Vulnerabilities | |||||
---|---|---|---|---|---|
Version | Suggest | Low | Medium | High | Critical |
0.8.3 | 0 | 0 | 0 | 0 | 0 |
0.8.2 | 0 | 0 | 0 | 0 | 0 |
0.8.1 | 0 | 0 | 0 | 0 | 0 |
0.8.0 | 0 | 0 | 0 | 0 | 0 |
0.7.15 | 0 | 0 | 0 | 0 | 0 |
0.7.14 | 0 | 0 | 0 | 0 | 0 |
0.7.13 | 0 | 0 | 0 | 0 | 0 |
0.7.12 | 0 | 0 | 0 | 0 | 0 |
0.7.11 | 0 | 0 | 0 | 0 | 0 |
0.7.10 | 0 | 0 | 0 | 0 | 0 |
0.7.9 | 0 | 0 | 0 | 0 | 0 |
0.7.8 | 0 | 0 | 0 | 0 | 0 |
0.7.7 | 0 | 0 | 0 | 0 | 0 |
0.7.6 | 0 | 0 | 0 | 0 | 0 |
0.7.5 | 0 | 0 | 0 | 0 | 0 |
0.7.4 | 0 | 0 | 0 | 0 | 0 |
0.7.3 | 0 | 0 | 0 | 0 | 0 |
0.7.2 | 0 | 0 | 0 | 0 | 0 |
0.7.1 | 0 | 0 | 0 | 0 | 0 |
0.7.0 | 0 | 0 | 0 | 0 | 0 |
0.6.5 | 0 | 0 | 0 | 0 | 0 |
0.6.4 | 0 | 0 | 0 | 0 | 0 |
0.6.3 | 0 | 0 | 0 | 0 | 0 |
0.6.2 | 0 | 0 | 0 | 0 | 0 |
0.6.1 | 0 | 0 | 0 | 0 | 0 |
0.6.0 | 0 | 0 | 0 | 0 | 0 |
0.4.4 | 0 | 0 | 0 | 0 | 0 |
0.4.3 | 0 | 0 | 0 | 0 | 0 |
0.4.2 | 0 | 0 | 0 | 0 | 0 |
0.4.1 | 0 | 0 | 0 | 0 | 0 |
0.4.0 | 0 | 0 | 0 | 0 | 0 |
0.3.4 | 0 | 0 | 0 | 0 | 0 |
0.3.3 | 0 | 0 | 0 | 0 | 0 |
0.3.2 | 0 | 0 | 0 | 0 | 0 |
0.3.1 | 0 | 0 | 0 | 0 | 0 |
0.3.0 | 0 | 0 | 0 | 0 | 0 |
0.2.0 | 0 | 0 | 0 | 0 | 0 |
0.1.4 | 0 | 0 | 0 | 0 | 0 |
0.1.3 | 0 | 0 | 0 | 0 | 0 |
0.1.2 | 0 | 0 | 0 | 0 | 0 |
0.0.2 | 0 | 0 | 0 | 0 | 0 |
0.0.1 | 0 | 0 | 0 | 0 | 0 |
0.8.3 - This version is safe to use because it has no known security vulnerabilities at this time. Find out if your coding project uses this component and get notified of any reported security vulnerabilities with Meterian-X Open Source Security Platform
Maintain your licence declarations and avoid unwanted licences to protect your IP the way you intended.
MIT - MIT LicenseElixir port of Heroku PG Extras. The goal of this project is to provide powerful insights into the PostgreSQL database for Elixir apps that are not using the Heroku PostgreSQL plugin.
Queries can be used to obtain information about a Postgres instance, that may be useful when analyzing performance issues. This includes information about locks, index usage, buffer cache hit ratios and vacuum statistics. Elixir API enables developers to easily integrate the tool into e.g. automatic monitoring tasks.
You can check out this blog post for detailed step by step tutorial on how to optimize PostgreSQL using PG Extras library.
This library is an optional dependency of Phoenix.LiveDashboard. Check it out if you want to see SQL metrics in the UI instead of a command line interface.
Alternative versions:
mix.exs
def deps do
[
{:ecto_psql_extras, "~> 0.8"}
]
end
Some of the queries (e.g., calls
and outliers
) require pg_stat_statements extension enabled.
