Java applet

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File:Java applet.png
Java applet that was created as a supplementary demonstration material of the scientific publication.[1] and is available from the university site
Java applet that uses 3D hardware acceleration, downloading from the server 3D files in .pdb format to visualize[2]
File:Cardiac cells applet.png
Using applet for non trivial animation illustrating biophysical topic (randomly moving ions pass through voltage gates)[3]
File:Mandelbrot java applet.png
Using Java applet for computation - intensive visualization of the Mandelbrot set[4]
Sufficient running speed is also utilized in applets for playing non trivial computer games like chess[5]
File:NASA World Wind.jpg
NASA World Wind (open source) is a second generation applet [6] that heavily uses OpenGL and on-demand data downloading to provide detailed 3D map of the world.
Web access to the server console at the hardware level with the help of java applet

A Java applet is an applet delivered to the users in the form of Java bytecode. Java applets can run in a Web browser using a Java Virtual Machine (JVM), or in Sun's AppletViewer, a stand-alone tool for testing applets. Java applets were introduced in the first version of the Java language in 1995. Java applets are usually written in the Java programming language but they can also be written in other languages that compile to Java bytecode such as Jython,[7] Ruby,[8] or Eiffel.[9]

Applets are used to provide interactive features to web applications that cannot be provided by HTML alone. They can capture mouse input (like rotating 3D object) and also have controls like buttons or check boxes. In response to the user action an applet can change the provided graphic content. This makes applets well suitable for demonstration, visualization and teaching. There are online applet collections for studying various subjects, from differential equations[10] to heart physiology.[3] Applets are also used to create online game collections that allow players to compete against live opponents in real-time.

An applet can also be a text area only, providing, for instance, a cross platform command-line interface to some remote system.[11] If needed, an applet can leave the dedicated area and run as a separate window. However, applets have very little control over web page content outside the applet dedicated area, so they are less useful for improving the site appearance in general (while applets like news tickers[12] or WYSIWYG editors[13] are also known). Applets can also play media in formats that are not natively supported by the browser[14]

Java applets run at a speed that is comparable to (but generally slower than) other compiled languages such as C++, but many times faster than JavaScript.[15] In addition they can use 3D hardware acceleration that is available from Java. This makes applets well suited for non trivial, computation intensive visualizations.

HTML pages may embed parameters that are passed to the applet. Hence the same applet may appear differently depending on the parameters that were passed. The first implementations involved downloading an applet class by class. While classes are small files, there are frequently a lot of them, so applets got a reputation as slow loading components. However, since jars were introduced, an applet is usually delivered as a single file that has a size of the bigger image (hundreds of kilobytes to several megabytes).

Since Java's bytecode is platform independent, Java applets can be executed by browsers for many platforms, including Windows, Unix, Mac OS and Linux. It is also trivial to run a Java applet as an application with very little extra code. This has the advantage of running a Java applet in offline mode without the need for any Internet browser software and also directly from the development IDE.

Many Java developers, blogs and magazines are recommending that the Java Web Start technology be used in place of Applets.[16][17]

A Java Servlet is sometimes informally compared to be "like" a server-side applet, but it is different in its language, functions, and in each of the characteristics described here about applets.


Technical information

Java applets are executed in a sandbox by most web browsers, preventing them from accessing local data like clipboard or file system. The code of the applet is downloaded from a web server and the browser either embeds the applet into a web page or opens a new window showing the applet's user interface.

A Java applet extends the class Template:Javadoc:SE, or in the case of a Swing applet, Template:Javadoc:SE. The class must override methods from the applet class to set up a user interface inside itself (Applet is a descendant of Template:Javadoc:SE which is a descendant of Template:Javadoc:SE. As applet inherits from container, it has largely the same user interface possibilities as an ordinary Java application, including regions with user specific visualization.

The domain from where the applet executable has been downloaded is the only domain to that the usual (unsigned) applet is allowed to communicate. This domain can be different from the domain where the surrounding html document is hosted.

Embedding into web page

The applet can be displayed on the web page by making use of the deprecated applet HTML element,[18] or the recommended object element.[19] A non standard embed element can be used[20] with Mozilla family browsers. This specifies the applet's source and location. Object and embed tags can also download and install Java virtual machine (if required) or at least led to the plugin page. Applet and object tags also support loading of the serialized applets that start in some particular (rather than initial) state. Tags also specify the message that shows up in place of the applet if the browser cannot run it due any reason.

However despite object is officially a recommended tag, as of 2010, the support of object tag was not yet consistent among browsers and Sun kept recommending the older applet tag for deploying in multibrowser environment,[20] as it remained the only tag consistently supported by the most popular browsers. To support multiple browsers, object tag currently requires JavaScript (that recognizes browser and adjusts the tag), usage of additional browser specific tags or delivering adapted output from the server side.

