411 lines
16 KiB
Markdown
411 lines
16 KiB
Markdown
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---
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stage: Data Stores
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group: Database
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info: To determine the technical writer assigned to the Stage/Group associated with this page, see https://about.gitlab.com/handbook/engineering/ux/technical-writing/#assignments
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---
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# Adding Database Indexes
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Indexes can be used to speed up database queries, but when should you add a new
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index? Traditionally the answer to this question has been to add an index for
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every column used for filtering or joining data. For example, consider the
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following query:
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```sql
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SELECT *
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FROM projects
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WHERE user_id = 2;
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```
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Here we are filtering by the `user_id` column and as such a developer may decide
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to index this column.
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While in certain cases indexing columns using the above approach may make sense,
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it can actually have a negative impact. Whenever you write data to a table, any
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existing indexes must also be updated. The more indexes there are, the slower this
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can potentially become. Indexes can also take up significant disk space, depending
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on the amount of data indexed and the index type. For example, PostgreSQL offers
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`GIN` indexes which can be used to index certain data types that cannot be
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indexed by regular B-tree indexes. These indexes, however, generally take up more
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data and are slower to update compared to B-tree indexes.
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Because of all this, it's important make the following considerations
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when adding a new index:
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1. Do the new queries re-use as many existing indexes as possible?
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1. Is there enough data that using an index is faster than iterating over
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rows in the table?
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1. Is the overhead of maintaining the index worth the reduction in query
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timings?
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## Re-using Queries
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The first step is to make sure your query re-uses as many existing indexes as
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possible. For example, consider the following query:
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```sql
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SELECT *
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FROM todos
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WHERE user_id = 123
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AND state = 'open';
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```
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Now imagine we already have an index on the `user_id` column but not on the
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`state` column. One may think this query performs badly due to `state` being
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unindexed. In reality the query may perform just fine given the index on
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`user_id` can filter out enough rows.
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The best way to determine if indexes are re-used is to run your query using
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`EXPLAIN ANALYZE`. Depending on the joined tables and the columns being used for filtering,
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you may find an extra index doesn't make much, if any, difference.
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In short:
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1. Try to write your query in such a way that it re-uses as many existing
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indexes as possible.
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1. Run the query using `EXPLAIN ANALYZE` and study the output to find the most
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ideal query.
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## Data Size
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A database may not use an index even when a regular sequence scan
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(iterating over all rows) is faster, especially for small tables.
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Consider adding an index if a table is expected to grow, and your query has to filter a lot of rows.
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You may _not_ want to add an index if the table size is small (<`1,000` records),
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or if existing indexes already filter out enough rows.
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## Maintenance Overhead
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Indexes have to be updated on every table write. In the case of PostgreSQL, _all_
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existing indexes are updated whenever data is written to a table. As a
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result, having many indexes on the same table slows down writes. It's therefore important
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to balance query performance with the overhead of maintaining an extra index.
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Let's say that adding an index reduces SELECT timings by 5 milliseconds but increases
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INSERT/UPDATE/DELETE timings by 10 milliseconds. In this case, the new index may not be worth
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it. A new index is more valuable when SELECT timings are reduced and INSERT/UPDATE/DELETE
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timings are unaffected.
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## Finding Unused Indexes
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To see which indexes are unused you can run the following query:
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```sql
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SELECT relname as table_name, indexrelname as index_name, idx_scan, idx_tup_read, idx_tup_fetch, pg_size_pretty(pg_relation_size(indexrelname::regclass))
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FROM pg_stat_all_indexes
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WHERE schemaname = 'public'
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AND idx_scan = 0
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AND idx_tup_read = 0
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AND idx_tup_fetch = 0
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ORDER BY pg_relation_size(indexrelname::regclass) desc;
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```
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This query outputs a list containing all indexes that are never used and sorts
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them by indexes sizes in descending order. This query helps in
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determining whether existing indexes are still required. More information on
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the meaning of the various columns can be found at
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<https://www.postgresql.org/docs/current/monitoring-stats.html>.
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To determine if an index is still being used on production, use the following
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Thanos query with your index name:
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```sql
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sum(rate(pg_stat_user_indexes_idx_tup_read{env="gprd", indexrelname="index_ci_name", type="patroni-ci"}[5m]))
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```
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Because the query output relies on the actual usage of your database, it
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may be affected by factors such as:
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- Certain queries never being executed, thus not being able to use certain
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indexes.
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- Certain tables having little data, resulting in PostgreSQL using sequence
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scans instead of index scans.
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This data is only reliable for a frequently used database with
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plenty of data, and using as many GitLab features as possible.
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## Requirements for naming indexes
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Indexes with complex definitions must be explicitly named rather than
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relying on the implicit naming behavior of migration methods. In short,
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that means you **must** provide an explicit name argument for an index
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created with one or more of the following options:
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- `where`
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- `using`
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- `order`
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- `length`
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- `type`
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- `opclass`
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### Considerations for index names
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Check our [Constraints naming conventions](constraint_naming_convention.md) page.
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### Why explicit names are required
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As Rails is database agnostic, it generates an index name only
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from the required options of all indexes: table name and column names.
