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Identify Slow Queries

To help users identify slow queries, analyze and improve the performance of SQL execution, TiDB outputs the statements whose execution time exceeds slow-threshold (The default value is 300 milliseconds) to slow-query-file (The default value is "tidb-slow.log").

TiDB enables the slow query log by default. You can enable or disable the feature by modifying the configuration enable-slow-log.

Usage example

# Time: 2019-08-14T09:26:59.487776265+08:00 # Txn_start_ts: 410450924122144769 # User@Host: root[root] @ localhost [127.0.0.1] # Conn_ID: 3086 # Exec_retry_time: 5.1 Exec_retry_count: 3 # Query_time: 1.527627037 # Parse_time: 0.000054933 # Compile_time: 0.000129729 # Rewrite_time: 0.000000003 Preproc_subqueries: 2 Preproc_subqueries_time: 0.000000002 # Process_time: 0.07 Request_count: 1 Total_keys: 131073 Process_keys: 131072 Prewrite_time: 0.335415029 Commit_time: 0.032175429 Get_commit_ts_time: 0.000177098 Local_latch_wait_time: 0.106869448 Write_keys: 131072 Write_size: 3538944 Prewrite_region: 1 # DB: test # Is_internal: false # Digest: 50a2e32d2abbd6c1764b1b7f2058d428ef2712b029282b776beb9506a365c0f1 # Stats: t:pseudo # Num_cop_tasks: 1 # Cop_proc_avg: 0.07 Cop_proc_p90: 0.07 Cop_proc_max: 0.07 Cop_proc_addr: 172.16.5.87:20171 # Cop_wait_avg: 0 Cop_wait_p90: 0 Cop_wait_max: 0 Cop_wait_addr: 172.16.5.87:20171 # Cop_backoff_regionMiss_total_times: 200 Cop_backoff_regionMiss_total_time: 0.2 Cop_backoff_regionMiss_max_time: 0.2 Cop_backoff_regionMiss_max_addr: 127.0.0.1 Cop_backoff_regionMiss_avg_time: 0.2 Cop_backoff_regionMiss_p90_time: 0.2 # Cop_backoff_rpcPD_total_times: 200 Cop_backoff_rpcPD_total_time: 0.2 Cop_backoff_rpcPD_max_time: 0.2 Cop_backoff_rpcPD_max_addr: 127.0.0.1 Cop_backoff_rpcPD_avg_time: 0.2 Cop_backoff_rpcPD_p90_time: 0.2 # Cop_backoff_rpcTiKV_total_times: 200 Cop_backoff_rpcTiKV_total_time: 0.2 Cop_backoff_rpcTiKV_max_time: 0.2 Cop_backoff_rpcTiKV_max_addr: 127.0.0.1 Cop_backoff_rpcTiKV_avg_time: 0.2 Cop_backoff_rpcTiKV_p90_time: 0.2 # Mem_max: 525211 # Disk_max: 65536 # Prepared: false # Plan_from_cache: false # Succ: true # Plan: tidb_decode_plan('ZJAwCTMyXzcJMAkyMAlkYXRhOlRhYmxlU2Nhbl82CjEJMTBfNgkxAR0AdAEY1Dp0LCByYW5nZTpbLWluZiwraW5mXSwga2VlcCBvcmRlcjpmYWxzZSwgc3RhdHM6cHNldWRvCg==') use test; insert into t select * from t;

Fields description

Slow query basics:

