Features

This section goes into more detail about Spring Cloud Task, including how to use it, how to configure it, and the appropriate extension points.spring-doc.cn

7. The lifecycle of a Spring Cloud Task

In most cases, the modern cloud environment is designed around the execution of processes that are not expected to end. If they do end, they are typically restarted. While most platforms do have some way to run a process that is not restarted when it ends, the results of that run are typically not maintained in a consumable way. Spring Cloud Task offers the ability to execute short-lived processes in an environment and record the results. Doing so allows for a microservices architecture around short-lived processes as well as longer running services through the integration of tasks by messages.spring-doc.cn

While this functionality is useful in a cloud environment, the same issues can arise in a traditional deployment model as well. When running Spring Boot applications with a scheduler such as cron, it can be useful to be able to monitor the results of the application after its completion.spring-doc.cn

Spring Cloud Task takes the approach that a Spring Boot application can have a start and an end and still be successful. Batch applications are one example of how processes that are expected to end (and that are often short-lived) can be helpful.spring-doc.cn

Spring Cloud Task records the lifecycle events of a given task. Most long-running processes, typified by most web applications, do not save their lifecycle events. The tasks at the heart of Spring Cloud Task do.spring-doc.cn

The lifecycle consists of a single task execution. This is a physical execution of a Spring Boot application configured to be a task (that is, it has the Sprint Cloud Task dependencies).spring-doc.cn

At the beginning of a task, before any CommandLineRunner or ApplicationRunner implementations have been run, an entry in the TaskRepository that records the start event is created. This event is triggered through SmartLifecycle#start being triggered by the Spring Framework. This indicates to the system that all beans are ready for use and comes before running any of the CommandLineRunner or ApplicationRunner implementations provided by Spring Boot.spring-doc.cn

The recording of a task only occurs upon the successful bootstrapping of an ApplicationContext. If the context fails to bootstrap at all, the task’s run is not recorded.

Upon completion of all of the *Runner#run calls from Spring Boot or the failure of an ApplicationContext (indicated by an ApplicationFailedEvent), the task execution is updated in the repository with the results.spring-doc.cn

If the application requires the ApplicationContext to be closed at the completion of a task (all *Runner#run methods have been called and the task repository has been updated), set the property spring.cloud.task.closecontextEnabled to true.

7.1. The TaskExecution

The information stored in the TaskRepository is modeled in the TaskExecution class and consists of the following information:spring-doc.cn

Field Description

executionidspring-doc.cn

The unique ID for the task’s run.spring-doc.cn

exitCodespring-doc.cn

The exit code generated from an ExitCodeExceptionMapper implementation. If there is no exit code generated but an ApplicationFailedEvent is thrown, 1 is set. Otherwise, it is assumed to be 0.spring-doc.cn

taskNamespring-doc.cn

The name for the task, as determined by the configured TaskNameResolver.spring-doc.cn

startTimespring-doc.cn

The time the task was started, as indicated by the SmartLifecycle#start call.spring-doc.cn

endTimespring-doc.cn

The time the task was completed, as indicated by the ApplicationReadyEvent.spring-doc.cn

exitMessagespring-doc.cn

Any information available at the time of exit. This can programmatically be set by a TaskExecutionListener.spring-doc.cn

errorMessagespring-doc.cn

If an exception is the cause of the end of the task (as indicated by an ApplicationFailedEvent), the stack trace for that exception is stored here.spring-doc.cn

argumentsspring-doc.cn

A List of the string command line arguments as they were passed into the executable boot application.spring-doc.cn

7.2. Mapping Exit Codes

When a task completes, it tries to return an exit code to the OS. If we take a look at our original example, we can see that we are not controlling that aspect of our application. So, if an exception is thrown, the JVM returns a code that may or may not be of any use to you in debugging.spring-doc.cn

Consequently, Spring Boot provides an interface, ExitCodeExceptionMapper, that lets you map uncaught exceptions to exit codes. Doing so lets you indicate, at the level of exit codes, what went wrong. Also, by mapping exit codes in this manner, Spring Cloud Task records the returned exit code.spring-doc.cn

If the task terminates with a SIG-INT or a SIG-TERM, the exit code is zero unless otherwise specified within the code.spring-doc.cn

While the task is running, the exit code is stored as a null in the repository. Once the task completes, the appropriate exit code is stored based on the guidelines described earlier in this section.