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For example, imagine the following two indexes are created in a migration:
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```ruby
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def up
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add_index :my_table, :my_column
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add_index :my_table, :my_column, where: 'my_column IS NOT NULL'
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end
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```
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Creation of the second index would fail, because Rails would generate
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the same name for both indexes.
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This naming issue is further complicated by the behavior of the `index_exists?` method.
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It considers only the table name, column names, and uniqueness specification
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of the index when making a comparison. Consider:
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```ruby
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def up
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unless index_exists?(:my_table, :my_column, where: 'my_column IS NOT NULL')
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add_index :my_table, :my_column, where: 'my_column IS NOT NULL'
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end
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end
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```
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The call to `index_exists?` returns true if **any** index exists on
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`:my_table` and `:my_column`, and index creation is bypassed.
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The `add_concurrent_index` helper is a requirement for creating indexes
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on populated tables. Because it cannot be used inside a transactional
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migration, it has a built-in check that detects if the index already
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exists. In the event a match is found, index creation is skipped.
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Without an explicit name argument, Rails can return a false positive
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for `index_exists?`, causing a required index to not be created
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properly. By always requiring a name for certain types of indexes, the
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chance of error is greatly reduced.
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## Temporary indexes
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There may be times when an index is only needed temporarily.
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For example, in a migration, a column of a table might be conditionally
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updated. To query which columns must be updated in the
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[query performance guidelines](query_performance.md), an index is needed
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that would otherwise not be used.
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In these cases, consider a temporary index. To specify a
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temporary index:
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1. Prefix the index name with `tmp_` and follow the [naming conventions](constraint_naming_convention.md).
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1. Create a follow-up issue to remove the index in the next (or future) milestone.
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1. Add a comment in the migration mentioning the removal issue.
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A temporary migration would look like:
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```ruby
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INDEX_NAME = 'tmp_index_projects_on_owner_where_emails_disabled'
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def up
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# Temporary index to be removed in 13.9 https://gitlab.com/gitlab-org/gitlab/-/issues/1234
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add_concurrent_index :projects, :creator_id, where: 'emails_disabled = false', name: INDEX_NAME
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end
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def down
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remove_concurrent_index_by_name :projects, INDEX_NAME
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end
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```
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## Create indexes asynchronously
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For very large tables, index creation can be a challenge to manage.
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While `add_concurrent_index` creates indexes in a way that does not block
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normal traffic, it can still be problematic when index creation runs for
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many hours. Necessary database operations like `autovacuum` cannot run, and
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on GitLab.com, the deployment process is blocked waiting for index
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creation to finish.
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To limit impact on GitLab.com, a process exists to create indexes
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asynchronously during weekend hours. Due to generally lower traffic and fewer deployments,
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index creation can proceed at a lower level of risk.
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### Schedule index creation for a low-impact time
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1. [Schedule the index to be created](#schedule-the-index-to-be-created).
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1. [Verify the MR was deployed and the index exists in production](#verify-the-mr-was-deployed-and-the-index-exists-in-production).
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1. [Add a migration to create the index synchronously](#add-a-migration-to-create-the-index-synchronously).
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### Schedule the index to be created
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Create an MR with a post-deployment migration which prepares the index
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for asynchronous creation. An example of creating an index using
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the asynchronous index helpers can be seen in the block below. This migration
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enters the index name and definition into the `postgres_async_indexes`
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table. The process that runs on weekends pulls indexes from this
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table and attempt to create them.
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```ruby
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# in db/post_migrate/
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INDEX_NAME = 'index_ci_builds_on_some_column'
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def up
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prepare_async_index :ci_builds, :some_column, name: INDEX_NAME
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end
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def down
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unprepare_async_index :ci_builds, :some_column, name: INDEX_NAME
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end
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```
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### Verify the MR was deployed and the index exists in production
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You can verify if the post-deploy migration was executed on GitLab.com by:
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- Executing `/chatops run auto_deploy status <merge_sha>`. If the output returns `db/gprd`,
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the post-deploy migration has been executed in the production database. More details in this
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[guide](https://gitlab.com/gitlab-org/release/docs/-/blob/master/general/post_deploy_migration/readme.md#how-to-determine-if-a-post-deploy-migration-has-been-executed-on-gitlabcom).
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- Use a meta-command in #database-lab, such as: `\d <index_name>`.
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- Ensure that the index is not [`invalid`](https://www.postgresql.org/docs/12/sql-createindex.html#:~:text=The%20psql%20%5Cd%20command%20will%20report%20such%20an%20index%20as%20INVALID).
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- Ask someone in #database to check if the index exists.
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- With proper access, you can also verify directly on production or in a
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production clone.
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### Add a migration to create the index synchronously
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After the index is verified to exist on the production database, create a second
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merge request that adds the index synchronously. The schema changes must be
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updated and committed to `structure.sql` in this second merge request.
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The synchronous migration results in a no-op on GitLab.com, but you should still add the
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migration as expected for other installations. The below block
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demonstrates how to create the second migration for the previous
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asynchronous example.
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**WARNING:**
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Verify that the index exists in production before merging a second migration with `add_concurrent_index`.
