The RESTORE
statement restores your cluster's schemas and data from a BACKUP
stored on services such as AWS S3, Google Cloud Storage, or NFS.
Because CockroachDB is designed with high fault tolerance, restores are designed primarily for disaster recovery, i.e., restarting your cluster if it loses a majority of its nodes. Isolated issues (such as small-scale node outages) do not require any intervention.
You can restore:
For details on restoring across versions of CockroachDB, see Restoring Backups Across Versions.
The BACKUP ... TO
and RESTORE ... FROM
syntax is deprecated as of v22.1 and will be removed in a future release.
We recommend using the BACKUP ... INTO {collectionURI}
syntax, which creates or adds to a backup collection in your storage location. For restoring backups, we recommend using RESTORE FROM {backup} IN {collectionURI}
with {backup}
being LATEST
or a specific subdirectory.
For guidance on the syntax for backups and restores, see the BACKUP
and RESTORE
examples.
Considerations
RESTORE
cannot restore backups made by newer versions of CockroachDB.RESTORE
only supports backups taken on a cluster on a specific major version into a cluster that is on the same version or the next major version. Refer to the Restoring Backups Across Versions page for more detail.RESTORE
is a blocking statement. To run a restore job asynchronously, use theDETACHED
option.RESTORE
no longer requires an Enterprise license, regardless of the options passed to it or to the backup it is restoring.- Zone configurations present on the destination cluster prior to a restore will be overwritten during a cluster restore with the zone configurations from the backed up cluster. If there were no customized zone configurations on the cluster when the backup was taken, then after the restore the destination cluster will use the zone configuration from the
RANGE DEFAULT
configuration. - You cannot restore a backup of a multi-region database into a single-region database.
- When the
exclude_data_from_backup
parameter is set on a table, the table will not contain row data when restored.
Required privileges
Starting in v22.2, CockroachDB introduces a new restore privilege model that provides finer control over a user's privilege to restore backups.
There is continued support for the legacy privilege model in v22.2, however it will be removed in a future release of CockroachDB. We recommend implementing the new privilege model that follows in this section for all restores.
You can grant the RESTORE
privilege to a user or role depending on the type of restore required:
Restore | Privilege |
---|---|
Cluster | Grant a user the system level RESTORE privilege. For example, GRANT SYSTEM RESTORE TO user; . |
Database | Grant a user the system level RESTORE privilege to restore databases onto the cluster. For example, GRANT SYSTEM RESTORE TO user; . |
Table | Grant a user the database level RESTORE privilege to restore schema objects into the database. For example, GRANT RESTORE ON DATABASE nonadmin TO user; . |
The listed privileges do not cascade to objects lower in the schema tree. For example, if you are granted system-level restore privileges, this does not give you the privilege to restore a table. If you need the RESTORE
privilege on a database to apply to all newly created tables in that database, use DEFAULT PRIVILEGES
. You can add RESTORE
to the user or role's default privileges with ALTER DEFAULT PRIVILEGES
.
Members of the admin
role can run all three types of restore (cluster, database, and table) without the need to grant a specific RESTORE
privilege. However, we recommend using the RESTORE
privilege model to create users or roles and grant them RESTORE
privileges as necessary for stronger access control.
Privileges for managing a restore job
To manage a restore job with PAUSE JOB
, RESUME JOB
, or CANCEL JOB
, users must have at least one of the following:
- Be a member of the
admin
role. - The
CONTROLJOB
role option.
To view a restore job with SHOW JOB
, users must have at least one of the following:
- The
VIEWJOB
privilege, which allows you to view all jobs (includingadmin
-owned jobs). - Be a member of the
admin
role. - The
CONTROLJOB
role option.
See GRANT
for detail on granting privileges to a role or user.
Required privileges using the legacy privilege model
The following details the existing privilege model that CockroachDB supports in v22.2 and earlier. Support for this privilege model will be removed in a future release of CockroachDB:
- Full cluster restores can only be run by members of the
ADMIN
role. By default, theroot
user belongs to theadmin
role. - For all other restores, the user must have write access (
CREATE
orINSERT
) on all objects affected.
See the Required privileges section for the updated privilege model.
Source privileges
You can grant a user the EXTERNALIOIMPLICITACCESS
system-level privilege to interact with external resources that require implicit access.
