Troubleshoot SQL Behavior

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Warning:
CockroachDB v20.2 is no longer supported as of May 10, 2022. For more details, refer to the Release Support Policy.

If a SQL statement returns an unexpected result or takes longer than expected to process, this page will help you troubleshoot the issue.

Tip:

For a developer-centric walkthrough of optimizing SQL query performance, see Optimize Query Performance.

Identify slow queries

Use the slow query log or DB Console to detect slow queries in your cluster.

Using the slow query log

The slow query log is a record of SQL queries whose service latency exceeds a specified threshold value. When the sql.log.slow_query.latency_threshold cluster setting is set to a non-zero value, each gateway node will log slow SQL queries to a secondary log file (cockroach-sql-slow.log) in the log directory.

Note:

Service latency is the time taken to execute a query once it is received by the cluster. It does not include the time taken to send the query to the cluster or return the result to the client.

  1. Run the cockroach sql command against one of your nodes. This opens the interactive SQL shell.

  2. Set the sql.log.slow_query.latency_threshold cluster setting to a threshold of your choosing. For example, 100 milliseconds represents the limit where a user feels the system is reacting instantaneously.

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    > SET CLUSTER SETTING sql.log.slow_query.latency_threshold = '100ms';
    
  3. New in v20.2: To write slow internal queries to a separate log, set the sql.log.slow_query.internal_queries.enabled cluster setting to true.

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    > SET CLUSTER SETTING sql.log.slow_query.internal_queries.enabled = 'true';
    
  4. Each node's slow query logs are written by default in CockroachDB's standard log directory.

  5. When you open a slow query log, look for a line that corresponds to your earlier SET CLUSTER SETTING command. For example:

    I201008 21:16:13.751178 1947 sql/exec_log.go:225 ⋮ [n1,client=‹[::1]:54351›,hostnossl,user=root] 1 53.832ms ‹exec› ‹"$ cockroach sql"› ‹{}› ‹"SET CLUSTER SETTING \"sql.log.slow_query.latency_threshold\" = '100ms'"› ‹{}› 0 ‹""› 0 ‹{ LATENCY_THRESHOLD }›
    

    Slow queries will be logged after this line.

  6. The slow query log generally shares the SQL audit log file format. One exception is that service latency is found between the log entry counter and log message.

    For example, the below query was logged with a service latency of 117.473ms milliseconds:

    I201008 21:17:53.642721 7444 sql/exec_log.go:225 ⋮ [n1,client=‹[::1]:54425›,hostnossl,user=root] 270 117.473ms ‹exec› ‹"movr"› ‹{}› ‹"UPDATE rides SET end_address = $3, end_time = now() WHERE (city = $1) AND (id = $2)"› ‹{$1:"'san francisco'", $2:"'9c33be8a-fdeb-428b-b3df-50c3c947df5a'", $3:"'3873 Margaret Junctions Apt. 52'"}› 1 ‹""› 0 ‹{ LATENCY_THRESHOLD }›
    

    And the following internal query was logged with a service latency of 483.627 milliseconds:

    I201008 21:16:06.534587 28912 sql/exec_log.go:225 ⋮ [intExec=‹create-stats›] 10 483.627ms ‹exec-internal› ‹"$ internal-create-stats"› ‹{}› ‹"CREATE STATISTICS __auto__ FROM [56] WITH OPTIONS THROTTLING 0.9 AS OF SYSTEM TIME '-30s'"› ‹{}› 0 ‹""› 0 ‹{ LATENCY_THRESHOLD }›
    
Note:

Setting sql.log.slow_query.latency_threshold to a non-zero value enables tracing on all queries, which impacts performance. After debugging, set the value back to 0s to disable the log.

Tip:

Log files can be accessed using the DB Console, which displays them in JSON format.

  1. Access the DB Console and then click Advanced Debug in the left-hand navigation.

  2. Under Raw Status Endpoints (JSON), click Log Files to view the JSON of all collected logs.

  3. Copy one of the log filenames. Then click Specific Log File and replace the cockroach.log placeholder in the URL with the filename.

