Migrations are like version control for your database, allowing your team to define and share the application's database schema definition. If you have ever had to tell a teammate to manually add a column to their local database schema after pulling in your changes from source control, you've faced the problem that database migrations solve.
The Laravel Schema
facade provides database agnostic support for creating and manipulating tables across all of Laravel's supported database systems. Typically, migrations will use this facade to create and modify database tables and columns.
You may use the make:migration
Artisan command to generate a database migration. The new migration will be placed in your database/migrations
directory. Each migration filename contains a timestamp that allows Laravel to determine the order of the migrations:
php artisan make:migration create_flights_table
Laravel will use the name of the migration to attempt to guess the name of the table and whether or not the migration will be creating a new table. If Laravel is able to determine the table name from the migration name, Laravel will pre-fill the generated migration file with the specified table. Otherwise, you may simply specify the table in the migration file manually.
If you would like to specify a custom path for the generated migration, you may use the --path
option when executing the make:migration
command. The given path should be relative to your application's base path.
[!NOTE]
Migration stubs may be customized using stub publishing.
As you build your application, you may accumulate more and more migrations over time. This can lead to your database/migrations
directory becoming bloated with potentially hundreds of migrations. If you would like, you may "squash" your migrations into a single SQL file. To get started, execute the schema:dump
command:
php artisan schema:dump
# Dump the current database schema and prune all existing migrations...
php artisan schema:dump --prune
When you execute this command, Laravel will write a "schema" file to your application's database/schema
directory. The schema file's name will correspond to the database connection. Now, when you attempt to migrate your database and no other migrations have been executed, Laravel will first execute the SQL statements in the schema file of the database connection you are using. After executing the schema file's SQL statements, Laravel will execute any remaining migrations that were not part of the schema dump.
If your application's tests use a different database connection than the one you typically use during local development, you should ensure you have dumped a schema file using that database connection so that your tests are able to build your database. You may wish to do this after dumping the database connection you typically use during local development:
php artisan schema:dump
php artisan schema:dump --database=testing --prune
You should commit your database schema file to source control so that other new developers on your team may quickly create your application's initial database structure.
[!WARNING]
Migration squashing is only available for the MariaDB, MySQL, PostgreSQL, and SQLite databases and utilizes the database's command-line client.
A migration class contains two methods: up
and down
. The up
method is used to add new tables, columns, or indexes to your database, while the down
method should reverse the operations performed by the up
method.
Within both of these methods, you may use the Laravel schema builder to expressively create and modify tables. To learn about all of the methods available on the Schema
builder, check out its documentation. For example, the following migration creates a flights
table:
<?php
use Illuminate\Database\Migrations\Migration;
use Illuminate\Database\Schema\Blueprint;
use Illuminate\Support\Facades\Schema;
return new class extends Migration
{
/**
* Run the migrations.
*/
public function up(): void
{
Schema::create('flights', function (Blueprint $table) {
$table->id();
$table->string('name');
$table->string('airline');
$table->timestamps();
});
}
/**
* Reverse the migrations.
*/
public function down(): void
{
Schema::drop('flights');
}
};
If your migration will be interacting with a database connection other than your application's default database connection, you should set the $connection
property of your migration:
/**
* The database connection that should be used by the migration.
*
* @var string
*/
protected $connection = 'pgsql';
/**
* Run the migrations.
*/
public function up(): void
{
// ...
}
To run all of your outstanding migrations, execute the migrate
Artisan command:
php artisan migrate
If you would like to see which migrations have run thus far, you may use the migrate:status
Artisan command:
php artisan migrate:status
If you would like to see the SQL statements that will be executed by the migrations without actually running them, you may provide the --pretend
flag to the migrate
command:
php artisan migrate --pretend
If you are deploying your application across multiple servers and running migrations as part of your deployment process, you likely do not want two servers attempting to migrate the database at the same time. To avoid this, you may use the isolated
option when invoking the migrate
command.
