE_DETACHED); size_t guardize= 0; pthread_attr_getguardsize(&thr_attr, &guardize); #if defined(__ia64__) || defined(__ia64) /* Peculiar things with ia64 platforms - it seems we only have half the stack size in reality, so we have to double it here */ guardize= my_thread_stack_size; #endif pthread_attr_setstacksize(&thr_attr, my_thread_stack_size + guardize); #endif mysql_mutex_lock(&LOCK_thread_count); if ((error= mysql_thread_create(key_thread_signal_hand, &signal_thread, &thr_attr, signal_hand, 0))) { sql_print_error("Can't create interrupt-thread (error %d, errno: %d)", error,errno); exit(1); } mysql_cond_wait(&COND_thread_count, &LOCK_thread_count); mysql_mutex_unlock(&LOCK_thread_count); (void) pthread_attr_destroy(&thr_attr); DBUG_VOID_RETURN; } /** This threads handles all signals and alarms. */ /* ARGSUSED */ pthread_handler_t signal_hand(void *arg MY_ATTRIBUTE((unused))) { sigset_t set; int sig; my_thread_init(); // Init new thread signal_thread_in_use= 1; /* Setup alarm handler This should actually be '+ max_number_of_slaves' instead of +10, but the +10 should be quite safe. */ init_thr_alarm(thread_scheduler->max_threads + global_system_variables.max_insert_delayed_threads + 10); if (test_flags & TEST_SIGINT) { (void) sigemptyset(&set); // Setup up SIGINT for debug (void) sigaddset(&set,SIGINT); // For debugging (void) pthread_sigmask(SIG_UNBLOCK,&set,NULL); } (void) sigemptyset(&set); // Setup up SIGINT for debug #ifdef USE_ONE_SIGNAL_HAND (void) sigaddset(&set,THR_SERVER_ALARM); // For alarms #endif #ifndef IGNORE_SIGHUP_SIGQUIT (void) sigaddset(&set,SIGQUIT); (void) sigaddset(&set,SIGHUP); #endif (void) sigaddset(&set,SIGTERM); (void) sigaddset(&set,SIGTSTP); /* Save pid to this process (or thread on Linux) */ if (!opt_bootstrap) create_pid_file(); /* signal to start_signal_handler that we are ready This works by waiting for start_signal_handler to free mutex, after which we signal it that we are ready. At this pointer there is no other threads running, so there should not be any other mysql_cond_signal() calls. */ mysql_mutex_lock(&LOCK_thread_count); mysql_cond_broadcast(&COND_thread_count); mysql_mutex_unlock(&LOCK_thread_count); /* Waiting for until mysqld_server_started != 0 to ensure that all server components has been successfully initialized. This step is mandatory since signal processing could be done safely only when all server components has been initialized. */ mysql_mutex_lock(&LOCK_server_started); while (!mysqld_server_started) mysql_cond_wait(&COND_server_started, &LOCK_server_started); mysql_mutex_unlock(&LOCK_server_started); for (;;) { int error; // Used when debugging if (shutdown_in_progress && !abort_loop) { sig= SIGTERM; error=0; } else while ((error=my_sigwait(&set,&sig)) == EINTR) ; if (cleanup_done) { my_thread_end(); signal_thread_in_use= 0; pthread_exit(0); // Safety return 0; // Avoid compiler warnings } switch (sig) { case SIGTERM: case SIGQUIT: case SIGKILL: #ifdef EXTRA_DEBUG sql_print_information("Got signal %d to shutdown mysqld",sig); #endif /* switch to the old log message processing */ logger.set_handlers(LOG_FILE, opt_slow_log ? LOG_FILE:LOG_NONE, opt_log ? LOG_FILE:LOG_NONE); DBUG_PRINT("info",("Got signal: %d abort_loop: %d",sig,abort_loop)); if (!abort_loop) { abort_loop=1; // mark abort for threads #ifdef HAVE_PSI_THREAD_INTERFACE /* Delete the instrumentation for the signal thread */ PSI_THREAD_CALL(delete_current_thread)(); #endif #ifdef USE_ONE_SIGNAL_HAND pthread_t tmp; if ((error= mysql_thread_create(0, /* Not instrumented */ &tmp, &connection_attrib, kill_server_thread, (void*) &sig))) sql_print_error("Can't create thread to kill server (errno= %d)", error); #else kill_server((void*) sig); // MIT THREAD has a alarm thread #endif } break; case SIGHUP: if (!abort_loop) { int not_used; mysql_print_status(); // Print some debug info reload_acl_and_cache((THD*) 0, (REFRESH_LOG | REFRESH_TABLES | REFRESH_FAST | REFRESH_GRANT | REFRESH_THREADS | REFRESH_HOSTS), (TABLE_LIST*) 0, ¬_used); // Flush logs } /* reenable logs after the options were reloaded */ if (log_output_options & LOG_NONE) { logger.set_handlers(LOG_FILE, opt_slow_log ? LOG_TABLE : LOG_NONE, opt_log ? LOG_TABLE : LOG_NONE); } else { logger.set_handlers(LOG_FILE, opt_slow_log ? log_output_options : LOG_NONE, opt_log ? log_output_options : LOG_NONE); } break; #ifdef USE_ONE_SIGNAL_HAND case THR_SERVER_ALARM: process_alarm(sig); // Trigger alarms. break; #endif default: #ifdef EXTRA_DEBUG sql_print_warning("Got signal: %d error: %d",sig,error); /* purecov: tested */ #endif break; /* purecov: tested */ } } return(0); /* purecov: deadcode */ } static void check_data_home(const char *path) {} #endif /*!EMBEDDED_LIBRARY*/ #endif /* __WIN__*/ /** All global error messages are sent here where the first one is stored for the client. */ /* ARGSUSED */ extern "C" void my_message_sql(uint error, const char *str, myf MyFlags); void my_message_sql(uint error, const char *str, myf MyFlags) { THD *thd= current_thd; DBUG_ENTER("my_message_sql"); DBUG_PRINT("error", ("error: %u message: '%s'", error, str)); DBUG_ASSERT(str != NULL); /* An error should have a valid error number (!= 0), so it can be caught in stored procedures by SQL exception handlers. Calling my_error() with error == 0 is a bug. Remaining known places to fix: - storage/myisam/mi_create.c, my_printf_error() TODO: DBUG_ASSERT(error != 0); */ if (error == 0) { /* At least, prevent new abuse ... */ DBUG_ASSERT(strncmp(str, "MyISAM table", 12) == 0); error= ER_UNKNOWN_ERROR; } mysql_audit_general(thd, MYSQL_AUDIT_GENERAL_ERROR, error, str); if (thd) { if (MyFlags & ME_FATALERROR) thd->is_fatal_error= 1; (void) thd->raise_condition(error, NULL, Sql_condition::WARN_LEVEL_ERROR, str); } /* When simulating OOM, skip writing to error log to avoid mtr errors */ DBUG_EXECUTE_IF("simulate_out_of_memory", DBUG_VOID_RETURN;); if (!thd || MyFlags & ME_NOREFRESH) sql_print_error("%s: %s",my_progname,str); /* purecov: inspected */ DBUG_VOID_RETURN; } #ifndef EMBEDDED_LIBRARY extern "C" void *my_str_malloc_mysqld(size_t size); extern "C" void my_str_free_mysqld(void *ptr); extern "C" void *my_str_realloc_mysqld(void *ptr, size_t size); void *my_str_malloc_mysqld(size_t size) { return my_malloc(size, MYF(MY_FAE)); } void my_str_free_mysqld(void *ptr) { my_free(ptr); } void *my_str_realloc_mysqld(void *ptr, size_t size) { return my_realloc(ptr, size, MYF(MY_FAE)); } #endif /* EMBEDDED_LIBRARY */ #ifdef __WIN__ pthread_handler_t handle_shutdown(void *arg) { MSG msg; my_thread_init(); /* this call should create the message queue for this thread */ PeekMessage(&msg, NULL, 1, 65534,PM_NOREMOVE); #if !defined(EMBEDDED_LIBRARY) if (WaitForSingleObject(hEventShutdown,INFINITE)==WAIT_OBJECT_0) #endif /* EMBEDDED_LIBRARY */ kill_server(MYSQL_KILL_SIGNAL); return 0; } #endif const char *load_default_groups[]= { #ifdef WITH_NDBCLUSTER_STORAGE_ENGINE "mysql_cluster", #endif "mysqld","server", MYSQL_BASE_VERSION, 0, 0}; #if defined(__WIN__) && !defined(EMBEDDED_LIBRARY) static const int load_default_groups_sz= sizeof(load_default_groups)/sizeof(load_default_groups[0]); #endif #ifndef EMBEDDED_LIBRARY /** This function is used to check for stack overrun for pathological cases of regular expressions and 'like' expressions. The call to current_thd is quite expensive, so we try to avoid it for the normal cases. The size of each stack frame for the wildcmp() routines is ~128 bytes, so checking *every* recursive call is not necessary. */ extern "C" int check_enough_stack_size(int recurse_level) { uchar stack_top; if (recurse_level % 16 != 0) return 0; THD *my_thd= current_thd; if (my_thd != NULL) return check_stack_overrun(my_thd, STACK_MIN_SIZE * 2, &stack_top); return 0; } #endif /** Initialize one of the global date/time format variables. @param format_type What kind of format should be supported @param var_ptr Pointer to variable that should be updated @retval 0 ok @retval 1 error */ static bool init_global_datetime_format(timestamp_type format_type, DATE_TIME_FORMAT *format) { /* Get command line option format->format.str is already set by my_getopt */ format->format.length= strlen(format->format.str); if (parse_date_time_format(format_type, format)) { fprintf(stderr, "Wrong date/time format specifier: %s\n", format->format.str); return true; } return false; } SHOW_VAR com_status_vars[]= { {"admin_commands", (char*) offsetof(STATUS_VAR, com_other), SHOW_LONG_STATUS}, {"assign_to_keycache", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_ASSIGN_TO_KEYCACHE]), SHOW_LONG_STATUS}, {"alter_db", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_ALTER_DB]), SHOW_LONG_STATUS}, {"alter_db_upgrade", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_ALTER_DB_UPGRADE]), SHOW_LONG_STATUS}, {"alter_event", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_ALTER_EVENT]), SHOW_LONG_STATUS}, {"alter_function", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_ALTER_FUNCTION]), SHOW_LONG_STATUS}, {"alter_procedure", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_ALTER_PROCEDURE]), SHOW_LONG_STATUS}, {"alter_server", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_ALTER_SERVER]), SHOW_LONG_STATUS}, {"alter_table", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_ALTER_TABLE]), SHOW_LONG_STATUS}, {"alter_tablespace", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_ALTER_TABLESPACE]), SHOW_LONG_STATUS}, {"alter_user", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_ALTER_USER]), SHOW_LONG_STATUS}, {"analyze", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_ANALYZE]), SHOW_LONG_STATUS}, {"begin", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_BEGIN]), SHOW_LONG_STATUS}, {"binlog", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_BINLOG_BASE64_EVENT]), SHOW_LONG_STATUS}, {"call_procedure", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_CALL]), SHOW_LONG_STATUS}, {"change_db", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_CHANGE_DB]), SHOW_LONG_STATUS}, {"change_master", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_CHANGE_MASTER]), SHOW_LONG_STATUS}, {"check", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_CHECK]), SHOW_LONG_STATUS}, {"checksum", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_CHECKSUM]), SHOW_LONG_STATUS}, {"commit", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_COMMIT]), SHOW_LONG_STATUS}, {"create_db", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_CREATE_DB]), SHOW_LONG_STATUS}, {"create_event", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_CREATE_EVENT]), SHOW_LONG_STATUS}, {"create_function", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_CREATE_SPFUNCTION]), SHOW_LONG_STATUS}, {"create_index", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_CREATE_INDEX]), SHOW_LONG_STATUS}, {"create_procedure", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_CREATE_PROCEDURE]), SHOW_LONG_STATUS}, {"create_server", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_CREATE_SERVER]), SHOW_LONG_STATUS}, {"create_table", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_CREATE_TABLE]), SHOW_LONG_STATUS}, {"create_trigger", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_CREATE_TRIGGER]), SHOW_LONG_STATUS}, {"create_udf", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_CREATE_FUNCTION]), SHOW_LONG_STATUS}, {"create_user", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_CREATE_USER]), SHOW_LONG_STATUS}, {"create_view", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_CREATE_VIEW]), SHOW_LONG_STATUS}, {"dealloc_sql", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_DEALLOCATE_PREPARE]), SHOW_LONG_STATUS}, {"delete", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_DELETE]), SHOW_LONG_STATUS}, {"delete_multi", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_DELETE_MULTI]), SHOW_LONG_STATUS}, {"do", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_DO]), SHOW_LONG_STATUS}, {"drop_db", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_DROP_DB]), SHOW_LONG_STATUS}, {"drop_event", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_DROP_EVENT]), SHOW_LONG_STATUS}, {"drop_function", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_DROP_FUNCTION]), SHOW_LONG_STATUS}, {"drop_index", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_DROP_INDEX]), SHOW_LONG_STATUS}, {"drop_procedure", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_DROP_PROCEDURE]), SHOW_LONG_STATUS}, {"drop_server", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_DROP_SERVER]), SHOW_LONG_STATUS}, {"drop_table", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_DROP_TABLE]), SHOW_LONG_STATUS}, {"drop_trigger", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_DROP_TRIGGER]), SHOW_LONG_STATUS}, {"drop_user", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_DROP_USER]), SHOW_LONG_STATUS}, {"drop_view", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_DROP_VIEW]), SHOW_LONG_STATUS}, {"empty_query", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_EMPTY_QUERY]), SHOW_LONG_STATUS}, {"execute_sql", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_EXECUTE]), SHOW_LONG_STATUS}, {"flush", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_FLUSH]), SHOW_LONG_STATUS}, {"get_diagnostics", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_GET_DIAGNOSTICS]), SHOW_LONG_STATUS}, {"grant", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_GRANT]), SHOW_LONG_STATUS}, {"ha_close", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_HA_CLOSE]), SHOW_LONG_STATUS}, {"ha_open", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_HA_OPEN]), SHOW_LONG_STATUS}, {"ha_read", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_HA_READ]), SHOW_LONG_STATUS}, {"help", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_HELP]), SHOW_LONG_STATUS}, {"insert", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_INSERT]), SHOW_LONG_STATUS}, {"insert_select", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_INSERT_SELECT]), SHOW_LONG_STATUS}, {"install_plugin", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_INSTALL_PLUGIN]), SHOW_LONG_STATUS}, {"kill", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_KILL]), SHOW_LONG_STATUS}, {"load", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_LOAD]), SHOW_LONG_STATUS}, {"lock_tables", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_LOCK_TABLES]), SHOW_LONG_STATUS}, {"optimize", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_OPTIMIZE]), SHOW_LONG_STATUS}, {"preload_keys", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_PRELOAD_KEYS]), SHOW_LONG_STATUS}, {"prepare_sql", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_PREPARE]), SHOW_LONG_STATUS}, {"purge", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_PURGE]), SHOW_LONG_STATUS}, {"purge_before_date", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_PURGE_BEFORE]), SHOW_LONG_STATUS}, {"release_savepoint", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_RELEASE_SAVEPOINT]), SHOW_LONG_STATUS}, {"rename_table", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_RENAME_TABLE]), SHOW_LONG_STATUS}, {"rename_user", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_RENAME_USER]), SHOW_LONG_STATUS}, {"repair", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_REPAIR]), SHOW_LONG_STATUS}, {"replace", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_REPLACE]), SHOW_LONG_STATUS}, {"replace_select", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_REPLACE_SELECT]), SHOW_LONG_STATUS}, {"reset", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_RESET]), SHOW_LONG_STATUS}, {"resignal", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_RESIGNAL]), SHOW_LONG_STATUS}, {"revoke", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_REVOKE]), SHOW_LONG_STATUS}, {"revoke_all", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_REVOKE_ALL]), SHOW_LONG_STATUS}, {"rollback", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_ROLLBACK]), SHOW_LONG_STATUS}, {"rollback_to_savepoint",(char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_ROLLBACK_TO_SAVEPOINT]), SHOW_LONG_STATUS}, {"savepoint", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_SAVEPOINT]), SHOW_LONG_STATUS}, {"select", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_SELECT]), SHOW_LONG_STATUS}, {"set_option", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_SET_OPTION]), SHOW_LONG_STATUS}, {"signal", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_SIGNAL]), SHOW_LONG_STATUS}, {"show_binlog_events", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_SHOW_BINLOG_EVENTS]), SHOW_LONG_STATUS}, {"show_binlogs", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_SHOW_BINLOGS]), SHOW_LONG_STATUS}, {"show_charsets", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_SHOW_CHARSETS]), SHOW_LONG_STATUS}, {"show_collations", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_SHOW_COLLATIONS]), SHOW_LONG_STATUS}, {"show_create_db", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_SHOW_CREATE_DB]), SHOW_LONG_STATUS}, {"show_create_event", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_SHOW_CREATE_EVENT]), SHOW_LONG_STATUS}, {"show_create_func", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_SHOW_CREATE_FUNC]), SHOW_LONG_STATUS}, {"show_create_proc", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_SHOW_CREATE_PROC]), SHOW_LONG_STATUS}, {"show_create_table", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_SHOW_CREATE]), SHOW_LONG_STATUS}, {"show_create_trigger", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_SHOW_CREATE_TRIGGER]), SHOW_LONG_STATUS}, {"show_databases", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_SHOW_DATABASES]), SHOW_LONG_STATUS}, {"show_engine_logs", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_SHOW_ENGINE_LOGS]), SHOW_LONG_STATUS}, {"show_engine_mutex", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_SHOW_ENGINE_MUTEX]), SHOW_LONG_STATUS}, {"show_engine_status", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_SHOW_ENGINE_STATUS]), SHOW_LONG_STATUS}, {"show_events", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_SHOW_EVENTS]), SHOW_LONG_STATUS}, {"show_errors", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_SHOW_ERRORS]), SHOW_LONG_STATUS}, {"show_fields", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_SHOW_FIELDS]), SHOW_LONG_STATUS}, {"show_function_code", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_SHOW_FUNC_CODE]), SHOW_LONG_STATUS}, {"show_function_status", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_SHOW_STATUS_FUNC]), SHOW_LONG_STATUS}, {"show_grants", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_SHOW_GRANTS]), SHOW_LONG_STATUS}, {"show_keys", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_SHOW_KEYS]), SHOW_LONG_STATUS}, {"show_master_status", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_SHOW_MASTER_STAT]), SHOW_LONG_STATUS}, {"show_open_tables", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_SHOW_OPEN_TABLES]), SHOW_LONG_STATUS}, {"show_plugins", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_SHOW_PLUGINS]), SHOW_LONG_STATUS}, {"show_privileges", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_SHOW_PRIVILEGES]), SHOW_LONG_STATUS}, {"show_procedure_code", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_SHOW_PROC_CODE]), SHOW_LONG_STATUS}, {"show_procedure_status",(char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_SHOW_STATUS_PROC]), SHOW_LONG_STATUS}, {"show_processlist", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_SHOW_PROCESSLIST]), SHOW_LONG_STATUS}, {"show_profile", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_SHOW_PROFILE]), SHOW_LONG_STATUS}, {"show_profiles", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_SHOW_PROFILES]), SHOW_LONG_STATUS}, {"show_relaylog_events", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_SHOW_RELAYLOG_EVENTS]), SHOW_LONG_STATUS}, {"show_slave_hosts", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_SHOW_SLAVE_HOSTS]), SHOW_LONG_STATUS}, {"show_slave_status", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_SHOW_SLAVE_STAT]), SHOW_LONG_STATUS}, {"show_status", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_SHOW_STATUS]), SHOW_LONG_STATUS}, {"show_storage_engines", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_SHOW_STORAGE_ENGINES]), SHOW_LONG_STATUS}, {"show_table_status", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_SHOW_TABLE_STATUS]), SHOW_LONG_STATUS}, {"show_tables", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_SHOW_TABLES]), SHOW_LONG_STATUS}, {"show_triggers", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_SHOW_TRIGGERS]), SHOW_LONG_STATUS}, {"show_variables", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_SHOW_VARIABLES]), SHOW_LONG_STATUS}, {"show_warnings", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_SHOW_WARNS]), SHOW_LONG_STATUS}, {"slave_start", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_SLAVE_START]), SHOW_LONG_STATUS}, {"slave_stop", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_SLAVE_STOP]), SHOW_LONG_STATUS}, {"stmt_close", (char*) offsetof(STATUS_VAR, com_stmt_close), SHOW_LONG_STATUS}, {"stmt_execute", (char*) offsetof(STATUS_VAR, com_stmt_execute), SHOW_LONG_STATUS}, {"stmt_fetch", (char*) offsetof(STATUS_VAR, com_stmt_fetch), SHOW_LONG_STATUS}, {"stmt_prepare", (char*) offsetof(STATUS_VAR, com_stmt_prepare), SHOW_LONG_STATUS}, {"stmt_reprepare", (char*) offsetof(STATUS_VAR, com_stmt_reprepare), SHOW_LONG_STATUS}, {"stmt_reset", (char*) offsetof(STATUS_VAR, com_stmt_reset), SHOW_LONG_STATUS}, {"stmt_send_long_data", (char*) offsetof(STATUS_VAR, com_stmt_send_long_data), SHOW_LONG_STATUS}, {"truncate", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_TRUNCATE]), SHOW_LONG_STATUS}, {"uninstall_plugin", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_UNINSTALL_PLUGIN]), SHOW_LONG_STATUS}, {"unlock_tables", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_UNLOCK_TABLES]), SHOW_LONG_STATUS}, {"update", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_UPDATE]), SHOW_LONG_STATUS}, {"update_multi", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_UPDATE_MULTI]), SHOW_LONG_STATUS}, {"xa_commit", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_XA_COMMIT]),SHOW_LONG_STATUS}, {"xa_end", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_XA_END]),SHOW_LONG_STATUS}, {"xa_prepare", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_XA_PREPARE]),SHOW_LONG_STATUS}, {"xa_recover", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_XA_RECOVER]),SHOW_LONG_STATUS}, {"xa_rollback", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_XA_ROLLBACK]),SHOW_LONG_STATUS}, {"xa_start", (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_XA_START]),SHOW_LONG_STATUS}, {NullS, NullS, SHOW_LONG} }; LEX_CSTRING sql_statement_names[(uint) SQLCOM_END + 1]; void init_sql_statement_names() { static LEX_CSTRING empty= { C_STRING_WITH_LEN("") }; char *first_com= (char*) offsetof(STATUS_VAR, com_stat[0]); char *last_com= (char*) offsetof(STATUS_VAR, com_stat[(uint) SQLCOM_END]); int record_size= (char*) offsetof(STATUS_VAR, com_stat[1]) - (char*) offsetof(STATUS_VAR, com_stat[0]); char *ptr; uint i; uint com_index; for (i= 0; i < ((uint) SQLCOM_END + 1); i++) sql_statement_names[i]= empty; SHOW_VAR *var= &com_status_vars[0]; while (var->name != NULL) { ptr= var->value; if ((first_com <= ptr) && (ptr <= last_com)) { com_index= ((int)(ptr - first_com))/record_size; DBUG_ASSERT(com_index < (uint) SQLCOM_END); sql_statement_names[com_index].str= var->name; /* TODO: Change SHOW_VAR::name to a LEX_STRING, to avoid strlen() */ sql_statement_names[com_index].length= strlen(var->name); } var++; } DBUG_ASSERT(strcmp(sql_statement_names[(uint) SQLCOM_SELECT].str, "select") == 0); DBUG_ASSERT(strcmp(sql_statement_names[(uint) SQLCOM_SIGNAL].str, "signal") == 0); sql_statement_names[(uint) SQLCOM_END].str= "error"; } #ifdef HAVE_PSI_STATEMENT_INTERFACE PSI_statement_info sql_statement_info[(uint) SQLCOM_END + 1]; PSI_statement_info com_statement_info[(uint) COM_END + 1]; /** Initialize the command names array. Since we do not want to maintain a separate array, this is populated from data mined in com_status_vars, which already has one name for each command. */ void init_sql_statement_info() { uint i; for (i= 0; i < ((uint) SQLCOM_END + 1); i++) { sql_statement_info[i].m_name= sql_statement_names[i].str; sql_statement_info[i].m_flags= 0; } /* "statement/sql/error" represents broken queries (syntax error). */ sql_statement_info[(uint) SQLCOM_END].m_name= "error"; sql_statement_info[(uint) SQLCOM_END].m_flags= 0; } void init_com_statement_info() { uint index; for (index= 0; index < (uint) COM_END + 1; index++) { com_statement_info[index].m_name= command_name[index].str; com_statement_info[index].m_flags= 0; } /* "statement/abstract/query" can mutate into "statement/sql/..." */ com_statement_info[(uint) COM_QUERY].m_flags= PSI_FLAG_MUTABLE; } #endif /** Create the name of the default general log file @param[IN] buff Location for building new string. @param[IN] log_ext The extension for the file (e.g .log) @returns Pointer to a new string containing the name */ static inline char *make_default_log_name(char *buff,const char* log_ext) { return make_log_name(buff, default_logfile_name, log_ext); } /** Create a replication file name or base for file names. @param[in] opt Value of option, or NULL @param[in] def Default value if option value is not set. @param[in] ext Extension to use for the path @returns Pointer to string containing the full file path, or NULL if it was not possible to create the path. */ static inline const char * rpl_make_log_name(const char *opt, const char *def, const char *ext) { DBUG_ENTER("rpl_make_log_name"); DBUG_PRINT("enter", ("opt: %s, def: %s, ext: %s", opt, def, ext)); char buff[FN_REFLEN]; const char *base= opt ? opt : def; unsigned int options= MY_REPLACE_EXT | MY_UNPACK_FILENAME | MY_SAFE_PATH; /* mysql_real_data_home_ptr may be null if no value of datadir has been specified through command-line or througha cnf file. If that is the case we make mysql_real_data_home_ptr point to mysql_real_data_home which, in that case holds the default path for data-dir. */ if(mysql_real_data_home_ptr == NULL) mysql_real_data_home_ptr= mysql_real_data_home; if (fn_format(buff, base, mysql_real_data_home_ptr, ext, options)) DBUG_RETURN(strdup(buff)); else DBUG_RETURN(NULL); } int init_common_variables() { umask(((~my_umask) & 0666)); connection_errors_select= 0; connection_errors_accept= 0; connection_errors_tcpwrap= 0; connection_errors_internal= 0; connection_errors_max_connection= 0; connection_errors_peer_addr= 0; my_decimal_set_zero(&decimal_zero); // set decimal_zero constant; tzset(); // Set tzname max_system_variables.pseudo_thread_id= (ulong)~0; server_start_time= flush_status_time= my_time(0); rpl_filter= new Rpl_filter; binlog_filter= new Rpl_filter; if (!rpl_filter || !binlog_filter) { sql_perror("Could not allocate replication and binlog filters"); return 1; } if (init_thread_environment() || mysql_init_variables()) return 1; if (ignore_db_dirs_init()) return 1; #ifdef HAVE_TZNAME { struct tm tm_tmp; localtime_r(&server_start_time,&tm_tmp); strmake(system_time_zone, tzname[tm_tmp.tm_isdst != 0 ? 1 : 0], sizeof(system_time_zone)-1); } #endif /* We set SYSTEM time zone as reasonable default and also for failure of my_tz_init() and bootstrap mode. If user explicitly set time zone with --default-time-zone option we will change this value in my_tz_init(). */ global_system_variables.time_zone= my_tz_SYSTEM; #ifdef HAVE_PSI_INTERFACE /* Complete the mysql_bin_log initialization. Instrumentation keys are known only after the performance schema initialization, and can not be set in the MYSQL_BIN_LOG constructor (called before main()). */ mysql_bin_log.set_psi_keys(key_BINLOG_LOCK_index, key_BINLOG_LOCK_commit, key_BINLOG_LOCK_commit_queue, key_BINLOG_LOCK_done, key_BINLOG_LOCK_flush_queue, key_BINLOG_LOCK_log, key_BINLOG_LOCK_sync, key_BINLOG_LOCK_sync_queue, key_BINLOG_LOCK_xids, key_BINLOG_COND_done, key_BINLOG_update_cond, key_BINLOG_prep_xids_cond, key_file_binlog, key_file_binlog_index); #endif /* Init mutexes for the global MYSQL_BIN_LOG objects. As safe_mutex depends on what MY_INIT() does, we can't init the mutexes of global MYSQL_BIN_LOGs in their constructors, because then they would be inited before MY_INIT(). So we do it here. */ mysql_bin_log.init_pthread_objects(); /* TODO: remove this when my_time_t is 64 bit compatible */ if (!IS_TIME_T_VALID_FOR_TIMESTAMP(server_start_time)) { sql_print_error("This MySQL server doesn't support dates later then 2038"); return 1; } if (gethostname(glob_hostname,sizeof(glob_hostname)) < 0) { strmake(glob_hostname, STRING_WITH_LEN("localhost")); sql_print_warning("gethostname failed, using '%s' as hostname", glob_hostname); strmake(default_logfile_name, STRING_WITH_LEN("mysql")); } else strmake(default_logfile_name, glob_hostname, sizeof(default_logfile_name)-5); #ifdef WITH_WSREP if (0 == wsrep_node_name || 0 == wsrep_node_name[0]) { my_free((void *)wsrep_node_name); wsrep_node_name= my_strdup(glob_hostname, MYF(MY_WME)); } #endif /* WITH_WSREP */ strmake(pidfile_name, default_logfile_name, sizeof(pidfile_name)-5); strmov(fn_ext(pidfile_name),".pid"); // Add proper extension /* The default-storage-engine entry in my_long_options should have a non-null default value. It was earlier intialized as (longlong)"MyISAM" in my_long_options but this triggered a compiler error in the Sun Studio 12 compiler. As a work-around we set the def_value member to 0 in my_long_options and initialize it to the correct value here. From MySQL 5.5 onwards, the default storage engine is InnoDB (except in the embedded server, where the default continues to be MyISAM) */ #ifdef EMBEDDED_LIBRARY default_storage_engine= const_cast("MyISAM"); #else default_storage_engine= const_cast("InnoDB"); #endif default_tmp_storage_engine= default_storage_engine; init_default_auth_plugin(); /* Add server status variables to the dynamic list of status variables that is shown by SHOW STATUS. Later, in plugin_init, and mysql_install_plugin new entries could be added to that list. */ if (add_status_vars(status_vars)) return 1; // an error was already reported #ifndef DBUG_OFF /* We have few debug-only commands in com_status_vars, only visible in debug builds. for simplicity we enable the assert only in debug builds There are 8 Com_ variables which don't have corresponding SQLCOM_ values: (TODO strictly speaking they shouldn't be here, should not have Com_ prefix that is. Perhaps Stmt_ ? Comstmt_ ? Prepstmt_ ?) Com_admin_commands => com_other Com_stmt_close => com_stmt_close Com_stmt_execute => com_stmt_execute Com_stmt_fetch => com_stmt_fetch Com_stmt_prepare => com_stmt_prepare Com_stmt_reprepare => com_stmt_reprepare Com_stmt_reset => com_stmt_reset Com_stmt_send_long_data => com_stmt_send_long_data With this correction the number of Com_ variables (number of elements in the array, excluding the last element - terminator) must match the number of SQLCOM_ constants. */ compile_time_assert(sizeof(com_status_vars)/sizeof(com_status_vars[0]) - 1 == SQLCOM_END + 8); #endif #ifdef WITH_WSREP /* This is a protection against mutually incompatible option values. */ if (WSREP_ON && wsrep_check_opts (remaining_argc, remaining_argv)) return 1; #endif /* WITH_WSREP */ if (get_options(&remaining_argc, &remaining_argv)) return 1; set_server_version(); sql_print_information("%s (mysqld %s) starting as process %lu ...", my_progname, server_version, (ulong) getpid()); #ifndef EMBEDDED_LIBRARY if (opt_help && !opt_verbose) unireg_abort(0); #endif /*!EMBEDDED_LIBRARY*/ DBUG_PRINT("info",("%s Ver %s for %s on %s\n",my_progname, server_version, SYSTEM_TYPE,MACHINE_TYPE)); #ifdef HAVE_LARGE_PAGES /* Initialize large page size */ if (opt_large_pages && (opt_large_page_size= my_get_large_page_size())) { DBUG_PRINT("info", ("Large page set, large_page_size = %d", opt_large_page_size)); my_use_large_pages= 1; my_large_page_size= opt_large_page_size; } else { opt_large_pages= 0; /* Either not configured to use large pages or Linux haven't been compiled with large page support */ } #endif /* HAVE_LARGE_PAGES */ #ifdef HAVE_SOLARIS_LARGE_PAGES #define LARGE_PAGESIZE (4*1024*1024) /* 4MB */ #define SUPER_LARGE_PAGESIZE (256*1024*1024) /* 256MB */ if (opt_large_pages) { /* tell the kernel that we want to use 4/256MB page for heap storage and also for the stack. We use 4 MByte as default and if the super-large-page is set we increase it to 256 MByte. 