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__TOC__{{CKFinder 2.x Writing Plugins Introduction}} | __TOC__{{CKFinder 2.x Writing Plugins Introduction}} | ||
= Creating CKFinder for Java Plugins = | = Creating CKFinder for Java Plugins = | ||
− | As mentioned in the [[CKFinder_2.x/Developers_Guide/Java/Plugins|Using CKFinder Plugins]] article, | + | As mentioned in the [[CKFinder_2.x/Developers_Guide/Java/Plugins|Using CKFinder Plugins]] article, CKFinder functionality can be extended with code that is delegated to dedicated plugins. This architecture ensures that in order to change the behavior of the application, you do not need to modify the CKFinder core — using plugins is much more convenient. |
This tutorial shows how to create a CKFinder plugin on the example of a '''FileSizePlugin''' which, as the name suggests, returns the size of the file. | This tutorial shows how to create a CKFinder plugin on the example of a '''FileSizePlugin''' which, as the name suggests, returns the size of the file. | ||
Line 10: | Line 10: | ||
* Step 3: Make CKFinder aware of the new plugin. | * Step 3: Make CKFinder aware of the new plugin. | ||
− | Please note that for plugins that just add server-side functionality and do not contain any client-side scripts | + | Please note that you can skip the first step for plugins that just add server-side functionality and do not contain any client-side scripts. |
== Creating Plugin Folder and File == | == Creating Plugin Folder and File == | ||
− | For a start, you need to create a directory for your plugin inside the <code>/CKFinderJava-''X.Y''/ckfinder/plugins</code> directory. Please note that by default CKFinder | + | For a start, you need to create a directory for your plugin inside the <code>/CKFinderJava-''X.Y''/ckfinder/plugins</code> directory. Please note that by default CKFinder is provided with three client-side plugins: <code>dummy</code>, <code>fileeditor</code>, and <code>imagresize</code>. |
<note>Remember that for CKFinder the name of the plugin folder is important and has to be the same as the name of the plugin, otherwise the application will not be able to recognize it.</note> | <note>Remember that for CKFinder the name of the plugin folder is important and has to be the same as the name of the plugin, otherwise the application will not be able to recognize it.</note> | ||
Line 19: | Line 19: | ||
Since our plugin is named <code>filesizeplugin</code>, the same name will be used for its folder. Inside the newly created <code>filesizeplugin</code> folder we are going to place the <code>plugin.js</code> file that will contain the plugin logic. | Since our plugin is named <code>filesizeplugin</code>, the same name will be used for its folder. Inside the newly created <code>filesizeplugin</code> folder we are going to place the <code>plugin.js</code> file that will contain the plugin logic. | ||
− | Open the <code>plugin.js</code> file in an editor and add the following source code: | + | Open the <code>plugin.js</code> file in an editor of your choice and add the following source code: |
<source lang="javascript"> | <source lang="javascript"> | ||
CKFinder.addPlugin( 'filesizeplugin', function( api ) { // The name of the plugin. | CKFinder.addPlugin( 'filesizeplugin', function( api ) { // The name of the plugin. | ||
Line 29: | Line 29: | ||
return; | return; | ||
var size = xml.selectSingleNode( 'Connector/FileSize/@size' ); | var size = xml.selectSingleNode( 'Connector/FileSize/@size' ); | ||
− | api.openMsgDialog( "", "The exact size of | + | api.openMsgDialog( "", "The exact size of the file is: " + size.value + " bytes"); |
} ); | } ); | ||
}); | }); | ||
Line 35: | Line 35: | ||
</source> | </source> | ||
− | Since the purpose of this tutorial is to show how to integrate plugins with CKFinder, we are not going to go into details of the JavaScript code. To sum it up, the plugin code above adds a new menu item to the user interface. This item, when selected, sends the <code>FileSize</code> command to the server, reads the XML response and displays the size of the queried file in a dialog window. | + | Since the purpose of this tutorial is to show how to integrate plugins with CKFinder for Java, we are not going to go into the details of the JavaScript code. To sum it up, the plugin code above adds a new menu item to the user interface. This item, when selected, sends the <code>FileSize</code> command to the server, reads the XML response, and displays the size of the queried file in a dialog window. |
For more information on how to create JavaScript plugins refer to the [[CKFinder_2.x/Developers_Guide/Java/Plugins/Writing_JavaScript|Writing JavaScript Plugins]] article. | For more information on how to create JavaScript plugins refer to the [[CKFinder_2.x/Developers_Guide/Java/Plugins/Writing_JavaScript|Writing JavaScript Plugins]] article. | ||