Simple examples

A basic example using the java.applet package

The following example is made simple enough to illustrate the essential use of Java applets through its java.applet package. It also uses classes from the Java Abstract Window Toolkit (AWT) for producing actual output (in this case, the "Hello, world!" message).

import java.applet.Applet;
import java.awt.*;
// Applet code for the "Hello, world!" example.
// This should be saved in a file named as "".
public class HelloWorld extends Applet {
  // This method is mandatory, but can be empty (i.e., have no actual code).
  public void init() { }
  // This method is mandatory, but can be empty.
  public void stop() { }
  // Print a message on the screen (x=20, y=10).
  public void paint(Graphics g) {
    g.drawString("Hello, world!", 20,10);

For compilation, this code is saved on a plain-ASCII file with the same name as the class and .java extension, i.e. The resulting HelloWorld.class applet should be installed on the web server and is invoked within an HTML page by using an <APPLET> or a <SCRIPT> tag. For example:

  "-//W3C//DTD HTML 4.01 Transitional//EN" ""> 
<H1>A Java applet example</H1>
<P>Here it is: <APPLET code="HelloWorld.class" WIDTH="200" HEIGHT="40">
This is where HelloWorld.class runs.</APPLET></P>

Displaying the HelloWorld_example.html page from a Web server, the result should look as this:

A Java applet example

Here it is: Hello, world!

To minimize download time, applets are usually delivered in a form of compressed zip archive (having jar extension). If all needed classes (only one in our case) are placed in compressed archive example.jar, the embedding code would look differently:

<P>Here it is: <APPLET code="HelloWorld" WIDTH="200" HEIGHT="40" ARCHIVE="example.jar">
This is where HelloWorld.class runs.</APPLET></P>

Applet inclusion is described in detailed in [21]


A Java applet can have any or all of the following advantages:

  • It is simple to make it work on Linux, Windows and Mac OS i.e. to make it cross platform. Applets are supported by most web browsers
  • The same applet can work on "all" installed versions of Java at the same time, rather than just the latest plug-in version only. However, if an applet requires a later version of the JRE the client will be forced to wait during the large download.
  • Most web browsers cache applets, so will be quick to load when returning to a web page. Applets also improve with use: after a first applet is run, the JVM is already running and starts quickly (JVM will need to restart each time the browser starts fresh).
  • It can move the work from the server to the client, making a web solution more scalable with the number of users/clients
  • If standalone program (like Google Earth) talks to the web server, that server normally needs to support also previous versions as the user may not keep it always updated. Differently, the browser updates the applet so there is no need to support the legacy versions. Only due configuration mistakes the applet may get stuck in the cache and have issues when new versions come out.
  • The applet naturally supports the changing user state like figure positions on the chessboard.
  • Developers can develop and debug an applet direct simply by creating a main routine (either in the applet's class or in a separate class) and call init() and start() on the applet, thus allowing for development in their favorite J2SE development environment. All one has to do after that is re-test the applet in the appletviewer program or a web browser to ensure it conforms to security restrictions.
  • An untrusted applet has no access to the local machine and can only access the server it came from. This makes such applet much safer to run than standalone executable that it could replace. However signed applet can have full access to the machine it is running on if the user agrees.


A Java applet may have any of the following disadvantages:

  • It requires the Java plug-in which may not be available on some less popular web browsers or operating systems.
  • Some organizations only allow software installed by the administrators. As a result, some users can only view applets that are important enough to contact the administrator asking to install the Java plug-in.
  • As with any client side scripting, security restrictions may make difficult or even impossible for untrusted applet to achieve the desired goals.
  • Some more badly designed code may require a specific JRE.[22]
  • If applet requires newer or specific JRE than available on the system, the user running it first time will need to wait for the large JRE download to complete.
  • Java automatic installation or update may fail if proxy is used to access the web. This makes applet with specific requirements impossible to run unless Java is manually updated. Java automatic updater that is part of Java installation also may be complex to configure if it must work through proxy.
  • Unlike the older applet tag, object needs workarounds to write a cross-browser HTML.

Compatibility related lawsuits

Sun has made a considerable effort to ensure compatibility is maintained between Java versions as they evolve, enforcing Java portability by law if required.

The 1997 Sun - Microsoft lawsuit

The 1997 lawsuit [23] was filed after Microsoft modified its own Java Virtual Machine which shipped with Internet Explorer. Microsoft added about 50 methods and 50 fields[23] into the classes within the java.awt, java.lang, and packages. Other modifications included removal of RMI capability and replacement of Java native interface from JNI to RNI, a different standard. RMI was removed because it only easily supports Java to Java communications and competes with Microsoft DCOM technology. Applets that relied on these changes or just inadvertently used them worked only within Microsoft's Java system. Sun sued for breach of trademark, as the point of Java was that there should be no proprietary extensions and that code should work everywhere. Microsoft agreed to pay Sun $20 million, and Sun agreed to grant Microsoft limited license to use Java without modifications only and for a limited time[24]