256 MByte is for server installations with GBytes of RAM memory where the MySQL Server will have page caches and other memory regions measured in a number of GBytes. We use as big pages as possible which isn't bigger than the above desired page sizes. */ int nelem; size_t max_desired_page_size; if (opt_super_large_pages) max_desired_page_size= SUPER_LARGE_PAGESIZE; else max_desired_page_size= LARGE_PAGESIZE; nelem = getpagesizes(NULL, 0); if (nelem > 0) { size_t *pagesize = (size_t *) malloc(sizeof(size_t) * nelem); if (pagesize != NULL && getpagesizes(pagesize, nelem) > 0) { size_t max_page_size= 0; for (int i= 0; i < nelem; i++) { if (pagesize[i] > max_page_size && pagesize[i] <= max_desired_page_size) max_page_size= pagesize[i]; } free(pagesize); if (max_page_size > 0) { struct memcntl_mha mpss; mpss.mha_cmd= MHA_MAPSIZE_BSSBRK; mpss.mha_pagesize= max_page_size; mpss.mha_flags= 0; memcntl(NULL, 0, MC_HAT_ADVISE, (caddr_t)&mpss, 0, 0); mpss.mha_cmd= MHA_MAPSIZE_STACK; memcntl(NULL, 0, MC_HAT_ADVISE, (caddr_t)&mpss, 0, 0); } } } } #endif /* HAVE_SOLARIS_LARGE_PAGES */ longlong default_value; sys_var *var; /* Calculate and update default value for thread_cache_size. */ if ((default_value= 8 + max_connections / 100) > 100) default_value= 100; var= intern_find_sys_var(STRING_WITH_LEN("thread_cache_size")); var->update_default(default_value); /* Calculate and update default value for host_cache_size. */ if ((default_value= 128 + max_connections) > 628 && (default_value= 628 + ((max_connections - 500) / 20)) > 2000) default_value= 2000; var= intern_find_sys_var(STRING_WITH_LEN("host_cache_size")); var->update_default(default_value); /* Fix thread_cache_size. */ if (!thread_cache_size_specified && (max_blocked_pthreads= 8 + max_connections / 100) > 100) max_blocked_pthreads= 100; /* Fix host_cache_size. */ if (!host_cache_size_specified && (host_cache_size= 128 + max_connections) > 628 && (host_cache_size= 628 + ((max_connections - 500) / 20)) > 2000) host_cache_size= 2000; /* Fix back_log */ if (back_log == 0 && (back_log= 50 + max_connections / 5) > 900) back_log= 900; unireg_init(opt_specialflag); /* Set up extern variabels */ if (!(my_default_lc_messages= my_locale_by_name(lc_messages))) { sql_print_error("Unknown locale: '%s'", lc_messages); return 1; } global_system_variables.lc_messages= my_default_lc_messages; if (init_errmessage()) /* Read error messages from file */ return 1; init_client_errs(); mysql_client_plugin_init(); lex_init(); if (item_create_init()) return 1; item_init(); #ifndef EMBEDDED_LIBRARY my_regex_init(&my_charset_latin1, check_enough_stack_size); my_string_stack_guard= check_enough_stack_size; #else my_regex_init(&my_charset_latin1, NULL); #endif /* Process a comma-separated character set list and choose the first available character set. This is mostly for test purposes, to be able to start "mysqld" even if the requested character set is not available (see bug#18743). */ for (;;) { char *next_character_set_name= strchr(default_character_set_name, ','); if (next_character_set_name) *next_character_set_name++= '\0'; if (!(default_charset_info= get_charset_by_csname(default_character_set_name, MY_CS_PRIMARY, MYF(MY_WME)))) { if (next_character_set_name) { default_character_set_name= next_character_set_name; default_collation_name= 0; // Ignore collation } else return 1; // Eof of the list } else break; } if (default_collation_name) { CHARSET_INFO *default_collation; default_collation= get_charset_by_name(default_collation_name, MYF(0)); if (!default_collation) { #ifdef WITH_PERFSCHEMA_STORAGE_ENGINE buffered_logs.print(); buffered_logs.cleanup(); #endif sql_print_error(ER_DEFAULT(ER_UNKNOWN_COLLATION), default_collation_name); return 1; } if (!my_charset_same(default_charset_info, default_collation)) { sql_print_error(ER_DEFAULT(ER_COLLATION_CHARSET_MISMATCH), default_collation_name, default_charset_info->csname); return 1; } default_charset_info= default_collation; } /* Set collactions that depends on the default collation */ global_system_variables.collation_server= default_charset_info; global_system_variables.collation_database= default_charset_info; if (is_supported_parser_charset(default_charset_info)) { global_system_variables.collation_connection= default_charset_info; global_system_variables.character_set_results= default_charset_info; global_system_variables.character_set_client= default_charset_info; } else { sql_print_information("'%s' can not be used as client character set. " "'%s' will be used as default client character set.", default_charset_info->csname, my_charset_latin1.csname); global_system_variables.collation_connection= &my_charset_latin1; global_system_variables.character_set_results= &my_charset_latin1; global_system_variables.character_set_client= &my_charset_latin1; } if (!(character_set_filesystem= get_charset_by_csname(character_set_filesystem_name, MY_CS_PRIMARY, MYF(MY_WME)))) return 1; global_system_variables.character_set_filesystem= character_set_filesystem; if (!(my_default_lc_time_names= my_locale_by_name(lc_time_names_name))) { sql_print_error("Unknown locale: '%s'", lc_time_names_name); return 1; } global_system_variables.lc_time_names= my_default_lc_time_names; /* check log options and issue warnings if needed */ if (opt_log && opt_logname && !(log_output_options & LOG_FILE) && !(log_output_options & LOG_NONE)) sql_print_warning("Although a path was specified for the " "--general-log-file option, log tables are used. " "To enable logging to files use the --log-output=file option."); if (opt_slow_log && opt_slow_logname && !(log_output_options & LOG_FILE) && !(log_output_options & LOG_NONE)) sql_print_warning("Although a path was specified for the " "--slow-query-log-file option, log tables are used. " "To enable logging to files use the --log-output=file option."); if (!opt_logname || !*opt_logname) opt_logname= make_default_log_name(logname_path, ".log"); if (!opt_slow_logname || !*opt_slow_logname) opt_slow_logname= make_default_log_name(slow_logname_path, "-slow.log"); if (opt_logname && !is_valid_log_name(opt_logname, strlen(opt_logname))) { sql_print_error("Invalid value for --general_log_file: %s", opt_logname); return 1; } if (opt_slow_logname && !is_valid_log_name(opt_slow_logname, strlen(opt_slow_logname))) { sql_print_error("Invalid value for --slow_query_log_file: %s", opt_slow_logname); return 1; } #if defined(ENABLED_DEBUG_SYNC) /* Initialize the debug sync facility. See debug_sync.cc. */ if (debug_sync_init()) return 1; /* purecov: tested */ #endif /* defined(ENABLED_DEBUG_SYNC) */ #if (ENABLE_TEMP_POOL) if (use_temp_pool && bitmap_init(&temp_pool,0,1024,1)) return 1; #else use_temp_pool= 0; #endif if (my_dboptions_cache_init()) return 1; /* Ensure that lower_case_table_names is set on system where we have case insensitive names. If this is not done the users MyISAM tables will get corrupted if accesses with names of different case. */ DBUG_PRINT("info", ("lower_case_table_names: %d", lower_case_table_names)); lower_case_file_system= test_if_case_insensitive(mysql_real_data_home); if (!lower_case_table_names && lower_case_file_system == 1) { if (lower_case_table_names_used) { sql_print_error("The server option 'lower_case_table_names' is " "configured to use case sensitive table names but the " "data directory is on a case-insensitive file system " "which is an unsupported combination. Please consider " "either using a case sensitive file system for your data " "directory or switching to a case-insensitive table name " "mode."); return 1; } else { if (log_warnings) sql_print_warning("Setting lower_case_table_names=2 because file system for %s is case insensitive", mysql_real_data_home); lower_case_table_names= 2; } } else if (lower_case_table_names == 2 && !(lower_case_file_system= (test_if_case_insensitive(mysql_real_data_home) == 1))) { if (log_warnings) sql_print_warning("lower_case_table_names was set to 2, even though your " "the file system '%s' is case sensitive. Now setting " "lower_case_table_names to 0 to avoid future problems.", mysql_real_data_home); lower_case_table_names= 0; } else { lower_case_file_system= (test_if_case_insensitive(mysql_real_data_home) == 1); } /* Reset table_alias_charset, now that lower_case_table_names is set. */ table_alias_charset= (lower_case_table_names ? &my_charset_utf8_tolower_ci : &my_charset_bin); /* Build do_table and ignore_table rules to hush after the resetting of table_alias_charset */ if (rpl_filter->build_do_table_hash() || rpl_filter->build_ignore_table_hash()) { sql_print_error("An error occurred while building do_table" "and ignore_table rules to hush."); return 1; } if (ignore_db_dirs_process_additions()) { sql_print_error("An error occurred while storing ignore_db_dirs to a hash."); return 1; } return 0; } static int init_thread_environment() { mysql_mutex_init(key_LOCK_thread_created, &LOCK_thread_created, MY_MUTEX_INIT_FAST); mysql_mutex_init(key_LOCK_thread_count, &LOCK_thread_count, MY_MUTEX_INIT_FAST); mysql_mutex_init(key_LOCK_status, &LOCK_status, MY_MUTEX_INIT_FAST); mysql_mutex_init(key_LOCK_thd_remove, &LOCK_thd_remove, MY_MUTEX_INIT_FAST); mysql_mutex_init(key_LOCK_delayed_insert, &LOCK_delayed_insert, MY_MUTEX_INIT_FAST); mysql_mutex_init(key_LOCK_delayed_status, &LOCK_delayed_status, MY_MUTEX_INIT_FAST); mysql_mutex_init(key_LOCK_delayed_create, &LOCK_delayed_create, MY_MUTEX_INIT_SLOW); mysql_mutex_init(key_LOCK_manager, &LOCK_manager, MY_MUTEX_INIT_FAST); mysql_mutex_init(key_LOCK_crypt, &LOCK_crypt, MY_MUTEX_INIT_FAST); mysql_mutex_init(key_LOCK_user_conn, &LOCK_user_conn, MY_MUTEX_INIT_FAST); mysql_mutex_init(key_LOCK_active_mi, &LOCK_active_mi, MY_MUTEX_INIT_FAST); mysql_mutex_init(key_LOCK_global_system_variables, &LOCK_global_system_variables, MY_MUTEX_INIT_FAST); mysql_rwlock_init(key_rwlock_LOCK_system_variables_hash, &LOCK_system_variables_hash); mysql_mutex_init(key_LOCK_prepared_stmt_count, &LOCK_prepared_stmt_count, MY_MUTEX_INIT_FAST); mysql_mutex_init(key_LOCK_sql_slave_skip_counter, &LOCK_sql_slave_skip_counter, MY_MUTEX_INIT_FAST); mysql_mutex_init(key_LOCK_slave_net_timeout, &LOCK_slave_net_timeout, MY_MUTEX_INIT_FAST); mysql_mutex_init(key_LOCK_error_messages, &LOCK_error_messages, MY_MUTEX_INIT_FAST); mysql_mutex_init(key_LOCK_uuid_generator, &LOCK_uuid_generator, MY_MUTEX_INIT_FAST); mysql_mutex_init(key_LOCK_sql_rand, &LOCK_sql_rand, MY_MUTEX_INIT_FAST); mysql_mutex_init(key_LOCK_connection_count, &LOCK_connection_count, MY_MUTEX_INIT_FAST); mysql_mutex_init(key_LOCK_log_throttle_qni, &LOCK_log_throttle_qni, MY_MUTEX_INIT_FAST); #ifdef HAVE_OPENSSL mysql_mutex_init(key_LOCK_des_key_file, &LOCK_des_key_file, MY_MUTEX_INIT_FAST); #if OPENSSL_VERSION_NUMBER < 0x10100000L openssl_stdlocks= (openssl_lock_t*) OPENSSL_malloc(CRYPTO_num_locks() * sizeof(openssl_lock_t)); for (int i= 0; i < CRYPTO_num_locks(); ++i) mysql_rwlock_init(key_rwlock_openssl, &openssl_stdlocks[i].lock); CRYPTO_set_dynlock_create_callback(openssl_dynlock_create); CRYPTO_set_dynlock_destroy_callback(openssl_dynlock_destroy); CRYPTO_set_dynlock_lock_callback(openssl_lock); CRYPTO_set_locking_callback(openssl_lock_function); CRYPTO_set_id_callback(openssl_id_function); #endif /* OPENSSL_VERSION_NUMBER < 0x10100000L */ #endif mysql_rwlock_init(key_rwlock_LOCK_sys_init_connect, &LOCK_sys_init_connect); mysql_rwlock_init(key_rwlock_LOCK_sys_init_slave, &LOCK_sys_init_slave); mysql_rwlock_init(key_rwlock_LOCK_grant, &LOCK_grant); mysql_cond_init(key_COND_thread_count, &COND_thread_count, NULL); mysql_cond_init(key_COND_connection_count, &COND_connection_count, NULL); mysql_cond_init(key_COND_thread_cache, &COND_thread_cache, NULL); mysql_cond_init(key_COND_flush_thread_cache, &COND_flush_thread_cache, NULL); mysql_cond_init(key_COND_manager, &COND_manager, NULL); mysql_mutex_init(key_LOCK_server_started, &LOCK_server_started, MY_MUTEX_INIT_FAST); mysql_cond_init(key_COND_server_started, &COND_server_started, NULL); sp_cache_init(); #ifdef HAVE_EVENT_SCHEDULER Events::init_mutexes(); #endif /* Parameter for threads created for connections */ (void) pthread_attr_init(&connection_attrib); (void) pthread_attr_setdetachstate(&connection_attrib, PTHREAD_CREATE_DETACHED); pthread_attr_setscope(&connection_attrib, PTHREAD_SCOPE_SYSTEM); if (pthread_key_create(&THR_THD,NULL) || pthread_key_create(&THR_MALLOC,NULL)) { sql_print_error("Can't create thread-keys"); return 1; } #ifdef WITH_WSREP mysql_mutex_init(key_LOCK_wsrep_ready, &LOCK_wsrep_ready, MY_MUTEX_INIT_FAST); mysql_cond_init(key_COND_wsrep_ready, &COND_wsrep_ready, NULL); mysql_mutex_init(key_LOCK_wsrep_sst, &LOCK_wsrep_sst, MY_MUTEX_INIT_FAST); mysql_cond_init(key_COND_wsrep_sst, &COND_wsrep_sst, NULL); mysql_mutex_init(key_LOCK_wsrep_sst_init, &LOCK_wsrep_sst_init, MY_MUTEX_INIT_FAST); mysql_cond_init(key_COND_wsrep_sst_init, &COND_wsrep_sst_init, NULL); mysql_mutex_init(key_LOCK_wsrep_rollback, &LOCK_wsrep_rollback, MY_MUTEX_INIT_FAST); mysql_cond_init(key_COND_wsrep_rollback, &COND_wsrep_rollback, NULL); mysql_mutex_init(key_LOCK_wsrep_replaying, &LOCK_wsrep_replaying, MY_MUTEX_INIT_FAST); mysql_cond_init(key_COND_wsrep_replaying, &COND_wsrep_replaying, NULL); mysql_mutex_init(key_LOCK_wsrep_slave_threads, &LOCK_wsrep_slave_threads, MY_MUTEX_INIT_FAST); mysql_mutex_init(key_LOCK_wsrep_desync, &LOCK_wsrep_desync, MY_MUTEX_INIT_FAST); #endif return 0; } #if defined(HAVE_OPENSSL) /* OpenSSL 1.1 supports native platform threads, so we don't need the following callback functions. */ #if OPENSSL_VERSION_NUMBER < 0x10100000L static unsigned long openssl_id_function() { return (unsigned long) pthread_self(); } static openssl_lock_t *openssl_dynlock_create(const char *file, int line) { openssl_lock_t *lock= new openssl_lock_t; mysql_rwlock_init(key_rwlock_openssl, &lock->lock); return lock; } static void openssl_dynlock_destroy(openssl_lock_t *lock, const char *file, int line) { mysql_rwlock_destroy(&lock->lock); delete lock; } static void openssl_lock_function(int mode, int n, const char *file, int line) { if (n < 0 || n > CRYPTO_num_locks()) { /* Lock number out of bounds. */ sql_print_error("Fatal: OpenSSL interface problem (n = %d)", n); abort(); } openssl_lock(mode, &openssl_stdlocks[n], file, line); } static void openssl_lock(int mode, openssl_lock_t *lock, const char *file, int line) { int err; char const *what; switch (mode) { case CRYPTO_LOCK|CRYPTO_READ: what = "read lock"; err= mysql_rwlock_rdlock(&lock->lock); break; case CRYPTO_LOCK|CRYPTO_WRITE: what = "write lock"; err= mysql_rwlock_wrlock(&lock->lock); break; case CRYPTO_UNLOCK|CRYPTO_READ: case CRYPTO_UNLOCK|CRYPTO_WRITE: what = "unlock"; err= mysql_rwlock_unlock(&lock->lock); break; default: /* Unknown locking mode. */ sql_print_error("Fatal: OpenSSL interface problem (mode=0x%x)", mode); abort(); } if (err) { sql_print_error("Fatal: can't %s OpenSSL lock", what); abort(); } } #endif /* OPENSSL_VERSION_NUMBER < 0x10100000L */ #endif /* HAVE_OPENSSL */ static int init_ssl() { #ifdef HAVE_OPENSSL #if OPENSSL_VERSION_NUMBER < 0x10100000L || defined(LIBRESSL_VERSION_NUMBER) CRYPTO_malloc_init(); #else /* OPENSSL_VERSION_NUMBER < 0x10100000L */ OPENSSL_malloc_init(); #endif /* OPENSSL_VERSION_NUMBER < 0x10100000L */ ssl_start(); #ifndef EMBEDDED_LIBRARY if (opt_use_ssl) { enum enum_ssl_init_error error= SSL_INITERR_NOERROR; /* having ssl_acceptor_fd != 0 signals the use of SSL */ ssl_acceptor_fd= new_VioSSLAcceptorFd(opt_ssl_key, opt_ssl_cert, opt_ssl_ca, opt_ssl_capath, opt_ssl_cipher, &error, opt_ssl_crl, opt_ssl_crlpath); DBUG_PRINT("info",("ssl_acceptor_fd: 0x%lx", (long) ssl_acceptor_fd)); #if OPENSSL_VERSION_NUMBER < 0x10100000L ERR_remove_thread_state(0); #endif /* OPENSSL_VERSION_NUMBER < 0x10100000L */ if (!ssl_acceptor_fd) { sql_print_warning("Failed to setup SSL"); sql_print_warning("SSL error: %s", sslGetErrString(error)); opt_use_ssl = 0; have_ssl= SHOW_OPTION_DISABLED; } } else { have_ssl= SHOW_OPTION_DISABLED; } #else have_ssl= SHOW_OPTION_DISABLED; #endif /* ! EMBEDDED_LIBRARY */ if (des_key_file) load_des_key_file(des_key_file); if (init_rsa_keys()) return 1; #endif /* HAVE_OPENSSL */ return 0; } static void end_ssl() { #ifdef HAVE_OPENSSL #ifndef EMBEDDED_LIBRARY if (ssl_acceptor_fd) { free_vio_ssl_acceptor_fd(ssl_acceptor_fd); ssl_acceptor_fd= 0; } #endif /* ! EMBEDDED_LIBRARY */ deinit_rsa_keys(); #endif /* HAVE_OPENSSL */ } /** Generate a UUID and save it into server_uuid variable. @return Retur 0 or 1 if an error occurred. */ static int generate_server_uuid() { THD *thd; Item_func_uuid *func_uuid; String uuid; /* To be able to run this from boot, we allocate a temporary THD */ if (!(thd=new THD)) { sql_print_error("Failed to generate a server UUID because it is failed" " to allocate the THD."); return 1; } thd->thread_stack= (char*) &thd; thd->store_globals(); lex_start(thd); func_uuid= new (thd->mem_root) Item_func_uuid(); func_uuid->fixed= 1; func_uuid->val_str(&uuid); delete thd; /* Remember that we don't have a THD */ my_pthread_setspecific_ptr(THR_THD, 0); strncpy(server_uuid, uuid.c_ptr(), UUID_LENGTH); server_uuid[UUID_LENGTH]= '\0'; return 0; } /** Save all options which was auto-generated by server-self into the given file. @param fname The name of the file in which the auto-generated options will b e saved. @return Return 0 or 1 if an error occurred. */ int flush_auto_options(const char* fname) { File fd; IO_CACHE io_cache; int result= 0; if ((fd= my_open((const char *)fname, O_CREAT|O_RDWR, MYF(MY_WME))) < 0) { sql_print_error("Failed to create file(file: '%s', errno %d)", fname, my_errno); return 1; } if (init_io_cache(&io_cache, fd, IO_SIZE*2, WRITE_CACHE, 0L, 0, MYF(MY_WME))) { sql_print_error("Failed to create a cache on (file: %s', errno %d)", fname, my_errno); my_close(fd, MYF(MY_WME)); return 1; } my_b_seek(&io_cache, 0L); my_b_printf(&io_cache, "%s\n", "[auto]"); my_b_printf(&io_cache, "server-uuid=%s\n", server_uuid); if (flush_io_cache(&io_cache) || my_sync(fd, MYF(MY_WME))) result= 1; my_close(fd, MYF(MY_WME)); end_io_cache(&io_cache); return result; } /** File 'auto.cnf' resides in the data directory to hold values of options that server evaluates itself and that needs to be durable to sustain the server restart. There is only a section ['auto'] in the file. All these options are in the section. Only one option exists now, it is server_uuid. Note, the user may not supply any literal value to these auto-options, and only allowed to trigger (re)evaluation. For instance, 'server_uuid' value will be evaluated and stored if there is no corresponding line in the file. Because of the specifics of the auto-options, they need a seperate storage. Meanwhile, it is the 'auto.cnf' that has the same structure as 'my.cnf'. @todo consider to implement sql-query-able persistent storage by WL#5279. @return Return 0 or 1 if an error occurred. */ static int init_server_auto_options() { bool flush= false; char fname[FN_REFLEN]; char *name= (char *)"auto"; const char *groups[]= {"auto", NULL}; char *uuid= 0; my_option auto_options[]= { {"server-uuid", 0, "", &uuid, &uuid, 0, GET_STR, REQUIRED_ARG, 0, 0, 0, 0, 0, 0}, {0, 0, 0, 0, 0, 0, GET_NO_ARG, NO_ARG, 0, 0, 0, 0, 0, 0} }; DBUG_ENTER("init_server_auto_options"); if (NULL == fn_format(fname, "auto.cnf", mysql_data_home, "", MY_UNPACK_FILENAME | MY_SAFE_PATH)) DBUG_RETURN(1); /* load_defaults require argv[0] is not null */ char **argv= &name; int argc= 1; if (!check_file_permissions(fname, false)) { /* Found a world writable file hence removing it as it is dangerous to write a new UUID into the same file. */ my_delete(fname,MYF(MY_WME)); sql_print_warning("World-writable config file '%s' has been removed.\n", fname); } /* load all options in 'auto.cnf'. */ if (my_load_defaults(fname, groups, &argc, &argv, NULL)) DBUG_RETURN(1); /* Record the origial pointer allocated by my_load_defaults for free, because argv will be changed by handle_options */ char **old_argv= argv; if (handle_options(&argc, &argv, auto_options, mysqld_get_one_option)) DBUG_RETURN(1); DBUG_PRINT("info", ("uuid=%p=%s server_uuid=%s", uuid, uuid, server_uuid)); if (uuid) { if (!Uuid::is_valid(uuid)) { sql_print_error("The server_uuid stored in auto.cnf file is not a valid UUID."); goto err; } /* Uuid::is_valid() cannot do strict check on the length as it will be called by GTID::is_valid() as well (GTID = UUID:seq_no). We should explicitly add the *length check* here in this function. If UUID length is less than '36' (UUID_LENGTH), that error case would have got caught in above is_valid check. The below check is to make sure that length is not greater than UUID_LENGTH i.e., there are no extra characters (Garbage) at the end of the valid UUID. */ if (strlen(uuid) > UUID_LENGTH) { sql_print_error("Garbage characters found at the end of the server_uuid " "value in auto.cnf file. It should be of length '%d' " "(UUID_LENGTH). Clear it and restart the server. ", UUID_LENGTH); goto err; } strcpy(server_uuid, uuid); } else { DBUG_PRINT("info", ("generating server_uuid")); flush= TRUE; /* server_uuid will be set in the function */ if (generate_server_uuid()) goto err; DBUG_PRINT("info", ("generated server_uuid=%s", server_uuid)); sql_print_warning("No existing UUID has been found, so we assume that this" " is the first time that this server has been started." " Generating a new UUID: %s.", server_uuid); } /* The uuid has been copied to server_uuid, so the memory allocated by my_load_defaults can be freed now. */ free_defaults(old_argv); if (flush) DBUG_RETURN(flush_auto_options(fname)); DBUG_RETURN(0); err: free_defaults(argv); DBUG_RETURN(1); } static bool initialize_storage_engine(char *se_name, const char *se_kind, plugin_ref *dest_plugin) { LEX_STRING name= { se_name, strlen(se_name) }; plugin_ref plugin; handlerton *hton; if ((plugin= ha_resolve_by_name(0, &name, FALSE))) hton= plugin_data(plugin, handlerton*); else { sql_print_error("Unknown/unsupported storage engine: %s", se_name); return true; } if (!ha_storage_engine_is_enabled(hton)) { if (!opt_bootstrap) { sql_print_error("Default%s storage engine (%s) is not available", se_kind, se_name); return true; } DBUG_ASSERT(*dest_plugin); } else { /* Need to unlock as global_system_variables.table_plugin was acquired during plugin_init() */ plugin_ref old_dest_plugin = *dest_plugin; *dest_plugin = plugin; plugin_unlock(0, old_dest_plugin); } return false; } static int init_server_components() { DBUG_ENTER("init_server_components"); /* We need to call each of these following functions to ensure that all things are initialized so that unireg_abort() doesn't fail */ mdl_init(); if (table_def_init() | hostname_cache_init(host_cache_size)) unireg_abort(1); query_cache_set_min_res_unit(query_cache_min_res_unit); query_cache_init(); query_cache_resize(query_cache_size); randominit(&sql_rand,(ulong) server_start_time,(ulong) server_start_time/2); setup_fpu(); init_thr_lock(); #ifdef HAVE_REPLICATION init_slave_list(); #endif /* Setup logs */ /* Enable old-fashioned error log, except when the user has requested help information. Since the implementation of plugin server variables the help output is now written much later. */ if (opt_error_log && !opt_help) { if (!log_error_file_ptr[0]) fn_format(log_error_file, pidfile_name, mysql_data_home, ".err", MY_REPLACE_EXT); /* replace '.' by '.err', bug#4997 */ else fn_format(log_error_file, log_error_file_ptr, mysql_data_home, ".err", MY_UNPACK_FILENAME | MY_SAFE_PATH); /* _ptr may have been set to my_disabled_option or "" if no argument was passed, but we need to show the real name in SHOW VARIABLES: */ log_error_file_ptr= log_error_file; if (!log_error_file[0]) opt_error_log= 0; // Too long file name else { my_bool res; #ifndef EMBEDDED_LIBRARY res= reopen_fstreams(log_error_file, stdout, stderr); #else res= reopen_fstreams(log_error_file, NULL, stderr); #endif if (!res) setbuf(stderr, NULL); } } proc_info_hook= set_thd_stage_info; /* Parsing the performance schema command line option and adjusting the values for options such as "open_files_limit", "max_connections", and "table_cache_size" may have reported warnings/information messages. Now that the logger is finally available, and redirected to the proper file when the --log--error option is used, print the buffered messages to the log. */ buffered_logs.print(); buffered_logs.cleanup(); /* Now that the logger is available, redirect character set errors directly to the logger (instead of the buffered_logs used at the server startup time). */ my_charset_error_reporter= charset_error_reporter; if (xid_cache_init()) { sql_print_error("Out of memory"); unireg_abort(1); } /* initialize delegates for extension observers, errors have already been reported in the function */ if (delegates_init()) unireg_abort(1); /* need to configure logging before initializing storage engines */ if (opt_log_slave_updates && !opt_bin_log) { sql_print_warning("You need to use --log-bin to make " "--log-slave-updates work."); } #ifdef WITH_WSREP if (!WSREP_ON && binlog_format_used && !opt_bin_log) #else if (binlog_format_used && !opt_bin_log) #endif sql_print_warning("You need to use --log-bin to make " "--binlog-format work."); /* Check that we have not let the format to unspecified at this point */ DBUG_ASSERT((uint)global_system_variables.binlog_format <= array_elements(binlog_format_names)-1); #ifdef HAVE_REPLICATION if (opt_log_slave_updates && replicate_same_server_id) { if (opt_bin_log) { sql_print_error("using --replicate-same-server-id in conjunction with \ --log-slave-updates is impossible, it would lead to infinite loops in this \ server."); unireg_abort(1); } else sql_print_warning("using --replicate-same-server-id in conjunction with \ --log-slave-updates would lead to infinite loops in this server. However this \ will be ignored as the --log-bin option is not defined."); } #endif opt_server_id_mask = ~ulong(0); #ifdef HAVE_REPLICATION opt_server_id_mask = (opt_server_id_bits == 32)? ~ ulong(0) : (1 << opt_server_id_bits) -1; if (server_id != (server_id & opt_server_id_mask)) { sql_print_error("server-id configured is too large to represent with" "server-id-bits configured."); unireg_abort(1); } #endif if (opt_bin_log) { /* Reports an error and aborts, if the --log-bin's path is a directory.*/ if (opt_bin_logname && opt_bin_logname[strlen(opt_bin_logname) - 1] == FN_LIBCHAR) { sql_print_error("Path '%s' is a directory name, please specify \ a file name for --log-bin option", opt_bin_logname); unireg_abort(1); } /* Reports an error and aborts, if the --log-bin-index's path is a directory.