== Making CKFinder Aware of the Plugin == | == Making CKFinder Aware of the Plugin == | ||
− | Fast forward one step, this section describes how to make CKFinder aware that the plugin exists. Open the <code>config.xml</code> file and add a new <code>plugin</code> node to the <code>plugins</code> section. | + | Fast forward one step, this section describes Step 3 listed above and explains how to make CKFinder aware that the plugin exists. Open the <code>config.xml</code> file and add a new <code>plugin</code> node to the <code>plugins</code> section. |
<source lang="xml"> | <source lang="xml"> | ||
<plugin> | <plugin> | ||
Line 148: | Line 148: | ||
These implementation classes store data gathered from the event caller that are necessary to execute the plugin command. | These implementation classes store data gathered from the event caller that are necessary to execute the plugin command. | ||
− | The FileSizePlugin has to handle a non-standard server command, which means that the <code>BeforeExecuteCommandEventArgs</code> implementation of the <code>EventArgs</code> class will be needed for this example. This information is crucial since one of the first things we should do in the <code>runEventHandler</code> method is to cast <code>EventArgs</code> to its appropriate implementation. See the code below: | + | The FileSizePlugin has to handle a new non-standard server command, which means that the <code>BeforeExecuteCommandEventArgs</code> implementation of the <code>EventArgs</code> class will be needed for this example. This information is crucial since one of the first things we should do in the <code>runEventHandler</code> method is to cast <code>EventArgs</code> to its appropriate implementation. See the code below: |
<source lang="java"> | <source lang="java"> | ||
public boolean runEventHandler (EventArgs args, IConfiguration configuration1) | public boolean runEventHandler (EventArgs args, IConfiguration configuration1) | ||
− | + | throws ConnectorException { | |
− | + | BeforeExecuteCommandEventArgs args1 = (BeforeExecuteCommandEventArgs) args; | |
− | + | return false; | |
− | |||
} | } | ||
</source> | </source> | ||
Line 180: | Line 179: | ||
It is also worth mentioning that the <code>runEventHandler</code> method of a particular plugin does not have to handle the command sent from the client. As an example, it can be used to just insert something into a database or log information about the user activity. | It is also worth mentioning that the <code>runEventHandler</code> method of a particular plugin does not have to handle the command sent from the client. As an example, it can be used to just insert something into a database or log information about the user activity. | ||
− | The client code expects an answer in the form of XML code (see the <code>xml.selectSingleNode( 'Connector/FileSize/@size' );</code> line from the <code>plugin.js</code> file). This means that FileResizePlugin has to return an XML response. We will use the <code>XMLCommand</code> class to achieve this purpose; extending this class in the plugin makes us implement its two methods: | + | The client code expects an answer in the form of XML code (see the <code>xml.selectSingleNode( 'Connector/FileSize/@size' );</code> line from the <code>plugin.js</code> file). This means that FileResizePlugin has to return an XML response. We will use the <code>XMLCommand</code> class to achieve this purpose; extending this class in the plugin <code>FileSizeCommandClass</code> makes us implement its two methods: |
− | * <code>createXMLChildNodes(int errorCode, Element rootElement)</code> – this method adds all extra XML nodes to the response that will be read by a plugin on the client side. It has two parameters: | + | * <code>createXMLChildNodes(int errorCode, Element rootElement)</code> – this method (described in more detail in the [[CKFinder_2.x/Developers_Guide/Java/Plugins/Writing_Java#Returning_the_XML_Response|Returning the XML Response]] section below) adds all extra XML nodes to the response that will be read by a plugin on the client side. It has two parameters: |
** <code>errorCode</code> – an error number returned from the <code>getDataForXml</code> method; | ** <code>errorCode</code> – an error number returned from the <code>getDataForXml</code> method; | ||
− | ** <code>rootElement</code> which represents main XML node <code>Connector</code>. | + | ** <code>rootElement</code> which represents the main XML node <code>Connector</code>. |