8. Configuration

Spring Cloud Task provides a ready-to-use configuration, as defined in the DefaultTaskConfigurer and SimpleTaskConfiguration classes. This section walks through the defaults and how to customize Spring Cloud Task for your needs.spring-doc.cn

8.1. DataSource

Spring Cloud Task uses a datasource for storing the results of task executions. By default, we provide an in-memory instance of H2 to provide a simple method of bootstrapping development. However, in a production environment, you probably want to configure your own DataSource.spring-doc.cn

If your application uses only a single DataSource and that serves as both your business schema and the task repository, all you need to do is provide any DataSource (the easiest way to do so is through Spring Boot’s configuration conventions). This DataSource is automatically used by Spring Cloud Task for the repository.spring-doc.cn

If your application uses more than one DataSource, you need to configure the task repository with the appropriate DataSource. This customization can be done through an implementation of TaskConfigurer.spring-doc.cn

8.2. Table Prefix

One modifiable property of TaskRepository is the table prefix for the task tables. By default, they are all prefaced with TASK_. TASK_EXECUTION and TASK_EXECUTION_PARAMS are two examples. However, there are potential reasons to modify this prefix. If the schema name needs to be prepended to the table names or if more than one set of task tables is needed within the same schema, you must change the table prefix. You can do so by setting the spring.cloud.task.tablePrefix to the prefix you need, as follows:spring-doc.cn

spring.cloud.task.tablePrefix=yourPrefixspring-doc.cn

By using the spring.cloud.task.tablePrefix, a user assumes the responsibility to create the task tables that meet both the criteria for the task table schema but with modifications that are required for a user’s business needs. You can utilize the Spring Cloud Task Schema DDL as a guide when creating your own Task DDL as seen here.spring-doc.cn

8.3. Enable/Disable table initialization

In cases where you are creating the task tables and do not wish for Spring Cloud Task to create them at task startup, set the spring.cloud.task.initialize-enabled property to false, as follows:spring-doc.cn

spring.cloud.task.initialize-enabled=falsespring-doc.cn

It defaults to true.spring-doc.cn

The property spring.cloud.task.initialize.enable has been deprecated.

8.4. Externally Generated Task ID

In some cases, you may want to allow for the time difference between when a task is requested and when the infrastructure actually launches it. Spring Cloud Task lets you create a TaskExecution when the task is requested. Then pass the execution ID of the generated TaskExecution to the task so that it can update the TaskExecution through the task’s lifecycle.spring-doc.cn

A TaskExecution can be created by calling the createTaskExecution method on an implementation of the TaskRepository that references the datastore that holds the TaskExecution objects.spring-doc.cn

In order to configure your Task to use a generated TaskExecutionId, add the following property:spring-doc.cn

spring.cloud.task.executionid=yourtaskIdspring-doc.cn

8.5. External Task Id

Spring Cloud Task lets you store an external task ID for each TaskExecution. An example of this would be a task ID provided by Cloud Foundry when a task is launched on the platform. In order to configure your Task to use a generated TaskExecutionId, add the following property:spring-doc.cn

spring.cloud.task.external-execution-id=<externalTaskId>spring-doc.cn

8.6. Parent Task Id

Spring Cloud Task lets you store a parent task ID for each TaskExecution. An example of this would be a task that executes another task or tasks and you want to record which task launched each of the child tasks. In order to configure your Task to set a parent TaskExecutionId add the following property on the child task:spring-doc.cn

spring.cloud.task.parent-execution-id=<parentExecutionTaskId>spring-doc.cn

8.7. TaskConfigurer

The TaskConfigurer is a strategy interface that lets you customize the way components of Spring Cloud Task are configured. By default, we provide the DefaultTaskConfigurer that provides logical defaults: Map-based in-memory components (useful for development if no DataSource is provided) and JDBC based components (useful if there is a DataSource available).spring-doc.cn

