Small but powerful multithreaded web server written completely in Java SE and then ported to Android.
The server implements most of the HTTP 1.1 specification and provides custom servlet API that can be
used to handle dynamic pages. The servlet API is designed after the official javax.servlet API
yet it is not compatible. Dynamic pages support cookies, sessions, file uploads and anything else
to build a common web application.
- Key features
- Building the application
- The http subproject and the idea behind it
- Mutation testing
- Running standalone server (CLI)
- Demo
- Sample code
- Building a deployment descriptor
- Templating support
- Screens
- 500 error stack trace in browser
- Sample script to send SMS using wget command line utility
- License
- Small footprint, requires no external libraries
- Handles HTTP requests in separate threads
- Provides custom servlets API for generating dynamic content
- Supports GET, POST, HEAD methods (or more, depending on the configuration)
- Supports chunked transfer type
- Provides full support for mime types (uses Apache like mime.type)
- Supports buffered file upload (multipart requests), cookies, persisted sessions
- Supports serving partial body (ranges)
- Can serve static content both from file system and APK resources
The provided Gradle wrapper should be used to build the application:
./gradlew clean buildWhen running the full build for the first time you must first install the Android SDK. You might either install it manually
or use the following script that downloads and installs all required dependencies to ~/android-sdk.
./installsdk.shTo make things work after you logout and login back, configure the ANDROID_HOME environment variable:
echo "export ANDROID_HOME=~/android-sdk" >> ~/.bashrc && source ~/.bashrcThe http subproject is the heart of the application and it is independent on Android platform.
In fact the Android app was just an attempt to find a more practical use of the experimental HTTP protocol implementation.
One of the design goals was to keep the resulting artifact small in size and minimalistic in terms of dependency on other libraries - it does not require any third party component, all HTTP protocol implementation is based on parsing data read from raw TCP sockets.
Once the ro.polak.http package is mature enough it will be released as an independent artifact.
The subproject can be tested in the following way:
./gradlew :http:clean :http:check -PskipAndroidBuildThe original package code has been refactored and covered with unit and integration tests. Code coverage should be kept above 90%.
All application code is targeted to Java 7. It also compiles for the Android SDK versions < 19
(try with resources is not supported, use
IOUtilities.closeSilently(closeable)
in a finally block as an alternative when closing streams).
Another compatibility constraint is that Random instead of ThreadLocalRandom is used for
generating random sequences in StringUtilities
Mutation tests can be run by executing the following command:
./gradlew :http:clean :http:pitest -PskipAndroidBuildThe results can then be found under http/build/reports/pitest/ro.polak.http/index.html and
http/build/reports/pitest/ro.polak.http/mutation.xml.
Standalone server can be used to bundle the http subproject into a runnable server implementation.
The CLI subproject is also independent on the Android platform, it is not bundled with the main APK.
./gradlew :cli:bootRun -PskipAndroidBuildIt is also possible to build one "uber-jar" and to use it as a standalone application:
./gradlew :cli:fatJar -PskipAndroidBuildThe resulting artifact can then be grabbed from ./cli/build/libs/cli-all.jar.
The standalone server jar can be run on any machine with the following command:
java -jar ./cli/build/libs/cli-all.jarjava -jar ./cli/build/libs/cli-all.jar \
-Dserver.port=8888 \
-Dserver.static.path=/www/public_htmlFor a complete list of available parameters refer to httpd.properties.
A demo application is automatically deployed to Heroku and can be reached at:
Please note the deployed application does not contain the admin application since that is only available for Android. See Procfile for the deployment description.
package example;
import ro.polak.http.servlet.HttpServletRequest;
import ro.polak.http.servlet.HttpServletResponse;
import ro.polak.http.servlet.HttpServlet;
public class HelloWorld extends HttpServlet {
@Override
public void service(HttpServletRequest request, HttpServletResponse response) {
response.getWriter().print("Hello World!");
}
}package example;
import java.io.IOException;
import ro.polak.http.exception.ServletException;
import ro.polak.http.servlet.Filter;
import ro.polak.http.servlet.FilterChain;
import ro.polak.http.servlet.FilterConfig;
import ro.polak.http.servlet.HttpServletRequest;
import ro.polak.http.servlet.HttpServletResponse;
public class RequestLoggingFilter implements Filter {
private static final Logger LOGGER = Logger.getLogger(RequestLoggingFilter.class.getName());
@Override
public void init(FilterConfig filterConfig) throws ServletException {
// Do nothing
}
@Override
public void doFilter(HttpServletRequest request, HttpServletResponse response,
FilterChain filterChain) throws IOException, ServletException {
LOGGER.fine("Handling incoming request " + request.getRequestURL());
filterChain.doFilter(request, response);
}
}Example servlets can be found in http/src/main/java/example.
