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Workflow message passing - Temporal Java SDK feature guide

Signals

A Signal is a message sent to a running Workflow Execution.

Signals are defined in your code and handled in your Workflow Definition. Signals can be sent to Workflow Executions from a Temporal Client or from another Workflow Execution.

Define a Signal

How to define a Signal using the Java SDK.

A Signal has a name and can have arguments.

  • The name, also called a Signal type, is a string.
  • The arguments must be serializable.

The @SignalMethod annotation indicates that the method is used to handle and react to external Signals.

@SignalMethod
void mySignal(String signalName);

The method can have parameters that contain the Signal payload and must be serializable by the default Jackson JSON Payload Converter.

void mySignal(String signalName, Object... args);

This method does not return a value and must have a void return type.

Things to consider when defining Signals:

  • Use Workflow object constructors and initialization blocks to initialize the internal data structures if possible.
  • Signals might be received by a Workflow before the Workflow method is executed. When implementing Signals in scenarios where this can occur, assume that no parts of Workflow code ran. In some cases, Signal method implementation might require some initialization to be performed by the Workflow method code first—for example, when the Signal processing depends on, and is defined by the Workflow input. In this case, you can use a flag to determine whether the Workflow method is already triggered; if not, persist the Signal data into a collection for delayed processing by the Workflow method.

Handle Signals in a Workflow in Java

How to handle Signals in a Workflow using the Java SDK.

Workflows listen for Signals by the Signal's name.

Use the @SignalMethod annotation to handle Signals in the Workflow interface.

The Signal type defaults to the name of the method. In the following example, the Signal type defaults to retryNow.

@WorkflowInterface
public interface FileProcessingWorkflow {

@WorkflowMethod
String processFile(Arguments args);

@SignalMethod
void retryNow();
}

To overwrite this default naming and assign a custom Signal type, use the @SignalMethod annotation with the name parameter. In the following example, the Signal type is set to retrysignal.

@WorkflowInterface
public interface FileProcessingWorkflow {

@WorkflowMethod
String processFile(Arguments args);

@SignalMethod(name = "retrysignal")
void retryNow();
}

A Workflow interface can define any number of methods annotated with @SignalMethod, but the method names or the name parameters for each must be unique.

In the following example, we define a Signal method updateGreeting to update the greeting in the Workflow. We set a Workflow.await in the Workflow implementation to block the current Workflow Execution until the provided unblock condition is evaluated to true. In this case, the unblocking condition is evaluated to true when the Signal to update the greeting is received.

@WorkflowInterface
public interface HelloWorld {
@WorkflowMethod
void sayHello(String name);

@SignalMethod
void updateGreeting(String greeting);
}
public class HelloWorldImpl implements HelloWorld {
private final Logger workflowLogger = Workflow.getLogger(HelloWorldImpl.class);
private String greeting;

@Override
public void sayHello(String name) {
int count = 0;
while (!"Bye".equals(greeting)) {
String oldGreeting = greeting;
Workflow.await(() -> !Objects.equals(greeting, oldGreeting));
}
workflowLogger.info(++count + ": " + greeting + " " + name + "!");
}

@Override
public void updateGreeting(String greeting) {
this.greeting = greeting;
}
}

This Workflow completes when the Signal updates the greeting to Bye.

Send a Signal from a Temporal Client

How to send a Signal to a Workflow Execution from a Temporal Client using the Java SDK.

When a Signal is sent successfully from the Temporal Client, the WorkflowExecutionSignaled Event appears in the Event History of the Workflow that receives the Signal.

To send a Signal to a Workflow Execution from a Client, call the Signal method, annotated with @SignalMethod in the Workflow interface, from the Client code.

In the following Client code example, we start the Workflow greetCustomer and call the Signal method addCustomer that is handled in the Workflow.

// create a typed Workflow stub for GreetingsWorkflow
GreetingsWorkflow workflow = client.newWorkflowStub(GreetingsWorkflow.class,
WorkflowOptions.newBuilder()
// set the Task Queue
.setTaskQueue(taskQueue)
// Workflow Id is recommended but not required
.setWorkflowId(workflowId)
.build());

// start the Workflow
WorkflowClient.start(workflow::greetCustomer);
// send a Signal to the Workflow
Customer customer = new Customer("John", "Spanish", "john@john.com");
workflow.addCustomer(customer); //addCustomer is the Signal method defined in the greetCustomer Workflow.

See Handle Signals for details on how to handle Signals in a Workflow.

Send a Signal from a Workflow

How to send a Signal to a Workflow Execution from another Workflow Execution using the Java SDK.