− | * <code>getDataForXml()</code> – should perform | + | * <code>getDataForXml()</code> – should perform validation and execute necessary plugin tasks. If all validation checks were performed correctly and the command tasks were executed without raising an exception, this method should return the <code>CKFINDER_CONNECTOR_ERROR_NONE</code> constant. |
<source lang="java"> | <source lang="java"> | ||
Line 193: | Line 192: | ||
</source> | </source> | ||
− | After a class is registered as an <code>EventHandler</code>, the <code>runEventHandler</code> methods of the registered classes are run when a given event is invoked by CKFinder. Since more plugins can be registered to handle one event type, it is important for the class to check in the method whether it should proceed. The example below shows that we need to check whether the command name equals <code>FileSize</code>. The <code>runCommand</code> method is called inside <code>runEventHandler</code> | + | After a class is registered as an <code>EventHandler</code>, the <code>runEventHandler</code> methods of the registered classes are run when a given event is invoked by CKFinder. Since more plugins can be registered to handle one event type, it is important for the class to check in the method whether it should proceed. The example below shows that we need to check whether the command name equals <code>FileSize</code>. The <code>runCommand</code> method is called inside <code>runEventHandler</code> in order to invoke all other class methods and execute the command. In short, it invokes the following: |
<source lang="java"> | <source lang="java"> | ||
initParams(); | initParams(); | ||
− | createXMLResponse(getDataForXml()); | + | createXMLResponse(getDataForXml()); // Invokes the createXMLChildNodes method. |
</source> | </source> | ||
Line 204: | Line 203: | ||
public boolean runEventHandler(EventArgs args, IConfiguration configuration1) | public boolean runEventHandler(EventArgs args, IConfiguration configuration1) | ||
throws ConnectorException { | throws ConnectorException { | ||
− | |||
BeforeExecuteCommandEventArgs args1 = (BeforeExecuteCommandEventArgs) args; | BeforeExecuteCommandEventArgs args1 = (BeforeExecuteCommandEventArgs) args; | ||
if ("FileSize".equals(args1.getCommand())) { | if ("FileSize".equals(args1.getCommand())) { | ||
Line 214: | Line 212: | ||
</source> | </source> | ||
− | In order to find out for which file the size was requested, we have to know the file name. This information can be obtained from the request parameter, which in turn can be found in the <code>initParams</code> method of the <code>Command</code> class. This method has to be overridden in our <code>FileSizeCommand</code> class so that we could get the file name parameter. Since the <code>initParams</code> method of the <code>Command</code> class collects information about basic configuration parameters, it is necessary to call it, too. See below: | + | === Finding the File Name === |
+ | In order to find out for which file the size was requested, we have to know the file name. This information can be obtained from the request parameter, which in turn can be found in the <code>initParams</code> method of the parent <code>Command</code> class. This method has to be overridden in our <code>FileSizeCommand</code> class so that we could get the file name parameter. Since the <code>initParams</code> method of the <code>Command</code> class collects information about basic configuration parameters, it is necessary to call it, too. See below: | ||
<source lang="java"> | <source lang="java"> | ||
@Override | @Override | ||
Line 227: | Line 226: | ||
<source lang="java"> | <source lang="java"> | ||
public class FileSizeCommand extends XMLCommand implements IEventHandler { | public class FileSizeCommand extends XMLCommand implements IEventHandler { | ||
− | |||
private String fileName; | private String fileName; | ||
private long fileSize; | private long fileSize; | ||
Line 244: | Line 242: | ||
</source> | </source> | ||
+ | === Getting the File Size === | ||
Time to move on to the core functionality of the plugin — getting the file size: | Time to move on to the core functionality of the plugin — getting the file size: | ||
<source lang="java"> | <source lang="java"> | ||
Line 250: | Line 249: | ||
File file = new File(configuration.getTypes().get(this.type).getPath() | File file = new File(configuration.getTypes().get(this.type).getPath() | ||
+ this.currentFolder, | + this.currentFolder, | ||
− | + | this.fileName); | |
this.fileSize = file.length(); | this.fileSize = file.length(); | ||
return Constants.Errors.CKFINDER_CONNECTOR_ERROR_NONE ; | return Constants.Errors.CKFINDER_CONNECTOR_ERROR_NONE ; | ||
Line 262: | Line 261: | ||