The 2002 Sun - Microsoft lawsuit

Microsoft continued to ship its own unmodified Java virtual machine. Over years it has become extremely outdated yet still default for Internet Explorer. In 2002 Sun filed an antitrust lawsuit, claiming that Microsoft's attempts at illegal monopolization have harmed the Java platform. Sun demanded Microsoft distribute Sun's current, binary implementation of Java technology as part of Windows, distribute it as a recommended update for older Microsoft desktop operating systems and stop the distribution of Microsoft's Virtual Machine (as its licensing time, agreed in the previous lawsuit, had expired).[24] Microsoft paid $700 million for pending antitrust issues, another $900 million for patent issues and a $350 million royalty fee to use Sun's software in the future.[25][26]

Applet security

There are two applet types with very different security model: signed applets and unsigned applets.[27]

Unsigned applet

Limitations for the unsigned applets are understood as "draconian":[28] they have no access to the local filesystem, web access limited to the applet download site, there are also many other important restrictions. For instance, they cannot access system properties, use their own class loader, call native code, execute external commands on a local system or redefine classes belonging to the certain packages. While they can run in standalone frame, such frame contains a header, indicating that this is an untrusted applet. Successful initial call of the forbidden method does not automatically create a security hole as access controller checks all stack of the calling code to be sure the call is not coming from improper location. Several specific security problems have been discovered and fixed since Java was first released, and some like [29] even persisted as long as till 2008 without anybody being aware. Some studies mention applets crashing browser or overusing CPU resources but these are classified as nuisances[30] and not as true security flaws. However unsigned applets may be involved into combined attack that exploit combination of multiple severe configuration errors in other parts of the system.[31] Unsigned applet can also be more dangerous to run directly on the server where it is hosted because while code base allows it to talk with the server, running inside it can bypass the firewall. An applet may also try DOS attack on the server where it is hosted but usually people who manage the web site also manage the applet, making this unreasonable. Communities may solve this problem via source code review or running applets on a dedicated domain.[32]

As of 1999 no real security breaches involving unsigned applets have ever been publicly reported, while these references are now dated.[30][33] Using an up-to-date Web browser is usually enough to be safe safe against the known attacks from unsigned applets.

Signed applet

Signed applet[34] contains a signature that the browser should verify through remotely running, independent certificate authority server. Producing this signature involves specialized tools and interaction with the authority server maintainers. Once the signature is verified and then the user of the current machine also approves, signed applet can get more rights, becoming equivalent to the ordinary standalone program. The rationale is that the author of the applet is now known and will be responsible for any deliberate damage. This approach allows to use applets for many tasks that are otherwise not possible by client side scripting. However this approach require more responsibility from the user, deciding whom he/she is trusting. The probable concerns include non-responding authority server (should the applet be allowed to run?), wrong evaluation of the signer identity when issuing certificates and known applet publishers still doing something that the user would not approve (as adding bookmark to the website). Hence signed applets that appeared from Java 1.1 may actually have more security concerns.

Java security problems are not fundamentally different from similar problems of any client side scripting platform. In particular, all issues related to the signed applets also apply to Active X.


Alternative technologies exist (for example, JavaScript, Curl, Flash, and Microsoft Silverlight) that satisfy some of the scope of what is possible with an applet. Of these, JavaScript is not always viewed as a competing replacement; JavaScript can coexist with applets in the same page, assist in launching applets (for instance, in separate frame or providing platform workarounds) and later be called from the applet code.[35]

See also


  1. World of Fungi - page of the scientific project, serving an applet that is used as an illustration figure
  2. The home site of the 3D protein viewer (Openastexviewer) under LGPL
  3. 3.0 3.1 The virtual hearth
  4. The home site of the Mandelbrot set applet under GPL
  5. The home site of the chess applet under BSD
  7. Jython applet page
  8. About Java applets in Ruby
  9. At tool to produce Java applets with SmartEiffel
  10. The d'Arbeloff Interactive Math Project
  12., an applet that works as news ticker
  13., a company that produces applets acting as WYSWYG editor.
  14. Cortado applet to play ogg format
  15. An example of the 2005 year performance benchmarking
  20. 20.0 20.1 Sun's position on applet and object tags
  21. Suns official page about the APPLET tag.
  22. Applet may specify java version as of 6u10
  23. 23.0 23.1 1997 year Sun-Microsoft lawsuit in JavaWorld
  24. 24.0 24.1 Sun's page, devoted for the lawsuits against Microsoft
  25. Sun - Microsoft 2002 lawsuit
  26. Microsoft page devoted to the Sun - Microsoft 2002 lawsuit
  27. Sun's explanation about applet security
  28. Java Security FAQ Applet Security Restrictions by Mark Wutka
  29. Description of Calendar serialization security bug
  30. 30.0 30.1 Java Security FAQ
  32., Proposal with discussion about Java applets in community sites
  33. ~ G.McGraw, E.W. Felten. Securing Java. ISBN 047131952X
  35., calling JavaScript from Java applet

External links

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