pg_wait_sampling

This Release
pg_wait_sampling 1.1.3
Date
Status
Stable
Other Releases
Abstract
Sampling based statistics of wait events
Description
pg_wait_sampling provides functions for detailed per backend and per query statistics about PostgreSQL wait events
Released By
pgpro
License
PostgreSQL
Resources
Special Files
Tags

Extensions

pg_wait_sampling 1.1.3
Sampling based statistics of wait events

README

Build Status PGXN version GitHub license

pg_wait_sampling – sampling based statistics of wait events

Introduction

PostgreSQL 9.6+ provides an information about current wait event of particular process. However, in order to gather descriptive statistics of server behavior user have to sample current wait event multiple times. pg_wait_sampling is an extension for collecting sampling statistics of wait events.

The module must be loaded by adding pg_wait_sampling to shared_preload_libraries in postgresql.conf, because it requires additional shared memory and launches background worker. This means that a server restart is needed to add or remove the module.

When pg_wait_sampling is enabled, it collects two kinds of statistics.

  • History of waits events. It's implemented as in-memory ring buffer where samples of each process wait events are written with given (configurable) period. Therefore, for each running process user can see some number of recent samples depending on history size (configurable). Assuming there is a client who periodically read this history and dump it somewhere, user can have continuous history.
  • Waits profile. It's implemented as in-memory hash table where count of samples are accumulated per each process and each wait event (and each query with pg_stat_statements). This hash table can be reset by user request. Assuming there is a client who periodically dumps profile and resets it, user can have statistics of intensivity of wait events among time.

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

pg_wait_sampling launches special background worker for gathering the statistics above.

Availability

pg_wait_sampling is implemented as an extension and not available in default PostgreSQL installation. It is available from github under the same license as PostgreSQL and supports PostgreSQL 9.6+.

Installation

pg_wait_sampling is PostgreSQL extension which requires PostgreSQL 9.6 or higher. Before build and install you should ensure following:

  • PostgreSQL version is 9.6 or higher.
  • You have development package of PostgreSQL installed or you built PostgreSQL from source.
  • Your PATH variable is configured so that pg_config command available, or set PG_CONFIG variable.

Typical installation procedure may look like this:

$ git clone https://github.com/postgrespro/pg_wait_sampling.git
$ cd pg_wait_sampling
$ make USE_PGXS=1
$ sudo make USE_PGXS=1 install
$ make USE_PGXS=1 installcheck
$ psql DB -c "CREATE EXTENSION pg_wait_sampling;"

Compilation on Windows is not supported, since the extension uses symbols from PostgreSQL that are not exported.

Usage

pg_wait_sampling interacts with user by set of views and functions.

pg_wait_sampling_current view – information about current wait events for all processed including background workers.

| Column name | Column type | Description | | ----------- | ----------- | ----------------------- | | pid | int4 | Id of process | | event_type | text | Name of wait event type | | event | text | Name of wait event | | queryid | int8 | Id of query |

pg_wait_sampling_get_current(pid int4) returns the same table for single given process.

pg_wait_sampling_history view – history of wait events obtained by sampling into in-memory ring buffer.

| Column name | Column type | Description | | ----------- | ----------- | ----------------------- | | pid | int4 | Id of process | | ts | timestamptz | Sample timestamp | | event_type | text | Name of wait event type | | event | text | Name of wait event | | queryid | int8 | Id of query |

pg_wait_sampling_profile view – profile of wait events obtained by sampling into in-memory hash table.

| Column name | Column type | Description | | ----------- | ----------- | ----------------------- | | pid | int4 | Id of process | | event_type | text | Name of wait event type | | event | text | Name of wait event | | queryid | int8 | Id of query | | count | text | Count of samples |

pg_wait_sampling_reset_profile() function resets the profile.

The work of wait event statistics collector worker is controlled by following GUCs.

| Parameter name | Data type | Description | Default value | | ----------------------------------- | --------- | ------------------------------------------- | ------------: | | pg_wait_sampling.history_size | int4 | Size of history in-memory ring buffer | 5000 | | pg_wait_sampling.history_period | int4 | Period for history sampling in milliseconds | 10 | | pg_wait_sampling.profile_period | int4 | Period for profile sampling in milliseconds | 10 | | pg_wait_sampling.profile_pid | bool | Whether profile should be per pid | true | | pg_wait_sampling.profile_queries | bool | Whether profile should be per query | false |

If pg_wait_sampling.profile_pid is set to false, sampling profile wouldn't be collected in per-process manner. In this case the value of pid could would be always zero and corresponding row contain samples among all the processes.

While pg_wait_sampling.profile_queries is set to false queryid field in views will be zero.

These GUCs are allowed to be changed by superuser. Also, they are placed into shared memory. Thus, they could be changed from any backend and affects worker runtime.

See PostgreSQL documentation for list of possible wait events.

Contribution

Please, notice, that pg_wait_sampling is still under development and while it's stable and tested, it may contains some bugs. Don't hesitate to raise issues at github with your bug reports.

If you're lacking of some functionality in pg_wait_sampling and feeling power to implement it then you're welcome to make pull requests.

Releases

New features are developed in feature-branches and then merged into master. To make a new release:

1) Bump PGXN version in the META.json. 2) Merge master into stable. 3) Tag new release in the stable with git tag -a v1.1.X, where the last digit is used for indicating compatible shared library changes and bugfixes. Second digit is used to indicate extension schema change, i.e. when ALTER EXTENSION pg_wait_sampling UPDATE; is required. 4) Merge stable into debian. This separate branch is used to independently support Debian packaging and @anayrat with @df7cb have an access there.

Authors