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node_modules
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node_modules
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base/.vitepress/dist
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/.base/.vitepress/dist
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base/.vitepress/cache
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/.base/.vitepress/cache
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/.vitepress/cache/
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/.vitepress/dist/
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@@ -3,7 +3,7 @@ banner_title: "Flash - Fullstack Development"
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banner_description: "Build fullstack apps with Flash, frontend and backend in one jar."
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banner_description: "Build fullstack apps with Flash, frontend and backend in one jar."
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---
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---
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# 🌐 Fullstack Development with Flash
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# 🌐 Fullstack Development
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Fullstack development involves building both the **front-end** (user interface) and **back-end** (server logic, database) of a web application. A fullstack developer is responsible for the entire application, ensuring a smooth connection between the two layers.
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Fullstack development involves building both the **front-end** (user interface) and **back-end** (server logic, database) of a web application. A fullstack developer is responsible for the entire application, ensuring a smooth connection between the two layers.
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@@ -17,7 +17,7 @@ Popular fullstack frameworks include:
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Developing and packaging a fullstack application can be complex, but **Flash** simplifies the process with built-in tools and **quality-of-life features**. With Flash, you can:
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Developing and packaging a fullstack application can be complex, but **Flash** simplifies the process with built-in tools and **quality-of-life features**. With Flash, you can:
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- Serve both **frontend** and **backend** from a single application.
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- Serve both **frontend** and **backend** from a single application.
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- Bundle everything into a **single JAR file** for easy deployment.
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- Bundle everything into a **single JAR file** for easy deployment.
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- Leverage HDIs for **clean, modular and maintainable route logic**.
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- Leverage HDI's for **clean, modular and maintainable route logic**.
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@@ -45,11 +45,11 @@ This guide will cover only some of the most popular javascript frontend build to
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### 🛠️ Setting up the Frontend Build Process
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### 🛠️ Setting up the Frontend Build Process
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:::warning
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:::warning
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When building a frontend application with a javascript framework that will be served from a subdirectory (e.g., `/app`), you need to specify the homepage in the `package.json` file. This ensures that the frontend assets are correctly loaded from the subdirectory.
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When building a frontend application with a javascript framework that will be served on a subpath (e.g., `/app`), you need to specify the homepage in the `package.json` file. This ensures that the frontend assets are correctly loaded from the subpath.
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Using a subdirectory and forgetting to set the homepage will result in broken asset links and a potentially non-functional frontend.
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Using a subpath and forgetting to set the homepage will result in broken asset links and a potentially non-functional frontend.
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```json
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```json
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{
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{
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"homepage": "/your-subdirectory"
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"homepage": "/your-subpath"
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}
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}
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```
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```
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:::
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:::
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@@ -92,7 +92,7 @@ Using a subdirectory and forgetting to set the homepage will result in broken as
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Once you have compiled the frontend assets and placed them in the `resources/frontend` folder, you can serve them using Flash's dynamic file server. This server will serve the frontend assets from the JAR's resources folder.
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Once you have compiled the frontend assets and placed them in the `resources/frontend` folder, you can serve them using Flash's dynamic file server. This server will serve the frontend assets from the JAR's resources folder.
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::: info
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::: info
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NOTE: The following example is assuming you plan to serve the frontend from the root path (`/`).
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NOTE: The following example is assuming you plan to serve the frontend from the root path (`/`).
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If you plan to serve the frontend from a subdirectory (e.g., `/app`), you will need to adjust the endpoint path accordingly by adding a trailing `/*`.
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If you plan to serve the frontend from a subpath (e.g., `/app`), you will need to adjust the endpoint path accordingly by adding a trailing `/*`.
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:::
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:::
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```java
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```java
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---
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---
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banner_title: "Flash - Handler Default Implementations"
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banner_title: "Flash - Handler Default Implementations"
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banner_description: "Leverage HDI's for cleaner and more maintainable route logic."
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banner_description: "Leverage HDIs for cleaner and more maintainable route logic."
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---
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---
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# ⚡ Handler Default Implementations (HDI)
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# ⚡ Handler Default Implementations (HDI)
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HDI's provide an elegant and reliable way to standardize common behaviors across multiple request handlers.
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Handler Default Implementations (HDIs) provide an elegant way to standardize common behaviors across multiple request handlers. By defining base handlers that extend `RequestHandler` (or chaining multiple base handlers together), you can modularize logic for common tasks like authentication, user data retrieval, and rate limiting.
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By defining base handlers that extend `RequestHandler` (or even chaining multiple base handlers), you can modularize your logic for aspects like authentication, user data retrieval, and rate limiting.
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HDIs are designed using the [Chain of Responsibility pattern](https://en.wikipedia.org/wiki/Chain-of-responsibility_pattern), making it easy to handle requests with layered logic.
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## 🔗 How It Works
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## 🔗 How It Works
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Instead of implementing repeated logic in every handler, you create abstract handler classes that encapsulate common functionality. Your actual route handlers then extend these base classes, inheriting their behavior while focusing purely on request-specific logic.
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Instead of repeating the same logic in each handler, create abstract handler classes that define common functionality. Your handler implementations then extend these base classes, inheriting the shared behavior while implementing the request-specific logic.
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### Semantics of an HDI
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Creating an HDI is simple, but it's useful to follow some guidelines for clarity and maintainability:
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1. ### **Base HDI Class**:
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- **Extends**: The base HDI class should extend `RequestHandler`.
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- **Constructor**: The constructor must call the super constructor with `Request` and `Response` objects.
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- **Override**: Override the `handle` method to include common behavior.
