The ALTER TABLE
statement changes the definition of a table. For information on using ALTER TABLE
, see the pages for its subcommands.
This schema change statement is registered as a job. You can view long-running jobs with SHOW JOBS
.
Required privileges
Refer to the respective subcommands.
Synopsis
where alter_table_cmd
is:
Parameters
Parameter | Description |
---|---|
IF EXISTS |
Change the table only if a table with the current name exists; if one does not exist, do not return an error. |
table_name |
The name of the table you want to change. |
Additional parameters are documented for the respective subcommands.
Subcommands
Some subcommands can be used in combination in a single ALTER TABLE
statement. For example, you can atomically rename a column and add a new column with the old name of the existing column.
Subcommand | Description | Can combine with other subcommands? |
---|---|---|
ADD COLUMN |
Add columns to tables. | Yes |
ADD CONSTRAINT |
Add constraints to columns. | Yes |
ALTER COLUMN |
Change an existing column. | Yes |
ALTER PRIMARY KEY |
Change the primary key of a table. | Yes |
CONFIGURE ZONE |
Replication Controls for a table. | No |
DROP COLUMN |
Remove columns from tables. | Yes |
DROP CONSTRAINT |
Remove constraints from columns. | Yes |
EXPERIMENTAL_AUDIT |
Enable per-table audit logs, for security purposes. | Yes |
OWNER TO |
Change the owner of the table. | No |
PARTITION BY |
Partition, re-partition, or un-partition a table. | Yes |
RENAME COLUMN |
Change the names of columns. | Yes |
RENAME CONSTRAINT |
Change constraints columns. | Yes |
RENAME TO |
Change the names of tables. | No |
RESET {storage parameter} |
Reset a storage parameter on a table to its default value. | Yes |
SET {storage parameter} |
Set a storage parameter on a table. | Yes |
SET LOCALITY |
Set the table locality for a table in a multi-region database. | No |
SET SCHEMA |
Change the schema of a table. | No |
SPLIT AT |
Force a range split at the specified row in the table. | No |
UNSPLIT AT |
Remove a range split enforcement in the table. | No |
VALIDATE CONSTRAINT |
Check whether values in a column match a constraint on the column. | Yes |
ADD COLUMN
Use ALTER TABLE ... ADD COLUMN
to add columns to existing tables.
For examples, see Add columns.
Required privileges
The user must have the CREATE
privilege on the table.
Parameters
Parameter | Description |
---|---|
IF NOT EXISTS |
Add a column only if a column of the same name does not already exist; if one does exist, do not return an error. |
column_name |
The name of the column you want to add. The column name must follow these identifier rules and must be unique within the table but can have the same name as indexes or constraints. |
typename |
The data type of the new column. |
col_qualification |
An optional list of column qualifications. |
For usage, see Synopsis.
ADD CONSTRAINT
Use ALTER TABLE ... ADD CONSTRAINT
to add the following constraints to columns:
To add a primary key constraint to a table, you should explicitly define the primary key at table creation. To replace an existing primary key, you can use ADD CONSTRAINT ... PRIMARY KEY
. For details, see Changing primary keys with ADD CONSTRAINT ... PRIMARY KEY
.
The DEFAULT
and NOT NULL
constraints are managed through ALTER COLUMN
.
For examples, see Add constraints.
Required privileges
The user must have the CREATE
privilege on the table.
Parameters
Parameter | Description |
---|---|
IF NOT EXISTS |
Add a constraint only if a constraint of the same name does not already exist; if one does exist, do not return an error. |
constraint_name |
The name of the constraint, which must be unique to its table and follow these identifier rules. |
constraint_elem |
The CHECK , foreign key, or UNIQUE constraint you want to add. Adding/changing a DEFAULT constraint is done through ALTER COLUMN . Adding/changing the table's PRIMARY KEY is not supported through ALTER TABLE ; it can only be specified during table creation. |
NOT VALID |
Create unvalidated constraints. When creating an unvalidated constraint, the system does not check that existing table data satisfies the constraint. The constraint is still enforced when table data is modified. An unvalidated constraint can later be validated using VALIDATE CONSTRAINT . |
For usage, see Synopsis.
Changing primary keys with ADD CONSTRAINT ... PRIMARY KEY
When you change a primary key with ALTER TABLE ... ALTER PRIMARY KEY
, the existing primary key index becomes a secondary index. The secondary index created by ALTER PRIMARY KEY
takes up node memory and can slow down write performance to a cluster. If you do not have queries that filter on the primary key that you are replacing, you can use ADD CONSTRAINT
to replace the existing primary index without creating a secondary index.
You can use ADD CONSTRAINT ... PRIMARY KEY
to add a primary key to an existing table if one of the following is true:
- No primary key was explicitly defined at table creation. In this case, the table is created with a default primary key on
rowid
. UsingADD CONSTRAINT ... PRIMARY KEY
drops the default primary key and replaces it with a new primary key. - A
DROP CONSTRAINT
statement precedes theADD CONSTRAINT ... PRIMARY KEY
statement, in the same transaction. For an example, see Drop and add the primary key constraint.
Aliases
In CockroachDB, the following are aliases for ALTER TABLE ... ADD CONSTRAINT ... PRIMARY KEY
:
ALTER TABLE ... ADD PRIMARY KEY
ALTER COLUMN
Use ALTER TABLE ... ALTER COLUMN
to do the following:
- Set, change, or drop a column's
DEFAULT
constraint. - Set or drop a column's
NOT NULL
constraint. - Set, change, or drop an
ON UPDATE
expression. - Change a column's data type.
- Set the visibility of a column.
Support for altering column data types is in preview, with certain limitations. For details, see Altering column data types.
For examples, see Alter columns.
Required privileges
The user must have the CREATE
privilege on the table.
Parameters
Parameter | Description |
---|---|
column_name |
The name of the column to modify. |
a_expr |
The new default value to set. |
b_expr |
The ON UPDATE expression to set. |
[NOT] VISIBLE |
The visibility of a column when using * in a SELECT clause. |
typename |
The new data type you want to use. Support for altering column types is in preview, with certain limitations. For details, see Alter column data types. |
USING a_expr |
How to compute a new column value from the old column value. |
For usage, see Synopsis.
Alter column data types
Support for altering column data types is in preview, with certain limitations. To enable column type altering, set the enable_experimental_alter_column_type_general
session variable to true
.
The following are equivalent in CockroachDB:
ALTER TABLE ... ALTER ... TYPE
ALTER TABLE ... ALTER COLUMN TYPE
ALTER TABLE ... ALTER COLUMN SET DATA TYPE
Known limitations
You cannot alter the data type of a column if:
- The column is part of an index.
- The column has
CHECK
constraints. - The column owns a sequence.
- The column has a
DEFAULT
expression. This will result in anERROR: ... column ... cannot also have a DEFAULT expression
withSQLSTATE: 42P16
. - The
ALTER COLUMN TYPE
statement is part of a combinedALTER TABLE
statement. - The
ALTER COLUMN TYPE
statement is inside an explicit transaction.
Most ALTER COLUMN TYPE
changes are finalized asynchronously. Schema changes on the table with the altered column may be restricted, and writes to the altered column may be rejected until the schema change is finalized.
ALTER PRIMARY KEY
Use ALTER TABLE ... ALTER PRIMARY KEY
to change the primary key of a table.
Note the following:
You cannot change the primary key of a table that is currently undergoing a primary key change, or any other schema change.
ALTER PRIMARY KEY
might need to rewrite multiple indexes, which can make it an expensive operation.When you change a primary key with
ALTER PRIMARY KEY
, the old primary key index becomes aUNIQUE
secondary index. This helps optimize the performance of queries that still filter on the old primary key column.ALTER PRIMARY KEY
does not alter the partitions on a table or its indexes, even if a partition is defined on a column in the original primary key. If you alter the primary key of a partitioned table, you must update the table partition accordingly.The secondary index created by
ALTER PRIMARY KEY
will not be partitioned, even if a partition is defined on a column in the original primary key. To ensure that the table is partitioned correctly, you must create a partition on the secondary index, or drop the secondary index.Any new primary key column set by
ALTER PRIMARY KEY
must have an existingNOT NULL
constraint. To add aNOT NULL
constraint to an existing column, useALTER TABLE ... ALTER COLUMN ... SET NOT NULL
.
To change an existing primary key without creating a secondary index from that primary key, use DROP CONSTRAINT ... PRIMARY KEY
/ADD CONSTRAINT ... PRIMARY KEY
. For examples, see Add constraints and Drop constraints.
For examples, see Alter a primary key.
Required privileges
The user must have the CREATE
privilege on a table to alter its primary key.
Parameters
Parameter | Description |
---|---|
index_params |
The name of the column(s) that you want to use for the primary key. These columns replace the current primary key column(s). |
USING HASH |
Creates a hash-sharded index. |
For usage, see Synopsis.
CONFIGURE ZONE
ALTER TABLE ... CONFIGURE ZONE
is used to add, modify, reset, or remove replication zones for a table. To view details about existing replication zones, use SHOW ZONE CONFIGURATIONS
. For more information about replication zones, see Replication Controls.
You can use replication zones to control the number and location of replicas for specific sets of data, both when replicas are first added and when they are rebalanced to maintain cluster equilibrium.
For examples, see Replication Controls.
Required privileges
The user must be a member of the admin
role or have been granted CREATE
or ZONECONFIG
privileges. To configure system
objects, the user must be a member of the admin
role.
Parameters
Parameter | Description |
---|---|
variable |
The name of the replication zone variable to change. |
value |
The value of the replication zone variable to change. |
DISCARD |
Remove a replication zone. |
For usage, see Synopsis.
DROP COLUMN
Use ALTER TABLE ... DROP COLUMN
to remove columns from a table.
When used in an explicit transaction combined with other schema changes to the same table, DROP COLUMN
can result in data loss if one of the other schema changes fails or is canceled. To work around this, move the DROP COLUMN
statement to its own explicit transaction or run it in a single statement outside the existing transaction.
By default, DROP COLUMN
drops any indexes on the column being dropped, and any indexes that reference the column, including indexes with STORING
clauses that reference the column.
For examples, see Drop columns.
Known limitations
CockroachDB prevents a column from being dropped using ALTER TABLE ... DROP COLUMN
if it is referenced by a partial index predicate. To drop such a column, the partial indexes need to be dropped first using DROP INDEX
. #97813.
Required privileges
The user must have the CREATE
privilege on the table.
Parameters
Parameter | Description |
---|---|
column_name |
The name of the column you want to drop. When a column with a CHECK constraint is dropped, the CHECK constraint is also dropped. |
CASCADE |
Drop the column even if objects (such as views) depend on it; drop the dependent objects, as well. CASCADE will drop a column with a foreign key constraint if it is the only column in the reference.CASCADE does not list the objects it drops, so should be used cautiously.CASCADE is not required to drop an indexed column, or a column that is referenced by an index. By default, DROP COLUMN drops any indexes on the column being dropped, and any indexes that reference the column, including partial indexes with predicates that reference the column and indexes with STORING clauses that reference the column. |
RESTRICT |
(Default) Do not drop the column if any objects (such as views) depend on it. |
For usage, see Synopsis.
DROP CONSTRAINT
Use ALTER TABLE ... DROP CONSTRAINT
to remove CHECK
and FOREIGN KEY
constraints from columns.
PRIMARY KEY
constraints can be dropped with DROP CONSTRAINT
if an ADD CONSTRAINT
statement follows the DROP CONSTRAINT
statement in the same transaction.
When you change a primary key with ALTER TABLE ... ALTER PRIMARY KEY
, the old primary key index becomes a secondary index. If you do not want the old primary key to become a secondary index, use DROP CONSTRAINT
/ADD CONSTRAINT
to change the primary key.
For information about removing other constraints, see Constraints: Remove Constraints.
For examples, see Drop constraints.
Required privileges
The user must have the CREATE
privilege on the table.
Parameters
Parameter | Description |
---|---|
constraint_name |
The name of the constraint you want to drop. |
For usage, see Synopsis.
EXPERIMENTAL_AUDIT
ALTER TABLE ... EXPERIMENTAL_AUDIT
enables or disables the recording of SQL audit events to the SENSITIVE_ACCESS
logging channel for a table. The SENSITIVE_ACCESS
log output is also called the SQL audit log. For details on using SQL audit logs, see SQL Audit Logging.
This feature is in preview. This feature is subject to change. To share feedback and/or issues, contact Support.
SQL audit logs contain detailed information about queries being executed against your system, including:
- Full text of the query (which may include personally identifiable information (PII))
- Date/Time
- Client address
- Application name
CockroachDB stores audit log information in a way that ensures durability, but negatively impacts performance. As a result, we recommend using SQL audit logs for security purposes only. For more information, see Performance considerations.
For examples, see Configure audit logging.
Required privileges
Only members of the admin
role can enable audit logs on a table. By default, the root
user belongs to the admin
role.
Parameters
Parameter | Description |
---|---|
READ |
Log all table reads to the audit log file. |
WRITE |
Log all table writes to the audit log file. |
OFF |
Turn off audit logging. |
For usage, see Synopsis.
This command logs all reads and writes, and both the READ
and WRITE
parameters are required (as shown in the examples).
OWNER TO
ALTER TABLE ... OWNER TO
is used to change the owner of a table.
For examples, see Change table owner.
Required privileges
To change the owner of a table, the user must be an admin
user, or the current owner of the table and a member of the new owner role. The new owner role must also have the CREATE
privilege on the schema to which the table belongs.
Parameters
Parameter | Description |
---|---|
role_spec |
The role to set as the owner of the table. |
For usage, see Synopsis.
PARTITION BY
Required privileges
ALTER TABLE ... PARTITION BY
is used to partition, re-partition, or un-partition a table. After defining partitions, CONFIGURE ZONE
is used to control the replication and placement of partitions.
This is an enterprise-only feature. You can use free trial credits to try it out.
For examples, see Define partitions.
Parameters
Parameter | Description |
---|---|
name_list |
List of columns you want to define partitions on (in the order they are defined in the primary key). |
list_partitions |
Name of list partition followed by the list of values to be included in the partition. |
range_partitions |
Name of range partition followed by the range of values to be included in the partition. |
For usage, see Synopsis.
RENAME COLUMN
ALTER TABLE ... RENAME COLUMN
changes the name of a column in a table.
It is not possible to rename a column referenced by a view. For more details, see View Dependencies.
For examples, see Rename columns.
Required privileges
The user must have the CREATE
privilege on the table.
Parameters
Parameter | Description |
---|---|
IF EXISTS |
Rename the column only if a table of table_name exists; if one does not exist, do not return an error. |
column_name |
The current name of the column. |
column_new_name |
The name you want to use for the column, which must be unique to its table and follow these identifier rules. |
For usage, see Synopsis.
RENAME CONSTRAINT
ALTER TABLE ... RENAME CONSTRAINT
changes the name of a constraint on a column.