A Workflow can send a Signal to another Workflow, in which case it's called an External Signal.

When an External Signal is sent:

To send a Signal from within a Workflow to a different Workflow Execution, initiate an ExternalWorkflowStub in the implementation of the current Workflow and call the Signal method defined in the other Workflow.

The following example shows how to use an untyped ExternalWorkflowStub in the Workflow implementation to send a Signal to another Workflow.

public String sendGreeting(String name) {

// initiate ExternalWorkflowStub to call another Workflow by its Id "ReplyWF"
ExternalWorkflowStub callRespondWorkflow = Workflow.newUntypedExternalWorkflowStub("ReplyWF");

String responseTrigger = activity.greeting("Hello", name);

// send a Signal from this sendGreeting Workflow to the other Workflow
// by calling the Signal method name "getGreetCall" defined in that Workflow.
callRespondWorkflow.signal("getGreetCall", responseTrigger);

return responseTrigger;
}

Signal-with-Start in Java

How to use Signal-With-Start in Java using the Temporal Java SDK.

Signal-With-Start is used from the Client. It takes a Workflow Id, Workflow arguments, a Signal name, and Signal arguments.

If there's a Workflow running with the given Workflow Id, it will be signaled. If there isn't, a new Workflow will be started and immediately signaled.

To send Signals to a Workflow Execution whose status is unknown, use SignalWithStart with a WorkflowStub in the Client code. This method ensures that if the Workflow Execution is in a closed state, a new Workflow Execution is spawned and the Signal is delivered to the running Workflow Execution.

Note that when the SignalWithStart spawns a new Workflow Execution, the Signal is delivered before the call to your @WorkflowMethod. This means that the Signal handler in your Workflow interface code will execute before the @WorkfowMethod. You must ensure that your code logic can deal with this.

In the following example, the Client code uses SignalWithStart to send the Signal setCustomer to the UntypedWorkflowStub named GreetingWorkflow. If the GreetingWorkflow Workflow Execution is not running, the SignalWithStart starts the Workflow Execution.

public static void signalWithStart() {
// WorkflowStub is a client-side stub to a single Workflow instance
WorkflowStub untypedWorkflowStub = client.newUntypedWorkflowStub("GreetingWorkflow",
WorkflowOptions.newBuilder()
.setWorkflowId(workflowId)
.setTaskQueue(taskQueue)
.build());

untypedWorkflowStub.signalWithStart("setCustomer", new Object[] {customer2}, new Object[] {customer1});

printWorkflowStatus();

try {
String greeting = untypedWorkflowStub.getResult(String.class);
printWorkflowStatus();
System.out.println("Greeting: " + greeting);
} catch(WorkflowFailedException e) {
System.out.println("Workflow failed: " + e.getCause().getMessage());
printWorkflowStatus();
}
}

The following example shows the Workflow interface for the GreetingWorkflow called in the previous example.

@WorkflowInterface
public interface GreetingWorkflow {
@WorkflowMethod
String greet(Customer customer);

@SignalMethod
void

setCustomer(Customer customer);

@QueryMethod
Customer getCustomer();
}

Note that the Signal handler setCustomer is executed before the @WorkflowMethod greet is called.

Queries

A Query is a synchronous operation that is used to get the state of a Workflow Execution.

Define a Query

How to define a Query using the Java SDK.

A Query has a name and can have arguments.

  • The name, also called a Query type, is a string.
  • The arguments must be serializable.

To define a Query, define the method name and the result type of the Query.

query(String queryType, Class<R> resultClass, Type resultType, Object... args);

/* @param queryType name of the Query handler. Usually it is a method name.
* @param resultClass class of the Query result type
* @param args optional Query arguments
* @param <R> type of the Query result
*/

Query methods can take in any number of input parameters which can be used to limit the data that is returned.

Use the Query method names to send and receive Queries.

Query methods must never change any Workflow state including starting Activities or blocking threads in any way.

Handle a Query

How to handle a Query in a Workflow using the Java SDK.

Queries are handled by your Workflow.

Don't include any logic that causes Command generation within a Query handler (such as executing Activities). Including such logic causes unexpected behavior.

To handle a Query in the Workflow, create a Query handler using the @QueryMethod annotation in the Workflow interface and define it in the Workflow implementation.

The @QueryMethod annotation indicates that the method is used to handle a Query that is sent to the Workflow Execution. The method can have parameters that can be used to filter data that the Query returns. Because the method returns a value, it must have a return type that is not void.

The Query name defaults to the name of the method. In the following example, the Query name defaults to getStatus.

