- Adding foreign keys in migrations
- Use bigint for foreign keys
- Consider
reverse_lock_order
- Updating foreign keys in migrations
- Cascading deletes
- Indexes
- Naming foreign keys
- Dependent removals
- Alternative primary keys with
has_one
associations
Foreign keys and associations
When adding an association to a model you must also add a foreign key. For example, say you have the following model:
class User < ActiveRecord::Base
has_many :posts
end
Add a foreign key here on column posts.user_id
. This ensures
that data consistency is enforced on database level. Foreign keys also mean that
the database can very quickly remove associated data (for example, when removing a
user), instead of Rails having to do this.
Adding foreign keys in migrations
Foreign keys can be added concurrently using add_concurrent_foreign_key
as
defined in Gitlab::Database::MigrationHelpers
. See the
Migration Style Guide for more information.
Keep in mind that you can only safely add foreign keys to existing tables after
you have removed any orphaned rows. The method add_concurrent_foreign_key
does not take care of this so you must do so manually. See
adding foreign key constraint to an existing column.
Use bigint for foreign keys
When adding a new foreign key, you should define it as bigint
.
Even if the referenced table has an integer
primary key type,
you must reference the new foreign key as bigint
. As we are
migrating all primary keys to bigint
, using bigint
foreign keys
saves time, and requires fewer steps, when migrating the parent table
to bigint
primary keys.
Consider reverse_lock_order
Consider using reverse_lock_order
for high traffic tables
Both add_concurrent_foreign_key
and remove_foreign_key_if_exists
take a
boolean option reverse_lock_order
which defaults to false.
You can read more about the context for this in the the original issue.
This can be useful where we have known queries that are also acquiring locks (usually row locks) on the same tables at a high frequency.
Consider, for example, the scenario where you want to add a foreign key like:
ALTER TABLE ONLY todos
ADD CONSTRAINT fk_91d1f47b13 FOREIGN KEY (note_id) REFERENCES notes(id) ON DELETE CASCADE;
And consider the following hypothetical application code:
Todo.transaction do
note = Note.create(...)
# Observe what happens if foreign key is added here!
todo = Todo.create!(note_id: note.id)
end
If you try to create the foreign key in between the 2 insert statements we can end up with a deadlock on both transactions in Postgres. Here is how it happens:
-
Note.create
: acquires a row lock onnotes
-
ALTER TABLE ...
acquires a table lock ontodos
-
ALTER TABLE ... FOREIGN KEY
attempts to acquire a table lock onnotes
but this blocks on the other transaction which has a row lock -
Todo.create
attempts to acquire a row lock ontodos
but this blocks on the other transaction which has a table lock ontodos
This illustrates how both transactions can be stuck waiting for each other to finish and they will both timeout. We normally have transaction retries in our migrations so it is usually OK but the application code might also timeout and there might be an error for that user. If this application code is running very frequently it’s possible that we will be constantly timing out the migration and users may also be regularly getting errors.
The deadlock case with removing a foreign key is similar because it also
acquires locks on both tables but a more common scenario, using the example
above, would be a DELETE FROM notes WHERE id = ...
. This query will acquire a
lock on notes
followed by a lock on todos
and the exact same deadlock
described above can happen. For this reason it’s almost always best to use
reverse_lock_order
for removing a foreign key.
Updating foreign keys in migrations
Sometimes a foreign key constraint must be changed, preserving the column
but updating the constraint condition. For example, moving from
ON DELETE CASCADE
to ON DELETE SET NULL
or vice-versa.
PostgreSQL does not prevent you from adding overlapping foreign keys. It honors the most recently added constraint. This allows us to replace foreign keys without ever losing foreign key protection on a column.
To replace a foreign key:
-
Add the new foreign key:
class ReplaceFkOnPackagesPackagesProjectId < Gitlab::Database::Migration[2.1] disable_ddl_transaction! NEW_CONSTRAINT_NAME = 'fk_new' def up add_concurrent_foreign_key(:packages_packages, :projects, column: :project_id, on_delete: :nullify, name: NEW_CONSTRAINT_NAME) end def down with_lock_retries do remove_foreign_key_if_exists(:packages_packages, column: :project_id, on_delete: :nullify, name: NEW_CONSTRAINT_NAME) end end end
-
Remove the old foreign key:
class RemoveFkOld < Gitlab::Database::Migration[2.1] disable_ddl_transaction! OLD_CONSTRAINT_NAME = 'fk_old' def up with_lock_retries do remove_foreign_key_if_exists(:packages_packages, column: :project_id, on_delete: :cascade, name: OLD_CONSTRAINT_NAME) end end def down add_concurrent_foreign_key(:packages_packages, :projects, column: :project_id, on_delete: :cascade, name: OLD_CONSTRAINT_NAME) end end
Cascading deletes
Every foreign key must define an ON DELETE
clause, and in 99% of the cases
this should be set to CASCADE
.
Indexes
When adding a foreign key in PostgreSQL the column is not indexed automatically, thus you must also add a concurrent index. Not doing so results in cascading deletes being very slow.
Naming foreign keys
By default Ruby on Rails uses the _id
suffix for foreign keys. So we should
only use this suffix for associations between two tables. If you want to
reference an ID on a third party platform the _xid
suffix is recommended.
The spec spec/db/schema_spec.rb
tests if all columns with the _id
suffix
have a foreign key constraint. So if that spec fails, don’t add the column to
IGNORED_FK_COLUMNS
, but instead add the FK constraint, or consider naming it
differently.
Dependent removals
Don’t define options such as dependent: :destroy
or dependent: :delete
when
defining an association. Defining these options means Rails handles the
removal of data, instead of letting the database handle this in the most
efficient way possible.
In other words, this is bad and should be avoided at all costs:
class User < ActiveRecord::Base
has_many :posts, dependent: :destroy
end
Should you truly have a need for this it should be approved by a database specialist first.
You should also not define any before_destroy
or after_destroy
callbacks on
your models unless absolutely required and only when approved by database
specialists. For example, if each row in a table has a corresponding file on a
file system it may be tempting to add a after_destroy
hook. This however
introduces non database logic to a model, and means we can no longer rely on
foreign keys to remove the data as this would result in the file system data
being left behind. In such a case you should use a service class instead that
takes care of removing non database data.
In cases where the relation spans multiple databases you have even
further problems using dependent: :destroy
or the above hooks. You can
read more about alternatives at
Avoid dependent: :nullify
and dependent: :destroy
across databases.
Alternative primary keys with has_one
associations
Sometimes a has_one
association is used to create a one-to-one relationship:
class User < ActiveRecord::Base
has_one :user_config
end
class UserConfig < ActiveRecord::Base
belongs_to :user
end
In these cases, there may be an opportunity to remove the unnecessary id
column on the associated table, user_config.id
in this example. Instead,
the originating table ID can be used as the primary key for the associated
table:
create_table :user_configs, id: false do |t|
t.references :users, primary_key: true, default: nil, index: false, foreign_key: { on_delete: :cascade }
...
end
Setting default: nil
ensures a primary key sequence is not created, and because the primary key
automatically gets an index, we set index: false
to avoid creating a duplicate.
You must also add the new primary key to the model:
class UserConfig < ActiveRecord::Base
self.primary_key = :user_id
belongs_to :user
end
Using a foreign key as primary key saves space but can make
batch counting in Service Ping less efficient.
Consider using a regular id
column if the table is relevant for Service Ping.