You can check if it is enabled in your database by running:
EctoPSQLExtras.query(:extensions, YourApp.Repo)
You should see the similar line in the output:
| pg_stat_statements | 1.7 | 1.7 | track execution statistics of all SQL statements executed |
You can run queries using a simple API:
EctoPSQLExtras.cache_hit(YourApp.Repo)
+----------------+------------------------+
| Index and table hit rate |
+----------------+------------------------+
| name | ratio |
+----------------+------------------------+
| index hit rate | 0.97796610169491525424 |
| table hit rate | 0.96724294813466787989 |
+----------------+------------------------+
By default the ASCII table is displayed. Alternatively you can return the raw query results:
EctoPSQLExtras.index_cache_hit(YourApp.Repo, format: :raw)
%Postgrex.Result{
columns: ["name", "buffer_hits", "block_reads", "total_read", "ratio"],
command: :select,
connection_id: 413,
messages: [],
num_rows: 1,
rows: [["schema_migrations", 0, 1, 1, "0"]]
}
You can also run queries by passing their name to the query
method:
EctoPSQLExtras.query(:cache_hit, YourApp.Repo)
Some methods accept an optional args
param allowing you to customize queries:
EctoPSQLExtras.long_running_queries(YourApp.Repo, args: [threshold: "200 milliseconds"])
The simplest way to start using ecto_psql_extras
is to execute a diagnose
method. It runs a set of checks and prints out a report highlighting areas that may require additional investigation:
EctoPSQLExtras.diagnose(YourApp.Repo)
Keep reading to learn about methods that diagnose
uses under the hood.
EctoPSQLExtras.cache_hit(YourApp.Repo)
name | ratio
----------------+------------------------
index hit rate | 0.99957765013541945832
table hit rate | 1.00
(2 rows)
This command provides information on the efficiency of the buffer cache, for both index reads (index hit rate
) as well as table reads (table hit rate
). A low buffer cache hit ratio can be a sign that the Postgres instance is too small for the workload.
EctoPSQLExtras.index_cache_hit(YourApp.Repo)
| name | buffer_hits | block_reads | total_read | ratio |
+-----------------------+-------------+-------------+------------+-------------------+
| teams | 187665 | 109 | 187774 | 0.999419514948821 |
| subscriptions | 5160 | 6 | 5166 | 0.99883855981417 |
| plans | 5718 | 9 | 5727 | 0.998428496595076 |
(truncated results for brevity)
The same as cache_hit
with each table's indexes cache hit info displayed separately.
EctoPSQLExtras.table_cache_hit(YourApp.Repo)
| name | buffer_hits | block_reads | total_read | ratio |
+-----------------------+-------------+-------------+------------+-------------------+
| plans | 32123 | 2 | 32125 | 0.999937743190662 |
| subscriptions | 95021 | 8 | 95029 | 0.999915815172211 |
| teams | 171637 | 200 | 171837 | 0.99883610631005 |
(truncated results for brevity)
The same as cache_hit
with each table's cache hit info displayed separately.
EctoPSQLExtras.db_settings(YourApp.Repo)
name | setting | unit |
------------------------------+---------+------+
checkpoint_completion_target | 0.7 | |
default_statistics_target | 100 | |
effective_cache_size | 1350000 | 8kB |
effective_io_concurrency | 1 | |
(truncated results for brevity)
This method displays values for selected PostgreSQL settings. You can compare them with settings recommended by PGTune and tweak values to improve performance.
EctoPSQLExtras.index_usage(YourApp.Repo)
relname | percent_of_times_index_used | rows_in_table
---------------------+-----------------------------+---------------
events | 65 | 1217347
app_infos | 74 | 314057
app_infos_user_info | 0 | 198848
user_info | 5 | 94545
delayed_jobs | 27 | 0
(5 rows)
This command provides information on the efficiency of indexes, represented as what percentage of total scans were index scans. A low percentage can indicate under indexing, or wrong data being indexed.
EctoPSQLExtras.locks(YourApp.Repo)
procpid | relname | transactionid | granted | query_snippet | mode | age
---------+---------+---------------+---------+-----------------------+-------------------------------------
31776 | | | t | <IDLE> in transaction | ExclusiveLock | 00:19:29.837898
31776 | | 1294 | t | <IDLE> in transaction | RowExclusiveLock | 00:19:29.837898
31912 | | | t | select * from hello; | ExclusiveLock | 00:19:17.94259
3443 | | | t | +| ExclusiveLock | 00:00:00
| | | | select +| |
| | | | pg_stat_activi | |
(4 rows)
This command displays queries that have taken out an exclusive lock on a relation. Exclusive locks typically prevent other operations on that relation from taking place, and can be a cause of "hung" queries that are waiting for a lock to be granted.
EctoPSQLExtras.all_locks(YourApp.Repo)
This command displays all the current locks, regardless of their type.