Either the EXTERNALIOIMPLICITACCESS
system-level privilege or the admin
role is required for the following scenarios:
- To interact with a cloud storage resource using
IMPLICIT
authentication. - Use of a custom endpoint on S3.
- Nodelocal
No special privilege is required for:
- Interacting with an Amazon S3 and Google Cloud Storage resource using
SPECIFIED
credentials. Azure Storage is alwaysSPECIFIED
by default. - Using Userfile storage.
We recommend using cloud storage. You also need to ensure that the permissions at your storage destination are configured for the operation. See Storage Permissions for a list of the necessary permissions that each bulk operation requires.
While Cockroach Labs actively tests Amazon S3, Google Cloud Storage, and Azure Storage, we do not test S3-compatible services (e.g., MinIO, Red Hat Ceph).
Synopsis
Parameters
Parameter | Description |
---|---|
table_pattern |
The table, view, or sequence you want to restore. For details on how restore works with objects that are dependent on one another, refer to Object dependencies. |
database_name |
The name of the database you want to restore (i.e., restore all tables and views in the database). You can restore an entire database only if you had backed up the entire database. |
collectionURI |
The collection URI where the full backup (and appended incremental backups, if applicable) is stored. For information about this URL structure, see Backup File URLs. |
LATEST |
Restore the most recent backup in the given collection URI. See the Restore from the most recent backup example. |
subdirectory |
Restore from a specific subdirectory in the given collection URI. See the Restore a specific backup example. |
localityURI |
The URI where a locality-aware backup is stored. When restoring from an incremental locality-aware backup, you need to include every locality ever used, even if it was only used once. For information about this URL structure, see Backup File URLs. |
AS OF SYSTEM TIME timestamp |
Restore data as it existed as of timestamp . You can restore point-in-time data if you had taken full or incremental backup with revision history. If the backup was not taken with revision_history , you can use SHOW BACKUP to restore to a time that the backup covers (including in the full or incremental backup). See the example. |
restore_options_list |
Control your backup's behavior with these options. |
Options
You can control RESTORE
behavior using any of the following in the restore_options_list
. To set multiple RESTORE
options, use a comma-separated list:
Option | Value |
Description |
---|---|---|
debug_pause_on |
"error" |
Use to have a RESTORE job self pause when it encounters an error. The RESTORE job can then be resumed after the error has been fixed or canceled to rollback the job. Example: WITH debug_pause_on='error' |
DETACHED |
N/A | When RESTORE runs with DETACHED , the job will execute asynchronously. The job ID is returned after the restore job creation completes. Note that with DETACHED specified, further job information and the job completion status will not be returned. For more on the differences between the returned job data, see the example below. To check on the job status, use the SHOW JOBS statement. To run a restore within a transaction, use the DETACHED option. |
encryption_passphrase |
Passphrase used to create the encrypted backup | The passphrase used to decrypt the file(s) that were encrypted by the BACKUP statement. |
EXECUTION LOCALITY |
Key-value pairs | Restricts the execution of the restore to nodes that match the defined locality filter requirements. Example: WITH EXECUTION LOCALITY = 'region=us-west-1a,cloud=aws' |
incremental_location |
STRING |
Restore an incremental backup from the alternate collection URI the backup was originally taken with. See Restore incremental backups for more detail. |
into_db |
Database name | Use to change the target database for table restores. The target database must exist before a restore with into_db . (Does not apply to database or cluster restores.)Example: WITH into_db = 'newdb' |
kms |
STRING |
The URI of the cryptographic key stored in a key management service (KMS), or a comma-separated list of key URIs, used to take and restore encrypted backups. Refer to URI Formats on the Encrypted Backups page. The key or keys are used to encrypt the manifest and data files that the BACKUP statement generates, decrypt them during a restore operation, and list the contents of the backup when using SHOW BACKUP . AWS KMS, Google Cloud KMS, and Azure Key Vault are supported. |
new_db_name |
Database name | Rename a database during a restore. The existing backed-up database can remain active while the same database is restored with a different name. Example: RESTORE DATABASE movr ... WITH new_db_name = 'new_movr' |
schema_only |
N/A | Verify that a backup is valid by running RESTORE ... schema_only , which will restore the backed-up schema without any user data. Refer to Backup Validation for detail and an example. |
skip_localities_check |