When the isolated
option is provided, Laravel will acquire an atomic lock using your application's cache driver before attempting to run your migrations. All other attempts to run the migrate
command while that lock is held will not execute; however, the command will still exit with a successful exit status code:
php artisan migrate --isolated
[!WARNING]
To utilize this feature, your application must be using thememcached
,redis
,dynamodb
,database
,file
, orarray
cache driver as your application's default cache driver. In addition, all servers must be communicating with the same central cache server.
Some migration operations are destructive, which means they may cause you to lose data. In order to protect you from running these commands against your production database, you will be prompted for confirmation before the commands are executed. To force the commands to run without a prompt, use the --force
flag:
php artisan migrate --force
To roll back the latest migration operation, you may use the rollback
Artisan command. This command rolls back the last "batch" of migrations, which may include multiple migration files:
php artisan migrate:rollback
You may roll back a limited number of migrations by providing the step
option to the rollback
command. For example, the following command will roll back the last five migrations:
php artisan migrate:rollback --step=5
You may roll back a specific "batch" of migrations by providing the batch
option to the rollback
command, where the batch
option corresponds to a batch value within your application's migrations
database table. For example, the following command will roll back all migrations in batch three:
php artisan migrate:rollback --batch=3
If you would like to see the SQL statements that will be executed by the migrations without actually running them, you may provide the --pretend
flag to the migrate:rollback
command:
php artisan migrate:rollback --pretend
The migrate:reset
command will roll back all of your application's migrations:
php artisan migrate:reset
The migrate:refresh
command will roll back all of your migrations and then execute the migrate
command. This command effectively re-creates your entire database:
php artisan migrate:refresh
# Refresh the database and run all database seeds...
php artisan migrate:refresh --seed
You may roll back and re-migrate a limited number of migrations by providing the step
option to the refresh
command. For example, the following command will roll back and re-migrate the last five migrations:
php artisan migrate:refresh --step=5
The migrate:fresh
command will drop all tables from the database and then execute the migrate
command:
php artisan migrate:fresh
php artisan migrate:fresh --seed
By default, the migrate:fresh
command only drops tables from the default database connection. However, you may use the --database
option to specify the database connection that should be migrated. The database connection name should correspond to a connection defined in your application's database
configuration file:
php artisan migrate:fresh --database=admin
[!WARNING]
Themigrate:fresh
command will drop all database tables regardless of their prefix. This command should be used with caution when developing on a database that is shared with other applications.
To create a new database table, use the create
method on the Schema
facade. The create
method accepts two arguments: the first is the name of the table, while the second is a closure which receives a Blueprint
object that may be used to define the new table:
use Illuminate\Database\Schema\Blueprint;
use Illuminate\Support\Facades\Schema;
Schema::create('users', function (Blueprint $table) {
$table->id();
$table->string('name');
$table->string('email');
$table->timestamps();
});
When creating the table, you may use any of the schema builder's column methods to define the table's columns.
You may determine the existence of a table, column, or index using the hasTable
, hasColumn
, and hasIndex
methods:
if (Schema::hasTable('users')) {
// The "users" table exists...
}
if (Schema::hasColumn('users', 'email')) {
// The "users" table exists and has an "email" column...
}
if (Schema::hasIndex('users', ['email'], 'unique')) {
// The "users" table exists and has a unique index on the "email" column...
}
If you want to perform a schema operation on a database connection that is not your application's default connection, use the connection
method:
Schema::connection('sqlite')->create('users', function (Blueprint $table) {
$table->id();
});
In addition, a few other properties and methods may be used to define other aspects of the table's creation. The engine
property may be used to specify the table's storage engine when using MariaDB or MySQL:
Schema::create('users', function (Blueprint $table) {
$table->engine('InnoDB');
// ...
});
The charset
and collation
properties may be used to specify the character set and collation for the created table when using MariaDB or MySQL:
Schema::create('users', function (Blueprint $table) {
$table->charset('utf8mb4');
$table->collation('utf8mb4_unicode_ci');
// ...
});
The temporary
method may be used to indicate that the table should be "temporary". Temporary tables are only visible to the current connection's database session and are dropped automatically when the connection is closed:
Schema::create('calculations', function (Blueprint $table) {
$table->temporary();
// ...