*/ if (opt_binlog_index_name && opt_binlog_index_name[strlen(opt_binlog_index_name) - 1] == FN_LIBCHAR) { sql_print_error("Path '%s' is a directory name, please specify \ a file name for --log-bin-index option", opt_binlog_index_name); unireg_abort(1); } char buf[FN_REFLEN]; const char *ln; ln= mysql_bin_log.generate_name(opt_bin_logname, "-bin", 1, buf); if (!opt_bin_logname && !opt_binlog_index_name) { /* User didn't give us info to name the binlog index file. Picking `hostname`-bin.index like did in 4.x, causes replication to fail if the hostname is changed later. So, we would like to instead require a name. But as we don't want to break many existing setups, we only give warning, not error. */ sql_print_warning("No argument was provided to --log-bin, and " "--log-bin-index was not used; so replication " "may break when this MySQL server acts as a " "master and has his hostname changed!! Please " "use '--log-bin=%s' to avoid this problem.", ln); } if (ln == buf) { my_free(opt_bin_logname); opt_bin_logname=my_strdup(buf, MYF(0)); } #ifdef WITH_WSREP /* WSREP BEFORE SE */ /* Wsrep initialization must happen at this point, because: - opt_bin_logname must be known when starting replication since SST may need it - SST may modify binlog index file, so it must be opened after SST has happened */ } /* It's now safe to use thread specific memory */ mysqld_server_initialized= 1; if (!wsrep_recovery) { if (opt_bootstrap) // bootsrap option given - disable wsrep functionality { wsrep_provider_init(WSREP_NONE); if (wsrep_init()) unireg_abort(1); } else // full wsrep initialization { // add basedir/bin to PATH to resolve wsrep script names char* const tmp_path((char*)alloca(strlen(mysql_home) + strlen("/bin") + 1)); if (tmp_path) { strcpy(tmp_path, mysql_home); strcat(tmp_path, "/bin"); wsrep_prepend_PATH(tmp_path); } else { WSREP_ERROR("Could not append %s/bin to PATH", mysql_home); } if (wsrep_before_SE()) { set_ports(); // this is also called in network_init() later but we need // to know mysqld_port now - lp:1071882 wsrep_init_startup(true); } } } if (opt_bin_log) { /* Variable ln is not defined at this scope. We use opt_bin_logname instead. It should be the same as ln since - mysql_bin_log.generate_name() returns first argument if new log name is not generated - if new log name is generated, return value is assigned to ln and copied to opt_bin_logname above */ if (mysql_bin_log.open_index_file(opt_binlog_index_name, opt_bin_logname, TRUE)) { unireg_abort(1); } #else if (mysql_bin_log.open_index_file(opt_binlog_index_name, ln, TRUE)) { unireg_abort(1); } #endif /* WITH_WSREP */ } if (opt_bin_log) { log_bin_basename= rpl_make_log_name(opt_bin_logname, pidfile_name, opt_bin_logname ? "" : "-bin"); log_bin_index= rpl_make_log_name(opt_binlog_index_name, log_bin_basename, ".index"); if (log_bin_basename == NULL || log_bin_index == NULL) { sql_print_error("Unable to create replication path names:" " out of memory or path names too long" " (path name exceeds " STRINGIFY_ARG(FN_REFLEN) " or file name exceeds " STRINGIFY_ARG(FN_LEN) ")."); unireg_abort(1); } } #ifndef EMBEDDED_LIBRARY DBUG_PRINT("debug", ("opt_bin_logname: %s, opt_relay_logname: %s, pidfile_name: %s", opt_bin_logname, opt_relay_logname, pidfile_name)); if (opt_relay_logname) { relay_log_basename= rpl_make_log_name(opt_relay_logname, pidfile_name, opt_relay_logname ? "" : "-relay-bin"); relay_log_index= rpl_make_log_name(opt_relaylog_index_name, relay_log_basename, ".index"); if (relay_log_basename == NULL || relay_log_index == NULL) { sql_print_error("Unable to create replication path names:" " out of memory or path names too long" " (path name exceeds " STRINGIFY_ARG(FN_REFLEN) " or file name exceeds " STRINGIFY_ARG(FN_LEN) ")."); unireg_abort(1); } } #endif /* !EMBEDDED_LIBRARY */ /* call ha_init_key_cache() on all key caches to init them */ process_key_caches(&ha_init_key_cache); /* Allow storage engine to give real error messages */ if (ha_init_errors()) DBUG_RETURN(1); if (opt_ignore_builtin_innodb) sql_print_warning("ignore-builtin-innodb is ignored " "and will be removed in future releases."); if (gtid_server_init()) { sql_print_error("Failed to initialize GTID structures."); unireg_abort(1); } #ifdef WITH_WSREP if (plugin_init(&remaining_argc, remaining_argv, (opt_noacl ? PLUGIN_INIT_SKIP_PLUGIN_TABLE : 0) | (opt_help ? PLUGIN_INIT_SKIP_INITIALIZATION : 0))) { sql_print_error("Failed to initialize plugins."); unireg_abort(1); } plugins_are_initialized= TRUE; /* Don't separate from init function */ #endif /* WITH_WSREP */ /* we do want to exit if there are any other unknown options */ if (remaining_argc > 1) { int ho_error; struct my_option no_opts[]= { {0, 0, 0, 0, 0, 0, GET_NO_ARG, NO_ARG, 0, 0, 0, 0, 0, 0} }; /* We need to eat any 'loose' arguments first before we conclude that there are unprocessed options. */ my_getopt_skip_unknown= 0; if ((ho_error= handle_options(&remaining_argc, &remaining_argv, no_opts, mysqld_get_one_option))) unireg_abort(ho_error); /* Add back the program name handle_options removes */ remaining_argc++; remaining_argv--; my_getopt_skip_unknown= TRUE; if (remaining_argc > 1) { fprintf(stderr, "%s: Too many arguments (first extra is '%s').\n" "Use --verbose --help to get a list of available options\n", my_progname, remaining_argv[1]); unireg_abort(1); } } if (opt_help) unireg_abort(0); /* if the errmsg.sys is not loaded, terminate to maintain behaviour */ if (!DEFAULT_ERRMSGS[0][0]) unireg_abort(1); /* We have to initialize the storage engines before CSV logging */ if (ha_init()) { sql_print_error("Can't init databases"); unireg_abort(1); } #ifdef WITH_CSV_STORAGE_ENGINE if (opt_bootstrap) log_output_options= LOG_FILE; else logger.init_log_tables(); if (log_output_options & LOG_NONE) { /* Issue a warining if there were specified additional options to the log-output along with NONE. Probably this wasn't what user wanted. */ if ((log_output_options & LOG_NONE) && (log_output_options & ~LOG_NONE)) sql_print_warning("There were other values specified to " "log-output besides NONE. Disabling slow " "and general logs anyway."); logger.set_handlers(LOG_FILE, LOG_NONE, LOG_NONE); } else { /* fall back to the log files if tables are not present */ LEX_STRING csv_name={C_STRING_WITH_LEN("csv")}; if (!plugin_is_ready(&csv_name, MYSQL_STORAGE_ENGINE_PLUGIN)) { /* purecov: begin inspected */ sql_print_error("CSV engine is not present, falling back to the " "log files"); log_output_options= (log_output_options & ~LOG_TABLE) | LOG_FILE; /* purecov: end */ } logger.set_handlers(LOG_FILE, opt_slow_log ? log_output_options:LOG_NONE, opt_log ? log_output_options:LOG_NONE); } #else logger.set_handlers(LOG_FILE, opt_slow_log ? LOG_FILE:LOG_NONE, opt_log ? LOG_FILE:LOG_NONE); #endif /* Set the default storage engines */ if (initialize_storage_engine(default_storage_engine, "", &global_system_variables.table_plugin)) unireg_abort(1); if (initialize_storage_engine(default_tmp_storage_engine, " temp", &global_system_variables.temp_table_plugin)) unireg_abort(1); #ifdef WITH_WSREP if (!opt_bin_log) { wsrep_emulate_bin_log= 1; } #endif if (total_ha_2pc > 1 || (1 == total_ha_2pc && opt_bin_log)) { if (opt_bin_log) tc_log= &mysql_bin_log; else #ifdef WITH_WSREP if (WSREP_ON) tc_log= &tc_log_dummy; else /* * wsrep hton grows total_ha_2pc count to 2, even in native mysql mode. * Have to force using tc_log_dummy here, as tc_log_mmap segfaults */ tc_log= &tc_log_dummy; #else tc_log= &tc_log_mmap; #endif /* WITH_WSREP */ } else tc_log= &tc_log_dummy; #ifdef WITH_WSREP WSREP_DEBUG("Initial TC log open: %s", (tc_log == &mysql_bin_log) ? "binlog" : (tc_log == &tc_log_mmap) ? "mmap" : (tc_log == &tc_log_dummy) ? "dummy" : "unknown" ); #endif if (tc_log->open(opt_bin_log ? opt_bin_logname : opt_tc_log_file)) { sql_print_error("Can't init tc log"); unireg_abort(1); } if (ha_recover(0)) { unireg_abort(1); } if (gtid_mode >= 1 && opt_bootstrap) { sql_print_warning("Bootstrap mode disables GTIDs. Bootstrap mode " "should only be used by mysql_install_db which initializes the MySQL " "data directory and creates system tables."); gtid_mode= 0; } if (gtid_mode >= 1 && !(opt_bin_log && opt_log_slave_updates)) { sql_print_error("--gtid-mode=ON or UPGRADE_STEP_1 or UPGRADE_STEP_2 requires --log-bin and --log-slave-updates"); unireg_abort(1); } if (gtid_mode >= 2 && !enforce_gtid_consistency) { sql_print_error("--gtid-mode=ON or UPGRADE_STEP_1 requires --enforce-gtid-consistency"); unireg_abort(1); } if (gtid_mode == 1 || gtid_mode == 2) { sql_print_error("--gtid-mode=UPGRADE_STEP_1 or --gtid-mode=UPGRADE_STEP_2 are not yet supported"); unireg_abort(1); } if (opt_bin_log) { /* Configures what object is used by the current log to store processed gtid(s). This is necessary in the MYSQL_BIN_LOG::MYSQL_BIN_LOG to corretly compute the set of previous gtids. */ mysql_bin_log.set_previous_gtid_set( const_cast(gtid_state->get_logged_gtids())); if (mysql_bin_log.open_binlog(opt_bin_logname, 0, WRITE_CACHE, max_binlog_size, false, true/*need_lock_log=true*/, true/*need_lock_index=true*/, true/*need_sid_lock=true*/, NULL)) unireg_abort(1); } #ifdef HAVE_REPLICATION if (opt_bin_log && expire_logs_days) { time_t purge_time= server_start_time - expire_logs_days*24*60*60; if (purge_time >= 0) mysql_bin_log.purge_logs_before_date(purge_time, true); } #endif if (opt_myisam_log) (void) mi_log(1); #if defined(HAVE_MLOCKALL) && defined(MCL_CURRENT) && !defined(EMBEDDED_LIBRARY) if (locked_in_memory && !getuid()) { if (setreuid((uid_t)-1, 0) == -1) { // this should never happen sql_perror("setreuid"); unireg_abort(1); } if (mlockall(MCL_CURRENT)) { if (log_warnings) sql_print_warning("Failed to lock memory. Errno: %d\n",errno); locked_in_memory= 0; } if (user_info) set_user(mysqld_user, user_info); } else #endif locked_in_memory=0; ft_init_stopwords(); init_max_user_conn(); init_update_queries(); DBUG_RETURN(0); } #ifndef EMBEDDED_LIBRARY static void create_shutdown_thread() { #ifdef __WIN__ hEventShutdown=CreateEvent(0, FALSE, FALSE, shutdown_event_name); pthread_t hThread; int error; if ((error= mysql_thread_create(key_thread_handle_shutdown, &hThread, &connection_attrib, handle_shutdown, 0))) sql_print_warning("Can't create thread to handle shutdown requests" " (errno= %d)", error); // On "Stop Service" we have to do regular shutdown Service.SetShutdownEvent(hEventShutdown); #endif /* __WIN__ */ } #endif /* EMBEDDED_LIBRARY */ #ifdef WITH_WSREP pthread_handler_t start_wsrep_THD(void *arg) { THD *thd; wsrep_thd_processor_fun processor= (wsrep_thd_processor_fun)arg; if (my_thread_init()) { WSREP_ERROR("Could not initialize thread"); return(NULL); } if (!(thd= new THD(true, true))) { return(NULL); } mysql_mutex_lock(&LOCK_thread_count); thd->thread_id=thread_id++; thd->real_id=pthread_self(); // Keep purify happy add_global_thread(thd); thread_created++; my_net_init(&thd->net,(st_vio*) 0); DBUG_PRINT("wsrep",(("creating thread %lld"), (long long)thd->thread_id)); thd->prior_thr_create_utime= thd->start_utime= my_micro_time(); (void) mysql_mutex_unlock(&LOCK_thread_count); /* from bootstrap()... */ thd->bootstrap=1; thd->max_client_packet_length= thd->net.max_packet; thd->security_ctx->master_access= ~(ulong)0; /* from handle_one_connection... */ pthread_detach_this_thread(); mysql_thread_set_psi_id(thd->thread_id); thd->thr_create_utime= my_micro_time(); if (MYSQL_CALLBACK_ELSE(thread_scheduler, init_new_connection_thread, (), 0)) { close_connection(thd, ER_OUT_OF_RESOURCES, 1); statistic_increment(aborted_connects,&LOCK_status); MYSQL_CALLBACK(thread_scheduler, end_thread, (thd, 0)); return(NULL); } /* now that we've called my_thread_init(), it is safe to call DBUG_* */ thd->thread_stack= (char*) &thd; if (thd->store_globals()) { close_connection(thd, ER_OUT_OF_RESOURCES, 1); statistic_increment(aborted_connects,&LOCK_status); MYSQL_CALLBACK(thread_scheduler, end_thread, (thd, 0)); delete thd; return(NULL); } /* from handle_bootstrap() */ thd->system_thread= SYSTEM_THREAD_SLAVE_SQL; thd->security_ctx->skip_grants(); /* handle_one_connection() again... */ //thd->version= refresh_version; thd->proc_info= 0; thd->set_command(COM_SLEEP); thd->set_time(); thd->init_for_queries(); mysql_mutex_lock(&LOCK_thread_count); wsrep_running_threads++; mysql_cond_broadcast(&COND_thread_count); mysql_mutex_unlock(&LOCK_thread_count); mysql_mutex_lock(&LOCK_connection_count); ++connection_count; mysql_mutex_unlock(&LOCK_connection_count); processor(thd); close_connection(thd, 0, 1); mysql_mutex_lock(&LOCK_thread_count); wsrep_running_threads--; WSREP_DEBUG("wsrep running threads now: %lu", wsrep_running_threads); mysql_cond_broadcast(&COND_thread_count); mysql_mutex_unlock(&LOCK_thread_count); // Note: We can't call THD destructor without crashing // if plugins have not been initialized. However, in most of the // cases this means that pre SE initialization SST failed and // we are going to exit anyway. if (plugins_are_initialized) { net_end(&thd->net); MYSQL_CALLBACK(thread_scheduler, end_thread, (thd, 1)); } else { // TODO: lightweight cleanup to get rid of: // 'Error in my_thread_global_end(): 2 threads didn't exit' // at server shutdown } return(NULL); } /**/ static bool abort_replicated(THD *thd) { bool ret_code= false; if (thd->wsrep_query_state== QUERY_COMMITTING) { if (wsrep_debug) WSREP_INFO("aborting replicated trx: %ju", (uintmax_t)thd->real_id); (void)wsrep_abort_thd(thd, thd, TRUE); ret_code= true; } return ret_code; } /**/ static inline bool is_client_connection(THD *thd) { #if REMOVE // REMOVE THIS LATER (lp:777201). Below we had to add an explicit check for // wsrep_applier since wsrep_exec_mode didn't seem to always work if (thd->wsrep_applier && thd->wsrep_exec_mode != REPL_RECV) WSREP_WARN("applier has wsrep_exec_mode = %d", thd->wsrep_exec_mode); if ( thd->slave_thread || /* declared as mysql slave */ thd->system_thread || /* declared as system thread */ !thd->vio_ok() || /* server internal thread */ thd->wsrep_exec_mode==REPL_RECV || /* applier or replaying thread */ thd->wsrep_applier || /* wsrep slave applier */ !thd->variables.wsrep_on) /* client, but fenced outside wsrep */ return false; return true; #else return (thd->wsrep_client_thread && thd->variables.wsrep_on); #endif /* REMOVE */ } static inline bool is_replaying_connection(THD *thd) { bool ret; mysql_mutex_lock(&thd->LOCK_wsrep_thd); ret= (thd->wsrep_conflict_state == REPLAYING) ? true : false; mysql_mutex_unlock(&thd->LOCK_wsrep_thd); return ret; } static inline bool is_committing_connection(THD *thd) { bool ret; mysql_mutex_lock(&thd->LOCK_wsrep_thd); ret= (thd->wsrep_query_state == QUERY_COMMITTING) ? true : false; mysql_mutex_unlock(&thd->LOCK_wsrep_thd); return ret; } static bool have_client_connections() { Thread_iterator it= global_thread_list->begin(); for (; it != global_thread_list->end(); ++it) { THD *tmp= *it; DBUG_PRINT("quit",("Informing thread %ld that it's time to die", tmp->thread_id)); if (is_client_connection(tmp) && tmp->killed == THD::KILL_CONNECTION) { (void)abort_replicated(tmp); return true; } } return false; } /* returns the number of wsrep appliers running. However, the caller (thd parameter) is not taken in account */ static int have_wsrep_appliers(THD *thd) { int ret= 0; Thread_iterator it= global_thread_list->begin(); for (; it != global_thread_list->end(); ++it) { THD *tmp= *it; ret+= (tmp != thd && tmp->wsrep_applier); } return ret; } static void wsrep_close_thread(THD *thd) { thd->killed= THD::KILL_CONNECTION; MYSQL_CALLBACK(thread_scheduler, post_kill_notification, (thd)); if (thd->mysys_var) { thd->mysys_var->abort=1; mysql_mutex_lock(&thd->mysys_var->mutex); if (thd->mysys_var->current_cond) { mysql_mutex_lock(thd->mysys_var->current_mutex); mysql_cond_broadcast(thd->mysys_var->current_cond); mysql_mutex_unlock(thd->mysys_var->current_mutex); } mysql_mutex_unlock(&thd->mysys_var->mutex); } } static my_bool have_committing_connections() { Thread_iterator it= global_thread_list->begin(); for (; it != global_thread_list->end(); ++it) { THD *tmp= *it; if (!is_client_connection(tmp)) continue; if (is_committing_connection(tmp)) { return TRUE; } } return FALSE; } int wsrep_wait_committing_connections_close(int wait_time) { int sleep_time= 100; while (have_committing_connections() && wait_time > 0) { WSREP_DEBUG("wait for committing transaction to close: %d", wait_time); my_sleep(sleep_time); wait_time -= sleep_time; } if (have_committing_connections()) { return 1; } return 0; } void wsrep_close_client_connections(my_bool wait_to_end) { /* First signal all threads that it's time to die */ /* Kill blocked pthreads */ kill_blocked_pthreads_flag++; kill_blocked_pthreads(); mysql_mutex_lock(&LOCK_thread_count); // For unlink from list Thread_iterator it= global_thread_list->begin(); for (; it != global_thread_list->end(); ++it) { THD *tmp= *it; DBUG_PRINT("quit",("Informing thread %ld that it's time to die", tmp->thread_id)); /* We skip slave threads & scheduler on this first loop through. */ if (!is_client_connection(tmp)) continue; if (is_replaying_connection(tmp)) { tmp->killed= THD::KILL_CONNECTION; continue; } /* replicated transactions must be skipped */ if (abort_replicated(tmp)) continue; WSREP_DEBUG("closing connection %ld", tmp->thread_id); wsrep_close_thread(tmp); } mysql_mutex_unlock(&LOCK_thread_count); if (get_thread_count() > 0) sleep(2); // Give threads time to die mysql_mutex_lock(&LOCK_thread_count); /* Force remaining threads to die by closing the connection to the client */ for (it= global_thread_list->begin(); it != global_thread_list->end(); ++it) { THD *tmp= *it; #ifndef __bsdi__ // Bug in BSDI kernel if (is_client_connection(tmp) && !abort_replicated(tmp) && !is_replaying_connection(tmp)) { WSREP_INFO("killing local connection: %ld",tmp->thread_id); close_connection(tmp,0,0); } #endif } DBUG_PRINT("quit",("Waiting for threads to die (count=%u)", get_thread_count())); if (wsrep_debug) WSREP_INFO("waiting for client connections to close: %u", get_thread_count()); while (wait_to_end && have_client_connections()) { mysql_cond_wait(&COND_thread_count, &LOCK_thread_count); DBUG_PRINT("quit",("One thread died (count=%u)", get_thread_count())); } mysql_mutex_unlock(&LOCK_thread_count); /* All client connection threads have now been aborted */ } void wsrep_close_applier(THD *thd) { WSREP_DEBUG("closing applier %ld", thd->thread_id); wsrep_close_thread(thd); } static void wsrep_close_threads(THD *thd) { mysql_mutex_lock(&LOCK_thread_count); // For unlink from list Thread_iterator it= global_thread_list->begin(); for (; it != global_thread_list->end(); ++it) { THD *tmp= *it; DBUG_PRINT("quit",("Informing thread %ld that it's time to die", tmp->thread_id)); /* We skip slave threads & scheduler on this first loop through. */ if (tmp->wsrep_applier && tmp != thd) { WSREP_DEBUG("closing wsrep thread %ld", tmp->thread_id); wsrep_close_thread (tmp); } } mysql_mutex_unlock(&LOCK_thread_count); } void wsrep_close_applier_threads(int count) { mysql_mutex_lock(&LOCK_thread_count); // For unlink from list Thread_iterator it= global_thread_list->begin(); for (; it != global_thread_list->end(); ++it) { THD *tmp= *it; DBUG_PRINT("quit",("Informing thread %ld that it's time to die", tmp->thread_id)); /* We skip slave threads & scheduler on this first loop through. */ if (tmp->wsrep_applier) { WSREP_DEBUG("closing wsrep applier thread %ld", tmp->thread_id); tmp->wsrep_applier_closing= TRUE; count--; } } mysql_mutex_unlock(&LOCK_thread_count); } void wsrep_wait_appliers_close(THD *thd) { /* Wait for wsrep appliers to gracefully exit */ mysql_mutex_lock(&LOCK_thread_count); while (have_wsrep_appliers(thd) > 1) // 1 is for rollbacker thread which needs to be killed explicitly. // This gotta be fixed in a more elegant manner if we gonna have arbitrary // number of non-applier wsrep threads. { mysql_cond_wait(&COND_thread_count,&LOCK_thread_count); DBUG_PRINT("quit",("One applier died (count=%u)", get_thread_count())); } mysql_mutex_unlock(&LOCK_thread_count); /* Now kill remaining wsrep threads: rollbacker */ wsrep_close_threads (thd); /* and wait for them to die */ mysql_mutex_lock(&LOCK_thread_count); while (have_wsrep_appliers(thd) > 0) { mysql_cond_wait(&COND_thread_count,&LOCK_thread_count); DBUG_PRINT("quit",("One thread died (count=%u)", get_thread_count())); } mysql_mutex_unlock(&LOCK_thread_count); /* All wsrep applier threads have now been aborted. However, if this thread is also applier, we are still running... */ } void wsrep_kill_mysql(THD *thd) { if (mysqld_server_started) { if (!shutdown_in_progress) { WSREP_INFO("starting shutdown"); kill_mysql(); } } else { unireg_abort(1); } } #endif /* WITH_WSREP */ #if (defined(_WIN32) || defined(HAVE_SMEM)) && !defined(EMBEDDED_LIBRARY) static void handle_connections_methods() { pthread_t hThread; int error; DBUG_ENTER("handle_connections_methods"); if (hPipe == INVALID_HANDLE_VALUE && (!have_tcpip || opt_disable_networking) && !opt_enable_shared_memory) { sql_print_error("TCP/IP, --shared-memory, or --named-pipe should be configured on NT OS"); unireg_abort(1); // Will not return } mysql_mutex_lock(&LOCK_thread_count); mysql_cond_init(key_COND_handler_count, &COND_handler_count, NULL); handler_count=0; mysql_rwlock_init(key_rwlock_LOCK_named_pipe_full_access_group, &LOCK_named_pipe_full_access_group); if (hPipe != INVALID_HANDLE_VALUE) { handler_count++; if ((error= mysql_thread_create(key_thread_handle_con_namedpipes, &hThread, &connection_attrib, handle_connections_namedpipes, 0))) { sql_print_warning("Can't create thread to handle named pipes" " (errno= %d)", error); handler_count--; } } if (have_tcpip && !opt_disable_networking) { handler_count++; if ((error= mysql_thread_create(key_thread_handle_con_sockets, &hThread, &connection_attrib, handle_connections_sockets_thread, 0))) { sql_print_warning("Can't create thread to handle TCP/IP", " (errno= %d)", error); handler_count--; } } #ifdef HAVE_SMEM if (opt_enable_shared_memory) { handler_count++; if ((error= mysql_thread_create(key_thread_handle_con_sharedmem, &hThread, &connection_attrib, handle_connections_shared_memory, 0))) { sql_print_warning("Can't create thread to handle shared memory", " (errno= %d)", error); handler_count--; } } #endif while (handler_count > 0) mysql_cond_wait(&COND_handler_count, &LOCK_thread_count); mysql_mutex_unlock(&LOCK_thread_count); DBUG_VOID_RETURN; } void decrement_handler_count() { mysql_mutex_lock(&LOCK_thread_count); handler_count--; mysql_cond_signal(&COND_handler_count); mysql_mutex_unlock(&LOCK_thread_count); my_thread_end(); } #else #define decrement_handler_count() #endif /* defined(_WIN32) || defined(HAVE_SMEM) */ #ifndef EMBEDDED_LIBRARY #ifndef DBUG_OFF /* Debugging helper function to keep the locale database (see sql_locale.cc) and max_month_name_length and max_day_name_length variable values in consistent state. */ static void test_lc_time_sz() { DBUG_ENTER("test_lc_time_sz"); for (MY_LOCALE **loc= my_locales; *loc; loc++) { uint max_month_len= 0; uint max_day_len = 0; for (const char **month= (*loc)->month_names->type_names; *month; month++) { set_if_bigger(max_month_len, my_numchars_mb(&my_charset_utf8_general_ci, *month, *month + strlen(*month))); } for (const char **day= (*loc)->day_names->type_names; *day; day++) { set_if_bigger(max_day_len, my_numchars_mb(&my_charset_utf8_general_ci, *day, *day + strlen(*day))); } if ((*loc)->max_month_name_length != max_month_len || (*loc)->max_day_name_length != max_day_len) { DBUG_PRINT("Wrong max day name(or month name) length for locale:", ("%s", (*loc)->name)); DBUG_ASSERT(0); } } DBUG_VOID_RETURN; } #endif//DBUG_OFF #ifdef __WIN__ int win_main(int argc, char **argv) #else int mysqld_main(int argc, char **argv) #endif { /* Perform basic thread library and malloc initialization, to be able to read defaults files and parse options. */ my_progname= argv[0]; #ifndef _WIN32 // For windows, my_init() is called from the win specific mysqld_main if (my_init()) // init my_sys library & pthreads { fprintf(stderr, "my_init() failed."); return 1; } #endif #ifdef WITH_WSREP mysqld_server_initialized= 0; wsrep_filter_new_cluster (&argc, argv); #endif /* WITH_WSREP */ orig_argc= argc; orig_argv= argv; my_getopt_use_args_separator= TRUE; my_defaults_read_login_file= FALSE; if (load_defaults(MYSQL_CONFIG_NAME, load_default_groups, &argc, &argv)) return 1; my_getopt_use_args_separator= FALSE; defaults_argc= argc; defaults_argv= argv; remaining_argc= argc; remaining_argv= argv; /* Must be initialized early for comparison of options name */ system_charset_info= &my_charset_utf8_general_ci; init_sql_statement_names(); sys_var_init(); int ho_error; #ifdef WITH_PERFSCHEMA_STORAGE_ENGINE /* Initialize the array of performance schema instrument configurations. */ init_pfs_instrument_array(); #endif /* WITH_PERFSCHEMA_STORAGE_ENGINE */ ho_error= handle_early_options(); { ulong requested_open_files; adjust_related_options(&requested_open_files); #ifdef WITH_PERFSCHEMA_STORAGE_ENGINE if (ho_error == 0) { if (pfs_param.m_enabled && !opt_help && !opt_bootstrap) { /* Add sizing hints from the server sizing parameters. */ pfs_param.m_hints.m_table_definition_cache= table_def_size; pfs_param.m_hints.m_table_open_cache= table_cache_size; pfs_param.m_hints.m_max_connections= max_connections; pfs_param.m_hints.m_open_files_limit= requested_open_files; PSI_hook= initialize_performance_schema(&pfs_param); if (PSI_hook == NULL) { pfs_param.m_enabled= false; buffered_logs.buffer(WARNING_LEVEL, "Performance schema disabled (reason: init failed)."); } } } #else /* Other provider of the instrumentation interface should initialize PSI_hook here: - HAVE_PSI_INTERFACE is for the instrumentation interface - WITH_PERFSCHEMA_STORAGE_ENGINE is for one implementation of the interface, but there could be alternate implementations, which is why these two defines are kept separate. */ #endif /* WITH_PERFSCHEMA_STORAGE_ENGINE */ } #ifdef HAVE_PSI_INTERFACE /* Obtain the current performance schema instrumentation interface, if available. */ if (PSI_hook) { PSI *psi_server= (PSI*) PSI_hook->get_interface(PSI_CURRENT_VERSION); if (likely(psi_server != NULL)) { set_psi_server(psi_server); /* Now that we have parsed the command line arguments, and have initialized the performance schema itself, the next step is to register all the server instruments. */ init_server_psi_keys(); /* Instrument the main thread */ PSI_thread *psi= PSI_THREAD_CALL(new_thread)(key_thread_main, NULL, 0); PSI_THREAD_CALL(set_thread)(psi); /* Now that some instrumentation is in place, recreate objects which were initialised early, so that they are instrumented as well. */ my_thread_global_reinit(); } } #endif /* HAVE_PSI_INTERFACE */ init_error_log_mutex(); /* Set signal used to kill MySQL */ #if defined(SIGUSR2) thr_kill_signal= SIGUSR2; #else thr_kill_signal= SIGINT; #endif /* Initialize audit interface globals. Audit plugins are inited later. */ mysql_audit_initialize(); /* Perform basic logger initialization logger. Should be called after MY_INIT, as it initializes mutexes. Log tables are inited later. */ logger.init_base(); if (ho_error) { /* Parsing command line option failed, Since we don't have a workable remaining_argc/remaining_argv to continue the server initialization, this is as far as this code can go. This is the best effort to log meaningful messages: - messages will be printed to stderr, which is not redirected yet, - messages will be printed in the NT event log, for windows. */ buffered_logs.print(); buffered_logs.cleanup(); /* Not enough initializations for unireg_abort() Using exit() for windows. */ exit (ho_error); } #ifdef _CUSTOMSTARTUPCONFIG_ if (_cust_check_startup()) { / * _cust_check_startup will report startup failure error * / exit(1); } #endif if (init_common_variables()) unireg_abort(1); // Will do exit my_init_signals(); size_t guardize= 0; int retval= pthread_attr_getguardsize(&connection_attrib, &guardize); DBUG_ASSERT(retval == 0); if (retval != 0) guardize= my_thread_stack_size; #if defined(__ia64__) || defined(__ia64) /* Peculiar things with ia64 platforms - it seems we only have half the stack size in reality, so we have to double it here */ guardize= my_thread_stack_size; #endif pthread_attr_setstacksize(&connection_attrib, my_thread_stack_size + guardize); #ifdef HAVE_PTHREAD_ATTR_GETSTACKSIZE { /* Retrieve used stack size; Needed for checking stack overflows */ size_t stack_size= 0; pthread_attr_getstacksize(&connection_attrib, &stack_size); /* We must check if stack_size = 0 as Solaris 2.9 can return 0 here */ if (stack_size && stack_size < (my_thread_stack_size + guardize)) { if (log_warnings) sql_print_warning("Asked for %lu thread stack, but got %ld", my_thread_stack_size + guardize, (long) stack_size); #if defined(__ia64__) || defined(__ia64) my_thread_stack_size= stack_size / 2; #else my_thread_stack_size= stack_size - guardize; #endif } } #endif (void) thr_setconcurrency(concurrency); // 10 by default select_thread=pthread_self(); select_thread_in_use=1; #ifdef HAVE_LIBWRAP libwrapName= my_progname+dirname_length(my_progname); openlog(libwrapName, LOG_PID, LOG_AUTH); #endif /* HAVE_LIBWRAP */ #ifndef DBUG_OFF test_lc_time_sz(); srand(time(NULL)); #endif /* We have enough space for fiddling with the argv, continue */ check_data_home(mysql_real_data_home); if (my_setwd(mysql_real_data_home,MYF(MY_WME)) && !opt_help) unireg_abort(1); /* purecov: inspected */ if ((user_info= check_user(mysqld_user))) { #if defined(HAVE_MLOCKALL) && defined(MCL_CURRENT) if (locked_in_memory) // getuid() == 0 here set_effective_user(user_info); else #endif set_user(mysqld_user, user_info); } if (opt_bin_log && server_id == 0) { server_id= 1; #ifdef EXTRA_DEBUG sql_print_warning("You have enabled the binary log, but you haven't set " "server-id to a non-zero value: we force server id to 1; " "updates will be logged to the binary log, but " "connections from slaves will not be accepted."); #endif } /* The subsequent calls may take a long time : e.g. innodb log read. Thus set the long running service control manager timeout */ #if defined(_WIN32) && !defined(EMBEDDED_LIBRARY) Service.SetSlowStarting(slow_start_timeout); #endif #ifdef WITH_WSREP /* Make sure that SSL library gets initialized before WSREP provider is loaded. This is to ensure that possible server side initialization does not have any side effects while the provider is already running with open SSL sessions. */ ssl_start(); #endif /* */ if (init_server_components()) unireg_abort(1); /* Each server should have one UUID. We will create it automatically, if it does not exist. */ if (!opt_bootstrap) { if (init_server_auto_options()) { sql_print_error("Initialzation of the server's UUID failed because it could" " not be read from the auto.cnf file. If this is a new" " server, the initialization failed because it was not" " possible to generate a new UUID."); unireg_abort(1); } if (opt_bin_log) { /* Add server_uuid to the sid_map. This must be done after server_uuid has been initialized in init_server_auto_options and after the binary log (and sid_map file) has been initialized in init_server_components(). No error message is needed: init_sid_map() prints a message. */ global_sid_lock->rdlock(); int ret= gtid_state->init(); global_sid_lock->unlock(); if (ret) unireg_abort(1); if (mysql_bin_log.init_gtid_sets( const_cast(gtid_state->get_logged_gtids()), const_cast(gtid_state->get_lost_gtids()), NULL, opt_master_verify_checksum, true/*true=need lock*/, true)) unireg_abort(1); /* Write the previous set of gtids at this point because during the creation of the binary log this is not done as we cannot move the init_gtid_sets() to a place before openning the binary log. This requires some investigation. /Alfranio */ if (gtid_mode > 0) { global_sid_lock->wrlock(); const Gtid_set *logged_gtids= gtid_state->get_logged_gtids(); if (gtid_mode > 1 || !logged_gtids->is_empty()) { Previous_gtids_log_event prev_gtids_ev(logged_gtids); global_sid_lock->unlock(); prev_gtids_ev.checksum_alg= binlog_checksum_options; if (prev_gtids_ev.write(mysql_bin_log.get_log_file())) unireg_abort(1); mysql_bin_log.add_bytes_written(prev_gtids_ev.data_written); if (flush_io_cache(mysql_bin_log.get_log_file()) || mysql_file_sync(mysql_bin_log.get_log_file()->file, MYF(MY_WME))) unireg_abort(1); } else global_sid_lock->unlock(); } } } if (init_ssl()) unireg_abort(1); network_init(); #ifdef __WIN__ if (!opt_console) { if (reopen_fstreams(log_error_file, stdout, stderr)) unireg_abort(1); setbuf(stderr, NULL); } #endif /* Initialize my_str_malloc(), my_str_realloc() and my_str_free() */ my_str_malloc= &my_str_malloc_mysqld; my_str_free= &my_str_free_mysqld; my_str_realloc= &my_str_realloc_mysqld; #ifdef WITH_WSREP /* WSREP AFTER SE */ if (wsrep_recovery) { select_thread_in_use= 0; wsrep_recover(); unireg_abort(0); } #endif /* WITH_WSREP */ /* init signals & alarm After this we can't quit by a simple unireg_abort */ error_handler_hook= my_message_sql; start_signal_handler(); // Creates pidfile sql_print_warning_hook = sql_print_warning; if (mysql_rm_tmp_tables() || acl_init(opt_noacl) || my_tz_init((THD *)0, default_tz_name, opt_bootstrap)) { abort_loop=1; select_thread_in_use=0; (void) pthread_kill(signal_thread, MYSQL_KILL_SIGNAL); delete_pid_file(MYF(MY_WME)); if (mysql_socket_getfd(unix_sock) != INVALID_SOCKET) unlink(mysqld_unix_port); exit(1); } if (!opt_noacl) (void) grant_init(); if (!opt_bootstrap) servers_init(0); if (!opt_noacl) { #ifdef HAVE_DLOPEN udf_init(); #endif } init_status_vars(); /* If running with bootstrap, do not start replication. */ if (opt_bootstrap) opt_skip_slave_start= 1; check_binlog_cache_size(NULL); check_binlog_stmt_cache_size(NULL); binlog_unsafe_map_init(); /* If running with bootstrap, do not start replication. */ if (!opt_bootstrap) { // Make @@slave_skip_errors show the nice human-readable value. set_slave_skip_errors(&opt_slave_skip_errors); /* init_slave() must be called after the thread keys are created. */ if (server_id != 0) init_slave(); /* Ignoring errors while configuring replication. */ } #ifdef WITH_PERFSCHEMA_STORAGE_ENGINE initialize_performance_schema_acl(opt_bootstrap); /* Do not check the structure of the performance schema tables during bootstrap: - the tables are not supposed to exist yet, bootstrap will create them - a check would print spurious error messages */ if (! opt_bootstrap) check_performance_schema(); #endif initialize_information_schema_acl(); execute_ddl_log_recovery(); if (Events::init(opt_noacl || opt_bootstrap)) unireg_abort(1); #ifdef WITH_WSREP /* WSREP AFTER SE */ if (opt_bootstrap) { /*! bootstrap wsrep init was taken care of above */ } else { wsrep_SE_initialized(WSREP_SE_INIT_RESULT_SUCCESS); if (wsrep_before_SE()) { /*! in case of SST wsrep waits for wsrep->sst_received */ wsrep_sst_continue(); } else { wsrep_init_startup (false); } wsrep_create_appliers(wsrep_slave_threads - 1); } #endif /* WITH_WSREP */ if (opt_bootstrap) { select_thread_in_use= 0; // Allow 'kill' to work /* Signal threads waiting for server to be started */ mysql_mutex_lock(&LOCK_server_started); mysqld_server_started= 1; mysql_cond_broadcast(&COND_server_started); mysql_mutex_unlock(&LOCK_server_started); bootstrap(mysql_stdin); unireg_abort(bootstrap_error ? 