EctoPSQLExtras.outliers(YourApp.Repo, args: [limit: 20])
query | exec_time | prop_exec_time | ncalls | sync_io_time
-----------------------------------------+------------------+----------------+-------------+--------------
SELECT * FROM archivable_usage_events.. | 154:39:26.431466 | 72.2% | 34,211,877 | 00:00:00
COPY public.archivable_usage_events (.. | 50:38:33.198418 | 23.6% | 13 | 13:34:21.00108
COPY public.usage_events (id, reporte.. | 02:32:16.335233 | 1.2% | 13 | 00:34:19.784318
INSERT INTO usage_events (id, retaine.. | 01:42:59.436532 | 0.8% | 12,328,187 | 00:00:00
SELECT * FROM usage_events WHERE (alp.. | 01:18:10.754354 | 0.6% | 102,114,301 | 00:00:00
UPDATE usage_events SET reporter_id =.. | 00:52:35.683254 | 0.4% | 23,786,348 | 00:00:00
INSERT INTO usage_events (id, retaine.. | 00:49:24.952561 | 0.4% | 21,988,201 | 00:00:00
(truncated results for brevity)
This command displays statements, obtained from pg_stat_statements
, ordered by the amount of time to execute in aggregate. This includes the statement itself, the total execution time for that statement, the proportion of total execution time for all statements that statement has taken up, the number of times that statement has been called, and the amount of time that statement spent on synchronous I/O (reading/writing from the file system).
Typically, an efficient query will have an appropriate ratio of calls to total execution time, with as little time spent on I/O as possible. Queries that have a high total execution time but low call count should be investigated to improve their performance. Queries that have a high proportion of execution time being spent on synchronous I/O should also be investigated.
EctoPSQLExtras.calls(YourApp.Repo, args: [limit: 20])
query | exec_time | prop_exec_time | ncalls | sync_io_time
-----------------------------------------+------------------+----------------+-------------+--------------
SELECT * FROM usage_events WHERE (alp.. | 01:18:11.073333 | 0.6% | 102,120,780 | 00:00:00
BEGIN | 00:00:51.285988 | 0.0% | 47,288,662 | 00:00:00
COMMIT | 00:00:52.31724 | 0.0% | 47,288,615 | 00:00:00
SELECT * FROM archivable_usage_event.. | 154:39:26.431466 | 72.2% | 34,211,877 | 00:00:00
UPDATE usage_events SET reporter_id =.. | 00:52:35.986167 | 0.4% | 23,788,388 | 00:00:00
INSERT INTO usage_events (id, retaine.. | 00:49:25.260245 | 0.4% | 21,990,326 | 00:00:00
INSERT INTO usage_events (id, retaine.. | 01:42:59.436532 | 0.8% | 12,328,187 | 00:00:00
(truncated results for brevity)
This command is much like pg:outliers
, but ordered by the number of times a statement has been called.
EctoPSQLExtras.blocking(YourApp.Repo)
blocked_pid | blocking_statement | blocking_duration | blocking_pid | blocked_statement | blocked_duration
-------------+--------------------------+-------------------+--------------+------------------------------------------------------------------------------------+------------------
461 | select count(*) from app | 00:00:03.838314 | 15682 | UPDATE "app" SET "updated_at" = '2013-03-04 15:07:04.746688' WHERE "id" = 12823149 | 00:00:03.821826
(1 row)
This command displays statements that are currently holding locks that other statements are waiting to be released. This can be used in conjunction with pg:locks
to determine which statements need to be terminated in order to resolve lock contention.
EctoPSQLExtras.total_index_size(YourApp.Repo)
size
-------
28194 MB
(1 row)
This command displays the total size of all indexes on the database, in MB. It is calculated by taking the number of pages (reported in relpages
) and multiplying it by the page size (8192 bytes).
EctoPSQLExtras.index_size(YourApp.Repo)
name | size
---------------------------------------------------------------+---------
idx_activity_attemptable_and_type_lesson_enrollment | 5196 MB
index_enrollment_attemptables_by_attempt_and_last_in_group | 4045 MB
index_attempts_on_student_id | 2611 MB
enrollment_activity_attemptables_pkey | 2513 MB
index_attempts_on_student_id_final_attemptable_type | 2466 MB
attempts_pkey | 2466 MB
index_attempts_on_response_id | 2404 MB
index_attempts_on_enrollment_id | 1957 MB
index_enrollment_attemptables_by_enrollment_activity_id | 1789 MB
enrollment_activities_pkey | 458 MB
(truncated results for brevity)
This command displays the size of each each index in the database, in MB. It is calculated by taking the number of pages (reported in relpages
) and multiplying it by the page size (8192 bytes).
