NanoHTTPD is a light-weight HTTP server designed for embedding in other applications, released under a Modified BSD licence.
It is being developed at Github and uses Apache Maven for builds & unit testing:
We’ll create a custom HTTP server project using Maven for build/dep system. This tutorial assumes you are using a Unix variant and a shell. First, install Maven and Java SDK if not already installed. Then run:
mvn compile
mvn exec:java -pl webserver -Dexec.mainClass="fi.iki.elonen.SimpleWebServer"
You should now have a HTTP file server running on http://localhost:8080/.
Let’s raise the bar and build a custom web application next:
mvn archetype:generate -DgroupId=com.example -DartifactId=myHellopApp -DinteractiveMode=false
cd myHellopApp
Edit pom.xml
, and add this between <dependencies>:
<dependency>
<groupId>org.nanohttpd</groupId> <!-- <groupId>com.nanohttpd</groupId> for 2.1.0 and earlier -->
<artifactId>nanohttpd</artifactId>
<version>2.2.0</version>
</dependency>
Edit src/main/java/com/example/App.java
and replace it with: ```java package com.example;
import java.io.IOException;
import java.util.Map;
import fi.iki.elonen.NanoHTTPD;
public class App extends NanoHTTPD {
public App() throws IOException {
super(8080);
start(NanoHTTPD.SOCKET_READ_TIMEOUT, false);
System.out.println("\nRunning! Point your browers to http://localhost:8080/ \n");
}
public static void main(String[] args) {
try {
new App();
} catch (IOException ioe) {
System.err.println("Couldn't start server:\n" + ioe);
}
}
@Override
public Response serve(IHTTPSession session) {
String msg = "<html><body><h1>Hello server</h1>\n";
Map<String, String> parms = session.getParms();
if (parms.get("username") == null) {
msg += "<form action='?' method='get'>\n <p>Your name: <input type='text' name='username'></p>\n" + "</form>\n";
} else {
msg += "<p>Hello, " + parms.get("username") + "!</p>";
}
return newFixedLengthResponse(msg + "</body></html>\n");
}
}
```
Compile and run the server:
mvn compile
mvn exec:java -Dexec.mainClass="com.example.App"
If it started ok, point your browser at http://localhost:8080/ and enjoy a web server that asks your name and replies with a greeting.
Nanolets are like sevlet’s only that they have a extrem low profile. They offer an easy to use system for a more complex server application. This text has to be extrended with an example, so for now take a look at the unit tests for the usage. https://github.com/NanoHttpd/nanohttpd/blob/master/nanolets/src/test/java/fi/iki/elonen/router/AppNanolets.java
We are currently in the process of stabilizing NanoHttpd from the many pull requests and feature requests that were integrated over the last few months. The next release will come soon, and there will not be any more “intended” major changes before the next release. If you want to use the bleeding edge version, you can clone it from Github, or get it from sonatype.org (see “Maven dependencies / Living on the edge” below).
NanoHTTPD project currently consist of four parts:
/core
– Fully functional HTTP(s) server consisting of one (1) Java file, ready to be customized/inherited for your own project
/samples
– Simple examples on how to customize NanoHTTPD. See HelloServer.java for a killer app that greets you enthusiastically!
/websocket
– Websocket implementation, also in a single Java file. Depends on core.
/webserver
– Standalone file server. Run & enjoy. A popular use seems to be serving files out off an Android device.
/nanolets
– Standalone nano app server, giving a servlet like system to the implementor.