@WorkflowInterface
public interface FileProcessingWorkflow {
@QueryMethod
String getStatus();
}

To overwrite this default naming and assign a custom Query name, use the @QueryMethod annotation with the name parameter. In the following example, the Query name is set to "history".

@WorkflowInterface
public interface FileProcessingWorkflow {
@QueryMethod(name = "history")
String getStatus();
}

A Workflow Definition interface can define multiple methods annotated with @QueryMethod, but the method names or the name parameters for each must be unique.

The following Workflow interface has a Query method getCount() to handle Queries to this Workflow.

@WorkflowInterface
public interface HelloWorld {
@WorkflowMethod
void sayHello(String name);

@QueryMethod
int getCount();
}

The following example is the Workflow implementation with the Query method defined in the HelloWorld Workflow interface from the previous example.

public static class HelloWorldImpl implements HelloWorld {

private String greeting = "Hello";
private int count = 0;

@Override
public void sayHello(String name) {
while (!"Bye".equals(greeting)) {
logger.info(++count + ": " + greeting + " " + name + "!");
String oldGreeting = greeting;
Workflow.await(() -> !Objects.equals(greeting, oldGreeting));
}
logger.info(++count + ": " + greeting + " " + name + "!");
}

@Override
public int getCount() {
return count;
}
}

Send a Query

How to send a Query to a Workflow Execution from a Temporal Client using the Java SDK.

Queries are sent from a Temporal Client.

To send a Query to a Workflow Execution from an external process, call the Query method (defined in the Workflow) from a WorkflowStub within the Client code.

For example, the following Client code calls a Query method queryGreeting() defined in the GreetingWorkflow Workflow interface.

 // Create our workflow options
WorkflowOptions workflowOptions =
WorkflowOptions.newBuilder()
.setWorkflowId(WORKFLOW_ID)
.setTaskQueue(TASK_QUEUE).build();

// Create the Temporal client stub. It is used to start our workflow execution.
GreetingWorkflow workflow = client.newWorkflowStub(GreetingWorkflow.class, workflowOptions);

// Start our workflow asynchronously to not use another thread to query.
WorkflowClient.start(workflow::createGreeting, "World");

// Query the Workflow to get the current value of greeting and print it.
System.out.println(workflow.queryGreeting());

Dynamic Handlers

What is a Dynamic Handler in Temporal Java SDK?

Temporal supports Dynamic Workflows, Activities, Signals, and Queries. These are unnamed handlers that are invoked if no other statically defined handler with the given name exists.

Dynamic Handlers provide flexibility to handle cases where the names of Workflows, Activities, Signals, or Queries aren't known at runtime.

caution

Dynamic Handlers should be used judiciously as a fallback mechanism rather than the primary approach. Overusing them can lead to maintainability and debugging issues down the line.

Instead, Workflows, Activities, Signals, and Queries should be defined statically whenever possible, with clear names that indicate their purpose. Use static definitions as the primary way of structuring your Workflows.

Reserve Dynamic Handlers for cases where the handler names are not known at compile time and need to be looked up dynamically at runtime. They are meant to handle edge cases and act as a catch-all, not as the main way of invoking logic.

Set a Dynamic Workflow

Use DynamicWorkflow to implement Workflow Types dynamically. Register a Workflow implementation type that extends DynamicWorkflow to implement any Workflow Type that is not explicitly registered with the Worker.

The dynamic Workflow interface is implemented with the execute method. This method takes in EncodedValues that are inputs to the Workflow Execution. These inputs can be specified by the Client when invoking the Workflow Execution.

public class MyDynamicWorkflow implements DynamicWorkflow {
@Override
public Object execute(EncodedValues args) {
}
}

How to set a Dynamic Activity

To handle Activity types that do not have an explicitly registered handler, you can directly implement a dynamic Activity.

Use DynamicActivity to implement any number of Activity types dynamically. When an Activity implementation that extends DynamicActivity is registered, it is called for any Activity type invocation that doesn't have an explicitly registered handler.

The dynamic Activity interface is implemented with the execute method, as shown in the following example.

// Dynamic Activity implementation
public static class DynamicGreetingActivityImpl implements DynamicActivity {
@Override
public Object execute(EncodedValues args) {
String activityType = Activity.getExecutionContext().getInfo().getActivityType();
return activityType
+ ": "
+ args.get(0, String.class)
+ " "
+ args.get(1, String.class)
+ " from: "
+ args.get(2, String.class);
}
}

Use Activity.getExecutionContext() to get information about the Activity type that should be implemented dynamically.

How to set a Dynamic Signal

You can also implement Signal handlers dynamically. This is useful for library-level code and implementation of DSLs.