N/A | Use to skip checking localities of a cluster before a restore when there are mismatched cluster regions between the backup's cluster and the target cluster. Example: WITH skip_localities_check |
skip_missing_foreign_keys |
N/A | Use to remove the missing foreign key constraints before restoring. Example: WITH skip_missing_foreign_keys |
skip_missing_sequences |
N/A | Use to ignore sequence dependencies (i.e., the DEFAULT expression that uses the sequence).Example: WITH skip_missing_sequences |
skip_missing_sequence_owners |
N/A | Must be used when restoring either a table that was previously a sequence owner or a sequence that was previously owned by a table. Example: WITH skip_missing_sequence_owners |
skip_missing_udfs |
N/A | Must be used when restoring a table with referenced UDF dependencies. Any column's DEFAULT expression using UDFs is dropped. Example: WITH skip_missing_udfs |
skip_missing_views |
N/A | Use to skip restoring views that cannot be restored because their dependencies are not being restored at the same time. Example: WITH skip_missing_views |
verify_backup_table_data |
N/A | Run a schema_only restore and have the restore read all user data from external storage, verify checksums, and discard the user data before writing it to disk. You must also include the schema_only option in the RESTORE statement with verify_backup_table_data . For more detail, see Backup Validation. |
Backup file URLs
CockroachDB uses the URL provided to construct a secure API call to the service you specify. The URL structure depends on the type of file storage you are using. For more information, see the following:
-
Note:
HTTP storage is not supported for
BACKUP
andRESTORE
.
You can create an external connection to represent an external storage or sink URI. This allows you to specify the external connection's name in statements rather than the provider-specific URI. For detail on using external connections, see the CREATE EXTERNAL CONNECTION
page.
Functional details
You can restore:
RESTORE
will only restore the latest data in an object (table, database, cluster), or the latest data as per an AS OF SYSTEM TIME
restore. That is, a restore will not include historical data even if you ran your backup with revision_history
. This means that if you issue an AS OF SYSTEM TIME
query on a restored object, the query will fail or the response will be incorrect because there is no historical data to query. For example, if you restore a table at 2022-07-13 10:38:00
, it is not then possible to read or back up that table at 2022-07-13 10:37:00
or earlier. This is also the case for backups with revision_history
that might try to initiate a revision start time earlier than 2022-07-13 10:38:00
.
You can exclude a table's row data from a backup using the exclude_data_from_backup
parameter. With this parameter set, a table will be empty when restored.
Full cluster
A full cluster restore can only be run on a target cluster with no user-created databases or tables. Restoring a full cluster includes:
- All user tables
- Relevant system tables
- All databases
- All tables (which automatically includes their indexes)
- All views
Also, consider that:
- Temporary tables will be restored to their original database during a full cluster restore.
- The restore will drop the cluster's
defaultdb
andpostgres
pre-loaded databases before the restore begins. You can only restoredefaultdb
andpostgres
if they are present in the original backup. - Changefeed jobs will not resume automatically on the new cluster. It is necessary to manually create changefeeds after a full-cluster restore.
- When the cluster is in a mixed-version state during an upgrade, a full cluster restore will fail. To perform a full cluster restore, it is necessary to first finalize the upgrade.
When you restore a full cluster with an Enterprise license, it will restore the Enterprise license of the cluster you are restoring from. If you want to use a different license in the new cluster, make sure to update the license after the restore is complete.
Databases
Restoring a database will create a new database and restore all of its tables and views. The created database will have the name of the database in the backup.
RESTORE DATABASE backup_database_name FROM LATEST in 'your_backup_collection_URI';
To restore a database that already exists in a cluster, use the new_db_name
option with RESTORE
to provide a new name for the database. See the Rename a database on restore example.
If dropping or renaming an existing database is not an option, you can use table restore to restore all tables into the existing database by using the WITH into_db
option.
Tables
You can also restore individual tables (which automatically includes their indexes), views, or sequences from a backup. This process uses the data stored in the backup to create entirely new tables, views, and sequences in the target database.
By default, tables, views, and sequences are restored into a target database matching the name of the database from which they were backed up. If the target database does not exist, you must create it. You can choose to change the target database with the into_db
option.