  • Time: The print time of log.
  • Query_time: The execution time of a statement.
  • Parse_time: The parsing time for the statement.
  • Compile_time: The duration of the query optimization.
  • Query: A SQL statement. Query is not printed in the slow log, but the corresponding field is called Query after the slow log is mapped to the memory table.
  • Digest: The fingerprint of the SQL statement.
  • Txn_start_ts: The start timestamp and the unique ID of a transaction. You can use this value to search for the transaction-related logs.
  • Is_internal: Whether a SQL statement is TiDB internal. true indicates that a SQL statement is executed internally in TiDB and false indicates that a SQL statement is executed by the user.
  • Index_ids: The IDs of the indexes involved in a statement.
  • Succ: Whether a statement is executed successfully.
  • Backoff_time: The waiting time before retry when a statement encounters errors that require a retry. The common errors as such include: lock occurs, Region split, and tikv server is busy.
  • Plan: The execution plan of the statement. Use the select tidb_decode_plan('xxx...') statement to parse the specific execution plan.
  • Prepared: Whether this statement is a Prepare or Execute request or not.
  • Plan_from_cache: Whether this statement hits the execution plan cache.
  • Rewrite_time: The time consumed for rewriting the query of this statement.
  • Preproc_subqueries: The number of subqueries (in the statement) that are executed in advance. For example, the where id in (select if from t) subquery might be executed in advance.
  • Preproc_subqueries_time: The time consumed for executing the subquery of this statement in advance.
  • Exec_retry_count: The retry times of this statement. This field is usually for pessimistic transactions in which the statement is retried when the lock is failed.
  • Exec_retry_time: The execution retry duration of this statement. For example, if a statement has been executed three times in total (failed for the first two times), Exec_retry_time means the total duration of the first two executions. The duration of the last execution is Query_time minus Exec_retry_time.

The following fields are related to transaction execution:

  • Prewrite_time: The duration of the first phase (prewrite) of the two-phase transaction commit.
  • Commit_time: The duration of the second phase (commit) of the two-phase transaction commit.
  • Get_commit_ts_time: The time spent on getting commit_ts during the second phase (commit) of the two-phase transaction commit.
  • Local_latch_wait_time: The time that TiDB spends on waiting for the lock before the second phase (commit) of the two-phase transaction commit.
  • Write_keys: The count of keys that the transaction writes to the Write CF in TiKV.
  • Write_size: The total size of the keys or values to be written when the transaction commits.
  • Prewrite_region: The number of TiKV Regions involved in the first phase (prewrite) of the two-phase transaction commit. Each Region triggers a remote procedure call.

Memory usage fields:

  • Mem_max: The maximum memory space used during the execution period of a SQL statement (the unit is byte).

Hard disk fields:

  • Disk_max: The maximum disk space used during the execution period of a SQL statement (the unit is byte).

User fields:

  • User: The name of the user who executes this statement.
  • Conn_ID: The Connection ID (session ID). For example, you can use the keyword con:3 to search for the log whose session ID is 3.
  • DB: The current database.

TiKV Coprocessor Task fields:

  • Request_count: The number of Coprocessor requests that a statement sends.
  • Total_keys: The number of keys that Coprocessor has scanned.
  • Process_time: The total processing time of a SQL statement in TiKV. Because data is sent to TiKV concurrently, this value might exceed Query_time.
  • Wait_time: The total waiting time of a statement in TiKV. Because the Coprocessor of TiKV runs a limited number of threads, requests might queue up when all threads of Coprocessor are working. When a request in the queue takes a long time to process, the waiting time of the subsequent requests increases.
  • Process_keys: The number of keys that Coprocessor has processed. Compared with total_keys, processed_keys does not include the old versions of MVCC. A great difference between processed_keys and total_keys indicates that many old versions exist.
  • Cop_proc_avg: The average execution time of cop-tasks.
  • Cop_proc_p90: The P90 execution time of cop-tasks.
  • Cop_proc_max: The maximum execution time of cop-tasks.
  • Cop_proc_addr: The address of the cop-task with the longest execution time.
  • Cop_wait_avg: The average waiting time of cop-tasks.
  • Cop_wait_p90: The P90 waiting time of cop-tasks.
  • Cop_wait_max: The maximum waiting time of cop-tasks.
  • Cop_wait_addr: The address of the cop-task whose waiting time is the longest.
  • Cop_backoff_{backoff-type}_total_times: The total times of backoff caused by an error.
  • Cop_backoff_{backoff-type}_total_time: The total time of backoff caused by an error.
  • Cop_backoff_{backoff-type}_max_time: The longest time of backoff caused by an error.
  • Cop_backoff_{backoff-type}_max_addr: The address of the cop-task that has the longest backoff time caused by an error.
  • Cop_backoff_{backoff-type}_avg_time: The average time of backoff caused by an error.
  • Cop_backoff_{backoff-type}_p90_time: The P90 percentile backoff time caused by an error.
  • tidb_slow_log_threshold: Sets the threshold for the slow log. The SQL statement whose execution time exceeds this threshold is recorded in the slow log. The default value is 300 (ms).