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The `handle` method should return the response to the client and should call the _Abstract Handler Method_, which is implemented by the handler or next HDI in the chain.
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```java
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@Override
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public Object handle() {
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// Common logic here, then call the abstract method
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return handleCustom();
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}
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```
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- **Abstract Handler Method**: Define an abstract method that must be implemented by the handler to provide custom logic. It should look like this:
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```java
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protected abstract Object handleCustom();
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```
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- **Protected Fields**: If needed, declare protected fields in the base class to pass data between handlers in the chain.
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::: info
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Protected fields are accessible to the handler implementation inside the Abstract Handler Method.
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Example HDI :
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```java
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public abstract class MyHDI extends RequestHandler {
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protected String data;
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public BaseHandler(Request req, Response res) {
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super(req, res);
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}
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@Override
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public Object handle() {
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data = "Some data"; // Set the data
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return handleCustom();
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}
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protected abstract Object handleCustom();
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}
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```
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Example Handler Implementation :
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```java
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public class MyHandler extends MyHDI {
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public MyHandler(Request req, Response res) {
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super(req, res);
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}
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@Override
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protected Object handleCustom() {
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// The data is accessible here
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System.out.println(data);
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return "Response";
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}
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}
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```
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:::
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2. ### **Handler Implementation**:
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- **Extends**: The handler should extend the HDI class (or be the final handler in the chain).
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- **Constructor**: The constructor should call the super constructor with `Request` and `Response` objects.
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- **Implement**: Implement the **Abstract Handler Method** from the HDI.
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- **Response Logic**: The response logic should be in the abstract method, and its return value is sent to the client.
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```java
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@Override
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protected Object handleCustom() {
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// Custom logic here
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return "Response";
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}
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```
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- **Protected Fields**: The handler implementation can access data from the HDI using the protected fields, **inside** the Abstract Handler Method.
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### 🛠 Example: API Key Authentication
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### 🛠 Example: API Key Authentication
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Imagine you want to protect API endpoints with an authentication key by checking it against a database. You can create an abstract `APIKeyProtectedHandler` that extends `RequestHandler` and implements the authentication logic:
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Now let's go over a simple example to demonstrate how HDIs work. Imagine you need to authenticate API requests by checking an API key. You can create an abstract `APIKeyProtectedHandler` that extends `RequestHandler` and handles the API key authentication:
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```java
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```java
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public abstract class APIKeyProtectedHandler extends RequestHandler {
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public abstract class APIKeyProtectedHandler extends RequestHandler {
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@@ -37,18 +108,16 @@ public abstract class APIKeyProtectedHandler extends RequestHandler {
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return handleAuthorized();
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return handleAuthorized();
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}
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}
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// Implement this method in your actual handlers
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protected abstract Object handleAuthorized();
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protected abstract Object handleAuthorized();
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private boolean isValidApiKey(String key) {
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private boolean isValidApiKey(String key) {
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// Implement key validation logic, e.g., checking against a database
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// Implement key validation logic, e.g., checking against a database
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// ...
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return true;
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return true;
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}
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}
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}
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}
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```
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```
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Now, your actual API handlers only need to extend APIKeyProtectedHandler, ensuring every request has a valid API key before executing its logic:
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Now, your API handler implementation only need to extend APIKeyProtectedHandler, ensuring every request has a valid API key before executing its logic:
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```java
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```java
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@RouteInfo(method = HttpMethod.GET, path = "/data")
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@RouteInfo(method = HttpMethod.GET, path = "/data")
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@@ -67,8 +136,9 @@ public class GetDataHandler extends APIKeyProtectedHandler {
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## 🏗️ Chaining HDIs for Modular Logic
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## 🏗️ Chaining HDIs for Modular Logic
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HDIs can be chained together to compose multiple layers of behavior. For example,
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imagine you want to authenticate users with a token and fetch their data from a database. You can create two abstract handlers that extend one another:
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HDIs can be chained together to create multiple layers of logic. For example, if you need to authenticate a user and fetch their data from a database, you can create two HDIs:
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- `ProtectedHandler` ensures authentication.
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- `ProtectedHandler` ensures authentication.
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@@ -121,14 +191,11 @@ public abstract class AuthenticatedHandler extends ProtectedHandler {
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}
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}
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```
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```
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- Your actual implementation handler `UserProfileHandler` extends `AuthenticatedHandler` and implements `handleWithUser` to ensure the user is authenticated and their profile data has been fetched before proceeding.
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- Your handler implementation `UserProfileHandler` extends `AuthenticatedHandler` and implements `handleWithUser` to ensure the user is authenticated and their profile data has been fetched before proceeding.
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```java
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```java
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@RouteInfo(endpoint = "/profile", method = HttpMethod.GET)
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@RouteInfo(endpoint = "/profile", method = HttpMethod.GET)
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public class UserProfileHandler extends AuthenticatedHandler {
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public class UserProfileHandler extends AuthenticatedHandler {
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// inherited from AuthenticatedHandler
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private String username = user.getUsername();
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public UserProfileHandler(Request req, Response res) {
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public UserProfileHandler(Request req, Response res) {
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super(req, res);
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super(req, res);
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}
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}
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@@ -136,7 +203,7 @@ public class UserProfileHandler extends AuthenticatedHandler {
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@Override
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@Override
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protected Object handleWithUser() {
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protected Object handleWithUser() {
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res.type("application/json");
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res.type("application/json");
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return "{\"username\":\"" + username + "\"}";
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return "{\"username\":\"" + user.getUsername() + "\"}";
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}
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}
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}
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}
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```
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```
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