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Logo of Light-Control Light-Control

What is it for?

The main target of this project is to be able to take control of a given server from any device that can open a simple and light web page within the same local network.

What do I need?

The only thing to install is Java SE Development Kit 8 on the target server. It should work with Java 7 also, but you will have to compile by yourself since the bundles available for download has been compiled with Java 8.

How to build it?

This project relies on maven, so you will need to install it with a JDK of your choice, then simply launch the famous command mvn clean install and that's it!

How to launch it?

As I wanted something as light as possible, I decided to rely on Jetty so the generated bundle is actually a Jetty distribution that has been modified to configure the JAAS realm of the project called LC Realm and to deploy the web application of the project.

So to launch it, simply unzip light-control-${version}.zip, go to the bin directory and launch ./jetty.sh. On Windows environment, you will need to launch it manually by launching from the root directory of the project java -Djetty.logs=./logs -Djetty.home=. -Djetty.base=. -jar start.jar jetty.state=./jetty.state jetty-logging.xml jetty-started.xml

How to access it?

Once the Jetty instance is properly launched, simply open a browser (tested with Firefox, Chrome, Safari) of the device of your choice then go to http://${ip-address-of-the-target-server}:8080. The default account is admin / @dmin@, if you want to change it for something else, you simply need to modify the file etc/login.properties knowing that the syntax is ${login}: MD5:${hash-of-your-password},admin. To know the hash of your password, you can use this web site

How to use it?

NB: What is described below as tap is actually a relatively slow click on a mobile device. This is needed to be able to simulate a double click or more on a mobile device since a double click is already used to zoom on a picture.

  • For a simple (left) click, simply click or tap (for mobile) on the screen capture.
  • For a double click, simply click twice or tap twice on the screen capture.
  • For a right click, check first the checkbox that has been added for this purpose then click or tap on the screen capture, the checkbox will be automatically unchecked once done.
  • In case you want to enter some content, simply enter the content in the input text that has been added for this purpose, everything that you will enter in this field will be propagated over the target server. Clicking on the button OK is similar to pressing Enter in the text field.
  • To execute specific actions at the place of your choice in the screen capture, you will need to triple click / tap on the screen capture to show the menu then click on the action of your choice, the available item menus are:
    • The right click item menu is similar to the right click described before except that you don't rely on the checkbox anymore.
    • The enter content item menu is similar to the right click described before except that you will make the keyboard appear near the place you want to input some content which is much better in term of user experience as you could not see what you're actually typing with the other mode. Please note that the text field will disappear when you use this mode, it will only reappear when you will click anywhere else.
    • The page up item menu allows you to emulate what you can do with a wheel mouse to display the content of the previous page.
    • The page down item menu allows you to emulate what you can do with a wheel mouse to display the content of the next page.
    • The move pointer item menu allows you to move the pointer of the mouse to a specific location without performing a click which can be interesting in case you need to interact with components that perform some actions when the mouse is over them.
    • The change os item menu allows you to change the default Operating System as the application needs to know the Operating System in order to manage properly the mapping between the characters and the key codes. This has been added to be able to manage virtualization where the host OS is different from the guest OS. The current choices are Windows, Mac and Other knowing that Other will be considered as Linux or other Unix variants.

The last things to know are the Refresh frequency and the Image quality. The Refresh frequency is the time after which it will check if a refresh is needed, it is expressed in milliseconds. The Image quality is the actually the compression quality which is a float between 0 and 1 knowing that 0 is the worse quality and 1 the best quality.

You can manually adjust the:

  • Refresh frequency using the HTTP parameter f as described by the corresponding info icon.
  • Image quality using the HTTP parameter q as described by the corresponding info icon.

However they will be automatically adjusted according to the response time of the different requests.

How the input of characters are managed?

The most complex part is to be able to manage the mapping between the characters and the key codes as there is no ideal solution it has been resolved thanks to resource bundles and to the way to enter unicode characters in the different OS.

The application will first load the resource bundle in ${jetty-home}/resources called mapping.properties (the default one) then it will load the resource bundle of type mapping_${current-locale}.properties (if it exists) such that we can redefine the mapping of the default resource bundle from the resource specific to the current locale. Please note that the expected encoding for these files is UTF-8.

The syntax of each line of the resource bundle is .=-?(\w+|\d\d+)(+-?(\w+|\d\d+))* in other words we have first a character then = and finally at least one pattern of type -?(\w+|\d\d+) representing a key code, in case of several key codes, the expected separator is +. First you can indicate with - whether or not the following key represented by its key code should be held or not knowing that - means that the key should be held. A key code is either a word or a number of at least two digits. In case of a word, it expects the name of a field in the class KeyEvent minus the prefix VK_. In case of a number, it expects directly the decimal value of the key code in if it doesn't exist in the KeyEvent class.

In case, the corresponding key codes of a given character cannot be found in the resource bundles, it will rely on the way to enter unicode characters in the different OS. As this approach is unfortunately OS dependent, the ability to change the current OS has been added in the special action menu for the reasons described in the previous section. Here is what is actually done for each supported OS:

  • Windows: it applies the third method described here which implicitly means that it relies on the numeric keypad.
  • Mac: it applies what is described in this article which implicitly means that the Unicode Hex Input needs to be enabled.
  • Other: it applies what is described here

What else I need to know?

As you may have noticed, this project relies on the BASIC authentication which means that the password is easily accessible from the HTTP headers so if you intend to use it in non secure network, I highly encourage you to configure SSL as described here

In which maven repositories can I found the binaries of the project?

So far the binaries are compiled with Java 8 and published on maven central and sonatype

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Take control of your server thanks to a lightweight web application from any device

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