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If the second migration is deployed before the index has been created,
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the index is created synchronously when the second migration executes.
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```ruby
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# in db/post_migrate/
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INDEX_NAME = 'index_ci_builds_on_some_column'
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disable_ddl_transaction!
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def up
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add_concurrent_index :ci_builds, :some_column, name: INDEX_NAME
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end
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def down
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remove_concurrent_index_by_name :ci_builds, INDEX_NAME
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end
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```
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## Test database index changes locally
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You must test the database index changes locally before creating a merge request.
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### Verify indexes created asynchronously
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Use the asynchronous index helpers on your local environment to test changes for creating an index:
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1. Enable the feature flags by running `Feature.enable(:database_async_index_creation)` and `Feature.enable(:database_reindexing)` in the Rails console.
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1. Run `bundle exec rails db:migrate` so that it creates an entry in the `postgres_async_indexes` table.
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1. Run `bundle exec rails gitlab:db:reindex` so that the index is created asynchronously.
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1. To verify the index, open the PostgreSQL console using the [GDK](https://gitlab.com/gitlab-org/gitlab-development-kit/-/blob/main/doc/howto/postgresql.md) command `gdk psql` and run the command `\d <index_name>` to check that your newly created index exists.
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## Drop indexes asynchronously
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For very large tables, index destruction can be a challenge to manage.
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While `remove_concurrent_index` removes indexes in a way that does not block
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normal traffic, it can still be problematic if index destruction runs for
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during autovacuum. Necessary database operations like `autovacuum` cannot run, and
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the deployment process on GitLab.com is blocked while waiting for index
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destruction to finish.
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To limit the impact on GitLab.com, use the following process to remove indexes
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asynchronously during weekend hours. Due to generally lower traffic and fewer deployments,
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index destruction can proceed at a lower level of risk.
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1. [Schedule the index to be removed](#schedule-the-index-to-be-removed).
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1. [Verify the MR was deployed and the index exists in production](#verify-the-mr-was-deployed-and-the-index-exists-in-production).
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1. [Add a migration to create the index synchronously](#add-a-migration-to-create-the-index-synchronously).
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### Schedule the index to be removed
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Create an MR with a post-deployment migration which prepares the index
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for asynchronous destruction. For example. to destroy an index using
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the asynchronous index helpers:
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```ruby
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# in db/post_migrate/
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INDEX_NAME = 'index_ci_builds_on_some_column'
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def up
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prepare_async_index_removal :ci_builds, :some_column, name: INDEX_NAME
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end
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def down
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unprepare_async_index :ci_builds, :some_column, name: INDEX_NAME
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end
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```
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This migration enters the index name and definition into the `postgres_async_indexes`
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table. The process that runs on weekends pulls indexes from this table and attempt
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to remove them.
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You must test the database index changes locally before creating a merge request.
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### Verify the MR was deployed and the index exists in production
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You can verify if the MR was deployed to GitLab.com with
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`/chatops run auto_deploy status <merge_sha>`. To verify the existence of
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the index, you can:
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- Use a meta-command in `#database-lab`, for example: `\d <index_name>`.
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- Make sure the index is not [`invalid`](https://www.postgresql.org/docs/12/sql-createindex.html#:~:text=The%20psql%20%5Cd%20command%20will%20report%20such%20an%20index%20as%20INVALID).
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- Ask someone in `#database` to check if the index exists.
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- If you have access, you can verify directly on production or in a
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production clone.
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### Add a migration to destroy the index synchronously
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After you verify the index exists in the production database, create a second
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merge request that removes the index synchronously. The schema changes must be
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updated and committed to `structure.sql` in this second merge request.
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The synchronous migration results in a no-op on GitLab.com, but you should still add the
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migration as expected for other installations. For example, to
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create the second migration for the previous asynchronous example:
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**WARNING:**
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Verify that the index no longer exist in production before merging a second migration with `remove_concurrent_index_by_name`.
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If the second migration is deployed before the index has been destroyed,
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the index is destroyed synchronously when the second migration executes.
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```ruby
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# in db/post_migrate/
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INDEX_NAME = 'index_ci_builds_on_some_column'
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disable_ddl_transaction!
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def up
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remove_concurrent_index_by_name :ci_builds, name: INDEX_NAME
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end
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def down
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add_concurrent_index :ci_builds, :some_column, INDEX_NAME
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end
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```
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### Verify indexes removed asynchronously
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To test changes for removing an index, use the asynchronous index helpers on your local environment:
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1. Enable the feature flags by running `Feature.enable(:database_async_index_destruction)` and `Feature.enable(:database_reindexing)` in the Rails console.
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1. Run `bundle exec rails db:migrate` which should create an entry in the `postgres_async_indexes` table.
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1. Run `bundle exec rails gitlab:db:reindex` destroy the index asynchronously.
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1. To verify the index, open the PostgreSQL console by using the [GDK](https://gitlab.com/gitlab-org/gitlab-development-kit/-/blob/main/doc/howto/postgresql.md)
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command `gdk psql` and run `\d <index_name>` to check that the destroyed index no longer exists.
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