Identity and sequences for T-SQL - SQL Server to Aurora MySQL Migration Playbook

Identity and sequences for T-SQL

This topic provides reference content comparing identity and sequence features between Microsoft SQL Server 2019 and Amazon Aurora MySQL. You can understand the key differences and similarities in how these database systems handle automatic enumeration functions and columns, which are commonly used for generating surrogate keys.

Feature compatibility AWS SCT / AWS DMS automation level AWS SCT action code index Key differences

Two star feature compatibility

Three star automation level

Identity and Sequences

MySQL doesn’t support SEQUENCE objects. Rewrite IDENTITY to AUTO_INCREMENT. Last value is evaluated as MAX(Existing Value) + 1 on every restart.

SQL Server Usage

Automatic enumeration functions and columns are common with relational database management systems and are often used for generating surrogate keys.

SQL Server provides several features that support automatic generation of monotonously increasing value generators:

  • The IDENTITY property of a table column.

  • The SEQUENCE objects framework.

  • The numeric functions such as IDENTITY and NEWSEQUENTIALID.

Identity

The IDENTITY property is probably the most widely used means of generating surrogate primary keys in SQL Server applications. Each table may have a single numeric column assigned as an IDENTITY using the CREATE TABLE or ALTER TABLE DDL statements. You can explicitly specify a starting value and increment.

Note

The identity property doesn’t enforce uniqueness of column values, indexing, or any other property. Additional constraints such as primary or unique keys, explicit index specifications, or other properties must be specified in addition to the IDENTITY property.

The IDENTITY value is generated as part of the transaction that inserts table rows. Applications can obtain IDENTITY values using the @@IDENTITY, SCOPE_IDENTITY, and IDENT_CURRENT functions.

IDENTITY columns may be used as primary keys by themselves, as part of a compound key, or as non-key columns.

You can manage IDENTITY columns using the DBCC CHECKIDENT command, which provides functionality for reseeding and altering properties.

Syntax

IDENTITY [(<Seed Value>, <Increment Value>)]

View the original seed value of an IDENTITY column with the IDENT_SEED system function.

SELECT IDENT_SEED (<Table>)

Reseed an IDENTITY column.

DBCC CHECKIDENT (<Table>, RESEED, <Seed Value>)

Examples

Create a table with an IDENTITY primary key column.

CREATE TABLE MyTABLE
(
    Col1 INT NOT NULL
    PRIMARY KEY NONCLUSTERED IDENTITY(1,1),
    Col2 VARCHAR(20) NOT NULL
);

Insert a row and retrieve the generated IDENTITY value.

DECLARE @LastIdent INT;
INSERT INTO MyTable(Col2)
VALUES('SomeString');
SET @LastIdent = SCOPE_IDENTITY()

Create a table with a non-key IDENTITY column and an increment of 10.

CREATE TABLE MyTABLE
(
    Col1 VARCHAR(20) NOT NULL
        PRIMARY KEY,
    Col2 INT NOT NULL
        IDENTITY(1,10),
);

Create a table with a compound PK including an IDENTITY column.

CREATE TABLE MyTABLE
(
    Col1 VARCHAR(20) NOT NULL,
    Col2 INT NOT NULL
        IDENTITY(1,10),
    PRIMARY KEY (Col1, Col2)
);

SEQUENCE

Sequences are objects that are independent of a particular table or column and are defined using the CREATE SEQUENCE DDL statement. You can manage sequences using the ALTER SEQUENCE statement. Multiple tables and multiple columns from the same table may use the values from one or more SEQUENCE objects.

You can retrieve a value from a SEQUENCE object using the NEXT VALUE FOR function. For example, a SEQUENCE value can be used as a default value for a surrogate key column.

SEQUENCE objects provide several advantages over IDENTITY columns:

  • Can be used to obtain a value before the actual INSERT takes place.

  • Value series can be shared among columns and tables.

  • Easier management, restart, and modification of sequence properties.

  • Allow assignment of value ranges using sp_sequence_get_range and not just per-row values.

Syntax

CREATE SEQUENCE <Sequence Name> [AS <Integer Data Type> ]
START WITH <Seed Value>
INCREMENT BY <Increment Value>;
ALTER SEQUENCE <Sequence Name>
RESTART [WITH <Reseed Value>]
INCREMENT BY <New Increment Value>;

Examples

Create a sequence for use as a primary key default.

CREATE SEQUENCE MySequence AS INT START WITH 1 INCREMENT BY 1;
CREATE TABLE MyTable
(
    Col1 INT NOT NULL
        PRIMARY KEY NONCLUSTERED DEFAULT (NEXT VALUE FOR MySequence),
    Col2 VARCHAR(20) NULL
);
INSERT MyTable (Col1, Col2) VALUES (DEFAULT, 'cde'), (DEFAULT, 'xyz');
SELECT * FROM MyTable;
Col1  Col2
1     cde
2     xyz

Sequential Enumeration Functions

SQL Server provides two sequential generation functions: IDENTITY and NEWSEQUENTIALID.

