F.51. pg_wait_sampling

pg_wait_sampling is a Postgres Pro extension for collecting sampling-based statistics on wait events.

Starting from the 9.6 version, Postgres Pro Enterprise provides information about the current wait events for particular processes. However, to get descriptive statistics of the server activity, you have to sample wait events multiple times. The pg_wait_sampling extension automates wait events sampling by launching a special background worker. With pg_wait_sampling enabled, you can get the following sampling-based data:

  • Waits history — the list of wait events for recent processes, with timestamps.

  • Waits profile — the number of wait event samples for all processes over time (per wait event type).

  • Current wait events for all processes, including background workers.

Using pg_wait_sampling, you can troubleshoot dependencies for queries that process longer than expected. You can see what a particular process is waiting for at each moment of time, and analyze wait events statistics. For the list of possible wait events, see Table 27.4.

In combination with pg_stat_statements, this extension can also provide per query statistics.

See Also

Viewing Statistics on Wait Events

Reference

F.51.1. Installation

The pg_wait_sampling extension is included into Postgres Pro Enterprise and requires no special prerequisites.

To enable pg_wait_sampling, do the following:

  1. Add pg_wait_sampling to the shared_preload_libraries variable in the postgresql.conf file:

    shared_preload_libraries = 'pg_wait_sampling'

    Important

    When using the pg_wait_sampling with the pg_stat_statements extension, place pg_stat_statements before pg_wait_sampling in the shared_preload_libraries variable. This ensures that the pg_stat_statements extension does not overwrite query IDs that are used by pg_wait_sampling.

  2. Create the pg_wait_sampling extension using the following query:

    CREATE EXTENSION pg_wait_sampling;
  3. Restart the server. Since pg_wait_sampling requires additional shared memory and launches a background worker, you must restart the server after adding or removing pg_wait_sampling.

Once the extension is created, pg_wait_sampling starts collecting statistics on wait events for each process. Optionally, you can change the sampling frequency and configure statistics collection modes using GUC variables.

If you want to stop collecting statistics, drop the pg_wait_sampling extension, remove the pg_wait_sampling from the shared_preload_libraries variable, and restart the server again.

F.51.2. Usage

F.51.2.1. Viewing Statistics on Wait Events

When pg_wait_sampling is enabled, wait events are sampled each 10ms by default. You can access the collected statistics through a set of functions and views. If some of your queries appear stalled or take longer than expected, you can review all the current wait events in the pg_wait_sampling_current view:

SELECT * FROM pg_wait_sampling_current;

The returned statistics covers all the active processes, including background workers. To filter the view for a single process, run pg_wait_sampling_get_current() function specifying the process ID:

SELECT * FROM pg_wait_sampling_get_current(pid);

To better understand the dynamics of the recent wait events, you can access the pg_wait_sampling_history view that provides the wait events history for the latest processes:

SELECT * FROM pg_wait_sampling_history;

The returned view displays wait samples per process, with event timestamps. Waits history is implemented as an in-memory ring buffer. By default, the history size is limited to 5000 samples. To save history for a longer period of time, you can modify the pg_wait_sampling.history_size variable, or connect a client application to periodically read waits history and dump it to a local storage.

To monitor wait events in your database over time, use the pg_wait_sampling_profile view:

SELECT * FROM pg_wait_sampling_profile;

Waits profile is stored as an in-memory hash table that accumulates samples per each process and each wait event. You can reset waits profile by calling the pg_wait_sampling_reset_profile() function. If you connect a client to your database that periodically dumps the wait events data and resets the profile, you can save and compare statistics of wait events intensity over time.

Important

Since wait sampling statistics is stored in RAM, make sure to reset the waits profile from time to time to avoid memory overflow.

If you are not interested in the distribution of wait events between processes, you can set the pg_wait_sampling.profile_pid variable to false. In this case, the pid value for each process is set to zero, and wait samples for all the processes are stored together.

F.51.3. Reference

F.51.3.1. GUC Variables

The pg_wait_sampling extension is configured with GUC variables. You must have superuser rights to change GUC variables. Since these variables are placed into shared memory, you can change them from any backend that affects the pg_wait_sampling background worker runtime.

pg_wait_sampling.history_size (int4)

Size of in-memory ring buffer for history sampling, in the number of samples.

Default: 5000

pg_wait_sampling.history_period (int4)

Time interval for history sampling, in milliseconds.

Default: 10

pg_wait_sampling.profile_period (int4)

Time interval for waits profile sampling, in milliseconds.

Default: 10

pg_wait_sampling.profile_pid (bool)

Sampling mode for waits profile. If set to true, waits profile is collected per process. If you set pg_wait_sampling.profile_pid to false, waits profile is collected for all processes together. In this case, the pid value for each process is set to zero, and the corresponding row contains wait samples for all the processes.

Default: true

pg_wait_sampling.profile_queries (enum)

Sampling mode for the waits profile. If pg_wait_sampling.profile_queries is set to none, the queryid field in views will be zero. If it is set to top, query IDs of only the top level statements are recorded. If it is set to all, query IDs of nested statements are recorded. To collect the waits profile per query, ensure that the pg_stat_statements extension is configured and set pg_wait_sampling.profile_queries to top. For version 14 or higher, you can compute query IDs by configuring the compute_query_id parameter and set the pg_wait_sampling.profile_queries value to top or all. For details, see Section 19.9.2.

Default: top

pg_wait_sampling.sample_cpu (bool)

The sampling mode that determines whether to perform sampling of on-CPU backends. If pg_wait_sampling.sample_cpu is set to true, then sampling also includes processes that are not waiting for anything. The wait event columns for such processes will have a NULL value.

Default: true

F.51.3.2. pg_wait_sampling Views

F.51.3.2.1. pg_wait_sampling_current View

The pg_wait_sampling_current view provides the information about the current wait events for all processes, including background workers.

Table F.37. pg_wait_sampling_current View

Column Name Column Type Description
pidint4 Process ID
event_typetext Name of wait event type
eventtext Name of wait event
queryidint8 Query ID

F.51.3.2.2. pg_wait_sampling_history View

The pg_wait_sampling_history view provides the history of wait events. This data is stored as an in-memory ring buffer.

Table F.38. pg_wait_sampling_history View

Column Name Column Type Description
pidint4 Process ID
tstimestamptz Sample timestamp
event_typetext Name of wait event type
eventtext Name of wait event
queryidint8 Query ID

F.51.3.2.3. pg_wait_sampling_profile View

The pg_wait_sampling_profile view provides the profile of wait events. This data is stored as an in-memory hash table.

Table F.39. pg_wait_sampling_profile View

Column Name Column Type Description
pidint4 Process ID
event_typetext Name of wait event type
eventtext Name of wait event
queryidint8 Query ID
countint8 Number of samples

F.51.3.3. Functions

pg_wait_sampling_get_current(pid int4)

Returns the pg_wait_sampling_current view with the list of current wait events. If you set the pid argument, the view is filtered for the process with this pid.

Arguments:

  • pid — Optional. The process ID for which to display the current wait events.

pg_wait_sampling_reset_profile()

Resets the waits profile and clears the memory.

F.51.4. Authors