  • tidb_query_log_max_len: Sets the maximum length of the SQL statement recorded in the slow log. The default value is 4096 (byte).

  • tidb_redact_log: Determines whether to desensitize user data using ? in the SQL statement recorded in the slow log. The default value is 0, which means to disable the feature.

  • tidb_enable_collect_execution_info: Determines whether to record the physical execution information of each operator in the execution plan. The default value is 1. This feature impacts the performance by approximately 3%. After enabling this feature, you can view the Plan information as follows:

    > select tidb_decode_plan('jAOIMAk1XzE3CTAJMQlmdW5jczpjb3VudChDb2x1bW4jNyktPkMJC/BMNQkxCXRpbWU6MTAuOTMxNTA1bXMsIGxvb3BzOjIJMzcyIEJ5dGVzCU4vQQoxCTMyXzE4CTAJMQlpbmRleDpTdHJlYW1BZ2dfOQkxCXQRSAwyNzY4LkgALCwgcnBjIG51bTogMQkMEXMQODg0MzUFK0hwcm9jIGtleXM6MjUwMDcJMjA2HXsIMgk1BWM2zwAAMRnIADcVyAAxHcEQNQlOL0EBBPBbCjMJMTNfMTYJMQkzMTI4MS44NTc4MTk5MDUyMTcJdGFibGU6dCwgaW5kZXg6aWR4KGEpLCByYW5nZTpbLWluZiw1MDAwMCksIGtlZXAgb3JkZXI6ZmFsc2UJMjUBrgnQVnsA'); +------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------+ | tidb_decode_plan('jAOIMAk1XzE3CTAJMQlmdW5jczpjb3VudChDb2x1bW4jNyktPkMJC/BMNQkxCXRpbWU6MTAuOTMxNTA1bXMsIGxvb3BzOjIJMzcyIEJ5dGVzCU4vQQoxCTMyXzE4CTAJMQlpbmRleDpTdHJlYW1BZ2dfOQkxCXQRSAwyNzY4LkgALCwgcnBjIG51bTogMQkMEXMQODg0MzUFK0hwcm9jIGtleXM6MjUwMDcJMjA2HXsIMg | +------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------+ | id task estRows operator info actRows execution info memory disk | | StreamAgg_17 root 1 funcs:count(Column#7)->Column#5 1 time:10.931505ms, loops:2 372 Bytes N/A | | └─IndexReader_18 root 1 index:StreamAgg_9 1 time:10.927685ms, loops:2, rpc num: 1, rpc time:10.884355ms, proc keys:25007 206 Bytes N/A | | └─StreamAgg_9 cop 1 funcs:count(1)->Column#7 1 time:11ms, loops:25 N/A N/A | | └─IndexScan_16 cop 31281.857819905217 table:t, index:idx(a), range:[-inf,50000), keep order:false 25007 time:11ms, loops:25 N/A N/A | +------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------+

If you are conducting a performance test, you can disable the feature of automatically collecting the execution information of operators:

set @@tidb_enable_collect_execution_info=0;

The returned result of the Plan field has roughly the same format with that of EXPLAIN or EXPLAIN ANALYZE. For more details of the execution plan, see EXPLAIN or EXPLAIN ANALYZE.

For more information, see TiDB specific variables and syntax.

Memory mapping in slow log

You can query the content of the slow query log by querying the INFORMATION_SCHEMA.SLOW_QUERY table. Each column name in the table corresponds to one field name in the slow log. For table structure, see the introduction to the SLOW_QUERY table in Information Schema.

For TiDB 4.0, SLOW_QUERY supports querying the slow log of any period of time, including the rotated slow log file. You need to specify the TIME range to locate the slow log files that need to be parsed. If you don't specify the TIME range, TiDB only parses the current slow log file. For example:

  • If you don't specify the time range, TiDB only parses the slow query data that TiDB is writing to the slow log file:

    select count(*), min(time), max(time) from slow_query;
    +----------+----------------------------+----------------------------+ | count(*) | min(time) | max(time) | +----------+----------------------------+----------------------------+ | 122492 | 2020-03-11 23:35:20.908574 | 2020-03-25 19:16:38.229035 | +----------+----------------------------+----------------------------+
  • If you specify the time range, for example, from 2020-03-10 00:00:00 to 2020-03-11 00:00:00, TiDB first locates the slow log files of the specified time range, and then parses the slow query information:

    select count(*), min(time), max(time) from slow_query where time > '2020-03-10 00:00:00' and time < '2020-03-11 00:00:00';
    +----------+----------------------------+----------------------------+ | count(*) | min(time) | max(time) | +----------+----------------------------+----------------------------+ | 2618049 | 2020-03-10 00:00:00.427138 | 2020-03-10 23:00:22.716728 | +----------+----------------------------+----------------------------+