});
If you would like to add a "comment" to a database table, you may invoke the comment
method on the table instance. Table comments are currently only supported by MariaDB, MySQL, and PostgreSQL:
Schema::create('calculations', function (Blueprint $table) {
$table->comment('Business calculations');
// ...
});
The table
method on the Schema
facade may be used to update existing tables. Like the create
method, the table
method accepts two arguments: the name of the table and a closure that receives a Blueprint
instance you may use to add columns or indexes to the table:
use Illuminate\Database\Schema\Blueprint;
use Illuminate\Support\Facades\Schema;
Schema::table('users', function (Blueprint $table) {
$table->integer('votes');
});
To rename an existing database table, use the rename
method:
use Illuminate\Support\Facades\Schema;
Schema::rename($from, $to);
To drop an existing table, you may use the drop
or dropIfExists
methods:
Schema::drop('users');
Schema::dropIfExists('users');
Before renaming a table, you should verify that any foreign key constraints on the table have an explicit name in your migration files instead of letting Laravel assign a convention based name. Otherwise, the foreign key constraint name will refer to the old table name.
The table
method on the Schema
facade may be used to update existing tables. Like the create
method, the table
method accepts two arguments: the name of the table and a closure that receives an Illuminate\Database\Schema\Blueprint
instance you may use to add columns to the table:
use Illuminate\Database\Schema\Blueprint;
use Illuminate\Support\Facades\Schema;
Schema::table('users', function (Blueprint $table) {
$table->integer('votes');
});
The schema builder blueprint offers a variety of methods that correspond to the different types of columns you can add to your database tables. Each of the available methods are listed in the table below:
bigIncrements bigInteger binary boolean char dateTimeTz dateTime date decimal double enum float foreignId foreignIdFor foreignUlid foreignUuid geography geometry id increments integer ipAddress json jsonb longText macAddress mediumIncrements mediumInteger mediumText morphs nullableMorphs nullableTimestamps nullableUlidMorphs nullableUuidMorphs rememberToken set smallIncrements smallInteger softDeletesTz softDeletes string text timeTz time timestampTz timestamp timestampsTz timestamps tinyIncrements tinyInteger tinyText unsignedBigInteger unsignedInteger unsignedMediumInteger unsignedSmallInteger unsignedTinyInteger ulidMorphs uuidMorphs ulid uuid vector year
bigIncrements()
The bigIncrements
method creates an auto-incrementing UNSIGNED BIGINT
(primary key) equivalent column:
$table->bigIncrements('id');
bigInteger()
The bigInteger
method creates a BIGINT
equivalent column:
$table->bigInteger('votes');
binary()
The binary
method creates a BLOB
equivalent column:
$table->binary('photo');
When utilizing MySQL, MariaDB, or SQL Server, you may pass length
and fixed
arguments to create VARBINARY
or BINARY
equivalent column:
$table->binary('data', length: 16); // VARBINARY(16)
$table->binary('data', length: 16, fixed: true); // BINARY(16)
boolean()
The boolean
method creates a BOOLEAN
equivalent column:
$table->boolean('confirmed');
char()
The char
method creates a CHAR
equivalent column with of a given length:
$table->char('name', length: 100);
dateTimeTz()
The dateTimeTz
method creates a DATETIME
(with timezone) equivalent column with an optional fractional seconds precision:
$table->dateTimeTz('created_at', precision: 0);
dateTime()
The dateTime
method creates a DATETIME
equivalent column with an optional fractional seconds precision:
$table->dateTime('created_at', precision: 0);
date()
The date
method creates a DATE
equivalent column:
$table->date('created_at');
decimal()
The decimal
method creates a DECIMAL
equivalent column with the given precision (total digits) and scale (decimal digits):
$table->decimal('amount', total: 8, places: 2);
double()
The double
method creates a DOUBLE
equivalent column:
$table->double('amount');
enum()
The enum
method creates a ENUM
equivalent column with the given valid values:
$table->enum('difficulty', ['easy', 'hard']);
float()
The float
method creates a FLOAT
equivalent column with the given precision:
$table->float('amount', precision: 53);
foreignId()
The foreignId
method creates an UNSIGNED BIGINT
equivalent column:
$table->foreignId('user_id');
foreignIdFor()
The foreignIdFor
method adds a {column}_id
equivalent column for a given model class. The column type will be UNSIGNED BIGINT
, CHAR(36)
, or CHAR(26)
depending on the model key type:
$table->foreignIdFor(User::class);
foreignUlid()
The foreignUlid
method creates a ULID
equivalent column:
$table->foreignUlid('user_id');
foreignUuid()
The foreignUuid
method creates a UUID
equivalent column:
$table->foreignUuid('user_id');
geography()
The geography
method creates a GEOGRAPHY
equivalent column with the given spatial type and SRID (Spatial Reference System Identifier):
$table->geography('coordinates', subtype: 'point', srid: 4326);
[!NOTE]
Support for spatial types depends on your database driver. Please refer to your database's documentation. If your application is utilizing a PostgreSQL database, you must install the PostGIS extension before thegeography
method may be used.