It is not possible to rename a constraint for a column referenced by a view. For more details, see View Dependencies.
For examples, see Rename constraints.
Required privileges
The user must have the CREATE
privilege on the table.
Parameters
Parameter | Description |
---|---|
IF EXISTS |
Rename the constraint only if a constraint of current_name exists; if one does not exist, do not return an error. |
constraint_name |
The current name of the constraint. |
constraint_new_name |
The new name you want to use for the constraint, which must be unique to its table and follow these identifier rules. |
For usage, see Synopsis.
RENAME TO
ALTER TABLE ... RENAME TO
changes the name of a table.
ALTER TABLE ... RENAME TO
cannot be used to move a table from one schema to another. To change a table's schema, use SET SCHEMA
.
ALTER TABLE ... RENAME TO
cannot be used to move a table from one database to another. To change a table's database, use BACKUP
and RESTORE
.
It is not possible to rename a table referenced by a view. For more details, see View Dependencies.
For examples, see Rename tables.
Required privileges
The user must have the DROP
privilege on the table and the CREATE
on the parent database. When moving a table from one database to another, the user must have the CREATE
privilege on both the source and target databases.
Parameters
Parameter | Description |
---|---|
table_new_name |
The new name of the table, which must be unique within its database and follow these identifier rules. When the parent database is not set as the default, the name must be formatted as database.name .The UPSERT and INSERT ON CONFLICT statements use a temporary table called excluded to handle uniqueness conflicts during execution. It's therefore not recommended to use the name excluded for any of your tables. |
For usage, see Synopsis.
RESET {storage parameter}
ALTER TABLE ... RESET {storage parameter}
reverts the value of a storage parameter on a table to its default value.
To reset a storage parameter on an existing index, you must drop and recreate the index without the storage parameter.
For examples, see Set and reset storage parameters.
Required privileges
The user must be a member of the admin
or owner roles, or have the CREATE
privilege on the table.
Parameters
Parameter | Description |
---|---|
storage_parameter_key |
The name of the storage parameter you are changing. See Table storage parameters for a list of available parameters. |
For usage, see Synopsis.
SET {storage parameter}
ALTER TABLE ... SET {storage parameter}
sets a storage parameter on an existing table.
To set a storage parameter on an existing index, you must drop and recreate the index with the storage parameter.
For examples, see Set and reset storage parameters.
Required privileges
The user must be a member of the admin
or owner roles, or have the CREATE
privilege on the table.
Parameters
Parameter | Description |
---|---|
storage_parameter_key |
The name of the storage parameter. See Table storage parameters for a list of available parameters. |
value |
The value to assign the storage parameter. |
For usage, see Synopsis.
Table storage parameters
Parameter name | Description | Data type | Default value |
---|---|---|---|
exclude_data_from_backup |
Exclude the data in this table from any future backups. | Boolean | false |
schema_locked |
Disallow schema changes on this table. Enabling schema_locked can help improve performance of changefeeds running on this table. |
Boolean | false |
sql_stats_automatic_collection_enabled |
Enable automatic statistics collection for this table. | Boolean | true |
sql_stats_automatic_collection_min_stale_rows |
Minimum number of stale rows in this table that will trigger a statistics refresh. | Integer | 500 |
sql_stats_automatic_collection_fraction_stale_rows |
Fraction of stale rows in this table that will trigger a statistics refresh. | Float | 0.2 |
sql_stats_forecasts_enabled |
Enable forecasted statistics collection for this table. | Boolean | true |
The following parameters are included for PostgreSQL compatibility and do not affect how CockroachDB runs:
autovacuum_enabled
fillfactor
For the list of storage parameters that affect how Row-Level TTL works, see the list of TTL storage parameters.
SET LOCALITY
ALTER TABLE .. SET LOCALITY
changes the table locality of a table in a multi-region database.
While CockroachDB is processing an ALTER TABLE .. SET LOCALITY
statement that enables or disables REGIONAL BY ROW
on a table within a database, any ADD REGION
and DROP REGION
statements on that database will fail.
For examples, see Set localities.
Required privileges
The user must be a member of the admin
or owner roles, or have the CREATE
privilege on the table.
Parameters
Parameter | Description |
---|---|
locality |
The LOCALITY clause, followed by the locality to apply to this table. Allowed values:
|
For usage, see Synopsis.
For more information about which table locality is right for your use case, see Table localities.
SET SCHEMA
ALTER TABLE ... SET SCHEMA
changes the schema of a table.
CockroachDB supports SET SCHEMA
as an alias for setting the search_path
session variable.
For examples, see Set table schema.
Required privileges
The user must have the DROP
privilege on the table, and the CREATE
privilege on the schema.
Parameters
Parameter | Description |
---|---|
schema_name |
The name of the new schema for the table. |
For usage, see Synopsis.
SPLIT AT
ALTER TABLE ... SPLIT AT
forces a range split at a specified row in the table.
CockroachDB breaks data into ranges. By default, CockroachDB attempts to keep ranges below the default range size. To do this, the system will automatically split a range if it grows larger than this limit. For most use cases, this automatic range splitting is sufficient, and you should never need to worry about when or where the system decides to split ranges.
However, there are reasons why you may want to perform manual splits on the ranges that store tables or indexes:
When a table only consists of a single range, all writes and reads to the table will be served by that range's leaseholder. If a table only holds a small amount of data but is serving a large amount of traffic, load distribution can become unbalanced and a hot spot can occur. Splitting the table's ranges manually can allow the load on the table to be more evenly distributed across multiple nodes. For tables consisting of more than a few ranges, load will naturally be distributed across multiple nodes and this will not be a concern.
When a table is created, it will only consist of a single range. If you know that a new table will immediately receive significant write traffic, you may want to preemptively split the table based on the expected distribution of writes before applying the load. This can help avoid reduced workload performance that results when automatic splits are unable to keep up with write traffic and a hot spot occurs.
For examples, see Split and unsplit tables.
Required privileges
The user must have the INSERT
privilege on the table.
Parameters
Parameter | Description |
---|---|
select_stmt |
A selection query that produces one or more rows at which to split the table. |
a_expr |
The expiration of the split enforcement on the table. This can be a DECIMAL , INTERVAL , TIMESTAMP , or TIMESTAMPZ . |
For usage, see Synopsis.
UNSPLIT AT
ALTER TABLE ... UNSPLIT AT
removes a split enforcement on a range split, at a specified row in the table.
Removing a split enforcement from a table or index ("unsplitting") allows CockroachDB to merge ranges as needed, to help improve your cluster's performance. For more information, see Range Merges.
For examples, see Split and unsplit tables.
Required privileges
The user must have the INSERT
privilege on the table.
Parameters
Parameter | Description |
---|---|
select_stmt |
A selection query that produces one or more rows at which to unsplit a table. |
ALL |
Remove all split enforcements for a table. |
For usage, see Synopsis.
VALIDATE CONSTRAINT
ALTER TABLE ... VALIDATE CONSTRAINT
checks whether values in a column match a constraint on the column.
This statement is especially useful after applying a constraint to an existing column via ADD CONSTRAINT
. In this case, VALIDATE CONSTRAINT
can be used to find values already in the column that do not match the constraint.
For examples, see Validate constraints.
Required privileges
The user must have the CREATE
privilege on the table.
Parameters
Parameter | Description |
---|---|
constraint_name |
The name of the constraint to validate. |
For usage, see Synopsis.
View schema changes
This schema change statement is registered as a job. You can view long-running jobs with SHOW JOBS
.
Examples
Add columns
The following examples use the bank
demo database schema.
To follow along, run cockroach demo bank
to start a temporary, in-memory cluster with the bank
schema and dataset preloaded:
$ cockroach demo bank
Add a single column
> ALTER TABLE bank ADD COLUMN active BOOL;
> SHOW COLUMNS FROM bank;
column_name | data_type | is_nullable | column_default | generation_expression | indices | is_hidden
--------------+-----------+-------------+----------------+-----------------------+-------------+------------
id | INT8 | false | NULL | | {bank_pkey} | false
balance | INT8 | true | NULL | | {bank_pkey} | false
payload | STRING | true | NULL | | {bank_pkey} | false
active | BOOL | true | NULL | | {bank_pkey} | false
(4 rows)
Add multiple columns
> ALTER TABLE bank ADD COLUMN location STRING, ADD COLUMN currency STRING;
> SHOW COLUMNS FROM bank;
column_name | data_type | is_nullable | column_default | generation_expression | indices | is_hidden
--------------+-----------+-------------+----------------+-----------------------+-------------+------------
id | INT8 | false | NULL | | {bank_pkey} | false
balance | INT8 | true | NULL | | {bank_pkey} | false
payload | STRING | true | NULL | | {bank_pkey} | false
active | BOOL | true | NULL | | {bank_pkey} | false
location | STRING | true | NULL | | {bank_pkey} | false
currency | STRING | true | NULL | | {bank_pkey} | false
(6 rows)
Add a column with a NOT NULL
constraint and a DEFAULT
value
> ALTER TABLE bank ADD COLUMN interest DECIMAL NOT NULL DEFAULT (DECIMAL '1.3');
> SHOW COLUMNS FROM bank;
column_name | data_type | is_nullable | column_default | generation_expression | indices | is_hidden
--------------+-----------+-------------+------------------------+-----------------------+-------------+------------
id | INT8 | false | NULL | | {bank_pkey} | false
balance | INT8 | true | NULL | | {bank_pkey} | false
payload | STRING | true | NULL | | {bank_pkey} | false
active | BOOL | true | NULL | | {bank_pkey} | false
location | STRING | true | NULL | | {bank_pkey} | false
currency | STRING | true | NULL | | {bank_pkey} | false
interest | DECIMAL | false | 1.3:::DECIMAL::DECIMAL | | {bank_pkey} | false
(7 rows)
Add a column with a UNIQUE
constraint
> ALTER TABLE bank ADD COLUMN address STRING UNIQUE;
> SHOW COLUMNS FROM bank;
column_name | data_type | is_nullable | column_default | generation_expression | indices | is_hidden
--------------+-----------+-------------+----------------+-----------------------+------------------------------+------------
id | INT8 | false | NULL | | {bank_address_key,bank_pkey} | false
balance | INT8 | true | NULL | | {bank_pkey} | false
payload | STRING | true | NULL | | {bank_pkey} | false
active | BOOL | true | NULL | | {bank_pkey} | false
location | STRING | true | NULL | | {bank_pkey} | false
currency | STRING | true | NULL | | {bank_pkey} | false
interest | DECIMAL | false | 1.3:::DECIMAL | | {bank_pkey} | false
address | STRING | true | NULL | | {bank_address_key,bank_pkey} | false
(8 rows)
Add a column with a FOREIGN KEY
constraint
> CREATE TABLE customers (
id INT PRIMARY KEY,
name STRING
);
> ALTER TABLE bank ADD COLUMN cust_number INT REFERENCES customers(id);
> SHOW COLUMNS FROM bank;
column_name | data_type | is_nullable | column_default | generation_expression | indices | is_hidden
--------------+-----------+-------------+----------------+-----------------------+------------------------------+------------
id | INT8 | false | NULL | | {bank_address_key,bank_pkey} | false
balance | INT8 | true | NULL | | {bank_pkey} | false
payload | STRING | true | NULL | | {bank_pkey} | false
active | BOOL | true | NULL | | {bank_pkey} | false
location | STRING | true | NULL | | {bank_pkey} | false
currency | STRING | true | NULL | | {bank_pkey} | false
interest | DECIMAL | false | 1.3:::DECIMAL | | {bank_pkey} | false
address | STRING | true | NULL | | {bank_address_key,bank_pkey} | false
cust_number | INT8 | true | NULL | | {bank_pkey} | false
(9 rows)
> SHOW CONSTRAINTS FROM bank;
table_name | constraint_name | constraint_type | details | validated
-------------+-----------------------+-----------------+----------------------------------------------------+------------
bank | bank_address_key | UNIQUE | UNIQUE (address ASC) | t
bank | bank_cust_number_fkey | FOREIGN KEY | FOREIGN KEY (cust_number) REFERENCES customers(id) | t
bank | bank_pkey | PRIMARY KEY | PRIMARY KEY (id ASC) | t
(3 rows)
Add a column with collation
> ALTER TABLE bank ADD COLUMN more_names STRING COLLATE en;
> SHOW COLUMNS FROM bank;
column_name | data_type | is_nullable | column_default | generation_expression | indices | is_hidden
--------------+-------------------+-------------+----------------+-----------------------+------------------------------+------------
id | INT8 | false | NULL | | {bank_address_key,bank_pkey} | false
balance | INT8 | true | NULL | | {bank_pkey} | false
payload | STRING | true | NULL | | {bank_pkey} | false
active | BOOL | true | NULL | | {bank_pkey} | false
location | STRING | true | NULL | | {bank_pkey} | false
currency | STRING | true | NULL | | {bank_pkey} | false
interest | DECIMAL | false | 1.3:::DECIMAL | | {bank_pkey} | false
address | STRING | true | NULL | | {bank_address_key,bank_pkey} | false
cust_number | INT8 | true | NULL | | {bank_pkey} | false
more_names | STRING COLLATE en | true | NULL | | {bank_pkey} | false
(10 rows)
Add a column and assign it to a column family
Add a column and assign it to a new column family
> ALTER TABLE bank ADD COLUMN location1 STRING CREATE FAMILY f1;
> SHOW CREATE TABLE bank;
table_name | create_statement
-------------+--------------------------------------------------------------------------------------------------------------------------------------
bank | CREATE TABLE bank (
| id INT8 NOT NULL,
| balance INT8 NULL,
| payload STRING NULL,
| active BOOL NULL,
| location STRING NULL,
| currency STRING NULL,
| interest DECIMAL NOT NULL DEFAULT 1.3:::DECIMAL,
| address STRING NULL,
| cust_number INT8 NULL,
| more_names STRING COLLATE en NULL,
| location1 STRING NULL,
| CONSTRAINT bank_pkey PRIMARY KEY (id ASC),
| CONSTRAINT fk_cust_number_ref_customers FOREIGN KEY (cust_number) REFERENCES customers(id),
| UNIQUE INDEX bank_address_key (address ASC),
| FAMILY fam_0_id_balance_payload (id, balance, payload, active, location, currency, interest, address, cust_number, more_names),
| FAMILY f1 (location1)
| )
(1 row)
Add a column and assign it to an existing column family
> ALTER TABLE bank ADD COLUMN location2 STRING FAMILY f1;
> SHOW CREATE TABLE bank;
table_name | create_statement
-------------+--------------------------------------------------------------------------------------------------------------------------------------
bank | CREATE TABLE bank (
| id INT8 NOT NULL,
| balance INT8 NULL,
| payload STRING NULL,
| active BOOL NULL,
| location STRING NULL,
| currency STRING NULL,
| interest DECIMAL NOT NULL DEFAULT 1.3:::DECIMAL,
| address STRING NULL,
| cust_number INT8 NULL,
| more_names STRING COLLATE en NULL,
| location1 STRING NULL,
| location2 STRING NULL,
| CONSTRAINT bank_pkey PRIMARY KEY (id ASC),
| CONSTRAINT fk_cust_number_ref_customers FOREIGN KEY (cust_number) REFERENCES customers(id),
| UNIQUE INDEX bank_address_key (address ASC),
| FAMILY fam_0_id_balance_payload (id, balance, payload, active, location, currency, interest, address, cust_number, more_names),
| FAMILY f1 (location1, location2)
| )
(1 row)
Add a column and create a new column family if column family does not exist
> ALTER TABLE bank ADD COLUMN new_name STRING CREATE IF NOT EXISTS FAMILY f2;
> SHOW CREATE TABLE bank;
table_name | create_statement
-------------+--------------------------------------------------------------------------------------------------------------------------------------
bank | CREATE TABLE bank (
| id INT8 NOT NULL,
| balance INT8 NULL,
| payload STRING NULL,
| active BOOL NULL,
| location STRING NULL,
| currency STRING NULL,
| interest DECIMAL NOT NULL DEFAULT 1.3:::DECIMAL,
| address STRING NULL,
| cust_number INT8 NULL,
| more_names STRING COLLATE en NULL,
| location1 STRING NULL,
| location2 STRING NULL,
| new_name STRING NULL,
| CONSTRAINT bank_pkey PRIMARY KEY (id ASC),
| CONSTRAINT fk_cust_number_ref_customers FOREIGN KEY (cust_number) REFERENCES customers(id),
| UNIQUE INDEX bank_address_key (address ASC),
| FAMILY fam_0_id_balance_payload (id, balance, payload, active, location, currency, interest, address, cust_number, more_names),
| FAMILY f1 (location1, location2),
| FAMILY f2 (new_name)
| )
(1 row)
Move a column from one column family to another
Moving frequently updated columns to their own column family can increase performance.
