使用内部程序堆栈跟踪工具path_viewer,跟踪mysql update 一行数据的执行过程,配置执行脚本:call_update.sh,现在小编就来说说关于mysql update语句?下面内容希望能帮助到你,我们来一起看看吧!

mysql update语句(MySQLUpdate执行流程解读)

mysql update语句

一、update跟踪执行配置

使用内部程序堆栈跟踪工具path_viewer,跟踪mysql update 一行数据的执行过程,配置执行脚本:call_update.sh

DROP DATABASE IF EXISTS d1; CREATE DATABASE d1; use d1; drop table if exists test; CREATE TABLE test (c0 int NOT NULL AUTO_INCREMENT,c1 date DEFAULT NULL,c2 time DEFAULT NULL, c3 datetime DEFAULT NULL, c4 year DEFAULT NULL, c5 int DEFAULT NULL, c6 decimal(10,6) DEFAULT NULL, c7 double DEFAULT NULL, c8 float DEFAULT NULL, c9 varchar(255) DEFAULT NULL, PRIMARY KEY (c0) ) ENGINE=InnoDB AUTO_INCREMENT=5 DEFAULT CHARSET=utf8mb4 COLLATE=utf8mb4_0900_ai_ci; INSERT INTO test VALUES ('1', '2021-04-26', '15:36:37', NULL, '2021', NULL, '6.000000', '7.1', '118.169', 'a8.168111'); INSERT INTO test VALUES ('2', '2021-04-28', '15:36:37', '2021-04-27 15:36:41', '2021', '6', '7877.126000', '8.1', '119.187', 'a9.16'); INSERT INTO test VALUES ('3', '2021-04-29', '15:36:37', '2021-04-27 15:36:41', '2021', '6', '7877.126890', '8.1', '119.187', 'a9.1682'); INSERT INTO test VALUES ('4', '2021-04-30', '15:36:37', '2021-04-27 15:36:41', '2021', '6', '7877.126890', '8.1', '119.187', 'a9.168333'); EOF sleep 1 mysql -h127.0.0.1 -P3300 -uroot <<EOF use d1; \! ./util/start_trace.sh update test set c7=10.1 where c0=1; \! ./util/end_trace.sh EOF # analyse the data ./util/seperate.sh $TOPIC 10000 5 ~

执行后,生成执行结果:

path_viewer/call_update$ ls 362688_5.txt 362689.dat 362690.inf 362692_5.txt 362699.dat 362706.inf 362717_L.txt mark.txt 362688.dat 362689.inf 362691_5.txt 362692.dat 362699.inf 362717_5.txt 362717_M.txt TDATA.trc 362688.inf 362690_5.txt 362691.dat 362692.inf 362706_5.txt 362717.dat 362717_S.txt THREADS.inf 362689_5.txt 362690.dat 362691.inf 362699_5.txt 362706.dat 362717.inf FUNC_DEF

查看SQL执行的函数调用过程362717_5.txt

> my_net_set_read_timeout(NET*, unsigned int) > vio_timeout(Vio*, unsigned int, int) > vio_socket_timeout(Vio*, unsigned int, bool) < vio_socket_timeout(Vio*, unsigned int, bool) < vio_timeout(Vio*, unsigned int, int) < my_net_set_read_timeout(NET*, unsigned int) > dispatch_command(THD*, COM_DATA const*, enum_server_command) > PROFILING::start_new_query(char const*) < PROFILING::start_new_query(char const*) > inline_mysql_refine_statement(PSI_statement_locker*, unsigned int) > pfs_refine_statement_v2(PSI_statement_locker*, unsigned int) > find_statement_class(unsigned int) < find_statement_class(unsigned int) < pfs_refine_statement_v2(PSI_statement_locker*, unsigned int) < inline_mysql_refine_statement(PSI_statement_locker*, unsigned int) > THD::set_command(enum_server_command) > pfs_set_thread_command_vc(int) < pfs_set_thread_command_vc(int) < THD::set_command(enum_server_command) > THD::clear_slow_extended() > inline_mysql_mutex_unlock(mysql_mutex_t*, char const*, unsigned int) > my_mutex_unlock(my_mutex_t*) > native_mutex_unlock(pthread_mutex_t*) < native_mutex_unlock(pthread_mutex_t*) < my_mutex_unlock(my_mutex_t*) < inline_mysql_mutex_unlock(mysql_mutex_t*, char const*, unsigned int) < THD::clear_slow_extended()

