Overview
When you're migrating your schema, data, and metadata from a source database to a destination database, you want to ensure that all of this information is migrated accurately. Database Migration Service provides a high-fidelity way to migrate database objects (including the schema, data, and metadata) from one database to another.
During the migration process, data and constraints are migrated separately. Data is migrated first, and constraints such as primary keys, foreign keys, and indexes are recreated on the instance after the initial full dump and load.All of the following data, schema, and metadata components are migrated as part of the database migration:
Data
All tables from all databases and schemas, excluding the following schemas:
- The information schema
information_schema
- Any schemas beginning with
pg
(for example,pg_catalog
)
For more information about these schemas, see Known limitations.
- The information schema
Schema
Naming
Primary key
Data type
Ordinal position
Default value
Nullability
Auto-increment attributes
Secondary indexes
Metadata
Stored procedures
Functions
Triggers
Views
Foreign key constraints
Continuous migration
Only data manipulation language (DML) changes are updated automatically during continuous migrations. Managing data definition language (DDL) changes so that the source and destination databases remain compatible is the responsibility of the user, and can be achieved in two ways:
-
Stopping writes to the source and running the DDL commands in both source and
destination. Before running DDL commands on the destination, grant
cloudsqlexternalsync
to the Cloud SQL user applying the DDL changes. To enable querying or changing the data, grant thecloudsqlexternalsync
role to the relevant Cloud SQL users. - Using the
pglogical.replicate_ddl_command
to allow DDL to be run on the source and destination at a consistent point. The user running this command must have the same username on both the source and the destination, and should be the superuser or the owner of the artifact being migrated (for example, the table, sequence, view, or database).Here are a few examples of using the
pglogical.replicate_ddl_command
.Replace:
[SCHEMA]
with the name of the table schema you want to use[TABLE_NAME]
with the table name[NEW_NAME_FOR_TABLE]
with the new name for the table when when performing the rename operation
Add a column to a database table with a primary key
select pglogical.replicate_ddl_command( 'ALTER TABLE [SCHEMA].[TABLE_NAME] add column surname varchar(20)', '{default}' );
Add a column to a database table without a primary key
select pglogical.replicate_ddl_command( 'ALTER TABLE [SCHEMA].[TABLE_NAME] add column surname varchar(20)', '{default_insert_only}' );
Change the name of a database table with a primary key
select pglogical.replicate_ddl_command( 'ALTER TABLE [SCHEMA].[TABLE_NAME] RENAME TO [NEW_NAME_FOR_TABLE]', '{default}' );
Change the name of a database table without a primary key
select pglogical.replicate_ddl_command( 'ALTER TABLE [SCHEMA].[TABLE_NAME] RENAME TO [NEW_NAME_FOR_TABLE]', '{default_insert_only}' );
Create a database table with a primary key
Run the following commands:
select pglogical.replicate_ddl_command( command := 'CREATE TABLE [SCHEMA].[TABLE_NAME] (id INTEGER PRIMARY KEY, name VARCHAR);', replication_sets := ARRAY['default'] );
select pglogical.replication_set_add_table('default', '[SCHEMA].[TABLE_NAME]');
Create a database table without a primary key
Run the following commands:
select pglogical.replicate_ddl_command( command := 'CREATE TABLE [SCHEMA].[TABLE_NAME] (id INTEGER PRIMARY KEY, name VARCHAR);', replication_sets := ARRAY['default_insert_only'] );
select pglogical.replication_set_add_table( 'default_insert_only', '[SCHEMA].[TABLE_NAME]' );
What isn't migrated
To add users to a Cloud SQL destination instance, navigate to the instance and add users from the Users tab, or add them from a PostgreSQL client. Learn more about creating and managing PostgreSQL users.
Database Migration Service doesn't migrate extensions that are unsupported by Cloud SQL. The presence of these extensions doesn't block the migration, but to ensure a smooth migration process verify that your objects or applications don't reference any unsupported extensions. We recommend removing these extensions and references from your source database before you proceed.
Large objects can't be replicated, as PostgreSQL's logical decoding facility does not support decoding changes to large objects. For tables that have column type
oid
referencing large objects, the rows are synced, and new rows are replicated. However, trying to access the large object on the destination database (read usinglo_get
, export usinglo_export
, or check the catalogpg_largeobject
for the givenoid
), fails with a message saying that the large object does not exist.For tables that don't have primary keys, Database Migration Service supports migration of the initial snapshot and
INSERT
statements during the change data capture (CDC) phase. You should migrateUPDATE
andDELETE
statements manually.Database Migration Service doesn't migrate data from materialized views, just the view schema. To populate the views, run the following command:
REFRESH MATERIALIZED VIEW view_name
.The
SEQUENCE
states (for example,last_value
) on the new destination might vary from the sourceSEQUENCE
states.Customized tablespaces aren't supported in the destination Cloud SQL instance. All the data inside customized tablespaces is migrated to the default
pg_default
tablespace in Cloud SQL.
Except as otherwise noted, the content of this page is licensed under the Creative Commons Attribution 4.0 License, and code samples are licensed under the Apache 2.0 License. For details, see the Google Developers Site Policies. Java is a registered trademark of Oracle and/or its affiliates.
Last updated 2024-11-06 UTC.