To move a column from one column family to another column family, create a temporary, non-visible stored computed column in the target column family, then rename the columns. Once this succeeds, you can drop the original, now renamed column.
For example, to move the new_name
column from f2
to f1
:
Create a temporary computed column in the target column family of the same data type as the column you want to move:
ALTER TABLE bank ADD COLUMN newer_name STRING FAMILY f1 NOT VISIBLE AS (new_name) STORED;
This causes
newer_name
to have the same values asnew_name
.Rename the columns:
ALTER TABLE bank ALTER COLUMN newer_name DROP STORED, ALTER COLUMN newer_name SET VISIBLE, RENAME COLUMN new_name TO old_name, RENAME COLUMN newer_name TO new_name, ALTER COLUMN old_name SET NOT VISIBLE;
Drop the old column:
SET sql_safe_updates = false; ALTER TABLE bank DROP COLUMN old_name; SET sql_safe_updates = true;
Note:You must set the
sql_safe_updates
session variable tofalse
to drop a column in a table that has data.
Moving a column to another column family executes writes to the underlying storage equal to two times the number of rows. For example, if the table has 10 million rows, there will be 20 million writes to the storage layer: 10 million writes when creating the temporary stored computed column, and 10 million writes when removing the original column.
Add a column with an ON UPDATE
expression
ON UPDATE
expressions set the value for a column when other values in a row are updated.
For example, suppose you add a new column to the bank
table:
> ALTER TABLE bank ADD COLUMN last_updated TIMESTAMPTZ DEFAULT now() ON UPDATE now();
> SELECT id, balance, last_updated FROM bank LIMIT 5;
id | balance | last_updated
-----+---------+--------------------------------
0 | 0 | 2021-10-21 17:03:41.213557+00
1 | 0 | 2021-10-21 17:03:41.213557+00
2 | 0 | 2021-10-21 17:03:41.213557+00
3 | 0 | 2021-10-21 17:03:41.213557+00
4 | 0 | 2021-10-21 17:03:41.213557+00
(5 rows)
When any value in any row of the bank
table is updated, CockroachDB re-evaluates the ON UPDATE
expression and updates the last_updated
column with the result.
> UPDATE bank SET balance = 500 WHERE id = 0;
> SELECT id, balance, last_updated FROM bank LIMIT 5;
id | balance | last_updated
-----+---------+--------------------------------
0 | 500 | 2021-10-21 17:06:42.211261+00
1 | 0 | 2021-10-21 17:03:41.213557+00
2 | 0 | 2021-10-21 17:03:41.213557+00
3 | 0 | 2021-10-21 17:03:41.213557+00
4 | 0 | 2021-10-21 17:03:41.213557+00
(5 rows)
Add constraints
Setup
To follow along, run cockroach demo
to start a temporary, in-memory cluster with the movr
sample dataset preloaded:
$ cockroach demo
Add the UNIQUE
constraint
Adding the UNIQUE
constraint requires that all of a column's values be distinct from one another (except for NULL
values).
> ALTER TABLE users ADD CONSTRAINT id_name_unique UNIQUE (id, name);
Add the CHECK
constraint
Adding the CHECK
constraint requires that all of a column's values evaluate to TRUE
for a Boolean expression.
> ALTER TABLE rides ADD CONSTRAINT check_revenue_positive CHECK (revenue >= 0);
In the process of adding the constraint CockroachDB will run a background job to validate existing table data. If CockroachDB finds a row that violates the constraint during the validation step, the ADD CONSTRAINT
statement will fail.
Add constraints to columns created during a transaction
You can add check constraints to columns that were created earlier in the transaction. For example:
> BEGIN;
> ALTER TABLE users ADD COLUMN is_owner STRING;
> ALTER TABLE users ADD CONSTRAINT check_is_owner CHECK (is_owner IN ('yes', 'no', 'unknown'));
> COMMIT;
BEGIN
ALTER TABLE
ALTER TABLE
COMMIT
The entire transaction will be rolled back, including any new columns that were added, in the following cases:
- If an existing column is found containing values that violate the new constraint.
- If a new column has a default value or is a computed column that would have contained values that violate the new constraint.
Add the foreign key constraint with CASCADE
To add a foreign key constraint, use the following steps.
Given two tables, users
and vehicles
, without foreign key constraints:
> SHOW CREATE users;
table_name | create_statement
-------------+--------------------------------------------------------------
users | CREATE TABLE users (
| id UUID NOT NULL,
| city VARCHAR NOT NULL,
| name VARCHAR NULL,
| address VARCHAR NULL,
| credit_card VARCHAR NULL,
| CONSTRAINT users_pkey PRIMARY KEY (city ASC, id ASC)
| )
(1 row)
> SHOW CREATE vehicles;
table_name | create_statement
-------------+------------------------------------------------------------------------------------------------
vehicles | CREATE TABLE vehicles (
| id UUID NOT NULL,
| city VARCHAR NOT NULL,
| type VARCHAR NULL,
| owner_id UUID NULL,
| creation_time TIMESTAMP NULL,
| status VARCHAR NULL,
| current_location VARCHAR NULL,
| ext JSONB NULL,
| CONSTRAINT vehicles_pkey PRIMARY KEY (city ASC, id ASC),
| )
(1 row)
You can include a foreign key action to specify what happens when a foreign key is updated or deleted.
Using ON DELETE CASCADE
will ensure that when the referenced row is deleted, all dependent objects are also deleted.
CASCADE
does not list the objects it drops or updates, so it should be used with caution.
> ALTER TABLE vehicles ADD CONSTRAINT users_fk FOREIGN KEY (city, owner_id) REFERENCES users (city, id) ON DELETE CASCADE;
For an example of validating this constraint, see Validate a constraint.
By default, referenced columns must be in the same database as the referencing foreign key column. To enable cross-database foreign key references, set the sql.cross_db_fks.enabled
cluster setting to true
.
Drop and add a primary key constraint
Suppose that you want to add name
to the composite primary key of the users
table, without creating a secondary index of the existing primary key.
> SHOW CREATE TABLE users;
table_name | create_statement
-------------+--------------------------------------------------------------
users | CREATE TABLE users (
| id UUID NOT NULL,
| city VARCHAR NOT NULL,
| name VARCHAR NULL,
| address VARCHAR NULL,
| credit_card VARCHAR NULL,
| CONSTRAINT users_pkey PRIMARY KEY (city ASC, id ASC)
| )
(1 row)
Add a
NOT NULL
constraint to thename
column withALTER COLUMN
.> ALTER TABLE users ALTER COLUMN name SET NOT NULL;
In the same transaction,
DROP
the old"primary"
constraint andADD
the new one:> BEGIN; > ALTER TABLE users DROP CONSTRAINT "primary"; > ALTER TABLE users ADD CONSTRAINT "primary" PRIMARY KEY (city, name, id); > COMMIT;
NOTICE: primary key changes are finalized asynchronously; further schema changes on this table may be restricted until the job completes
View the table structure:
> SHOW CREATE TABLE users;
table_name | create_statement -------------+--------------------------------------------------------------------- users | CREATE TABLE users ( | id UUID NOT NULL, | city VARCHAR NOT NULL, | name VARCHAR NOT NULL, | address VARCHAR NULL, | credit_card VARCHAR NULL, | CONSTRAINT "primary" PRIMARY KEY (city ASC, name ASC, id ASC), | FAMILY "primary" (id, city, name, address, credit_card) | ) (1 row)
Using ALTER PRIMARY KEY
would have created a UNIQUE
secondary index called users_city_id_key
. Instead, there is just one index for the primary key constraint.
Add a unique index to a REGIONAL BY ROW
table
In multi-region deployments, most users should use REGIONAL BY ROW
tables instead of explicit index partitioning. When you add an index to a REGIONAL BY ROW
table, it is automatically partitioned on the crdb_region
column. Explicit index partitioning is not required.
While CockroachDB process an ADD REGION
or DROP REGION
statement on a particular database, creating or modifying an index will throw an error. Similarly, all ADD REGION
and DROP REGION
statements will be blocked while an index is being modified on a REGIONAL BY ROW
table within the same database.
This example assumes you have a simulated multi-region database running on your local machine following the steps described in Low Latency Reads and Writes in a Multi-Region Cluster. It shows how a UNIQUE
index is partitioned, but it's similar to how all indexes are partitioned on REGIONAL BY ROW
tables.
To show how the automatic partitioning of indexes on REGIONAL BY ROW
tables works, we will:
- Add a column to the
users
table in the MovR dataset. - Add a
UNIQUE
constraint to that column. - Verify that the index is automatically partitioned for better multi-region performance by using
SHOW INDEXES
andSHOW PARTITIONS
.
First, add a column and its unique constraint. We'll use email
since that is something that should be unique per user.
ALTER TABLE users ADD COLUMN email STRING;
ALTER TABLE users ADD CONSTRAINT user_email_unique UNIQUE (email);
Next, issue the SHOW INDEXES
statement. You will see that the implicit region column that was added when the table was converted to regional by row is now indexed:
SHOW INDEXES FROM users;
table_name | index_name | non_unique | seq_in_index | column_name | direction | storing | implicit| visible
-------------+-------------------+------------+--------------+-------------+-----------+---------+---------+--------
users | users_pkey | f | 1 | region | ASC | f | t | t
users | users_pkey | f | 2 | id | ASC | f | f | t
users | users_pkey | f | 3 | city | N/A | t | f | t
users | users_pkey | f | 4 | name | N/A | t | f | t
users | users_pkey | f | 5 | address | N/A | t | f | t
users | users_pkey | f | 6 | credit_card | N/A | t | f | t
users | users_pkey | f | 7 | email | N/A | t | f | t
users | user_email_unique | f | 1 | region | ASC | f | t | t
users | user_email_unique | f | 2 | email | ASC | f | f | t
users | user_email_unique | f | 3 | id | ASC | f | t | t
users | users_city_idx | t | 1 | region | ASC | f | t | t
users | users_city_idx | t | 2 | city | ASC | f | f | t
users | users_city_idx | t | 3 | id | ASC | f | t | t
(13 rows)
Next, issue the SHOW PARTITIONS
statement. The following output (which is edited for length) will verify that the unique index was automatically partitioned for you. It shows that the user_email_unique
index is now partitioned by the database regions europe-west1
, us-east1
, and us-west1
.
SHOW PARTITIONS FROM TABLE users;
database_name | table_name | partition_name | column_names | index_name | partition_value | ...
----------------+------------+----------------+--------------+-------------------------+------------------+-----
movr | users | europe-west1 | region | users@user_email_unique | ('europe-west1') | ...
movr | users | us-east1 | region | users@user_email_unique | ('us-east1') | ...
movr | users | us-west1 | region | users@user_email_unique | ('us-west1') | ...
To ensure that the uniqueness constraint is enforced properly across regions when rows are inserted, or the email
column of an existing row is updated, the database needs to do the following additional work when indexes are partitioned:
- Run a one-time-only validation query to ensure that the existing data in the table satisfies the unique constraint.
- Thereafter, the optimizer will automatically add a "uniqueness check" when necessary to any
INSERT
,UPDATE
, orUPSERT
statement affecting the columns in the unique constraint.
Note that the SQL engine will avoid sending requests to nodes in other regions when it can instead read a value from a unique column that is stored locally. This capability is known as locality optimized search.
Using DEFAULT gen_random_uuid()
in REGIONAL BY ROW
tables
To auto-generate unique row identifiers in REGIONAL BY ROW
tables, use the UUID
column with the gen_random_uuid()
function as the default value:
> CREATE TABLE users (
id UUID NOT NULL DEFAULT gen_random_uuid(),
city STRING NOT NULL,
name STRING NULL,
address STRING NULL,
credit_card STRING NULL,
CONSTRAINT users_pkey PRIMARY KEY (city ASC, id ASC)
);
> INSERT INTO users (name, city) VALUES ('Petee', 'new york'), ('Eric', 'seattle'), ('Dan', 'seattle');
> SELECT * FROM users;
id | city | name | address | credit_card
+--------------------------------------+----------+-------+---------+-------------+
cf8ee4e2-cd74-449a-b6e6-a0fb2017baa4 | new york | Petee | NULL | NULL
2382564e-702f-42d9-a139-b6df535ae00a | seattle | Eric | NULL | NULL
7d27e40b-263a-4891-b29b-d59135e55650 | seattle | Dan | NULL | NULL
(3 rows)
When using DEFAULT gen_random_uuid()
on columns in REGIONAL BY ROW
tables, uniqueness checks on those columns are disabled by default for performance purposes. CockroachDB assumes uniqueness based on the way this column generates UUIDs
. To enable this check, you can modify the sql.optimizer.uniqueness_checks_for_gen_random_uuid.enabled
cluster setting. Note that while there is virtually no chance of a collision occurring when enabling this setting, it is not truly zero.