* <code>file.length()</code> – <code>length</code> is a standard <code>java.io.File</code> method used to return the size of the requested file in bytes. | * <code>file.length()</code> – <code>length</code> is a standard <code>java.io.File</code> method used to return the size of the requested file in bytes. | ||
+ | === Introducing Validation === | ||
Right now the method for getting the file size works, but it has one major flaw — it does not provide any validation checks. This means that if anything goes wrong, an ugly exception with a stack trace will be thrown and it will most probably not be particularly readable to all users. Below is the same piece of code, but this time with validation check provided: | Right now the method for getting the file size works, but it has one major flaw — it does not provide any validation checks. This means that if anything goes wrong, an ugly exception with a stack trace will be thrown and it will most probably not be particularly readable to all users. Below is the same piece of code, but this time with validation check provided: | ||
Line 310: | Line 310: | ||
} | } | ||
</source> | </source> | ||
+ | |||
+ | === Returning the XML Response === | ||
Now there is only one thing left — return the XML response. For this purpose we will use the aforementioned <code>createXMLChildNodes</code> method. | Now there is only one thing left — return the XML response. For this purpose we will use the aforementioned <code>createXMLChildNodes</code> method. | ||
Line 321: | Line 323: | ||
</source> | </source> | ||
− | The nodes | + | The <code><Connector></code>, <code><Error></code> and <code><CurrentFolder></code> nodes are provided by the <code>XMLCommand</code> class. You can think of them as a template. Our only task here is adding the <code>FileSize</code> node. This can be achieved with the built-in CKFinder classes that provide XML file support (<code>XmlElementData</code>, <code>XmlAttribute</code>, and <code>XMLCreator</code>): |
<source lang="java"> | <source lang="java"> | ||
@Override | @Override | ||
Line 337: | Line 339: | ||
</source> | </source> | ||
− | The plugin is ready. In order to use it | + | The plugin is ready. In order to use it you have to compile its classes and put them inside the <code>WEB-INF/classes/</code> folder (the correct package folder path has to be preserved). Another solution is to create a <code>.jar</code> file and put it inside the <code>WEB-INF/lib</code> folder. |
To see the full contents of the <code>FileSizeCommand</code> class, <hide target="filesizecommand_full">click here</hide>. | To see the full contents of the <code>FileSizeCommand</code> class, <hide target="filesizecommand_full">click here</hide>. | ||
Line 360: | Line 362: | ||
import org.w3c.dom.Element; | import org.w3c.dom.Element; | ||
− | public class FileSizeCommand extends XMLCommand implements IEventHandler{ | + | public class FileSizeCommand extends XMLCommand implements IEventHandler { |
− | + | private String fileName; | |
private long fileSize; | private long fileSize; | ||
Latest revision as of 11:16, 23 May 2011
Contents
The main advantages of plugins are:
- Upgrades are much easier.
- The plugin code is stored in a single place.
- Plugins can be easily disabled when they are not needed anymore.
Common use cases:
- Adding a new server-side command (i.e.
fileditor
andimageresize
plugin). - Working with uploaded files (i.e.
watermark
plugin). - Extending information returned by the
Init
command (i.e.imageresize
plugin).
Creating CKFinder for Java Plugins
As mentioned in the Using CKFinder Plugins article, CKFinder functionality can be extended with code that is delegated to dedicated plugins. This architecture ensures that in order to change the behavior of the application, you do not need to modify the CKFinder core — using plugins is much more convenient.
This tutorial shows how to create a CKFinder plugin on the example of a FileSizePlugin which, as the name suggests, returns the size of the file.
In order to create a CKFinder plugin, you will need to follow the steps below:
- Step 1: Create the plugin folder and file.
- Step 2: Add the plugin definition.
- Step 3: Make CKFinder aware of the new plugin.
Please note that you can skip the first step for plugins that just add server-side functionality and do not contain any client-side scripts.
Creating Plugin Folder and File
For a start, you need to create a directory for your plugin inside the /CKFinderJava-X.Y/ckfinder/plugins
directory. Please note that by default CKFinder is provided with three client-side plugins: dummy
, fileeditor
, and imagresize
.
Since our plugin is named filesizeplugin
, the same name will be used for its folder. Inside the newly created filesizeplugin
folder we are going to place the plugin.js
file that will contain the plugin logic.