The TaskConfigurer lets you configure three main components:spring-doc.cn

Component Description Default (provided by DefaultTaskConfigurer)

TaskRepositoryspring-doc.cn

The implementation of the TaskRepository to be used.spring-doc.cn

SimpleTaskRepositoryspring-doc.cn

TaskExplorerspring-doc.cn

The implementation of the TaskExplorer (a component for read-only access to the task repository) to be used.spring-doc.cn

SimpleTaskExplorerspring-doc.cn

PlatformTransactionManagerspring-doc.cn

A transaction manager to be used when running updates for tasks.spring-doc.cn

DataSourceTransactionManager if a DataSource is used. ResourcelessTransactionManager if it is not.spring-doc.cn

You can customize any of the components described in the preceding table by creating a custom implementation of the TaskConfigurer interface. Typically, extending the DefaultTaskConfigurer (which is provided if a TaskConfigurer is not found) and overriding the required getter is sufficient. However, implementing your own from scratch may be required.spring-doc.cn

Users should not directly use getter methods from a TaskConfigurer directly unless they are using it to supply implementations to be exposed as Spring Beans.

8.8. Task Name

In most cases, the name of the task is the application name as configured in Spring Boot. However, there are some cases where you may want to map the run of a task to a different name. Spring Cloud Data Flow is an example of this (because you probably want the task to be run with the name of the task definition). Because of this, we offer the ability to customize how the task is named, through the TaskNameResolver interface.spring-doc.cn

By default, Spring Cloud Task provides the SimpleTaskNameResolver, which uses the following options (in order of precedence):spring-doc.cn

  1. A Spring Boot property (configured in any of the ways Spring Boot allows) called spring.cloud.task.name.spring-doc.cn

  2. The application name as resolved using Spring Boot’s rules (obtained through ApplicationContext#getId).spring-doc.cn

8.9. Task Execution Listener

TaskExecutionListener lets you register listeners for specific events that occur during the task lifecycle. To do so, create a class that implements the TaskExecutionListener interface. The class that implements the TaskExecutionListener interface is notified of the following events:spring-doc.cn

  • onTaskStartup: Prior to storing the TaskExecution into the TaskRepository.spring-doc.cn

  • onTaskEnd: Prior to updating the TaskExecution entry in the TaskRepository and marking the final state of the task.spring-doc.cn

  • onTaskFailed: Prior to the onTaskEnd method being invoked when an unhandled exception is thrown by the task.spring-doc.cn

Spring Cloud Task also lets you add TaskExecution Listeners to methods within a bean by using the following method annotations:spring-doc.cn

  • @BeforeTask: Prior to the storing the TaskExecution into the TaskRepositoryspring-doc.cn

  • @AfterTask: Prior to the updating of the TaskExecution entry in the TaskRepository marking the final state of the task.spring-doc.cn

  • @FailedTask: Prior to the @AfterTask method being invoked when an unhandled exception is thrown by the task.spring-doc.cn

The following example shows the three annotations in use:spring-doc.cn

 public class MyBean {

    @BeforeTask
    public void methodA(TaskExecution taskExecution) {
    }

    @AfterTask
    public void methodB(TaskExecution taskExecution) {
    }

    @FailedTask
    public void methodC(TaskExecution taskExecution, Throwable throwable) {
    }
}
Inserting an ApplicationListener earlier in the chain than TaskLifecycleListener exists may cause unexpected effects.

8.9.1. Exceptions Thrown by Task Execution Listener

If an exception is thrown by a TaskExecutionListener event handler, all listener processing for that event handler stops. For example, if three onTaskStartup listeners have started and the first onTaskStartup event handler throws an exception, the other two onTaskStartup methods are not called. However, the other event handlers (onTaskEnd and onTaskFailed) for the TaskExecutionListeners are called.spring-doc.cn

The exit code returned when a exception is thrown by a TaskExecutionListener event handler is the exit code that was reported by the ExitCodeEvent. If no ExitCodeEvent is emitted, the Exception thrown is evaluated to see if it is of type ExitCodeGenerator. If so, it returns the exit code from the ExitCodeGenerator. Otherwise, 1 is returned.spring-doc.cn

In the case that an exception is thrown in an onTaskStartup method, the exit code for the application will be 1. If an exception is thrown in either a onTaskEnd or onTaskFailed method, the exit code for the application will be the one established using the rules enumerated above.spring-doc.cn

In the case of an exception being thrown in a onTaskStartup, onTaskEnd, or onTaskFailed you can not override the exit code for the application using ExitCodeExceptionMapper.

8.9.2. Exit Messages

You can set the exit message for a task programmatically by using a TaskExecutionListener. This is done by setting the TaskExecution’s exitMessage, which then gets passed into the TaskExecutionListener. The following example shows a method that is annotated with the @AfterTask ExecutionListener :spring-doc.cn

@AfterTask
public void afterMe(TaskExecution taskExecution) {
    taskExecution.setExitMessage("AFTER EXIT MESSAGE");
}

An ExitMessage can be set at any of the listener events (onTaskStartup, onTaskFailed, and onTaskEnd). The order of precedence for the three listeners follows:spring-doc.cn

  1. onTaskEndspring-doc.cn

  2. onTaskFailedspring-doc.cn

  3. onTaskStartupspring-doc.cn

For example, if you set an exitMessage for the onTaskStartup and onTaskFailed listeners and the task ends without failing, the exitMessage from the onTaskStartup is stored in the repository. Otherwise, if a failure occurs, the exitMessage from the onTaskFailed is stored. Also if you set the exitMessage with an onTaskEnd listener, the exitMessage from the onTaskEnd supersedes the exit messages from both the onTaskStartup and onTaskFailed.spring-doc.cn

8.10. Restricting Spring Cloud Task Instances

Spring Cloud Task lets you establish that only one task with a given task name can be run at a time. To do so, you need to establish the task name and set spring.cloud.task.single-instance-enabled=true for each task execution. While the first task execution is running, any other time you try to run a task with the same task name and`spring.cloud.task.single-instance-enabled=true`, the task fails with the following error message: Task with name "application" is already running. The default value for spring.cloud.task.single-instance-enabled is false. The following example shows how to set spring.cloud.task.single-instance-enabled to true:spring-doc.cn

spring.cloud.task.single-instance-enabled=true or falsespring-doc.cn

To use this feature, you must add the following Spring Integration dependencies to your application:spring-doc.cn

<dependency>
    <groupId>org.springframework.integration</groupId>
    <artifactId>spring-integration-core</artifactId>
</dependency>
<dependency>
    <groupId>org.springframework.integration</groupId>
    <artifactId>spring-integration-jdbc</artifactId>
</dependency>
The exit code for the application will be 1 if the task fails because this feature is enabled and another task is running with the same task name.

8.11. Disabling Spring Cloud Task Auto Configuration

In cases where Spring Cloud Task should not be auto configured for an implementation, you can disable Task’s auto configuration. This can be done either by adding the following annotation to your Task application:spring-doc.cn

@EnableAutoConfiguration(exclude={SimpleTaskAutoConfiguration.class})

You may also disable Task auto configuration by setting the spring.cloud.task.autoconfiguration.enabled property to false.spring-doc.cn

8.12. Closing the Context

If the application requires the ApplicationContext to be closed at the completion of a task (all *Runner#run methods have been called and the task repository has been updated), set the property spring.cloud.task.closecontextEnabled to true.spring-doc.cn

Another case to close the context is when the Task Execution completes however the application does not terminate. In these cases the context is held open because a thread has been allocated (for example: if you are using a TaskExecutor). In these cases set the spring.cloud.task.closecontextEnabled property to true when launching your task. This will close the application’s context once the task is complete. Thus allowing the application to terminate.spring-doc.cn