A practical use of filters can be checked at SecurityFilter.java and LogoutFilter.java of the admin application.
DeploymentDescriptorBuilder
is an API alternative to traditional web.xml approach that aims to make servlet mapping building
and filter registration easy. See example code below.
package example;
import java.util.List;
import java.util.regex.Pattern;
import ro.polak.http.configuration.DeploymentDescriptorBuilder;
import ro.polak.http.configuration.ServerConfig;
import ro.polak.http.session.storage.SessionStorage;
class DeploymentDescriptorFactory {
public List<ServletContextWrapper> buildDeploymentDescriptor(SessionStorage sessionStorage,
ServerConfig serverConfig) {
return DeploymentDescriptorBuilder.create()
.withSessionStorage(sessionStorage)
.withServerConfig(serverConfig)
.addServletContext()
.withContextPath("/example")
.addFilter()
.withUrlPattern(Pattern.compile("^.*$"))
.withUrlExcludedPattern(Pattern.compile("^/(?:Login|Logout)"))
.withFilterClass(SecurityFilter.class)
.end()
.addFilter()
.withUrlPattern(Pattern.compile("^/Logout$"))
.withFilterClass(LogoutFilter.class)
.end()
.addServlet()
.withUrlPattern(Pattern.compile("^/Index$"))
.withServletClass(Index.class)
.end()
.addServlet()
.withUrlPattern(Pattern.compile("^/$"))
.withServletClass(Index.class)
.end()
.end()
.build();
}
}Serving static resources is implemented using DefaultServlet
- the servlet is automatically registered as the very last element of DeploymentDescriptorBuilder acting as a fallback resource.
The actual resource loading is implemented by registering an instance ResourceProvider in the server config.
Currently there are two resource providers implemented
- File system resources FileSystemResourceProvider
- Android APK resources AssetResourceProvider
package ro.polak.http.resource.provider;
import ro.polak.http.servlet.impl.HttpServletRequestImpl;
import ro.polak.http.servlet.impl.HttpServletResponseImpl;
import java.io.IOException;
public class DummyResourceProvider implements ResourceProvider {
/**
* Tells whether this resource provider can load resource for given path.
*/
@Override
public boolean canLoad(final String path) {
return false; // TODO Add some logic
}
/**
* Loads the resource for the given path by copying the stream to the response.getOutputStream().
*/
@Override
public void load(final String path,
final HttpServletRequestImpl request,
final HttpServletResponseImpl response) throws IOException {
// TODO Load the stream to response.getOutputStream();
}
/**
* Shuts down the resource provider if necessary, usually closes all open resources.
*/
@Override
public void shutdown() {
}
}The following example presents how to integrate Jtwig templating engine.
First you need to add Jtwig dependency in your gradle file:
// ...
dependencies {
// ...
compile 'org.jtwig:jtwig-core:5.87.0.RELEASE'
}
// ...Then it works out of the box:
package example;
import org.jtwig.JtwigModel;
import org.jtwig.JtwigTemplate;
import ro.polak.http.exception.ServletException;
import ro.polak.http.servlet.HttpServlet;
import ro.polak.http.servlet.HttpServletRequest;
import ro.polak.http.servlet.HttpServletResponse;
public class Templating extends HttpServlet {
@Override
public void service(HttpServletRequest request, HttpServletResponse response)
throws ServletException {
JtwigTemplate template = JtwigTemplate.inlineTemplate("Hello {{ var }}");
JtwigModel model = JtwigModel.newModel().with("var", "World");
template.render(model, response.getOutputStream());
}
}
If you want to send a real SMS please remove "&test=1" from the POST params.
SERVER_IP=192.168.1.1; SERVER_PORT=8080; \
echo "Phone number:"; read TO; echo "Message:"; read MESSAGE; \
wget -qO- --post-data "to=$TO&message=$MESSAGE&test=1" \
http://$SERVER_IP:$SERVER_PORT/api/1.0/sms/sendAndroid HTTP server uses icons from the beautifully designed "Farm-Fresh Web Icons" pack by FatCow Web Hosting! These icon sets are licensed under a Creative Commons Attribution 3.0 License.
The project is shared upon GNU GPLv3 license.
If you are interested in a dedicated commercial license please drop me a line at
piotr [at] polak [dot] ro