The target database must not have tables, views, or sequences with the same name as the the object you're restoring. If any of the restore target's names are being used, you can:
DROP TABLE
,DROP VIEW
, orDROP SEQUENCE
and then restore them. Note that a sequence cannot be dropped while it is being used in a column'sDEFAULT
expression, so those expressions must be dropped before the sequence is dropped, and recreated after the sequence is recreated. Thesetval
function can be used to set the value of the sequence to what it was previously.- Restore the table, view, or sequence into a different database.
RESTORE
only offers table-level granularity; it does not support restoring subsets of a table.
When restoring an individual table that references a user-defined type (e.g., ENUM
), CockroachDB will first check to see if the type already exists. The restore will attempt the following for each user-defined type within a table backup:
- If there is not an existing type in the cluster with the same name, CockroachDB will create the user-defined type as it exists in the backup.
- If there is an existing type in the cluster with the same name that is compatible with the type in the backup, CockroachDB will map the type in the backup to the type in the cluster.
- If there is an existing type in the cluster with the same name but it is not compatible with the type in the backup, the restore will not succeed and you will be asked to resolve the naming conflict. You can do this by either dropping or renaming the existing user-defined type.
In general, two types are compatible if they are the same kind (e.g., an enum is only compatible with other enums). Additionally, enums are only compatible if they have the same ordered set of elements that have also been created in the same way. For example:
CREATE TYPE t1 AS ENUM ('yes', 'no')
andCREATE TYPE t2 AS ENUM ('yes', 'no')
are compatible.CREATE TYPE t1 AS ENUM ('yes', 'no')
andCREATE TYPE t2 AS ENUM ('no', 'yes')
are not compatible.CREATE TYPE t1 AS ENUM ('yes', 'no')
andCREATE TYPE t2 AS ENUM ('yes'); ALTER TYPE t2 ADD VALUE ('no')
are not compatible because they were not created in the same way.
Object dependencies
Dependent objects must be restored at the same time as the objects they depend on. When you back up a table, it will not include any dependent tables, views, or sequences.
For example, if you back up view v
that depends on table t
, it will only back up v
, not t
. When you try to restore v
, the restore will fail because the referenced table is not present in the backup.
Alternatively, you can pass a skip
option with RESTORE
to skip the dependency instead:
Dependent object | Depends on | Skip option |
---|---|---|
Table with foreign key constraints | The table it REFERENCES . |
skip_missing_foreign_keys |
Table with a sequence | The sequence. | skip_missing_sequences |
Views | The tables used in the view's SELECT statement. |
skip_missing_views |
We recommend treating tables with foreign keys, which contribute to views, or that use sequences or user-defined types as a single unit with their dependencies. While you can restore individual tables, you may find that backing up and restoring at the database level is more convenient.
Referenced UDFs are not restored and require the skip_missing_udfs
option.
Users and privileges
The owner of restored objects will be the user running the restore job. To restore your users and privilege grants, you can do a cluster backup and restore the cluster to a fresh cluster with no user data.
If you are not doing a full cluster restore, the table-level privileges need to be granted to the users after the restore is complete. (By default, the user restoring will become the owner of the restored objects.) To grant table-level privileges after a restore, backup the system.users
table, restore users and their passwords, and then grant the table-level privileges.
Restore types
You can either restore from a full backup or from a full backup with incremental backups, based on the backup files you include:
Restore Type | Parameters |
---|---|
Full backup | Include the path to the full backup destination and the subdirectory of the backup. See the Examples section for syntax of cluster, database, and table restores. |
Full backup + incremental backups |
Include the path that contains the backup collection and the subdirectory containing the incremental backup. See Restore from incremental backups for an example. |
CockroachDB does not support incremental-only restores.
Performance
- The
RESTORE
process minimizes its impact to the cluster's performance by distributing work to all nodes. Subsets of the restored data (known as ranges) are evenly distributed among randomly selected nodes, with each range initially restored to only one node. Once the range is restored, the node begins replicating it others. - When a
RESTORE
fails or is canceled, partially restored data is properly cleaned up. This can have a minor, temporary impact on cluster performance. A restore job will pause if a node in the cluster runs out of disk space. See Viewing and controlling restore jobs for information on resuming and showing the progress of restore jobs. For instructions on how to free up disk space as quickly as possible after deleting data, see How can I free up disk space quickly?
A restore job will pause instead of entering a
failed
state if it continues to encounter transient errors once it has retried a maximum number of times. Once the restore has paused, you can either resume or cancel it.
