410 lines
14 KiB
Markdown
410 lines
14 KiB
Markdown
# What requires downtime?
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When working with a database certain operations can be performed without taking
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GitLab offline, others do require a downtime period. This guide describes
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various operations, their impact, and how to perform them without requiring
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downtime.
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## Dropping Columns
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Removing columns is tricky because running GitLab processes may still be using
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the columns. To work around this safely, you will need three steps in three releases:
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1. Ignoring the column (release M)
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1. Dropping the column (release M+1)
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1. Removing the ignore rule (release M+2)
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The reason we spread this out across three releases is that dropping a column is
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a destructive operation that can't be rolled back easily.
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Following this procedure helps us to make sure there are no deployments to GitLab.com
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and upgrade processes for self-managed installations that lump together any of these steps.
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### Step 1: Ignoring the column (release M)
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The first step is to ignore the column in the application code. This is
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necessary because Rails caches the columns and re-uses this cache in various
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places. This can be done by defining the columns to ignore. For example, to ignore
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`updated_at` in the User model you'd use the following:
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```ruby
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class User < ApplicationRecord
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include IgnorableColumns
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ignore_column :updated_at, remove_with: '12.7', remove_after: '2019-12-22'
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end
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```
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Multiple columns can be ignored, too:
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```ruby
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ignore_columns %i[updated_at created_at], remove_with: '12.7', remove_after: '2019-12-22'
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```
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We require indication of when it is safe to remove the column ignore with:
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- `remove_with`: set to a GitLab release typically two releases (M+2) after adding the
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column ignore.
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- `remove_after`: set to a date after which we consider it safe to remove the column
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ignore, typically within the development cycle of release M+2.
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This information allows us to reason better about column ignores and makes sure we
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don't remove column ignores too early for both regular releases and deployments to GitLab.com. For
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example, this avoids a situation where we deploy a bulk of changes that include both changes
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to ignore the column and subsequently remove the column ignore (which would result in a downtime).
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In this example, the change to ignore the column went into release 12.5.
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### Step 2: Dropping the column (release M+1)
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Continuing our example, dropping the column goes into a _post-deployment_ migration in release 12.6:
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```ruby
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remove_column :user, :updated_at
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```
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### Step 3: Removing the ignore rule (release M+2)
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With the next release, in this example 12.7, we set up another merge request to remove the ignore rule.
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This removes the `ignore_column` line and - if not needed anymore - also the inclusion of `IgnoreableColumns`.
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This should only get merged with the release indicated with `remove_with` and once
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the `remove_after` date has passed.
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## Renaming Columns
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Renaming columns the normal way requires downtime as an application may continue
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using the old column name during/after a database migration. To rename a column
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without requiring downtime we need two migrations: a regular migration, and a
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post-deployment migration. Both these migration can go in the same release.
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### Step 1: Add The Regular Migration
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First we need to create the regular migration. This migration should use
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`Gitlab::Database::MigrationHelpers#rename_column_concurrently` to perform the
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renaming. For example
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```ruby
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# A regular migration in db/migrate
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class RenameUsersUpdatedAtToUpdatedAtTimestamp < ActiveRecord::Migration[4.2]
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include Gitlab::Database::MigrationHelpers
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disable_ddl_transaction!
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def up
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rename_column_concurrently :users, :updated_at, :updated_at_timestamp
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end
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def down
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undo_rename_column_concurrently :users, :updated_at, :updated_at_timestamp
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end
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end
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```
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This will take care of renaming the column, ensuring data stays in sync, copying
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over indexes and foreign keys, etc.
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**NOTE:** if a column contains 1 or more indexes that do not contain the name of
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the original column, the above procedure will fail. In this case you will first
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need to rename these indexes.
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### Step 2: Add A Post-Deployment Migration
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The renaming procedure requires some cleaning up in a post-deployment migration.
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We can perform this cleanup using
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`Gitlab::Database::MigrationHelpers#cleanup_concurrent_column_rename`:
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```ruby
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# A post-deployment migration in db/post_migrate
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class CleanupUsersUpdatedAtRename < ActiveRecord::Migration[4.2]
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include Gitlab::Database::MigrationHelpers
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disable_ddl_transaction!