1 : 0); } if (opt_init_file && *opt_init_file) { if (read_init_file(opt_init_file)) unireg_abort(1); } create_shutdown_thread(); start_handle_manager(); sql_print_information(ER_DEFAULT(ER_STARTUP),my_progname,server_version, ((mysql_socket_getfd(unix_sock) == INVALID_SOCKET) ? (char*) "" : mysqld_unix_port), mysqld_port, MYSQL_COMPILATION_COMMENT); #if defined(_WIN32) && !defined(EMBEDDED_LIBRARY) Service.SetRunning(); #endif /* Signal threads waiting for server to be started */ mysql_mutex_lock(&LOCK_server_started); mysqld_server_started= 1; mysql_cond_broadcast(&COND_server_started); mysql_mutex_unlock(&LOCK_server_started); #ifdef WITH_NDBCLUSTER_STORAGE_ENGINE /* engine specific hook, to be made generic */ if (ndb_wait_setup_func && ndb_wait_setup_func(opt_ndb_wait_setup)) { sql_print_warning("NDB : Tables not available after %lu seconds." " Consider increasing --ndb-wait-setup value", opt_ndb_wait_setup); } #endif MYSQL_SET_STAGE(0 ,__FILE__, __LINE__); #if defined(_WIN32) || defined(HAVE_SMEM) handle_connections_methods(); #else handle_connections_sockets(); #endif /* _WIN32 || HAVE_SMEM */ /* (void) pthread_attr_destroy(&connection_attrib); */ DBUG_PRINT("quit",("Exiting main thread")); #ifndef __WIN__ #ifdef EXTRA_DEBUG2 sql_print_error("Before Lock_thread_count"); #endif #ifdef WITH_WSREP WSREP_DEBUG("Before Lock_thread_count"); #endif mysql_mutex_lock(&LOCK_thread_count); DBUG_PRINT("quit", ("Got thread_count mutex")); select_thread_in_use=0; // For close_connections mysql_mutex_unlock(&LOCK_thread_count); mysql_cond_broadcast(&COND_thread_count); #ifdef EXTRA_DEBUG2 sql_print_error("After lock_thread_count"); #endif #endif /* __WIN__ */ #ifdef HAVE_PSI_THREAD_INTERFACE /* Disable the main thread instrumentation, to avoid recording events during the shutdown. */ PSI_THREAD_CALL(delete_current_thread)(); #endif /* Wait until cleanup is done */ mysql_mutex_lock(&LOCK_thread_count); while (!ready_to_exit) mysql_cond_wait(&COND_thread_count, &LOCK_thread_count); mysql_mutex_unlock(&LOCK_thread_count); #if defined(__WIN__) && !defined(EMBEDDED_LIBRARY) if (Service.IsNT() && start_mode) Service.Stop(); else { Service.SetShutdownEvent(0); if (hEventShutdown) CloseHandle(hEventShutdown); } #endif clean_up(1); mysqld_exit(0); } #endif /* !EMBEDDED_LIBRARY */ /**************************************************************************** Main and thread entry function for Win32 (all this is needed only to run mysqld as a service on WinNT) ****************************************************************************/ #if defined(__WIN__) && !defined(EMBEDDED_LIBRARY) int mysql_service(void *p) { if (my_thread_init()) return 1; if (use_opt_args) win_main(opt_argc, opt_argv); else win_main(Service.my_argc, Service.my_argv); my_thread_end(); return 0; } /* Quote string if it contains space, else copy */ static char *add_quoted_string(char *to, const char *from, char *to_end) { uint length= (uint) (to_end-to); if (!strchr(from, ' ')) return strmake(to, from, length-1); return strxnmov(to, length-1, "\"", from, "\"", NullS); } /** Handle basic handling of services, like installation and removal. @param argv Pointer to argument list @param servicename Internal name of service @param displayname Display name of service (in taskbar ?) @param file_path Path to this program @param startup_option Startup option to mysqld @retval 0 option handled @retval 1 Could not handle option */ static bool default_service_handling(char **argv, const char *servicename, const char *displayname, const char *file_path, const char *extra_opt, const char *account_name) { char path_and_service[FN_REFLEN+FN_REFLEN+32], *pos, *end; const char *opt_delim; end= path_and_service + sizeof(path_and_service)-3; /* We have to quote filename if it contains spaces */ pos= add_quoted_string(path_and_service, file_path, end); if (extra_opt && *extra_opt) { /* Add option after file_path. There will be zero or one extra option. It's assumed to be --defaults-file=file but isn't checked. The variable (not the option name) should be quoted if it contains a string. */ *pos++= ' '; if (opt_delim= strchr(extra_opt, '=')) { size_t length= ++opt_delim - extra_opt; pos= strnmov(pos, extra_opt, length); } else opt_delim= extra_opt; pos= add_quoted_string(pos, opt_delim, end); } /* We must have servicename last */ *pos++= ' '; (void) add_quoted_string(pos, servicename, end); if (Service.got_service_option(argv, "install")) { Service.Install(1, servicename, displayname, path_and_service, account_name); return 0; } if (Service.got_service_option(argv, "install-manual")) { Service.Install(0, servicename, displayname, path_and_service, account_name); return 0; } if (Service.got_service_option(argv, "remove")) { Service.Remove(servicename); return 0; } return 1; } int mysqld_main(int argc, char **argv) { /* When several instances are running on the same machine, we need to have an unique named hEventShudown through the application PID e.g.: MySQLShutdown1890; MySQLShutdown2342 */ int10_to_str((int) GetCurrentProcessId(),strmov(shutdown_event_name, "MySQLShutdown"), 10); /* Must be initialized early for comparison of service name */ system_charset_info= &my_charset_utf8_general_ci; if (my_init()) { fprintf(stderr, "my_init() failed."); return 1; } if (Service.GetOS()) /* true NT family */ { char file_path[FN_REFLEN]; my_path(file_path, argv[0], ""); /* Find name in path */ fn_format(file_path,argv[0],file_path,"", MY_REPLACE_DIR | MY_UNPACK_FILENAME | MY_RESOLVE_SYMLINKS); if (argc == 2) { if (!default_service_handling(argv, MYSQL_SERVICENAME, MYSQL_SERVICENAME, file_path, "", NULL)) return 0; if (Service.IsService(argv[1])) /* Start an optional service */ { /* Only add the service name to the groups read from the config file if it's not "MySQL". (The default service name should be 'mysqld' but we started a bad tradition by calling it MySQL from the start and we are now stuck with it. */ if (my_strcasecmp(system_charset_info, argv[1],"mysql")) load_default_groups[load_default_groups_sz-2]= argv[1]; start_mode= 1; Service.Init(argv[1], mysql_service); return 0; } } else if (argc == 3) /* install or remove any optional service */ { if (!default_service_handling(argv, argv[2], argv[2], file_path, "", NULL)) return 0; if (Service.IsService(argv[2])) { /* mysqld was started as mysqld --defaults-file=my_path\my.ini service-name */ use_opt_args=1; opt_argc= 2; // Skip service-name opt_argv=argv; start_mode= 1; if (my_strcasecmp(system_charset_info, argv[2],"mysql")) load_default_groups[load_default_groups_sz-2]= argv[2]; Service.Init(argv[2], mysql_service); return 0; } } else if (argc == 4 || argc == 5) { /* This may seem strange, because we handle --local-service while preserving 4.1's behavior of allowing any one other argument that is passed to the service on startup. (The assumption is that this is --defaults-file=file, but that was not enforced in 4.1, so we don't enforce it here.) */ const char *extra_opt= NullS; const char *account_name = NullS; int index; for (index = 3; index < argc; index++) { if (!strcmp(argv[index], "--local-service")) account_name= "NT AUTHORITY\\LocalService"; else extra_opt= argv[index]; } if (argc == 4 || account_name) if (!default_service_handling(argv, argv[2], argv[2], file_path, extra_opt, account_name)) return 0; } else if (argc == 1 && Service.IsService(MYSQL_SERVICENAME)) { /* start the default service */ start_mode= 1; Service.Init(MYSQL_SERVICENAME, mysql_service); return 0; } } /* Start as standalone server */ Service.my_argc=argc; Service.my_argv=argv; mysql_service(NULL); return 0; } #endif /** Execute all commands from a file. Used by the mysql_install_db script to create MySQL privilege tables without having to start a full MySQL server. */ static void bootstrap(MYSQL_FILE *file) { DBUG_ENTER("bootstrap"); THD *thd= new THD; #ifdef WITH_WSREP thd->variables.wsrep_on= 0; #endif thd->bootstrap=1; my_net_init(&thd->net,(st_vio*) 0); thd->max_client_packet_length= thd->net.max_packet; thd->security_ctx->master_access= ~(ulong)0; thd->thread_id= thd->variables.pseudo_thread_id= thread_id++; in_bootstrap= TRUE; bootstrap_file=file; #ifndef EMBEDDED_LIBRARY // TODO: Enable this int error; if ((error= mysql_thread_create(key_thread_bootstrap, &thd->real_id, &connection_attrib, handle_bootstrap, (void*) thd))) { sql_print_warning("Can't create thread to handle bootstrap (errno= %d)", error); bootstrap_error=-1; DBUG_VOID_RETURN; } /* Wait for thread to die */ mysql_mutex_lock(&LOCK_thread_count); while (in_bootstrap) { mysql_cond_wait(&COND_thread_count, &LOCK_thread_count); DBUG_PRINT("quit", ("One thread died (count=%u)", get_thread_count())); } mysql_mutex_unlock(&LOCK_thread_count); #else thd->mysql= 0; do_handle_bootstrap(thd); #endif DBUG_VOID_RETURN; } static bool read_init_file(char *file_name) { MYSQL_FILE *file; DBUG_ENTER("read_init_file"); DBUG_PRINT("enter",("name: %s",file_name)); sql_print_information("Execution of init_file \'%s\' started.", file_name); if (!(file= mysql_file_fopen(key_file_init, file_name, O_RDONLY, MYF(MY_WME)))) DBUG_RETURN(TRUE); bootstrap(file); mysql_file_fclose(file, MYF(MY_WME)); sql_print_information("Execution of init_file \'%s\' ended.", file_name); DBUG_RETURN(FALSE); } /** Increment number of created threads */ void inc_thread_created(void) { mysql_mutex_lock(&LOCK_thread_created); thread_created++; mysql_mutex_unlock(&LOCK_thread_created); } #ifndef EMBEDDED_LIBRARY /* Simple scheduler that use the main thread to handle the request NOTES This is only used for debugging, when starting mysqld with --thread-handling=no-threads or --one-thread When we enter this function, LOCK_thread_count is held! */ void handle_connection_in_main_thread(THD *thd) { mysql_mutex_assert_owner(&LOCK_thread_count); max_blocked_pthreads= 0; // Safety add_global_thread(thd); mysql_mutex_unlock(&LOCK_thread_count); thd->start_utime= my_micro_time(); do_handle_one_connection(thd); } /* Scheduler that uses one thread per connection */ void create_thread_to_handle_connection(THD *thd) { mysql_mutex_assert_owner(&LOCK_thread_count); if (blocked_pthread_count > wake_pthread) { /* Wake up blocked pthread */ DBUG_PRINT("info", ("waiting_thd_list->push %p", thd)); waiting_thd_list->push_back(thd); wake_pthread++; mysql_cond_signal(&COND_thread_cache); } else { char error_message_buff[MYSQL_ERRMSG_SIZE]; /* Create new thread to handle connection */ int error; inc_thread_created(); DBUG_PRINT("info",(("creating thread %lu"), thd->thread_id)); thd->prior_thr_create_utime= thd->start_utime= my_micro_time(); if ((error= mysql_thread_create(key_thread_one_connection, &thd->real_id, &connection_attrib, handle_one_connection, (void*) thd))) { /* purecov: begin inspected */ DBUG_PRINT("error", ("Can't create thread to handle request (error %d)", error)); if (!err_log_throttle.log(thd)) sql_print_error("Can't create thread to handle request (errno= %d)", error); thd->killed= THD::KILL_CONNECTION; // Safety mysql_mutex_unlock(&LOCK_thread_count); mysql_mutex_lock(&LOCK_connection_count); --connection_count; if (connection_count == 0) mysql_cond_signal(&COND_connection_count); mysql_mutex_unlock(&LOCK_connection_count); statistic_increment(aborted_connects,&LOCK_status); statistic_increment(connection_errors_internal, &LOCK_status); /* Can't use my_error() since store_globals has not been called. */ my_snprintf(error_message_buff, sizeof(error_message_buff), ER_THD(thd, ER_CANT_CREATE_THREAD), error); net_send_error(thd, ER_CANT_CREATE_THREAD, error_message_buff, NULL); #ifdef WITH_WSREP close_connection(thd,0,0); #else close_connection(thd); #endif delete thd; return; /* purecov: end */ } add_global_thread(thd); } mysql_mutex_unlock(&LOCK_thread_count); DBUG_PRINT("info",("Thread created")); } /** Create new thread to handle incoming connection. This function will create new thread to handle the incoming connection. If there are idle cached threads one will be used. In single-threaded mode (\#define ONE_THREAD) connection will be handled inside this function. @param[in,out] thd Thread handle of future thread. */ static void create_new_thread(THD *thd) { DBUG_ENTER("create_new_thread"); /* Don't allow too many connections. We roughly check here that we allow only (max_connections + 1) connections. */ mysql_mutex_lock(&LOCK_connection_count); if (connection_count >= max_connections + 1 || abort_loop) { mysql_mutex_unlock(&LOCK_connection_count); DBUG_PRINT("error",("Too many connections")); /* The server just accepted the socket connection from the network, and we already have too many connections. Note that the server knows nothing of the client yet, and in particular thd->client_capabilities has not been negotiated. ER_CON_COUNT_ERROR is normally associated with SQLSTATE '08004', but sending a SQLSTATE in the network assumes CLIENT_PROTOCOL_41. See net_send_error_packet(). The error packet returned here will only contain the error code, with no sqlstate. A client expecting a SQLSTATE will not find any, and assume 'HY000'. */ #ifdef WITH_WSREP close_connection(thd, ER_CON_COUNT_ERROR, 1); #else close_connection(thd, ER_CON_COUNT_ERROR); #endif delete thd; statistic_increment(connection_errors_max_connection, &LOCK_status); DBUG_VOID_RETURN; } ++connection_count; if (connection_count > max_used_connections) max_used_connections= connection_count; mysql_mutex_unlock(&LOCK_connection_count); /* Start a new thread to handle connection. */ mysql_mutex_lock(&LOCK_thread_count); /* The initialization of thread_id is done in create_embedded_thd() for the embedded library. TODO: refactor this to avoid code duplication there */ thd->thread_id= thd->variables.pseudo_thread_id= thread_id++; MYSQL_CALLBACK(thread_scheduler, add_connection, (thd)); DBUG_VOID_RETURN; } #endif /* EMBEDDED_LIBRARY */ #ifdef SIGNALS_DONT_BREAK_READ inline void kill_broken_server() { /* hack to get around signals ignored in syscalls for problem OS's */ if (mysql_get_fd(unix_sock) == INVALID_SOCKET || (!opt_disable_networking && mysql_socket_getfd(ip_sock) == INVALID_SOCKET)) { select_thread_in_use = 0; /* The following call will never return */ kill_server((void*) MYSQL_KILL_SIGNAL); } } #define MAYBE_BROKEN_SYSCALL kill_broken_server(); #else #define MAYBE_BROKEN_SYSCALL #endif /* Handle new connections and spawn new process to handle them */ #ifndef EMBEDDED_LIBRARY void handle_connections_sockets() { MYSQL_SOCKET sock= mysql_socket_invalid(); MYSQL_SOCKET new_sock= mysql_socket_invalid(); uint error_count=0; THD *thd; struct sockaddr_storage cAddr; int ip_flags=0,socket_flags=0,flags=0,retval; st_vio *vio_tmp; #ifdef HAVE_POLL int socket_count= 0; struct pollfd fds[2]; // for ip_sock and unix_sock MYSQL_SOCKET pfs_fds[2]; // for performance schema #else fd_set readFDs,clientFDs; uint max_used_connection= max(mysql_socket_getfd(ip_sock), mysql_socket_getfd(unix_sock)) + 1; #endif DBUG_ENTER("handle_connections_sockets"); (void) ip_flags; (void) socket_flags; #ifndef HAVE_POLL FD_ZERO(&clientFDs); #endif if (mysql_socket_getfd(ip_sock) != INVALID_SOCKET) { mysql_socket_set_thread_owner(ip_sock); #ifdef HAVE_POLL fds[socket_count].fd= mysql_socket_getfd(ip_sock); fds[socket_count].events= POLLIN; pfs_fds[socket_count]= ip_sock; socket_count++; #else FD_SET(mysql_socket_getfd(ip_sock), &clientFDs); #endif #ifdef HAVE_FCNTL ip_flags = fcntl(mysql_socket_getfd(ip_sock), F_GETFL, 0); #endif } #ifdef HAVE_SYS_UN_H mysql_socket_set_thread_owner(unix_sock); #ifdef HAVE_POLL fds[socket_count].fd= mysql_socket_getfd(unix_sock); fds[socket_count].events= POLLIN; pfs_fds[socket_count]= unix_sock; socket_count++; #else FD_SET(mysql_socket_getfd(unix_sock), &clientFDs); #endif #ifdef HAVE_FCNTL socket_flags=fcntl(mysql_socket_getfd(unix_sock), F_GETFL, 0); #endif #endif DBUG_PRINT("general",("Waiting for connections.")); MAYBE_BROKEN_SYSCALL; while (!abort_loop) { #ifdef HAVE_POLL retval= poll(fds, socket_count, -1); #else readFDs=clientFDs; retval= select((int) max_used_connection,&readFDs,0,0,0); #endif if (retval < 0) { if (socket_errno != SOCKET_EINTR) { /* select(2)/poll(2) failed on the listening port. There is not much details to report about the client, increment the server global status variable. */ statistic_increment(connection_errors_select, &LOCK_status); if (!select_errors++ && !abort_loop) /* purecov: inspected */ sql_print_error("mysqld: Got error %d from select",socket_errno); /* purecov: inspected */ } MAYBE_BROKEN_SYSCALL continue; } if (abort_loop) { MAYBE_BROKEN_SYSCALL; break; } /* Is this a new connection request ? */ #ifdef HAVE_POLL for (int i= 0; i < socket_count; ++i) { if (fds[i].revents & POLLIN) { sock= pfs_fds[i]; #ifdef HAVE_FCNTL flags= fcntl(mysql_socket_getfd(sock), F_GETFL, 0); #else flags= 0; #endif // HAVE_FCNTL break; } } #else // HAVE_POLL #ifdef HAVE_SYS_UN_H if (FD_ISSET(mysql_socket_getfd(unix_sock), &readFDs)) { sock = unix_sock; flags= socket_flags; } else #endif // HAVE_SYS_UN_H { sock = ip_sock; flags= ip_flags; } #endif // HAVE_POLL #if !defined(NO_FCNTL_NONBLOCK) if (!(test_flags & TEST_BLOCKING)) { #if defined(O_NONBLOCK) fcntl(mysql_socket_getfd(sock), F_SETFL, flags | O_NONBLOCK); #elif defined(O_NDELAY) fcntl(mysql_socket_getfd(sock), F_SETFL, flags | O_NDELAY); #endif } #endif /* NO_FCNTL_NONBLOCK */ for (uint retry=0; retry < MAX_ACCEPT_RETRY; retry++) { size_socket length= sizeof(struct sockaddr_storage); new_sock= mysql_socket_accept(key_socket_client_connection, sock, (struct sockaddr *)(&cAddr), &length); if (mysql_socket_getfd(new_sock) != INVALID_SOCKET || (socket_errno != SOCKET_EINTR && socket_errno != SOCKET_EAGAIN)) break; MAYBE_BROKEN_SYSCALL; #if !defined(NO_FCNTL_NONBLOCK) if (!(test_flags & TEST_BLOCKING)) { if (retry == MAX_ACCEPT_RETRY - 1) fcntl(mysql_socket_getfd(sock), F_SETFL, flags); // Try without O_NONBLOCK } #endif } #if !defined(NO_FCNTL_NONBLOCK) if (!(test_flags & TEST_BLOCKING)) fcntl(mysql_socket_getfd(sock), F_SETFL, flags); #endif if (mysql_socket_getfd(new_sock) == INVALID_SOCKET) { /* accept(2) failed on the listening port, after many retries. There is not much details to report about the client, increment the server global status variable. */ statistic_increment(connection_errors_accept, &LOCK_status); if ((error_count++ & 255) == 0) // This can happen often sql_perror("Error in accept"); MAYBE_BROKEN_SYSCALL; if (socket_errno == SOCKET_ENFILE || socket_errno == SOCKET_EMFILE) sleep(1); // Give other threads some time continue; } #if defined(WITH_WSREP) && defined(HAVE_FCNTL) && defined(FD_CLOEXEC) (void) fcntl(mysql_socket_getfd(new_sock), F_SETFD, FD_CLOEXEC); #endif /* WITH_WSREP */ #ifdef HAVE_LIBWRAP { if (mysql_socket_getfd(sock) == mysql_socket_getfd(ip_sock)) { struct request_info req; signal(SIGCHLD, SIG_DFL); request_init(&req, RQ_DAEMON, libwrapName, RQ_FILE, mysql_socket_getfd(new_sock), NULL); my_fromhost(&req); if (!my_hosts_access(&req)) { /* This may be stupid but refuse() includes an exit(0) which we surely don't want... clean_exit() - same stupid thing ... */ syslog(deny_severity, "refused connect from %s", my_eval_client(&req)); /* C++ sucks (the gibberish in front just translates the supplied sink function pointer in the req structure from a void (*sink)(); to a void(*sink)(int) if you omit the cast, the C++ compiler will cry... */ if (req.sink) ((void (*)(int))req.sink)(req.fd); mysql_socket_shutdown(new_sock, SHUT_RDWR); mysql_socket_close(new_sock); /* The connection was refused by TCP wrappers. There are no details (by client IP) available to update the host_cache. */ statistic_increment(connection_errors_tcpwrap, &LOCK_status); continue; } } } #endif /* HAVE_LIBWRAP */ /* ** Don't allow too many connections */ if (!(thd= new THD)) { (void) mysql_socket_shutdown(new_sock, SHUT_RDWR); (void) mysql_socket_close(new_sock); statistic_increment(connection_errors_internal, &LOCK_status); continue; } bool is_unix_sock= (mysql_socket_getfd(sock) == mysql_socket_getfd(unix_sock)); enum_vio_type vio_type= (is_unix_sock ? VIO_TYPE_SOCKET : VIO_TYPE_TCPIP); uint vio_flags= (is_unix_sock ? VIO_LOCALHOST : 0); vio_tmp= mysql_socket_vio_new(new_sock, vio_type, vio_flags); if (!vio_tmp || my_net_init(&thd->net, vio_tmp)) { /* Only delete the temporary vio if we didn't already attach it to the NET object. The destructor in THD will delete any initialized net structure. */ if (vio_tmp && thd->net.vio != vio_tmp) vio_delete(vio_tmp); else { (void) mysql_socket_shutdown(new_sock, SHUT_RDWR); (void) mysql_socket_close(new_sock); } delete thd; statistic_increment(connection_errors_internal, &LOCK_status); continue; } init_net_server_extension(thd); if (mysql_socket_getfd(sock) == mysql_socket_getfd(unix_sock)) thd->security_ctx->set_host((char*) my_localhost); create_new_thread(thd); } DBUG_VOID_RETURN; } #ifdef _WIN32 pthread_handler_t handle_connections_sockets_thread(void *arg) { my_thread_init(); handle_connections_sockets(); decrement_handler_count(); return 0; } pthread_handler_t handle_connections_namedpipes(void *arg) { HANDLE hConnectedPipe; OVERLAPPED connectOverlapped= {0}; THD *thd; TCHAR last_error_msg[256]; my_thread_init(); DBUG_ENTER("handle_connections_namedpipes"); connectOverlapped.hEvent= CreateEvent(NULL, TRUE, FALSE, NULL); if (!connectOverlapped.hEvent) { sql_print_error("Can't create event, last error=%u", GetLastError()); unireg_abort(1); } DBUG_PRINT("general",("Waiting for named pipe connections.")); while (!abort_loop) { /* wait for named pipe connection */ BOOL fConnected= ConnectNamedPipe(hPipe, &connectOverlapped); if (!fConnected && (GetLastError() == ERROR_IO_PENDING)) { /* ERROR_IO_PENDING says async IO has started but not yet finished. GetOverlappedResult will wait for completion. */ DWORD bytes; fConnected= GetOverlappedResult(hPipe, &connectOverlapped,&bytes, TRUE); } if (abort_loop) break; if (!fConnected) fConnected = GetLastError() == ERROR_PIPE_CONNECTED; if (!fConnected) { CloseHandle(hPipe); mysql_rwlock_rdlock(&LOCK_named_pipe_full_access_group); hPipe= CreateNamedPipe(pipe_name, PIPE_ACCESS_DUPLEX | FILE_FLAG_OVERLAPPED | WRITE_DAC, PIPE_TYPE_BYTE | PIPE_READMODE_BYTE | PIPE_WAIT, PIPE_UNLIMITED_INSTANCES, (int) global_system_variables.net_buffer_length, (int) global_system_variables.net_buffer_length, NMPWAIT_USE_DEFAULT_WAIT, psaPipeSecurity); mysql_rwlock_unlock(&LOCK_named_pipe_full_access_group); if (hPipe == INVALID_HANDLE_VALUE) { DWORD last_error_num= GetLastError(); FormatMessage(FORMAT_MESSAGE_FROM_SYSTEM | FORMAT_MESSAGE_IGNORE_INSERTS | FORMAT_MESSAGE_MAX_WIDTH_MASK, NULL, last_error_num, MAKELANGID(LANG_NEUTRAL, SUBLANG_DEFAULT), last_error_msg, sizeof(last_error_msg) / sizeof(TCHAR), NULL); sql_print_error("Can't create new named pipe: %s", last_error_msg); break; // Abort } } hConnectedPipe = hPipe; /* create new pipe for new connection */ mysql_rwlock_rdlock(&LOCK_named_pipe_full_access_group); hPipe= CreateNamedPipe(pipe_name, PIPE_ACCESS_DUPLEX | FILE_FLAG_OVERLAPPED | WRITE_DAC, PIPE_TYPE_BYTE |PIPE_READMODE_BYTE | PIPE_WAIT, PIPE_UNLIMITED_INSTANCES, (int) global_system_variables.net_buffer_length, (int) global_system_variables.net_buffer_length, NMPWAIT_USE_DEFAULT_WAIT, psaPipeSecurity); mysql_rwlock_unlock(&LOCK_named_pipe_full_access_group); if (hPipe == INVALID_HANDLE_VALUE) { DWORD last_error_num = GetLastError(); FormatMessage(FORMAT_MESSAGE_FROM_SYSTEM | FORMAT_MESSAGE_IGNORE_INSERTS | FORMAT_MESSAGE_MAX_WIDTH_MASK, NULL, last_error_num, MAKELANGID(LANG_NEUTRAL, SUBLANG_DEFAULT), last_error_msg, sizeof(last_error_msg) / sizeof(TCHAR), NULL); sql_print_error("Can't create new named pipe: %s", last_error_msg); hPipe=hConnectedPipe; continue; // We have to try again } if (!(thd = new THD)) { DisconnectNamedPipe(hConnectedPipe); CloseHandle(hConnectedPipe); continue; } if (!(thd->net.vio= vio_new_win32pipe(hConnectedPipe)) || my_net_init(&thd->net, thd->net.vio)) { #ifdef WITH_WSREP close_connection(thd, ER_OUT_OF_RESOURCES, 1); #else close_connection(thd, ER_OUT_OF_RESOURCES); #endif delete thd; continue; } /* Host is unknown */ thd->security_ctx->set_host(my_strdup(my_localhost, MYF(0))); create_new_thread(thd); } CloseHandle(connectOverlapped.hEvent); DBUG_LEAVE; decrement_handler_count(); return 0; } #endif /* _WIN32 */ #ifdef HAVE_SMEM /** Thread of shared memory's service. @param arg Arguments of thread */ pthread_handler_t handle_connections_shared_memory(void *arg) { /* file-mapping object, use for create shared memory */ HANDLE handle_connect_file_map= 0; char *handle_connect_map= 0; // pointer on shared memory HANDLE event_connect_answer= 0; ulong smem_buffer_length= shared_memory_buffer_length + 4; ulong connect_number= 1; char *tmp= NULL; char *suffix_pos; char connect_number_char[22], *p; const char *errmsg= 0; SECURITY_ATTRIBUTES *sa_event= 0, *sa_mapping= 0; my_thread_init(); DBUG_ENTER("handle_connections_shared_memorys"); DBUG_PRINT("general",("Waiting for allocated shared memory.")); /* get enough space base-name + '_' + longest suffix we might ever send */ if (!(tmp= (char *)my_malloc(strlen(shared_memory_base_name) + 32L, MYF(MY_FAE)))) goto error; if (my_security_attr_create(&sa_event, &errmsg, GENERIC_ALL, SYNCHRONIZE | EVENT_MODIFY_STATE)) goto error; if (my_security_attr_create(&sa_mapping, &errmsg, GENERIC_ALL, FILE_MAP_READ | FILE_MAP_WRITE)) goto error; /* The name of event and file-mapping events create agree next rule: shared_memory_base_name+unique_part Where: shared_memory_base_name is unique value for each server unique_part is unique value for each object (events and file-mapping) */ suffix_pos= strxmov(tmp,shared_memory_base_name,"_",NullS); strmov(suffix_pos, "CONNECT_REQUEST"); if ((smem_event_connect_request= CreateEvent(sa_event, FALSE, FALSE, tmp)) == 0) { errmsg= "Could not create request event"; goto error; } strmov(suffix_pos, "CONNECT_ANSWER"); if ((event_connect_answer= CreateEvent(sa_event, FALSE, FALSE, tmp)) == 0) { errmsg="Could not create answer event"; goto error; } strmov(suffix_pos, "CONNECT_DATA"); if ((handle_connect_file_map= CreateFileMapping(INVALID_HANDLE_VALUE, sa_mapping, PAGE_READWRITE, 0, sizeof(connect_number), tmp)) == 0) { errmsg= "Could not create file mapping"; goto error; } if ((handle_connect_map= (char *)MapViewOfFile(handle_connect_file_map, FILE_MAP_WRITE,0,0, sizeof(DWORD))) == 0) { errmsg= "Could not create shared memory service"; goto error; } while (!abort_loop) { /* Wait a request from client */ WaitForSingleObject(smem_event_connect_request,INFINITE); /* it can be after shutdown command */ if (abort_loop) goto error; HANDLE handle_client_file_map= 0; char *handle_client_map= 0; HANDLE event_client_wrote= 0; HANDLE event_client_read= 0; // for transfer data server <-> client HANDLE event_server_wrote= 0; HANDLE event_server_read= 0; HANDLE event_conn_closed= 0; THD *thd= 0; p= int10_to_str(connect_number, connect_number_char, 10); /* The name of event and file-mapping events create agree next rule: shared_memory_base_name+unique_part+number_of_connection Where: shared_memory_base_name is uniquel value for each server unique_part is unique value for each object (events and file-mapping) number_of_connection is connection-number between server and client */ suffix_pos= strxmov(tmp,shared_memory_base_name,"_",connect_number_char, "_",NullS); strmov(suffix_pos, "DATA"); if ((handle_client_file_map= CreateFileMapping(INVALID_HANDLE_VALUE, sa_mapping, PAGE_READWRITE, 0, smem_buffer_length, tmp)) == 0) { errmsg= "Could not create file mapping"; goto errorconn; } if ((handle_client_map= (char*)MapViewOfFile(handle_client_file_map, FILE_MAP_WRITE,0,0, smem_buffer_length)) == 0) { errmsg= "Could not create memory map"; goto errorconn; } strmov(suffix_pos, "CLIENT_WROTE"); if ((event_client_wrote= CreateEvent(sa_event, FALSE, FALSE, tmp)) == 0) { errmsg= "Could not create client write event"; goto errorconn; } strmov(suffix_pos, "CLIENT_READ"); if ((event_client_read= CreateEvent(sa_event, FALSE, FALSE, tmp)) == 0) { errmsg= "Could not create client read event"; goto errorconn; } strmov(suffix_pos, "SERVER_READ"); if ((event_server_read= CreateEvent(sa_event, FALSE, FALSE, tmp)) == 0) { errmsg= "Could not create server read event"; goto errorconn; } strmov(suffix_pos, "SERVER_WROTE"); if ((event_server_wrote= CreateEvent(sa_event, FALSE, FALSE, tmp)) == 0) { errmsg= "Could not create server write event"; goto errorconn; } strmov(suffix_pos, "CONNECTION_CLOSED"); if ((event_conn_closed= CreateEvent(sa_event, TRUE, FALSE, tmp)) == 0) { errmsg= "Could not create closed connection event"; goto errorconn; } if (abort_loop) goto errorconn; if (!