TiDB 4.0 adds the CLUSTER_SLOW_QUERY system table to query the slow query information of all TiDB nodes. The table schema of the CLUSTER_SLOW_QUERY table differs from that of the SLOW_QUERY table in that an INSTANCE column is added to CLUSTER_SLOW_QUERY. The INSTANCE column represents the TiDB node address of the row information on the slow query. You can use CLUSTER_SLOW_QUERY the way you do with SLOW_QUERY.

When you query the CLUSTER_SLOW_QUERY table, TiDB pushes the computation and the judgment down to other nodes, instead of retrieving all slow query information from other nodes and executing the operations on one TiDB node.

SLOW_QUERY / CLUSTER_SLOW_QUERY usage examples

Top-N slow queries

Query the Top 2 slow queries of users. Is_internal=false means excluding slow queries inside TiDB and only querying slow queries of users.

select query_time, query from information_schema.slow_query where is_internal = false order by query_time desc limit 2;

Output example:

+--------------+------------------------------------------------------------------+ | query_time | query | +--------------+------------------------------------------------------------------+ | 12.77583857 | select * from t_slim, t_wide where t_slim.c0=t_wide.c0; | | 0.734982725 | select t0.c0, t1.c1 from t_slim t0, t_wide t1 where t0.c0=t1.c0; | +--------------+------------------------------------------------------------------+

Query the Top-N slow queries of the test user

In the following example, the slow queries executed by the test user are queried, and the first two results are displayed in reverse order of execution time.

select query_time, query, user from information_schema.slow_query where is_internal = false and user = "test" order by query_time desc limit 2;

Output example:

+-------------+------------------------------------------------------------------+----------------+ | Query_time | query | user | +-------------+------------------------------------------------------------------+----------------+ | 0.676408014 | select t0.c0, t1.c1 from t_slim t0, t_wide t1 where t0.c0=t1.c1; | test | +-------------+------------------------------------------------------------------+----------------+

Query similar slow queries with the same SQL fingerprints

After querying the Top-N SQL statements, continue to query similar slow queries using the same fingerprints.

  1. Acquire Top-N slow queries and the corresponding SQL fingerprints.

    select query_time, query, digest from information_schema.slow_query where is_internal = false order by query_time desc limit 1;

    Output example:

    +-------------+-----------------------------+------------------------------------------------------------------+ | query_time | query | digest | +-------------+-----------------------------+------------------------------------------------------------------+ | 0.302558006 | select * from t1 where a=1; | 4751cb6008fda383e22dacb601fde85425dc8f8cf669338d55d944bafb46a6fa | +-------------+-----------------------------+------------------------------------------------------------------+
  2. Query similar slow queries with the fingerprints.

    select query, query_time from information_schema.slow_query where digest = "4751cb6008fda383e22dacb601fde85425dc8f8cf669338d55d944bafb46a6fa";

    Output example:

    +-----------------------------+-------------+ | query | query_time | +-----------------------------+-------------+ | select * from t1 where a=1; | 0.302558006 | | select * from t1 where a=2; | 0.401313532 | +-----------------------------+-------------+

Query slow queries with pseudo stats

select query, query_time, stats from information_schema.slow_query where is_internal = false and stats like '%pseudo%';

Output example:

+-----------------------------+-------------+---------------------------------+ | query | query_time | stats | +-----------------------------+-------------+---------------------------------+ | select * from t1 where a=1; | 0.302558006 | t1:pseudo | | select * from t1 where a=2; | 0.401313532 | t1:pseudo | | select * from t1 where a>2; | 0.602011247 | t1:pseudo | | select * from t1 where a>3; | 0.50077719 | t1:pseudo | | select * from t1 join t2; | 0.931260518 | t1:407872303825682445,t2:pseudo | +-----------------------------+-------------+---------------------------------+