Open the plugin.js
file in an editor of your choice and add the following source code:
CKFinder.addPlugin( 'filesizeplugin', function( api ) { // The name of the plugin. api.addFileContextMenuOption( { label : 'File Size', command : "FileSize" } , function( api, file ) { api.connector.sendCommand( 'FileSize', { fileName : api.getSelectedFile().name }, function( xml ) { if ( xml.checkError() ) return; var size = xml.selectSingleNode( 'Connector/FileSize/@size' ); api.openMsgDialog( "", "The exact size of the file is: " + size.value + " bytes"); } ); }); });
Since the purpose of this tutorial is to show how to integrate plugins with CKFinder for Java, we are not going to go into the details of the JavaScript code. To sum it up, the plugin code above adds a new menu item to the user interface. This item, when selected, sends the FileSize
command to the server, reads the XML response, and displays the size of the queried file in a dialog window.
For more information on how to create JavaScript plugins refer to the Writing JavaScript Plugins article.
Making CKFinder Aware of the Plugin
Fast forward one step, this section describes Step 3 listed above and explains how to make CKFinder aware that the plugin exists. Open the config.xml
file and add a new plugin
node to the plugins
section.
<plugin> <name>filesizeplugin</name> <class>com.ckfinder.connector.plugins.FileSizePlugin</class> <params></params> </plugin>
A plugin entry contains the following elements:
-
<name>
– the name of the plugin that should be the same as the plugin folder name on the client side. -
<class>
– the plugin class extended fromcom.ckfinder.connector.configuration.Plugin
. -
<params>
– additional plugin parameters. A parameter is added with aparam
node:-
<param name="smallThumb" value="90x90" />
-
Adding the Plugin Definition
When the CKFinder application starts, it reads plugins declared in the XML configuration file and binds their commands to particular event types. In other words, event handlers are registered for plugins.
To make the registration process work, a plugin class has to be created first. This class has to implement the registerEventHandlers
method inside which the plugin command is joined with an appropriate event type. This binding is possible thanks to the application of the addEventHandler
method:
eventHandler.addEventHandler(EventTypes.BeforeExecuteCommand, FileSizeCommand.class);
This method has two parameters: the event type, which determines when the command should be invoked, and Command.class
(FileSizeCommand.class
in this case), which serves as an event handler.
Below is the source code of the FileSizePlugin
:
package com.ckfinder.connector.plugins; import com.ckfinder.connector.configuration.Events; import com.ckfinder.connector.configuration.Events.EventTypes; import com.ckfinder.connector.configuration.Plugin; public class FileSizePlugin extends Plugin { @Override public void registerEventHandlers(Events eventHandler) { eventHandler.addEventHandler(EventTypes.BeforeExecuteCommand, FileSizeCommand.class); } }
Event Types
There are three types of events. You might think of them as flags indicating when the event handlers should be invoked. The table below presents CKFinder event types.
Event Type | Description |
---|---|
EventTypes.AfterFileUpload |
Event handlers registered for this type of event will be executed after a successful file upload. |
EventsTypes.BeforeExecuteCommand |
Event handlers registered for this type of event will be executed before a standard server-side command is executed. |
EventTypes.InitCommand |
Event handlers registered for this type of event will be executed on CKFinder client-side startup, right before sending the result of the Init command. |
Plugin Command Class
Another obligatory step in the plugin creation process is writing the plugin command class. This class has to implement the com.ckfinder.connector.data.IEventHandler
interface which forces us to implement the runEventHandler
method. The runEventHandler
method is the place where the plugin command is executed.
The class should look like this:
package com.ckfinder.connector.plugins; import com.ckfinder.connector.configuration.IConfiguration; import com.ckfinder.connector.data.EventArgs; import com.ckfinder.connector.data.IEventHandler; import com.ckfinder.connector.errors.ConnectorException; public class FileSizeCommand implements IEventHandler { public boolean runEventHandler(EventArgs args, IConfiguration configuration1) throws ConnectorException { return false; } }
The runEventHandler
method has two parameters: EventArgs
and IConfiguration
. The IConfiguration
object contains all CKFinder configuration options. EventArgs
is an abstract class representing one of its implementations. There is one EventArgs
implementation class for each event type.