/fileupload
– integration of the apache common file upload library.
index.html
and index.htm
./
.--cors
paramaterAccess-Control-Allow-Headers: origin,accept,content-type
Access-Control-Allow-Headers
by setting System property: AccessControlAllowHeader
-DAccessControlAllowHeader=origin,accept,content-type,Authorization
--cors
: activates CORS support, Access-Control-Allow-Origin
will be set to *
--cors=some_value
: Access-Control-Allow-Origin
will be set to some_value
.CORS argument examples
--cors=http://appOne.company.com
--cors="http://appOne.company.com, http://appTwo.company.com"
: note the double quotes so that the 2 URLs are considered part of a single argument.NanoHTTPD is a Maven based project and deployed to central. Most development environments have means to access the central repository. The coordinates to use in Maven are:
<dependencies>
<dependency>
<groupId>org.nanohttpd</groupId> <!-- <groupId>com.nanohttpd</groupId> for 2.1.0 and earlier -->
<artifactId>nanohttpd</artifactId>
<version>2.2.0</version>
</dependency>
</dependencies>
The coordinates for your development environment should correspond to these. When looking for an older version take care because we switched groupId from com.nanohttpd to org.nanohttpd in mid 2015.
Next it depends what you are useing nanohttpd for, there are tree main usages.
In gradle you can use nano http the same way because gradle accesses the same central repository:
dependencies {
runtime(
[group: 'org.nanohttpd', name: 'nanohttpd', version: '2.2.0'],
)
}
Just replace the name with the artifact id of the module you want to use and gradle will find it for you.
For a specialized HTTP (HTTPS) service you can use the module with artifactId nanohttpd.
<dependency>
<groupId>org.nanohttpd</groupId> <!-- <groupId>com.nanohttpd</groupId> for 2.1.0 and earlier -->
<artifactId>nanohttpd</artifactId>
<version>2.2.0VERSION</version>
</dependency>
Here you write your own subclass of fi.iki.elonen.NanoHTTPD to configure and to serve the requests.
For a specialized websocket service you can use the module with artifactId nanohttpd-websocket.
<dependency>
<groupId>org.nanohttpd</groupId> <!-- <groupId>com.nanohttpd</groupId> for 2.1.0 and earlier -->
<artifactId>nanohttpd-websocket</artifactId>
<version>2.2.0</version>
</dependency>
Here you write your own subclass of fi.iki.elonen.NanoWebSocketServer to configure and to serve the websocket requests. A small standard echo example is included as fi.iki.elonen.samples.echo.DebugWebSocketServer. You can use it as a starting point to implement your own services.
For a more classic aproach, perhaps to just create a HTTP server serving mostly service files from your disk, you can use the module with artifactId nanohttpd-webserver.
<dependency>
<groupId>org.nanohttpd</groupId>
<artifactId>nanohttpd-webserver</artifactId>
<version>2.2.0</version>
</dependency>
The included class fi.iki.elonen.SimpleWebServer is intended to be used as a starting point for your own implementation but it also can be used as is. Staring the class as is will start a http server on port 8080 and publishing the current directory.
The latest Github master version can be fetched through sonatype.org:
<dependencies>
<dependency>
<artifactId>nanohttpd</artifactId>
<groupId>org.nanohttpd</groupId>
<version>XXXXX-SNAPSHOT</version>
</dependency>
</dependencies>
...
<repositories>
<repository>
<id>sonatype-snapshots</id>
<url>https://oss.sonatype.org/content/repositories/snapshots</url>
<snapshots>
<enabled>true</enabled>
</snapshots>
</repository>
</repositories>
Just a hint how to generate a certificate for localhost.
keytool -genkey -keyalg RSA -alias selfsigned -keystore keystore.jks -storepass password -validity 360 -keysize 2048 -ext SAN=DNS:localhost,IP:127.0.0.1 -validity 9999
This will generate a keystore file named ‘keystore.jks’ with a self signed certificate for a host named localhost with the ip adress 127.0.0.1 . Now you can use:
server.makeSecure(NanoHTTPD.makeSSLSocketFactory("/keystore.jks", "password".toCharArray()), null);
Before you start the server to make Nanohttpd serve https connections, when you make sure ‘keystore.jks’ is in your classpath .
Thank you to everyone who has reported bugs and suggested fixes.