Query slow queries whose execution plan is changed

When the execution plan of SQL statements of the same category is changed, the execution slows down, because the statistics is outdated, or the statistics is not accurate enough to reflect the real data distribution. You can use the following SQL statement to query SQL statements with different execution plans.

select count(distinct plan_digest) as count, digest, min(query) from cluster_slow_query group by digest having count > 1 limit 3\G

Output example:

***************************[ 1. row ]*************************** count | 2 digest | 17b4518fde82e32021877878bec2bb309619d384fca944106fcaf9c93b536e94 min(query) | SELECT DISTINCT c FROM sbtest25 WHERE id BETWEEN ? AND ? ORDER BY c [arguments: (291638, 291737)]; ***************************[ 2. row ]*************************** count | 2 digest | 9337865f3e2ee71c1c2e740e773b6dd85f23ad00f8fa1f11a795e62e15fc9b23 min(query) | SELECT DISTINCT c FROM sbtest22 WHERE id BETWEEN ? AND ? ORDER BY c [arguments: (215420, 215519)]; ***************************[ 3. row ]*************************** count | 2 digest | db705c89ca2dfc1d39d10e0f30f285cbbadec7e24da4f15af461b148d8ffb020 min(query) | SELECT DISTINCT c FROM sbtest11 WHERE id BETWEEN ? AND ? ORDER BY c [arguments: (303359, 303458)];

Then you can query the different plans using the SQL fingerprint in the query result above:

select min(plan), plan_digest from cluster_slow_query where digest='17b4518fde82e32021877878bec2bb309619d384fca944106fcaf9c93b536e94' group by plan_digest\G

Output example:

*************************** 1. row *************************** min(plan): Sort_6 root 100.00131380758702 sbtest.sbtest25.c:asc └─HashAgg_10 root 100.00131380758702 group by:sbtest.sbtest25.c, funcs:firstrow(sbtest.sbtest25.c)->sbtest.sbtest25.c └─TableReader_15 root 100.00131380758702 data:TableRangeScan_14 └─TableScan_14 cop 100.00131380758702 table:sbtest25, range:[502791,502890], keep order:false plan_digest: 6afbbd21f60ca6c6fdf3d3cd94f7c7a49dd93c00fcf8774646da492e50e204ee *************************** 2. row *************************** min(plan): Sort_6 root 1 sbtest.sbtest25.c:asc └─HashAgg_12 root 1 group by:sbtest.sbtest25.c, funcs:firstrow(sbtest.sbtest25.c)->sbtest.sbtest25.c └─TableReader_13 root 1 data:HashAgg_8 └─HashAgg_8 cop 1 group by:sbtest.sbtest25.c, └─TableScan_11 cop 1.2440069558121831 table:sbtest25, range:[472745,472844], keep order:false

Query the number of slow queries for each TiDB node in a cluster

select instance, count(*) from information_schema.cluster_slow_query where time >= "2020-03-06 00:00:00" and time < now() group by instance;

Output example:

+---------------+----------+ | instance | count(*) | +---------------+----------+ | 0.0.0.0:10081 | 124 | | 0.0.0.0:10080 | 119771 | +---------------+----------+

Query slow logs occurring only in abnormal time period

If you find problems such as decreased QPS or increased latency for the time period from 2020-03-10 13:24:00 to 2020-03-10 13:27:00, the reason might be that a large query crops up. Run the following SQL statement to query slow logs that occur only in abnormal time period. The time range from 2020-03-10 13:20:00 to 2020-03-10 13:23:00 refers to the normal time period.

SELECT * FROM (SELECT /*+ AGG_TO_COP(), HASH_AGG() */ count(*), min(time), sum(query_time) AS sum_query_time, sum(Process_time) AS sum_process_time, sum(Wait_time) AS sum_wait_time, sum(Commit_time), sum(Request_count), sum(process_keys), sum(Write_keys), max(Cop_proc_max), min(query),min(prev_stmt), digest FROM information_schema.CLUSTER_SLOW_QUERY WHERE time >= '2020-03-10 13:24:00' AND time < '2020-03-10 13:27:00' AND Is_internal = false GROUP BY digest) AS t1 WHERE t1.digest NOT IN (SELECT /*+ AGG_TO_COP(), HASH_AGG() */ digest FROM information_schema.CLUSTER_SLOW_QUERY WHERE time >= '2020-03-10 13:20:00' AND time < '2020-03-10 13:23:00' GROUP BY digest) ORDER BY t1.sum_query_time DESC limit 10\G

