You can also find all 100 answers here 👉 Devinterview.io - Laravel
Laravel is a PHP web framework that excels in the MVC (Model-View-Controller) architecture model. It stands out for its fluent and expressive syntax, making web development tasks more accessible and faster. Laravel's component-based system and extensive toolset streamline development workflows, ensuring robust, secure, and maintainable web applications.
- Modular Packaging System: Composant provides an organized venue for managing all third-party packages.
- Eloquent ORM: Offers an intuitive and PHP-analogous way to perform database operations.
- Database Migrations, Seeding, and Query Builder: Simplifies database tasks, including seamless transition across multiple environments.
- Artisan Command-Line Utility: Facilitates a range of tasks, from building controllers to managing databases.
- Middleware: Offers a flexible mechanism for HTTP request filtering.
- Task Scheduling: Allows the application to automate long-running tasks.
- I/O Concurrent Downloads: Speeds up downloads using PHP's multi-curl functions.
- Robust Background Job Processing; using Queues.
- Realtime Event Broadcasting.
- Unit and Work Testing: Inbuilt tools for quality assurance.
- Logging and Integrated Testing Tools: Ensures robustness and stability.
- Blade Templating Engine: A clean, straightforward syntax for designing the application's views.
- RESTful Resource Controllers: Conforms to the REST architectural style.
- In-depth Documentation: Comprehensive and easy to follow.
- Startups: Its efficient tools facilitate rapid prototyping and deployment, perfect for startups looking to catch early traction.
- Enterprise: The framework's powerful systems are well-suited for enterprise-level applications, ensuring scalability and stability.
- Freelancers and Agencies: Laravel's component modularity and resource management capabilities boost productivity in varied environments.
- Developers of All Skill Levels: Its intuitive syntax makes it suitable for beginners and experts alike.
Laravel consistently implements the Model-View-Controller (MVC) architectural pattern, providing a methodical means to segregate data, application logic, and user interface.
-
Model: Represents the data and the business rules concerning the data. This includes data persistence, validation, business logic, and authentication.
-
View: Presents data to the user in a specific format. The view receives data from the model and user interactions from the controller.
-
Controller: Acts as an intermediary between models and views. It processes user input, interacts with the model, and selects the view to display.
-
Model: Laravel uses Eloquent, a powerful ORM for modeling database entities. Eloquent facilitates direct interaction with the database, making data handling and relationships intuitive. It also provides mechanisms for data validation and attribute modification.
-
View: Blade, Laravel's templating engine, is responsible for the visual representation of data. Blade templates are versatile and enable dynamic content rendering.
-
Controller: Laravel utilizes controllers to orchestrate data flow between models and views. Controllers handle user requests, validate input, perform application logic, and determine the appropriate view to render.
Here is the Laravel code:
- Model: defines a
User
model that represents users in the system.
namespace App;
use Illuminate\Database\Eloquent\Model;
class User extends Model
{
protected $fillable = ['name', 'email', 'password'];
}
- View: a Blade template that conditionally renders a greeting based on whether a user is authenticated or not.
@if (Auth::check())
<p>Hello, {{ Auth::user()->name }}!</p>
@else
<p>Welcome, guest!</p>
@endif
- Controller: a
UserController
that embodies requests related to users.
namespace App\Http\Controllers;
use App\User;
use Illuminate\Http\Request;
use App\Http\Controllers\Controller;
class UserController extends Controller
{
public function show($id)
{
$user = User::find($id);
return view('user.show', ['user' => $user]);
}
public function update(Request $request, $id)
{
$user = User::find($id);
$user->name = $request->name;
$user->save();
return redirect()->route('user.show', ['id' => $user->id]);
}
}
Laravel demands specific server requirements to ensure seamless functionality and for the best results.
-
PHP: A server with PHP 7.4 or higher is essential.
-
Extensions: Install
OpenSSL
,PDO
,Mbstring
,Tokenizer
, andXML
PHP extensions. -
JSON: A compatible PHP version with
JSON
support is necessary. -
Composer: Laravel's project setup relies on Composer, a PHP dependency manager.
Both Apache and Nginx can host Laravel, but their setup differs:
- Apache: Ensure the
mod_rewrite
module is active for URL rewriting. - Nginx: Leverage
try_files
to handle URL rewriting.