Using implicit vs. explicit index partitioning in REGIONAL BY ROW
tables
In REGIONAL BY ROW
tables, all indexes are partitioned on the region column (usually called crdb_region
).
These indexes can either include or exclude the partitioning key (crdb_region
) as the first column in the index definition:
- If
crdb_region
is included in the index definition, aUNIQUE
index will enforce uniqueness on the set of columns, just like it would in a non-partitioned table. - If
crdb_region
is excluded from the index definition, that serves as a signal that CockroachDB should enforce uniqueness on only the columns in the index definition.
In the latter case, the index alone cannot enforce uniqueness on columns that are not a prefix of the index columns, so any time rows are inserted or updated in a REGIONAL BY ROW
table that has an implicitly partitioned UNIQUE
index, the optimizer must add uniqueness checks.
Whether or not to explicitly include crdb_region
in the index definition depends on the context:
- If you only need to enforce uniqueness at the region level, then including
crdb_region
in theUNIQUE
index definition will enforce these semantics and allow you to get better performance onINSERT
s,UPDATE
s, andUPSERT
s, since there will not be any added latency from uniqueness checks. - If you need to enforce global uniqueness, you should not include
crdb_region
in theUNIQUE
(orPRIMARY KEY
) index definition, and the database will automatically ensure that the constraint is enforced.
To illustrate the different behavior of explicitly vs. implicitly partitioned indexes, we will perform the following tasks:
- Create a schema that includes an explicitly partitioned index, and an implicitly partitioned index.
- Check the output of several queries using
EXPLAIN
to show the differences in behavior between the two.
Start
cockroach demo
as follows:cockroach demo --geo-partitioned-replicas
Create a multi-region database and an
employees
table. There are three indexes in the table, allUNIQUE
and all partitioned by thecrdb_region
column. The table schema guarantees that bothid
andemail
are globally unique, whiledesk_id
is only unique per region. The indexes onid
andemail
are implicitly partitioned, while the index on(crdb_region, desk_id)
is explicitly partitioned.UNIQUE
indexes can only directly enforce uniqueness on all columns in the index, including partitioning columns, so each of these indexes enforce uniqueness forid
,email
, anddesk_id
per region, respectively.CREATE DATABASE multi_region_test_db PRIMARY REGION "europe-west1" REGIONS "us-west1", "us-east1";
USE multi_region_test_db;
CREATE TABLE employee ( id INT PRIMARY KEY, email STRING UNIQUE, desk_id INT, UNIQUE (crdb_region, desk_id) ) LOCALITY REGIONAL BY ROW;
In the following statement, we add a new user with the required
id
,email
, anddesk_id
columns. CockroachDB needs to do additional work to enforce global uniqueness for theid
andemail
columns, which are implicitly partitioned. This additional work is in the form of "uniqueness checks" that the optimizer adds as part of mutation queries.EXPLAIN INSERT INTO employee VALUES (1, 'joe@example.com', 1);
The following
EXPLAIN
output shows that the optimizer has added twoconstraint-check
post queries to check the uniqueness of the implicitly partitioned indexesid
andemail
. There is no check needed fordesk_id
(really(crdb_region, desk_id)
), since that constraint is automatically enforced by the explicitly partitioned index we added in the precedingCREATE TABLE
statement.info -------------------------------------------------------------------------------------- distribution: local vectorized: true • root │ ├── • insert │ │ into: employee(id, email, desk_id, crdb_region) │ │ │ └── • buffer │ │ label: buffer 1 │ │ │ └── • values │ size: 5 columns, 1 row │ ├── • constraint-check │ │ │ └── • error if rows │ │ │ └── • lookup join (semi) │ │ table: employee@primary │ │ equality: (lookup_join_const_col_@15, column1) = (crdb_region,id) │ │ equality cols are key │ │ pred: column10 != crdb_region │ │ │ └── • cross join │ │ estimated row count: 3 │ │ │ ├── • values │ │ size: 1 column, 3 rows │ │ │ └── • scan buffer │ label: buffer 1 │ └── • constraint-check │ └── • error if rows │ └── • lookup join (semi) │ table: employee@employee_email_key │ equality: (lookup_join_const_col_@25, column2) = (crdb_region,email) │ equality cols are key │ pred: (column1 != id) OR (column10 != crdb_region) │ └── • cross join │ estimated row count: 3 │ ├── • values │ size: 1 column, 3 rows │ └── • scan buffer label: buffer 1
The following statement updates the user's
email
column. Because the unique index on theemail
column is implicitly partitioned, the optimizer must perform a uniqueness check.EXPLAIN UPDATE employee SET email = 'joe1@example.com' WHERE id = 1;
In the following
EXPLAIN
output, the optimizer performs a uniqueness check foremail
since we're not updating any other columns (see theconstraint-check
section).info -------------------------------------------------------------------------------------------------------- distribution: local vectorized: true • root │ ├── • update │ │ table: employee │ │ set: email │ │ │ └── • buffer │ │ label: buffer 1 │ │ │ └── • render │ │ estimated row count: 1 │ │ │ └── • union all │ │ estimated row count: 1 │ │ limit: 1 │ │ │ ├── • scan │ │ estimated row count: 1 (100% of the table; stats collected 1 minute ago) │ │ table: employee@primary │ │ spans: [/'us-east1'/1 - /'us-east1'/1] │ │ │ └── • scan │ estimated row count: 1 (100% of the table; stats collected 1 minute ago) │ table: employee@primary │ spans: [/'europe-west1'/1 - /'europe-west1'/1] [/'us-west1'/1 - /'us-west1'/1] │ └── • constraint-check │ └── • error if rows │ └── • lookup join (semi) │ table: employee@employee_email_key │ equality: (lookup_join_const_col_@18, email_new) = (crdb_region,email) │ equality cols are key │ pred: (id != id) OR (crdb_region != crdb_region) │ └── • cross join │ estimated row count: 3 │ ├── • values │ size: 1 column, 3 rows │ └── • scan buffer label: buffer 1
If we only update the user's
desk_id
, no uniqueness checks are needed, since the index on that column is explicitly partitioned (it's really(crdb_region, desk_id)
).EXPLAIN UPDATE employee SET desk_id = 2 WHERE id = 1;
Because no uniqueness check is needed, there is no
constraint-check
section in theEXPLAIN
output.info ------------------------------------------------------------------------------------------------ distribution: local vectorized: true • update │ table: employee │ set: desk_id │ auto commit │ └── • render │ estimated row count: 1 │ └── • union all │ estimated row count: 1 │ limit: 1 │ ├── • scan │ estimated row count: 1 (100% of the table; stats collected 2 minutes ago) │ table: employee@primary │ spans: [/'us-east1'/1 - /'us-east1'/1] │ └── • scan estimated row count: 1 (100% of the table; stats collected 2 minutes ago) table: employee@primary spans: [/'europe-west1'/1 - /'europe-west1'/1] [/'us-west1'/1 - /'us-west1'/1]
Alter columns
Set or change a DEFAULT
value
Setting the DEFAULT
value constraint inserts the value when data's written to the table without explicitly defining the value for the column. If the column already has a DEFAULT
value set, you can use this statement to change it.
The following example inserts the Boolean value true
whenever you inserted data to the subscriptions
table without defining a value for the newsletter
column.
> ALTER TABLE subscriptions ALTER COLUMN newsletter SET DEFAULT true;
Remove DEFAULT
constraint
If the column has a defined DEFAULT
value, you can remove the constraint, which means the column will no longer insert a value by default if one is not explicitly defined for the column.
> ALTER TABLE subscriptions ALTER COLUMN newsletter DROP DEFAULT;
Set NOT NULL
constraint
To specify that the column cannot contain NULL
values, set the NOT NULL
constraint.
> ALTER TABLE subscriptions ALTER COLUMN newsletter SET NOT NULL;
Remove NOT NULL
constraint
If the column has the NOT NULL
constraint applied to it, you can remove the constraint, which means the column becomes optional and can have NULL
values written into it.
> ALTER TABLE subscriptions ALTER COLUMN newsletter DROP NOT NULL;
Convert a computed column into a regular column
You can convert a stored, computed column into a regular column by using ALTER TABLE
.
In this example, create a simple table with a computed column:
> CREATE TABLE office_dogs (
id INT PRIMARY KEY,
first_name STRING,
last_name STRING,
full_name STRING AS (CONCAT(first_name, ' ', last_name)) STORED
);
Then, insert a few rows of data:
> INSERT INTO office_dogs (id, first_name, last_name) VALUES
(1, 'Petee', 'Hirata'),
(2, 'Carl', 'Kimball'),
(3, 'Ernie', 'Narayan');
> SELECT * FROM office_dogs;
+----+------------+-----------+---------------+
| id | first_name | last_name | full_name |
+----+------------+-----------+---------------+
| 1 | Petee | Hirata | Petee Hirata |
| 2 | Carl | Kimball | Carl Kimball |
| 3 | Ernie | Narayan | Ernie Narayan |
+----+------------+-----------+---------------+
(3 rows)
The full_name
column is computed from the first_name
and last_name
columns without the need to define a view. You can view the column details with the SHOW COLUMNS
statement:
> SHOW COLUMNS FROM office_dogs;
+-------------+-----------+-------------+----------------+------------------------------------+-------------+
| column_name | data_type | is_nullable | column_default | generation_expression | indices |
+-------------+-----------+-------------+----------------+------------------------------------+-------------+
| id | INT | false | NULL | | {"primary"} |
| first_name | STRING | true | NULL | | {} |
| last_name | STRING | true | NULL | | {} |
| full_name | STRING | true | NULL | concat(first_name, ' ', last_name) | {} |
+-------------+-----------+-------------+----------------+------------------------------------+-------------+
(4 rows)
Now, convert the computed column (full_name
) to a regular column:
> ALTER TABLE office_dogs ALTER COLUMN full_name DROP STORED;
Check that the computed column was converted:
> SHOW COLUMNS FROM office_dogs;
+-------------+-----------+-------------+----------------+-----------------------+-------------+
| column_name | data_type | is_nullable | column_default | generation_expression | indices |
+-------------+-----------+-------------+----------------+-----------------------+-------------+
| id | INT | false | NULL | | {"primary"} |
| first_name | STRING | true | NULL | | {} |
| last_name | STRING | true | NULL | | {} |
| full_name | STRING | true | NULL | | {} |
+-------------+-----------+-------------+----------------+-----------------------+-------------+
(4 rows)
The computed column is now a regular column and can be updated as such:
> INSERT INTO office_dogs (id, first_name, last_name, full_name) VALUES (4, 'Lola', 'McDog', 'This is not computed');
> SELECT * FROM office_dogs;
+----+------------+-----------+----------------------+
| id | first_name | last_name | full_name |
+----+------------+-----------+----------------------+
| 1 | Petee | Hirata | Petee Hirata |
| 2 | Carl | Kimball | Carl Kimball |
| 3 | Ernie | Narayan | Ernie Narayan |
| 4 | Lola | McDog | This is not computed |
+----+------------+-----------+----------------------+
(4 rows)
Alter the formula for a computed column
To alter the formula for a computed column, you must DROP
and ADD
the column back with the new definition. Take the following table for instance:
> CREATE TABLE x (
a INT NULL,
b INT NULL AS (a * 2) STORED,
c INT NULL AS (a + 4) STORED,
FAMILY "primary" (a, b, rowid, c)
);
CREATE TABLE
Time: 4ms total (execution 4ms / network 0ms)
Add a computed column d
:
> ALTER TABLE x ADD COLUMN d INT AS (a // 2) STORED;
ALTER TABLE
Time: 199ms total (execution 199ms / network 0ms)
If you try to alter it, you'll get an error:
> ALTER TABLE x ALTER COLUMN d INT AS (a // 3) STORED;
invalid syntax: statement ignored: at or near "int": syntax error
SQLSTATE: 42601
DETAIL: source SQL:
ALTER TABLE x ALTER COLUMN d INT AS (a // 3) STORED
^
HINT: try \h ALTER TABLE
However, you can drop it and then add it with the new definition:
> SET sql_safe_updates = false;
> ALTER TABLE x DROP COLUMN d;
> ALTER TABLE x ADD COLUMN d INT AS (a // 3) STORED;
> SET sql_safe_updates = true;
SET
Time: 1ms total (execution 0ms / network 0ms)
ALTER TABLE
Time: 195ms total (execution 195ms / network 0ms)
ALTER TABLE
Time: 186ms total (execution 185ms / network 0ms)
SET
Time: 0ms total (execution 0ms / network 0ms)
Convert to a different data type
The TPC-C database has a customer
table with a column c_credit_lim
of type DECIMAL(10,2)
:
> WITH x AS (SHOW COLUMNS FROM customer) SELECT column_name, data_type FROM x WHERE column_name='c_credit_lim';
column_name | data_type
---------------+----------------
c_credit_lim | DECIMAL(10,2)
(1 row)
To change the data type from DECIMAL
to STRING
:
Set the
enable_experimental_alter_column_type_general
session variable totrue
:> SET enable_experimental_alter_column_type_general = true;
Alter the column type:
> ALTER TABLE customer ALTER c_credit_lim TYPE STRING;
NOTICE: ALTER COLUMN TYPE changes are finalized asynchronously; further schema changes on this table may be restricted until the job completes; some writes to the altered column may be rejected until the schema change is finalized
Verify the type:
> WITH x AS (SHOW COLUMNS FROM customer) SELECT column_name, data_type FROM x WHERE column_name='c_credit_lim';
column_name | data_type ---------------+------------ c_credit_lim | STRING (1 row)
Change a column type's precision
The TPC-C customer
table contains a column c_balance
of type DECIMAL(12,2)
:
> WITH x AS (SHOW COLUMNS FROM customer) SELECT column_name, data_type FROM x WHERE column_name='c_balance';
column_name | data_type
--------------+----------------
c_balance | DECIMAL(12,2)
(1 row)
To increase the precision of the c_balance
column from DECIMAL(12,2)
to DECIMAL(14,2)
:
> ALTER TABLE customer ALTER c_balance TYPE DECIMAL(14,2);
> WITH x AS (SHOW COLUMNS FROM customer) SELECT column_name, data_type FROM x WHERE column_name='c_balance';
column_name | data_type
--------------+----------------
c_balance | DECIMAL(14,2)
(1 row)
Change a column's type using an expression
You can change the data type of a column and create a new, computed value from the old column values, with a USING
clause. For example:
> WITH x AS (SHOW COLUMNS FROM customer) SELECT column_name, data_type FROM x WHERE column_name='c_discount';
column_name | data_type
--------------+---------------
c_discount | DECIMAL(4,4)
(1 row)
> SELECT c_discount FROM customer LIMIT 10;
c_discount
--------------
0.1569
0.4629
0.2932
0.0518
0.3922
0.1106
0.0622
0.4916
0.3072
0.0316
(10 rows)
> ALTER TABLE customer ALTER c_discount TYPE STRING USING ((c_discount*100)::DECIMAL(4,2)::STRING || ' percent');
NOTICE: ALTER COLUMN TYPE changes are finalized asynchronously; further schema changes on this table may be restricted until the job completes; some writes to the altered column may be rejected until the schema change is finalized
> WITH x AS (SHOW COLUMNS FROM customer) SELECT column_name, data_type FROM x WHERE column_name='c_discount';
column_name | data_type
--------------+------------
c_discount | STRING
(1 row)
> SELECT c_discount FROM customer LIMIT 10;
c_discount
-----------------
15.69 percent
46.29 percent
29.32 percent
5.18 percent
39.22 percent
11.06 percent
6.22 percent
49.16 percent
30.72 percent
3.16 percent
(10 rows)
Set the visibility of a column
To specify that a column won't be returned when using *
in a SELECT
clause, set the NOT VISIBLE
property. You can set the NOT VISIBLE
property only on individual columns.
