-
Create a new table with
NOT NULL
columns -
Add a
NOT NULL
column to an existing table -
Add a
NOT NULL
constraint to an existing column -
NOT NULL
constraints on large tables -
NOT NULL
constraints for multiple columns
NOT NULL
constraints
All attributes that should not have NULL
as a value, should be defined as NOT NULL
columns in the database.
Depending on the application logic, NOT NULL
columns should either have a presence: true
validation defined in their Model or have a default value as part of their database definition.
As an example, the latter can be true for boolean attributes that should always have a non-NULL
value, but have a well defined default value that the application does not need to enforce each
time (for example, active=true
).
Create a new table with NOT NULL
columns
When adding a new table, all NOT NULL
columns should be defined as such directly inside create_table
.
For example, consider a migration that creates a table with two NOT NULL
columns,
db/migrate/20200401000001_create_db_guides.rb
:
class CreateDbGuides < Gitlab::Database::Migration[2.1]
def change
create_table :db_guides do |t|
t.bigint :stars, default: 0, null: false
t.bigint :guide, null: false
end
end
end
Add a NOT NULL
column to an existing table
With PostgreSQL 11 being the minimum version in GitLab, adding columns with NULL
and/or
default values has become much easier and the standard add_column
helper should be used in all cases.
For example, consider a migration that adds a new NOT NULL
column active
to table db_guides
,
db/migrate/20200501000001_add_active_to_db_guides.rb
:
class AddExtendedTitleToSprints < Gitlab::Database::Migration[2.1]
def change
add_column :db_guides, :active, :boolean, default: true, null: false
end
end
Add a NOT NULL
constraint to an existing column
Adding NOT NULL
to existing database columns usually requires multiple steps split into at least two
different releases. If your table is small enough that you don’t need to
use a background migration, you can include all these in the same merge
request. We recommend to use separate migrations to reduce
transaction durations.
The steps required are:
-
Release
N.M
(current release)- Ensure $ATTRIBUTE value is being set at the application level.
- If the attribute has a default value, add the default value to the model so the default value is set for new records.
- Update all places in the code where the attribute would be set to
nil
, if any, for new and existing records. Note that using ActiveRecord callbacks such asbefore_save
andbefore_validation
may not be sufficient, as some processes skip these callbacks.update_column
,update_columns
, and bulk operations such asinsert_all
andupdate_all
are some examples of methods to look out for.
- Add a post-deployment migration to fix the existing records.
Depending on the size of the table, a background migration for cleanup could be required in the next release. See theNOT NULL
constraints on large tables section for more information. - Ensure $ATTRIBUTE value is being set at the application level.
-
Release
N.M+1
(next release)- Make sure all existing records on GitLab.com have attribute set. If not, go back to step 1 from Release
N.M
. - If step 1 seems fine and the backfill from Release
N.M
was done via a batched background migration then add a post-deployment migration to finalize the background migration. - Add a validation for the attribute in the model to prevent records with
nil
attribute as now all existing and new records should be valid. - Add a post-deployment migration to add the
NOT NULL
constraint.
- Make sure all existing records on GitLab.com have attribute set. If not, go back to step 1 from Release
Example
Considering a given release milestone, such as 13.0.
After checking our production database, we know that there are epics
with NULL
descriptions,
so we cannot add and validate the constraint in one step.
NULL
description, another instance of GitLab could have
such records, so we would follow the same process either way.Prevent new invalid records (current release)
Update all the code paths where the attribute is being set to nil
, if any, to set the attribute to non-nil value
for new and existing records.
An attribute with default using the
Rails attributes API has been added in
epic.rb
so that default value is set for new records:
class Epic < ApplicationRecord
attribute :description, default: 'No description'
end
Data migration to fix existing records (current release)
The approach here depends on the data volume and the cleanup strategy. The number of records that must be fixed on GitLab.com is a nice indicator that helps us decide whether to use a post-deployment migration or a background data migration:
- If the data volume is less than
1000
records, then the data migration can be executed within the post-migration. - If the data volume is higher than
1000
records, it’s advised to create a background migration.