- Directories: The
storage
andbootstrap/cache
directories need to be writable.
For cleaner URL structures, setting up URL rewriting is mandatory:
In the .htaccess
file:
<IfModule mod_rewrite.c>
RewriteEngine On
RewriteBase /
RewriteRule ^index\.php$ - [L]
RewriteCond %{REQUEST_FILENAME} !-f
RewriteCond %{REQUEST_FILENAME} !-d
RewriteRule . /index.php [L]
</IfModule>
In your configuration block:
location / {
try_files $uri $uri/ /index.php?$query_string;
}
Laravel uses CRON to run scheduled jobs, often present at * * * * * cd /path-to-your-project && php artisan schedule:run >> /dev/null 2>&1
.
Transmission through SSL/TLS is crucial, especially for protecting sensitive information.
In your virtual host file:
<Directory "/path-to-your-project">
AllowOverride All
</Directory>
In your Nginx server block:
location / {
try_files $uri $uri/ /index.php?$query_string;
gzip_static on;
}
- PHP 8: Use Laravel 8.x or higher.
- PHP Modules: Cyrillic support necessitates the presence of the
php-intl
module.
Setting up a Laravel project is streamlined and ensures best practices from the beginning. Artisan, Laravel's command-line interface, offers numerous commands for project management.
-
Install Laravel: Use Composer to install Laravel, and then the
create-project
command. -
Initialize Project: Run
composer install
to build the initial directory structure and install required packages. -
Environment Configuration: Create a
.env
file from.env.example
for environment-specific settings. -
Encryption Key: Generate a unique application key with the
php artisan key:generate
command. -
Database Setup: Specify database credentials in
.env
. Executephp artisan migrate
to set up the database schema if using migrations. -
Serve the Project: Use
php artisan serve
to launch the web server and access the project at the provided URL. -
Set Permissions: Ensure the
storage
andbootstrap/cache
directories are writable. -
Optional Steps:
-
Frontend Setup: Laravel Mix bridges assets like CSS, JS, and images. Run npm install within the Laravel project directory to get started.
-
SMTP Configuration: If enabling email functionality, update the
.env
file with SMTP credentials. -
Caching Configuration: Set up cache drivers as needed.
-
composer create-project --prefer-dist laravel/laravel blog
This command installs the latest version of Laravel in a folder named blog
. Use any proper Laravel directory name of your choice.
APP_NAME=Laravel
APP_ENV=local
APP_DEBUG=true
APP_KEY=YOUR_UNIQUE_KEY
APP_URL=http://localhost
DB_CONNECTION=mysql
DB_HOST=127.0.0.1
DB_PORT=3306
DB_DATABASE=laravel
DB_USERNAME=root
DB_PASSWORD=
Use the following Terminal commands to set up Laravel.
cp .env.example .env # Option "cp" may be "copy" for Windows
php artisan key:generate
- Version Controlling: Utilize Git for source control right from the project's inception.
- Environment-Dedicated Tooling: Tailor development and deployment tooling based on the environment to streamline workflows further.
Laravel's routing system serves as the bridge between HTTP requests and application code. It's responsible for deciphering incoming requests and dispatching them to the corresponding controller methods.
- Verb: Refers to the HTTP action, e.g., GET, POST, PUT, DELETE.
- URI: The specific path that leads to the requested resource.
- Action: Ties the request to a specific method in a defined controller.
Laravel offers two primary methods for handling routes:
-
Implicit: Involves direct handling of routes. This approach is better suited for simple systems.
-
Explicit: Utilizes routing definitions that cater to specific HTTP verbs and respond to named URIs, offering a structured routing system.
In this approach, routes are defined directly in code using \Illuminate\Routing\Router
methods; most commonly, get
and post
.
Route::get('/profile', 'UserController@showProfile');
Implicit routing is simple and ideal for smaller applications.
Laravel stores explicit route definitions in the routes
directory, potentially organized within multiple files.
Standard HTTP actions like GET, POST, PUT, DELETE have corresponding methods for explicit routing: get
, post
, put
, and delete
. Laravel also offers the match
and any
methods for flexibility.