geometry()
The geometry
method creates a GEOMETRY
equivalent column with the given spatial type and SRID (Spatial Reference System Identifier):
$table->geometry('positions', subtype: 'point', srid: 0);
[!NOTE]
Support for spatial types depends on your database driver. Please refer to your database's documentation. If your application is utilizing a PostgreSQL database, you must install the PostGIS extension before thegeometry
method may be used.
id()
The id
method is an alias of the bigIncrements
method. By default, the method will create an id
column; however, you may pass a column name if you would like to assign a different name to the column:
$table->id();
increments()
The increments
method creates an auto-incrementing UNSIGNED INTEGER
equivalent column as a primary key:
$table->increments('id');
integer()
The integer
method creates an INTEGER
equivalent column:
$table->integer('votes');
ipAddress()
The ipAddress
method creates a VARCHAR
equivalent column:
$table->ipAddress('visitor');
When using PostgreSQL, an INET
column will be created.
json()
The json
method creates a JSON
equivalent column:
$table->json('options');
jsonb()
The jsonb
method creates a JSONB
equivalent column:
$table->jsonb('options');
longText()
The longText
method creates a LONGTEXT
equivalent column:
$table->longText('description');
When utilizing MySQL or MariaDB, you may apply a binary
character set to the column in order to create a LONGBLOB
equivalent column:
$table->longText('data')->charset('binary'); // LONGBLOB
macAddress()
The macAddress
method creates a column that is intended to hold a MAC address. Some database systems, such as PostgreSQL, have a dedicated column type for this type of data. Other database systems will use a string equivalent column:
$table->macAddress('device');
mediumIncrements()
The mediumIncrements
method creates an auto-incrementing UNSIGNED MEDIUMINT
equivalent column as a primary key:
$table->mediumIncrements('id');
mediumInteger()
The mediumInteger
method creates a MEDIUMINT
equivalent column:
$table->mediumInteger('votes');
mediumText()
The mediumText
method creates a MEDIUMTEXT
equivalent column:
$table->mediumText('description');
When utilizing MySQL or MariaDB, you may apply a binary
character set to the column in order to create a MEDIUMBLOB
equivalent column:
$table->mediumText('data')->charset('binary'); // MEDIUMBLOB
morphs()
The morphs
method is a convenience method that adds a {column}_id
equivalent column and a {column}_type
VARCHAR
equivalent column. The column type for the {column}_id
will be UNSIGNED BIGINT
, CHAR(36)
, or CHAR(26)
depending on the model key type.
