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199 lines
8.9 KiB
Go
199 lines
8.9 KiB
Go
// The MIT License
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//
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// Copyright (c) 2020 Temporal Technologies Inc. All rights reserved.
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//
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// Copyright (c) 2020 Uber Technologies, Inc.
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//
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// Permission is hereby granted, free of charge, to any person obtaining a copy
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// of this software and associated documentation files (the "Software"), to deal
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// in the Software without restriction, including without limitation the rights
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// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
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// copies of the Software, and to permit persons to whom the Software is
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// furnished to do so, subject to the following conditions:
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//
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// The above copyright notice and this permission notice shall be included in
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// all copies or substantial portions of the Software.
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//
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// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
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// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
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// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
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// THE SOFTWARE.
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/*
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Package activity contains functions and types used to implement Temporal Activities.
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An Activity is an implementation of a task to be performed as part of a larger Workflow. There is no limitation of
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what an Activity can do. In the context of a Workflow, it is in the Activities where all operations that affect the
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desired results must be implemented.
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Overview
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Temporal Go SDK does all the heavy lifting of handling the async communication between the Temporal
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managed service and the Worker running the Activity. As such, the implementation of the Activity can, for the most
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part, focus on the business logic. The sample code below shows the implementation of a simple Activity that accepts a
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string parameter, appends a word to it and then returns the result.
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import (
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"context"
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"go.temporal.io/sdk/activity"
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)
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func SimpleActivity(ctx context.Context, value string) (string, error) {
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activity.GetLogger(ctx).Info("SimpleActivity called.", "Value", value)
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return "Processed: ” + value, nil
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}
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The following sections explore the elements of the above code.
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Declaration
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In the Temporal programing model, an Activity is implemented with a function. The function declaration specifies the
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parameters the Activity accepts as well as any values it might return. An Activity function can take zero or many
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Activity specific parameters and can return one or two values. It must always at least return an error value. The
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Activity function can accept as parameters and return as results any serializable type.
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func SimpleActivity(ctx context.Context, value string) (string, error)
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The first parameter to the function is context.Context. This is an optional parameter and can be omitted. This
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parameter is the standard Go context.
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The second string parameter is a custom Activity-specific parameter that can be used to pass in data into the Activity
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on start. An Activity can have one or more such parameters. All parameters to an Activity function must be
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serializable, which essentially means that params can’t be channels, functions, variadic, or unsafe pointer.
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The Activity declares two return values: (string, error). The string return value is used to return the result of the
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Activity. The error return value is used to indicate an error was encountered during execution.
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Implementation
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There is nothing special about Activity code. You can write Activity implementation code the same way you would any
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other Go service code. You can use the usual loggers and metrics collectors. You can use the standard Go concurrency
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constructs.
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Failing the Activity
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To mark an Activity as failed, all that needs to happen is for the Activity function to return an error via the error
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return value.
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Activity Heartbeating
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For long running Activities, Temporal provides an API for the Activity code to report both liveness and progress back to
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the Temporal managed service.
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progress := 0
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for hasWork {
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// send heartbeat message to the server
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activity.RecordHeartbeat(ctx, progress)
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// do some work
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...
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progress++
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}
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When the Activity times out due to a missed heartbeat, the last value of the details (progress in the above sample) is
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returned from the workflow.ExecuteActivity function as the details field of TimeoutError with TimeoutType_HEARTBEAT.
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It is also possible to heartbeat an Activity from an external source:
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// instantiate a Temporal service Client
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client.Client client = client.NewClient(...)
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// record heartbeat
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err := client.RecordActivityHeartbeat(ctx, taskToken, details)
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It expects an additional parameter, "taskToken", which is the value of the binary "TaskToken" field of the
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"ActivityInfo" struct retrieved inside the Activity (GetActivityInfo(ctx).TaskToken). "details" is the serializable
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payload containing progress information.
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Activity Cancellation
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When an Activity is canceled (or its Workflow execution is completed or failed) the context passed into its function
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is canceled which sets its Done channel’s closed state. So an Activity can use that to perform any necessary cleanup
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and abort its execution. Currently cancellation is delivered only to Activities that call RecordHeartbeat.
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Async/Manual Activity Completion
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In certain scenarios completing an Activity upon completion of its function is not possible or desirable.
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One example would be the UberEATS order processing Workflow that gets kicked off once an eater pushes the “Place Order”
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button. Here is how that Workflow could be implemented using Temporal and the “async Activity completion”:
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- Activity 1: send order to restaurant
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- Activity 2: wait for restaurant to accept order
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- Activity 3: schedule pickup of order
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- Activity 4: wait for courier to pick up order
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- Activity 5: send driver location updates to eater
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- Activity 6: complete order
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Activities 2 & 4 in the above flow require someone in the restaurant to push a button in the Uber app to complete the
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Activity. The Activities could be implemented with some sort of polling mechanism. However, they can be implemented
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much simpler and much less resource intensive as a Temporal Activity that is completed asynchronously.
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There are 2 parts to implementing an asynchronously completed Activity. The first part is for the Activity to provide
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the information necessary to be able to be completed from an external system and notify the Temporal service that it is
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waiting for that outside callback:
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// retrieve Activity information needed to complete Activity asynchronously
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activityInfo := activity.GetInfo(ctx)
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taskToken := activityInfo.TaskToken
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// send the taskToken to external service that will complete the Activity
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...
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// return from Activity function indicating the Temporal should wait for an async completion message
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return "", activity.ErrResultPending
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The second part is then for the external service to call the Temporal service to complete the Activity. To complete the
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Activity successfully you would do the following:
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// instantiate a Temporal service Client
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// the same client can be used complete or fail any number of Activities
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client.Client client = client.NewClient(...)
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// complete the Activity
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client.CompleteActivity(taskToken, result, nil)
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And here is how you would fail the Activity:
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// fail the Activity
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client.CompleteActivity(taskToken, nil, err)
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The parameters of the CompleteActivity function are:
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- taskToken: This is the value of the binary “TaskToken” field of the
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“ActivityInfo” struct retrieved inside the Activity.
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- result: This is the return value that should be recorded for the Activity.
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The type of this value needs to match the type of the return value
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declared by the Activity function.
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- err: The error code to return if the Activity should terminate with an
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error.
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If error is not null the value of the result field is ignored.
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For a full example of implementing this pattern see the Expense sample.
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Registration
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In order to for some Workflow execution to be able to invoke an Activity type, the Worker process needs to be aware of
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all the implementations it has access to. To do that, create a Worker and register the Activity like so:
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```
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c, err := client.NewClient(client.Options{})
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if err != nil {
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log.Fatalln("unable to create Temporal client", err)
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}
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defer c.Close()
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w := worker.New(c, "SomeTaskQueue", worker.Options{})
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w.RegisterActivity(SomeActivityFunction)
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```
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This call essentially creates an in-memory mapping inside the Worker process between the fully qualified function name
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and the implementation. Unlike in Amazon SWF, Workflow and Activity types are not registered with the managed service.
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If the Worker receives a request to start an Activity execution for an Activity type it does not know it will fail that
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request.
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*/
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package activity
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