................................. < MYSQLparse(THD*, Parse_tree_root**) > LEX::make_sql_cmd(Parse_tree_root*) > PT_update::make_cmd(THD*) # 更新流程 > Parse_context::Parse_context(THD*, Query_block*) < Parse_context::Parse_context(THD*, Query_block*) > bool (anonymous namespace)::contextualize_safe<Parse_context, PT_with_clause*>(Parse_context*, PT_with_clause*) < bool (anonymous namespace)::contextualize_safe<Parse_context, PT_with_clause*>(Parse_context*, PT_with_clause*) > PT_table_factor_table_ident::contextualize(Parse_context*) > Query_block::add_table_to_list(THD*, Table_ident*, char const*, unsigned long, thr_lock_type, enum_mdl_type, List<Index_hint>*, List<String>*, MYSQL_LEX_STRING*, Parse_context*) > check_table_name(char const*, unsigned long) < check_table_name(char const*, unsigned long) > memdup_root(MEM_ROOT*, void const*, unsigned long) ................................. > Sql_cmd_dml::execute(THD*) > is_timer_applicable_to_statement(THD*) < is_timer_applicable_to_statement(THD*) > THD::push_internal_handler(Internal_error_handler*) < THD::push_internal_handler(Internal_error_handler*) > Sql_cmd_dml::prepare(THD*) > Sql_cmd_update::precheck(THD*) > check_one_table_access(THD*, unsigned long, TABLE_LIST*) > check_single_table_access(THD*, unsigned long, TABLE_LIST*, bool) > check_access(THD*, unsigned long, char const*, unsigned long*, GRANT_INTERNAL_INFO*, bool, bool) > get_cached_schema_access(GRANT_INTERNAL_INFO*, char const*) > ACL_internal_schema_registry::lookup(char const*) < ACL_internal_schema_registry::lookup(char const*)

................................. < THD::is_dml_gtid_compatible(bool, bool, bool) < THD::decide_logging_format(TABLE_LIST*) < lock_tables(THD*, TABLE_LIST*, unsigned int, unsigned int) > Sql_cmd_update::execute_inner(THD*) > Sql_cmd_update::update_single_table(THD*) > Query_expression::set_limit(THD*, Query_block*) > Query_block::get_offset(THD*) < Query_block::get_offset(THD*) > Query_block::get_limit(THD*) < Query_block::get_limit(THD*) < Query_expression::set_limit(THD*, Query_block*) > COPY_INFO::get_function_default_columns(TABLE*) > allocate_column_bitmap(TABLE*, MY_BITMAP**) > multi_alloc_root(MEM_ROOT*, ...) < multi_alloc_root(MEM_ROOT*, ...) < allocate_column_bitmap(TABLE*, MY_BITMAP**) > bitmap_is_clear_all(MY_BITMAP const*) < bitmap_is_clear_all(MY_BITMAP const*)

................................. > handler::ha_fast_update(THD*, mem_root_deque<Item*>&, mem_root_deque<Item*>&, Item*) # 执行更新 < handler::ha_fast_update(THD*, mem_root_deque<Item*>&, mem_root_deque<Item*>&, Item*) # 执行更新 > IndexRangeScanIterator::Read() > QUICK_RANGE_SELECT::get_next() > handler::ha_multi_range_read_next(char**) > ha_innobase::multi_range_read_next(char**)

> DsMrr_impl::dsmrr_next(char**) > handler::multi_range_read_next(char**) > quick_range_seq_next(void*, KEY_MULTI_RANGE*) < quick_range_seq_next(void*, KEY_MULTI_RANGE*) > ha_innobase::read_range_first(key_range const*, key_range const*, bool, bool) > handler::read_range_first(key_range const*, key_range const*, bool, bool)