When unsure about which option to use, contact the Database team for advice.
Back to our example, the epics table is not considerably large nor frequently accessed,
so we add a post-deployment migration for the 13.0 milestone (current),
db/post_migrate/20200501000002_cleanup_epics_with_null_description.rb
:
class CleanupEpicsWithNullDescription < Gitlab::Database::Migration[2.1]
# With BATCH_SIZE=1000 and epics.count=29500 on GitLab.com
# - 30 iterations will be run
# - each requires on average ~150ms
# Expected total run time: ~5 seconds
BATCH_SIZE = 1000
disable_ddl_transaction!
class Epic < ActiveRecord::Base
include EachBatch
self.table_name = 'epics'
end
def up
Epic.each_batch(of: BATCH_SIZE) do |relation|
relation.
where('description IS NULL').
update_all(description: 'No description')
end
end
def down
# no-op : can't go back to `NULL` without first dropping the `NOT NULL` constraint
end
end
Check if all records are fixed (next release)
Use postgres.ai to create a thin clone
of the production database and check if all records on GitLab.com have the attribute set.
If not go back to Prevent new invalid records step and figure out where
in the code the attribute is explicitly set to nil
. Fix the code path then reschedule the migration to fix the existing
records and wait for the next release to do the following steps.
Finalize the background migration (next release)
If the migration was done using a background migration then finalize the migration.
Add validation to the model (next release)
Add a validation for the attribute to the model to prevent records with nil
attribute as now all existing and new records should be valid.
class Epic < ApplicationRecord
validates :description, presence: true
end
Add the NOT NULL
constraint (next release)
Adding the NOT NULL
constraint scans the whole table and make sure that each record is correct.
Still in our example, for the 13.1 milestone (next), we run the add_not_null_constraint
migration helper in a final post-deployment migration:
class AddNotNullConstraintToEpicsDescription < Gitlab::Database::Migration[2.1]
disable_ddl_transaction!
def up
# This will add the `NOT NULL` constraint and validate it
add_not_null_constraint :epics, :description
end
def down
# Down is required as `add_not_null_constraint` is not reversible
remove_not_null_constraint :epics, :description
end
end
NOT NULL
constraints on large tables
If you have to clean up a nullable column for a high-traffic table
(for example, the artifacts
in ci_builds
), your background migration goes on for a while and
it needs an additional batched background migration cleaning up
in the release after adding the data migration.
In this case the number of releases depends on the amount of time needed to migrate existing records. The cleanup is scheduled after the background migration has completed, which could be several releases after the constraint was added.
- Release
N.M
:-
Add the background-migration to fix the existing records:
# db/post_migrate/ class QueueBackfillMergeRequestDiffsProjectId < Gitlab::Database::Migration[2.2] milestone '16.7' restrict_gitlab_migration gitlab_schema: :gitlab_main MIGRATION = 'BackfillMergeRequestDiffsProjectId' DELAY_INTERVAL = 2.minutes def up queue_batched_background_migration( MIGRATION, :merge_request_diffs, :id, job_interval: DELAY_INTERVAL ) end def down delete_batched_background_migration(MIGRATION, :merge_request_diffs, :id, []) end end
-
- Release
N.M+X
, whereX
is the number of releases the migration was running:-
Cleanup the background migration:
# db/post_migrate/ class FinalizeMergeRequestDiffsProjectIdBackfill < Gitlab::Database::Migration[2.2] disable_ddl_transaction! milestone '16.10' restrict_gitlab_migration gitlab_schema: :gitlab_main MIGRATION = 'BackfillMergeRequestDiffsProjectId' def up ensure_batched_background_migration_is_finished( job_class_name: MIGRATION, table_name: :merge_request_diffs, column_name: :id, job_arguments: [], finalize: true ) end def down # no-op end end
-
Add the
NOT NULL