Restoring to multi-region databases
Restoring to a multi-region database is supported with some limitations. This section outlines details and settings that should be considered when restoring into multi-region databases:
A cluster's regions will be checked before a restore. Mismatched regions between backup and restore clusters will be flagged before the restore begins, which allows for a decision between updating the cluster localities or restoring with the
skip_localities_check
option to continue with the restore regardless.A database that is restored with the
sql.defaults.primary_region
cluster setting will have thePRIMARY REGION
from this cluster setting assigned to the target database.RESTORE
supports restoring non-multi-region tables into a multi-region database and sets the table locality asREGIONAL BY TABLE
to the primary region of the target database.Restoring tables from multi-region databases with table localities set to
REGIONAL BY ROW
,REGIONAL BY TABLE
,REGIONAL BY TABLE IN PRIMARY REGION
, andGLOBAL
to another multi-region database is supported.When restoring a
REGIONAL BY TABLE IN PRIMARY REGION
table, if the primary region is different in the source database to the target database this will be implicitly changed on restore.Restoring a partition of a
REGIONAL BY ROW
table is not supported.REGIONAL BY TABLE
andREGIONAL BY ROW
tables can be restored only if the regions of the backed-up table match those of the target database. All of the following must be true forRESTORE
to be successful:- The regions of the source database and the regions of the destination database have the same set of regions.
- The regions were added to each of the databases in the same order.
- The databases have the same primary region.
The following example would be considered as having mismatched regions because the database regions were not added in the same order and the primary regions do not match.
Running on the source database:
ALTER DATABASE source_database SET PRIMARY REGION "us-east1";
ALTER DATABASE source_database ADD region "us-west1";
Running on the destination database:
ALTER DATABASE destination_database SET PRIMARY REGION "us-west1";
ALTER DATABASE destination_database ADD region "us-east1";
In addition, the following scenario has mismatched regions between the databases since the regions were not added to the database in the same order.
Running on the source database:
ALTER DATABASE source_database SET PRIMARY REGION "us-east1";
ALTER DATABASE source_database ADD region "us-west1";
Running on the destination database:
ALTER DATABASE destination_database SET PRIMARY REGION "us-west1";
ALTER DATABASE destination_database ADD region "us-east1";
ALTER DATABASE destination_database SET PRIMARY REGION "us-east1";
The ordering of regions and how region matching is determined is a known limitation. See the Known Limitations section for the tracking issues on limitations around RESTORE
and multi-region support.
For more on multi-region databases, see the Multi-Region Capabilities Overview.
Use ALTER ROLE ALL SET {sessionvar} = {val}
instead of the sql.defaults.*
cluster settings. This allows you to set a default value for all users for any session variable that applies during login, making the sql.defaults.*
cluster settings redundant.
Viewing and controlling restore jobs
After CockroachDB successfully initiates a restore, it registers the restore as a job, which you can view with SHOW JOBS
.
After the restore has been initiated, you can control it with PAUSE JOB
, RESUME JOB
, and CANCEL JOB
.
If initiated correctly, the statement returns when the restore is finished or if it encounters an error. In some cases, the restore can continue after an error has been returned (the error message will tell you that the restore has resumed in background).
Examples
There are two ways to specify a full or incremental backup to restore:
You can use external connections to represent an external storage or sink URI. This means that you can specify the external connection's name in statements rather than the provider-specific URI:
For detail on using external connections, refer to the CREATE EXTERNAL CONNECTION
page.
Some of the examples in this section use an external connection to represent the external storage URI. For guidance on connecting to cloud storage or using other authentication parameters, read Use Cloud Storage.
If you need to limit the control specific users have over your storage buckets, refer to Assume role authentication for setup instructions.
View the backup subdirectories
BACKUP ... INTO
adds a backup to a backup collection location. To view the backup paths in a given collection location, use SHOW BACKUPS
:
SHOW BACKUPS IN 's3://bucket/path?AUTH=implicit';
path
-------------------------
/2023/12/14-190909.83
/2023/12/20-155249.37
/2023/12/21-142943.73
(3 rows)
When you want to restore a specific backup, add the backup's subdirectory path (e.g., /2023/12/21-142943.73
) to the RESTORE
statement. For details on viewing the most recent backup, see SHOW BACKUP FROM {subdirectory} in {collectionURI}
.