This method is intended to be used when defining the columns necessary for a polymorphic Eloquent relationship. In the following example, taggable_id
and taggable_type
columns would be created:
$table->morphs('taggable');
nullableTimestamps()
The nullableTimestamps
method is an alias of the timestamps method:
$table->nullableTimestamps(precision: 0);
nullableMorphs()
The method is similar to the morphs method; however, the columns that are created will be "nullable":
$table->nullableMorphs('taggable');
nullableUlidMorphs()
The method is similar to the ulidMorphs method; however, the columns that are created will be "nullable":
$table->nullableUlidMorphs('taggable');
nullableUuidMorphs()
The method is similar to the uuidMorphs method; however, the columns that are created will be "nullable":
$table->nullableUuidMorphs('taggable');
rememberToken()
The rememberToken
method creates a nullable, VARCHAR(100)
equivalent column that is intended to store the current "remember me" authentication token:
$table->rememberToken();
set()
The set
method creates a SET
equivalent column with the given list of valid values:
$table->set('flavors', ['strawberry', 'vanilla']);
smallIncrements()
The smallIncrements
method creates an auto-incrementing UNSIGNED SMALLINT
equivalent column as a primary key:
$table->smallIncrements('id');
smallInteger()
The smallInteger
method creates a SMALLINT
equivalent column:
$table->smallInteger('votes');
softDeletesTz()
The softDeletesTz
method adds a nullable deleted_at
TIMESTAMP
(with timezone) equivalent column with an optional fractional seconds precision. This column is intended to store the deleted_at
timestamp needed for Eloquent's "soft delete" functionality:
$table->softDeletesTz('deleted_at', precision: 0);
softDeletes()
The softDeletes
method adds a nullable deleted_at
TIMESTAMP
equivalent column with an optional fractional seconds precision. This column is intended to store the deleted_at
timestamp needed for Eloquent's "soft delete" functionality:
$table->softDeletes('deleted_at', precision: 0);
string()
The string
method creates a VARCHAR
equivalent column of the given length:
$table->string('name', length: 100);
text()
The text
method creates a TEXT
equivalent column:
$table->text('description');
When utilizing MySQL or MariaDB, you may apply a binary
character set to the column in order to create a BLOB
equivalent column:
$table->text('data')->charset('binary'); // BLOB
timeTz()
The timeTz
method creates a TIME
(with timezone) equivalent column with an optional fractional seconds precision:
$table->timeTz('sunrise', precision: 0);
time()
The time
method creates a TIME
equivalent column with an optional fractional seconds precision:
$table->time('sunrise', precision: 0);
timestampTz()
The timestampTz
method creates a TIMESTAMP
(with timezone) equivalent column with an optional fractional seconds precision:
$table->timestampTz('added_at', precision: 0);
timestamp()
The timestamp
method creates a TIMESTAMP
equivalent column with an optional fractional seconds precision:
$table->timestamp('added_at', precision: 0);
timestampsTz()
The timestampsTz
method creates created_at
and updated_at
TIMESTAMP
(with timezone) equivalent columns with an optional fractional seconds precision:
$table->timestampsTz(precision: 0);
timestamps()
The timestamps
method creates created_at
and updated_at
TIMESTAMP
equivalent columns with an optional fractional seconds precision:
$table->timestamps(precision: 0);
tinyIncrements()
The tinyIncrements
method creates an auto-incrementing UNSIGNED TINYINT
equivalent column as a primary key:
$table->tinyIncrements('id');
tinyInteger()
The tinyInteger
method creates a TINYINT
equivalent column:
$table->tinyInteger('votes');
tinyText()
The tinyText
method creates a TINYTEXT
equivalent column:
$table->tinyText('notes');
When utilizing MySQL or MariaDB, you may apply a binary
character set to the column in order to create a TINYBLOB
equivalent column:
$table->tinyText('data')->charset('binary'); // TINYBLOB
unsignedBigInteger()
The unsignedBigInteger
method creates an UNSIGNED BIGINT
equivalent column:
$table->unsignedBigInteger('votes');
unsignedInteger()
The unsignedInteger
method creates an UNSIGNED INTEGER
equivalent column:
$table->unsignedInteger('votes');
unsignedMediumInteger()
The unsignedMediumInteger
method creates an UNSIGNED MEDIUMINT
equivalent column:
$table->unsignedMediumInteger('votes');
unsignedSmallInteger()
The unsignedSmallInteger
method creates an UNSIGNED SMALLINT
equivalent column:
$table->unsignedSmallInteger('votes');
unsignedTinyInteger()
The unsignedTinyInteger
method creates an UNSIGNED TINYINT
equivalent column:
$table->unsignedTinyInteger('votes');
ulidMorphs()
The ulidMorphs
method is a convenience method that adds a {column}_id
CHAR(26)
equivalent column and a {column}_type
VARCHAR
equivalent column.