The table below lists the EventArgs
implementations for each of the event types.
Event Type | EventArgs Implementation |
---|---|
EventTypes.AfterFileUpload |
com.ckfinder.connector.data.AfterFileUploadEventArgs |
EventTypes.BeforeExecuteCommand |
com.ckfinder.connector.data.BeforeExecuteCommandEventArgs |
EventTypes.InitCommand |
com.ckfinder.connector.data.InitCommandEventArgs |
These implementation classes store data gathered from the event caller that are necessary to execute the plugin command.
The FileSizePlugin has to handle a new non-standard server command, which means that the BeforeExecuteCommandEventArgs
implementation of the EventArgs
class will be needed for this example. This information is crucial since one of the first things we should do in the runEventHandler
method is to cast EventArgs
to its appropriate implementation. See the code below:
public boolean runEventHandler (EventArgs args, IConfiguration configuration1) throws ConnectorException { BeforeExecuteCommandEventArgs args1 = (BeforeExecuteCommandEventArgs) args; return false; }
This method returns a Boolean object which determines whether code execution should be continued after the runEventHandler
method was run. For plugins that support the InitCommand
and AfterFileUpload
events the value that is returned does not matter since no code is executed afterwards.
CKFinder has built-in support for such commands as GetFiles
, CreateFolder
, or RenameFolder
. When adding a new command with a plugin it is necessary to instruct CKFinder that the command has already been handled. You can achieve this by returning false
inside the runEventHandler
menthod after the non-standard command was executed.
The FileSizePlugin is an example of a BeforeExecuteCommand
plugin, so if FileSize
is the command that is being sent to the server, the plugin should handle it and then return false
to prevent further search.
The code below does just that:
public boolean runEventHandler (EventArgs args, IConfiguration configuration1) throws ConnectorException { BeforeExecuteCommandEventArgs args1 = (BeforeExecuteCommandEventArgs) args; if ("FileSize".equals(args1.getCommand())) { return false; } return true; }
If FileSize
is not the command used inside the runEventHandler
method, the method should return true
to allow for further search.
It is also worth mentioning that the runEventHandler
method of a particular plugin does not have to handle the command sent from the client. As an example, it can be used to just insert something into a database or log information about the user activity.
The client code expects an answer in the form of XML code (see the xml.selectSingleNode( 'Connector/FileSize/@size' );
line from the plugin.js
file). This means that FileResizePlugin has to return an XML response. We will use the XMLCommand
class to achieve this purpose; extending this class in the plugin FileSizeCommandClass
makes us implement its two methods:
-
createXMLChildNodes(int errorCode, Element rootElement)
– this method (described in more detail in the Returning the XML Response section below) adds all extra XML nodes to the response that will be read by a plugin on the client side. It has two parameters:-
errorCode
– an error number returned from thegetDataForXml
method; -
rootElement
which represents the main XML nodeConnector
.
-
-
getDataForXml()
– should perform validation and execute necessary plugin tasks. If all validation checks were performed correctly and the command tasks were executed without raising an exception, this method should return theCKFINDER_CONNECTOR_ERROR_NONE
constant.
@Override protected int getDataForXml() { return Constants.Errors.CKFINDER_CONNECTOR_ERROR_NONE ; }
After a class is registered as an EventHandler
, the runEventHandler
methods of the registered classes are run when a given event is invoked by CKFinder. Since more plugins can be registered to handle one event type, it is important for the class to check in the method whether it should proceed. The example below shows that we need to check whether the command name equals FileSize
. The runCommand
method is called inside runEventHandler
in order to invoke all other class methods and execute the command. In short, it invokes the following:
initParams(); createXMLResponse(getDataForXml()); // Invokes the createXMLChildNodes method.