For example, the users
table of the movr
database contains the credit_card
column. If you don't want users to see that column when running SELECT * FROM users;
, you can hide it as follows:
> ALTER TABLE users ALTER COLUMN credit_card SET NOT VISIBLE;
When you run SELECT *
, the column does not appear:
> SELECT * FROM users WHERE city = 'rome';
id | city | name | address
---------------------------------------+------+-------------------+--------------------------------
e6666666-6666-4800-8000-00000000002d | rome | Misty Adams | 82289 Natasha River Suite 12
eb851eb8-51eb-4800-8000-00000000002e | rome | Susan Morse | 49364 Melissa Squares Suite 4
f0a3d70a-3d70-4000-8000-00000000002f | rome | Victoria Jennings | 31562 Krista Squares Suite 62
f5c28f5c-28f5-4000-8000-000000000030 | rome | Eric Perez | 57624 Kelly Forks
fae147ae-147a-4000-8000-000000000031 | rome | Richard Bullock | 21194 Alexander Estate
(5 rows)
The column is still selectable if you name it directly in the target_elem
parameter:
> SELECT id, credit_card FROM users WHERE city = 'rome';
id | credit_card
---------------------------------------+--------------
e6666666-6666-4800-8000-00000000002d | 4418943046
eb851eb8-51eb-4800-8000-00000000002e | 0655485426
f0a3d70a-3d70-4000-8000-00000000002f | 2232698265
f5c28f5c-28f5-4000-8000-000000000030 | 2620636730
fae147ae-147a-4000-8000-000000000031 | 2642076323
(5 rows)
To unhide the column, run:
> ALTER TABLE users ALTER COLUMN credit_card SET VISIBLE;
> SELECT * from user WHERE city = 'rome';
id | city | name | address | credit_card
---------------------------------------+------+-------------------+-------------------------------+--------------
e6666666-6666-4800-8000-00000000002d | rome | Misty Adams | 82289 Natasha River Suite 12 | 4418943046
eb851eb8-51eb-4800-8000-00000000002e | rome | Susan Morse | 49364 Melissa Squares Suite 4 | 0655485426
f0a3d70a-3d70-4000-8000-00000000002f | rome | Victoria Jennings | 31562 Krista Squares Suite 62 | 2232698265
f5c28f5c-28f5-4000-8000-000000000030 | rome | Eric Perez | 57624 Kelly Forks | 2620636730
fae147ae-147a-4000-8000-000000000031 | rome | Richard Bullock | 21194 Alexander Estate | 2642076323
(5 rows)
Alter a primary key
Demo
Alter a single-column primary key
Suppose that you are storing the data for users of your application in a table called users
, defined by the following CREATE TABLE
statement:
> CREATE TABLE users (
name STRING PRIMARY KEY,
email STRING
);
The primary key of this table is on the name
column. This is a poor choice, as some users likely have the same name, and all primary keys enforce a UNIQUE
constraint on row values of the primary key column. Per our best practices, you should instead use a UUID
for single-column primary keys, and populate the rows of the table with generated, unique values.
You can add a column and change the primary key with a couple of ALTER TABLE
statements:
> ALTER TABLE users ADD COLUMN id UUID NOT NULL DEFAULT gen_random_uuid();
> ALTER TABLE users ALTER PRIMARY KEY USING COLUMNS (id);
> SHOW CREATE TABLE users;
table_name | create_statement
-------------+--------------------------------------------------
users | CREATE TABLE users (
| name STRING NOT NULL,
| email STRING NULL,
| id UUID NOT NULL DEFAULT gen_random_uuid(),
| CONSTRAINT users_pkey PRIMARY KEY (id ASC),
| UNIQUE INDEX users_name_key (name ASC)
| )
(1 row)
Alter an existing primary key to use hash sharding
Let's assume the events
table already exists:
> CREATE TABLE events (
product_id INT8,
owner UUID,
serial_number VARCHAR,
event_id UUID,
ts TIMESTAMP,
data JSONB,
PRIMARY KEY (product_id, owner, serial_number, ts, event_id),
INDEX (ts) USING HASH
);
You can change an existing primary key to use hash sharding by adding the USING HASH
clause at the end of the key definition:
> ALTER TABLE events ALTER PRIMARY KEY USING COLUMNS (product_id, owner, serial_number, ts, event_id) USING HASH;
> SHOW INDEX FROM events;
table_name | index_name | non_unique | seq_in_index | column_name | direction | storing | implicit
-------------+---------------+------------+--------------+-------------------------------------------------------------------+-----------+---------+-----------
events | events_pkey | false | 1 | crdb_internal_event_id_owner_product_id_serial_number_ts_shard_16 | ASC | false | true
events | events_pkey | false | 2 | product_id | ASC | false | false
events | events_pkey | false | 3 | owner | ASC | false | false
events | events_pkey | false | 4 | serial_number | ASC | false | false
events | events_pkey | false | 5 | ts | ASC | false | false
events | events_pkey | false | 6 | event_id | ASC | false | false
events | events_pkey | false | 7 | data | N/A | true | false
events | events_ts_idx | true | 1 | crdb_internal_ts_shard_16 | ASC | false | true
events | events_ts_idx | true | 2 | ts | ASC | false | false
events | events_ts_idx | true | 3 | crdb_internal_event_id_owner_product_id_serial_number_ts_shard_16 | ASC | false | true
events | events_ts_idx | true | 4 | product_id | ASC | false | true
events | events_ts_idx | true | 5 | owner | ASC | false | true
events | events_ts_idx | true | 6 | serial_number | ASC | false | true
events | events_ts_idx | true | 7 | event_id | ASC | false | true
(14 rows)
> SHOW COLUMNS FROM events;
column_name | data_type | is_nullable | column_default | generation_expression | indices | is_hidden
--------------------------------------------------------------------+-----------+-------------+----------------+-----------------------------------------------------------------------------------------------+-----------------------------+------------
product_id | INT8 | false | NULL | | {events_pkey,events_ts_idx} | false
owner | UUID | false | NULL | | {events_pkey,events_ts_idx} | false
serial_number | VARCHAR | false | NULL | | {events_pkey,events_ts_idx} | false
event_id | UUID | false | NULL | | {events_pkey,events_ts_idx} | false
ts | TIMESTAMP | false | NULL | | {events_pkey,events_ts_idx} | false
data | JSONB | true | NULL | | {events_pkey} | false
crdb_internal_ts_shard_16 | INT8 | false | NULL | mod(fnv32(crdb_internal.datums_to_bytes(ts)), 16) | {events_ts_idx} | true
crdb_internal_event_id_owner_product_id_serial_number_ts_shard_16 | INT8 | false | NULL | mod(fnv32(crdb_internal.datums_to_bytes(event_id, owner, product_id, serial_number, ts)), 16) | {events_pkey,events_ts_idx} | true
(8 rows)
Note that the old primary key index becomes a secondary index, in this case, users_name_key
. If you do not want the old primary key to become a secondary index when changing a primary key, you can use DROP CONSTRAINT
/ADD CONSTRAINT
instead.
Configure replication zones
Setup
The following examples use MovR, a fictional vehicle-sharing application, to demonstrate CockroachDB SQL statements. For more information about the MovR example application and dataset, see MovR: A Global Vehicle-sharing App.
To follow along, run cockroach demo
with the --geo-partitioned-replicas
flag. This command opens an interactive SQL shell to a temporary, 9-node in-memory cluster with the movr
database.
$ cockroach demo --geo-partitioned-replicas
Create a replication zone for a table
To control replication for a specific table, use the ALTER TABLE ... CONFIGURE ZONE
statement to define the relevant values (other values will be inherited from the parent zone):
> ALTER TABLE users CONFIGURE ZONE USING num_replicas = 5, gc.ttlseconds = 100000;
CONFIGURE ZONE 1
> SHOW ZONE CONFIGURATION FROM TABLE users;
target | raw_config_sql
--------------+-----------------------------------------
TABLE users | ALTER TABLE users CONFIGURE ZONE USING
| range_min_bytes = 134217728,
| range_max_bytes = 536870912,
| gc.ttlseconds = 100000,
| num_replicas = 5,
| constraints = '[]',
| lease_preferences = '[]'
(1 row)
Edit a replication zone
> ALTER TABLE users CONFIGURE ZONE USING range_min_bytes = 0, range_max_bytes = 90000, gc.ttlseconds = 89999, num_replicas = 4;
CONFIGURE ZONE 1
Reset a replication zone
> ALTER TABLE t CONFIGURE ZONE USING DEFAULT;
CONFIGURE ZONE 1
Remove a replication zone
When you discard a zone configuration, the objects it was applied to will then inherit a configuration from an object "the next level up"; e.g., if the object whose configuration is being discarded is a table, it will use its parent database's configuration.
You cannot DISCARD
any zone configurations on multi-region tables, indexes, or partitions if the multi-region abstractions created the zone configuration.
> ALTER TABLE t CONFIGURE ZONE DISCARD;
CONFIGURE ZONE 1
Drop columns
Setup
To follow along, run cockroach demo
to start a temporary, in-memory cluster with the movr
sample dataset preloaded:
$ cockroach demo
Drop a column
If you no longer want a column in a table, you can drop it.
> SHOW COLUMNS FROM users;
column_name | data_type | is_nullable | column_default | generation_expression | indices | is_hidden
--------------+-----------+-------------+----------------+-----------------------+-----------+------------
id | UUID | false | NULL | | {primary} | false
city | VARCHAR | false | NULL | | {primary} | false
name | VARCHAR | true | NULL | | {primary} | false
address | VARCHAR | true | NULL | | {primary} | false
credit_card | VARCHAR | true | NULL | | {primary} | false
(5 rows)
If there is data in the table, the sql_safe_updates
session variable must be set to false
.
> ALTER TABLE users DROP COLUMN credit_card;
ERROR: rejected (sql_safe_updates = true): ALTER TABLE DROP COLUMN will remove all data in that column
SQLSTATE: 01000
> SET sql_safe_updates = false;
> ALTER TABLE users DROP COLUMN credit_card;
> SHOW COLUMNS FROM users;
column_name | data_type | is_nullable | column_default | generation_expression | indices | is_hidden
--------------+-----------+-------------+----------------+-----------------------+-----------+------------
id | UUID | false | NULL | | {primary} | false
city | VARCHAR | false | NULL | | {primary} | false
name | VARCHAR | true | NULL | | {primary} | false
address | VARCHAR | true | NULL | | {primary} | false
(4 rows)
Prevent dropping columns with dependent objects (RESTRICT
)
If the column has dependent objects, such as views, CockroachDB will not drop the column by default. However, if you want to be sure of the behavior you can include the RESTRICT
clause.
> CREATE VIEW expensive_rides AS SELECT id, city FROM rides WHERE revenue > 90;
> ALTER TABLE rides DROP COLUMN revenue RESTRICT;
ERROR: cannot drop column "revenue" because view "expensive_rides" depends on it
SQLSTATE: 2BP01
HINT: you can drop expensive_rides instead.
Drop a column and its dependent objects (CASCADE
)
If you want to drop the column and all of its dependent options, include the CASCADE
clause.
CASCADE
does not list objects it drops, so should be used cautiously.
> SHOW CREATE expensive_rides;
table_name | create_statement
------------------+-------------------------------------------------------------------------------------------------------------
expensive_rides | CREATE VIEW public.expensive_rides (id, city) AS SELECT id, city FROM movr.public.rides WHERE revenue > 90
(1 row)
> ALTER TABLE rides DROP COLUMN revenue CASCADE;
> SHOW CREATE expensive_rides;
ERROR: relation "expensive_rides" does not exist
SQLSTATE: 42P01
Drop an indexed column
DROP COLUMN
drops a column and any indexes on the column being dropped.
> CREATE INDEX start_end_idx ON rides(start_time, end_time);
> WITH x AS (SHOW INDEXES FROM rides) SELECT * FROM x WHERE index_name='start_end_idx';
table_name | index_name | non_unique | seq_in_index | column_name | direction | storing | implicit | visible
-------------+---------------+------------+--------------+-------------+-----------+---------+----------+----------
rides | start_end_idx | t | 1 | start_time | ASC | f | f | t
rides | start_end_idx | t | 2 | end_time | ASC | f | f | t
rides | start_end_idx | t | 3 | city | ASC | f | t | t
rides | start_end_idx | t | 4 | id | ASC | f | t | t
(4 rows)
> ALTER TABLE rides DROP COLUMN start_time;
NOTICE: the data for dropped indexes is reclaimed asynchronously
HINT: The reclamation delay can be customized in the zone configuration for the table.
ALTER TABLE
> WITH x AS (SHOW INDEXES FROM rides) SELECT * FROM x WHERE index_name='start_end_idx';
table_name | index_name | non_unique | seq_in_index | column_name | direction | storing | implicit
-------------+------------+------------+--------------+-------------+-----------+---------+-----------
(0 rows)
Drop constraints
Setup
To follow along, run cockroach demo
to start a temporary, in-memory cluster with the movr
sample dataset preloaded:
$ cockroach demo
Drop a foreign key constraint
> SHOW CONSTRAINTS FROM vehicles;
table_name | constraint_name | constraint_type | details | validated
-------------+-------------------+-----------------+---------------------------------------------------------+------------
vehicles | fk_city_ref_users | FOREIGN KEY | FOREIGN KEY (city, owner_id) REFERENCES users(city, id) | true
vehicles | vehicles_pkey | PRIMARY KEY | PRIMARY KEY (city ASC, id ASC) | true
(2 rows)
> ALTER TABLE vehicles DROP CONSTRAINT fk_city_ref_users;
> SHOW CONSTRAINTS FROM vehicles;
table_name | constraint_name | constraint_type | details | validated
-------------+-----------------+-----------------+--------------------------------+------------
vehicles | vehicles_pkey | PRIMARY KEY | PRIMARY KEY (city ASC, id ASC) | true
(1 row)
Configure audit logging
Turn on audit logging
Let's say you have a customers
table that contains personally identifiable information (PII). To turn on audit logs for that table, run the following command:
ALTER TABLE customers EXPERIMENTAL_AUDIT SET READ WRITE;
Now, every access of customer data is logged to the SENSITIVE_ACCESS
channel in a sensitive_table_access
event that looks like the following:
I210323 18:50:10.951550 1182 8@util/log/event_log.go:32 ⋮ [n1,client=‹[::1]:49851›,hostnossl,user=root] 4 ={"Timestamp":1616525410949087000,"EventType":"sensitive_table_access","Statement":"‹SELECT * FROM \"\".\"\".customers›","User":"‹root›","DescriptorID":52,"ApplicationName":"‹$ cockroach sql›","ExecMode":"exec","NumRows":2,"Age":2.514,"FullTableScan":true,"TxnCounter":38,"TableName":"‹defaultdb.public.customers›","AccessMode":"r"}
The preceding example shows the default crdb-v2
log format. This can be changed to a different format (e.g., JSON). For details, see Configure Logs.