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def up
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cleanup_concurrent_column_rename :users, :updated_at, :updated_at_timestamp
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end
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def down
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undo_cleanup_concurrent_column_rename :users, :updated_at, :updated_at_timestamp
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end
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end
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```
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NOTE: **Note:** If you're renaming a [large table](https://gitlab.com/gitlab-org/gitlab/-/blob/master/rubocop/rubocop-migrations.yml#L3), please carefully consider the state when the first migration has run but the second cleanup migration hasn't been run yet.
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With [Canary](https://about.gitlab.com/handbook/engineering/infrastructure/library/canary/) it is possible that the system runs in this state for a significant amount of time.
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## Changing Column Constraints
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Adding or removing a `NOT NULL` clause (or another constraint) can typically be
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done without requiring downtime. However, this does require that any application
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changes are deployed _first_. Thus, changing the constraints of a column should
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happen in a post-deployment migration.
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NOTE: Avoid using `change_column` as it produces an inefficient query because it re-defines
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the whole column type.
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You can check the following guides for each specific use case:
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- [Adding foreign-key constraints](migration_style_guide.md#adding-foreign-key-constraints)
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- [Adding `NOT NULL` constraints](database/not_null_constraints.md)
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- [Adding limits to text columns](database/strings_and_the_text_data_type.md)
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## Changing Column Types
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Changing the type of a column can be done using
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`Gitlab::Database::MigrationHelpers#change_column_type_concurrently`. This
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method works similarly to `rename_column_concurrently`. For example, let's say
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we want to change the type of `users.username` from `string` to `text`.
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### Step 1: Create A Regular Migration
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A regular migration is used to create a new column with a temporary name along
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with setting up some triggers to keep data in sync. Such a migration would look
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as follows:
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```ruby
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# A regular migration in db/migrate
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class ChangeUsersUsernameStringToText < ActiveRecord::Migration[4.2]
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include Gitlab::Database::MigrationHelpers
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disable_ddl_transaction!
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def up
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change_column_type_concurrently :users, :username, :text
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end
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def down
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cleanup_concurrent_column_type_change :users, :username
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end
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end
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```
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### Step 2: Create A Post Deployment Migration
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Next we need to clean up our changes using a post-deployment migration:
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```ruby
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# A post-deployment migration in db/post_migrate
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class ChangeUsersUsernameStringToTextCleanup < ActiveRecord::Migration[4.2]
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include Gitlab::Database::MigrationHelpers
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disable_ddl_transaction!
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def up
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cleanup_concurrent_column_type_change :users, :username
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end
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def down
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change_column_type_concurrently :users, :username, :string
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end
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end
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```
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And that's it, we're done!
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## Changing The Schema For Large Tables
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While `change_column_type_concurrently` and `rename_column_concurrently` can be
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used for changing the schema of a table without downtime, it doesn't work very
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well for large tables. Because all of the work happens in sequence the migration
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can take a very long time to complete, preventing a deployment from proceeding.
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They can also produce a lot of pressure on the database due to it rapidly
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updating many rows in sequence.
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To reduce database pressure you should instead use
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`change_column_type_using_background_migration` or `rename_column_using_background_migration`
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when migrating a column in a large table (e.g. `issues`). These methods work
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similarly to the concurrent counterparts but uses background migration to spread
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the work / load over a longer time period, without slowing down deployments.
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For example, to change the column type using a background migration:
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```ruby
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class ExampleMigration < ActiveRecord::Migration[4.2]
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include Gitlab::Database::MigrationHelpers
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disable_ddl_transaction!
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class Issue < ActiveRecord::Base
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self.table_name = 'issues'
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include EachBatch
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def self.to_migrate
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where('closed_at IS NOT NULL')
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end
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end
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def up
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change_column_type_using_background_migration(
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Issue.to_migrate,
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:closed_at,
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:datetime_with_timezone
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)
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end
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def down
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change_column_type_using_background_migration(
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Issue.to_migrate,
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:closed_at,
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:datetime
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)
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end
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end
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```
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This would change the type of `issues.closed_at` to `timestamp with time zone`.
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Keep in mind that the relation passed to
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`change_column_type_using_background_migration` _must_ include `EachBatch`,
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otherwise it will raise a `TypeError`.