With all changes introduced, the full source code of the runEventHandler
method can be seen below:
public boolean runEventHandler(EventArgs args, IConfiguration configuration1) throws ConnectorException { BeforeExecuteCommandEventArgs args1 = (BeforeExecuteCommandEventArgs) args; if ("FileSize".equals(args1.getCommand())) { runCommand(args1.getRequest(), args1.getResponse(), configuration1); return false; } return true; }
Finding the File Name
In order to find out for which file the size was requested, we have to know the file name. This information can be obtained from the request parameter, which in turn can be found in the initParams
method of the parent Command
class. This method has to be overridden in our FileSizeCommand
class so that we could get the file name parameter. Since the initParams
method of the Command
class collects information about basic configuration parameters, it is necessary to call it, too. See below:
@Override public void initParams(HttpServletRequest request, IConfiguration configuration, Object... params) throws ConnectorException { super.initParams(request, configuration, params); }
The class should contain the fileName
and fileSize
fields so that we could store the desired data inside them.
public class FileSizeCommand extends XMLCommand implements IEventHandler { private String fileName; private long fileSize; }
In order to get the file name, you should use the getParameter
method as it decodes request parameters in accordance with CKFinder encoding.
@Override public void initParams(HttpServletRequest request, IConfiguration configuration, Object... params) throws ConnectorException { super.initParams(request, configuration, params); this.fileName = getParameter(request, "fileName"); }
Getting the File Size
Time to move on to the core functionality of the plugin — getting the file size:
@Override protected int getDataForXml() { File file = new File(configuration.getTypes().get(this.type).getPath() + this.currentFolder, this.fileName); this.fileSize = file.length(); return Constants.Errors.CKFINDER_CONNECTOR_ERROR_NONE ; }
A few notes with regard to the code above:
-
configuration.getTypes().get(this.type).getPath()
– this is the path to the folder representing particular file types (files, images, Flash objects). -
this.currentFolder
– the path to the current subfolder. -
this.fileName
– the name of the requested file. -
file.length()
–length
is a standardjava.io.File
method used to return the size of the requested file in bytes.
Introducing Validation
Right now the method for getting the file size works, but it has one major flaw — it does not provide any validation checks. This means that if anything goes wrong, an ugly exception with a stack trace will be thrown and it will most probably not be particularly readable to all users. Below is the same piece of code, but this time with validation check provided:
@Override protected int getDataForXml() { // Check if we have permission to see this file. if (!AccessControlUtil.getInstance(this.configuration) .checkFolderACL(this.type, this.currentFolder, this.userRole, AccessControlUtil.CKFINDER_CONNECTOR_ACL_FILE_VIEW)) { return Constants.Errors.CKFINDER_CONNECTOR_ERROR_UNAUTHORIZED; } // Check if the file name is set in the request. if (this.fileName == null || this.fileName.equals("")) { return Constants.Errors.CKFINDER_CONNECTOR_ERROR_INVALID_NAME; } // Check if the file extension is on the allowed list // and see if the file name is allowed. if (FileUtils.checkFileExtension(this.fileName, configuration.getTypes().get(this.type), this.configuration, false) == 1 || !FileUtils.checkFileName(this.fileName)) { return Constants.Errors.CKFINDER_CONNECTOR_ERROR_INVALID_REQUEST; } // Create a File object from the file path. File file = new File(configuration.getTypes().get(this.type).getPath() + this.currentFolder, this.fileName); try { // Check if the file is a file and if it exists. if (!file.exists() || !file.isFile()) { return Constants.Errors.CKFINDER_CONNECTOR_ERROR_FILE_NOT_FOUND; } // Save the file size. this.fileSize = file.length(); // All File objects throw the SecurityException, so we should handle it // to avoid getting an exception on the page. } catch (SecurityException e) { // If we are in the debug mode, we want to show the exception on the page. if (configuration.isDebugMode()) { this.exception = e; } return Constants.Errors.CKFINDER_CONNECTOR_ERROR_ACCESS_DENIED; } // No errors. return Constants.Errors.CKFINDER_CONNECTOR_ERROR_NONE ; }
Returning the XML Response
Now there is only one thing left — return the XML response. For this purpose we will use the aforementioned createXMLChildNodes
method.