This method is intended to be used when defining the columns necessary for a polymorphic Eloquent relationship that use ULID identifiers. In the following example, taggable_id
and taggable_type
columns would be created:
$table->ulidMorphs('taggable');
uuidMorphs()
The uuidMorphs
method is a convenience method that adds a {column}_id
CHAR(36)
equivalent column and a {column}_type
VARCHAR
equivalent column.
This method is intended to be used when defining the columns necessary for a polymorphic Eloquent relationship that use UUID identifiers. In the following example, taggable_id
and taggable_type
columns would be created:
$table->uuidMorphs('taggable');
ulid()
The ulid
method creates a ULID
equivalent column:
$table->ulid('id');
uuid()
The uuid
method creates a UUID
equivalent column:
$table->uuid('id');
vector()
The vector
method creates a vector
equivalent column:
$table->vector('embedding', dimensions: 100);
year()
The year
method creates a YEAR
equivalent column:
$table->year('birth_year');
In addition to the column types listed above, there are several column "modifiers" you may use when adding a column to a database table. For example, to make the column "nullable", you may use the nullable
method:
use Illuminate\Database\Schema\Blueprint;
use Illuminate\Support\Facades\Schema;
Schema::table('users', function (Blueprint $table) {
$table->string('email')->nullable();
});
The following table contains all of the available column modifiers. This list does not include index modifiers:
The default
modifier accepts a value or an Illuminate\Database\Query\Expression
instance. Using an Expression
instance will prevent Laravel from wrapping the value in quotes and allow you to use database specific functions. One situation where this is particularly useful is when you need to assign default values to JSON columns:
<?php
use Illuminate\Support\Facades\Schema;
use Illuminate\Database\Schema\Blueprint;
use Illuminate\Database\Query\Expression;
use Illuminate\Database\Migrations\Migration;
return new class extends Migration
{
/**
* Run the migrations.
*/
public function up(): void
{
Schema::create('flights', function (Blueprint $table) {
$table->id();
$table->json('movies')->default(new Expression('(JSON_ARRAY())'));
$table->timestamps();
});
}
};
[!WARNING]
Support for default expressions depends on your database driver, database version, and the field type. Please refer to your database's documentation.
When using the MariaDB or MySQL database, the after
method may be used to add columns after an existing column in the schema:
$table->after('password', function (Blueprint $table) {
$table->string('address_line1');
$table->string('address_line2');
$table->string('city');
});
The change
method allows you to modify the type and attributes of existing columns. For example, you may wish to increase the size of a string
column. To see the change
method in action, let's increase the size of the name
column from 25 to 50. To accomplish this, we simply define the new state of the column and then call the change
method:
Schema::table('users', function (Blueprint $table) {
$table->string('name', 50)->change();
});
When modifying a column, you must explicitly include all the modifiers you want to keep on the column definition - any missing attribute will be dropped. For example, to retain the unsigned
, default
, and comment
attributes, you must call each modifier explicitly when changing the column:
Schema::table('users', function (Blueprint $table) {
$table->integer('votes')->unsigned()->default(1)->comment('my comment')->change();
});
The change
method does not change the indexes of the column. Therefore, you may use index modifiers to explicitly add or drop an index when modifying the column:
// Add an index...
$table->bigIncrements('id')->primary()->change();
// Drop an index...