Using the DB Console

High latency SQL statements are displayed on the Statements page of the DB Console. To view the Statements page, access the DB Console and click Statements on the left.

You can also check the service latency graph and the CPU graph on the SQL and Hardware Dashboards, respectively. If the graphs show latency spikes or CPU usage spikes, these might indicate slow queries in your cluster.

Visualize statement traces in Jaeger

You can look more closely at the behavior of a statement by visualizing a statement trace in Jaeger. A statement trace contains messages and timing information from all nodes involved in the execution.

  1. Activate statement diagnostics on the DB Console Statements Page or run EXPLAIN ANALYZE (DEBUG) to obtain a diagnostics bundle for the statement.

  2. Start Jaeger:

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  docker run -d --name jaeger -p 16686:16686 jaegertracing/all-in-one:1.17
  1. Access the Jaeger UI at http://localhost:16686/search.

  2. Click on JSON File in the Jaeger UI and upload trace-jaeger.json from the diagnostics bundle. The trace will appear in the list on the right.

    Jaeger Trace Upload JSON

  3. Click on the trace to view its details. It is visualized as a collection of spans with timestamps. These may include operations executed by different nodes.

    Jaeger Trace Spans

    The full timeline displays the execution time and execution phases for the statement.

  4. Click on a span to view details for that span and log messages.

    Jaeger Trace Log Messages

  5. You can troubleshoot transaction contention, for example, by gathering diagnostics on statements with high latency and looking through the log messages in trace-jaeger.json for jumps in latency.

In the example below, the trace shows that there is significant latency between a push attempt on a transaction that is holding a lock (56.85ms) and that transaction being committed (131.37ms).

Jaeger Trace Log Messages

SELECT statement performance issues

The common reasons for a sub-optimal SELECT performance are inefficient scans, full scans, and incorrect use of indexes. To improve the performance of SELECT statements, refer to the following documents:

Query is always slow

If you have consistently slow queries in your cluster, use the Statement Details page to drill down to an individual statement and collect diagnostics for the statement. A diagnostics bundle contains a record of transaction events across nodes for the SQL statement.

You can also use an EXPLAIN ANALYZE statement, which executes a SQL query and returns a physical query plan with execution statistics. Query plans can be used to troubleshoot slow queries by indicating where time is being spent, how long a processor (i.e., a component that takes streams of input rows and processes them according to a specification) is not doing work, etc.

We recommend sending either the diagnostics bundle or the EXPLAIN ANALYZE output to our support team for analysis.

Query is sometimes slow

If the query performance is irregular:

  1. Run SHOW TRACE for the query twice: once when the query is performing as expected and once when the query is slow.

  2. Contact us to analyze the outputs of the SHOW TRACE command.

Cancelling running queries

See Cancel query

Low throughput

Throughput is affected by the disk I/O, CPU usage, and network latency. Use the DB Console to check the following metrics:

Single hot node

A hot node is one that has much higher resource usage than other nodes. To determine if you have a hot node in your cluster, access the DB Console, click Metrics on the left, and navigate to the following graphs. Hover over each of the following graphs to see the per-node values of the metrics. If one of the nodes has a higher value, you have a hot node in your cluster.

  • Replication dashboard > Average queries per store graph.

  • Overview Dashboard > Service Latency graph

  • Hardware Dashboard > CPU percent graph

  • SQL Dashboard > SQL Connections graph

  • Hardware Dashboard > Disk IOPS in Progress graph

Solution:

  • If you have a small table that fits into one range, then only one of the nodes will be used. This is expected behavior. However, you can split your range to distribute the table across multiple nodes.

  • If the SQL Connections graph shows that one node has a higher number of SQL connections and other nodes have zero connections, check if your app is set to talk to only one node.

  • Check load balancer settings.

  • Check for transaction contention.

  • If you have a monotonically increasing index column or Primary Key, then your index or Primary Key should be redesigned. See Unique ID best practices for more information.