Restore the most recent full or incremental backup
To restore from the most recent backup (full or incremental) in the collection's location, use the LATEST
syntax:
RESTORE FROM LATEST IN 's3://bucket/path?AUTH=implicit';
If you are restoring an incremental backup, the storage location must contain a full backup.
When you restore from an incremental backup, you're restoring the entire table, database, or cluster. CockroachDB uses both the latest (or a specific) incremental backup and the full backup during this process. You cannot restore an incremental backup without a full backup. Furthermore, it is not possible to restore over a table, database, or cluster with existing data. Refer to Restore types for detail on the types of backups you can restore.
RESTORE
will re-validate indexes when incremental backups are created from an older version (v20.2.2 and earlier or v20.1.4 and earlier), but restored by a newer version (v21.1.0+). These earlier releases may have included incomplete data for indexes that were in the process of being created.
Restore a specific full or incremental backup
To restore a specific full or incremental backup, specify that backup's subdirectory in the RESTORE
statement. To view the available subdirectories, use SHOW BACKUPS
. If you are restoring an incremental backup, the URI must point to the storage location that contains the full backup:
RESTORE FROM '2023/03/23-213101.37' IN 's3://bucket/path?AUTH=implicit';
Restore a cluster
To restore a full cluster:
RESTORE FROM LATEST IN 'external://backup_s3';
To view the available subdirectories, use SHOW BACKUPS
.
Restore a database
To restore a database:
RESTORE DATABASE bank FROM LATEST IN 'external://backup_s3';
To view the available subdirectories, use SHOW BACKUPS
.
RESTORE DATABASE
can only be used if the entire database was backed up.
Restore a table
To restore a single table:
RESTORE TABLE bank.customers FROM LATEST IN 'external://backup_s3';
To restore multiple tables:
RESTORE TABLE bank.customers, bank.accounts FROM LATEST IN 'external://backup_s3';
To view the available subdirectories, use SHOW BACKUPS
.
Restore with AS OF SYSTEM TIME
RESTORE
will only restore the latest data as per an AS OF SYSTEM TIME
restore. The restore will not include historical data even if you ran your backup with revision_history
.
Running a backup with revision history captures every change made within the garbage collection period leading up to and including the given timestamp, which allows you to restore to an arbitrary point-in-time within the revision history.
If you ran a backup without revision_history
, it is still possible to use AS OF SYSTEM TIME
with RESTORE
to target a particular time for the restore. However, your restore will be limited to the times of the full backup and each incremental backup in the chain. In this case, use the following example to restore to a particular time.
First, find the times that are available for a point-in-time-restore by listing the available backup directories in your storage location:
SHOW BACKUPS IN 'external://backup_s3';
path
------------------------
2023/01/18-141753.98
2023/01/23-184816.10
2023/01/23-185448.11
(3 rows)
From the output use the required date directory and run the following to get the details of the backup:
SHOW BACKUP '2023/01/23-185448.11' IN 'external://backup_s3';
database_name | parent_schema_name | object_name | object_type | backup_type | start_time | end_time | size_bytes | rows | is_full_cluster
----------------+--------------------+----------------------------+-------------+-------------+----------------------------+----------------------------+------------+------+------------------
movr | public | vehicle_location_histories | table | full | NULL | 2023-01-23 18:54:48.116975 | 85430 | 1092 | t
movr | public | promo_codes | table | full | NULL | 2023-01-23 18:54:48.116975 | 225775 | 1003 | t
movr | public | user_promo_codes | table | full | NULL | 2023-01-23 18:54:48.116975 | 1009 | 11 | t
NULL | NULL | system | database | incremental | 2023-01-23 18:54:48.116975 | 2023-01-24 00:00:00 | NULL | NULL | t
system | public | users | table | incremental | 2023-01-23 18:54:48.116975 | 2023-01-24 00:00:00 | 0 | 0 | t
system | public | zones | table | incremental | 2023-01-23 18:54:48.116975 | 2023-01-24 00:00:00 | 0 | 0 |
Finally, use the start_time
and end_time
detail to define the required time as part of the AS OF SYSTEM TIME
clause. Run the restore, passing the directory and the timestamp:
RESTORE DATABASE movr FROM '2023/01/23-185448.11' IN 'external://backup_s3' AS OF SYSTEM TIME '2023-01-23 18:56:48';
Restore a backup asynchronously
Use the DETACHED
option to execute the restore job asynchronously:
> RESTORE FROM LATEST IN 'external://backup_s3'
WITH DETACHED;
The job ID is returned after the restore job creation completes:
job_id
----------------------
592786066399264769
(1 row)
Without the DETACHED
option, RESTORE
will block the SQL connection until the job completes. Once finished, the job status and more detailed job data is returned:
job_id | status | fraction_completed | rows | index_entries | bytes
---------------------+-----------+--------------------+------+---------------+--------
652471804772712449 | succeeded | 1 | 50 | 0 | 4911
(1 row)
Other restore usages
Restore tables into a different database
By default, tables and views are restored to the database they originally belonged to. However, using the into_db
option, you can control the target database. Note that the target database must exist prior to the restore.