$table->char('postal_code', 10)->unique(false)->change();
To rename a column, you may use the renameColumn
method provided by the schema builder:
Schema::table('users', function (Blueprint $table) {
$table->renameColumn('from', 'to');
});
To drop a column, you may use the dropColumn
method on the schema builder:
Schema::table('users', function (Blueprint $table) {
$table->dropColumn('votes');
});
You may drop multiple columns from a table by passing an array of column names to the dropColumn
method:
Schema::table('users', function (Blueprint $table) {
$table->dropColumn(['votes', 'avatar', 'location']);
});
Laravel provides several convenient methods related to dropping common types of columns. Each of these methods is described in the table below:
The Laravel schema builder supports several types of indexes. The following example creates a new email
column and specifies that its values should be unique. To create the index, we can chain the unique
method onto the column definition:
use Illuminate\Database\Schema\Blueprint;
use Illuminate\Support\Facades\Schema;
Schema::table('users', function (Blueprint $table) {
$table->string('email')->unique();
});
Alternatively, you may create the index after defining the column. To do so, you should call the unique
method on the schema builder blueprint. This method accepts the name of the column that should receive a unique index:
$table->unique('email');
You may even pass an array of columns to an index method to create a compound (or composite) index:
$table->index(['account_id', 'created_at']);
When creating an index, Laravel will automatically generate an index name based on the table, column names, and the index type, but you may pass a second argument to the method to specify the index name yourself:
$table->unique('email', 'unique_email');
Laravel's schema builder blueprint class provides methods for creating each type of index supported by Laravel. Each index method accepts an optional second argument to specify the name of the index. If omitted, the name will be derived from the names of the table and column(s) used for the index, as well as the index type. Each of the available index methods is described in the table below:
To rename an index, you may use the renameIndex
method provided by the schema builder blueprint. This method accepts the current index name as its first argument and the desired name as its second argument:
$table->renameIndex('from', 'to')
To drop an index, you must specify the index's name. By default, Laravel automatically assigns an index name based on the table name, the name of the indexed column, and the index type. Here are some examples:
If you pass an array of columns into a method that drops indexes, the conventional index name will be generated based on the table name, columns, and index type:
Schema::table('geo', function (Blueprint $table) {
$table->dropIndex(['state']); // Drops index 'geo_state_index'
});
Laravel also provides support for creating foreign key constraints, which are used to force referential integrity at the database level. For example, let's define a user_id
column on the posts
table that references the id
column on a users
table:
use Illuminate\Database\Schema\Blueprint;
use Illuminate\Support\Facades\Schema;
Schema::table('posts', function (Blueprint $table) {
$table->unsignedBigInteger('user_id');
$table->foreign('user_id')->references('id')->on('users');
});
Since this syntax is rather verbose, Laravel provides additional, terser methods that use conventions to provide a better developer experience. When using the foreignId
method to create your column, the example above can be rewritten like so:
Schema::table('posts', function (Blueprint $table) {
$table->foreignId('user_id')->constrained();
});
The foreignId
method creates an UNSIGNED BIGINT
equivalent column, while the constrained
method will use conventions to determine the table and column being referenced. If your table name does not match Laravel's conventions, you may manually provide it to the constrained
method. In addition, the name that should be assigned to the generated index may be specified as well:
Schema::table('posts', function (Blueprint $table) {
$table->foreignId('user_id')->constrained(
table: 'users', indexName: 'posts_user_id'
);
});
You may also specify the desired action for the "on delete" and "on update" properties of the constraint:
$table->foreignId('user_id')
->constrained()
->onUpdate('cascade')
->onDelete('cascade');
An alternative, expressive syntax is also provided for these actions:
Any additional column modifiers must be called before the constrained
method:
$table->foreignId('user_id')
->nullable()
->constrained();
To drop a foreign key, you may use the dropForeign
method, passing the name of the foreign key constraint to be deleted as an argument. Foreign key constraints use the same naming convention as indexes. In other words, the foreign key constraint name is based on the name of the table and the columns in the constraint, followed by a "_foreign" suffix:
$table->dropForeign('posts_user_id_foreign');
Alternatively, you may pass an array containing the column name that holds the foreign key to the dropForeign
method. The array will be converted to a foreign key constraint name using Laravel's constraint naming conventions:
$table->dropForeign(['user_id']);
You may enable or disable foreign key constraints within your migrations by using the following methods:
Schema::enableForeignKeyConstraints();
Schema::disableForeignKeyConstraints();
Schema::withoutForeignKeyConstraints(function () {
// Constraints disabled within this closure...
});
[!WARNING]
SQLite disables foreign key constraints by default. When using SQLite, make sure to enable foreign key support in your database configuration before attempting to create them in your migrations.
For convenience, each migration operation will dispatch an event. All of the following events extend the base Illuminate\Database\Events\MigrationEvent
class: