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Studio Visual Debugger

Studio Visual Debugger allows you to run your application in Debug mode, stopping execution to check the contents of a message at previously-specified building blocks.

To do this, you set a breakpoint at any building block in your flow that you wish to check or test (see image below). When you run your application in Debug mode, the application stops immediately after executing the building block with the breakpoint. Using the Mule Debugger View, you can browse through the contents of the message as it exists at that point in the flow, and evaluate Mule Expressions against the message.

Studio Debugger only works with Enterprise Edition runtimes and does not connect to Community Edition runtimes.

Note that the Visual Debugger is completely distinct from the Java Debugger contained in Studio; in fact, you may run both debuggers concurrently on your application.

A message flow with breakpoints set and a table of variables in the session

Assumptions

This document assumes that you are familiar with the Anypoint Studio Essentials, particularly Studio Building Blocks. Review the Getting Started with Mule Studio chapter to learn more about developing with Mule’s graphical user interface.

Prerequisites

When debugging on your local machine, Studio Visual Debugger listens for incoming TCP connections on localhost port 6666. This port must be available on your machine, i.e. not blocked by a firewall or other security software.

If you plan to remotely debug an application running in an external Mule server, you will need connectivity between your machine (where you run Studio Visual Debugger) and the server’s debug port, by default 6666. Ensure that there are no routing issues or firewalls blocking access between your host and the server’s debug port.

(For additional information on remote debugging, see the section <Debugging Remotely,Debugging Remotely> in this page.)

Testing connectivity to a remote Mule server with the Telnet command

From the host where you plan to run Studio Visual Debugger, telnet to the host and port where Mule is listening, by opening a terminal and running the following command:

telnet <host> <port>

If the connection succeeds, you should see output similar to the following:

$ telnet 172.16.0.22 6666
Trying 172.16.0.22...
Connected to 172.16.0.22...
Escape character is '^]'.

The above output indicates that the connection was successful. A "connection refused" error indicates that nothing is listening on the specified host and port (the server is not running, or not running in debug mode, or listening on another port). Any other output, or lack of output, indicates a connectivity problem, such as a routing issue or firewall blocking requests between your host and the host.

Using the Visual Debugger

Complete the following macro-steps to use the Visual Debugger in Studio.

  1. Set breakpoints on building blocks in your application via right click menu on the Studio component, see Setting Breakpoints - .

  2. Run the application in Debug mode, see Running in Debug Mode.

  3. Viewing Message Data at a Breakpoint and/or Evaluating Mule Expressions on the data in the first building block that has a breakpoint.

  4. Resume application execution.

  5. Repeat step 3, checking the next building block that has a breakpoint set on it, if any.

Setting Breakpoints

  1. Right-click a building block, then select Toggle breakpoint.

    A workflow diagram that illustrates the process of creating a REST service and a project stock
  2. Studio applies a red dot to the building block’s icon on the canvas.

    A diagram illustrating the transmission of a content-type property to an HTTP REST service, followed by transformation via an XML decoder

When you run your application in Debug mode, Studio stops the flow execution at the breakpoint you have set, allowing you to check the message contents in the Mule Debugger View.

Running in Debug Mode

  1. In the Package Explorer pane, right-click your application, then select Debug As > Mule Application. Studio begins running the application in Debug mode, and displays the Confirm Perspective Switch window.

    A prompt will appear, inquiring if you wish to open a Mule Debug perspective
  2. Click Yes to open the Debug perspective, from which you can access the full functionality of the Visual Debugger.

Viewing Message Data at a Breakpoint

When you begin running your application in Debug mode, Mule opens the Mule Debug perspective. Until a message arrives at the first breakpoint, the Mule Debugger View in the console displays a message that reads, "Connected with Mule. Waiting for a Mule message to arrive!"

The image below illustrates the Mule Debug perspective.

A Mule Studio window with a flow diagram displaying an HTTP endpoint, body to parameter map, and a choice component
Number Description

1

Mule Debugger View displays information about a message when the flow execution reaches a breakpoint. In the image above, the application running in Debug mode has not yet received any message, so Studio displays no message information.

2

Mule Breakpoint Watches tab displays the Mule Breakpoint Watches pane, where you can add, remove and edit Mule breakpoint watches.

3

Mule Breakpoints View provides a listing of all breakpoints set in all Studio applications.

4

Displays breakpoints in the Mule Breakpoints View.

5

Checkbox for setting a breakpoint as Configuring Conditional Breakpoints. Below it is the input field for entering the desired condition. In the image above, the checkbox and the input field are grayed-out because no breakpoint is selected in the Mule Breakpoints View.

When a message arrives at the first breakpoint, the Mule Debugger View displays two panes, as shown below.

A table displaying the names, values, and types of inbound variables

The left pane displays the message payload (in this case, an HTTP GET request received via an HTTP Connector). The right pane displays various metadata associated with the message:

  • Inbound: message information (payload and metadata) if the message is inbound or within Mule

  • Variables: active Mule variables at execution breakpoint

  • Outbound: message information (payload and metadata) if the message is outbound

  • Session: active session variables at execution breakpoint

To resume execution, click the Resume icon (see below) or press F8. Your application runs until the message reaches the next breakpoint, if any.

A table of HTTP request headers and their corresponding values

Rather than simply resuming execution, you can choose to go to the next message processor, skip to a selected message processor, or stop the application. See Execution Control Tools for full details.

Mule Debugger View

This section contains a full description of the Mule Debugger View and all its available tools.

Table of Inbound Variables, Their Values, and Types

Left Pane

The left pane displays the message payload as a tree structure.

Number Description Remarks

1

Name column displays the name of each message property.

The first property displayed is always the name of the message processor.

2

Value column

3

Type column

4

Name of a message property.

To see any nested elements for a property, click the arrow next to the property name . You can see all objects in the message payload.

A table that displays the Message Processor with Name, Value, and Type Attributes

5

Value of each message property

On some message processors, you can change the message payload by editing the payload properties. Visual Debugger automatically stores the modified payload object. When you resume running the application, the message progresses with the modified value.

To edit a message property:

  1. Click the value you wish to change.

  2. Type a new value.

  3. Press Enter.

A table that displays the name, value, and type of a Message Processor and a payload

Right Pane

The right pane displays message metadata.

Number Description

6

Inbound pane displays message data if the message processor is an inbound endpoint.

7

Variables pane displays any Mule variable currently active.

8

Outbound pane displays message data if the message processor is an outbound endpoint.

9

Session pane displays any session variable currently active.

Execution Control Tools

Use the tools described in the table below to perform actions in Mule Debug perspective.

Number Icon Description Shortcut

10

A circle with a line through it

Mute Breakpoints – Click to mute all the marked breakpoints.

11

A square icon"

Terminate – Click to stop the currently running application.

12

An equation icon

Evaluate Mule Expression – Click to evaluate a Mule expression.

Command+SHIFT+i

Linux and Windows:

Ctrl+SHIFT+i

13

Am arrow curving down with a bar beneath it

Next Processor – Click to run the application and stop at the next message processor in the flow, even if there is no breakpoint at the next processor.

F6

14

An arrow pointing right with a vertical line next to it

Run to Processor – Click to run the application and stop at the currently selected processor, even if there is no breakpoint at the currently selected processor. Emulates the behavior of the "Run to cursor" option in Java debuggers. (To select a processor, single-click its building block in the canvas.)

F7

15

A pause button and a play button

resume - Click to run the application until the next breakpoint, if any.

F8

16

A clock with an arrow

Start Poll - When configuring a Poll Scope in your Mule application, click the Start poll button to start polling the content inside the scope according to the frequency set in the poll scope. To force the poll results without waiting the frequency set, you can click the force poll button that becomes visible only when you are debugging a poll scope:
A Twitter button with a play button highlighted .

17

A clock with a red bar indicating the time

Stop Poll - When configuring a Poll Scope in your Mule application, click the Stop poll button to stop the initiated poll Scope. This function only works if the poll has been initiated using the Start Poll button above.

Evaluating Mule Expressions

Complete the following steps to test a Mule expression against the message processor set with a breakpoint.

  1. Ensure that Studio has stopped flow execution at the desired breakpoint. When stopped, the breakpoint appears surrounded by a dotted blue line in the canvas, and Studio populates the Mule Debugger View with information.

  2. Click the Evaluate Mule Expression icon above the right-hand pane in the Mule Debugger View. Studio displays the expression evaluation window (with yellow background in the image below).

    A flow diagram with three options: REST, SOAP, and WSDL flow references
  3. Type the Mule expression you wish to evaluate in the provided input field, then press enter. Studio evaluates the expression, then displays the result in the Name, Value and Type columns.

For instance, in the example Viewing Message Data at a Breakpoint, the message is an HTTP request containing two properties, Symbol and Method. To see the value for Method, enter #[message.inboundProperties['Method'], then press Enter.

A table with columns for name, value, and type

Using the expression evaluation window, you can also edit message properties or attributes. Simply right-click the property value or attribute, type the new value, then press enter.

Setting Breakpoint Parameters

You can configure breakpoints according to three parameters, described in the table below. These parameters are set in the Mule Breakpoints View.

Type Description

Default (no parameters)

Default configuration for a user-defined breakpoint. The breakpoint is set on a user-defined building block, and activated by default. When a message reaches the breakpoint building block, Studio stops flow execution and displays the contents of the message in the Mule Debugger View.

Conditional

The breakpoint is activated only if a user-defined condition evaluates to true.

Exception

This is a global parameter. When set, Studio stops flow execution at any building block where an exception occurs. The Mule Debugger View will display the message contents at the building block that threw the exception.

Set these parameters in the Mule Breakpoints view, described below.

Mule Breakpoints View

This view displays all breakpoints defined in all the applications currently open in Studio. To access the Mule Breakpoints view, ensure that you are currently in the Debug Perspective. (If not, click Mule Debug under the main toolbar). From the Debug Perspective, click the Mule Breakpoints tab to the right of the Studio palette.

A list of debugging elements with checkboxes, a conditional button, and a numbered field

In the image above, the Mule Breakpoints View displays all breakpoints of all applications currently open in Studio. Studio lists the breakpoints in the following format: <application name> [<message processor number>] - <flow name>.

Number Description Remarks

1

Configuring Exception Breakpoints parameter (toggle)

applies to all message processors

2

remove all breakpoints

does not remove message processors, only unsets all breakpoints

3

remove selected breakpoint

4

set selected breakpoint as Configuring Conditional Breakpoints

5

condition to evaluate for the selected breakpoint, if set as conditional

condition must be a boolean; breakpoint activates if condition evaluates to true.

Activating And Deactivating Breakpoints

When you set a breakpoint, Studio activates the breakpoint by default. In the Mule Breakpoints View, indicates the activation with a checked box to the left of the breakpoint name. Uncheck the box to deactivate a breakpoint. Though deactivated, Studio does not delete the breakpoint. In the canvas pane, the breakpoint’s corresponding building block displays a gray circle instead of red.

Additionally you can activate the Mute breakpoints option in the Debugger view to temporarily disallow the debugger to stop at your selected breakpoints.

The images below display two breakpoints, set in the first two message processors of the HTTP_input flow. The breakpoint for the first message processor, indicated as processors:1/0/0, is activated. The breakpoint for the second message processor, processors:1/1/0, is deactivated.

A list of mule-config processors with a checkbox next to each one
A choice node connects to a REST flow reference and a SOAP flow reference

Configuring Conditional Breakpoints

A conditional breakpoint is activated only if a user-defined condition evaluates to true when Studio executes the building block with the breakpoint. You define the condition using a Mule Expression.

  1. Click the breakpoint in the Mule Breakpoints View to select it.

  2. Check Conditional at the bottom of the Mule Breakpoints View.

  3. Enter the condition that must be met for the breakpoint to be activated.

For example, the following expression activates the breakpoint if the value of message property Method is REST:

#[message.inboundProperties['Method']=='REST']

Configuring Exception Breakpoints

To set the Exception parameter for the application, click the Exceptions button (represented by a lightening bolt icon) in the Breakpoints View. This parameter causes any message processor in the application to become a breakpoint if it throws an exception. In such a case, Studio stops flow execution at the message processor which threw the exception, then displays the message in the Mule Debugger View. Additionally, Studio displays the exception throwing building block surrounded by a red, dotted-line square (see image below).

A diagram that illustrates the steps of a REST flow process, such as extracting a token, configuring the message, invoking a REST service, and using an XML decoder transformer

In the image above, the XsltRest transformer building block threw an exception, stopping application execution. (Notice that the building block was not set as a breakpoint.) The Mule Debugger View displays the message content, allowing you to see the contents of the exception.

Using Mule Expression Watches

Mule Visual Debugger can watch for selected Mule expression in all active breakpoints. If the expression occurs at at any of the active breakpoints, Mule evaluates the expression, then displays the result in the Mule Expression Watches view.

To access the Mule Expression Watches view, ensure that you are currently in the Mule Debug Perspective. (If not, click Mule Debug under the main toolbar). From the Debug Perspective, click the Mule Expression Watches tab to the right of the Studio Palette.

Mule Expression Watches View

A table with columns for name, value, and type, with headers for Mule Expression Watches and Mule Breakpoints
Number Description

1

Add Expression icon. Click to add a Mule expression to watch for.

2

Delete Expression icon. Click to delete the selected Mule expression.

3

Delete All Expressions icon. Click to delete all Mule expressions on the watch list.

  1. To instruct Studio to watch for an expression, click the Add Expression icon shown above.

  2. Mule prompts you to enter the new expression for which to watch.

  3. Studio displays the new Watch in the Mule Expression Watches View, as shown above. If your expression is a declaration, Mule returns a boolean; if not, Mule returns the value. For example:

    • The expression message.payload == 'myPayload' returns either true or false.

    • The expression message.payload returns the value of message.payload.

Debugging Remotely

You can debug an application on a remote Mule Server using Remote Mule Application. To do so, you must start the Mule server in debug mode, then connect to the server from Studio.

  • When you start Mule in debug mode, all applications that you launch in that server run in debug mode.

  • Remote debugging does not work with clusters.

Starting Mule Server In Debug Mode

  1. To start the server in debug mode, use the following parameters:

    Parameter Description
    -M-Dmule.debug.enable=true

    Mandatory. Sets debugging mode in Mule. Issue this parameter first.

    -M-Dmule.debug.port=<port number>

    Optional. Sets the listening port for incoming connections from Studio. If unset, the listening port will be 6666.

    -M-Dmule.debug.suspend=true

    Optional. Sets "suspend" mode in Mule. In suspend mode, Mule will start, then immediately suspend application execution until it receives a connection on the debug port.

  2. To pass the parameters to the server, follow one of the two methods outlined below.

    1. Method 1: pass the parameters to Mule on the command line in the appropriate order, as shown in the example below.

      <$MULE_HOME>/bin/mule -M-Dmule.debug.enable=true -M-Dmule.debug.port=1234

      The command displayed above starts Mule in the foreground. To exit Mule when it is running in the foreground, press Ctrl+C.

      To start Mule in debugging mode in the background, issue start as the first parameter for the mule command, as shown below.

      <$MULE_HOME>/bin/mule start -M-Dmule.debug.enable=true -M-Dmule.debug.port=1234
    2. Method 2: include the parameters in the wrapper configuration file, $MULE_HOME/conf/wrapper.conf, as shown below.

wrapper.java.additional.4=-Dmule.debug.enable=true
wrapper.java.additional.5=-Dmule.debug.port=1234

In the code shown above, replace the parameter number to reflect the number of active parameters in your configuration file.

Connecting to the Remote Mule Server

Before accessing and debugging your application on a remote server, you must first export and deploy your application to the desired Mule server.

  1. In Studio, click the arrow next to the debug icon (represented by a small insect), then select Debug Configurations. Studio displays the Debug Configurations window.

  2. In the window’s left pane, click Remote Mule Application.

  3. Click the new configuration icon (represented by a blank page with a yellow plus sign) to add a new configuration.

  4. Enter the required parameters for the configuration:

    • Name: name for this configuration.

    • Host: indicates the location of the remote Mule server.

    • Port: indicates the listening port for the remote Mule server.

A "Connected with Mule. Waiting for a Mule Message to arrive" watermark appears as the Debugger’s background when the connection succeeds.

Note that, by default, the Mule Debugger won’t stop on java break points. If you want both, Mule and Java breakpoints to work you need to connect both debuggers in different ports at the same time using the below example configuration in the wrapper.conf:

wrapper.conf:
# Debug remotely, the application will wait for the external debugger to connect.
wrapper.java.additional.19=-Xdebug
wrapper.java.additional.20=-Xnoagent
wrapper.java.additional.21=-Djava.compiler=NONE
wrapper.java.additional.22=-Xrunjdwp:transport=dt_socket,server=y,suspend=y,address=5006

wrapper.java.additional.19=-Dmule.debug.enable=true
wrapper.java.additional.20=-Dmule.debug.port=5005

Using this configuration, the Mule Application connects to the debugger using port 5005 and Remote Java Application uses port 5006.

See Also

  • Read more about the Studio Visual Debugger in our MuleSoft Blog.

  • Explore DataSense, another tool to facilitate development of applications with fewer bugs at runtime

  • Use Studio, including Studio Visual Debugger, as an Eclipse plugin.

  • Learn more about setting Business Events in your Enterprise Edition Studio application.