INSERT/UPDATE statements are slow

Use the Statements page to identify the slow SQL statements. To view the Statements page, access the DB Console and then click Statements on the left.

Refer to the following documents to improve INSERT / UPDATE performance:

Per-node queries per second (QPS) is high

If a cluster is not idle, it is useful to monitor the per-node queries per second. Cockroach will automatically distribute load throughout the cluster. If one or more nodes is not performing any queries there is likely something to investigate. See exec_success and exec_errors which track operations at the KV layer and sql_{select,insert,update,delete}_count which track operations at the SQL layer.

Increasing number of nodes does not improve performance

See Why would increasing the number of nodes not result in more operations per second?

bad connection & closed responses

If you receive a response of bad connection or closed, this normally indicates that the node you connected to died. You can check this by connecting to another node in the cluster and running cockroach node status.

Once you find the downed node, you can check its logs (stored in cockroach-data/logs by default).

Because this kind of behavior is entirely unexpected, you should file an issue.

SQL logging

There are several ways to log SQL queries. The type of logging to use depends on your requirements and on the purpose of the logs.

Cluster-wide execution logs

For production clusters, the best way to log all queries is to turn on the cluster-wide setting sql.trace.log_statement_execute:

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> SET CLUSTER SETTING sql.trace.log_statement_execute = true;

With this setting on, each node of the cluster writes all SQL queries it executes to a secondary cockroach-sql-exec log file. Use the symlink cockroach-sql-exec.log to open the most recent log. When you no longer need to log queries, you can turn the setting back off:

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> SET CLUSTER SETTING sql.trace.log_statement_execute = false;

Log files are written to CockroachDB's standard log directory.

Slow query logs

The sql.log.slow_query.latency_threshold cluster setting is used to log queries whose service latency exceeds a specified threshold value. The threshold value must be specified with a unit of time (e.g., 500ms for 500 milliseconds, 5us for 5 nanoseconds, or 5s for 5 seconds). A threshold of 0s disables the slow query log.

For example, to enable the slow query log for all queries with a latency above 100 milliseconds:

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> SET CLUSTER SETTING sql.log.slow_query.latency_threshold = '100ms';

After the threshold is set, each gateway node records slow SQL queries to a cockroach-sql-slow log file. Log files are written to CockroachDB's standard log directory.

Note:

Setting sql.log.slow_query.latency_threshold to a non-zero time enables tracing on all queries, which impacts performance. After debugging, set the value back to 0s to disable the log.

New in v20.2: To log all queries that perform full table or index scans to the slow query log, regardless of query latency, set the sql.log.slow_query.experimental_full_table_scans.enabled cluster setting to true. The end of each line in the slow query log indicates if the query was logged for surpassing the threshold (LATENCY_THRESHOLD), or if it was logged because of a full scan (FULL_TABLE_SCAN or FULL_SECONDARY_INDEX_SCAN).

New in v20.2: By default, slow internal queries are not logged. To log slow internal queries, set the sql.log.slow_query.internal_queries.enabled cluster setting to true. When sql.log.slow_query.internal_queries.enabled=true, and sql.log.slow_query.latency_threshold does not equal 0s, all internal queries that have a service latency above sql.log.slow_query.latency_threshold will be logged to cockroach-slow-log-internal-only.log.

For an example of logging slow queries, see Using the slow query log.

Authentication logs

Warning:

This is an experimental feature. The interface and output are subject to change.

SQL client connections can be logged by turning on the server.auth_log.sql_connections.enabled cluster setting:

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> SET CLUSTER SETTING server.auth_log.sql_connections.enabled = true;

This will log connection established and connection terminated events to a cockroach-auth log file. Use the symlink cockroach-auth.log to open the most recent log.

Note:

In addition to SQL sessions, connection events can include SQL-based liveness probe attempts, as well as attempts to use the PostgreSQL cancel protocol.