Route::get('/users', 'UserController@index');
This feature assigns unique names to routes, enabling easy access for operations like URL generation and redirection.
Example:
Route::get('user/profile', ['as' => 'profile', 'uses' => 'UserController@showProfile']);
Groups furnish a clean way to administer routes that have common attributes, such as middleware requirements or shared URIs.
Example:
Route::prefix('admin')->middleware('auth')->group(function () {
// Define the admin routes
});
- Route Parameters: Laravel permits the definition of routes with dynamic segments, denoted by
{}
. These dynamic segments can be captured and utilized.
Example:
Route::get('user/{id}', function ($id) {
return 'User '.$id;
});
- Optional Parameters: For more flexibility, a route may specify segments as optional, evident by the use of a question mark.
Example:
Route::get('user/{name?}', function ($name = null) {
return $name;
});
- Regular Expression Constraints: To exercise fine-grained control, constraints make it possible to specify the format of a route segment using regular expressions.
Example:
Route::get('user/{id}', function ($id) {
return 'User '.$id;
})->where('id', '[0-9]+');
- Falling Back with Fallback Routes: Laravel can be configured to utilize a "fallback" route when no other routes match the incoming request. Often used in the context of SPAs.
Example:
Route::fallback(function () {
return view('notfound');
});
Middleware act as a firewall between the incoming HTTP requests and the application logic. They provide a mechanism to filter, inspect, and possibly alter the incoming data. Laravel has built-in middleware for various common tasks, and it also allows developers to create custom middleware tailored to application-specific requirements.
When an HTTP request hits your Laravel application, it moves through several middleware before reaching the intended controller or view. These are some frequently-seen operations achieved by middleware:
-
Authentication: Ensure that the user issuing the request is authenticated before reaching the application logic.
-
Authorization: Once authenticated, verify that the user has the necessary permissions to access the particular resource or perform the requested action.
-
Logging: Capture details about the incoming request, such as the requesting IP address, HTTP method, or parameters.
-
Session Handling: Manage user sessions, which permits web applications to oversee user states across multiple requests.
-
Input Verification and Sanitization: Inspect and cleanse the incoming data to avoid potential security threats, such as Cross-Site Scripting (XSS) attacks or SQL injection.
-
HTTP Request Arrival: The web server receives an incoming HTTP request.
-
Middleware Application: Laravel employs specific middleware on the received request.
-
Execution Pipeline: Middleware execute in sequence, each having the option to terminate the pipeline or pass the request to the next middleware.
-
Processing: The middleware might perform certain tasks or modifications, such as log requests or redirect unauthenticated users.
-
Controller/ Response: Once the full middleware stack is traversed, the request proceeds to the associated controller or directly returns a response, bypassing the controller.
Middleware in Laravel embraces the Chain of Responsibility design pattern. Each middleware is responsible for a specific type of task or validation. Following middleware only comes into play if the previous ones pass or fail according to certain criteria.
For instance, when a request necessitates user authentication:
- The middleware stack begins with a guard that ensures the user is logged in.
- If the user is authenticated, it proceeds to the next middleware. If not, the request might be redirected to a login page.
Developers can craft tailor-made middleware for personalized actions, like data manipulation or process control. Laravel's artisan command-line tool even simplifies the process.
Here is an example of how you can create custom middleware using the Laravel artisan command:
php artisan make:middleware CheckUserRole
This would create a new middleware file called CheckUserRole
in the App/Http/Middleware
directory. After that, you would define your middleware logic in the created file.
Laravel provides a feature to cluster one or more middleware into groups for straightforward management and application. This simplifies the process of associating several middleware with a specific route or set of routes.
The middleware groups are defined in the app/Http/Kernel.php
file under an array called middlewareGroups
. For instance, a default 'web'
middleware group may invoke middleware like EncryptCookies
, CheckForMaintenanceMode
, and Authenticate
that are pertinent for web requests. Developers can also create their custom groups catering to their unique needs, like one for API, system administration, etc.
After configuring the groups in Kernel.php
, routes can trigger these middleware groups using the middleware
method.
Occasionally, there might be a need for certain middleware to be applied to every HTTP request, such as logging or CORS (Cross-Origin Resource Sharing) handling. Laravel caters to this requirement through a concept known as global middleware.
