码迷,mamicode.com
首页 > 数据库 > 详细

单表扫描,MySQL索引选择不正确 并 详细解析OPTIMIZER_TRACE格式

时间:2014-08-29 03:02:57      阅读:332      评论:0      收藏:0      [点我收藏+]

标签:mysql   count   

一 表结构如下: 

MySQL  5.5.30  5.6.20 版本, 表大概有815万行

CREATE TABLE t_audit_operate_log (
  Fid bigint(16) AUTO_INCREMENT,
  Fcreate_time int(10) unsigned NOT NULL DEFAULT ‘0‘,
  Fuser varchar(50) DEFAULT ‘‘,
  Fip bigint(16) DEFAULT NULL,
  Foperate_object_id bigint(20) DEFAULT ‘0‘,
  PRIMARY KEY (Fid),
  KEY indx_ctime (Fcreate_time),
  KEY indx_user (Fuser),
  KEY indx_objid (Foperate_object_id),
  KEY indx_ip (Fip)
) ENGINE=InnoDB DEFAULT CHARSET=utf8;

执行查询:

mysql> explain select count(*) from t_audit_operate_log where Fuser=‘XX@XX.com‘ and Fcreate_time>=1407081600 and Fcreate_time<=1407427199\G

*************************** 1. row ***************************

id: 1

select_type: SIMPLE

table: t_audit_operate_log

type: ref

possible_keys: indx_ctime,indx_user

key: indx_user

key_len: 153

ref: const

rows: 2007326

Extra: Using where


发现,使用了一个不合适的索引, 不是很理想,于是改成指定索引:

mysql> explain select count(*) from t_audit_operate_log use index(indx_ctime) where Fuser=‘CY6016@cyou-inc.com‘ and Fcreate_time>=1407081600 and Fcreate_time<=1407427199\G

*************************** 1. row ***************************

id: 1

select_type: SIMPLE

table: t_audit_operate_log

type: range

possible_keys: indx_ctime

key: indx_ctime

key_len: 5

ref: NULL

rows: 670092

Extra: Using where

实际执行耗时,后者比前者快了接近10

问题: 很奇怪,优化器为何不选择使用 indx_ctime 索引,而选择了明显会扫描更多行的 indx_user索引。

分析2个索引的数据量如下:  两个条件的唯一性对比:

select count(*) from t_audit_operate_log where Fuser=‘XX@XX.com‘;
+----------+
| count(*) |
+----------+
| 1238382 | 
+----------+

select count(*) from t_audit_operate_log where Fcreate_time>=1407254400 and Fcreate_time<=1407427199;
+----------+
| count(*) |
+----------+
| 198920 | 
+----------+

显然,使用索引indx_ctime好于indx_user,但MySQL却选择了indx_user. 为什么?

于是,使用 OPTIMIZER_TRACE进一步探索.

 

二  OPTIMIZER_TRACE的过程说明

以本处事例简要说明OPTIMIZER_TRACE的过程.

 

{\
  "steps": [\
    {\
      "join_preparation": {---优化准备工作
        "select#": 1,\
        "steps": [\
          {\
            "expanded_query": "/* select#1 */ select count(0) AS `count(*)` from `t_audit_operate_log` where ((`t_audit_operate_log`.`Fuser` = ‘XX@XX.com‘) and (`t_audit_operate_log`.`Fcreate_time` >= 1407081600) and (`t_audit_operate_log`.`Fcreate_time` <= 1407427199))"\
          }\
        ] /* steps */\
      } /* join_preparation */\
    },\
    {\
      "join_optimization": {---优化工作的主要阶段,包括逻辑优化和物理优化两个阶段
        "select#": 1,\
        "steps": [---优化工作的主要阶段, 逻辑优化阶段
          {\
            "condition_processing": {---逻辑优化,条件化简
              "condition": "WHERE",\
              "original_condition": "((`t_audit_operate_log`.`Fuser` = ‘XX@XX.com‘) and (`t_audit_operate_log`.`Fcreate_time` >= 1407081600) and (`t_audit_operate_log`.`Fcreate_time` <= 1407427199))",\
              "steps": [\
                {\
                  "transformation": "equality_propagation",---逻辑优化,条件化简,等式处理
                  "resulting_condition": "((`t_audit_operate_log`.`Fuser` = ‘XX@XX.com‘) and (`t_audit_operate_log`.`Fcreate_time` >= 1407081600) and (`t_audit_operate_log`.`Fcreate_time` <= 1407427199))"\
                },\
                {\
                  "transformation": "constant_propagation",---逻辑优化,条件化简,常量处理
                  "resulting_condition": "((`t_audit_operate_log`.`Fuser` = ‘XX@XX.com‘) and (`t_audit_operate_log`.`Fcreate_time` >= 1407081600) and (`t_audit_operate_log`.`Fcreate_time` <= 1407427199))"\
                },\
                {\
                  "transformation": "trivial_condition_removal",---逻辑优化,条件化简,条件去除
                  "resulting_condition": "((`t_audit_operate_log`.`Fuser` = ‘XX@XX.com‘) and (`t_audit_operate_log`.`Fcreate_time` >= 1407081600) and (`t_audit_operate_log`.`Fcreate_time` <= 1407427199))"\
                }\
              ] /* steps */\
            } /* condition_processing */\
          },---逻辑优化,条件化简,结束
          {\
            "table_dependencies": [---逻辑优化, 找出表之间的相互依赖关系. 非直接可用的优化方式.
              {\
                "table": "`t_audit_operate_log`",\
                "row_may_be_null": false,\
                "map_bit": 0,\
                "depends_on_map_bits": [\
                ] /* depends_on_map_bits */\
              }\
            ] /* table_dependencies */\
          },\
          {\
            "ref_optimizer_key_uses": [\   ---逻辑优化,  找出备选的索引
              {\
                "table": "`t_audit_operate_log`",\
                "field": "Fuser",\
                "equals": "‘XX@XX.com‘",\
                "null_rejecting": false\
              }\
            ] /* ref_optimizer_key_uses */\
          },\
          {\
            "rows_estimation": [\   ---逻辑优化, 估算每个表的元组个数. 单表上进行全表扫描和索引扫描的代价估算. 每个索引都估算索引扫描代价
              {\
                "table": "`t_audit_operate_log`",\
                "range_analysis": {\
                  "table_scan": {\---逻辑优化, 估算每个表的元组个数. 单表上进行全表扫描的代价
                    "rows": 8150516,\
                    "cost": 1.73e6\
                  } /* table_scan */,\
                  "potential_range_indices": [\ ---逻辑优化, 列出备选的索引. 后续版本字符串变为potential_range_indexes
                    {\
                      "index": "PRIMARY",\---逻辑优化, 本行表明主键索引不可用
                      "usable": false,\
                      "cause": "not_applicable"\
                    },\
                    {\
                      "index": "indx_ctime",\---逻辑优化, 索引indx_ctime
                      "usable": true,\
                      "key_parts": [\
                        "Fcreate_time",\
                        "Fid"\
                      ] /* key_parts */\
                    },\
                    {\
                      "index": "indx_user",\---逻辑优化, 索引indx_user
                      "usable": true,\
                      "key_parts": [\
                        "Fuser",\
                        "Fid"\
                      ] /* key_parts */\
                    },\
                    {\
                      "index": "indx_objid",\---逻辑优化, 索引
                      "usable": false,\
                      "cause": "not_applicable"\
                    },\
                    {\
                      "index": "indx_ip",\---逻辑优化, 索引
                      "usable": false,\
                      "cause": "not_applicable"\
                    }\
                  ] /* potential_range_indices */,\
                  "setup_range_conditions": [\ ---逻辑优化, 如果有可下推的条件,则带条件考虑范围查询
                  ] /* setup_range_conditions */,\
                  "group_index_range": {\---逻辑优化, 如带有GROUPBYDISTINCT,则考虑是否有索引可优化这种操作. 并考虑带有MIN/MAX的情况
                    "chosen": false,\
                    "cause": "not_group_by_or_distinct"\
                  } /* group_index_range */,\