For descriptions of all SQL audit event types and their fields, see Notable Event Types.
To turn on auditing for more than one table, issue a separate ALTER
statement for each table.
For a more detailed example, see SQL Audit Logging.
Turn off audit logging
To turn off logging, issue the following command:
ALTER TABLE customers EXPERIMENTAL_AUDIT SET OFF;
Change table owner
Change a table's owner
Suppose that the current owner of the rides
table is root
and you want to change the owner to a new user named max
.
> ALTER TABLE promo_codes OWNER TO max;
To verify that the owner is now max
, query the pg_catalog.pg_tables
table:
> SELECT tableowner FROM pg_catalog.pg_tables WHERE tablename = 'promo_codes';
tableowner
--------------
max
(1 row)
If the user running the command is not an admin user, they must own the table and be a member of the new owning role. Also, the new owner role must also have the CREATE
privilege on the schema to which the table belongs.
Define partitions
Define a list partition on a table
Suppose we have a table called students_by_list
, and the primary key of the table is defined as (country, id)
. We can define partitions on the table by list:
> ALTER TABLE students_by_list PARTITION BY LIST (country) (
PARTITION north_america VALUES IN ('CA','US'),
PARTITION australia VALUES IN ('AU','NZ'),
PARTITION DEFAULT VALUES IN (default)
);
Define a range partition on a table
Suppose we have a table called students_by_range
, and the primary key of the table is defined as (expected_graduation_date, id)
. We can define partitions on the table by range:
> ALTER TABLE students_by_range PARTITION BY RANGE (expected_graduation_date) (
PARTITION graduated VALUES FROM (MINVALUE) TO ('2017-08-15'),
PARTITION current VALUES FROM ('2017-08-15') TO (MAXVALUE)
);
Define subpartitions on a table
Suppose we have a table named students
, and the primary key is defined as (country, expected_graduation_date, id)
. We can define partitions and subpartitions on the table:
> ALTER TABLE students PARTITION BY LIST (country) (
PARTITION australia VALUES IN ('AU','NZ') PARTITION BY RANGE (expected_graduation_date) (
PARTITION graduated_au VALUES FROM (MINVALUE) TO ('2017-08-15'),
PARTITION current_au VALUES FROM ('2017-08-15') TO (MAXVALUE)
),
PARTITION north_america VALUES IN ('US','CA') PARTITION BY RANGE (expected_graduation_date) (
PARTITION graduated_us VALUES FROM (MINVALUE) TO ('2017-08-15'),
PARTITION current_us VALUES FROM ('2017-08-15') TO (MAXVALUE)
)
);
Repartition a table
> ALTER TABLE students_by_range PARTITION BY RANGE (expected_graduation_date) (
PARTITION graduated VALUES FROM (MINVALUE) TO ('2018-08-15'),
PARTITION current VALUES FROM ('2018-08-15') TO (MAXVALUE)
);
Unpartition a table
> ALTER TABLE students PARTITION BY NOTHING;
Rename columns
Rename a column
> CREATE TABLE users (
id INT PRIMARY KEY,
first_name STRING,
family_name STRING
);
> ALTER TABLE users RENAME COLUMN family_name TO last_name;
table_name | create_statement
+------------+--------------------------------------------------+
users | CREATE TABLE users (
| id INT8 NOT NULL,
| first_name STRING NULL,
| last_name STRING NULL,
| CONSTRAINT "primary" PRIMARY KEY (id ASC),
| FAMILY "primary" (id, first_name, last_name)
| )
(1 row)
Add and rename columns atomically
Some subcommands can be used in combination in a single ALTER TABLE
statement. For example, let's say you create a users
table with 2 columns, an id
column for the primary key and a name
column for each user's last name:
> CREATE TABLE users (
id INT PRIMARY KEY,
name STRING
);
Then you decide you want distinct columns for each user's first name, last name, and full name, so you execute a single ALTER TABLE
statement renaming name
to last_name
, adding first_name
, and adding a computed column called name
that concatenates first_name
and last_name
:
> ALTER TABLE users
RENAME COLUMN name TO last_name,
ADD COLUMN first_name STRING,
ADD COLUMN name STRING
AS (CONCAT(first_name, ' ', last_name)) STORED;
> SHOW CREATE TABLE users;
table_name | create_statement
+------------+----------------------------------------------------------------------+
users | CREATE TABLE users (
| id INT8 NOT NULL,
| last_name STRING NULL,
| first_name STRING NULL,
| name STRING NULL AS (concat(first_name, ' ', last_name)) STORED,
| CONSTRAINT "primary" PRIMARY KEY (id ASC),
| FAMILY "primary" (id, last_name, first_name, name)
| )
(1 row)
Rename constraints
Rename a constraint
> CREATE TABLE logon (
login_id INT PRIMARY KEY,
customer_id INT NOT NULL,
sales_id INT,
UNIQUE (customer_id, sales_id)
);
> SHOW CONSTRAINTS FROM logon;
table_name | constraint_name | constraint_type | details | validated
+------------+--------------------------------+-----------------+----------------------------------------+-----------+
logon | logon_customer_id_sales_id_key | UNIQUE | UNIQUE (customer_id ASC, sales_id ASC) | true
logon | logon_pkey | PRIMARY KEY | PRIMARY KEY (login_id ASC) | true
(2 rows)
> ALTER TABLE logon RENAME CONSTRAINT logon_customer_id_sales_id_key TO unique_customer_id_sales_id;
> SHOW CONSTRAINTS FROM logon;
table_name | constraint_name | constraint_type | details | validated
+------------+-----------------------------+-----------------+----------------------------------------+-----------+
logon | logon_pkey | PRIMARY KEY | PRIMARY KEY (login_id ASC) | true
logon | unique_customer_id_sales_id | UNIQUE | UNIQUE (customer_id ASC, sales_id ASC) | true
(2 rows)
Rename tables
Setup
To follow along, run cockroach demo
to start a temporary, in-memory cluster with the movr
sample dataset preloaded:
$ cockroach demo
Rename a table
> SHOW TABLES;
schema_name | table_name | type | estimated_row_count
--------------+----------------------------+-------+----------------------
public | promo_codes | table | 1000
public | rides | table | 500
public | user_promo_codes | table | 0
public | users | table | 50
public | vehicle_location_histories | table | 1000
public | vehicles | table | 15
(6 rows)
> ALTER TABLE users RENAME TO riders;
> SHOW TABLES;
schema_name | table_name | type | estimated_row_count
--------------+----------------------------+-------+----------------------
public | promo_codes | table | 1000
public | rides | table | 500
public | user_promo_codes | table | 0
public | riders | table | 50
public | vehicle_location_histories | table | 1000
public | vehicles | table | 15
(6 rows)
To avoid an error in case the table does not exist, you can include IF EXISTS
:
> ALTER TABLE IF EXISTS customers RENAME TO clients;
Set and reset storage parameters
Exclude a table's data from backups
In some situations, you may want to exclude a table's row data from a backup. For example, you have a table that contains high-churn data that you would like to garbage collect more quickly than the incremental backup schedule for the database or cluster holding the table. You can use the exclude_data_from_backup = true
parameter with a CREATE TABLE
or ALTER TABLE
statement to mark a table's row data for exclusion from a backup.
For more detail and an example through the backup and restore process using this parameter, see Take Full and Incremental Backups.
To set the exclude_data_from_backup
parameter for a table, run the following:
ALTER TABLE movr.user_promo_codes SET (exclude_data_from_backup = true);
The CREATE
statement for this table will now show the parameter set:
SHOW CREATE user_promo_codes;
table_name | create_statement
-------------------+------------------------------------------------------------------------------------------------------------------
user_promo_codes | CREATE TABLE public.user_promo_codes (
| city VARCHAR NOT NULL,
| user_id UUID NOT NULL,
| code VARCHAR NOT NULL,
| "timestamp" TIMESTAMP NULL,
| usage_count INT8 NULL,
| CONSTRAINT user_promo_codes_pkey PRIMARY KEY (city ASC, user_id ASC, code ASC),
| CONSTRAINT user_promo_codes_city_user_id_fkey FOREIGN KEY (city, user_id) REFERENCES public.users(city, id)
| ) WITH (exclude_data_from_backup = true)
(1 row)
Backups will no longer include the data within the user_promo_codes
table. The table will still be present in the backup, but it will be empty.
To remove this parameter from a table, run:
ALTER TABLE movr.user_promo_codes SET (exclude_data_from_backup = false);
This will ensure that the table's data is stored in subsequent backups that you take.
Reset a storage parameter
The following ttl_test
table has three TTL-related storage parameters active on the table:
SHOW CREATE TABLE ttl_test;
table_name | create_statement
-------------+---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
ttl_test | CREATE TABLE public.ttl_test (
| id UUID NOT NULL DEFAULT gen_random_uuid(),
| description STRING NULL,
| inserted_at TIMESTAMP NULL DEFAULT current_timestamp():::TIMESTAMP,
| crdb_internal_expiration TIMESTAMPTZ NOT VISIBLE NOT NULL DEFAULT current_timestamp():::TIMESTAMPTZ + '3 mons':::INTERVAL ON UPDATE current_timestamp():::TIMESTAMPTZ + '3 mons':::INTERVAL,
| CONSTRAINT ttl_test_pkey PRIMARY KEY (id ASC)
| ) WITH (ttl = 'on', ttl_expire_after = '3 mons':::INTERVAL, ttl_job_cron = '@hourly')
(1 row)
To remove these settings, run the following command:
ALTER TABLE ttl_test RESET (ttl);
SHOW CREATE TABLE ttl_test;
table_name | create_statement
-------------+--------------------------------------------------------------------------
ttl_test | CREATE TABLE public.ttl_test (
| id UUID NOT NULL DEFAULT gen_random_uuid(),
| description STRING NULL,
| inserted_at TIMESTAMP NULL DEFAULT current_timestamp():::TIMESTAMP,
| CONSTRAINT ttl_test_pkey PRIMARY KEY (id ASC)
| )
(1 row)
Set localities
RESTORE
on REGIONAL BY TABLE
, REGIONAL BY ROW
, and GLOBAL
tables is supported with some limitations — see Restoring to multi-region databases for more detail.
Set the table locality to REGIONAL BY TABLE
To optimize read and write access to the data in a table from the primary region, use the following statement, which sets the table's home region to the primary region:
ALTER TABLE {table} SET LOCALITY REGIONAL BY TABLE IN PRIMARY REGION;
To optimize read and write access to the data in a table from the us-east-1
region, use the following statement, which sets the table's home region to us-east-1
:
ALTER TABLE {table} SET LOCALITY REGIONAL BY TABLE IN "us-east-1";
If no region is supplied, REGIONAL BY TABLE
defaults the table's home region to the primary region.
For more information about how this table locality works, see Regional tables.
Set the table locality to REGIONAL BY ROW
Before setting the locality to REGIONAL BY ROW
on a table targeted by a changefeed, read the considerations in Changefeeds on regional by row tables.
To make an existing table a regional by row table, use the following statement:
ALTER TABLE {table} SET LOCALITY REGIONAL BY ROW;
Every row in a regional by row table has a column of type crdb_internal_region
that represents the row's home region. By default, this column is called crdb_region
and is hidden. To see a row's home region, issue a statement like the following:
SELECT crdb_region, id FROM {table};
To update an existing row's home region, use an UPDATE
statement like the following:
UPDATE {table} SET crdb_region = 'eu-west' WHERE id IN (...)
To add a new row to a regional by row table, you must choose one of the following options.
Let CockroachDB set the row's home region automatically. It will use the region of the gateway node from which the row is inserted.
Set the home region explicitly using an
INSERT
statement like the following:INSERT INTO {table} (crdb_region, ...) VALUES ('us-east-1', ...);
This is necessary because every row in a regional by row table must have a home region.
If you do not set a home region for a row in a regional by row table, it defaults to the value returned by the built-in function gateway_region()
. If the value returned by gateway_region()
does not belong to the multi-region database the table is a part of, the home region defaults to the database's primary region.
For more information about how this table locality works, see Regional by row tables.
Note that you can use a name other than crdb_region
for the hidden column by using the following statements:
ALTER TABLE foo SET LOCALITY REGIONAL BY ROW AS bar;
SELECT bar, id FROM foo;
INSERT INTO foo (bar, ...) VALUES ('us-east-1', ...);
In fact, you can specify any column definition you like for the REGIONAL BY ROW AS
column, as long as the column is of type crdb_internal_region
and is not nullable. For example, you could modify the movr schema to have a region column generated as:
ALTER TABLE rides ADD COLUMN region crdb_internal_region AS (
CASE
WHEN city IN ('new york', 'boston', 'washington dc', 'chicago', 'detroit', 'minneapolis') THEN 'us-east-1'
WHEN city IN ('san francisco', 'seattle', 'los angeles') THEN 'us-west-1'
WHEN city IN ('amsterdam', 'paris', 'rome') THEN 'eu-west-1'
END
) STORED;
Note that the SQL engine will avoid sending requests to nodes in other regions when it can instead read a value from a unique column that is stored locally. This capability is known as locality optimized search.
Turn on auto-rehoming for REGIONAL BY ROW
tables
This feature is in preview. This feature is subject to change. To share feedback and/or issues, contact Support.
This feature is disabled by default.
When auto-rehoming is enabled, the home regions of rows in REGIONAL BY ROW
tables are automatically set to the gateway region of any UPDATE
or UPSERT
statements that write to those rows. This functionality is provided by adding an ON UPDATE
expression to the crdb_region
column of newly created regional by row tables.
To enable auto-rehoming using the session setting, issue the following statement:
SET enable_auto_rehoming = on;
Once enabled, the auto-rehoming behavior described here has the following limitations:
- It will only apply to newly created
REGIONAL BY ROW
tables, using anON UPDATE
expression that is added to thecrdb_region
column. ExistingREGIONAL BY ROW
tables will not be auto-rehomed. - The
crdb_region
column from aREGIONAL BY ROW
table cannot be referenced as a foreign key from another table.