(thd= new THD)) goto errorconn; /* Send number of connection to client */ int4store(handle_connect_map, connect_number); if (!SetEvent(event_connect_answer)) { errmsg= "Could not send answer event"; goto errorconn; } /* Set event that client should receive data */ if (!SetEvent(event_client_read)) { errmsg= "Could not set client to read mode"; goto errorconn; } if (!(thd->net.vio= vio_new_win32shared_memory(handle_client_file_map, handle_client_map, event_client_wrote, event_client_read, event_server_wrote, event_server_read, event_conn_closed)) || my_net_init(&thd->net, thd->net.vio)) { #ifdef WITH_WSREP close_connection(thd, ER_OUT_OF_RESOURCES, 1); #else close_connection(thd, ER_OUT_OF_RESOURCES); #endif errmsg= 0; goto errorconn; } thd->security_ctx->set_host(my_strdup(my_localhost, MYF(0))); /* Host is unknown */ create_new_thread(thd); connect_number++; continue; errorconn: /* Could not form connection; Free used handlers/memort and retry */ if (errmsg) { char buff[180]; strxmov(buff, "Can't create shared memory connection: ", errmsg, ".", NullS); sql_perror(buff); } if (handle_client_file_map) CloseHandle(handle_client_file_map); if (handle_client_map) UnmapViewOfFile(handle_client_map); if (event_server_wrote) CloseHandle(event_server_wrote); if (event_server_read) CloseHandle(event_server_read); if (event_client_wrote) CloseHandle(event_client_wrote); if (event_client_read) CloseHandle(event_client_read); if (event_conn_closed) CloseHandle(event_conn_closed); delete thd; } /* End shared memory handling */ error: if (tmp) my_free(tmp); if (errmsg) { char buff[180]; strxmov(buff, "Can't create shared memory service: ", errmsg, ".", NullS); sql_perror(buff); } my_security_attr_free(sa_event); my_security_attr_free(sa_mapping); if (handle_connect_map) UnmapViewOfFile(handle_connect_map); if (handle_connect_file_map) CloseHandle(handle_connect_file_map); if (event_connect_answer) CloseHandle(event_connect_answer); if (smem_event_connect_request) CloseHandle(smem_event_connect_request); DBUG_LEAVE; decrement_handler_count(); return 0; } #endif /* HAVE_SMEM */ #endif /* EMBEDDED_LIBRARY */ /**************************************************************************** Handle start options ******************************************************************************/ /** Process command line options flagged as 'early'. Some components needs to be initialized as early as possible, because the rest of the server initialization depends on them. Options that needs to be parsed early includes: - the performance schema, when compiled in, - options related to the help, - options related to the bootstrap The performance schema needs to be initialized as early as possible, before to-be-instrumented objects of the server are initialized. */ int handle_early_options() { int ho_error; vector all_early_options; all_early_options.reserve(100); my_getopt_register_get_addr(NULL); /* Skip unknown options so that they may be processed later */ my_getopt_skip_unknown= TRUE; /* Add the system variables parsed early */ sys_var_add_options(&all_early_options, sys_var::PARSE_EARLY); /* Add the command line options parsed early */ for (my_option *opt= my_long_early_options; opt->name != NULL; opt++) all_early_options.push_back(*opt); add_terminator(&all_early_options); /* Logs generated while parsing the command line options are buffered and printed later. */ buffered_logs.init(); my_getopt_error_reporter= buffered_option_error_reporter; my_charset_error_reporter= buffered_option_error_reporter; ho_error= handle_options(&remaining_argc, &remaining_argv, &all_early_options[0], mysqld_get_one_option); if (ho_error == 0) { /* Add back the program name handle_options removes */ remaining_argc++; remaining_argv--; } // Swap with an empty vector, i.e. delete elements and free allocated space. vector().swap(all_early_options); return ho_error; } /** Adjust @c open_files_limit. Computation is based on: - @c max_connections, - @c table_cache_size, - the platform max open file limit. */ void adjust_open_files_limit(ulong *requested_open_files) { ulong limit_1; ulong limit_2; ulong limit_3; ulong request_open_files; ulong effective_open_files; /* MyISAM requires two file handles per table. */ limit_1= 10 + max_connections + table_cache_size * 2; /* We are trying to allocate no less than max_connections*5 file handles (i.e. we are trying to set the limit so that they will be available). */ limit_2= max_connections * 5; /* Try to allocate no less than 5000 by default. */ limit_3= open_files_limit ? open_files_limit : 5000; request_open_files= max(max(limit_1, limit_2), limit_3); /* Notice: my_set_max_open_files() may return more than requested. */ effective_open_files= my_set_max_open_files(request_open_files); if (effective_open_files < request_open_files) { char msg[1024]; if (open_files_limit == 0) { snprintf(msg, sizeof(msg), "Changed limits: max_open_files: %lu (requested %lu)", effective_open_files, request_open_files); buffered_logs.buffer(WARNING_LEVEL, msg); } else { snprintf(msg, sizeof(msg), "Could not increase number of max_open_files to " "more than %lu (request: %lu)", effective_open_files, request_open_files); buffered_logs.buffer(WARNING_LEVEL, msg); } } open_files_limit= effective_open_files; if (requested_open_files) *requested_open_files= min(effective_open_files, request_open_files); } void adjust_max_connections(ulong requested_open_files) { ulong limit; limit= requested_open_files - 10 - TABLE_OPEN_CACHE_MIN * 2; if (limit < max_connections) { char msg[1024]; snprintf(msg, sizeof(msg), "Changed limits: max_connections: %lu (requested %lu)", limit, max_connections); buffered_logs.buffer(WARNING_LEVEL, msg); max_connections= limit; } } void adjust_table_cache_size(ulong requested_open_files) { ulong limit; limit= max((requested_open_files - 10 - max_connections) / 2, TABLE_OPEN_CACHE_MIN); if (limit < table_cache_size) { char msg[1024]; snprintf(msg, sizeof(msg), "Changed limits: table_open_cache: %lu (requested %lu)", limit, table_cache_size); buffered_logs.buffer(WARNING_LEVEL, msg); table_cache_size= limit; } table_cache_size_per_instance= table_cache_size / table_cache_instances; } void adjust_table_def_size() { longlong default_value; sys_var *var; default_value= min (400 + table_cache_size / 2, 2000); var= intern_find_sys_var(STRING_WITH_LEN("table_definition_cache")); DBUG_ASSERT(var != NULL); var->update_default(default_value); if (! table_definition_cache_specified) table_def_size= default_value; } void adjust_related_options(ulong *requested_open_files) { /* In bootstrap, disable grant tables (we are about to create them) */ if (opt_bootstrap) opt_noacl= 1; /* The order is critical here, because of dependencies. */ adjust_open_files_limit(requested_open_files); adjust_max_connections(*requested_open_files); adjust_table_cache_size(*requested_open_files); adjust_table_def_size(); } vector all_options; struct my_option my_long_early_options[]= { #ifndef DISABLE_GRANT_OPTIONS {"bootstrap", OPT_BOOTSTRAP, "Used by mysql installation scripts.", 0, 0, 0, GET_NO_ARG, NO_ARG, 0, 0, 0, 0, 0, 0}, #endif #ifndef DISABLE_GRANT_OPTIONS {"skip-grant-tables", 0, "Start without grant tables. This gives all users FULL ACCESS to all tables.", &opt_noacl, &opt_noacl, 0, GET_BOOL, NO_ARG, 0, 0, 0, 0, 0, 0}, #endif {"help", '?', "Display this help and exit.", &opt_help, &opt_help, 0, GET_BOOL, NO_ARG, 0, 0, 0, 0, 0, 0}, {"verbose", 'v', "Used with --help option for detailed help.", &opt_verbose, &opt_verbose, 0, GET_BOOL, NO_ARG, 0, 0, 0, 0, 0, 0}, {"version", 'V', "Output version information and exit.", 0, 0, 0, GET_NO_ARG, NO_ARG, 0, 0, 0, 0, 0, 0}, {0, 0, 0, 0, 0, 0, GET_NO_ARG, NO_ARG, 0, 0, 0, 0, 0, 0} }; /** System variables are automatically command-line options (few exceptions are documented in sys_var.h), so don't need to be listed here. */ struct my_option my_long_options[]= { #ifdef HAVE_REPLICATION {"abort-slave-event-count", 0, "Option used by mysql-test for debugging and testing of replication.", &abort_slave_event_count, &abort_slave_event_count, 0, GET_INT, REQUIRED_ARG, 0, 0, 0, 0, 0, 0}, #endif /* HAVE_REPLICATION */ {"allow-suspicious-udfs", 0, "Allows use of UDFs consisting of only one symbol xxx() " "without corresponding xxx_init() or xxx_deinit(). That also means " "that one can load any function from any library, for example exit() " "from libc.so", &opt_allow_suspicious_udfs, &opt_allow_suspicious_udfs, 0, GET_BOOL, NO_ARG, 0, 0, 0, 0, 0, 0}, {"ansi", 'a', "Use ANSI SQL syntax instead of MySQL syntax. This mode " "will also set transaction isolation level 'serializable'.", 0, 0, 0, GET_NO_ARG, NO_ARG, 0, 0, 0, 0, 0, 0}, /* Because Sys_var_bit does not support command-line options, we need to explicitely add one for --autocommit */ {"autocommit", 0, "Set default value for autocommit (0 or 1)", &opt_autocommit, &opt_autocommit, 0, GET_BOOL, OPT_ARG, 1, 0, 0, 0, 0, NULL}, {"binlog-do-db", OPT_BINLOG_DO_DB, "Tells the master it should log updates for the specified database, " "and exclude all others not explicitly mentioned.", 0, 0, 0, GET_STR, REQUIRED_ARG, 0, 0, 0, 0, 0, 0}, {"binlog-ignore-db", OPT_BINLOG_IGNORE_DB, "Tells the master that updates to the given database should not be logged to the binary log.", 0, 0, 0, GET_STR, REQUIRED_ARG, 0, 0, 0, 0, 0, 0}, {"binlog-row-event-max-size", 0, "The maximum size of a row-based binary log event in bytes. Rows will be " "grouped into events smaller than this size if possible. " "The value has to be a multiple of 256.", &opt_binlog_rows_event_max_size, &opt_binlog_rows_event_max_size, 0, GET_ULONG, REQUIRED_ARG, /* def_value */ 8192, /* min_value */ 256, /* max_value */ ULONG_MAX, /* sub_size */ 0, /* block_size */ 256, /* app_type */ 0 }, {"character-set-client-handshake", 0, "Don't ignore client side character set value sent during handshake.", &opt_character_set_client_handshake, &opt_character_set_client_handshake, 0, GET_BOOL, NO_ARG, 1, 0, 0, 0, 0, 0}, {"character-set-filesystem", 0, "Set the filesystem character set.", &character_set_filesystem_name, &character_set_filesystem_name, 0, GET_STR, REQUIRED_ARG, 0, 0, 0, 0, 0, 0 }, {"character-set-server", 'C', "Set the default character set.", &default_character_set_name, &default_character_set_name, 0, GET_STR, REQUIRED_ARG, 0, 0, 0, 0, 0, 0 }, {"chroot", 'r', "Chroot mysqld daemon during startup.", &mysqld_chroot, &mysqld_chroot, 0, GET_STR, REQUIRED_ARG, 0, 0, 0, 0, 0, 0}, {"collation-server", 0, "Set the default collation.", &default_collation_name, &default_collation_name, 0, GET_STR, REQUIRED_ARG, 0, 0, 0, 0, 0, 0 }, {"console", OPT_CONSOLE, "Write error output on screen; don't remove the console window on windows.", &opt_console, &opt_console, 0, GET_BOOL, NO_ARG, 0, 0, 0, 0, 0, 0}, {"core-file", OPT_WANT_CORE, "Write core on errors.", 0, 0, 0, GET_NO_ARG, NO_ARG, 0, 0, 0, 0, 0, 0}, /* default-storage-engine should have "MyISAM" as def_value. Instead of initializing it here it is done in init_common_variables() due to a compiler bug in Sun Studio compiler. */ {"default-storage-engine", 0, "The default storage engine for new tables", &default_storage_engine, 0, 0, GET_STR, REQUIRED_ARG, 0, 0, 0, 0, 0, 0 }, {"default-tmp-storage-engine", 0, "The default storage engine for new explict temporary tables", &default_tmp_storage_engine, 0, 0, GET_STR, REQUIRED_ARG, 0, 0, 0, 0, 0, 0 }, {"default-time-zone", 0, "Set the default time zone.", &default_tz_name, &default_tz_name, 0, GET_STR, REQUIRED_ARG, 0, 0, 0, 0, 0, 0 }, #ifdef HAVE_OPENSSL {"des-key-file", 0, "Load keys for des_encrypt() and des_encrypt from given file.", &des_key_file, &des_key_file, 0, GET_STR, REQUIRED_ARG, 0, 0, 0, 0, 0, 0}, #endif /* HAVE_OPENSSL */ #ifdef HAVE_REPLICATION {"disconnect-slave-event-count", 0, "Option used by mysql-test for debugging and testing of replication.", &disconnect_slave_event_count, &disconnect_slave_event_count, 0, GET_INT, REQUIRED_ARG, 0, 0, 0, 0, 0, 0}, #endif /* HAVE_REPLICATION */ {"exit-info", 'T', "Used for debugging. Use at your own risk.", 0, 0, 0, GET_LONG, OPT_ARG, 0, 0, 0, 0, 0, 0}, {"external-locking", 0, "Use system (external) locking (disabled by " "default). With this option enabled you can run myisamchk to test " "(not repair) tables while the MySQL server is running. Disable with " "--skip-external-locking.", &opt_external_locking, &opt_external_locking, 0, GET_BOOL, NO_ARG, 0, 0, 0, 0, 0, 0}, /* We must always support the next option to make scripts like mysqltest easier to do */ {"gdb", 0, "Set up signals usable for debugging.", &opt_debugging, &opt_debugging, 0, GET_BOOL, NO_ARG, 0, 0, 0, 0, 0, 0}, #ifdef HAVE_LARGE_PAGE_OPTION {"super-large-pages", 0, "Enable support for super large pages.", &opt_super_large_pages, &opt_super_large_pages, 0, GET_BOOL, OPT_ARG, 0, 0, 1, 0, 1, 0}, #endif {"ignore-db-dir", OPT_IGNORE_DB_DIRECTORY, "Specifies a directory to add to the ignore list when collecting " "database names from the datadir. Put a blank argument to reset " "the list accumulated so far.", 0, 0, 0, GET_STR, REQUIRED_ARG, 0, 0, 0, 0, 0, 0}, {"language", 'L', "Client error messages in given language. May be given as a full path. " "Deprecated. Use --lc-messages-dir instead.", &lc_messages_dir_ptr, &lc_messages_dir_ptr, 0, GET_STR, REQUIRED_ARG, 0, 0, 0, 0, 0, 0}, {"lc-messages", 0, "Set the language used for the error messages.", &lc_messages, &lc_messages, 0, GET_STR, REQUIRED_ARG, 0, 0, 0, 0, 0, 0 }, {"lc-time-names", 0, "Set the language used for the month names and the days of the week.", &lc_time_names_name, &lc_time_names_name, 0, GET_STR, REQUIRED_ARG, 0, 0, 0, 0, 0, 0 }, {"log-bin", OPT_BIN_LOG, "Log update queries in binary format. Optional (but strongly recommended " "to avoid replication problems if server's hostname changes) argument " "should be the chosen location for the binary log files.", &opt_bin_logname, &opt_bin_logname, 0, GET_STR_ALLOC, OPT_ARG, 0, 0, 0, 0, 0, 0}, {"log-bin-index", 0, "File that holds the names for binary log files.", &opt_binlog_index_name, &opt_binlog_index_name, 0, GET_STR, REQUIRED_ARG, 0, 0, 0, 0, 0, 0}, {"relay-log-index", 0, "File that holds the names for relay log files.", &opt_relaylog_index_name, &opt_relaylog_index_name, 0, GET_STR, REQUIRED_ARG, 0, 0, 0, 0, 0, 0}, {"log-isam", OPT_ISAM_LOG, "Log all MyISAM changes to file.", &myisam_log_filename, &myisam_log_filename, 0, GET_STR, OPT_ARG, 0, 0, 0, 0, 0, 0}, {"log-raw", 0, "Log to general log before any rewriting of the query. For use in debugging, not production as " "sensitive information may be logged.", &opt_log_raw, &opt_log_raw, 0, GET_BOOL, NO_ARG, 0, 0, 1, 0, 1, 0 }, {"log-short-format", 0, "Don't log extra information to update and slow-query logs.", &opt_short_log_format, &opt_short_log_format, 0, GET_BOOL, NO_ARG, 0, 0, 0, 0, 0, 0}, {"log-tc", 0, "Path to transaction coordinator log (used for transactions that affect " "more than one storage engine, when binary log is disabled).", &opt_tc_log_file, &opt_tc_log_file, 0, GET_STR, REQUIRED_ARG, 0, 0, 0, 0, 0, 0}, #ifdef HAVE_MMAP {"log-tc-size", 0, "Size of transaction coordinator log.", &opt_tc_log_size, &opt_tc_log_size, 0, GET_ULONG, REQUIRED_ARG, TC_LOG_MIN_SIZE, TC_LOG_MIN_SIZE, ULONG_MAX, 0, TC_LOG_PAGE_SIZE, 0}, #endif {"master-info-file", 0, "The location and name of the file that remembers the master and where " "the I/O replication thread is in the master's binlogs.", &master_info_file, &master_info_file, 0, GET_STR, REQUIRED_ARG, 0, 0, 0, 0, 0, 0}, {"master-retry-count", OPT_MASTER_RETRY_COUNT, "The number of tries the slave will make to connect to the master before giving up. " "Deprecated option, use 'CHANGE MASTER TO master_retry_count = ' instead.", &master_retry_count, &master_retry_count, 0, GET_ULONG, REQUIRED_ARG, 3600*24, 0, 0, 0, 0, 0}, #ifdef HAVE_REPLICATION {"max-binlog-dump-events", 0, "Option used by mysql-test for debugging and testing of replication.", &max_binlog_dump_events, &max_binlog_dump_events, 0, GET_INT, REQUIRED_ARG, 0, 0, 0, 0, 0, 0}, #endif /* HAVE_REPLICATION */ {"memlock", 0, "Lock mysqld in memory.", &locked_in_memory, &locked_in_memory, 0, GET_BOOL, NO_ARG, 0, 0, 0, 0, 0, 0}, {"old-style-user-limits", 0, "Enable old-style user limits (before 5.0.3, user resources were counted " "per each user+host vs. per account).", &opt_old_style_user_limits, &opt_old_style_user_limits, 0, GET_BOOL, NO_ARG, 0, 0, 0, 0, 0, 0}, {"port-open-timeout", 0, "Maximum time in seconds to wait for the port to become free. " "(Default: No wait).", &mysqld_port_timeout, &mysqld_port_timeout, 0, GET_UINT, REQUIRED_ARG, 0, 0, 0, 0, 0, 0}, {"replicate-do-db", OPT_REPLICATE_DO_DB, "Tells the slave thread to restrict replication to the specified database. " "To specify more than one database, use the directive multiple times, " "once for each database. Note that this will only work if you do not use " "cross-database queries such as UPDATE some_db.some_table SET foo='bar' " "while having selected a different or no database. If you need cross " "database updates to work, make sure you have 3.23.28 or later, and use " "replicate-wild-do-table=db_name.%.", 0, 0, 0, GET_STR, REQUIRED_ARG, 0, 0, 0, 0, 0, 0}, {"replicate-do-table", OPT_REPLICATE_DO_TABLE, "Tells the slave thread to restrict replication to the specified table. " "To specify more than one table, use the directive multiple times, once " "for each table. This will work for cross-database updates, in contrast " "to replicate-do-db.", 0, 0, 0, GET_STR, REQUIRED_ARG, 0, 0, 0, 0, 0, 0}, {"replicate-ignore-db", OPT_REPLICATE_IGNORE_DB, "Tells the slave thread to not replicate to the specified database. To " "specify more than one database to ignore, use the directive multiple " "times, once for each database. This option will not work if you use " "cross database updates. If you need cross database updates to work, " "make sure you have 3.23.28 or later, and use replicate-wild-ignore-" "table=db_name.%. ", 0, 0, 0, GET_STR, REQUIRED_ARG, 0, 0, 0, 0, 0, 0}, {"replicate-ignore-table", OPT_REPLICATE_IGNORE_TABLE, "Tells the slave thread to not replicate to the specified table. To specify " "more than one table to ignore, use the directive multiple times, once for " "each table. This will work for cross-database updates, in contrast to " "replicate-ignore-db.", 0, 0, 0, GET_STR, REQUIRED_ARG, 0, 0, 0, 0, 0, 0}, {"replicate-rewrite-db", OPT_REPLICATE_REWRITE_DB, "Updates to a database with a different name than the original. Example: " "replicate-rewrite-db=master_db_name->slave_db_name.", 0, 0, 0, GET_STR, REQUIRED_ARG, 0, 0, 0, 0, 0, 0}, #ifdef HAVE_REPLICATION {"replicate-same-server-id", 0, "In replication, if set to 1, do not skip events having our server id. " "Default value is 0 (to break infinite loops in circular replication). " "Can't be set to 1 if --log-slave-updates is used.", &replicate_same_server_id, &replicate_same_server_id, 0, GET_BOOL, NO_ARG, 0, 0, 0, 0, 0, 0}, #endif {"replicate-wild-do-table", OPT_REPLICATE_WILD_DO_TABLE, "Tells the slave thread to restrict replication to the tables that match " "the specified wildcard pattern. To specify more than one table, use the " "directive multiple times, once for each table. This will work for cross-" "database updates. Example: replicate-wild-do-table=foo%.bar% will " "replicate only updates to tables in all databases that start with foo " "and whose table names start with bar.", 0, 0, 0, GET_STR, REQUIRED_ARG, 0, 0, 0, 0, 0, 0}, {"replicate-wild-ignore-table", OPT_REPLICATE_WILD_IGNORE_TABLE, "Tells the slave thread to not replicate to the tables that match the " "given wildcard pattern. To specify more than one table to ignore, use " "the directive multiple times, once for each table. This will work for " "cross-database updates. Example: replicate-wild-ignore-table=foo%.bar% " "will not do updates to tables in databases that start with foo and whose " "table names start with bar.", 0, 0, 0, GET_STR, REQUIRED_ARG, 0, 0, 0, 0, 0, 0}, {"safe-user-create", 0, "Don't allow new user creation by the user who has no write privileges to the mysql.user table.", &opt_safe_user_create, &opt_safe_user_create, 0, GET_BOOL, NO_ARG, 0, 0, 0, 0, 0, 0}, {"show-slave-auth-info", 0, "Show user and password in SHOW SLAVE HOSTS on this master.", &opt_show_slave_auth_info, &opt_show_slave_auth_info, 0, GET_BOOL, NO_ARG, 0, 0, 0, 0, 0, 0}, {"skip-host-cache", OPT_SKIP_HOST_CACHE, "Don't cache host names.", 0, 0, 0, GET_NO_ARG, NO_ARG, 0, 0, 0, 0, 0, 0}, {"skip-new", OPT_SKIP_NEW, "Don't use new, possibly wrong routines.", 0, 0, 0, GET_NO_ARG, NO_ARG, 0, 0, 0, 0, 0, 0}, {"skip-slave-start", 0, "If set, slave is not autostarted.", &opt_skip_slave_start, &opt_skip_slave_start, 0, GET_BOOL, NO_ARG, 0, 0, 0, 0, 0, 0}, {"skip-stack-trace", OPT_SKIP_STACK_TRACE, "Don't print a stack trace on failure.", 0, 0, 0, GET_NO_ARG, NO_ARG, 0, 0, 0, 0, 0, 0}, #if defined(_WIN32) && !defined(EMBEDDED_LIBRARY) {"slow-start-timeout", 0, "Maximum number of milliseconds that the service control manager should wait " "before trying to kill the windows service during startup" "(Default: 15000).", &slow_start_timeout, &slow_start_timeout, 0, GET_ULONG, REQUIRED_ARG, 15000, 0, 0, 0, 0, 0}, #endif #ifdef HAVE_REPLICATION {"sporadic-binlog-dump-fail", 0, "Option used by mysql-test for debugging and testing of replication.", &opt_sporadic_binlog_dump_fail, &opt_sporadic_binlog_dump_fail, 0, GET_BOOL, NO_ARG, 0, 0, 0, 0, 0, 0}, #endif /* HAVE_REPLICATION */ #ifdef HAVE_OPENSSL {"ssl", 0, "Enable SSL for connection (automatically enabled with other flags).", &opt_use_ssl, &opt_use_ssl, 0, GET_BOOL, OPT_ARG, 0, 0, 0, 0, 0, 0}, #endif #ifdef __WIN__ {"standalone", 0, "Dummy option to start as a standalone program (NT).", 0, 0, 0, GET_NO_ARG, NO_ARG, 0, 0, 0, 0, 0, 0}, #endif {"symbolic-links", 's', "Enable symbolic link support.", &my_use_symdir, &my_use_symdir, 0, GET_BOOL, NO_ARG, /* The system call realpath() produces warnings under valgrind and purify. These are not suppressed: instead we disable symlinks option if compiled with valgrind support. */ IF_PURIFY(0,1), 0, 0, 0, 0, 0}, {"sysdate-is-now", 0, "Non-default option to alias SYSDATE() to NOW() to make it safe-replicable. " "Since 5.0, SYSDATE() returns a `dynamic' value different for different " "invocations, even within the same statement.", &global_system_variables.sysdate_is_now, 0, 0, GET_BOOL, NO_ARG, 0, 0, 1, 0, 1, 0}, {"tc-heuristic-recover", 0, "Decision to use in heuristic recover process. Possible values are COMMIT " "or ROLLBACK.", &tc_heuristic_recover, &tc_heuristic_recover, &tc_heuristic_recover_typelib, GET_ENUM, REQUIRED_ARG, 0, 0, 0, 0, 0, 0}, #if defined(ENABLED_DEBUG_SYNC) {"debug-sync-timeout", OPT_DEBUG_SYNC_TIMEOUT, "Enable the debug sync facility " "and optionally specify a default wait timeout in seconds. " "A zero value keeps the facility disabled.", &opt_debug_sync_timeout, 0, 0, GET_UINT, OPT_ARG, 0, 0, UINT_MAX, 0, 0, 0}, #endif /* defined(ENABLED_DEBUG_SYNC) */ {"temp-pool", 0, #if (ENABLE_TEMP_POOL) "Using this option will cause most temporary files created to use a small " "set of names, rather than a unique name for each new file.", #else "This option is ignored on this OS.", #endif &use_temp_pool, &use_temp_pool, 0, GET_BOOL, NO_ARG, 1, 0, 0, 0, 0, 0}, {"transaction-isolation", 0, "Default transaction isolation level.", &global_system_variables.tx_isolation, &global_system_variables.tx_isolation, &tx_isolation_typelib, GET_ENUM, REQUIRED_ARG, ISO_REPEATABLE_READ, 0, 0, 0, 0, 0}, {"transaction-read-only", 0, "Default transaction access mode. " "True if transactions are read-only.", &global_system_variables.tx_read_only, &global_system_variables.tx_read_only, 0, GET_BOOL, OPT_ARG, 0, 0, 0, 0, 0, 0}, {"user", 'u', "Run mysqld daemon as user.", 0, 0, 0, GET_STR, REQUIRED_ARG, 0, 0, 0, 0, 0, 0}, {"plugin-load", OPT_PLUGIN_LOAD, "Optional semicolon-separated list of plugins to load, where each plugin is " "identified as name=library, where name is the plugin name and library " "is the plugin library in plugin_dir.", 0, 0, 0, GET_STR, REQUIRED_ARG, 0, 0, 0, 0, 0, 0}, {"plugin-load-add", OPT_PLUGIN_LOAD_ADD, "Optional semicolon-separated list of plugins to load, where each plugin is " "identified as name=library, where name is the plugin name and library " "is the plugin library in plugin_dir. This option adds to the list " "speficied by --plugin-load in an incremental way. " "Multiple --plugin-load-add are supported.", 0, 0, 0, GET_STR, REQUIRED_ARG, 0, 0, 0, 0, 0, 0}, {"default_authentication_plugin", OPT_DEFAULT_AUTH, "Defines what password- and authentication algorithm to use per default", 0, 0, 0, GET_STR, REQUIRED_ARG, 0, 0, 0, 0, 0, 0}, {0, 0, 0, 0, 0, 0, GET_NO_ARG, NO_ARG, 0, 0, 0, 0, 0, 0} }; static int show_queries(THD *thd, SHOW_VAR *var, char *buff) { var->type= SHOW_LONGLONG; var->value= (char *)&thd->query_id; return 0; } static int show_net_compression(THD *thd, SHOW_VAR *var, char *buff) { var->type= SHOW_MY_BOOL; var->value= (char *)&thd->net.compress; return 0; } static int show_starttime(THD *thd, SHOW_VAR *var, char *buff) { var->type= SHOW_LONGLONG; var->value= buff; *((longlong *)buff)= (longlong) (thd->query_start() - server_start_time); return 0; } #ifdef ENABLED_PROFILING static int show_flushstatustime(THD *thd, SHOW_VAR *var, char *buff) { var->type= SHOW_LONGLONG; var->value= buff; *((longlong *)buff)= (longlong) (thd->query_start() - flush_status_time); return 0; } #endif #ifdef HAVE_REPLICATION static int show_slave_running(THD *thd, SHOW_VAR *var, char *buff) { var->type= SHOW_MY_BOOL; var->value= buff; *((my_bool *)buff)= (my_bool) (active_mi && active_mi->slave_running == MYSQL_SLAVE_RUN_CONNECT && active_mi->rli->slave_running); return 0; } static int show_slave_retried_trans(THD *thd, SHOW_VAR *var, char *buff) { /* TODO: with multimaster, have one such counter per line in SHOW SLAVE STATUS, and have the sum over all lines here. */ if (active_mi) { var->type= SHOW_LONG; var->value= buff; *((long *)buff)= (long)active_mi->rli->retried_trans; } else var->type= SHOW_UNDEF; return 0; } static int show_slave_received_heartbeats(THD *thd, SHOW_VAR *var, char *buff) { if (active_mi) { var->type= SHOW_LONGLONG; var->value= buff; *((longlong *)buff)= active_mi->received_heartbeats; } else var->type= SHOW_UNDEF; return 0; } static int show_slave_last_heartbeat(THD *thd, SHOW_VAR *var, char *buff) { MYSQL_TIME received_heartbeat_time; if (active_mi) { var->type= SHOW_CHAR; var->value= buff; if (active_mi->last_heartbeat == 0) buff[0]='\0'; else { thd->variables.time_zone->gmt_sec_to_TIME(&received_heartbeat_time, active_mi->last_heartbeat); my_datetime_to_str(&received_heartbeat_time, buff, 0); } } else var->type= SHOW_UNDEF; return 0; } static int show_heartbeat_period(THD *thd, SHOW_VAR *var, char *buff) { DEBUG_SYNC(thd, "dsync_show_heartbeat_period"); if (active_mi) { var->type= SHOW_CHAR; var->value= buff; sprintf(buff, "%.3f", active_mi->heartbeat_period); } else var->type= SHOW_UNDEF; return 0; } #ifndef DBUG_OFF static int show_slave_rows_last_search_algorithm_used(THD *thd, SHOW_VAR *var, char *buff) { uint res= slave_rows_last_search_algorithm_used; const char* s= ((res == Rows_log_event::ROW_LOOKUP_TABLE_SCAN) ? "TABLE_SCAN" : ((res == Rows_log_event::ROW_LOOKUP_HASH_SCAN) ? "HASH_SCAN" : "INDEX_SCAN")); var->type= SHOW_CHAR; var->value= buff; sprintf(buff, "%s", s); return 0; } #endif #endif /* HAVE_REPLICATION */ static int show_open_tables(THD *thd, SHOW_VAR *var, char *buff) { var->type= SHOW_LONG; var->value= buff; *((long *)buff)= (long)table_cache_manager.cached_tables(); return 0; } static int show_prepared_stmt_count(THD *thd, SHOW_VAR *var, char *buff) { var->type= SHOW_LONG; var->value= buff; mysql_mutex_lock(&LOCK_prepared_stmt_count); *((long *)buff)= (long)prepared_stmt_count; mysql_mutex_unlock(&LOCK_prepared_stmt_count); return 0; } static int show_table_definitions(THD *thd, SHOW_VAR *var, char *buff) { var->type= SHOW_LONG; var->value= buff; *((long *)buff)= (long)cached_table_definitions(); return 0; } #if defined(HAVE_OPENSSL) && !defined(EMBEDDED_LIBRARY) /* Functions relying on CTX */ static int show_ssl_ctx_sess_accept(THD *thd, SHOW_VAR *var, char *buff) { var->type= SHOW_LONG; var->value= buff; *((long *)buff)= (!ssl_acceptor_fd ? 0 : SSL_CTX_sess_accept(ssl_acceptor_fd->ssl_context)); return 0; } static int show_ssl_ctx_sess_accept_good(THD *thd, SHOW_VAR *var, char *buff) { var->type= SHOW_LONG; var->value= buff; *((long *)buff)= (!ssl_acceptor_fd ? 0 : SSL_CTX_sess_accept_good(ssl_acceptor_fd->ssl_context)); return 0; } static int show_ssl_ctx_sess_connect_good(THD *thd, SHOW_VAR *var, char *buff) { var->type= SHOW_LONG; var->value= buff; *((long *)buff)= (!ssl_acceptor_fd ? 0 : SSL_CTX_sess_connect_good(ssl_acceptor_fd->ssl_context)); return 0; } static int show_ssl_ctx_sess_accept_renegotiate(THD *thd, SHOW_VAR *var, char *buff) { var->type= SHOW_LONG; var->value= buff; *((long *)buff)= (!ssl_acceptor_fd ? 0 : SSL_CTX_sess_accept_renegotiate(ssl_acceptor_fd->ssl_context)); return 0; } static int show_ssl_ctx_sess_connect_renegotiate(THD *thd, SHOW_VAR *var, char *buff) { var->type= SHOW_LONG; var->value= buff; *((long *)buff)= (!ssl_acceptor_fd ? 0 : SSL_CTX_sess_connect_renegotiate(ssl_acceptor_fd->ssl_context)); return 0; } static int show_ssl_ctx_sess_cb_hits(THD *thd, SHOW_VAR *var, char *buff) { var->type= SHOW_LONG; var->value= buff; *((long *)buff)= (!ssl_acceptor_fd ? 0 : SSL_CTX_sess_cb_hits(ssl_acceptor_fd->ssl_context)); return 0; } static int show_ssl_ctx_sess_hits(THD *thd, SHOW_VAR *var, char *buff) { var->type= SHOW_LONG; var->value= buff; *((long *)buff)= (!ssl_acceptor_fd ? 0 : SSL_CTX_sess_hits(ssl_acceptor_fd->ssl_context)); return 0; } static int show_ssl_ctx_sess_cache_full(THD *thd, SHOW_VAR *var, char *buff) { var->type= SHOW_LONG; var->value= buff; *((long *)buff)= (!ssl_acceptor_fd ? 0 : SSL_CTX_sess_cache_full(ssl_acceptor_fd->ssl_context)); return 0; } static int show_ssl_ctx_sess_misses(THD *thd, SHOW_VAR *var, char *buff) { var->type= SHOW_LONG; var->value= buff; *((long *)buff)= (!ssl_acceptor_fd ? 0 : SSL_CTX_sess_misses(ssl_acceptor_fd->ssl_context)); return 0; } static int show_ssl_ctx_sess_timeouts(THD *thd, SHOW_VAR *var, char *buff) { var->type= SHOW_LONG; var->value= buff; *((long *)buff)= (!ssl_acceptor_fd ? 0 : SSL_CTX_sess_timeouts(ssl_acceptor_fd->ssl_context)); return 0; } static int show_ssl_ctx_sess_number(THD *thd, SHOW_VAR *var, char *buff) { var->type= SHOW_LONG; var->value= buff; *((long *)buff)= (!ssl_acceptor_fd ? 0 : SSL_CTX_sess_number(ssl_acceptor_fd->ssl_context)); return 0; } static int show_ssl_ctx_sess_connect(THD *thd, SHOW_VAR *var, char *buff) { var->type= SHOW_LONG; var->value= buff; *((long *)buff)= (!ssl_acceptor_fd ? 0 : SSL_CTX_sess_connect(ssl_acceptor_fd->ssl_context)); return 0; } static int show_ssl_ctx_sess_get_cache_size(THD *thd, SHOW_VAR *var, char *buff) { var->type= SHOW_LONG; var->value= buff; *((long *)buff)= (!ssl_acceptor_fd ? 0 : SSL_CTX_sess_get_cache_size(ssl_acceptor_fd->ssl_context)); return 0; } static int show_ssl_ctx_get_verify_mode(THD *thd, SHOW_VAR *var, char *buff) { var->type= SHOW_LONG; var->value= buff; *((long *)buff)= (!ssl_acceptor_fd ? 0 : SSL_CTX_get_verify_mode(ssl_acceptor_fd->ssl_context)); return 0; } static int show_ssl_ctx_get_verify_depth(THD *thd, SHOW_VAR *var, char *buff) { var->type= SHOW_LONG; var->value= buff; *((long *)buff)= (!ssl_acceptor_fd ? 0 : SSL_CTX_get_verify_depth(ssl_acceptor_fd->ssl_context)); return 0; } static int show_ssl_ctx_get_session_cache_mode(THD *thd, SHOW_VAR *var, char *buff) { var->type= SHOW_CHAR; if (!ssl_acceptor_fd) var->value= const_cast("NONE"); else switch (SSL_CTX_get_session_cache_mode(ssl_acceptor_fd->ssl_context)) { case SSL_SESS_CACHE_OFF: var->value= const_cast("OFF"); break; case SSL_SESS_CACHE_CLIENT: var->value= const_cast("CLIENT"); break; case SSL_SESS_CACHE_SERVER: var->value= const_cast("SERVER"); break; case SSL_SESS_CACHE_BOTH: var->value= const_cast("BOTH"); break; case SSL_SESS_CACHE_NO_AUTO_CLEAR: var->value= const_cast("NO_AUTO_CLEAR"); break; case SSL_SESS_CACHE_NO_INTERNAL_LOOKUP: var->value= const_cast("NO_INTERNAL_LOOKUP"); break; default: var->value= const_cast("Unknown"); break; } return 0; } /* Functions relying on SSL Note: In the show_ssl_* functions, we need to check if we have a valid vio-object since this isn't always true, specifically when session_status or global_status is requested from inside an Event. */ static int show_ssl_get_version(THD *thd, SHOW_VAR *var, char *buff) { var->type= SHOW_CHAR; if( thd->vio_ok() && thd->net.vio->ssl_arg ) var->value= const_cast(SSL_get_version((SSL*) thd->net.vio->ssl_arg)); else var->value= (char *)""; return 0; } static int show_ssl_session_reused(THD *thd, SHOW_VAR *var, char *buff) { var->type= SHOW_LONG; var->value= buff; if( thd->vio_ok() && thd->net.vio->ssl_arg ) *((long *)buff)= (long)SSL_session_reused((SSL*) thd->net.vio->ssl_arg); else *((long *)buff)= 0; return 0; } static int show_ssl_get_default_timeout(THD *thd, SHOW_VAR *var, char *buff) { var->type= SHOW_LONG; var->value= buff; if( thd->vio_ok() && thd->net.vio->ssl_arg ) *((long *)buff)= (long)SSL_get_default_timeout((SSL*)thd->net.vio->ssl_arg); else *((long *)buff)= 0; return 0; } static int show_ssl_get_verify_mode(THD *thd, SHOW_VAR *var, char *buff) { var->type= SHOW_LONG; var->value= buff; if( thd->net.vio && thd->net.vio->ssl_arg ) *((long *)buff)= (long)SSL_get_verify_mode((SSL*)thd->net.vio->ssl_arg); else *((long *)buff)= 0; return 0; } static int show_ssl_get_verify_depth(THD *thd, SHOW_VAR *var, char *buff) { var->type= SHOW_LONG; var->value= buff; if( thd->vio_ok() && thd->net.vio->ssl_arg ) *((long *)buff)= (long)SSL_get_verify_depth((SSL*)thd->net.vio->ssl_arg); else *((long *)buff)= 0; return 0; } static int show_ssl_get_cipher(THD *thd, SHOW_VAR *var, char *buff) { var->type= SHOW_CHAR; if( thd->vio_ok() && thd->net.vio->ssl_arg ) var->value= const_cast(SSL_get_cipher((SSL*) thd->net.vio->ssl_arg)); else var->value= (char *)""; return 0; } static int show_ssl_get_cipher_list(THD *thd, SHOW_VAR *var, char *buff) { var->type= SHOW_CHAR; var->value= buff; if (thd->vio_ok() && thd->net.vio->ssl_arg) { int i; const char *p; char *end= buff + SHOW_VAR_FUNC_BUFF_SIZE; for (i=0; (p= SSL_get_cipher_list((SSL*) thd->net.vio->ssl_arg,i)) && buff < end; i++) { buff= strnmov(buff, p, end-buff-1); *buff++= ':'; } if (i) buff--; } *buff=0; return 0; } static char * my_asn1_time_to_string(ASN1_TIME *time, char *buf, size_t len) { int n_read; char *res= NULL; BIO *bio= BIO_new(BIO_s_mem()); if (bio == NULL) return NULL; if (!ASN1_TIME_print(bio, time)) goto end; n_read= BIO_read(bio, buf, (int) (len - 1)); if (n_read > 0) { buf[n_read]= 0; res= buf; } end: BIO_free(bio); return res; } /** Handler function for the 'ssl_get_server_not_before' variable @param thd the mysql thread structure @param var the data for the variable @param[out] buf the string to put the value of the variable into @return status @retval 0 success */ static int show_ssl_get_server_not_before(THD *thd, SHOW_VAR *var, char *buff) { var->type= SHOW_CHAR; if(thd->vio_ok() && thd->net.vio->ssl_arg) { SSL *ssl= (SSL*) thd->net.vio->ssl_arg; X509 *cert= SSL_get_certificate(ssl); ASN1_TIME *not_before= X509_get_notBefore(cert); var->value= my_asn1_time_to_string(not_before, buff, SHOW_VAR_FUNC_BUFF_SIZE); if (!var->value) return 1; var->value= buff; } else var->value= empty_c_string; return 0; } /** Handler function for the 'ssl_get_server_not_after' variable @param thd the mysql thread structure @param var the data for the variable @param[out] buf the string to put the value of the variable into @return status @retval 0 success */ static int show_ssl_get_server_not_after(THD *thd, SHOW_VAR *var, char *buff) { var->type= SHOW_CHAR; if(thd->vio_ok() && thd->net.vio->ssl_arg) { SSL *ssl= (SSL*) thd->net.vio->ssl_arg; X509 *cert= SSL_get_certificate(ssl); ASN1_TIME *not_after= X509_get_notAfter(cert); var->value= my_asn1_time_to_string(not_after, buff, SHOW_VAR_FUNC_BUFF_SIZE); if (!var->value) return 1; } else var->value= empty_c_string; return 0; } #endif /* HAVE_OPENSSL && !EMBEDDED_LIBRARY */ /* Variables shown by SHOW STATUS in alphabetical order */ SHOW_VAR status_vars[]= { {"Aborted_clients", (char*) &aborted_threads, SHOW_LONG}, {"Aborted_connects", (char*) &aborted_connects, SHOW_LONG}, {"Binlog_cache_disk_use", (char*) &binlog_cache_disk_use, SHOW_LONG}, {"Binlog_cache_use", (char*) &binlog_cache_use, SHOW_LONG}, {"Binlog_stmt_cache_disk_use",(char*) &binlog_stmt_cache_disk_use, SHOW_LONG}, {"Binlog_stmt_cache_use", (char*) &binlog_stmt_cache_use, SHOW_LONG}, {"Bytes_received", (char*) offsetof(STATUS_VAR, bytes_received), SHOW_LONGLONG_STATUS}, {"Bytes_sent", (char*) offsetof(STATUS_VAR, bytes_sent), SHOW_LONGLONG_STATUS}, {"Com", (char*) com_status_vars, SHOW_ARRAY}, {"Compression", (char*) &show_net_compression, SHOW_FUNC}, {"Connections", (char*) &thread_id, SHOW_LONG_NOFLUSH}, {"Connection_errors_accept", (char*) &connection_errors_accept, SHOW_LONG}, {"Connection_errors_internal", (char*) &connection_errors_internal, SHOW_LONG}, {"Connection_errors_max_connections", (char*) &connection_errors_max_connection, SHOW_LONG}, {"Connection_errors_peer_address", (char*) &connection_errors_peer_addr, SHOW_LONG}, {"Connection_errors_select", (char*) &connection_errors_select, SHOW_LONG}, {"Connection_errors_tcpwrap", (char*) &connection_errors_tcpwrap, SHOW_LONG}, {"Created_tmp_disk_tables", (char*) offsetof(STATUS_VAR, created_tmp_disk_tables), SHOW_LONGLONG_STATUS}, {"Created_tmp_files", (char*) &my_tmp_file_created, SHOW_LONG}, {"Created_tmp_tables", (char*) offsetof(STATUS_VAR, created_tmp_tables), SHOW_LONGLONG_STATUS}, {"Delayed_errors", (char*) &delayed_insert_errors, SHOW_LONG}, {"Delayed_insert_threads", (char*) &delayed_insert_threads, SHOW_LONG_NOFLUSH}, {"Delayed_writes", (char*) &delayed_insert_writes, SHOW_LONG}, {"Flush_commands", (char*) &refresh_version, SHOW_LONG_NOFLUSH}, {"Handler_commit", (char*) offsetof(STATUS_VAR, ha_commit_count), SHOW_LONGLONG_STATUS}, {"Handler_delete", (char*) offsetof(STATUS_VAR, ha_delete_count), SHOW_LONGLONG_STATUS}, {"Handler_discover", (char*) offsetof(STATUS_VAR, ha_discover_count), SHOW_LONGLONG_STATUS}, {"Handler_external_lock", (char*) offsetof(STATUS_VAR, ha_external_lock_count), SHOW_LONGLONG_STATUS}, {"Handler_mrr_init", (char*) offsetof(STATUS_VAR, ha_multi_range_read_init_count), SHOW_LONGLONG_STATUS}, {"Handler_prepare", (char*) offsetof(STATUS_VAR, ha_prepare_count), SHOW_LONGLONG_STATUS}, {"Handler_read_first", (char*) offsetof(STATUS_VAR, ha_read_first_count), SHOW_LONGLONG_STATUS}, {"Handler_read_key", (char*) offsetof(STATUS_VAR, ha_read_key_count), SHOW_LONGLONG_STATUS}, {"Handler_read_last", (char*) offsetof(STATUS_VAR, ha_read_last_count), SHOW_LONGLONG_STATUS}, {"Handler_read_next", (char*) offsetof(STATUS_VAR, ha_read_next_count), SHOW_LONGLONG_STATUS}, {"Handler_read_prev", (char*) offsetof(STATUS_VAR, ha_read_prev_count), SHOW_LONGLONG_STATUS}, {"Handler_read_rnd", (char*) offsetof(STATUS_VAR, ha_read_rnd_count), SHOW_LONGLONG_STATUS}, {"Handler_read_rnd_next", (char*) offsetof(STATUS_VAR, ha_read_rnd_next_count), SHOW_LONGLONG_STATUS}, {"Handler_rollback", (char*) offsetof(STATUS_VAR, ha_rollback_count), SHOW_LONGLONG_STATUS}, {"Handler_savepoint", (char*) offsetof(STATUS_VAR, ha_savepoint_count), SHOW_LONGLONG_STATUS}, {"Handler_savepoint_rollback",(char*) offsetof(STATUS_VAR, ha_savepoint_rollback_count), SHOW_LONGLONG_STATUS}, {"Handler_update", (char*) offsetof(STATUS_VAR, ha_update_count), SHOW_LONGLONG_STATUS}, {"Handler_write", (char*) offsetof(STATUS_VAR, ha_write_count), SHOW_LONGLONG_STATUS}, {"Key_blocks_not_flushed", (char*) offsetof(KEY_CACHE, global_blocks_changed), SHOW_KEY_CACHE_LONG}, {"Key_blocks_unused", (char*) offsetof(KEY_CACHE, blocks_unused), SHOW_KEY_CACHE_LONG}, {"Key_blocks_used", (char*) offsetof(KEY_CACHE, blocks_used), SHOW_KEY_CACHE_LONG}, {"Key_read_requests", (char*) offsetof(KEY_CACHE, global_cache_r_requests), SHOW_KEY_CACHE_LONGLONG}, {"Key_reads", (char*) offsetof(KEY_CACHE, global_cache_read), SHOW_KEY_CACHE_LONGLONG}, {"Key_write_requests", (char*) offsetof(KEY_CACHE, global_cache_w_requests), SHOW_KEY_CACHE_LONGLONG}, {"Key_writes", (char*) offsetof(KEY_CACHE, global_cache_write), SHOW_KEY_CACHE_LONGLONG}, {"Last_query_cost", (char*) offsetof(STATUS_VAR, last_query_cost), SHOW_DOUBLE_STATUS}, {"Last_query_partial_plans", (char*) offsetof(STATUS_VAR, last_query_partial_plans), SHOW_LONGLONG_STATUS}, {"Max_used_connections", (char*) &max_used_connections, SHOW_LONG}, {"Not_flushed_delayed_rows", (char*) &delayed_rows_in_use, SHOW_LONG_NOFLUSH}, {"Open_files", (char*) &my_file_opened, SHOW_LONG_NOFLUSH}, {"Open_streams", (char*) &my_stream_opened, SHOW_LONG_NOFLUSH}, {"Open_table_definitions", (char*) &show_table_definitions, SHOW_FUNC}, {"Open_tables", (char*) &show_open_tables, SHOW_FUNC}, {"Opened_files", (char*) &my_file_total_opened, SHOW_LONG_NOFLUSH}, {"Opened_tables", (char*) offsetof(STATUS_VAR, opened_tables), SHOW_LONGLONG_STATUS}, {"Opened_table_definitions", (char*) offsetof(STATUS_VAR, opened_shares), SHOW_LONGLONG_STATUS}, {"Prepared_stmt_count", (char*) &show_prepared_stmt_count, SHOW_FUNC}, #ifdef HAVE_QUERY_CACHE {"Qcache_free_blocks", (char*) &query_cache.free_memory_blocks, SHOW_LONG_NOFLUSH}, {"Qcache_free_memory", (char*) &query_cache.free_memory, SHOW_LONG_NOFLUSH}, {"Qcache_hits", (char*) &query_cache.hits, SHOW_LONG}, {"Qcache_inserts", (char*) &query_cache.inserts, SHOW_LONG}, {"Qcache_lowmem_prunes", (char*) &query_cache.lowmem_prunes, SHOW_LONG}, {"Qcache_not_cached", (char*) &query_cache.refused, SHOW_LONG}, {"Qcache_queries_in_cache", (char*) &query_cache.queries_in_cache, SHOW_LONG_NOFLUSH}, {"Qcache_total_blocks", (char*) &query_cache.total_blocks, SHOW_LONG_NOFLUSH}, #endif /*HAVE_QUERY_CACHE*/ {"Queries", (char*) &show_queries, SHOW_FUNC}, {"Questions", (char*) offsetof(STATUS_VAR, questions), SHOW_LONGLONG_STATUS}, {"Select_full_join", (char*) offsetof(STATUS_VAR, select_full_join_count), SHOW_LONGLONG_STATUS}, {"Select_full_range_join", (char*) offsetof(STATUS_VAR, select_full_range_join_count), SHOW_LONGLONG_STATUS}, {"Select_range", (char*) offsetof(STATUS_VAR, select_range_count), SHOW_LONGLONG_STATUS}, {"Select_range_check", (char*) offsetof(STATUS_VAR, select_range_check_count), SHOW_LONGLONG_STATUS}, {"Select_scan", (char*) offsetof(STATUS_VAR, select_scan_count), SHOW_LONGLONG_STATUS}, {"Slave_open_temp_tables", (char*) &slave_open_temp_tables, SHOW_INT}, #ifdef HAVE_REPLICATION {"Slave_retried_transactions",(char*) &show_slave_retried_trans, SHOW_FUNC}, {"Slave_heartbeat_period", (char*) &show_heartbeat_period, SHOW_FUNC}, {"Slave_received_heartbeats",(char*) &show_slave_received_heartbeats, SHOW_FUNC}, {"Slave_last_heartbeat", (char*) &show_slave_last_heartbeat, SHOW_FUNC}, #ifndef DBUG_OFF {"Slave_rows_last_search_algorithm_used",(char*) &show_slave_rows_last_search_algorithm_used, SHOW_FUNC}, #endif {"Slave_running", (char*) &show_slave_running, SHOW_FUNC}, #endif {"Slow_launch_threads", (char*) &slow_launch_threads, SHOW_LONG}, {"Slow_queries", (char*) offsetof(STATUS_VAR, long_query_count), SHOW_LONGLONG_STATUS}, {"Sort_merge_passes", (char*) offsetof(STATUS_VAR, filesort_merge_passes), SHOW_LONGLONG_STATUS}, {"Sort_range", (char*) offsetof(STATUS_VAR, filesort_range_count), SHOW_LONGLONG_STATUS}, {"Sort_rows", (char*) offsetof(STATUS_VAR, filesort_rows), SHOW_LONGLONG_STATUS}, {"Sort_scan", (char*) offsetof(STATUS_VAR, filesort_scan_count), SHOW_LONGLONG_STATUS}, #ifdef HAVE_OPENSSL #ifndef EMBEDDED_LIBRARY {"Ssl_accept_renegotiates", (char*) &show_ssl_ctx_sess_accept_renegotiate, SHOW_FUNC}, {"Ssl_accepts", (char*) &show_ssl_ctx_sess_accept, SHOW_FUNC}, {"Ssl_callback_cache_hits", (char*) &show_ssl_ctx_sess_cb_hits, SHOW_FUNC}, {"Ssl_cipher", (char*) &show_ssl_get_cipher, SHOW_FUNC}, {"Ssl_cipher_list", (char*) &show_ssl_get_cipher_list, SHOW_FUNC}, {"Ssl_client_connects", (char*) &show_ssl_ctx_sess_connect, SHOW_FUNC}, {"Ssl_connect_renegotiates", (char*) &show_ssl_ctx_sess_connect_renegotiate, SHOW_FUNC}, {"Ssl_ctx_verify_depth", (char*) &show_ssl_ctx_get_verify_depth, SHOW_FUNC}, {"Ssl_ctx_verify_mode", (char*) &show_ssl_ctx_get_verify_mode, SHOW_FUNC}, {"Ssl_default_timeout", (char*) &show_ssl_get_default_timeout, SHOW_FUNC}, {"Ssl_finished_accepts", (char*) &show_ssl_ctx_sess_accept_good, SHOW_FUNC}, {"Ssl_finished_connects", (char*) &show_ssl_ctx_sess_connect_good, SHOW_FUNC}, {"Ssl_session_cache_hits", (char*) &show_ssl_ctx_sess_hits, SHOW_FUNC}, {"Ssl_session_cache_misses", (char*) &show_ssl_ctx_sess_misses, SHOW_FUNC}, {"Ssl_session_cache_mode", (char*) &show_ssl_ctx_get_session_cache_mode, SHOW_FUNC}, {"Ssl_session_cache_overflows", (char*) &show_ssl_ctx_sess_cache_full, SHOW_FUNC}, {"Ssl_session_cache_size", (char*) &show_ssl_ctx_sess_get_cache_size, SHOW_FUNC}, {"Ssl_session_cache_timeouts", (char*) &show_ssl_ctx_sess_timeouts, SHOW_FUNC}, {"Ssl_sessions_reused", (char*) &show_ssl_session_reused, SHOW_FUNC}, {"Ssl_used_session_cache_entries",(char*) &show_ssl_ctx_sess_number, SHOW_FUNC}, {"Ssl_verify_depth", (char*) &show_ssl_get_verify_depth, SHOW_FUNC}, {"Ssl_verify_mode", (char*) &show_ssl_get_verify_mode, SHOW_FUNC}, {"Ssl_version", (char*) &show_ssl_get_version, SHOW_FUNC}, {"Ssl_server_not_before", (char*) &show_ssl_get_server_not_before, SHOW_FUNC}, {"Ssl_server_not_after", (char*) &show_ssl_get_server_not_after, SHOW_FUNC}, {"Rsa_public_key", (char*) &show_rsa_public_key, SHOW_FUNC}, #endif #endif /* HAVE_OPENSSL */ {"Table_locks_immediate", (char*) &locks_immediate, SHOW_LONG}, {"Table_locks_waited", (char*) &locks_waited, SHOW_LONG}, {"Table_open_cache_hits", (char*) offsetof(STATUS_VAR, table_open_cache_hits), SHOW_LONGLONG_STATUS}, {"Table_open_cache_misses", (char*) offsetof(STATUS_VAR, table_open_cache_misses), SHOW_LONGLONG_STATUS}, {"Table_open_cache_overflows",(char*) offsetof(STATUS_VAR, table_open_cache_overflows), SHOW_LONGLONG_STATUS}, #ifdef HAVE_MMAP {"Tc_log_max_pages_used", (char*) &tc_log_max_pages_used, SHOW_LONG}, {"Tc_log_page_size", (char*) &tc_log_page_size, SHOW_LONG}, {"Tc_log_page_waits", (char*) &tc_log_page_waits, SHOW_LONG}, #endif {"Threads_cached", (char*) &blocked_pthread_count, SHOW_LONG_NOFLUSH}, {"Threads_connected", (char*) &connection_count, SHOW_INT}, {"Threads_created", (char*) &thread_created, SHOW_LONG_NOFLUSH}, {"Threads_running", (char*) &num_thread_running, SHOW_INT}, {"Uptime", (char*) &show_starttime, SHOW_FUNC}, #ifdef ENABLED_PROFILING {"Uptime_since_flush_status",(char*) &show_flushstatustime, SHOW_FUNC}, #endif #ifdef WITH_WSREP {"wsrep_connected", (char*) &wsrep_connected, SHOW_BOOL}, {"wsrep_ready", (char*) &wsrep_show_ready, SHOW_FUNC}, {"wsrep_cluster_state_uuid", (char*) &wsrep_cluster_state_uuid,SHOW_CHAR_PTR}, {"wsrep_cluster_conf_id", (char*) &wsrep_cluster_conf_id, SHOW_LONGLONG}, {"wsrep_cluster_status", (char*) &wsrep_cluster_status, SHOW_CHAR_PTR}, {"wsrep_cluster_size", (char*) &wsrep_cluster_size, SHOW_LONG_NOFLUSH}, {"wsrep_local_index", (char*) &wsrep_local_index, SHOW_LONG_NOFLUSH}, {"wsrep_local_bf_aborts", (char*) &wsrep_show_bf_aborts, SHOW_FUNC}, {"wsrep_provider_name", (char*) &wsrep_provider_name, SHOW_CHAR_PTR}, {"wsrep_provider_version", (char*) &wsrep_provider_version, SHOW_CHAR_PTR}, {"wsrep_provider_vendor", (char*) &wsrep_provider_vendor, SHOW_CHAR_PTR}, {"wsrep", (char*) &wsrep_show_status, SHOW_FUNC}, #endif {NullS, NullS, SHOW_LONG} }; void add_terminator(vector *options) { my_option empty_element= {0, 0, 0, 0, 0, 0, GET_NO_ARG, NO_ARG, 0, 0, 0, 0, 0, 0}; options->push_back(empty_element); } #ifndef EMBEDDED_LIBRARY static void print_version(void) { set_server_version(); printf("%s Ver %s for %s on %s (%s)\n",my_progname, server_version,SYSTEM_TYPE,MACHINE_TYPE, MYSQL_COMPILATION_COMMENT); } /** Compares two options' names, treats - and _ the same */ static bool operator<(const my_option &a, const my_option &b) { const char *sa= a.name; const char *sb= b.name; for (; *sa || *sb; sa++, sb++) { if (*sa < *sb) { if (*sa == '-' && *sb == '_') continue; else return true; } if (*sa > *sb) { if (*sa == '_' && *sb == '-') continue; else return false; } } DBUG_ASSERT(a.name == b.name); return false; } static void print_help() { MEM_ROOT mem_root; init_alloc_root(&mem_root, 4096, 4096); all_options.pop_back(); sys_var_add_options(&all_options, sys_var::PARSE_EARLY); for (my_option *opt= my_long_early_options; opt->name != NULL; opt++) { all_options.push_back(*opt); } add_plugin_options(&all_options, &mem_root); std::sort(all_options.begin(), all_options.end(), std::less()); add_terminator(&all_options); my_print_help(&all_options[0]); my_print_variables(&all_options[0]); free_root(&mem_root, MYF(0)); vector().swap(all_options); // Deletes the vector contents. } static void usage(void) { DBUG_ENTER("usage"); if (!(default_charset_info= get_charset_by_csname(default_character_set_name, MY_CS_PRIMARY, MYF(MY_WME)))) exit(1); if (!default_collation_name) default_collation_name= (char*) default_charset_info->name; print_version(); puts(ORACLE_WELCOME_COPYRIGHT_NOTICE("2000")); puts("Starts the MySQL database server.\n"); printf("Usage: %s [OPTIONS]\n", my_progname); if (!opt_verbose) puts("\nFor more help options (several pages), use mysqld --verbose --help."); else { #ifdef __WIN__ puts("NT and Win32 specific options:\n\ --install Install the default service (NT).\n\ --install-manual Install the default service started manually (NT).\n\ --install service_name Install an optional service (NT).\n\ --install-manual service_name Install an optional service started manually (NT).\n\ --remove Remove the default service from the service list (NT).\n\ --remove service_name Remove the service_name from the service list (NT).\n\ --enable-named-pipe Only to be used for the default server (NT).\n\ --standalone Dummy option to start as a standalone server (NT).\ "); puts(""); #endif print_defaults(MYSQL_CONFIG_NAME,load_default_groups); puts(""); set_ports(); /* Print out all the options including plugin supplied options */ print_help(); if (! plugins_are_initialized) { puts("\n\ Plugins have parameters that are not reflected in this list\n\ because execution stopped before plugins were initialized."); } puts("\n\ To see what values a running MySQL server is using, type\n\ 'mysqladmin variables' instead of 'mysqld --verbose --help'."); } DBUG_VOID_RETURN; } #endif /*!EMBEDDED_LIBRARY*/ /** Initialize MySQL global variables to default values. @note The reason to set a lot of global variables to zero is to allow one to restart the embedded server with a clean environment It's also needed on some exotic platforms where global variables are not set to 0 when a program starts. We don't need to set variables refered to in my_long_options as these are initialized by my_getopt. */ static int mysql_init_variables(void) { /* Things reset to zero */ opt_skip_slave_start= opt_reckless_slave = 0; mysql_home[0]= pidfile_name[0]= log_error_file[0]= 0; myisam_test_invalid_symlink= test_if_data_home_dir; opt_log= opt_slow_log= 0; opt_bin_log= 0; opt_disable_networking= opt_skip_show_db=0; opt_skip_name_resolve= 0; opt_ignore_builtin_innodb= 0; opt_logname= opt_update_logname= opt_binlog_index_name= opt_slow_logname= 0; opt_tc_log_file= (char *)"tc.log"; // no hostname in tc_log file name ! opt_secure_auth= 0; opt_myisam_log= 0; mqh_used= 0; kill_in_progress= 0; cleanup_done= 0; server_id_supplied= 0; test_flags= select_errors= dropping_tables= ha_open_options=0; global_thread_count= num_thread_running= kill_blocked_pthreads_flag= wake_pthread=0; slave_open_temp_tables= 0; blocked_pthread_count= 0; opt_endinfo= using_udf_functions= 0; opt_using_transactions= 0; abort_loop= select_thread_in_use= signal_thread_in_use= 0; ready_to_exit= shutdown_in_progress= grant_option= 0; aborted_threads= aborted_connects= 0; delayed_insert_threads= delayed_insert_writes= delayed_rows_in_use= 0; delayed_insert_errors= thread_created= 0; specialflag= 0; binlog_cache_use= binlog_cache_disk_use= 0; max_used_connections= slow_launch_threads = 0; mysqld_user= mysqld_chroot= opt_init_file= opt_bin_logname = 0; prepared_stmt_count= 0; mysqld_unix_port= opt_mysql_tmpdir= my_bind_addr_str= NullS; memset(&mysql_tmpdir_list, 0, sizeof(mysql_tmpdir_list)); memset(&global_status_var, 0, sizeof(global_status_var)); opt_large_pages= 0; opt_super_large_pages= 0; #if defined(ENABLED_DEBUG_SYNC) opt_debug_sync_timeout= 0; #endif /* defined(ENABLED_DEBUG_SYNC) */ key_map_full.set_all(); server_uuid[0]= 0; /* Character sets */ system_charset_info= &my_charset_utf8_general_ci; files_charset_info= &my_charset_utf8_general_ci; national_charset_info= &my_charset_utf8_general_ci; table_alias_charset= &my_charset_bin; character_set_filesystem= &my_charset_bin; opt_specialflag= SPECIAL_ENGLISH; unix_sock= MYSQL_INVALID_SOCKET; ip_sock= MYSQL_INVALID_SOCKET; mysql_home_ptr= mysql_home; pidfile_name_ptr= pidfile_name; log_error_file_ptr= log_error_file; lc_messages_dir_ptr= lc_messages_dir; protocol_version= PROTOCOL_VERSION; what_to_log= ~ (1L << (uint) COM_TIME); refresh_version= 1L; /* Increments on each reload */ global_query_id= thread_id= 1L; my_atomic_rwlock_init(&opt_binlog_max_flush_queue_time_lock); my_atomic_rwlock_init(&global_query_id_lock); my_atomic_rwlock_init(&thread_running_lock); strmov(server_version, MYSQL_SERVER_VERSION); global_thread_list= new std::set; waiting_thd_list= new std::list; key_caches.empty(); if (!(dflt_key_cache= get_or_create_key_cache(default_key_cache_base.str, default_key_cache_base.length))) { sql_print_error("Cannot allocate the keycache"); return 1; } /* set key_cache_hash.default_value = dflt_key_cache */ multi_keycache_init(); /* Set directory paths */ mysql_real_data_home_len= strmake(mysql_real_data_home, get_relative_path(MYSQL_DATADIR), sizeof(mysql_real_data_home)-1) - mysql_real_data_home; /* Replication parameters */ master_info_file= (char*) "master.info", relay_log_info_file= (char*) "relay-log.info"; report_user= report_password = report_host= 0; /* TO BE DELETED */ opt_relay_logname= opt_relaylog_index_name= 0; log_bin_basename= NULL; log_bin_index= NULL; /* Handler variables */ total_ha= 0; total_ha_2pc= 0; /* Variables in libraries */ charsets_dir= 0; default_character_set_name= (char*) MYSQL_DEFAULT_CHARSET_NAME; default_collation_name= compiled_default_collation_name; character_set_filesystem_name= (char*) "binary"; lc_messages= (char*) "en_US"; lc_time_names_name= (char*) "en_US"; /* Variables that depends on compile options */ #ifndef DBUG_OFF default_dbug_option=IF_WIN("d:t:i:O,\\mysqld.trace", "d:t:i:o,/tmp/mysqld.trace"); #endif opt_error_log= IF_WIN(1,0); #ifdef ENABLED_PROFILING have_profiling = SHOW_OPTION_YES; #else have_profiling = SHOW_OPTION_NO; #endif #ifdef HAVE_OPENSSL have_ssl=SHOW_OPTION_YES; #else have_ssl=SHOW_OPTION_NO; #endif #ifdef HAVE_BROKEN_REALPATH have_symlink=SHOW_OPTION_NO; #else have_symlink=SHOW_OPTION_YES; #endif #ifdef HAVE_DLOPEN have_dlopen=SHOW_OPTION_YES; #else have_dlopen=SHOW_OPTION_NO; #endif #ifdef HAVE_QUERY_CACHE have_query_cache=SHOW_OPTION_YES; #else have_query_cache=SHOW_OPTION_NO; #endif #ifdef HAVE_SPATIAL have_geometry=SHOW_OPTION_YES; #else have_geometry=SHOW_OPTION_NO; #endif #ifdef HAVE_RTREE_KEYS have_rtree_keys=SHOW_OPTION_YES; #else have_rtree_keys=SHOW_OPTION_NO; #endif #ifdef HAVE_CRYPT have_crypt=SHOW_OPTION_YES; #else have_crypt=SHOW_OPTION_NO; #endif #ifdef HAVE_COMPRESS have_compress= SHOW_OPTION_YES; #else have_compress= SHOW_OPTION_NO; #endif #ifdef HAVE_LIBWRAP libwrapName= NullS; #endif #ifdef HAVE_OPENSSL des_key_file = 0; #ifndef EMBEDDED_LIBRARY ssl_acceptor_fd= 0; #endif /* ! EMBEDDED_LIBRARY */ #endif /* HAVE_OPENSSL */ #ifdef HAVE_SMEM shared_memory_base_name= default_shared_memory_base_name; #endif #if defined(__WIN__) /* Allow Win32 users to move MySQL anywhere */ { char prg_dev[LIBLEN]; char executing_path_name[LIBLEN]; if (!test_if_hard_path(my_progname)) { // we don't want to use GetModuleFileName inside of my_path since // my_path is a generic path dereferencing function and here we care // only about the executing binary. GetModuleFileName(NULL, executing_path_name, sizeof(executing_path_name)); my_path(prg_dev, executing_path_name, NULL); } else my_path(prg_dev, my_progname, "mysql/bin"); strcat(prg_dev,"/../"); // Remove 'bin' to get base dir cleanup_dirname(mysql_home,prg_dev); } #else const char *tmpenv; if (!(tmpenv = getenv("MY_BASEDIR_VERSION"))) tmpenv = DEFAULT_MYSQL_HOME; (void) strmake(mysql_home, tmpenv, sizeof(mysql_home)-1); #endif #ifdef WITH_WSREP if (wsrep_init_vars()) return 1; #endif return 0; } my_bool mysqld_get_one_option(int optid, const struct my_option *opt MY_ATTRIBUTE((unused)), char *argument) { switch(optid) { case '#': #ifndef DBUG_OFF DBUG_SET_INITIAL(argument ? argument : default_dbug_option); #endif opt_endinfo=1; /* unireg: memory allocation */ break; case 'a': global_system_variables.sql_mode= MODE_ANSI; global_system_variables.tx_isolation= ISO_SERIALIZABLE; break; case 'b': strmake(mysql_home,argument,sizeof(mysql_home)-1); mysql_home_ptr= mysql_home; break; case 'C': if (default_collation_name == compiled_default_collation_name) default_collation_name= 0; break; case 'h': strmake(mysql_real_data_home,argument, sizeof(mysql_real_data_home)-1); /* Correct pointer set by my_getopt (for embedded library) */ mysql_real_data_home_ptr= mysql_real_data_home; break; case 'u': if (!mysqld_user || !strcmp(mysqld_user, argument)) mysqld_user= argument; else sql_print_warning("Ignoring user change to '%s' because the user was set to '%s' earlier on the command line\n", argument, mysqld_user); break; case 'L': WARN_DEPRECATED(NULL, "--language/-l", "'--lc-messages-dir'"); /* Note: fall-through */ case OPT_LC_MESSAGES_DIRECTORY: strmake(lc_messages_dir, argument, sizeof(lc_messages_dir)-1); lc_messages_dir_ptr= lc_messages_dir; break; case OPT_BINLOG_FORMAT: binlog_format_used= true; break; case OPT_BINLOGGING_IMPOSSIBLE_MODE: WARN_DEPRECATED(NULL, "--binlogging_impossible_mode", "'--binlog_error_action'"); break; case OPT_SIMPLIFIED_BINLOG_GTID_RECOVERY: WARN_DEPRECATED(NULL, "--simplified_binlog_gtid_recovery", "'--binlog_gtid_simple_recovery'"); break; #include #ifndef EMBEDDED_LIBRARY case 'V': print_version(); exit(0); #endif /*EMBEDDED_LIBRARY*/ case 'W': if (!argument) log_warnings++; else if (argument == disabled_my_option) log_warnings= 0L; else log_warnings= atoi(argument); break; case 'T': test_flags= argument ? (uint) atoi(argument) : 0; opt_endinfo=1; break; case OPT_THREAD_CONCURRENCY: WARN_DEPRECATED_NO_REPLACEMENT(NULL, "THREAD_CONCURRENCY"); break; case (int) OPT_ISAM_LOG: opt_myisam_log=1; break; case (int) OPT_BIN_LOG: opt_bin_log= MY_TEST(argument != disabled_my_option); break; #ifdef HAVE_REPLICATION case (int)OPT_REPLICATE_IGNORE_DB: { rpl_filter->add_ignore_db(argument); break; } case (int)OPT_REPLICATE_DO_DB: { rpl_filter->add_do_db(argument); break; } case (int)OPT_REPLICATE_REWRITE_DB: { char* key = argument,*p, *val; if (!(p= strstr(argument, "->"))) { sql_print_error("Bad syntax in replicate-rewrite-db - missing '->'!\n"); return 1; } val= p + 2; while(p > argument && my_isspace(mysqld_charset, p[-1])) p--; *p= 0; if (!*key) { sql_print_error("Bad syntax in replicate-rewrite-db - empty FROM db!\n"); return 1; } while (*val && my_isspace(mysqld_charset, *val)) val++; if (!*val) { sql_print_error("Bad syntax in replicate-rewrite-db - empty TO db!\n"); return 1; } rpl_filter->add_db_rewrite(key, val); break; } case (int)OPT_BINLOG_IGNORE_DB: { binlog_filter->add_ignore_db(argument); break; } case (int)OPT_BINLOG_DO_DB: { binlog_filter->add_do_db(argument); break; } case (int)OPT_REPLICATE_DO_TABLE: { if (rpl_filter->add_do_table_array(argument)) { sql_print_error("Could not add do table rule '%s'!\n", argument); return 1; } break; } case (int)OPT_REPLICATE_WILD_DO_TABLE: { if (rpl_filter->add_wild_do_table(argument)) { sql_print_error("Could not add do table rule '%s'!\n", argument); return 1; } break; } case (int)OPT_REPLICATE_WILD_IGNORE_TABLE: { if (rpl_filter->add_wild_ignore_table(argument)) { sql_print_error("Could not add ignore table rule '%s'!\n", argument); return 1; } break; } case (int)OPT_REPLICATE_IGNORE_TABLE: { if (rpl_filter->add_ignore_table_array(argument)) { sql_print_error("Could not add ignore table rule '%s'!