Global middleware is registered in the app/Http/Kernel.php
file under the $middleware
property. Any middleware listed here will be executed on every HTTP request, irrespective of the route or route group. It's important to exercise caution when selecting middleware for global status, as it could significantly affect the application's performance and correctness.
Let's dive deeper into the Laravel request lifecycle.
- HTTP Middleware: Delivers a modular approach to filtering HTTP requests and responses.
- Request: Transforms HTTP requests into an instance of
Request
. - Router: Matches the URI to an appropriate route.
- Controller: Processes the incoming request.
- Middleware Groups: Organize several middleware under a single, distinctive name.
- Response: Turns controller return results into HTTP responses.
- Global Middleware: Applies to all HTTP requests.
-
Initial Request:
- Following an HTTP request, \textbf{the
public/index.php
file is called}. This initializes the Laravel framework.
Code example for
public/index.php
andvendor/autoload.php
:// public/index.php require __DIR__.'/../vendor/autoload.php';
- Quest travels through the
Bootstrap
layer and lands in theKernel
. However,Middleware
is not yet applied.
- Following an HTTP request, \textbf{the
-
HTTP Kernel:
- Laravel trusts the HTTP Kernel with assigning \textbf{global middleware}.
- `App\Http\Kernel` houses both the global middleware and approach to invoking route middleware.
- Using `\Illuminate\Foundation\Http\Kernel`, the quest arrives at the `\Illuminate\Foundation\Application`.
Code for App\Http\Kernel.php
:
protected $middleware = [
\Illuminate\Foundation\Http\Middleware\CheckForMaintenanceMode::class,
// More global middleware go here
];
```
3. **Routing**:
- **HTTP Kernel** and the `Request` synchronizes to identify the most suitable route.
- Appropriate route data, such as controller and method names, is discovered.
- Named middleware is assigned, if any.
Sample code from `routes/web.php` for a named middleware:
```php
Route::get('/', 'HomeController@index')->middleware('auth');
```
Sample code with Route::middleware:
```php
Route::middleware(['web', 'auth'])->get('/user', 'UserController@index');
```
4. **Controller**:
</br>
- The route delegates the quest to an assigned controller together. The method on the controller then processes the quest.
- If applicable, **the controller method returns a response**. Laravel, naturally, transforms this into an HTTP response.
Code **excerpt** in a Laravel controller for returning a view:
```php
public function index()
{
return view('user.profile', ['user' => User::findOrFail(1)]);
}
-
Response:
- The created response passes through \textbf{middleware} once again, if there might exist any.
- Lastly, Laravel sends the response back to the customer.
- The response life cycle ends, together with the quest itself.
In Laravel, Service Providers act as the main entry point for registering several components such as view composers, routes, and much more in the application.
- Registering Services: This includes services such as repositories, interfaces, and any binding within the Laravel service container (
App::make()
). - Bootstrapping and Configuration: Provides a platform to set up the application's initial state before it boots up.
- Application Service Providers: They are specific only to the application and are not a part of the Laravel framework.
- Framework Service Providers: These are applicable across different Laravel applications and pertain to the Laravel framework itself.
Service providers are mostly registered in the config/app.php
file.
If, for example, a custom Service Provider AcmeServiceProvider
is to be registered:
return [
// ...
'providers' => [
// ...
Acme\AcmeServiceProvider::class,
],
];
While Service Providers have a register
method for simple bindings, also they have a boot
method for more complex procedures such as registering event listeners or even defined routes.
public function boot()
{
//
}
Service Providers make extensive use of the Inversion of Control (IOC) Container in Laravel, facilitating access to the instantiated classes and services.
By including these clear architectural distinctions, the Laravel framework ensures a modular, maintainable, and scalable design.
Eloquent ORM is a fast and flexible way to query databases using Laravel models. It simplifies many common tasks such as establishing database relationships and performing CRUD operations.
In Eloquent, each database table has a corresponding "Model" which is used to interact with that table. Models and relationships in Eloquent allow for common database tasks without requiring direct SQL queries.
-
Readability: Using Eloquent, queries are easier to read and understand than raw SQL. This enhances code maintainability.
-
Portability: Models and the relationships between them make it simple to move code between different database systems (e.g., from MySQL to SQLite or PostgreSQL).