EctoPSQLExtras.table_size(YourApp.Repo)
name | size
---------------------------------------------------------------+---------
learning_coaches | 196 MB
states | 145 MB
grade_levels | 111 MB
charities_customers | 73 MB
charities | 66 MB
(truncated results for brevity)
This command displays the size of each table and materialized view in the database, in MB. It is calculated by using the system administration function pg_table_size()
, which includes the size of the main data fork, free space map, visibility map and TOAST data.
EctoPSQLExtras.table_indexes_size(YourApp.Repo)
table | indexes_size
---------------------------------------------------------------+--------------
learning_coaches | 153 MB
states | 125 MB
charities_customers | 93 MB
charities | 16 MB
grade_levels | 11 MB
(truncated results for brevity)
This command displays the total size of indexes for each table and materialized view, in MB. It is calculated by using the system administration function pg_indexes_size()
.
EctoPSQLExtras.total_table_size(YourApp.Repo)
name | size
---------------------------------------------------------------+---------
learning_coaches | 349 MB
states | 270 MB
charities_customers | 166 MB
grade_levels | 122 MB
charities | 82 MB
(truncated results for brevity)
This command displays the total size of each table and materialized view in the database, in MB. It is calculated by using the system administration function pg_total_relation_size()
, which includes table size, total index size and TOAST data.
EctoPSQLExtras.unused_indexes(YourApp.Repo, args: [min_scans: 20])
table | index | index_size | index_scans
---------------------+--------------------------------------------+------------+-------------
public.grade_levels | index_placement_attempts_on_grade_level_id | 97 MB | 0
public.observations | observations_attrs_grade_resources | 33 MB | 0
public.messages | user_resource_id_idx | 12 MB | 0
(3 rows)
This command displays indexes that have < 50 scans recorded against them, and are greater than 5 pages in size, ordered by size relative to the number of index scans. This command is generally useful for eliminating indexes that are unused, which can impact write performance, as well as read performance should they occupy space in memory.
EctoPSQLExtras.duplicate_indexes(YourApp.Repo)
| size | idx1 | idx2 | idx3 | idx4 |
+------------+--------------+----------------+----------+-----------+
| 128 k | users_pkey | index_users_id | | |
This command displays multiple indexes that have the same set of columns, same opclass, expression and predicate - which make them equivalent. Usually it's safe to drop one of them.
EctoPSQLExtras.null_indexes(YourApp.Repo, args: [min_relation_size_mb: 10])
oid | index | index_size | unique | indexed_column | null_frac | expected_saving
---------+--------------------+------------+--------+----------------+-----------+-----------------
183764 | users_reset_token | 1445 MB | t | reset_token | 97.00% | 1401 MB
88732 | plan_cancelled_at | 539 MB | f | cancelled_at | 8.30% | 44 MB
9827345 | users_email | 18 MB | t | email | 28.67% | 5160 kB
This commands displays indexes that contain NULL
values. A high ratio of NULL
values means that using a partial index excluding them will be beneficial in case they are not used for searching.
EctoPSQLExtras.seq_scans(YourApp.Repo)
name | count
-----------------------------------+----------
learning_coaches | 44820063
states | 36794975
grade_levels | 13972293
charities_customers | 8615277
charities | 4316276
messages | 3922247
contests_customers | 2915972
classroom_goals | 2142014
(truncated results for brevity)
This command displays the number of sequential scans recorded against all tables, descending by count of sequential scans. Tables that have very high numbers of sequential scans may be under-indexed, and it may be worth investigating queries that read from these tables.
EctoPSQLExtras.long_running_queries(YourApp.Repo, args: [threshold: "200 milliseconds"])
pid | duration | query
-------+-----------------+---------------------------------------------------------------------------------------
19578 | 02:29:11.200129 | EXPLAIN SELECT "students".* FROM "students" WHERE "students"."id" = 1450645 LIMIT 1
19465 | 02:26:05.542653 | EXPLAIN SELECT "students".* FROM "students" WHERE "students"."id" = 1889881 LIMIT 1
19632 | 02:24:46.962818 | EXPLAIN SELECT "students".* FROM "students" WHERE "students"."id" = 1581884 LIMIT 1
(truncated results for brevity)
This command displays currently running queries, that have been running for longer than 5 minutes, descending by duration. Very long running queries can be a source of multiple issues, such as preventing DDL statements completing or vacuum being unable to update relfrozenxid
.