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This migration then needs to be followed in a separate release (_not_ a patch
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release) by a cleanup migration, which should steal from the queue and handle
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any remaining rows. For example:
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```ruby
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class MigrateRemainingIssuesClosedAt < ActiveRecord::Migration[4.2]
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include Gitlab::Database::MigrationHelpers
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DOWNTIME = false
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disable_ddl_transaction!
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class Issue < ActiveRecord::Base
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self.table_name = 'issues'
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include EachBatch
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end
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def up
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Gitlab::BackgroundMigration.steal('CopyColumn')
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Gitlab::BackgroundMigration.steal('CleanupConcurrentTypeChange')
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migrate_remaining_rows if migrate_column_type?
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end
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def down
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# Previous migrations already revert the changes made here.
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end
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def migrate_remaining_rows
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Issue.where('closed_at_for_type_change IS NULL AND closed_at IS NOT NULL').each_batch do |batch|
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batch.update_all('closed_at_for_type_change = closed_at')
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end
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cleanup_concurrent_column_type_change(:issues, :closed_at)
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end
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def migrate_column_type?
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# Some environments may have already executed the previous version of this
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# migration, thus we don't need to migrate those environments again.
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column_for('issues', 'closed_at').type == :datetime # rubocop:disable Migration/Datetime
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end
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end
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```
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The same applies to `rename_column_using_background_migration`:
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1. Create a migration using the helper, which will schedule background
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migrations to spread the writes over a longer period of time.
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1. In the next monthly release, create a clean-up migration to steal from the
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Sidekiq queues, migrate any missing rows, and cleanup the rename. This
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migration should skip the steps after stealing from the Sidekiq queues if the
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column has already been renamed.
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For more information, see [the documentation on cleaning up background
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migrations](background_migrations.md#cleaning-up).
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## Adding Indexes
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Adding indexes is an expensive process that blocks INSERT and UPDATE queries for
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the duration. You can work around this by using the `CONCURRENTLY` option:
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```sql
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CREATE INDEX CONCURRENTLY index_name ON projects (column_name);
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```
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Migrations can take advantage of this by using the method
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`add_concurrent_index`. For example:
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```ruby
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class MyMigration < ActiveRecord::Migration[4.2]
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def up
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add_concurrent_index :projects, :column_name
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end
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def down
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remove_index(:projects, :column_name) if index_exists?(:projects, :column_name)
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end
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end
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```
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Note that `add_concurrent_index` can not be reversed automatically, thus you
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need to manually define `up` and `down`.
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## Dropping Indexes
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Dropping an index does not require downtime.
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## Adding Tables
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This operation is safe as there's no code using the table just yet.
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## Dropping Tables
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Dropping tables can be done safely using a post-deployment migration, but only
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if the application no longer uses the table.
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## Renaming Tables
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Renaming tables requires downtime as an application may continue
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using the old table name during/after a database migration.
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## Adding Foreign Keys
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Adding foreign keys usually works in 3 steps:
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1. Start a transaction
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1. Run `ALTER TABLE` to add the constraint(s)
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1. Check all existing data
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Because `ALTER TABLE` typically acquires an exclusive lock until the end of a
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transaction this means this approach would require downtime.
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GitLab allows you to work around this by using
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`Gitlab::Database::MigrationHelpers#add_concurrent_foreign_key`. This method
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ensures that no downtime is needed.
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## Removing Foreign Keys
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This operation does not require downtime.
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## Data Migrations
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Data migrations can be tricky. The usual approach to migrate data is to take a 3
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step approach:
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1. Migrate the initial batch of data
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1. Deploy the application code
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1. Migrate any remaining data
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Usually this works, but not always. For example, if a field's format is to be
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changed from JSON to something else we have a bit of a problem. If we were to
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change existing data before deploying application code we'll most likely run
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into errors. On the other hand, if we were to migrate after deploying the
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application code we could run into the same problems.
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If you merely need to correct some invalid data, then a post-deployment
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migration is usually enough. If you need to change the format of data (e.g. from
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JSON to something else) it's typically best to add a new column for the new data
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format, and have the application use that. In such a case the procedure would
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be:
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1. Add a new column in the new format
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1. Copy over existing data to this new column
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1. Deploy the application code
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1. In a post-deployment migration, copy over any remaining data
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In general there is no one-size-fits-all solution, therefore it's best to
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discuss these kind of migrations in a merge request to make sure they are
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implemented in the best way possible.
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