-
Scalability: Eloquent provides a simple and clean way to define relationships between tables, ensuring the code scales effectively.
-
Refactoring: If the database schema changes, often only the model needs to be updated. Eloquent abstracts these changes from the rest of the codebase.
-
Basic CRUD Operations: Eloquent makes it simple to create, read, update, and delete records using the familiar object-oriented syntax.
-
Model Events: Perform actions during certain events such as when a new model is saved or updated.
-
Query Scopes: Pre-define filtering criteria to make common queries concise and consistent.
-
Data Accessors & Mutators: Fine-tune how data is retrieved or set on the model.
-
One-to-One: Defines a one-to-one relationship between two tables, such as a
User
and aPhone
table. -
One-to-Many: Establishes a one-to-many relationship, for instance, a user can have many posts.
-
Many-to-Many: Describes a many-to-many relationship using an intermediate table, like tags on a blog post.
-
Polymorphic Relations: Eloquent models can relate to multiple types of models using a single association.
-
Through Relationships: Useful for accessing "intermediate" models in the relationship.
-
Has Many Through: Provides a relationship between "three" models through a "through" table.
-
Relationship Eager Loading: Minimizes the number of queries to the database when fetching relationships.
-
Lazy Eager Loading: Efficiently loads relationships only when accessed.
-
Aggregates: Sum, count, and other SQL aggregates are supported for quick operations.
-
Pagination: Built-in support for paginating large result sets.
-
Mind the N+1 Problem: Use eager loading to minimize the number of queries to the database.
-
Keep It Consistent: Abide by Laravel's conventions to ensure smooth sailing.
-
Fail Early: Utilize strict type casting and validation to catch issues at the earliest opportunity.
-
Stay Efficient: Make your queries as efficient as possible by utilizing the many optimising features of Eloquent.
-
Test Thoroughly: Always validate your model's methods and relationships to ensure they perform as expected.
Here is the PHP code:
// Create the record
$user = new User();
$user->name = 'John Doe';
$user->email = 'john@example.com';
$user->save();
// Find a record by its primary key
$user = User::find(1);
// Update the record
$user->email = 'john.doe@example.com';
$user->save();
// Delete the record
$user->delete();
Here is the PHP code:
class User extends Model
{
public function phone()
{
return $this->hasOne(Phone::class);
}
}
class Phone extends Model
{
public function user()
{
return $this->belongsTo(User::class);
}
}
-
Mind the N+1 Problem: Use eager loading to minimize the number of queries to the database.
-
Keep It Consistent: Abide by Laravel's conventions to ensure smooth sailing.
-
Fail Early: Utilize strict type casting and validation to catch issues at the earliest opportunity.
-
Stay Efficient: Make your queries as efficient as possible by utilizing the many optimizing features of Eloquent.
-
Test Thoroughly: Always validate your model's methods and relationships to ensure they perform as expected.
Laravel simplifies data validation, ensuring integrity in both forms and API requests.
For more general validation rules, Laravel provides a simple validate()
method that many beginners find helpful.
Here's the typical workflow:
-
Create a Controller: Define methods for HTTP verbs like
store()
for POST requests. In these methods, use thevalidate()
helper. If the validation fails, Laravel automatically redirects back to the previous location.namespace App\Http\Controllers; use Illuminate\Http\Request; class UserController extends Controller { public function store(Request $request) { $validatedData = $request->validate([ 'name' => 'required|max:255', 'email' => 'required|email', ]); // If validation passes, continue saving data or return a response. } }
-
Add Validation Messages: Tailor error messages for each field.
$validatedData = $request->validate([ 'name' => 'required|max:255', 'email' => 'required|email', ], [ 'name.required' => 'The name field is required.', // More... ]);
By using the validate()
method within the Controller, Laravel provides all necessary details about the validation failure, such as:
- Redirected back to the form (stateful app)
$errors
variable available in the blade views
Upon successful validation, the $validatedData
array holds the cleared data, ready for further processing.
For the more traditional workflows such as a direct page render (no redirects), or API responses, Laravel offers the Validator
facade. It enables extensive customization before the final decision on the error handling.
Laravel Contracts represent interfaces that define core framework services and are essential for facilitating modular, component-based application design.