EctoPSQLExtras.records_rank(YourApp.Repo)
name | estimated_count
-----------------------------------+-----------------
tastypie_apiaccess | 568891
notifications_event | 381227
core_todo | 178614
core_comment | 123969
notifications_notification | 102101
django_session | 68078
(truncated results for brevity)
This command displays an estimated count of rows per table, descending by estimated count. The estimated count is derived from n_live_tup
, which is updated by vacuum operations. Due to the way n_live_tup
is populated, sparse vs. dense pages can result in estimations that are significantly out from the real count of rows.
EctoPSQLExtras.bloat(YourApp.Repo)
type | schemaname | object_name | bloat | waste
-------+------------+-------------------------------+-------+----------
table | public | bloated_table | 1.1 | 98 MB
table | public | other_bloated_table | 1.1 | 58 MB
index | public | bloated_table::bloated_index | 3.7 | 34 MB
table | public | clean_table | 0.2 | 3808 kB
table | public | other_clean_table | 0.3 | 1576 kB
(truncated results for brevity)
This command displays an estimation of table "bloat" – space allocated to a relation that is full of dead tuples, that has yet to be reclaimed. Tables that have a high bloat ratio, typically 10 or greater, should be investigated to see if vacuuming is aggressive enough, and can be a sign of high table churn.
EctoPSQLExtras.vacuum_stats(YourApp.Repo)
schema | table | last_vacuum | last_autovacuum | rowcount | dead_rowcount | autovacuum_threshold | expect_autovacuum
--------+-----------------------+-------------+------------------+----------------+----------------+----------------------+-------------------
public | log_table | | 2013-04-26 17:37 | 18,030 | 0 | 3,656 |
public | data_table | | 2013-04-26 13:09 | 79 | 28 | 66 |
public | other_table | | 2013-04-26 11:41 | 41 | 47 | 58 |
public | queue_table | | 2013-04-26 17:39 | 12 | 8,228 | 52 | yes
public | picnic_table | | | 13 | 0 | 53 |
(truncated results for brevity)
This command displays statistics related to vacuum operations for each table, including an estimation of dead rows, last autovacuum and the current autovacuum threshold. This command can be useful when determining if current vacuum thresholds require adjustments, and to determine when the table was last vacuumed.
EctoPSQLExtras.kill_all(YourApp.Repo)
This commands kills all the currently active connections to the database. It can be useful as a last resort when your database is stuck in a deadlock.
EctoPSQLExtras.extensions(YourApp.Repo)
This command lists all the currently installed and available PostgreSQL extensions.
EctoPSQLExtras.mandelbrot(YourApp.Repo)
This command outputs the Mandelbrot set, calculated through SQL.
EctoPSQLExtras.connections(YourApp.Repo)
+----------------------------------------------+
| Shows all the active database connections |
+----------+----------------+------------------+
| username | client_address | application_name |
+----------+----------------+------------------+
| postgres | 172.20.0.1/32 | your_app |
| postgres | 172.20.0.1/32 | your_app |
| postgres | 172.20.0.1/32 | your_app |
| postgres | 172.20.0.1/32 | your_app |
| postgres | 172.20.0.1/32 | your_app |
| postgres | 172.20.0.1/32 | your_app |
| postgres | 172.20.0.1/32 | your_app |
| postgres | 172.20.0.1/32 | your_app |
| postgres | 172.20.0.1/32 | your_app |
| postgres | 172.20.0.1/32 | your_app |
| postgres | 172.20.0.1/32 | psql |
+----------+----------------+------------------+
This command returns the list of all active connections to the database.
To have application_name
populate in connections output, you need to configure your Phoenix applications' Repo by adding the parameters
and set application_name
:
config :your_app, YourApp.Repo,
username: "postgres",
password: "postgres",
hostname: "localhost",
database: "your_app_dev",
stacktrace: true,
show_sensitive_data_on_connection_error: true,
pool_size: 10,
parameters: [
{:application_name, "your_app"}
]
cp docker-compose.yml.sample docker-compose.yml
docker compose up -d
PG_VERSION=11 mix test --include distribution \
&& PG_VERSION=12 mix test --include distribution \
&& PG_VERSION=13 mix test --include distribution \
&& PG_VERSION=14 mix test --include distribution \
&& PG_VERSION=15 mix test --include distribution
By default tests will use the following database connection URL compatible with the default docker-compose.yml
:
ecto://postgres:postgres@localhost:5432/ecto_psql_extras
Optionally, you can override the following variables:
POSTGRES_USER
POSTGRES_PASSWORD
POSTGRES_HOST
POSTGRES_DB
or provide the full DATABASE_URL
connection URL.