\n", argument); return 1; } break; } #endif /* HAVE_REPLICATION */ case (int) OPT_MASTER_RETRY_COUNT: WARN_DEPRECATED(NULL, "--master-retry-count", "'CHANGE MASTER TO master_retry_count = '"); break; case (int) OPT_SKIP_NEW: opt_specialflag|= SPECIAL_NO_NEW_FUNC; delay_key_write_options= DELAY_KEY_WRITE_NONE; myisam_concurrent_insert=0; myisam_recover_options= HA_RECOVER_OFF; sp_automatic_privileges=0; my_use_symdir=0; ha_open_options&= ~(HA_OPEN_ABORT_IF_CRASHED | HA_OPEN_DELAY_KEY_WRITE); #ifdef HAVE_QUERY_CACHE query_cache_size=0; #endif break; case (int) OPT_SKIP_HOST_CACHE: opt_specialflag|= SPECIAL_NO_HOST_CACHE; break; case (int) OPT_SKIP_RESOLVE: opt_skip_name_resolve= 1; opt_specialflag|=SPECIAL_NO_RESOLVE; break; case (int) OPT_WANT_CORE: test_flags |= TEST_CORE_ON_SIGNAL; break; case (int) OPT_SKIP_STACK_TRACE: test_flags|=TEST_NO_STACKTRACE; break; case OPT_CONSOLE: if (opt_console) opt_error_log= 0; // Force logs to stdout break; case OPT_BOOTSTRAP: opt_bootstrap=1; break; case OPT_SERVER_ID: server_id_supplied = 1; break; case OPT_LOWER_CASE_TABLE_NAMES: lower_case_table_names_used= 1; break; #ifdef WITH_WSREP case OPT_WSREP_START_POSITION: wsrep_start_position_init (argument); break; case OPT_WSREP_SST_AUTH: wsrep_sst_auth_init (argument); break; #endif #if defined(ENABLED_DEBUG_SYNC) case OPT_DEBUG_SYNC_TIMEOUT: /* Debug Sync Facility. See debug_sync.cc. Default timeout for WAIT_FOR action. Default value is zero (facility disabled). If option is given without an argument, supply a non-zero value. */ if (!argument) { /* purecov: begin tested */ opt_debug_sync_timeout= DEBUG_SYNC_DEFAULT_WAIT_TIMEOUT; /* purecov: end */ } break; #endif /* defined(ENABLED_DEBUG_SYNC) */ case OPT_ENGINE_CONDITION_PUSHDOWN: /* The last of --engine-condition-pushdown and --optimizer_switch on command line wins (see get_options(). */ if (global_system_variables.engine_condition_pushdown) global_system_variables.optimizer_switch|= OPTIMIZER_SWITCH_ENGINE_CONDITION_PUSHDOWN; else global_system_variables.optimizer_switch&= ~OPTIMIZER_SWITCH_ENGINE_CONDITION_PUSHDOWN; break; case OPT_LOG_ERROR: /* "No --log-error" == "write errors to stderr", "--log-error without argument" == "write errors to a file". */ if (argument == NULL) /* no argument */ log_error_file_ptr= const_cast(""); break; case OPT_IGNORE_DB_DIRECTORY: if (*argument == 0) ignore_db_dirs_reset(); else { if (push_ignored_db_dir(argument)) { sql_print_error("Can't start server: " "cannot process --ignore-db-dir=%.*s", FN_REFLEN, argument); return 1; } } break; case OPT_PLUGIN_LOAD: free_list(opt_plugin_load_list_ptr); /* fall through */ case OPT_PLUGIN_LOAD_ADD: opt_plugin_load_list_ptr->push_back(new i_string(argument)); break; case OPT_DEFAULT_AUTH: if (set_default_auth_plugin(argument, strlen(argument))) { sql_print_error("Can't start server: " "Invalid value for --default-authentication-plugin"); return 1; } break; case OPT_SECURE_AUTH: if (opt_secure_auth == 0) WARN_DEPRECATED(NULL, "pre-4.1 password hash", "post-4.1 password hash"); break; case OPT_PFS_INSTRUMENT: { #ifdef WITH_PERFSCHEMA_STORAGE_ENGINE #ifndef EMBEDDED_LIBRARY /* Parse instrument name and value from argument string. Handle leading and trailing spaces. Also handle single quotes. Acceptable: performance_schema_instrument = ' foo/%/bar/ = ON ' performance_schema_instrument = '%=OFF' Not acceptable: performance_schema_instrument = '' foo/%/bar = ON '' performance_schema_instrument = '%='OFF'' */ char *name= argument,*p= NULL, *val= NULL; my_bool quote= false; /* true if quote detected */ my_bool error= true; /* false if no errors detected */ const int PFS_BUFFER_SIZE= 128; char orig_argument[PFS_BUFFER_SIZE+1]; orig_argument[0]= 0; if (!argument) goto pfs_error; /* Save original argument string for error reporting */ strncpy(orig_argument, argument, PFS_BUFFER_SIZE); /* Split instrument name and value at the equal sign */ if (!(p= strchr(argument, '='))) goto pfs_error; /* Get option value */ val= p + 1; if (!*val) goto pfs_error; /* Trim leading spaces and quote from the instrument name */ while (*name && (my_isspace(mysqld_charset, *name) || (*name == '\''))) { /* One quote allowed */ if (*name == '\'') { if (!quote) quote= true; else goto pfs_error; } name++; } /* Trim trailing spaces from instrument name */ while ((p > name) && my_isspace(mysqld_charset, p[-1])) p--; *p= 0; /* Remove trailing slash from instrument name */ if (p > name && (p[-1] == '/')) p[-1]= 0; if (!*name) goto pfs_error; /* Trim leading spaces from option value */ while (*val && my_isspace(mysqld_charset, *val)) val++; /* Trim trailing spaces and matching quote from value */ p= val + strlen(val); while (p > val && (my_isspace(mysqld_charset, p[-1]) || p[-1] == '\'')) { /* One matching quote allowed */ if (p[-1] == '\'') { if (quote) quote= false; else goto pfs_error; } p--; } *p= 0; if (!*val) goto pfs_error; /* Add instrument name and value to array of configuration options */ if (add_pfs_instr_to_array(name, val)) goto pfs_error; error= false; pfs_error: if (error) { my_getopt_error_reporter(WARNING_LEVEL, "Invalid instrument name or value for " "performance_schema_instrument '%s'", orig_argument); return 0; } #endif /* EMBEDDED_LIBRARY */ #endif /* WITH_PERFSCHEMA_STORAGE_ENGINE */ break; } case OPT_THREAD_CACHE_SIZE: thread_cache_size_specified= true; break; case OPT_HOST_CACHE_SIZE: host_cache_size_specified= true; break; case OPT_TABLE_DEFINITION_CACHE: table_definition_cache_specified= true; break; case OPT_AVOID_TEMPORAL_UPGRADE: WARN_DEPRECATED_NO_REPLACEMENT(NULL, "avoid_temporal_upgrade"); break; case OPT_SHOW_OLD_TEMPORALS: WARN_DEPRECATED_NO_REPLACEMENT(NULL, "show_old_temporals"); break; case OPT_NAMED_PIPE_FULL_ACCESS_GROUP: #if (defined(_WIN32) || defined(HAVE_SMEM)) && !defined(EMBEDDED_LIBRARY) if (!is_valid_named_pipe_full_access_group(argument)) { sql_print_error("Invalid value for named_pipe_full_access_group."); return 1; } #endif /* _WIN32 || HAVE_SMEM && !EMBEDDED_LIBRARY */ break; } return 0; } /** Handle arguments for multiple key caches. */ C_MODE_START static void* mysql_getopt_value(const char *keyname, uint key_length, const struct my_option *option, int *error) { if (error) *error= 0; switch (option->id) { case OPT_KEY_BUFFER_SIZE: case OPT_KEY_CACHE_BLOCK_SIZE: case OPT_KEY_CACHE_DIVISION_LIMIT: case OPT_KEY_CACHE_AGE_THRESHOLD: { KEY_CACHE *key_cache; if (!(key_cache= get_or_create_key_cache(keyname, key_length))) { if (error) *error= EXIT_OUT_OF_MEMORY; return 0; } switch (option->id) { case OPT_KEY_BUFFER_SIZE: return &key_cache->param_buff_size; case OPT_KEY_CACHE_BLOCK_SIZE: return &key_cache->param_block_size; case OPT_KEY_CACHE_DIVISION_LIMIT: return &key_cache->param_division_limit; case OPT_KEY_CACHE_AGE_THRESHOLD: return &key_cache->param_age_threshold; } } } return option->value; } static void option_error_reporter(enum loglevel level, const char *format, ...) { va_list args; va_start(args, format); /* Don't print warnings for --loose options during bootstrap */ if (level == ERROR_LEVEL || !opt_bootstrap || log_warnings) { vprint_msg_to_log(level, format, args); } va_end(args); } C_MODE_END /** Get server options from the command line, and perform related server initializations. @param [in, out] argc_ptr command line options (count) @param [in, out] argv_ptr command line options (values) @return 0 on success @todo - FIXME add EXIT_TOO_MANY_ARGUMENTS to "mysys_err.h" and return that code? */ static int get_options(int *argc_ptr, char ***argv_ptr) { int ho_error; my_getopt_register_get_addr(mysql_getopt_value); my_getopt_error_reporter= option_error_reporter; /* prepare all_options array */ all_options.reserve(array_elements(my_long_options)); for (my_option *opt= my_long_options; opt < my_long_options + array_elements(my_long_options) - 1; opt++) { all_options.push_back(*opt); } sys_var_add_options(&all_options, sys_var::PARSE_NORMAL); add_terminator(&all_options); /* Skip unknown options so that they may be processed later by plugins */ my_getopt_skip_unknown= TRUE; if ((ho_error= handle_options(argc_ptr, argv_ptr, &all_options[0], mysqld_get_one_option))) return ho_error; if (!opt_help) vector().swap(all_options); // Deletes the vector contents. /* Add back the program name handle_options removes */ (*argc_ptr)++; (*argv_ptr)--; /* Options have been parsed. Now some of them need additional special handling, like custom value checking, checking of incompatibilites between options, setting of multiple variables, etc. Do them here. */ if ((opt_log_slow_admin_statements || opt_log_queries_not_using_indexes || opt_log_slow_slave_statements) && !opt_slow_log) sql_print_warning("options --log-slow-admin-statements, " "--log-queries-not-using-indexes and " "--log-slow-slave-statements have no effect if " "--slow-query-log is not set"); if (global_system_variables.net_buffer_length > global_system_variables.max_allowed_packet) { sql_print_warning("net_buffer_length (%lu) is set to be larger " "than max_allowed_packet (%lu). Please rectify.", global_system_variables.net_buffer_length, global_system_variables.max_allowed_packet); } /* TIMESTAMP columns get implicit DEFAULT values when --explicit_defaults_for_timestamp is not set. This behavior is deprecated now. */ if (!opt_help && !global_system_variables.explicit_defaults_for_timestamp) sql_print_warning("TIMESTAMP with implicit DEFAULT value is deprecated. " "Please use --explicit_defaults_for_timestamp server " "option (see documentation for more details)."); if (log_error_file_ptr != disabled_my_option) opt_error_log= 1; else log_error_file_ptr= const_cast(""); opt_init_connect.length=strlen(opt_init_connect.str); opt_init_slave.length=strlen(opt_init_slave.str); if (global_system_variables.low_priority_updates) thr_upgraded_concurrent_insert_lock= TL_WRITE_LOW_PRIORITY; if (ft_boolean_check_syntax_string((uchar*) ft_boolean_syntax)) { sql_print_error("Invalid ft-boolean-syntax string: %s\n", ft_boolean_syntax); return 1; } if (opt_disable_networking) mysqld_port= 0; if (opt_skip_show_db) opt_specialflag|= SPECIAL_SKIP_SHOW_DB; if (myisam_flush) flush_time= 0; #ifdef HAVE_REPLICATION if (opt_slave_skip_errors) add_slave_skip_errors(opt_slave_skip_errors); #endif if (global_system_variables.max_join_size == HA_POS_ERROR) global_system_variables.option_bits|= OPTION_BIG_SELECTS; else global_system_variables.option_bits&= ~OPTION_BIG_SELECTS; #ifdef WITH_WSREP if (global_system_variables.wsrep_causal_reads) { WSREP_WARN("option --wsrep-causal-reads is deprecated"); if (!(global_system_variables.wsrep_sync_wait & WSREP_SYNC_WAIT_BEFORE_READ)) { WSREP_WARN("--wsrep-causal-reads=ON takes precedence over --wsrep-sync-wait=%u. " "WSREP_SYNC_WAIT_BEFORE_READ is on", global_system_variables.wsrep_sync_wait); global_system_variables.wsrep_sync_wait |= WSREP_SYNC_WAIT_BEFORE_READ; } else { // they are turned on both. } } else { if (global_system_variables.wsrep_sync_wait & WSREP_SYNC_WAIT_BEFORE_READ) { WSREP_WARN("--wsrep-sync-wait=%u takes precedence over --wsrep-causal-reads=OFF. " "WSREP_SYNC_WAIT_BEFORE_READ is on", global_system_variables.wsrep_sync_wait); global_system_variables.wsrep_causal_reads = 1; } else { // they are turned off both. } } #endif // WITH_WSREP // Synchronize @@global.autocommit on --autocommit const ulonglong turn_bit_on= opt_autocommit ? OPTION_AUTOCOMMIT : OPTION_NOT_AUTOCOMMIT; global_system_variables.option_bits= (global_system_variables.option_bits & ~(OPTION_NOT_AUTOCOMMIT | OPTION_AUTOCOMMIT)) | turn_bit_on; global_system_variables.sql_mode= expand_sql_mode(global_system_variables.sql_mode); #if defined(HAVE_BROKEN_REALPATH) my_use_symdir=0; my_disable_symlinks=1; have_symlink=SHOW_OPTION_NO; #else if (!my_use_symdir) { my_disable_symlinks=1; have_symlink=SHOW_OPTION_DISABLED; } #endif if (opt_debugging) { /* Allow break with SIGINT, no core or stack trace */ test_flags|= TEST_SIGINT | TEST_NO_STACKTRACE; test_flags&= ~TEST_CORE_ON_SIGNAL; } /* Set global MyISAM variables from delay_key_write_options */ fix_delay_key_write(0, 0, OPT_GLOBAL); #ifndef EMBEDDED_LIBRARY if (mysqld_chroot) set_root(mysqld_chroot); #else thread_handling = SCHEDULER_NO_THREADS; max_allowed_packet= global_system_variables.max_allowed_packet; net_buffer_length= global_system_variables.net_buffer_length; #endif if (fix_paths()) return 1; /* Set some global variables from the global_system_variables In most cases the global variables will not be used */ my_disable_locking= myisam_single_user= MY_TEST(opt_external_locking == 0); my_default_record_cache_size=global_system_variables.read_buff_size; global_system_variables.long_query_time= (ulonglong) (global_system_variables.long_query_time_double * 1e6); if (opt_short_log_format) opt_specialflag|= SPECIAL_SHORT_LOG_FORMAT; if (init_global_datetime_format(MYSQL_TIMESTAMP_DATE, &global_date_format) || init_global_datetime_format(MYSQL_TIMESTAMP_TIME, &global_time_format) || init_global_datetime_format(MYSQL_TIMESTAMP_DATETIME, &global_datetime_format)) return 1; #ifdef EMBEDDED_LIBRARY one_thread_scheduler(); #else if (thread_handling <= SCHEDULER_ONE_THREAD_PER_CONNECTION) one_thread_per_connection_scheduler(); else /* thread_handling == SCHEDULER_NO_THREADS) */ one_thread_scheduler(); #endif global_system_variables.engine_condition_pushdown= MY_TEST(global_system_variables.optimizer_switch & OPTIMIZER_SWITCH_ENGINE_CONDITION_PUSHDOWN); opt_readonly= read_only; return 0; } /* Create version name for running mysqld version We automaticly add suffixes -debug, -embedded and -log to the version name to make the version more descriptive. (MYSQL_SERVER_SUFFIX is set by the compilation environment) */ static void set_server_version(void) { char *end= strxmov(server_version, MYSQL_SERVER_VERSION, MYSQL_SERVER_SUFFIX_STR, NullS); #ifdef EMBEDDED_LIBRARY end= strmov(end, "-embedded"); #endif #ifndef DBUG_OFF if (!strstr(MYSQL_SERVER_SUFFIX_STR, "-debug")) end= strmov(end, "-debug"); #endif if (opt_log || opt_slow_log || opt_bin_log) strmov(end, "-log"); // This may slow down system } static char *get_relative_path(const char *path) { if (test_if_hard_path(path) && is_prefix(path,DEFAULT_MYSQL_HOME) && strcmp(DEFAULT_MYSQL_HOME,FN_ROOTDIR)) { path+=(uint) strlen(DEFAULT_MYSQL_HOME); while (*path == FN_LIBCHAR || *path == FN_LIBCHAR2) path++; } return (char*) path; } /** Fix filename and replace extension where 'dir' is relative to mysql_real_data_home. @return 1 if len(path) > FN_REFLEN */ bool fn_format_relative_to_data_home(char * to, const char *name, const char *dir, const char *extension) { char tmp_path[FN_REFLEN]; if (!test_if_hard_path(dir)) { strxnmov(tmp_path,sizeof(tmp_path)-1, mysql_real_data_home, dir, NullS); dir=tmp_path; } return !fn_format(to, name, dir, extension, MY_APPEND_EXT | MY_UNPACK_FILENAME | MY_SAFE_PATH); } /** Test a file path to determine if the path is compatible with the secure file path restriction. @param path null terminated character string @return @retval TRUE The path is secure @retval FALSE The path isn't secure */ bool is_secure_file_path(char *path) { char buff1[FN_REFLEN], buff2[FN_REFLEN]; size_t opt_secure_file_priv_len; /* All paths are secure if opt_secure_file_priv is 0 */ if (!opt_secure_file_priv[0]) return TRUE; opt_secure_file_priv_len= strlen(opt_secure_file_priv); if (strlen(path) >= FN_REFLEN) return FALSE; if (!my_strcasecmp(system_charset_info, opt_secure_file_priv, "NULL")) return FALSE; if (my_realpath(buff1, path, 0)) { /* The supplied file path might have been a file and not a directory. */ int length= (int)dirname_length(path); if (length >= FN_REFLEN) return FALSE; memcpy(buff2, path, length); buff2[length]= '\0'; if (length == 0 || my_realpath(buff1, buff2, 0)) return FALSE; } convert_dirname(buff2, buff1, NullS); if (!lower_case_file_system) { if (strncmp(opt_secure_file_priv, buff2, opt_secure_file_priv_len)) return FALSE; } else { if (files_charset_info->coll->strnncoll(files_charset_info, (uchar *) buff2, strlen(buff2), (uchar *) opt_secure_file_priv, opt_secure_file_priv_len, TRUE)) return FALSE; } return TRUE; } /** Test a file path whether it is same as mysql data directory path. @param path null terminated character string @return @retval TRUE The path is different from mysql data directory. @retval FALSE The path is same as mysql data directory. */ bool is_mysql_datadir_path(const char *path) { if (path == NULL) return false; char mysql_data_dir[FN_REFLEN], path_dir[FN_REFLEN]; convert_dirname(path_dir, path, NullS); convert_dirname(mysql_data_dir, mysql_unpacked_real_data_home, NullS); size_t mysql_data_home_len= dirname_length(mysql_data_dir); size_t path_len = dirname_length(path_dir); if (path_len < mysql_data_home_len) return true; if (!lower_case_file_system) return(memcmp(mysql_data_dir, path_dir, mysql_data_home_len)); return(files_charset_info->coll->strnncoll(files_charset_info, (uchar *) path_dir, path_len, (uchar *) mysql_data_dir, mysql_data_home_len, TRUE)); } /** check_secure_file_priv_path : Checks path specified through --secure-file-priv and raises warning in following cases: 1. If path is empty string or NULL and mysqld is not running with --bootstrap mode. 2. If path can access data directory 3. If path points to a directory which is accessible by all OS users (non-Windows build only) It throws error in following cases: 1. If path normalization fails 2. If it can not get stats of the directory @params NONE Assumptions : 1. Data directory path has been normalized 2. opt_secure_file_priv has been normalized unless it is set to "NULL". @returns Status of validation @retval true : Validation is successful with/without warnings @retval false : Validation failed. Error is raised. */ bool check_secure_file_priv_path() { char datadir_buffer[FN_REFLEN+1]={0}; char plugindir_buffer[FN_REFLEN+1]={0}; char whichdir[20]= {0}; size_t opt_plugindir_len= 0; size_t opt_datadir_len= 0; size_t opt_secure_file_priv_len= 0; bool warn= false; bool case_insensitive_fs; #ifndef _WIN32 MY_STAT dir_stat; #endif if (!opt_secure_file_priv[0]) { if (opt_bootstrap) { /* Do not impose --secure-file-priv restriction in --bootstrap mode */ sql_print_information("Ignoring --secure-file-priv value as server is " "running with --bootstrap."); } else { sql_print_warning("Insecure configuration for --secure-file-priv: " "Current value does not restrict location of generated " "files. Consider setting it to a valid, " "non-empty path."); } return true; } /* Setting --secure-file-priv to NULL would disable reading/writing from/to file */ if(!my_strcasecmp(system_charset_info, opt_secure_file_priv, "NULL")) { sql_print_information("--secure-file-priv is set to NULL. " "Operations related to importing and exporting " "data are disabled"); return true; } /* Check if --secure-file-priv can access data directory */ opt_secure_file_priv_len= strlen(opt_secure_file_priv); /* Adds dir seperator at the end. This is required in subsequent comparison */ convert_dirname(datadir_buffer, mysql_unpacked_real_data_home, NullS); opt_datadir_len= strlen(datadir_buffer); case_insensitive_fs= (test_if_case_insensitive(datadir_buffer) == 1); if (!case_insensitive_fs) { if (!strncmp(datadir_buffer, opt_secure_file_priv, opt_datadir_len < opt_secure_file_priv_len ? opt_datadir_len : opt_secure_file_priv_len)) { warn= true; strcpy(whichdir, "Data directory"); } } else { if (!files_charset_info->coll->strnncoll(files_charset_info, (uchar *) datadir_buffer, opt_datadir_len, (uchar *) opt_secure_file_priv, opt_secure_file_priv_len, TRUE)) { warn= true; strcpy(whichdir, "Data directory"); } } /* Don't bother comparing --secure-file-priv with --plugin-dir if we already have a match against --datadir or --plugin-dir is not pointing to a valid directory. */ if (!warn && !my_realpath(plugindir_buffer, opt_plugin_dir, 0)) { convert_dirname(plugindir_buffer, plugindir_buffer, NullS); opt_plugindir_len= strlen(plugindir_buffer); if (!case_insensitive_fs) { if (!strncmp(plugindir_buffer, opt_secure_file_priv, opt_plugindir_len < opt_secure_file_priv_len ? opt_plugindir_len : opt_secure_file_priv_len)) { warn= true; strcpy(whichdir, "Plugin directory"); } } else { if (!files_charset_info->coll->strnncoll(files_charset_info, (uchar *) plugindir_buffer, opt_plugindir_len, (uchar *) opt_secure_file_priv, opt_secure_file_priv_len, TRUE)) { warn= true; strcpy(whichdir, "Plugin directory"); } } } if (warn) sql_print_warning("Insecure configuration for --secure-file-priv: " "%s is accessible through " "--secure-file-priv. Consider choosing a different " "directory.", whichdir); #ifndef _WIN32 /* Check for --secure-file-priv directory's permission */ if (!(my_stat(opt_secure_file_priv, &dir_stat, MYF(0)))) { sql_print_error("Failed to get stat for directory pointed out " "by --secure-file-priv"); return false; } if (dir_stat.st_mode & S_IRWXO) sql_print_warning("Insecure configuration for --secure-file-priv: " "Location is accessible to all OS users. " "Consider choosing a different directory."); #endif return true; } static int fix_paths(void) { char buff[FN_REFLEN],*pos; bool secure_file_priv_nonempty= false; convert_dirname(mysql_home,mysql_home,NullS); /* Resolve symlinks to allow 'mysql_home' to be a relative symlink */ my_realpath(mysql_home,mysql_home,MYF(0)); /* Ensure that mysql_home ends in FN_LIBCHAR */ pos=strend(mysql_home); if (pos[-1] != FN_LIBCHAR) { pos[0]= FN_LIBCHAR; pos[1]= 0; } convert_dirname(lc_messages_dir, lc_messages_dir, NullS); convert_dirname(mysql_real_data_home,mysql_real_data_home,NullS); (void) my_load_path(mysql_home,mysql_home,""); // Resolve current dir (void) my_load_path(mysql_real_data_home,mysql_real_data_home,mysql_home); (void) my_load_path(pidfile_name, pidfile_name_ptr, mysql_real_data_home); convert_dirname(opt_plugin_dir, opt_plugin_dir_ptr ? opt_plugin_dir_ptr : get_relative_path(PLUGINDIR), NullS); (void) my_load_path(opt_plugin_dir, opt_plugin_dir, mysql_home); opt_plugin_dir_ptr= opt_plugin_dir; my_realpath(mysql_unpacked_real_data_home, mysql_real_data_home, MYF(0)); mysql_unpacked_real_data_home_len= (int) strlen(mysql_unpacked_real_data_home); if (mysql_unpacked_real_data_home[mysql_unpacked_real_data_home_len-1] == FN_LIBCHAR) --mysql_unpacked_real_data_home_len; char *sharedir=get_relative_path(SHAREDIR); if (test_if_hard_path(sharedir)) strmake(buff,sharedir,sizeof(buff)-1); /* purecov: tested */ else strxnmov(buff,sizeof(buff)-1,mysql_home,sharedir,NullS); convert_dirname(buff,buff,NullS); (void) my_load_path(lc_messages_dir, lc_messages_dir, buff); /* If --character-sets-dir isn't given, use shared library dir */ if (charsets_dir) strmake(mysql_charsets_dir, charsets_dir, sizeof(mysql_charsets_dir)-1); else strxnmov(mysql_charsets_dir, sizeof(mysql_charsets_dir)-1, buff, CHARSET_DIR, NullS); (void) my_load_path(mysql_charsets_dir, mysql_charsets_dir, buff); convert_dirname(mysql_charsets_dir, mysql_charsets_dir, NullS); charsets_dir=mysql_charsets_dir; if (init_tmpdir(&mysql_tmpdir_list, opt_mysql_tmpdir)) return 1; if (!opt_mysql_tmpdir) opt_mysql_tmpdir= mysql_tmpdir; #ifdef HAVE_REPLICATION if (!slave_load_tmpdir) slave_load_tmpdir= mysql_tmpdir; #endif /* HAVE_REPLICATION */ /* Convert the secure-file-priv option to system format, allowing a quick strcmp to check if read or write is in an allowed dir */ if (opt_bootstrap) opt_secure_file_priv= EMPTY_STR.str; secure_file_priv_nonempty= opt_secure_file_priv[0] ? true : false; if (secure_file_priv_nonempty && strlen(opt_secure_file_priv) > FN_REFLEN) { sql_print_warning("Value for --secure-file-priv is longer than maximum " "limit of %d", FN_REFLEN-1); return 1; } memset(buff, 0, sizeof(buff)); if (secure_file_priv_nonempty && my_strcasecmp(system_charset_info, opt_secure_file_priv, "NULL")) { int retval= my_realpath(buff, opt_secure_file_priv, MYF(MY_WME)); if (!retval) { convert_dirname(secure_file_real_path, buff, NullS); #ifdef WIN32 MY_DIR *dir= my_dir(secure_file_real_path, MYF(MY_DONT_SORT+MY_WME)); if (!dir) { retval= 1; } else { my_dirend(dir); } #endif } if (retval) { char err_buffer[FN_REFLEN]; my_snprintf(err_buffer, FN_REFLEN-1, "Failed to access directory for --secure-file-priv." " Please make sure that directory exists and is " "accessible by MySQL Server. Supplied value : %s", opt_secure_file_priv); err_buffer[FN_REFLEN-1]='\0'; sql_print_error("%s", err_buffer); return 1; } opt_secure_file_priv= secure_file_real_path; } if (!check_secure_file_priv_path()) return 1; return 0; } /** Check if file system used for databases is case insensitive. @param dir_name Directory to test @retval -1 Don't know (Test failed) @retval 0 File system is case sensitive @retval 1 File system is case insensitive */ static int test_if_case_insensitive(const char *dir_name) { int result= 0; File file; char buff[FN_REFLEN], buff2[FN_REFLEN]; MY_STAT stat_info; DBUG_ENTER("test_if_case_insensitive"); fn_format(buff, glob_hostname, dir_name, ".lower-test", MY_UNPACK_FILENAME | MY_REPLACE_EXT | MY_REPLACE_DIR); fn_format(buff2, glob_hostname, dir_name, ".LOWER-TEST", MY_UNPACK_FILENAME | MY_REPLACE_EXT | MY_REPLACE_DIR); mysql_file_delete(key_file_casetest, buff2, MYF(0)); if ((file= mysql_file_create(key_file_casetest, buff, 0666, O_RDWR, MYF(0))) < 0) { sql_print_warning("Can't create test file %s", buff); DBUG_RETURN(-1); } mysql_file_close(file, MYF(0)); if (mysql_file_stat(key_file_casetest, buff2, &stat_info, MYF(0))) result= 1; // Can access file mysql_file_delete(key_file_casetest, buff, MYF(MY_WME)); DBUG_PRINT("exit", ("result: %d", result)); DBUG_RETURN(result); } #ifndef EMBEDDED_LIBRARY /** Create file to store pid number. */ static void create_pid_file() { File file; bool check_parent_path= 1, is_path_accessible= 1; char pid_filepath[FN_REFLEN], *pos= NULL; /* Copy pid file name to get pid file path */ strcpy(pid_filepath, pidfile_name); /* Iterate through the entire path to check if even one of the sub-dirs is world-writable */ while (check_parent_path && (pos= strrchr(pid_filepath, FN_LIBCHAR)) && (pos != pid_filepath)) /* shouldn't check root */ { *pos= '\0'; /* Trim the inner-most dir */ switch (is_file_or_dir_world_writable(pid_filepath)) { case -2: is_path_accessible= 0; break; case -1: sql_perror("Can't start server: can't check PID filepath"); exit(1); case 1: sql_print_warning("Insecure configuration for --pid-file: Location " "'%s' in the path is accessible to all OS users. " "Consider choosing a different directory.", pid_filepath); check_parent_path= 0; break; case 0: continue; /* Keep checking the parent dir */ } } if(!is_path_accessible) { sql_print_warning("Few location(s) are inaccessible while checking PID filepath."); } if ((file= mysql_file_create(key_file_pid, pidfile_name, 0664, O_WRONLY | O_TRUNC, MYF(MY_WME))) >= 0) { char buff[MAX_BIGINT_WIDTH + 1], *end; end= int10_to_str((long) getpid(), buff, 10); *end++= '\n'; if (!mysql_file_write(file, (uchar*) buff, (uint) (end-buff), MYF(MY_WME | MY_NABP))) { mysql_file_close(file, MYF(0)); pid_file_created= true; return; } mysql_file_close(file, MYF(0)); } sql_perror("Can't start server: can't create PID file"); exit(1); } #endif /* EMBEDDED_LIBRARY */ /** Remove the process' pid file. @param flags file operation flags */ static void delete_pid_file(myf flags) { #ifndef EMBEDDED_LIBRARY File file; if (opt_bootstrap || !pid_file_created || !