Output example:

***************************[ 1. row ]*************************** count(*) | 200 min(time) | 2020-03-10 13:24:27.216186 sum_query_time | 50.114126194 sum_process_time | 268.351 sum_wait_time | 8.476 sum(Commit_time) | 1.044304306 sum(Request_count) | 6077 sum(process_keys) | 202871950 sum(Write_keys) | 319500 max(Cop_proc_max) | 0.263 min(query) | delete from test.tcs2 limit 5000; min(prev_stmt) | digest | 24bd6d8a9b238086c9b8c3d240ad4ef32f79ce94cf5a468c0b8fe1eb5f8d03df

Parse other TiDB slow log files

TiDB uses the session variable tidb_slow_query_file to control the files to be read and parsed when querying INFORMATION_SCHEMA.SLOW_QUERY. You can query the content of other slow query log files by modifying the value of the session variable.

set tidb_slow_query_file = "/path-to-log/tidb-slow.log"

Parse TiDB slow logs with pt-query-digest

Use pt-query-digest to parse TiDB slow logs.

For example:

pt-query-digest --report tidb-slow.log

Output example:

# 320ms user time, 20ms system time, 27.00M rss, 221.32M vsz # Current date: Mon Mar 18 13:18:51 2019 # Hostname: localhost.localdomain # Files: tidb-slow.log # Overall: 1.02k total, 21 unique, 0 QPS, 0x concurrency _________________ # Time range: 2019-03-18-12:22:16 to 2019-03-18-13:08:52 # Attribute total min max avg 95% stddev median # ============ ======= ======= ======= ======= ======= ======= ======= # Exec time 218s 10ms 13s 213ms 30ms 1s 19ms # Query size 175.37k 9 2.01k 175.89 158.58 122.36 158.58 # Commit time 46ms 2ms 7ms 3ms 7ms 1ms 3ms # Conn ID 71 1 16 8.88 15.25 4.06 9.83 # Process keys 581.87k 2 103.15k 596.43 400.73 3.91k 400.73 # Process time 31s 1ms 10s 32ms 19ms 334ms 16ms # Request coun 1.97k 1 10 2.02 1.96 0.33 1.96 # Total keys 636.43k 2 103.16k 652.35 793.42 3.97k 400.73 # Txn start ts 374.38E 0 16.00E 375.48P 1.25P 89.05T 1.25P # Wait time 943ms 1ms 19ms 1ms 2ms 1ms 972us . . .

Identify problematic SQL statements

Not all of the SLOW_QUERY statements are problematic. Only those whose process_time is very large increase the pressure on the entire cluster.

The statements whose wait_time is very large and process_time is very small are usually not problematic. This is because the statement is blocked by real problematic statements and it has to wait in the execution queue, which leads to a much longer response time.

admin show slow command

In addition to the TiDB log file, you can identify slow queries by running the admin show slow command:

admin show slow recent N admin show slow top [internal | all] N

recent N shows the recent N slow query records, for example:

admin show slow recent 10

top N shows the slowest N query records recently (within a few days). If the internal option is provided, the returned results would be the inner SQL executed by the system; If the all option is provided, the returned results would be the user's SQL combinated with inner SQL; Otherwise, this command would only return the slow query records from the user's SQL.

admin show slow top 3 admin show slow top internal 3 admin show slow top all 5

TiDB stores only a limited number of slow query records because of the limited memory. If the value of N in the query command is greater than the records count, the number of returned records is smaller than N.

The following table shows output details:

Column nameDescription
startThe starting time of the SQL execution
durationThe duration of the SQL execution
detailsThe details of the SQL execution
succWhether the SQL statement is executed successfully. 1 means success and 0 means failure.
conn_idThe connection ID for the session
transcation_tsThe commit ts for a transaction commit
userThe user name for the execution of the statement
dbThe database involved when the statement is executed
table_idsThe ID of the table involved when the SQL statement is executed
index_idsThe ID of the index involved when the SQL statement is executed
internalThis is a TiDB internal SQL statement
digestThe fingerprint of the SQL statement
sqlThe SQL statement that is being executed or has been executed

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