constraint:# db/post_migrate/ class AddMergeRequestDiffsProjectIdNotNullConstraint < Gitlab::Database::Migration[2.2] disable_ddl_transaction! milestone '16.7' def up add_not_null_constraint :merge_request_diffs, :project_id end def down remove_not_null_constraint :merge_request_diffs, :project_id end end
-
Optional. For very large tables, add an invalid
NOT NULL
constraint and schedule asynchronous validation:# db/post_migrate/ class AddMergeRequestDiffsProjectIdNotNullConstraint < Gitlab::Database::Migration[2.2] disable_ddl_transaction! milestone '16.7' def up add_not_null_constraint :merge_request_diffs, :project_id, validate: false end def down remove_not_null_constraint :merge_request_diffs, :project_id end end
# db/post_migrate/ class PrepareMergeRequestDiffsProjectIdNotNullValidation < Gitlab::Database::Migration[2.2] milestone '16.10' CONSTRAINT_NAME = 'check_11c5f029ad' def up prepare_async_check_constraint_validation :merge_request_diffs, name: CONSTRAINT_NAME end def down unprepare_async_check_constraint_validation :merge_request_diffs, name: CONSTRAINT_NAME end end
-
Optional. For partitioned table, use:
# db/post_migrate/ PARTITIONED_TABLE_NAME = :p_ci_builds CONSTRAINT_NAME = 'check_9aa9432137' # Partitioned check constraint to be validated in https://gitlab.com/gitlab-org/gitlab/-/issues/XXXXX def up prepare_partitioned_async_check_constraint_validation PARTITIONED_TABLE_NAME, name: CONSTRAINT_NAME end def down unprepare_partitioned_async_check_constraint_validation PARTITIONED_TABLE_NAME, name: CONSTRAINT_NAME end
prepare_partitioned_async_check_constraint_validation
only validates the existingNOT VALID
check constraint asynchronously for all the partitions. It doesn’t create or validate the check constraint for the partitioned table.
-
Optional. If the constraint was validated asynchronously, validate the
NOT NULL
constraint once validation is complete:# db/post_migrate/ class ValidateMergeRequestDiffsProjectIdNullConstraint < Gitlab::Database::Migration[2.2] milestone '16.10' def up validate_not_null_constraint :merge_request_diffs, :project_id end def down # no-op end end
For these cases, consult the database team early in the update cycle. The NOT NULL
constraint may not be required or other options could exist that do not affect really large
or frequently accessed tables.
NOT NULL
constraints for multiple columns
Sometimes we want to ensure a set of columns contains a specific number of NOT NULL
values. A common example
is a table that can belong to either a project or a group, and therefore project_id
or group_id
must
be present. To enforce this, follow the steps for your use case above, but instead use the
add_multi_column_not_null_constraint
helper.
In this example, labels
must belong to either a project or a group, but not both. We can add
a check constraint to enforce this:
class AddLabelsNullConstraint < Gitlab::Database::Migration[2.2]
disable_ddl_transaction!
milestone '16.10'
def up
add_multi_column_not_null_constraint(:labels, :group_id, :project_id)
end
def down
remove_multi_column_not_null_constraint(:labels, :group_id, :project_id)
end
end
This will add the following constraint to labels
:
CREATE TABLE labels (
...
CONSTRAINT check_45e873b2a8 CHECK ((num_nonnulls(group_id, project_id) = 1))
);
num_nonnulls
returns the number of supplied arguments that are non-null. Checking this value
equals 1
in the constraint means that only one of group_id
and project_id
should contain
a non-null value in a row, but not both.
Custom limits and operators
If we want to customize the number of non-nulls required, we can use a different limit
and/or operator
:
class AddLabelsNullConstraint < Gitlab::Database::Migration[2.2]
disable_ddl_transaction!
milestone '16.10'
def up
add_multi_column_not_null_constraint(:labels, :group_id, :project_id, limit: 0, operator: '>')
end
def down
remove_multi_column_not_null_constraint(:labels, :group_id, :project_id)
end
end
This is then reflected in the constraint, allowing both project_id
and group_id
to be present:
CREATE TABLE labels (
...
CONSTRAINT check_45e873b2a8 CHECK ((num_nonnulls(group_id, project_id) > 0))
);