To enable auto-rehoming for an existing REGIONAL BY ROW
table, manually update it using an ALTER TABLE ... ALTER COLUMN
statement with an ON UPDATE
expression:
ALTER TABLE {table} ALTER COLUMN crdb_region SET ON UPDATE rehome_row()::db.public.crdb_internal_region;
Example
Follow steps 1 and 2 from the Low Latency Reads and Writes in a Multi-Region Cluster tutorial. This will involve starting a
cockroach demo
cluster in a terminal window (call it terminal 1).From the SQL client running in terminal 1, set the setting that enables auto-rehoming. You must issue this setting before creating the
REGIONAL BY ROW
tables that you want auto-rehomed.SET enable_auto_rehoming = on;
In a second terminal window (call it terminal 2), finish the tutorial starting from step 3 onward to finish loading the cluster with data and applying the multi-region SQL configuration.
Switch back to terminal 1, and check the gateway region of the node you are currently connected to:
SELECT gateway_region();
gateway_region ------------------ us-east1 (1 row)
Open another terminal (call it terminal 3), and use
cockroach sql
to connect to a node in a different region in the demo cluster:cockroach sql --insecure --host localhost --port 26262
# Welcome to the CockroachDB SQL shell. # All statements must be terminated by a semicolon. # To exit, type: \q. # # Server version: CockroachDB CCL v24.3.0-beta.3 (x86_64-apple-darwin19, built 2024-11-05 00:00:00) (same version as client) # Cluster ID: 87b22d9b-b9ce-4f3a-8635-acad89c5981f # Organization: Cockroach Demo # # Enter \? for a brief introduction. # root@localhost:26262/defaultdb>
From the SQL shell prompt that appears in terminal 3, switch to the
movr
database, and verify that the current gateway node is in a different region (us-west1
):USE movr;
SELECT gateway_region();
gateway_region ------------------ us-west1 (1 row)
Still in terminal 3, update a row in the
vehicles
table that is homed in theus-east1
region. After the update, it should be homed in the current gateway node's home region,us-west1
.First, pick a row at random from the
us-east1
region:select * from vehicles where region = 'us-east1' limit 1;
id | city | type | owner_id | creation_time | status | current_location | ext | region ---------------------------------------+--------+------+--------------------------------------+----------------------------+-----------+------------------------------+--------------------------------------------+----------- 3e127e68-a3f9-487d-aa56-bf705beca05a | boston | bike | 2f057d6b-ba8d-4f56-8fd9-894b7c082713 | 2021-10-28 16:19:22.309834 | available | 039 Stacey Plain | {"brand": "FujiCervelo", "color": "green"} | us-east1 | | | | | | Lake Brittanymouth, LA 09374 | | (1 row)
Next, update that row's
city
andcurrent_location
to addresses in Seattle, WA (USA). Note that this UUID is different than what you will see in your cluster, so you'll have to update the query accordingly.UPDATE vehicles set (city, current_location) = ('seattle', '2604 1st Ave, Seattle, WA 98121-1305') WHERE id = '3e127e68-a3f9-487d-aa56-bf705beca05a';
UPDATE 1
Finally, verify that the row has been auto-rehomed in this gateway's region by running the following statement and checking that the
region
column is nowus-west1
:SELECT * FROM vehicles WHERE id = '3e127e68-a3f9-487d-aa56-bf705beca05a';
id | city | type | owner_id | creation_time | status | current_location | ext | region ---------------------------------------+---------+------+--------------------------------------+----------------------------+-----------+--------------------------------------+--------------------------------------------+----------- 3e127e68-a3f9-487d-aa56-bf705beca05a | seattle | bike | 2f057d6b-ba8d-4f56-8fd9-894b7c082713 | 2021-10-28 16:19:22.309834 | available | 2604 1st Ave, Seattle, WA 98121-1305 | {"brand": "FujiCervelo", "color": "green"} | us-west1 (1 row)
Set the table locality to GLOBAL
To optimize read access to the data in a table from any region (that is, globally), use the following statement:
ALTER TABLE {table} SET LOCALITY GLOBAL;
ALTER TABLE SET LOCALITY
For more information about how this table locality works, see Global tables.
Set table schema
Setup
To follow along, run cockroach demo
to start a temporary, in-memory cluster with the movr
sample dataset preloaded:
$ cockroach demo
Change the schema of a table
Suppose you want to add the promo_codes
table to a new schema called cockroach_labs
.
By default, unqualified tables created in the database belong to the public
schema:
> SHOW TABLES;
schema_name | table_name | type | estimated_row_count
--------------+----------------------------+-------+----------------------
public | promo_codes | table | 1000
public | rides | table | 500
public | user_promo_codes | table | 0
public | users | table | 50
public | vehicle_location_histories | table | 1000
public | vehicles | table | 15
(6 rows)
If the new schema does not already exist, create it:
> CREATE SCHEMA IF NOT EXISTS cockroach_labs;
Then, change the table's schema:
> ALTER TABLE promo_codes SET SCHEMA cockroach_labs;
> SHOW TABLES;
schema_name | table_name | type | estimated_row_count
-----------------+----------------------------+-------+----------------------
cockroach_labs | promo_codes | table | 1000
public | rides | table | 500
public | user_promo_codes | table | 0
public | users | table | 50
public | vehicle_location_histories | table | 1000
public | vehicles | table | 15
(6 rows)
Split and unsplit tables
Setup
The following examples use MovR, a fictional vehicle-sharing application, to demonstrate CockroachDB SQL statements. For more information about the MovR example application and dataset, see MovR: A Global Vehicle-sharing App.
To follow along, run cockroach demo
with the --geo-partitioned-replicas
flag. This command opens an interactive SQL shell to a temporary, 9-node in-memory cluster with the movr
database.
$ cockroach demo --geo-partitioned-replicas
Split a table
> SHOW RANGES FROM TABLE users;
start_key | end_key | range_id | range_size_mb | lease_holder | lease_holder_locality | replicas | replica_localities
-----------------------------------------------------------------------------------+----------------------------------------------------------------------------------+----------+---------------+--------------+--------------------------+----------+-----------------------------------------------------------------------------
NULL | /"amsterdam"/"\xb333333@\x00\x80\x00\x00\x00\x00\x00\x00#" | 37 | 0.000116 | 1 | region=us-east1,az=b | {1,6,8} | {"region=us-east1,az=b","region=us-west1,az=c","region=europe-west1,az=c"}
/"amsterdam"/"\xb333333@\x00\x80\x00\x00\x00\x00\x00\x00#" | /"boston"/"333333D\x00\x80\x00\x00\x00\x00\x00\x00\n" | 46 | 0.000886 | 8 | region=europe-west1,az=c | {1,6,8} | {"region=us-east1,az=b","region=us-west1,az=c","region=europe-west1,az=c"}
/"boston"/"333333D\x00\x80\x00\x00\x00\x00\x00\x00\n" | /"los angeles"/"\x99\x99\x99\x99\x99\x99H\x00\x80\x00\x00\x00\x00\x00\x00\x1e" | 45 | 0.00046 | 8 | region=europe-west1,az=c | {2,4,8} | {"region=us-east1,az=c","region=us-west1,az=a","region=europe-west1,az=c"}
/"los angeles"/"\x99\x99\x99\x99\x99\x99H\x00\x80\x00\x00\x00\x00\x00\x00\x1e" | /"new york"/"\x19\x99\x99\x99\x99\x99J\x00\x80\x00\x00\x00\x00\x00\x00\x05" | 44 | 0.001015 | 8 | region=europe-west1,az=c | {1,6,8} | {"region=us-east1,az=b","region=us-west1,az=c","region=europe-west1,az=c"}
/"new york"/"\x19\x99\x99\x99\x99\x99J\x00\x80\x00\x00\x00\x00\x00\x00\x05" | /"paris"/"\xcc\xcc\xcc\xcc\xcc\xcc@\x00\x80\x00\x00\x00\x00\x00\x00(" | 77 | 0.000214 | 8 | region=europe-west1,az=c | {1,6,8} | {"region=us-east1,az=b","region=us-west1,az=c","region=europe-west1,az=c"}
/"paris"/"\xcc\xcc\xcc\xcc\xcc\xcc@\x00\x80\x00\x00\x00\x00\x00\x00(" | /"san francisco"/"\x80\x00\x00\x00\x00\x00@\x00\x80\x00\x00\x00\x00\x00\x00\x19" | 43 | 0.001299 | 8 | region=europe-west1,az=c | {3,4,8} | {"region=us-east1,az=d","region=us-west1,az=a","region=europe-west1,az=c"}
/"san francisco"/"\x80\x00\x00\x00\x00\x00@\x00\x80\x00\x00\x00\x00\x00\x00\x19" | /"seattle"/"ffffffH\x00\x80\x00\x00\x00\x00\x00\x00\x14" | 61 | 0.000669 | 3 | region=us-east1,az=d | {3,4,8} | {"region=us-east1,az=d","region=us-west1,az=a","region=europe-west1,az=c"}
/"seattle"/"ffffffH\x00\x80\x00\x00\x00\x00\x00\x00\x14" | /"washington dc"/"L\xcc\xcc\xcc\xcc\xccL\x00\x80\x00\x00\x00\x00\x00\x00\x0f" | 57 | 0.000671 | 3 | region=us-east1,az=d | {3,4,7} | {"region=us-east1,az=d","region=us-west1,az=a","region=europe-west1,az=b"}
/"washington dc"/"L\xcc\xcc\xcc\xcc\xccL\x00\x80\x00\x00\x00\x00\x00\x00\x0f" | NULL | 87 | 0.000231 | 4 | region=us-west1,az=a | {3,4,7} | {"region=us-east1,az=d","region=us-west1,az=a","region=europe-west1,az=b"}
(9 rows)
> ALTER TABLE users SPLIT AT VALUES ('chicago'), ('new york'), ('seattle');
key | pretty | split_enforced_until
-------------------------------+-------------+--------------------------------------
\275\211\022chicago\000\001 | /"chicago" | 2262-04-11 23:47:16.854776+00:00:00
\275\211\022new york\000\001 | /"new york" | 2262-04-11 23:47:16.854776+00:00:00
\275\211\022seattle\000\001 | /"seattle" | 2262-04-11 23:47:16.854776+00:00:00
(3 rows)
> SHOW RANGES FROM TABLE users;
start_key | end_key | range_id | range_size_mb | lease_holder | lease_holder_locality | replicas | replica_localities
-----------------------------------------------------------------------------------+----------------------------------------------------------------------------------+----------+---------------+--------------+--------------------------+----------+-------------------------------------------------------------------------------------
NULL | /"amsterdam"/"\xb333333@\x00\x80\x00\x00\x00\x00\x00\x00#" | 37 | 0.000116 | 1 | region=us-east1,az=b | {1,6,8} | {"region=us-east1,az=b","region=us-west1,az=c","region=europe-west1,az=c"}
/"amsterdam"/"\xb333333@\x00\x80\x00\x00\x00\x00\x00\x00#" | /"amsterdam"/PrefixEnd | 46 | 0.000446 | 8 | region=europe-west1,az=c | {7,8,9} | {"region=europe-west1,az=b","region=europe-west1,az=c","region=europe-west1,az=d"}
/"amsterdam"/PrefixEnd | /"boston" | 70 | 0 | 8 | region=europe-west1,az=c | {3,6,8} | {"region=us-east1,az=d","region=us-west1,az=c","region=europe-west1,az=c"}
/"boston" | /"boston"/"333333D\x00\x80\x00\x00\x00\x00\x00\x00\n" | 71 | 0.00044 | 1 | region=us-east1,az=b | {1,6,8} | {"region=us-east1,az=b","region=us-west1,az=c","region=europe-west1,az=c"}
/"boston"/"333333D\x00\x80\x00\x00\x00\x00\x00\x00\n" | /"boston"/PrefixEnd | 45 | 0.000225 | 2 | region=us-east1,az=c | {2,3,8} | {"region=us-east1,az=c","region=us-east1,az=d","region=europe-west1,az=c"}
/"boston"/PrefixEnd | /"chicago" | 72 | 0 | 8 | region=europe-west1,az=c | {2,4,8} | {"region=us-east1,az=c","region=us-west1,az=a","region=europe-west1,az=c"}
/"chicago" | /"los angeles" | 74 | 0 | 8 | region=europe-west1,az=c | {2,4,8} | {"region=us-east1,az=c","region=us-west1,az=a","region=europe-west1,az=c"}
/"los angeles" | /"los angeles"/"\x99\x99\x99\x99\x99\x99H\x00\x80\x00\x00\x00\x00\x00\x00\x1e" | 73 | 0.000235 | 8 | region=europe-west1,az=c | {2,4,8} | {"region=us-east1,az=c","region=us-west1,az=a","region=europe-west1,az=c"}
/"los angeles"/"\x99\x99\x99\x99\x99\x99H\x00\x80\x00\x00\x00\x00\x00\x00\x1e" | /"los angeles"/PrefixEnd | 44 | 0.000462 | 4 | region=us-west1,az=a | {4,6,8} | {"region=us-west1,az=a","region=us-west1,az=c","region=europe-west1,az=c"}
/"los angeles"/PrefixEnd | /"new york" | 68 | 0 | 8 | region=europe-west1,az=c | {2,6,8} | {"region=us-east1,az=c","region=us-west1,az=c","region=europe-west1,az=c"}
/"new york" | /"new york"/"\x19\x99\x99\x99\x99\x99J\x00\x80\x00\x00\x00\x00\x00\x00\x05" | 69 | 0.000553 | 8 | region=europe-west1,az=c | {1,3,8} | {"region=us-east1,az=b","region=us-east1,az=d","region=europe-west1,az=c"}
/"new york"/"\x19\x99\x99\x99\x99\x99J\x00\x80\x00\x00\x00\x00\x00\x00\x05" | /"new york"/PrefixEnd | 77 | 0.000111 | 1 | region=us-east1,az=b | {1,6,8} | {"region=us-east1,az=b","region=us-west1,az=c","region=europe-west1,az=c"}
/"new york"/PrefixEnd | /"paris" | 62 | 0 | 8 | region=europe-west1,az=c | {3,4,8} | {"region=us-east1,az=d","region=us-west1,az=a","region=europe-west1,az=c"}
/"paris" | /"paris"/"\xcc\xcc\xcc\xcc\xcc\xcc@\x00\x80\x00\x00\x00\x00\x00\x00(" | 63 | 0.000103 | 8 | region=europe-west1,az=c | {7,8,9} | {"region=europe-west1,az=b","region=europe-west1,az=c","region=europe-west1,az=d"}
/"paris"/"\xcc\xcc\xcc\xcc\xcc\xcc@\x00\x80\x00\x00\x00\x00\x00\x00(" | /"paris"/PrefixEnd | 43 | 0.000525 | 8 | region=europe-west1,az=c | {7,8,9} | {"region=europe-west1,az=b","region=europe-west1,az=c","region=europe-west1,az=d"}
/"paris"/PrefixEnd | /"rome" | 64 | 0 | 8 | region=europe-west1,az=c | {3,4,8} | {"region=us-east1,az=d","region=us-west1,az=a","region=europe-west1,az=c"}
/"rome" | /"rome"/PrefixEnd | 65 | 0.000539 | 8 | region=europe-west1,az=c | {7,8,9} | {"region=europe-west1,az=b","region=europe-west1,az=c","region=europe-west1,az=d"}
/"rome"/PrefixEnd | /"san francisco" | 66 | 0 | 8 | region=europe-west1,az=c | {3,4,8} | {"region=us-east1,az=d","region=us-west1,az=a","region=europe-west1,az=c"}
/"san francisco" | /"san francisco"/"\x80\x00\x00\x00\x00\x00@\x00\x80\x00\x00\x00\x00\x00\x00\x19" | 67 | 0.000235 | 4 | region=us-west1,az=a | {4,5,8} | {"region=us-west1,az=a","region=us-west1,az=b","region=europe-west1,az=c"}
/"san francisco"/"\x80\x00\x00\x00\x00\x00@\x00\x80\x00\x00\x00\x00\x00\x00\x19" | /"san francisco"/PrefixEnd | 61 | 0.000365 | 4 | region=us-west1,az=a | {4,5,6} | {"region=us-west1,az=a","region=us-west1,az=b","region=us-west1,az=c"}
/"san francisco"/PrefixEnd | /"seattle" | 88 | 0 | 3 | region=us-east1,az=d | {3,4,8} | {"region=us-east1,az=d","region=us-west1,az=a","region=europe-west1,az=c"}
/"seattle" | /"seattle"/"ffffffH\x00\x80\x00\x00\x00\x00\x00\x00\x14" | 89 | 0.000304 | 3 | region=us-east1,az=d | {3,4,8} | {"region=us-east1,az=d","region=us-west1,az=a","region=europe-west1,az=c"}
/"seattle"/"ffffffH\x00\x80\x00\x00\x00\x00\x00\x00\x14" | /"seattle"/PrefixEnd | 57 | 0.000327 | 3 | region=us-east1,az=d | {3,4,7} | {"region=us-east1,az=d","region=us-west1,az=a","region=europe-west1,az=b"}
/"seattle"/PrefixEnd | /"washington dc" | 90 | 0 | 3 | region=us-east1,az=d | {3,4,7} | {"region=us-east1,az=d","region=us-west1,az=a","region=europe-west1,az=b"}
/"washington dc" | /"washington dc"/"L\xcc\xcc\xcc\xcc\xccL\x00\x80\x00\x00\x00\x00\x00\x00\x0f" | 91 | 0.000344 | 3 | region=us-east1,az=d | {1,2,3} | {"region=us-east1,az=b","region=us-east1,az=c","region=us-east1,az=d"}
/"washington dc"/"L\xcc\xcc\xcc\xcc\xccL\x00\x80\x00\x00\x00\x00\x00\x00\x0f" | /"washington dc"/PrefixEnd | 87 | 0.000231 | 3 | region=us-east1,az=d | {1,2,3} | {"region=us-east1,az=b","region=us-east1,az=c","region=us-east1,az=d"}
/"washington dc"/PrefixEnd | NULL | 157 | 0 | 4 | region=us-west1,az=a | {3,4,7} | {"region=us-east1,az=d","region=us-west1,az=a","region=europe-west1,az=b"}
(27 rows)
Split a table with a compound primary key
You may want to split a table with a compound primary key.