By providing defined methods, Laravel Contracts ensure interoperability between various components and services. This results in an environment where different pieces of the ecosystem can 'contract' to a set of specified behaviors. This helps in maintaining loose coupling between software components.
- Consistency: Contracts enforce a common structure for interacting components.
- Flexibility: They facilitate interchangeable implementations for services.
- Ease of Testing: Contracts enable robust unit testing by ensuring precise behavior specifications.
- Documentation: They serve as explicit documentation, detailing required methods and expected responses for services and components.
Laravel itself employs Contracts extensively in its codebase. For instance, the Cache
facade abstracts from various implementation details and relies on the CacheRepository
contract to standardize caching drivers' functionality.
The primary CacheRepository
interface serves as a contract for various caching methods. It is complemented by other interfaces, such as StoresQualities
, which further define specialized functionalities. The close association between these interfaces results in a cohesive system where individual parts target specific capabilities.
In this example, start with the CacheRepository
interface, which serves as the primary contract for caching methods. It mandates the presence of methods like get
, put
, and forget
.
CacheRepository
Interfaceinterface CacheRepository { public function get($key); public function put($key, $value, $minutes); public function forget($key); // ... other caching methods }
Then, you can have a more specialized interface like StoresQualities
that focuses on cache item manipulation through qualities.
StoresQualities
Interfaceinterface StoresQualities { public function incrementQuality($key, $value); public function touch($key); // ... other quality-related methods }
Laravel, a powerful PHP MVC framework, adopts a clear and intuitive file organization, aligning with modern development strategies.
- app: Centralizes application-specific code.
- bootstrap: Contains auto-loading code and defines the starting point for the application.
- config: Stores configuration files.
- database: Houses database-related code, such as migrations and seeders.
- public: The server's publicly accessible web root. It contains the front controller and assets like images, CSS, and JS files.
- resources: Affirming a cleaner division between client-side and server-side components. E.g., CSS and JS in
resources/assets
, and views inresources/views
.
- routes: Segregates application routes. Newer versions further divide routes by function or area, e.g., 'api' and 'web'.
- storage: Stores logs, cache, and uploaded files. Particularly, 'storage/app' houses uploads, ensuring they are not within the public web space.
- tests: A dedicated directory for automated tests.
- vendor: Manages dependencies via Composer, housing third-party libraries.
- health: For health-check related code. Laravel Sanctum, for instance, uses this for API health endpoints.
- jobs: Addresses data queueing, often in conjunction with Laravel's powerful job and queue systems.
- nova: For Laravel Nova, a premium, official, modern administration panel.
- settings: Utilized by beyondcode/laravel-settings to manage application-level settings.
- stubs: Facilitates customizable templates for automated routines, such as controller or model generation.
- sail: Tailors Laravel for use with Laravel Sail, a local development environment focused on a Docker configuration.
- tmp: A conventional temp directory for short-term file storage.
-
public/storage: Dynamically linked (if not already existing), merging
storage/app/public
with the publicly accessible web directory for public storage, often managed via symbolic links. -
vendor/bin, public/sanctum: These are not standard directories but commonly seen when dealing with Composer scripts (vendor/bin) or Laravel Sanctum.
- Organizational Efficiency: Assists in managing diverse components.
- Security and Access Control: Separates public and private content, reducing safety risks.
- Scalability: Allows logical expansion and reorganization as projects grow.
- Plugin and Package Integration: Provides clear locations for third-party modules and resources.
- Collaborative Workflow: This layout, being standard, eases collaboration amongst developers.
- Facilitates Testing: Housing tests within a dedicated directory allows for clear identifications and test environments.
In Laravel, configuring a database is crucial for data persistence.
By default, Laravel uses MySQL. However, you can easily configure it to work with a variety of databases such as PostgreSQL, SQLite, and more.
-
.env File:
- Define the connection details in the
.env
file, including the database type, host, port, and credentials.
- Define the connection details in the
-
config/database.php:
- Laravel configures the database connection dynamically based on the settings in the
.env
file. For more specific settings, you can modify theconfig/database.php
file.
- Laravel configures the database connection dynamically based on the settings in the
-
Migrations & Models:
- Use Laravel's migration files to maintain your database and models to interact with tables.