The XML response for the plugin should look like this:
<Connector resourceType="Files"> <Error number="0"/> <CurrentFolder path="/" url="/ckfinder/userfiles/files/" acl="255"/> <FileSize size="5647"/> </Connector>
The <Connector>
, <Error>
and <CurrentFolder>
nodes are provided by the XMLCommand
class. You can think of them as a template. Our only task here is adding the FileSize
node. This can be achieved with the built-in CKFinder classes that provide XML file support (XmlElementData
, XmlAttribute
, and XMLCreator
):
@Override protected void createXMLChildNodes(int arg0, Element rootElement) throws ConnectorException { // Create a new XML element. XmlElementData elementData = new XmlElementData("FileSize"); // Create a new XML attribute. XmlAttribute attribute = new XmlAttribute("size", String.valueOf(this.fileSize)); // Add the attribute to the element. elementData.getAttributes().add(attribute); // Add the element to the root XML node. elementData.addToDocument(this.creator.getDocument(), rootElement); }
The plugin is ready. In order to use it you have to compile its classes and put them inside the WEB-INF/classes/
folder (the correct package folder path has to be preserved). Another solution is to create a .jar
file and put it inside the WEB-INF/lib
folder.
To see the full contents of the FileSizeCommand
class, .
package com.ckfinder.connector.plugins; import com.ckfinder.connector.configuration.Constants; import com.ckfinder.connector.configuration.IConfiguration; import com.ckfinder.connector.data.BeforeExecuteCommandEventArgs; import com.ckfinder.connector.data.EventArgs; import com.ckfinder.connector.data.IEventHandler; import com.ckfinder.connector.data.XmlAttribute; import com.ckfinder.connector.data.XmlElementData; import com.ckfinder.connector.errors.ConnectorException; import com.ckfinder.connector.handlers.command.XMLCommand; import com.ckfinder.connector.utils.AccessControlUtil; import com.ckfinder.connector.utils.FileUtils; import java.io.File; import javax.servlet.http.HttpServletRequest; import org.w3c.dom.Element; public class FileSizeCommand extends XMLCommand implements IEventHandler { private String fileName; private long fileSize; public boolean runEventHandler(EventArgs args, IConfiguration configuration1) throws ConnectorException { BeforeExecuteCommandEventArgs args1 = (BeforeExecuteCommandEventArgs) args; if ("FileSize".equals(args1.getCommand())) { runCommand(args1.getRequest(), args1.getResponse(), configuration1); return false; } return true; } @Override protected void createXMLChildNodes(int arg0, Element rootElement) throws ConnectorException { // Create a new XML element. XmlElementData elementData = new XmlElementData("FileSize"); // Create a new XML attribute. XmlAttribute attribute = new XmlAttribute("size", String.valueOf(this.fileSize)); // Add the attribute to the element. elementData.getAttributes().add(attribute); // Add the element to the root XML node. elementData.addToDocument(this.creator.getDocument(), rootElement); } @Override protected int getDataForXml() { // Check if we have permission to see this file. if (!AccessControlUtil.getInstance(this.configuration) .checkFolderACL(this.type, this.currentFolder, this.userRole, AccessControlUtil.CKFINDER_CONNECTOR_ACL_FILE_VIEW)) { return Constants.Errors.CKFINDER_CONNECTOR_ERROR_UNAUTHORIZED; } // Check if the file name is set in the request. if (this.fileName == null || this.fileName.equals("")) { return Constants.Errors.CKFINDER_CONNECTOR_ERROR_INVALID_NAME; } // Check if the file extension is on the allowed list // and see if the file name is allowed. if (FileUtils.checkFileExtension(this.fileName, configuration.getTypes().get(this.type), this.configuration, false) == 1 || !FileUtils.checkFileName(this.fileName)) { return Constants.Errors.CKFINDER_CONNECTOR_ERROR_INVALID_REQUEST; } // Create a File object from the file path. File file = new File(configuration.getTypes().get(this.type).getPath() + this.currentFolder, this.fileName); try { // Check if the file is a file and if it exists. if (!file.exists() || !file.isFile()) { return Constants.Errors.CKFINDER_CONNECTOR_ERROR_FILE_NOT_FOUND; } // Save the file size. this.fileSize = file.length(); // All File objects throw the SecurityException, so we should handle it // to avoid getting an exception on the page. } catch (SecurityException e) { // If we are in the debug mode, we want to show the exception on the page. if (configuration.isDebugMode()) { this.exception = e; } return Constants.Errors.CKFINDER_CONNECTOR_ERROR_ACCESS_DENIED; } // No errors. return Constants.Errors.CKFINDER_CONNECTOR_ERROR_NONE ; } @Override public void initParams(HttpServletRequest request, IConfiguration configuration, Object... params) throws ConnectorException { super.initParams(request, configuration, params); this.fileName = getParameter(request, "fileName"); } }