Note

The IDENTITY function shouldn’t be confused with the IDENTITY property of a column.

You can use the IDENTITY function only in a SELECT …​ INTO statement to insert IDENTITY column values into a new table.

The NEWSEQUNTIALID function generates a hexadecimal GUID, which is an integer. While the NEWID function generates a random GUID, the NEWSEQUENTIALID function guarantees that every GUID created is greater in numeric value than any other GUID previously generated by the same function on the same server since the operating system restart.

Note

You can use NEWSEQUENTIALID only with DEFAULT constraints associated with columns having a UNIQUEIDENTIFIER data type.

Syntax

IDENTITY (<Data Type> [, <Seed Value>, <Increment Value>]) [AS <Alias>]
NEWSEQUENTIALID()

Examples

Use the IDENTITY function as surrogate key for a new table based on an existing table.

CREATE TABLE MySourceTable
(
    Col1 INT NOT NULL PRIMARY KEY,
    Col2 VARCHAR(10) NOT NULL,
    Col3 VARCHAR(10) NOT NULL
);
INSERT INTO MySourceTable
VALUES
(12, 'String12', 'String12'),
(25, 'String25', 'String25'),
(95, 'String95', 'String95');
SELECT IDENTITY(INT, 100, 1) AS SurrogateKey,
    Col1,
    Col2,
    Col3
INTO MyNewTable
FROM MySourceTable
ORDER BY Col1 DESC;
SELECT *
FROM MyNewTable;

For the preceding example, the result looks as shown following.

SurrogateKey  Col1  Col2      Col3
100           95    String95  String95
101           25    String25  String25
102           12    String12  String12

Use NEWSEQUENTIALID as a surrogate key for a new table.

CREATE TABLE MyTable
(
    Col1 UNIQUEIDENTIFIER NOT NULL
    PRIMARY KEY NONCLUSTERED DEFAULT NEWSEQUENTIALID()
);
INSERT INTO MyTable
DEFAULT VALUES;
SELECT *
FROM MyTable;

For the preceding example, the result looks as shown following.

Col1

9CC01320-C5AA-E811-8440-305B3A017068

For more information, see Sequence Numbers and CREATE TABLE (Transact-SQL) IDENTITY (Property) in the SQL Server documentation.

MySQL Usage

Amazon Aurora MySQL-Compatible Edition (Aurora MySQL) supports automatic sequence generation using the AUTO_INCREMENT column property, similar to the IDENTITY column property in SQL Server.

Aurora MySQL doesn’t support table-independent sequence objects.

Any numeric column may be assigned the AUTO_INCREMENT property. To make the system generate the next sequence value, the application must not mention the relevant column’s name in the insert command, in case the column was created with the NOT NULL definition then also inserting a NULL value into an AUTO_INCREMENT column will increment it. In most cases, the seed value is 1 and the increment is 1.

Client applications use the LAST_INSERT_ID function to obtain the last generated value.

Each table can have only one AUTO_INCREMENT column. The column must be explicitly indexed or be a primary key, which is indexed by default.

The AUTO_INCREMENT mechanism is designed to be used with positive numbers only. Do not use negative values because they will be misinterpreted as a complementary positive value. This limitation is due to precision issues with sequences crossing a zero boundary.

There are two server parameters used to alter the default values for new AUTO_INCREMENT columns:

  • auto_increment_increment — Controls the sequence interval.

  • auto_increment_offset — Determines the starting point for the sequence.

To reseed the AUTO_INCREMENT value, use ALTER TABLE <Table Name> AUTO_INCREMENT = <New Seed Value>.

Syntax

CREATE [TEMPORARY] TABLE [IF NOT EXISTS] <Table Name>
(<Column Name> <Data Type> [NOT NULL | NULL]
AUTO_INCREMENT [UNIQUE [KEY]] [[PRIMARY] KEY]...

Migration Considerations

Since Aurora MySQL doesn’t support table-independent SEQUENCE objects, applications that rely on its properties must use a custom solution to meet their requirements.

In Aurora MySQL, you can use AUTO_INCREMENT instead of IDENTITY in SQL Server for most cases. For AUTO_INCREMENT columns, the application must explicitly INSERT a NULL or a 0.

Note

Omitting the AUTO_INCREMENT column from the INSERT column list has the same effect as inserting a NULL value.

Make sure that your AUTO_INCREMENT columns are indexed and don’t have default constraints assigned to the same column. There is a critical difference between IDENTITY and AUTO_INCREMENT in the way the sequence values are maintained upon service restart. Application developers must be aware of this difference.