                  "analyzing_range_alternatives": {\---逻辑优化,开始计算每个索引做范围扫描的花费(等值比较是范围扫描的特例)
                    "range_scan_alternatives": [\
                      {\
                        "index": "indx_ctime",\ ---[A]
                        "ranges": [\
                          "1407081600 <= Fcreate_time <= 1407427199"\
                        ] /* ranges */,\
                        "index_dives_for_eq_ranges": true,\
                        "rowid_ordered": false,\
                        "using_mrr": true,\
                        "index_only": false,\
                        "rows": 688362,\
                        "cost": 564553,\ ---逻辑优化,这个索引的代价最小
                        "chosen": true\ ---逻辑优化,这个索引的代价最小,被选中. (比前面的table_scan 和其他索引的代价都小)
                      },\
                      {\
                        "index": "indx_user",\
                        "ranges": [\
                          "XX@XX.com <= Fuser <= XX@XX.com"\
                        ] /* ranges */,\
                        "index_dives_for_eq_ranges": true,\
                        "rowid_ordered": true,\
                        "using_mrr": true,\
                        "index_only": false,\
                        "rows": 1945894,\
                        "cost": 1.18e6,\
                        "chosen": false,\
                        "cause": "cost"\
                      }\
                    ] /* range_scan_alternatives */,\
                    "analyzing_roworder_intersect": {\
                      "usable": false,\
                      "cause": "too_few_roworder_scans"\
                    } /* analyzing_roworder_intersect */\
                  } /* analyzing_range_alternatives */,\---逻辑优化,开始计算每个索引做范围扫描的花费. 这项工作结算
                  "chosen_range_access_summary": {\---逻辑优化,开始计算每个索引做范围扫描的花费. 总结本阶段最优的.
                    "range_access_plan": {\
                      "type": "range_scan",\
                      "index": "indx_ctime",\
                      "rows": 688362,\
                      "ranges": [\
                        "1407081600 <= Fcreate_time <= 1407427199"\
                      ] /* ranges */\
                    } /* range_access_plan */,\
                    "rows_for_plan": 688362,\
                    "cost_for_plan": 564553,\
                    "chosen": true\    -- 这里看到的costrows都比 indx_user 要来的小很多---这个和[A]处是一样的,是信息汇总.
                  } /* chosen_range_access_summary */\
                } /* range_analysis */\
              }\
            ] /* rows_estimation */\ ---逻辑优化, 估算每个表的元组个数. 行估算结束
          },\
          {\
            "considered_execution_plans": [\ ---物理优化, 开始多表连接的物理优化计算
              {\
                "plan_prefix": [\
                ] /* plan_prefix */,\
                "table": "`t_audit_operate_log`",\
                "best_access_path": {\
                  "considered_access_paths": [\
                    {\
                      "access_type": "ref",\ ---物理优化, 计算indx_user索引上使用ref方查找的花费,
                      "index": "indx_user",\
                      "rows": 1.95e6,\
                      "cost": 683515,\
                      "chosen": true\
                    },\ ---物理优化, 本应该比较所有的可用索引,即打印出多个格式相同的但索引名不同的内容,这里却没有。推测是bug--没有遍历每一个索引.
                    {\
                      "access_type": "range",\---物理优化,猜测对应的是indx_time(没有实例可进行调试,对比5.7的跟踪信息猜测而得)
                      "rows": 516272,\
                      "cost": 702225,\---物理优化,代价大于了ref方式的683515,所以没有被选择
                      "chosen": false\   -- cost比上面看到的增加了很多,但rows没什么变化 ---物理优化,此索引没有被选择
                    }\
                  ] /* considered_access_paths */\
                } /* best_access_path */,\
                "cost_for_plan": 683515,\ ---物理优化,汇总在best_access_path 阶段得到的结果
                "rows_for_plan": 1.95e6,\
                "chosen": true\   -- cost比上面看到的竟然小了很多?虽然rows没啥变化  ---物理优化,汇总在best_access_path 阶段得到的结果
              }\
            ] /* considered_execution_plans */\
          },\
          {\
            "attaching_conditions_to_tables": {\---逻辑优化,尽量把条件绑定到对应的表上
              } /* attaching_conditions_to_tables */\
          },\
          {\
            "refine_plan": [\
              {\
                "table": "`t_audit_operate_log`",\---逻辑优化,下推索引条件"pushed_index_condition";其他条件附加到表上做为过滤条件"table_condition_attached"
              }\
            ] /* refine_plan */\
          }\
        ] /* steps */\
      } /* join_optimization */\ \---逻辑优化和物理优化结束
    },\
    {\
      "join_explain": {} /* join_explain */\
    }\
  ] /* steps */\
 


 




本文出自 “Linux运维” 博客,请务必保留此出处http://2853725.blog.51cto.com/2843725/1546280

单表扫描,MySQL索引选择不正确 并 详细解析OPTIMIZER_TRACE格式

标签:mysql   count   

原文地址:http://2853725.blog.51cto.com/2843725/1546280

(0)
(0)
   
举报
评论 一句话评论(0
登录后才能评论!
© 2014 mamicode.com 版权所有  联系我们:gaon5@hotmail.com
迷上了代码!