(file= mysql_file_open(key_file_pid, pidfile_name, O_RDONLY, flags))) return; /* Make sure that the pid file was created by the same process. */ uchar buff[MAX_BIGINT_WIDTH + 1]; size_t error= mysql_file_read(file, buff, sizeof(buff), flags); mysql_file_close(file, flags); buff[sizeof(buff) - 1]= '\0'; if (error != MY_FILE_ERROR && atol((char *) buff) == (long) getpid()) { mysql_file_delete(key_file_pid, pidfile_name, flags); pid_file_created= false; } #endif /* EMBEDDED_LIBRARY */ return; } /** Clear most status variables. */ void refresh_status(THD *thd) { mysql_mutex_lock(&LOCK_status); /* Add thread's status variabes to global status */ add_to_status(&global_status_var, &thd->status_var); /* Reset thread's status variables */ memset(&thd->status_var, 0, sizeof(thd->status_var)); /* Reset some global variables */ reset_status_vars(); #ifdef WITH_WSREP wsrep->stats_reset(wsrep); #endif /* WITH_WSREP */ /* Reset the counters of all key caches (default and named). */ process_key_caches(reset_key_cache_counters); flush_status_time= time((time_t*) 0); mysql_mutex_unlock(&LOCK_status); /* Set max_used_connections to the number of currently open connections. Lock LOCK_thread_count out of LOCK_status to avoid deadlocks. Status reset becomes not atomic, but status data is not exact anyway. */ mysql_mutex_lock(&LOCK_thread_count); max_used_connections= get_thread_count() - delayed_insert_threads; mysql_mutex_unlock(&LOCK_thread_count); } /***************************************************************************** Instantiate variables for missing storage engines This section should go away soon *****************************************************************************/ #ifdef HAVE_PSI_INTERFACE #ifdef HAVE_MMAP PSI_mutex_key key_PAGE_lock, key_LOCK_sync, key_LOCK_active, key_LOCK_pool; #endif /* HAVE_MMAP */ #ifdef HAVE_OPENSSL PSI_mutex_key key_LOCK_des_key_file; #endif /* HAVE_OPENSSL */ PSI_mutex_key key_BINLOG_LOCK_commit; PSI_mutex_key key_BINLOG_LOCK_commit_queue; PSI_mutex_key key_BINLOG_LOCK_done; PSI_mutex_key key_BINLOG_LOCK_flush_queue; PSI_mutex_key key_BINLOG_LOCK_index; PSI_mutex_key key_BINLOG_LOCK_log; PSI_mutex_key key_BINLOG_LOCK_sync; PSI_mutex_key key_BINLOG_LOCK_sync_queue; PSI_mutex_key key_BINLOG_LOCK_xids; PSI_mutex_key key_delayed_insert_mutex, key_hash_filo_lock, key_LOCK_active_mi, key_LOCK_connection_count, key_LOCK_crypt, key_LOCK_delayed_create, key_LOCK_delayed_insert, key_LOCK_delayed_status, key_LOCK_error_log, key_LOCK_gdl, key_LOCK_global_system_variables, key_LOCK_manager, key_LOCK_prepared_stmt_count, key_LOCK_sql_slave_skip_counter, key_LOCK_slave_net_timeout, key_LOCK_server_started, key_LOCK_status, key_LOCK_system_variables_hash, key_LOCK_table_share, key_LOCK_thd_data, key_LOCK_user_conn, key_LOCK_uuid_generator, key_LOG_LOCK_log, key_master_info_data_lock, key_master_info_run_lock, key_master_info_sleep_lock, key_mutex_slave_reporting_capability_err_lock, key_relay_log_info_data_lock, key_relay_log_info_sleep_lock, key_relay_log_info_log_space_lock, key_relay_log_info_run_lock, key_mutex_slave_parallel_pend_jobs, key_mutex_mts_temp_tables_lock, key_mutex_slave_parallel_worker_count, key_mutex_slave_parallel_worker, key_structure_guard_mutex, key_TABLE_SHARE_LOCK_ha_data, key_LOCK_error_messages, key_LOG_INFO_lock, key_LOCK_thread_count, key_LOCK_log_throttle_qni; #ifdef WITH_WSREP PSI_mutex_key key_LOCK_wsrep_rollback, key_LOCK_wsrep_thd, key_LOCK_wsrep_replaying, key_LOCK_wsrep_ready, key_LOCK_wsrep_sst, key_LOCK_wsrep_sst_thread, key_LOCK_wsrep_sst_init, key_LOCK_wsrep_slave_threads, key_LOCK_wsrep_desync; #endif PSI_mutex_key key_LOCK_thd_remove; PSI_mutex_key key_RELAYLOG_LOCK_commit; PSI_mutex_key key_RELAYLOG_LOCK_commit_queue; PSI_mutex_key key_RELAYLOG_LOCK_done; PSI_mutex_key key_RELAYLOG_LOCK_flush_queue; PSI_mutex_key key_RELAYLOG_LOCK_index; PSI_mutex_key key_RELAYLOG_LOCK_log; PSI_mutex_key key_RELAYLOG_LOCK_sync; PSI_mutex_key key_RELAYLOG_LOCK_sync_queue; PSI_mutex_key key_RELAYLOG_LOCK_xids; PSI_mutex_key key_LOCK_sql_rand; PSI_mutex_key key_gtid_ensure_index_mutex; PSI_mutex_key key_LOCK_thread_created; static PSI_mutex_info all_server_mutexes[]= { #ifdef HAVE_MMAP { &key_PAGE_lock, "PAGE::lock", 0}, { &key_LOCK_sync, "TC_LOG_MMAP::LOCK_sync", 0}, { &key_LOCK_active, "TC_LOG_MMAP::LOCK_active", 0}, { &key_LOCK_pool, "TC_LOG_MMAP::LOCK_pool", 0}, #endif /* HAVE_MMAP */ #ifdef HAVE_OPENSSL { &key_LOCK_des_key_file, "LOCK_des_key_file", PSI_FLAG_GLOBAL}, #endif /* HAVE_OPENSSL */ { &key_BINLOG_LOCK_commit, "MYSQL_BIN_LOG::LOCK_commit", 0 }, { &key_BINLOG_LOCK_commit_queue, "MYSQL_BIN_LOG::LOCK_commit_queue", 0 }, { &key_BINLOG_LOCK_done, "MYSQL_BIN_LOG::LOCK_done", 0 }, { &key_BINLOG_LOCK_flush_queue, "MYSQL_BIN_LOG::LOCK_flush_queue", 0 }, { &key_BINLOG_LOCK_index, "MYSQL_BIN_LOG::LOCK_index", 0}, { &key_BINLOG_LOCK_log, "MYSQL_BIN_LOG::LOCK_log", 0}, { &key_BINLOG_LOCK_sync, "MYSQL_BIN_LOG::LOCK_sync", 0}, { &key_BINLOG_LOCK_sync_queue, "MYSQL_BIN_LOG::LOCK_sync_queue", 0 }, { &key_BINLOG_LOCK_xids, "MYSQL_BIN_LOG::LOCK_xids", 0 }, { &key_RELAYLOG_LOCK_commit, "MYSQL_RELAY_LOG::LOCK_commit", 0}, { &key_RELAYLOG_LOCK_commit_queue, "MYSQL_RELAY_LOG::LOCK_commit_queue", 0 }, { &key_RELAYLOG_LOCK_done, "MYSQL_RELAY_LOG::LOCK_done", 0 }, { &key_RELAYLOG_LOCK_flush_queue, "MYSQL_RELAY_LOG::LOCK_flush_queue", 0 }, { &key_RELAYLOG_LOCK_index, "MYSQL_RELAY_LOG::LOCK_index", 0}, { &key_RELAYLOG_LOCK_log, "MYSQL_RELAY_LOG::LOCK_log", 0}, { &key_RELAYLOG_LOCK_sync, "MYSQL_RELAY_LOG::LOCK_sync", 0}, { &key_RELAYLOG_LOCK_sync_queue, "MYSQL_RELAY_LOG::LOCK_sync_queue", 0 }, { &key_RELAYLOG_LOCK_xids, "MYSQL_RELAY_LOG::LOCK_xids", 0}, { &key_delayed_insert_mutex, "Delayed_insert::mutex", 0}, { &key_hash_filo_lock, "hash_filo::lock", 0}, { &key_LOCK_active_mi, "LOCK_active_mi", PSI_FLAG_GLOBAL}, { &key_LOCK_connection_count, "LOCK_connection_count", PSI_FLAG_GLOBAL}, { &key_LOCK_crypt, "LOCK_crypt", PSI_FLAG_GLOBAL}, { &key_LOCK_delayed_create, "LOCK_delayed_create", PSI_FLAG_GLOBAL}, { &key_LOCK_delayed_insert, "LOCK_delayed_insert", PSI_FLAG_GLOBAL}, { &key_LOCK_delayed_status, "LOCK_delayed_status", PSI_FLAG_GLOBAL}, { &key_LOCK_error_log, "LOCK_error_log", PSI_FLAG_GLOBAL}, { &key_LOCK_gdl, "LOCK_gdl", PSI_FLAG_GLOBAL}, { &key_LOCK_global_system_variables, "LOCK_global_system_variables", PSI_FLAG_GLOBAL}, { &key_LOCK_manager, "LOCK_manager", PSI_FLAG_GLOBAL}, { &key_LOCK_prepared_stmt_count, "LOCK_prepared_stmt_count", PSI_FLAG_GLOBAL}, { &key_LOCK_sql_slave_skip_counter, "LOCK_sql_slave_skip_counter", PSI_FLAG_GLOBAL}, { &key_LOCK_slave_net_timeout, "LOCK_slave_net_timeout", PSI_FLAG_GLOBAL}, { &key_LOCK_server_started, "LOCK_server_started", PSI_FLAG_GLOBAL}, { &key_LOCK_status, "LOCK_status", PSI_FLAG_GLOBAL}, { &key_LOCK_system_variables_hash, "LOCK_system_variables_hash", PSI_FLAG_GLOBAL}, { &key_LOCK_table_share, "LOCK_table_share", PSI_FLAG_GLOBAL}, { &key_LOCK_thd_data, "THD::LOCK_thd_data", 0}, { &key_LOCK_user_conn, "LOCK_user_conn", PSI_FLAG_GLOBAL}, { &key_LOCK_uuid_generator, "LOCK_uuid_generator", PSI_FLAG_GLOBAL}, { &key_LOCK_sql_rand, "LOCK_sql_rand", PSI_FLAG_GLOBAL}, { &key_LOG_LOCK_log, "LOG::LOCK_log", 0}, { &key_master_info_data_lock, "Master_info::data_lock", 0}, { &key_master_info_run_lock, "Master_info::run_lock", 0}, { &key_master_info_sleep_lock, "Master_info::sleep_lock", 0}, { &key_mutex_slave_reporting_capability_err_lock, "Slave_reporting_capability::err_lock", 0}, { &key_relay_log_info_data_lock, "Relay_log_info::data_lock", 0}, { &key_relay_log_info_sleep_lock, "Relay_log_info::sleep_lock", 0}, { &key_relay_log_info_log_space_lock, "Relay_log_info::log_space_lock", 0}, { &key_relay_log_info_run_lock, "Relay_log_info::run_lock", 0}, { &key_mutex_slave_parallel_pend_jobs, "Relay_log_info::pending_jobs_lock", 0}, { &key_mutex_slave_parallel_worker_count, "Relay_log_info::exit_count_lock", 0}, { &key_mutex_mts_temp_tables_lock, "Relay_log_info::temp_tables_lock", 0}, { &key_mutex_slave_parallel_worker, "Worker_info::jobs_lock", 0}, { &key_structure_guard_mutex, "Query_cache::structure_guard_mutex", 0}, { &key_TABLE_SHARE_LOCK_ha_data, "TABLE_SHARE::LOCK_ha_data", 0}, { &key_LOCK_error_messages, "LOCK_error_messages", PSI_FLAG_GLOBAL}, { &key_LOG_INFO_lock, "LOG_INFO::lock", 0}, { &key_LOCK_thread_count, "LOCK_thread_count", PSI_FLAG_GLOBAL}, #ifdef WITH_WSREP { &key_LOCK_wsrep_ready, "LOCK_wsrep_ready", PSI_FLAG_GLOBAL}, { &key_LOCK_wsrep_sst, "LOCK_wsrep_sst", PSI_FLAG_GLOBAL}, { &key_LOCK_wsrep_sst_thread, "wsrep_sst_thread", 0}, { &key_LOCK_wsrep_sst_init, "LOCK_wsrep_sst_init", PSI_FLAG_GLOBAL}, { &key_LOCK_wsrep_sst, "LOCK_wsrep_sst", PSI_FLAG_GLOBAL}, { &key_LOCK_wsrep_rollback, "LOCK_wsrep_rollback", PSI_FLAG_GLOBAL}, { &key_LOCK_wsrep_thd, "THD::LOCK_wsrep_thd", 0}, { &key_LOCK_wsrep_replaying, "LOCK_wsrep_replaying", PSI_FLAG_GLOBAL}, { &key_LOCK_wsrep_slave_threads, "LOCK_wsrep_slave_threads", PSI_FLAG_GLOBAL}, { &key_LOCK_wsrep_desync, "LOCK_wsrep_desync", PSI_FLAG_GLOBAL}, #endif { &key_LOCK_thd_remove, "LOCK_thd_remove", PSI_FLAG_GLOBAL}, { &key_LOCK_log_throttle_qni, "LOCK_log_throttle_qni", PSI_FLAG_GLOBAL}, { &key_gtid_ensure_index_mutex, "Gtid_state", PSI_FLAG_GLOBAL}, { &key_LOCK_thread_created, "LOCK_thread_created", PSI_FLAG_GLOBAL } }; PSI_rwlock_key key_rwlock_LOCK_grant, key_rwlock_LOCK_logger, key_rwlock_LOCK_sys_init_connect, key_rwlock_LOCK_sys_init_slave, key_rwlock_LOCK_system_variables_hash, key_rwlock_query_cache_query_lock, key_rwlock_global_sid_lock; PSI_rwlock_key key_rwlock_Trans_delegate_lock; PSI_rwlock_key key_rwlock_Binlog_storage_delegate_lock; #ifdef HAVE_REPLICATION PSI_rwlock_key key_rwlock_Binlog_transmit_delegate_lock; PSI_rwlock_key key_rwlock_Binlog_relay_IO_delegate_lock; #endif static PSI_rwlock_info all_server_rwlocks[]= { #if defined (HAVE_OPENSSL) { &key_rwlock_openssl, "CRYPTO_dynlock_value::lock", 0}, #endif #ifdef HAVE_REPLICATION { &key_rwlock_Binlog_transmit_delegate_lock, "Binlog_transmit_delegate::lock", PSI_FLAG_GLOBAL}, { &key_rwlock_Binlog_relay_IO_delegate_lock, "Binlog_relay_IO_delegate::lock", PSI_FLAG_GLOBAL}, #endif { &key_rwlock_LOCK_grant, "LOCK_grant", PSI_FLAG_GLOBAL}, { &key_rwlock_LOCK_logger, "LOGGER::LOCK_logger", 0}, { &key_rwlock_LOCK_sys_init_connect, "LOCK_sys_init_connect", PSI_FLAG_GLOBAL}, { &key_rwlock_LOCK_sys_init_slave, "LOCK_sys_init_slave", PSI_FLAG_GLOBAL}, { &key_rwlock_LOCK_system_variables_hash, "LOCK_system_variables_hash", PSI_FLAG_GLOBAL}, { &key_rwlock_query_cache_query_lock, "Query_cache_query::lock", 0}, { &key_rwlock_global_sid_lock, "gtid_commit_rollback", PSI_FLAG_GLOBAL}, { &key_rwlock_Trans_delegate_lock, "Trans_delegate::lock", PSI_FLAG_GLOBAL}, { &key_rwlock_Binlog_storage_delegate_lock, "Binlog_storage_delegate::lock", PSI_FLAG_GLOBAL}, #if (defined(_WIN32) || defined(HAVE_SMEM)) && !defined(EMBEDDED_LIBRARY) { &key_rwlock_LOCK_named_pipe_full_access_group, "LOCK_named_pipe_full_access_group", PSI_FLAG_GLOBAL}, #endif /* _WIN32 || HAVE_SMEM && !EMBEDDED_LIBRARY */ }; #ifdef HAVE_MMAP PSI_cond_key key_PAGE_cond, key_COND_active, key_COND_pool; #endif /* HAVE_MMAP */ PSI_cond_key key_BINLOG_update_cond, key_COND_cache_status_changed, key_COND_manager, key_COND_server_started, key_delayed_insert_cond, key_delayed_insert_cond_client, key_item_func_sleep_cond, key_master_info_data_cond, key_master_info_start_cond, key_master_info_stop_cond, key_master_info_sleep_cond, key_relay_log_info_data_cond, key_relay_log_info_log_space_cond, key_relay_log_info_start_cond, key_relay_log_info_stop_cond, key_relay_log_info_sleep_cond, key_cond_slave_parallel_pend_jobs, key_cond_slave_parallel_worker, key_TABLE_SHARE_cond, key_user_level_lock_cond, key_COND_thread_count, key_COND_thread_cache, key_COND_flush_thread_cache, key_COND_connection_count; #ifdef WITH_WSREP PSI_cond_key key_COND_wsrep_rollback, key_COND_wsrep_thd, key_COND_wsrep_replaying, key_COND_wsrep_ready, key_COND_wsrep_sst, key_COND_wsrep_sst_init, key_COND_wsrep_sst_thread; #endif /* WITH_WSREP */ PSI_cond_key key_RELAYLOG_update_cond; PSI_cond_key key_BINLOG_COND_done; PSI_cond_key key_RELAYLOG_COND_done; PSI_cond_key key_BINLOG_prep_xids_cond; PSI_cond_key key_RELAYLOG_prep_xids_cond; PSI_cond_key key_gtid_ensure_index_cond; static PSI_cond_info all_server_conds[]= { #if (defined(_WIN32) || defined(HAVE_SMEM)) && !defined(EMBEDDED_LIBRARY) { &key_COND_handler_count, "COND_handler_count", PSI_FLAG_GLOBAL}, #endif /* _WIN32 || HAVE_SMEM && !EMBEDDED_LIBRARY */ #ifdef HAVE_MMAP { &key_PAGE_cond, "PAGE::cond", 0}, { &key_COND_active, "TC_LOG_MMAP::COND_active", 0}, { &key_COND_pool, "TC_LOG_MMAP::COND_pool", 0}, #endif /* HAVE_MMAP */ { &key_BINLOG_COND_done, "MYSQL_BIN_LOG::COND_done", 0}, { &key_BINLOG_update_cond, "MYSQL_BIN_LOG::update_cond", 0}, { &key_BINLOG_prep_xids_cond, "MYSQL_BIN_LOG::prep_xids_cond", 0}, { &key_RELAYLOG_COND_done, "MYSQL_RELAY_LOG::COND_done", 0}, { &key_RELAYLOG_update_cond, "MYSQL_RELAY_LOG::update_cond", 0}, { &key_RELAYLOG_prep_xids_cond, "MYSQL_RELAY_LOG::prep_xids_cond", 0}, { &key_COND_cache_status_changed, "Query_cache::COND_cache_status_changed", 0}, { &key_COND_manager, "COND_manager", PSI_FLAG_GLOBAL}, { &key_COND_server_started, "COND_server_started", PSI_FLAG_GLOBAL}, { &key_delayed_insert_cond, "Delayed_insert::cond", 0}, { &key_delayed_insert_cond_client, "Delayed_insert::cond_client", 0}, { &key_item_func_sleep_cond, "Item_func_sleep::cond", 0}, { &key_master_info_data_cond, "Master_info::data_cond", 0}, { &key_master_info_start_cond, "Master_info::start_cond", 0}, { &key_master_info_stop_cond, "Master_info::stop_cond", 0}, { &key_master_info_sleep_cond, "Master_info::sleep_cond", 0}, { &key_relay_log_info_data_cond, "Relay_log_info::data_cond", 0}, { &key_relay_log_info_log_space_cond, "Relay_log_info::log_space_cond", 0}, { &key_relay_log_info_start_cond, "Relay_log_info::start_cond", 0}, { &key_relay_log_info_stop_cond, "Relay_log_info::stop_cond", 0}, { &key_relay_log_info_sleep_cond, "Relay_log_info::sleep_cond", 0}, { &key_cond_slave_parallel_pend_jobs, "Relay_log_info::pending_jobs_cond", 0}, { &key_cond_slave_parallel_worker, "Worker_info::jobs_cond", 0}, { &key_TABLE_SHARE_cond, "TABLE_SHARE::cond", 0}, { &key_user_level_lock_cond, "User_level_lock::cond", 0}, { &key_COND_thread_count, "COND_thread_count", PSI_FLAG_GLOBAL}, { &key_COND_thread_cache, "COND_thread_cache", PSI_FLAG_GLOBAL}, #ifdef WITH_WSREP { &key_COND_wsrep_ready, "COND_wsrep_ready", PSI_FLAG_GLOBAL}, { &key_COND_wsrep_sst, "COND_wsrep_sst", PSI_FLAG_GLOBAL}, { &key_COND_wsrep_sst_init, "COND_wsrep_sst_init", PSI_FLAG_GLOBAL}, { &key_COND_wsrep_sst_thread, "wsrep_sst_thread", 0}, { &key_COND_wsrep_rollback, "COND_wsrep_rollback", PSI_FLAG_GLOBAL}, { &key_COND_wsrep_thd, "THD::COND_wsrep_thd", 0}, { &key_COND_wsrep_replaying, "COND_wsrep_replaying", PSI_FLAG_GLOBAL}, #endif { &key_COND_flush_thread_cache, "COND_flush_thread_cache", PSI_FLAG_GLOBAL}, { &key_gtid_ensure_index_cond, "Gtid_state", PSI_FLAG_GLOBAL}, { &key_COND_connection_count, "COND_connection_count", PSI_FLAG_GLOBAL} }; PSI_thread_key key_thread_bootstrap, key_thread_delayed_insert, key_thread_handle_manager, key_thread_main, key_thread_one_connection, key_thread_signal_hand; static PSI_thread_info all_server_threads[]= { #if (defined(_WIN32) || defined(HAVE_SMEM)) && !defined(EMBEDDED_LIBRARY) { &key_thread_handle_con_namedpipes, "con_named_pipes", PSI_FLAG_GLOBAL}, #endif /* _WIN32 || HAVE_SMEM && !EMBEDDED_LIBRARY */ #if defined(HAVE_SMEM) && !defined(EMBEDDED_LIBRARY) { &key_thread_handle_con_sharedmem, "con_shared_mem", PSI_FLAG_GLOBAL}, #endif /* HAVE_SMEM && !EMBEDDED_LIBRARY */ #if (defined(_WIN32) || defined(HAVE_SMEM)) && !defined(EMBEDDED_LIBRARY) { &key_thread_handle_con_sockets, "con_sockets", PSI_FLAG_GLOBAL}, #endif /* _WIN32 || HAVE_SMEM && !EMBEDDED_LIBRARY */ #ifdef __WIN__ { &key_thread_handle_shutdown, "shutdown", PSI_FLAG_GLOBAL}, #endif /* __WIN__ */ { &key_thread_bootstrap, "bootstrap", PSI_FLAG_GLOBAL}, { &key_thread_delayed_insert, "delayed_insert", 0}, { &key_thread_handle_manager, "manager", PSI_FLAG_GLOBAL}, { &key_thread_main, "main", PSI_FLAG_GLOBAL}, { &key_thread_one_connection, "one_connection", 0}, { &key_thread_signal_hand, "signal_handler", PSI_FLAG_GLOBAL} }; #ifdef HAVE_MMAP PSI_file_key key_file_map; #endif /* HAVE_MMAP */ PSI_file_key key_file_binlog, key_file_binlog_index, key_file_casetest, key_file_dbopt, key_file_des_key_file, key_file_ERRMSG, key_select_to_file, key_file_fileparser, key_file_frm, key_file_global_ddl_log, key_file_load, key_file_loadfile, key_file_log_event_data, key_file_log_event_info, key_file_master_info, key_file_misc, key_file_partition, key_file_pid, key_file_relay_log_info, key_file_send_file, key_file_tclog, key_file_trg, key_file_trn, key_file_init; PSI_file_key key_file_query_log, key_file_slow_log; PSI_file_key key_file_relaylog, key_file_relaylog_index; static PSI_file_info all_server_files[]= { #ifdef HAVE_MMAP { &key_file_map, "map", 0}, #endif /* HAVE_MMAP */ { &key_file_binlog, "binlog", 0}, { &key_file_binlog_index, "binlog_index", 0}, { &key_file_relaylog, "relaylog", 0}, { &key_file_relaylog_index, "relaylog_index", 0}, { &key_file_casetest, "casetest", 0}, { &key_file_dbopt, "dbopt", 0}, { &key_file_des_key_file, "des_key_file", 0}, { &key_file_ERRMSG, "ERRMSG", 0}, { &key_select_to_file, "select_to_file", 0}, { &key_file_fileparser, "file_parser", 0}, { &key_file_frm, "FRM", 0}, { &key_file_global_ddl_log, "global_ddl_log", 0}, { &key_file_load, "load", 0}, { &key_file_loadfile, "LOAD_FILE", 0}, { &key_file_log_event_data, "log_event_data", 0}, { &key_file_log_event_info, "log_event_info", 0}, { &key_file_master_info, "master_info", 0}, { &key_file_misc, "misc", 0}, { &key_file_partition, "partition", 0}, { &key_file_pid, "pid", 0}, { &key_file_query_log, "query_log", 0}, { &key_file_relay_log_info, "relay_log_info", 0}, { &key_file_send_file, "send_file", 0}, { &key_file_slow_log, "slow_log", 0}, { &key_file_tclog, "tclog", 0}, { &key_file_trg, "trigger_name", 0}, { &key_file_trn, "trigger", 0}, { &key_file_init, "init", 0} }; #endif /* HAVE_PSI_INTERFACE */ PSI_stage_info stage_after_create= { 0, "After create", 0}; PSI_stage_info stage_allocating_local_table= { 0, "allocating local table", 0}; PSI_stage_info stage_alter_inplace_prepare= { 0, "preparing for alter table", 0}; PSI_stage_info stage_alter_inplace= { 0, "altering table", 0}; PSI_stage_info stage_alter_inplace_commit= { 0, "committing alter table to storage engine", 0}; PSI_stage_info stage_changing_master= { 0, "Changing master", 0}; PSI_stage_info stage_checking_master_version= { 0, "Checking master version", 0}; PSI_stage_info stage_checking_permissions= { 0, "checking permissions", 0}; PSI_stage_info stage_checking_privileges_on_cached_query= { 0, "checking privileges on cached query", 0}; PSI_stage_info stage_checking_query_cache_for_query= { 0, "checking query cache for query", 0}; PSI_stage_info stage_cleaning_up= { 0, "cleaning up", 0}; PSI_stage_info stage_closing_tables= { 0, "closing tables", 0}; PSI_stage_info stage_connecting_to_master= { 0, "Connecting to master", 0}; PSI_stage_info stage_converting_heap_to_myisam= { 0, "converting HEAP to MyISAM", 0}; PSI_stage_info stage_copying_to_group_table= { 0, "Copying to group table", 0}; PSI_stage_info stage_copying_to_tmp_table= { 0, "Copying to tmp table", 0}; PSI_stage_info stage_copy_to_tmp_table= { 0, "copy to tmp table", 0}; PSI_stage_info stage_creating_delayed_handler= { 0, "Creating delayed handler", 0}; PSI_stage_info stage_creating_sort_index= { 0, "Creating sort index", 0}; PSI_stage_info stage_creating_table= { 0, "creating table", 0}; PSI_stage_info stage_creating_tmp_table= { 0, "Creating tmp table", 0}; PSI_stage_info stage_deleting_from_main_table= { 0, "deleting from main table", 0}; PSI_stage_info stage_deleting_from_reference_tables= { 0, "deleting from reference tables", 0}; PSI_stage_info stage_discard_or_import_tablespace= { 0, "discard_or_import_tablespace", 0}; PSI_stage_info stage_end= { 0, "end", 0}; PSI_stage_info stage_executing= { 0, "executing", 0}; PSI_stage_info stage_execution_of_init_command= { 0, "Execution of init_command", 0}; PSI_stage_info stage_explaining= { 0, "explaining", 0}; PSI_stage_info stage_finished_reading_one_binlog_switching_to_next_binlog= { 0, "Finished reading one binlog; switching to next binlog", 0}; PSI_stage_info stage_flushing_relay_log_and_master_info_repository= { 0, "Flushing relay log and master info repository.", 0}; PSI_stage_info stage_flushing_relay_log_info_file= { 0, "Flushing relay-log info file.", 0}; PSI_stage_info stage_freeing_items= { 0, "freeing items", 0}; PSI_stage_info stage_fulltext_initialization= { 0, "FULLTEXT initialization", 0}; PSI_stage_info stage_got_handler_lock= { 0, "got handler lock", 0}; PSI_stage_info stage_got_old_table= { 0, "got old table", 0}; PSI_stage_info stage_init= { 0, "init", 0}; PSI_stage_info stage_insert= { 0, "insert", 0}; PSI_stage_info stage_invalidating_query_cache_entries_table= { 0, "invalidating query cache entries (table)", 0}; PSI_stage_info stage_invalidating_query_cache_entries_table_list= { 0, "invalidating query cache entries (table list)", 0}; PSI_stage_info stage_killing_slave= { 0, "Killing slave", 0}; PSI_stage_info stage_logging_slow_query= { 0, "logging slow query", 0}; PSI_stage_info stage_making_temp_file_append_before_load_data= { 0, "Making temporary file (append) before replaying LOAD DATA INFILE.", 0}; PSI_stage_info stage_making_temp_file_create_before_load_data= { 0, "Making temporary file (create) before replaying LOAD DATA INFILE.", 0}; PSI_stage_info stage_manage_keys= { 0, "manage keys", 0}; PSI_stage_info stage_master_has_sent_all_binlog_to_slave= { 0, "Master has sent all binlog to slave; waiting for binlog to be updated", 0}; PSI_stage_info stage_opening_tables= { 0, "Opening tables", 0}; PSI_stage_info stage_optimizing= { 0, "optimizing", 0}; PSI_stage_info stage_preparing= { 0, "preparing", 0}; PSI_stage_info stage_purging_old_relay_logs= { 0, "Purging old relay logs", 0}; PSI_stage_info stage_query_end= { 0, "query end", 0}; PSI_stage_info stage_queueing_master_event_to_the_relay_log= { 0, "Queueing master event to the relay log", 0}; PSI_stage_info stage_reading_event_from_the_relay_log= { 0, "Reading event from the relay log", 0}; PSI_stage_info stage_registering_slave_on_master= { 0, "Registering slave on master", 0}; PSI_stage_info stage_removing_duplicates= { 0, "Removing duplicates", 0}; PSI_stage_info stage_removing_tmp_table= { 0, "removing tmp table", 0}; PSI_stage_info stage_rename= { 0, "rename", 0}; PSI_stage_info stage_rename_result_table= { 0, "rename result table", 0}; PSI_stage_info stage_requesting_binlog_dump= { 0, "Requesting binlog dump", 0}; PSI_stage_info stage_reschedule= { 0, "reschedule", 0}; PSI_stage_info stage_searching_rows_for_update= { 0, "Searching rows for update", 0}; PSI_stage_info stage_sending_binlog_event_to_slave= { 0, "Sending binlog event to slave", 0}; PSI_stage_info stage_sending_cached_result_to_client= { 0, "sending cached result to client", 0}; PSI_stage_info stage_sending_data= { 0, "Sending data", 0}; PSI_stage_info stage_setup= { 0, "setup", 0}; PSI_stage_info stage_slave_has_read_all_relay_log= { 0, "Slave has read all relay log; waiting for the slave I/O thread to update it", 0}; PSI_stage_info stage_sorting_for_group= { 0, "Sorting for group", 0}; PSI_stage_info stage_sorting_for_order= { 0, "Sorting for order", 0}; PSI_stage_info stage_sorting_result= { 0, "Sorting result", 0}; PSI_stage_info stage_statistics= { 0, "statistics", 0}; PSI_stage_info stage_sql_thd_waiting_until_delay= { 0, "Waiting until MASTER_DELAY seconds after master executed event", 0 }; PSI_stage_info stage_storing_result_in_query_cache= { 0, "storing result in query cache", 0}; PSI_stage_info stage_storing_row_into_queue= { 0, "storing row into queue", 0}; PSI_stage_info stage_system_lock= { 0, "System lock", 0}; PSI_stage_info stage_update= { 0, "update", 0}; PSI_stage_info stage_updating= { 0, "updating", 0}; PSI_stage_info stage_updating_main_table= { 0, "updating main table", 0}; PSI_stage_info stage_updating_reference_tables= { 0, "updating reference tables", 0}; PSI_stage_info stage_upgrading_lock= { 0, "upgrading lock", 0}; PSI_stage_info stage_user_lock= { 0, "User lock", 0}; PSI_stage_info stage_user_sleep= { 0, "User sleep", 0}; PSI_stage_info stage_verifying_table= { 0, "verifying table", 0}; PSI_stage_info stage_waiting_for_delay_list= { 0, "waiting for delay_list", 0}; PSI_stage_info stage_waiting_for_gtid_to_be_written_to_binary_log= { 0, "waiting for GTID to be written to binary log", 0}; PSI_stage_info stage_waiting_for_handler_insert= { 0, "waiting for handler insert", 0}; PSI_stage_info stage_waiting_for_handler_lock= { 0, "waiting for handler lock", 0}; PSI_stage_info stage_waiting_for_handler_open= { 0, "waiting for handler open", 0}; PSI_stage_info stage_waiting_for_insert= { 0, "Waiting for INSERT", 0}; PSI_stage_info stage_waiting_for_master_to_send_event= { 0, "Waiting for master to send event", 0}; PSI_stage_info stage_waiting_for_master_update= { 0, "Waiting for master update", 0}; PSI_stage_info stage_waiting_for_relay_log_space= { 0, "Waiting for the slave SQL thread to free enough relay log space", 0}; PSI_stage_info stage_waiting_for_slave_mutex_on_exit= { 0, "Waiting for slave mutex on exit", 0}; PSI_stage_info stage_waiting_for_slave_thread_to_start= { 0, "Waiting for slave thread to start", 0}; PSI_stage_info stage_waiting_for_table_flush= { 0, "Waiting for table flush", 0}; PSI_stage_info stage_waiting_for_query_cache_lock= { 0, "Waiting for query cache lock", 0}; PSI_stage_info stage_waiting_for_the_next_event_in_relay_log= { 0, "Waiting for the next event in relay log", 0}; PSI_stage_info stage_waiting_for_the_slave_thread_to_advance_position= { 0, "Waiting for the slave SQL thread to advance position", 0}; PSI_stage_info stage_waiting_to_finalize_termination= { 0, "Waiting to finalize termination", 0}; PSI_stage_info stage_waiting_to_get_readlock= { 0, "Waiting to get readlock", 0}; PSI_stage_info stage_slave_waiting_workers_to_exit= { 0, "Waiting for workers to exit", 0}; PSI_stage_info stage_slave_waiting_worker_to_release_partition= { 0, "Waiting for Slave Worker to release partition", 0}; PSI_stage_info stage_slave_waiting_worker_to_free_events= { 0, "Waiting for Slave Workers to free pending events", 0}; PSI_stage_info stage_slave_waiting_worker_queue= { 0, "Waiting for Slave Worker queue", 0}; PSI_stage_info stage_slave_waiting_event_from_coordinator= { 0, "Waiting for an event from Coordinator", 0}; #ifdef HAVE_PSI_INTERFACE PSI_stage_info *all_server_stages[]= { & stage_after_create, & stage_allocating_local_table, & stage_alter_inplace_prepare, & stage_alter_inplace, & stage_alter_inplace_commit, & stage_changing_master, & stage_checking_master_version, & stage_checking_permissions, & stage_checking_privileges_on_cached_query, & stage_checking_query_cache_for_query, & stage_cleaning_up, & stage_closing_tables, & stage_connecting_to_master, & stage_converting_heap_to_myisam, & stage_copying_to_group_table, & stage_copying_to_tmp_table, & stage_copy_to_tmp_table, & stage_creating_delayed_handler, & stage_creating_sort_index, & stage_creating_table, & stage_creating_tmp_table, & stage_deleting_from_main_table, & stage_deleting_from_reference_tables, & stage_discard_or_import_tablespace, & stage_end, & stage_executing, & stage_execution_of_init_command, & stage_explaining, & stage_finished_reading_one_binlog_switching_to_next_binlog, & stage_flushing_relay_log_and_master_info_repository, & stage_flushing_relay_log_info_file, & stage_freeing_items, & stage_fulltext_initialization, & stage_got_handler_lock, & stage_got_old_table, & stage_init, & stage_insert, & stage_invalidating_query_cache_entries_table, & stage_invalidating_query_cache_entries_table_list, & stage_killing_slave, & stage_logging_slow_query, & stage_making_temp_file_append_before_load_data, & stage_making_temp_file_create_before_load_data, & stage_manage_keys, & stage_master_has_sent_all_binlog_to_slave, & stage_opening_tables, & stage_optimizing, & stage_preparing, & stage_purging_old_relay_logs, & stage_query_end, & stage_queueing_master_event_to_the_relay_log, & stage_reading_event_from_the_relay_log, & stage_registering_slave_on_master, & stage_removing_duplicates, & stage_removing_tmp_table, & stage_rename, & stage_rename_result_table, & stage_requesting_binlog_dump, & stage_reschedule, & stage_searching_rows_for_update, & stage_sending_binlog_event_to_slave, & stage_sending_cached_result_to_client, & stage_sending_data, & stage_setup, & stage_slave_has_read_all_relay_log, & stage_sorting_for_group, & stage_sorting_for_order, & stage_sorting_result, & stage_sql_thd_waiting_until_delay, & stage_statistics, & stage_storing_result_in_query_cache, & stage_storing_row_into_queue, & stage_system_lock, & stage_update, & stage_updating, & stage_updating_main_table, & stage_updating_reference_tables, & stage_upgrading_lock, & stage_user_lock, & stage_user_sleep, & stage_verifying_table, & stage_waiting_for_delay_list, & stage_waiting_for_handler_insert, & stage_waiting_for_handler_lock, & stage_waiting_for_handler_open, & stage_waiting_for_insert, & stage_waiting_for_master_to_send_event, & stage_waiting_for_master_update, & stage_waiting_for_slave_mutex_on_exit, & stage_waiting_for_slave_thread_to_start, & stage_waiting_for_table_flush, & stage_waiting_for_query_cache_lock, & stage_waiting_for_the_next_event_in_relay_log, & stage_waiting_for_the_slave_thread_to_advance_position, & stage_waiting_to_finalize_termination, & stage_waiting_to_get_readlock }; PSI_socket_key key_socket_tcpip, key_socket_unix, key_socket_client_connection; static PSI_socket_info all_server_sockets[]= { { &key_socket_tcpip, "server_tcpip_socket", PSI_FLAG_GLOBAL}, { &key_socket_unix, "server_unix_socket", PSI_FLAG_GLOBAL}, { &key_socket_client_connection, "client_connection", 0} }; /** Initialise all the performance schema instrumentation points used by the server. */ void init_server_psi_keys(void) { const char* category= "sql"; int count; count= array_elements(all_server_mutexes); mysql_mutex_register(category, all_server_mutexes, count); count= array_elements(all_server_rwlocks); mysql_rwlock_register(category, all_server_rwlocks, count); count= array_elements(all_server_conds); mysql_cond_register(category, all_server_conds, count); count= array_elements(all_server_threads); mysql_thread_register(category, all_server_threads, count); count= array_elements(all_server_files); mysql_file_register(category, all_server_files, count); count= array_elements(all_server_stages); mysql_stage_register(category, all_server_stages, count); count= array_elements(all_server_sockets); mysql_socket_register(category, all_server_sockets, count); #ifdef HAVE_PSI_STATEMENT_INTERFACE init_sql_statement_info(); count= array_elements(sql_statement_info); mysql_statement_register(category, sql_statement_info, count); category= "com"; init_com_statement_info(); /* Register [0 .. COM_QUERY - 1] as "statement/com/..." */ count= (int) COM_QUERY; mysql_statement_register(category, com_statement_info, count); /* Register [COM_QUERY + 1 .. COM_END] as "statement/com/..." */ count= (int) COM_END - (int) COM_QUERY; mysql_statement_register(category, & com_statement_info[(int) COM_QUERY + 1], count); category= "abstract"; /* Register [COM_QUERY] as "statement/abstract/com_query" */ mysql_statement_register(category, & com_statement_info[(int) COM_QUERY], 1); /* When a new packet is received, it is instrumented as "statement/abstract/new_packet". Based on the packet type found, it later mutates to the proper narrow type, for example "statement/abstract/query" or "statement/com/ping". In cases of "statement/abstract/query", SQL queries are given to the parser, which mutates the statement type to an even more narrow classification, for example "statement/sql/select". */ stmt_info_new_packet.m_key= 0; stmt_info_new_packet.m_name= "new_packet"; stmt_info_new_packet.m_flags= PSI_FLAG_MUTABLE; mysql_statement_register(category, &stmt_info_new_packet, 1); /* Statements processed from the relay log are initially instrumented as "statement/abstract/relay_log". The parser will mutate the statement type to a more specific classification, for example "statement/sql/insert". */ stmt_info_rpl.m_key= 0; stmt_info_rpl.m_name= "relay_log"; stmt_info_rpl.m_flags= PSI_FLAG_MUTABLE; mysql_statement_register(category, &stmt_info_rpl, 1); #endif } #endif /* HAVE_PSI_INTERFACE */ #if (defined(_WIN32) || defined(HAVE_SMEM)) && !defined(EMBEDDED_LIBRARY) // update_named_pipe_full_access_group returns false on success, true on failure bool update_named_pipe_full_access_group(const char *new_group_name) { SECURITY_ATTRIBUTES *p_new_sa= NULL; const char *perror= NULL; TCHAR last_error_msg[256]; // Set up security attributes to provide full access to the owner // and minimal read/write access to others. if (my_security_attr_create(&p_new_sa, &perror, NAMED_PIPE_OWNER_PERMISSIONS, NAMED_PIPE_EVERYONE_PERMISSIONS) != 0) { sql_print_error("my_security_attr_create: %s", perror); return true; } if (new_group_name && new_group_name[0] != '\0') { if (my_security_attr_add_rights_to_group( p_new_sa, new_group_name, NAMED_PIPE_FULL_ACCESS_GROUP_PERMISSIONS)) { sql_print_error("my_security_attr_add_rights_to_group failed for group: %s", new_group_name); return true; } } psaPipeSecurity= p_new_sa; // Set the DACL for the existing "listener" named pipe instance... if (hPipe != INVALID_HANDLE_VALUE) { PACL pdacl= NULL; BOOL dacl_present_in_descriptor= FALSE; BOOL dacl_defaulted= FALSE; if (!GetSecurityDescriptorDacl(p_new_sa->lpSecurityDescriptor, &dacl_present_in_descriptor, &pdacl, &dacl_defaulted) || !dacl_present_in_descriptor) { DWORD last_error_num= GetLastError(); FormatMessage(FORMAT_MESSAGE_FROM_SYSTEM | FORMAT_MESSAGE_IGNORE_INSERTS, NULL, last_error_num, MAKELANGID(LANG_NEUTRAL, SUBLANG_DEFAULT), last_error_msg, sizeof(last_error_msg) / sizeof(TCHAR), NULL); sql_print_error("GetSecurityDescriptorDacl failed: %s", last_error_msg); return true; } DWORD res = SetSecurityInfo(hPipe, SE_KERNEL_OBJECT, DACL_SECURITY_INFORMATION, NULL, NULL, pdacl, NULL); if (res != ERROR_SUCCESS) { char num_buff[20]; int10_to_str(res, num_buff, 10); sql_print_error("SetSecurityInfo failed to update DACL on named pipe: %s", num_buff); return true; } } return false; } #endif /* _WIN32 || HAVE_SMEM && !EMBEDDED_LIBRARY */