................................. > handler::ha_update_row(unsigned char const*, unsigned char*) # 更新行 > handler::mark_trx_read_write() < handler::mark_trx_read_write() > pfs_start_table_io_wait_v1(PSI_table_locker_state*, PSI_table*, PSI_table_io_operation, unsigned int, char const*, unsigned int) < pfs_start_table_io_wait_v1(PSI_table_locker_state*, PSI_table*, PSI_table_io_operation, unsigned int, char const*, unsigned int) > ha_innobase::update_row(unsigned char const*, unsigned char*) > handler::ha_statistic_increment(unsigned long long System_status_var::*) const < handler::ha_statistic_increment(unsigned long long System_status_var::*) const > row_get_prebuilt_update_vector(row_prebuilt_t*) > row_create_update_node_for_mysql(dict_table_t*, mem_block_info_t*) > upd_node_create(mem_block_info_t*) > mem_heap_zalloc(mem_block_info_t*, unsigned long) > mem_heap_alloc(mem_block_info_t*, unsigned long) > mem_block_get_len(mem_block_info_t*) < mem_block_get_len(mem_block_info_t*) > mem_block_get_free(mem_block_info_t*) < mem_block_get_free(mem_block_info_t*) > mem_block_get_free(mem_block_info_t*) < mem_block_get_free(mem_block_info_t*) > mem_block_set_free(mem_block_info_t*, unsigned long) < mem_block_set_free(mem_block_info_t*, unsigned long) < mem_heap_alloc(mem_block_info_t*, unsigned long) < mem_heap_zalloc(mem_block_info_t*, unsigned long) > mem_heap_create_func(unsigned long, unsigned long)

................................. > __gnu_cxx::__exchange_and_add(int volatile*, int) < __gnu_cxx::__exchange_and_add(int volatile*, int) < __gnu_cxx::__exchange_and_add_dispatch(int*, int) < QUICK_RANGE_SELECT::~QUICK_RANGE_SELECT() < QUICK_RANGE_SELECT::~QUICK_RANGE_SELECT() < QEP_shared_owner::qs_cleanup() < QEP_TAB::cleanup() < Sql_cmd_update::update_single_table(THD*) < Sql_cmd_update::execute_inner(THD*) > THD::pop_internal_handler() < THD::pop_internal_handler() > Query_expression::cleanup(THD*, bool) > Query_block::cleanup(THD*, bool) < Query_block::cleanup(THD*, bool) < Query_expression::cleanup(THD*, bool)

二、执行分析

do_command(THD*) --从连接中读取命令 dispatch_sql_command --分发命令 THD::sql_parser() --SQL引擎层,词法语法分析 parse_sql --SQL转换为AST语句 LEX::make_sql_cmd(Parse_tree_root*) --解析树翻译成AST语法树 PT_update::make_cmd(THD*) --更新树节点翻译成AST语法树 mysql_execute_command --命令执行 Sql_cmd_dml::execute Sql_cmd_dml::prepare(THD*) --引用消解 Sql_cmd_update::precheck(THD*) --更新语句实际执行的引用消解 Sql_cmd_update::execute_inner(THD*) --SQL引擎层,调用存储引擎接口执行 Sql_cmd_update::update_single_table(THD*) optimize_cond --执行优化器优化路径 handler::ha_fast_update ha_innobase::update_row --innodb更新buffer pool 中table 的row trans_commit_stmt(THD*, bool)

ha_innobase::update_row: row_get_prebuilt_update_vector calc_row_difference row_update_for_mysql row_upd_step row_upd --执行更新 btr_pcur_t::restore_position rec_get_offsets_func btr_cur_update_in_place btr_cur_upd_lock_and_undo trx_undo_report_row_operation trx_undo_create trx_undo_seg_create _fil_io Fil_shard::do_io pfs_os_aio_func mtr_t::Command::execute log_buffer_reserve mtr_t::Command::add_dirty_blocks_to_flush_list ---脏数据快准备刷入磁盘 trx_undo_page_report_modify row_upd_rec_sys_fields row_upd_rec_in_place btr_cur_update_in_place_log

更新过程描述:

InnoDB 存储引擎,当更新一条数据时,会先更新 buffer pool 中的数据,Master Thread 刷新缓冲池中的脏页数据到磁盘中;更新一条记录前,会先生成一条undolog,记录更新操作,再生成redolog;事务提交时,将事务生成的redolog刷入磁盘。

三、执行总结update执行流程,