-
Eloquent ORM:
- Access database tables using Laravel's Eloquent ORM.
-
Database Methods:
- Execute database queries using Laravel's query builder and raw SQL methods.
-
Database Seeding (Optional):
- Load dummy data into your tables using seeders. This is especially useful during testing.
-
Cache & Session (Optional):
- Select the database service for cache and session storage. Using the same database for cache and sessions can provide consistent state management in certain situations.
-
Storage & File Systems (Optional):
- You can use Laravel's
storage
facade and file system for operations such as reading and writing files to the database.
- You can use Laravel's
-
Verification & Review:
- After configuration, verify the connection by running artisan commands like
migrate
or using a web interface.
- After configuration, verify the connection by running artisan commands like
Update the .env
file with your database specifications:
DB_CONNECTION=mysql
DB_HOST=127.0.0.1
DB_PORT=3306
DB_DATABASE=my_database
DB_USERNAME=root
DB_PASSWORD=your_password
Here is the Laravel database.php
file:
/**
* MySQL Databases
*/
'mysql' => [
'driver' => 'mysql',
'url' => env('DATABASE_URL'),
'host' => env('DB_HOST', '127.0.0.1'),
'port' => env('DB_PORT', '3306'),
'database' => env('DB_DATABASE', 'forge'),
'username' => env('DB_USERNAME', 'forge'),
'password' => env('DB_PASSWORD', ''),
...
],
/**
* PostgreSQL Databases
*/
'pgsql' => [
'driver' => 'pgsql',
...
],
/**
* SQLite Databases
*/
'sqlite' => [
'driver' => 'sqlite',
'url' => env('DATABASE_URL'),
'database' => env('DB_DATABASE', database_path('database.sqlite')),
'prefix' => '',
],
Laravel offers flexibility in configuring multiple SQL and NoSQL databases, all managed through a unified interface.
Migrations in Laravel serve as a version control system for the database and create a clear structure for managing changes, separating them into distinct steps.
- Migrations maintain a version history for the database schema, ensuring consistency across development, staging, and production environments.
- Each migration has a timestamp, resulting in a natural order for executing changes, making it easier for teams to coordinate DB updates.
- Laravel provides a simple command to roll back the last migration or even up to a specified step, ensuring revertibility.
- Laravel automates the generation of code for common database tasks. This both increases developer productivity and reduces the chance of errors due to manual coding.
-
Schema Agnosticism: Migrations make it possible to update database schema without being tied to specific database vendors.
-
Ephemeral Databases for Tests: Laravel's testing suite uses migrations to create and destroy temporary, in-memory databases for test runs, ensuring data isolation and reproducibility.
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Increased Security: Migrations support parametrized SQL queries, reducing vulnerabilities such as SQL injection.
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Data Consistency: Migrations provide mechanisms to orchestrate data changes alongside structural ones, ensuring both take effect in a synchronized manner.
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Standardization: Provides a consistent and structured approach to database management across development and production.
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Traceability: Migrations are version-controlled, offering clear histories and facilitating audit processes.
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Agility: Because both schema and data changes are controlled via migrations, making changes, and adapting the database to evolving requirements can be quicker and more reliable.
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Synchronous Collaboration: Migrations allow developers to work in parallel, making database changes without stepping on each other's toes, and then integrating those changes back into a single unified state.
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Streamlined Deployment: Using migrations during deployment transmits database changes efficiently and reliably between development and production environments.
To create a controller in Laravel, use the following artisan
command:
php artisan make:controller YourControllerName
Here YourControllerName
specifies the desired controller name. You can also use dot-notation for nested directories (Folder/YourControllerName
).
-
Resource Controllers: Laravel can create resource controlles that handle typical RESTful operations for you.
-
API Resource Controllers: These are specifically for RESTful APIs, providing a reduced set of actions compared to full resource controllers.
-
Invokable Controllers: If you need a single-action controller, you can use the
--invokable
flag. This is useful, for example, when working withRoute::resource
. -
Controller with Model: To combine model and controller creation, you can use
-m
or--model
.
Here is the updated code:
# command to make controller "YourControllerName" linked with Model "YourModel"
php artisan make:controller YourControllerName --model=YourModel