This example log shows both types of connection events over a hostssl (TLS certificate over TCP) connection:

I200219 05:08:43.083907 5235 sql/pgwire/server.go:445  [n1,client=[::1]:34588] 22 received connection
I200219 05:08:44.171384 5235 sql/pgwire/server.go:453  [n1,client=[::1]:34588,hostssl] 26 disconnected; duration: 1.087489893s

Along with the above, SQL client authenticated sessions can be logged by turning on the server.auth_log.sql_sessions.enabled cluster setting:

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> SET CLUSTER SETTING server.auth_log.sql_sessions.enabled = true;

This logs authentication method selection, authentication method application, authentication method result, and session termination events to the cockroach-auth log file. Use the symlink cockroach-auth.log to open the most recent log.

This example log shows authentication success over a hostssl (TLS certificate over TCP) connection:

I200219 05:08:43.089501 5149 sql/pgwire/auth.go:327  [n1,client=[::1]:34588,hostssl,user=root] 23 connection matches HBA rule:
# TYPE DATABASE USER ADDRESS METHOD        OPTIONS
host   all      root all     cert-password
I200219 05:08:43.091045 5149 sql/pgwire/auth.go:327  [n1,client=[::1]:34588,hostssl,user=root] 24 authentication succeeded
I200219 05:08:44.169684 5235 sql/pgwire/conn.go:216  [n1,client=[::1]:34588,hostssl,user=root] 25 session terminated; duration: 1.080240961s

This example log shows authentication failure log over a local (password over Unix socket) connection:

I200219 05:02:18.148961 1037 sql/pgwire/auth.go:327  [n1,client,local,user=root] 17 connection matches HBA rule:
# TYPE DATABASE USER ADDRESS METHOD   OPTIONS
local  all      all          password
I200219 05:02:18.151644 1037 sql/pgwire/auth.go:327  [n1,client,local,user=root] 18 user has no password defined
I200219 05:02:18.152863 1037 sql/pgwire/auth.go:327  [n1,client,local,user=root] 19 authentication failed: password authentication failed for user root
I200219 05:02:18.154168 1036 sql/pgwire/conn.go:216  [n1,client,local,user=root] 20 session terminated; duration: 5.261538ms

For complete logging of client connections, we recommend enabling both server.auth_log.sql_connections.enabled and server.auth_log.sql_sessions.enabled.

Note:

Be aware that both logs perform one disk I/O per event and will impact performance when enabled.

For more details on authentication and certificates, see Authentication.

Log files are written to CockroachDB's standard log directory.

Per-node execution logs

Alternatively, if you are testing CockroachDB locally and want to log queries executed just by a specific node, you can either pass a CLI flag at node startup, or execute a SQL function on a running node.

Using the CLI to start a new node, pass the --vmodule flag to the cockroach start command. For example, to start a single node locally and log all client-generated SQL queries it executes, you'd run:

$ cockroach start --insecure --listen-addr=localhost --vmodule=exec_log=2 --join=<join addresses>
Tip:

To log CockroachDB-generated SQL queries as well, use --vmodule=exec_log=3.

From the SQL prompt on a running node, execute the crdb_internal.set_vmodule() function:

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> SELECT crdb_internal.set_vmodule('exec_log=2');

This will result in the following output:

  crdb_internal.set_vmodule
+---------------------------+
                          0
(1 row)

Once the logging is enabled, all client-generated SQL queries executed by the node will be written to the primary CockroachDB log file as follows:

I180402 19:12:28.112957 394661 sql/exec_log.go:173  [n1,client=127.0.0.1:50155,user=root] exec "psql" {} "SELECT version()" {} 0.795 1 ""

SQL audit logs

Warning:

This is an experimental feature. The interface and output are subject to change.

SQL audit logging is useful if you want to log all queries that are run against specific tables, by specific users.

Note that enabling SQL audit logs can negatively impact performance. As a result, we recommend using SQL audit logs for security purposes only.

Something else?

Try searching the rest of our docs for answers or using our other support resources, including:


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