Create the new database that you'll restore the table or view into:
> CREATE DATABASE newdb;
Restore the table into the newly created database with
into_db
:> RESTORE bank.customers FROM LATEST IN 'external://backup_s3' WITH into_db = 'newdb';
Rename a database on restore
To rename a database on restore, use the new_db_name
option:
RESTORE DATABASE bank FROM LATEST IN 'external://backup_s3'
WITH new_db_name = 'new_bank';
When you run RESTORE
with new_db_name
, the existing database that was originally backed up can remain active:
database_name
--------------+
defaultdb
bank
new_bank
postgres
system
Remove the foreign key before restore
By default, tables with foreign key constraints must be restored at the same time as the tables they reference. However, using the skip_missing_foreign_keys
option you can remove the foreign key constraint from the table and then restore it.
> RESTORE bank.accounts FROM LATEST IN 'external://backup_s3'
WITH skip_missing_foreign_keys;
Restoring users from system.users
backup
The system.users
table stores your cluster's usernames and their hashed passwords. To restore them, you must restore the system.users
table into a new database because you cannot drop the existing system.users
table.
After it's restored into a new database, you can write the restored users
table data to the cluster's existing system.users
table.
Create the new database that you'll restore the
system.users
table into:> CREATE DATABASE newdb;
Restore the
system.users
table into the new database:> RESTORE system.users FROM LATEST IN 'external://backup_s3' WITH into_db = 'newdb';
After the restore completes, add the
users
to the existingsystem.users
table:> INSERT INTO system.users SELECT * FROM newdb.users;
Remove the temporary
users
table:> DROP TABLE newdb.users;
Restore from incremental backups in a different location
To restore an incremental backup that was taken using the incremental_location
option, you must run the RESTORE
statement with both:
- the collection URI of the full backup
- the
incremental_location
option referencing the incremental backup's collection URI, as passed in the originalBACKUP
statement
RESTORE TABLE movr.users FROM LATEST IN 'external://backup_s3' WITH incremental_location = '{incremental_backup_URI}';
For more detail on using this option with BACKUP
, see Incremental backups with explicitly specified destinations.
Known limitations
RESTORE
will not restore a table that references a UDF, unless you skip restoring the function with theskip_missing_udfs
option. Alternatively, take a database-level backup to include everything needed to restore the table. #118195Restoring
GLOBAL
andREGIONAL BY TABLE
tables into a non-multi-region database is not supported. #71502REGIONAL BY TABLE
andREGIONAL BY ROW
tables can be restored only if the regions of the backed-up table match those of the target database. All of the following must be true forRESTORE
to be successful:- The regions of the source database and the regions of the destination database have the same set of regions.
- The regions were added to each of the databases in the same order.
- The databases have the same primary region.
The following example would be considered as having mismatched regions because the database regions were not added in the same order and the primary regions do not match.
Running on the source database:
ALTER DATABASE source_database SET PRIMARY REGION "us-east1";
ALTER DATABASE source_database ADD region "us-west1";
Running on the destination database:
ALTER DATABASE destination_database SET PRIMARY REGION "us-west1";
ALTER DATABASE destination_database ADD region "us-east1";
In addition, the following scenario has mismatched regions between the databases since the regions were not added to the database in the same order.
Running on the source database:
ALTER DATABASE source_database SET PRIMARY REGION "us-east1";
ALTER DATABASE source_database ADD region "us-west1";
Running on the destination database:
ALTER DATABASE destination_database SET PRIMARY REGION "us-west1";
ALTER DATABASE destination_database ADD region "us-east1";
ALTER DATABASE destination_database SET PRIMARY REGION "us-east1";