Use Workflow.registerListener(Object) to register an implementation of the DynamicSignalListener in the Workflow implementation code.

Workflow.registerListener(
(DynamicSignalHandler)
(signalName, encodedArgs) -> name = encodedArgs.get(0, String.class));

When registered, any Signals sent to the Workflow without a defined handler will be delivered to the DynamicSignalHandler. Note that you can only register one Workflow.registerListener(Object) per Workflow Execution. DynamicSignalHandler can be implemented in both regular and dynamic Workflow implementations.

How to set a Dynamic Query

You can also implement Query handlers dynamically. This is useful for library-level code and implementation of DSLs.

Use Workflow.registerListener(Object) to register an implementation of the DynamicQueryListener in the Workflow implementation code.

Workflow.registerListener(
(DynamicQueryHandler)
(queryName, encodedArgs) -> name = encodedArgs.get(0, String.class));

When registered, any Queries sent to the Workflow without a defined handler will be delivered to the DynamicQueryHandler. Note that you can only register one Workflow.registerListener(Object) per Workflow Execution. DynamicQueryHandler can be implemented in both regular and dynamic Workflow implementations.

Updates

An Update is an operation that can mutate the state of a Workflow Execution and return a response.

Define Update

How to define an Update using the Java SDK.

An Update handler has a name, arguments, response, and an optional validator.

  • The name, also called an Update type, is a string.
  • The arguments and response must be serializable.

The @UpdateMethod annotation indicates that the method is used to handle and respond to update requests.

@UpdateMethod
String myUpdate(String updateName);

Handle Update

How to handle Updates in a Workflow using the Java SDK.

Workflows listen for Updates by the update's name.

Use the @UpdateMethod annotation to handle Updates in the Workflow interface. The handler method can accept multiple serializable input parameters, but it's recommended to use only a single parameter. The function can return a serializable value or void. If any exception is thrown while handling an update, that exception may fail the Workflow task or the update depending on the type of the exception and WorkflowImplementationOptions.setFailWorkflowExceptionTypes.

@WorkflowInterface
public interface FileProcessingWorkflow {

@WorkflowMethod
String processFile(Arguments args);

@UpdateMethod
void pauseProcessing();
}

Update handlers, unlike Query handlers, can change Workflow state.

The Update type defaults to the name of the method. To overwrite this default naming and assign a custom Update type, use the @UpdateMethod annotation with the name parameter.

@WorkflowInterface
public interface FileProcessingWorkflow {

@WorkflowMethod
String processFile(Arguments args);

@UpdateMethod(name = "pause")
void pauseProcessing();
}

Dynamic Update Handler

You can also implement Update handlers dynamically. This is useful for library-level code and implementation of DSLs.

Workflow.registerListener(
(DynamicUpdateHandler)
(updateName, encodedArgs) -> encodedArgs.get(0, String.class));

When registered, any Updates sent to the Workflow without a defined handler will be delivered to the DynamicUpdateHandler. You can only register one Workflow.registerListener(Object) per Workflow Execution. DynamicUpdateHandler can be implemented in both regular and dynamic Workflow implementations.

Validate Update

How to validate Updates in a Workflow using the Java SDK.

Validate certain aspects of the data sent to the Workflow using an Update Validator method. For instance, a counter Workflow might never want to accept a non-positive number. Use the @UpdateValidatorMethod annotation and set updateName to the name of your Update handler. Your Update Validator should accept the same input parameters as your Update Handler and return void.

@WorkflowInterface
public interface GreetingWorkflow {
@WorkflowMethod
List<String> getGreetings();

@UpdateMethod
int addGreeting(String name);

@UpdateValidatorMethod(updateName = "addGreeting")
void addGreetingValidator(String name);
}

Send Update from a Client

How to send an Update to a Workflow Execution from a Temporal Client using the Java SDK.

To send an Update to a Workflow Execution from a Client, call the Update method, annotated with @UpdateMethod in the Workflow interface, from the Client code.

In the following Client code example, start the Workflow getGreetings and call the Update method addGreeting that is handled in the Workflow.

WorkflowOptions workflowOptions =
WorkflowOptions.newBuilder().setTaskQueue(TASK_QUEUE).setWorkflowId(WORKFLOW_ID).build();

// Create a typed Workflow stub for GreetingsWorkflow
GreetingWorkflow workflow = client.newWorkflowStub(GreetingWorkflow.class, workflowOptions);

// Start the Workflow
WorkflowClient.start(workflow::getGreetings);

// Send an update to the Workflow. addGreeting returns
// the number of greetings our workflow has received.
int count = workflow.addGreeting("World");