Sequence Value Initialization

SQL Server stores the IDENTITY metadata in system tables on disk. Although some values may be cached and lost when the service is restarted, the next time the server restarts, the sequence value continues after the last block of values that was assigned to cache. If you run out of values, you can explicitly set the sequence value to start the cycle over. As long as there are no key conflicts, it can be reused after the range has been exhausted.

In Aurora MySQL, an AUTO_INCREMENT column for a table uses a special counter called the auto-increment counter to assign new values for the column. This counter is stored in cache memory only and isn’t persisted to disk. After a service restart, and when Aurora MySQL encounters an INSERT to a table containing an AUTO_INCREMENT column, it issues an equivalent of the following statement:

SELECT MAX(<Auto Increment Column>) FROM <Table Name> FOR UPDATE;
Note

The FOR UPDATE CLAUSE is required to maintain locks on the column until the read completes.

Aurora MySQL then increments the value retrieved by the preceding statement and assigns it to the in-memory autoincrement counter for the table. By default, the value is incremented by one. You can change the default using the auto_increment_increment configuration setting. If the table has no values, Aurora MySQL uses the value 1. You can change the default using the auto_increment_offset configuration setting.

Every server restart effectively cancels any AUTO_INCREMENT = <Value> table option in CREATE TABLE and ALTER TABLE statements.

Unlike IDENTITY columns in SQL Server, which by default don’t allow inserting explicit values, Aurora MySQL allows explicit values to be set. If a row has an explicitly specified AUTO_INCREMENT column value and the value is greater than the current counter value, the counter is set to the specified column value.

Examples

Create a table with an AUTO_INCREMENT column.

CREATE TABLE MyTable
(
    Col1 INT NOT NULL
    AUTO_INCREMENT PRIMARY KEY,
    Col2 VARCHAR(20) NOT NULL
);

Insert AUTO_INCREMENT values.

INSERT INTO MyTable (Col2)
VALUES ('AI column omitted');
INSERT INTO MyTable (Col1, Col2)
VALUES (NULL, 'Explicit NULL');
INSERT INTO MyTable (Col1, Col2)
VALUES (10, 'Explicit value');
INSERT INTO MyTable (Col2)
VALUES ('Post explicit value');
SELECT *
FROM MyTable;

For the preceding example, the result looks as shown following.

Col1  Col2
1     AI column omitted
2     Explicit NULL
10    Explicit value
11    Post explicit value

Reseed AUTO_INCREMENT.

ALTER TABLE MyTable AUTO_INCREMENT = 30;
INSERT INTO MyTable (Col2)
VALUES ('Post ALTER TABLE');
SELECT *
FROM MyTable;

For the preceding example, the result looks as shown following.

1     AI column omitted
2     Explicit NULL
10    Explicit value
11    Post explicit value
30    Post ALTER TABLE

Change the increment value to 10.

Note

Changing the @@auto_increment_increment value to 10 impacts all AUTO_INCREMENT enumerators in the database.

SET @@auto_increment_increment=10;

Verify variable change.

SHOW VARIABLES LIKE 'auto_inc%';

For the preceding example, the result looks as shown following.

Variable_name             Value
auto_increment_increment  10
auto_increment_offset     1

Insert several rows and then read.

INSERT INTO MyTable (Col1, Col2)
VALUES (NULL, 'Row1'), (NULL, 'Row2'), (NULL, 'Row3'), (NULL, 'Row4');
SELECT Col1, Col2
FROM MyTable;

For the preceding example, the result looks as shown following.

1     AI column omitted
2     Explicit NULL
10    Explicit value
11    Post explicit value
30    Post ALTER TABLE
40    Row1
50    Row2
60    Row3
70    Row4

Summary

The following table identifies similarities, differences, and key migration considerations.

Feature SQL Server Aurora MySQL Comments

Independent SEQUENCE object

CREATE SEQUENCE

Not supported

Automatic enumerator column property

IDENTITY

AUTO_INCREMENT

Reseed sequence value

DBCC CHECKIDENT

ALTER TABLE <Table Name> AUTO_INCREMENT = <New Seed Value>

Column restrictions

Numeric

Numeric, indexed, and no DEFAULT

Controlling seed and interval values

CREATE/ALTER TABLE

auto_increment_increment

auto_increment_offset

Aurora MySQL settings are global and can’t be customized for each column as in SQL Server.

Sequence setting initialization

Maintained through service restarts

Re-initialized every service restart

For more information, see Sequence Value Initialization.

Explicit values to column

Not allowed by default, SET IDENTITY_INSERT ON required

Supported

Aurora MySQL requires explicit NULL or 0 to trigger sequence value assignment. Inserting an explicit value larger than all others will reinitialize the sequence.

Non PK auto enumerator column

Supported

Not Supported

Implement an application enumerator.

Compound PK with auto enumerator column

Supported

Not Supported

Implement an application enumerator.

For more information, see Using AUTO_INCREMENT, CREATE TABLE Statement, and AUTO_INCREMENT Handling in InnoDB in the MySQL documentation.