Suppose that you want MovR to offer ride-sharing services, in addition to vehicle-sharing services. Some users need to sign up to be drivers, so you need a drivers
table to store driver information.
> CREATE TABLE drivers (
id UUID DEFAULT gen_random_uuid(),
city STRING,
name STRING,
dl STRING DEFAULT left(md5(random()::text),8) UNIQUE CHECK (LENGTH(dl) < 9),
address STRING,
CONSTRAINT "primary" PRIMARY KEY (city ASC, dl ASC)
);
The table's compound primary key is on the city
and dl
columns. Note that the table automatically generates an id
and a dl
value using supported SQL functions if they are not provided.
Because this table has several columns in common with the users
table, you can populate the table with values from the users
table with an INSERT
statement:
> INSERT INTO drivers (id, city, name, address)
SELECT id, city, name, address FROM users;
> SHOW RANGES FROM TABLE drivers;
start_key | end_key | range_id | range_size_mb | lease_holder | lease_holder_locality | replicas | replica_localities
------------+---------+----------+---------------+--------------+--------------------------+----------+-----------------------------------------------------------------------------
NULL | NULL | 310 | 0.007218 | 7 | region=europe-west1,az=b | {1,4,7} | {"region=us-east1,az=b","region=us-west1,az=a","region=europe-west1,az=b"}
(1 row)
Now you can split the table based on the compound primary key. Note that you do not have to specify the entire value for the primary key, just the prefix.
> ALTER TABLE drivers SPLIT AT VALUES ('new york', '3'), ('new york', '7'), ('chicago', '3'), ('chicago', '7'), ('seattle', '3'), ('seattle', '7');
key | pretty | split_enforced_until
--------------------------------------------+-----------------+--------------------------------------
\303\211\022new york\000\001\0223\000\001 | /"new york"/"3" | 2262-04-11 23:47:16.854776+00:00:00
\303\211\022new york\000\001\0227\000\001 | /"new york"/"7" | 2262-04-11 23:47:16.854776+00:00:00
\303\211\022chicago\000\001\0223\000\001 | /"chicago"/"3" | 2262-04-11 23:47:16.854776+00:00:00
\303\211\022chicago\000\001\0227\000\001 | /"chicago"/"7" | 2262-04-11 23:47:16.854776+00:00:00
\303\211\022seattle\000\001\0223\000\001 | /"seattle"/"3" | 2262-04-11 23:47:16.854776+00:00:00
\303\211\022seattle\000\001\0227\000\001 | /"seattle"/"7" | 2262-04-11 23:47:16.854776+00:00:00
(6 rows)
> SHOW RANGES FROM TABLE drivers;
start_key | end_key | range_id | range_size_mb | lease_holder | lease_holder_locality | replicas | replica_localities
------------------+-----------------+----------+---------------+--------------+--------------------------+----------+-----------------------------------------------------------------------------
NULL | /"chicago"/"3" | 310 | 0.001117 | 7 | region=europe-west1,az=b | {3,4,7} | {"region=us-east1,az=d","region=us-west1,az=a","region=europe-west1,az=b"}
/"chicago"/"3" | /"chicago"/"7" | 314 | 0 | 7 | region=europe-west1,az=b | {3,4,7} | {"region=us-east1,az=d","region=us-west1,az=a","region=europe-west1,az=b"}
/"chicago"/"7" | /"new york"/"3" | 315 | 0.000933 | 7 | region=europe-west1,az=b | {3,4,7} | {"region=us-east1,az=d","region=us-west1,az=a","region=europe-west1,az=b"}
/"new york"/"3" | /"new york"/"7" | 311 | 0 | 7 | region=europe-west1,az=b | {1,4,7} | {"region=us-east1,az=b","region=us-west1,az=a","region=europe-west1,az=b"}
/"new york"/"7" | /"seattle"/"3" | 312 | 0.001905 | 7 | region=europe-west1,az=b | {1,4,7} | {"region=us-east1,az=b","region=us-west1,az=a","region=europe-west1,az=b"}
/"seattle"/"3" | /"seattle"/"7" | 316 | 0.000193 | 7 | region=europe-west1,az=b | {1,6,7} | {"region=us-east1,az=b","region=us-west1,az=c","region=europe-west1,az=b"}
/"seattle"/"7" | NULL | 317 | 0.00307 | 7 | region=europe-west1,az=b | {1,4,7} | {"region=us-east1,az=b","region=us-west1,az=a","region=europe-west1,az=b"}
(7 rows)
Set the expiration on a split enforcement
You can specify the time at which a split enforcement expires by adding a WITH EXPIRATION
clause to your SPLIT
statement. Supported expiration values include DECIMAL
, INTERVAL
, TIMESTAMP
, and TIMESTAMPZ
.
> ALTER TABLE vehicles SPLIT AT VALUES ('chicago'), ('new york'), ('seattle') WITH EXPIRATION '2022-01-10 23:30:00+00:00';
key | pretty | split_enforced_until
-------------------------------+-------------+-------------------------------
\276\211\022chicago\000\001 | /"chicago" | 2022-01-10 23:30:00+00:00:00
\276\211\022new york\000\001 | /"new york" | 2022-01-10 23:30:00+00:00:00
\276\211\022seattle\000\001 | /"seattle" | 2022-01-10 23:30:00+00:00:00
(3 rows)
You can see the split's expiration date in the split_enforced_until
column. The crdb_internal.ranges
table also contains information about ranges in your CockroachDB cluster, including the split_enforced_until
column.
> SELECT range_id, start_pretty, end_pretty, split_enforced_until FROM crdb_internal.ranges WHERE table_name='vehicles';
range_id | start_pretty | end_pretty | split_enforced_until
-----------+-------------------------------------------------------------------------------------------+-------------------------------------------------------------------------------------------+--------------------------------------
38 | /Table/54 | /Table/54/1/"amsterdam" | NULL
55 | /Table/54/1/"amsterdam" | /Table/54/1/"amsterdam"/PrefixEnd | NULL
109 | /Table/54/1/"amsterdam"/PrefixEnd | /Table/54/1/"boston" | NULL
114 | /Table/54/1/"boston" | /Table/54/1/"boston"/"\"\"\"\"\"\"B\x00\x80\x00\x00\x00\x00\x00\x00\x02" | NULL
50 | /Table/54/1/"boston"/"\"\"\"\"\"\"B\x00\x80\x00\x00\x00\x00\x00\x00\x02" | /Table/54/1/"boston"/"333333D\x00\x80\x00\x00\x00\x00\x00\x00\x03" | 2262-04-11 23:47:16.854776+00:00:00
49 | /Table/54/1/"boston"/"333333D\x00\x80\x00\x00\x00\x00\x00\x00\x03" | /Table/54/1/"boston"/PrefixEnd | 2262-04-11 23:47:16.854776+00:00:00
129 | /Table/54/1/"boston"/PrefixEnd | /Table/54/1/"chicago" | NULL
241 | /Table/54/1/"chicago" | /Table/54/1/"los angeles" | 2022-01-10 23:30:00+00:00:00
130 | /Table/54/1/"los angeles" | /Table/54/1/"los angeles"/PrefixEnd | NULL
131 | /Table/54/1/"los angeles"/PrefixEnd | /Table/54/1/"new york" | NULL
132 | /Table/54/1/"new york" | /Table/54/1/"new york"/"\x11\x11\x11\x11\x11\x11A\x00\x80\x00\x00\x00\x00\x00\x00\x01" | 2022-01-10 23:30:00+00:00:00
48 | /Table/54/1/"new york"/"\x11\x11\x11\x11\x11\x11A\x00\x80\x00\x00\x00\x00\x00\x00\x01" | /Table/54/1/"new york"/PrefixEnd | 2262-04-11 23:47:16.854776+00:00:00
...
(46 rows)
Unsplit a table
Create a drivers
table and split the table based on the compound primary key as described in Split a table with a compound primary key.
To remove the split enforcements, run the following:
> ALTER TABLE drivers UNSPLIT AT VALUES ('new york', '3'), ('new york', '7'), ('chicago', '3'), ('chicago', '7'), ('seattle', '3'), ('seattle', '7');
key | pretty
--------------------------------------------+-----------------------------
\xc3\x89\x12new york\x00\x01\x123\x00\x01 | /Table/59/1/"new york"/"3"
\xc3\x89\x12new york\x00\x01\x127\x00\x01 | /Table/59/1/"new york"/"7"
\xc3\x89\x12chicago\x00\x01\x123\x00\x01 | /Table/59/1/"chicago"/"3"
\xc3\x89\x12chicago\x00\x01\x127\x00\x01 | /Table/59/1/"chicago"/"7"
\xc3\x89\x12seattle\x00\x01\x123\x00\x01 | /Table/59/1/"seattle"/"3"
\xc3\x89\x12seattle\x00\x01\x127\x00\x01 | /Table/59/1/"seattle"/"7"
(6 rows)
You can see the split's expiration date in the split_enforced_until
column. The crdb_internal.ranges
table also contains information about ranges in your CockroachDB cluster, including the split_enforced_until
column.
> SELECT range_id, start_pretty, end_pretty, split_enforced_until FROM crdb_internal.ranges WHERE table_name='drivers';
range_id | start_pretty | end_pretty | split_enforced_until
-----------+----------------------------+----------------------------+-----------------------
74 | /Table/59 | /Table/59/1/"chicago"/"3" | NULL
77 | /Table/59/1/"chicago"/"3" | /Table/59/1/"chicago"/"7" | NULL
78 | /Table/59/1/"chicago"/"7" | /Table/59/1/"new york"/"3" | NULL
75 | /Table/59/1/"new york"/"3" | /Table/59/1/"new york"/"7" | NULL
76 | /Table/59/1/"new york"/"7" | /Table/59/1/"seattle"/"3" | NULL
79 | /Table/59/1/"seattle"/"3" | /Table/59/1/"seattle"/"7" | NULL
80 | /Table/59/1/"seattle"/"7" | /Max | NULL
(7 rows)
The drivers
table is still split into ranges at specific primary key column values, but the split_enforced_until
column is now NULL
for all ranges in the table. The split is no longer enforced, and CockroachDB can merge the data in the table as needed.
Validate constraints
Setup
To follow along, run cockroach demo
to start a temporary, in-memory cluster with the movr
sample dataset preloaded:
$ cockroach demo
Validate a constraint
In the example Add the foreign key constraint with CASCADE
, we add a foreign key constraint as follows:
> ALTER TABLE vehicles ADD CONSTRAINT users_fk FOREIGN KEY (city, owner_id) REFERENCES users (city, id) ON DELETE CASCADE;
To ensure that the data added to the vehicles
table prior to the creation of the users_fk
constraint conforms to that constraint, run the following:
> ALTER TABLE vehicles VALIDATE CONSTRAINT users_fk;
If present in a CREATE TABLE
statement, the table is considered validated because an empty table trivially meets its constraints.
See also
- Multi-Region Capabilities Overview
- Online Schema Changes
- Constraints
- Foreign Key Constraint
- Replication Controls
- SQL Audit Logging
CREATE TABLE
CREATE INDEX
ALTER INDEX
ALTER PARTITION
SHOW JOBS
BACKUP
RESTORE
WITH
(storage parameter)- Selection Queries
- Distribution Layer
- Replication Layer
- Online Schema Changes
- SQL Statements