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490 lines
25 KiB
Go
490 lines
25 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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package workflow
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import (
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"errors"
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"go.temporal.io/sdk/converter"
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"go.temporal.io/sdk/internal"
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"go.temporal.io/sdk/internal/common/metrics"
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"go.temporal.io/sdk/log"
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)
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type (
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// ChildWorkflowFuture represents the result of a child workflow execution
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ChildWorkflowFuture = internal.ChildWorkflowFuture
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// Type identifies a workflow type.
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Type = internal.WorkflowType
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// Execution Details.
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Execution = internal.WorkflowExecution
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// Version represents a change version. See GetVersion call.
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Version = internal.Version
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// ChildWorkflowOptions stores all child workflow specific parameters that will be stored inside of a Context.
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ChildWorkflowOptions = internal.ChildWorkflowOptions
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// RegisterOptions consists of options for registering a workflow
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RegisterOptions = internal.RegisterWorkflowOptions
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// Info information about currently executing workflow
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Info = internal.WorkflowInfo
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// ContinueAsNewError can be returned by a workflow implementation function and indicates that
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// the workflow should continue as new with the same WorkflowID, but new RunID and new history.
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ContinueAsNewError = internal.ContinueAsNewError
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)
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// ExecuteActivity requests activity execution in the context of a workflow.
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// Context can be used to pass the settings for this activity.
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// For example: task queue that this need to be routed, timeouts that need to be configured.
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// Use ActivityOptions to pass down the options.
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//
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// ao := ActivityOptions{
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// TaskQueue: "exampleTaskQueue",
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// ScheduleToStartTimeout: 10 * time.Second,
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// StartToCloseTimeout: 5 * time.Second,
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// ScheduleToCloseTimeout: 10 * time.Second,
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// HeartbeatTimeout: 0,
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// }
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// ctx := WithActivityOptions(ctx, ao)
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//
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// Or to override a single option
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//
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// ctx := WithTaskQueue(ctx, "exampleTaskQueue")
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//
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// Input activity is either an activity name (string) or a function representing an activity that is getting scheduled.
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// Note that the function implementation is ignored by this call.
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// It uses function to extract activity type string from it.
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// Input args are the arguments that need to be passed to the scheduled activity.
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// To call an activity that is a member of a structure use the function reference with nil receiver.
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// For example if an activity is defined as:
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//
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// type Activities struct {
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// ... // members
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// }
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//
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// func (a *Activities) Activity1() (string, error) {
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// ...
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// }
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//
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// Then a workflow can invoke it as:
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//
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// var a *Activities
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// workflow.ExecuteActivity(ctx, a.Activity1)
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//
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// If the activity failed to complete then the future get error would indicate the failure.
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// The error will be of type *ActivityError. It will have important activity information and actual error that caused
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// activity failure. Use errors.Unwrap to get this error or errors.As to check it type which can be one of
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// *ApplicationError, *TimeoutError, *CanceledError, or *PanicError.
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//
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// You can cancel the pending activity using context(workflow.WithCancel(ctx)) and that will fail the activity with
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// *CanceledError set as cause for *ActivityError. The context in the activity only becomes aware of the cancellation
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// when a heartbeat is sent to the server. Since heartbeats may be batched internally, this could take up to the
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// HeartbeatTimeout to appear or several minutes by default if that value is not set.
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//
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// ExecuteActivity immediately returns a Future that can be used to block waiting for activity result or failure.
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func ExecuteActivity(ctx Context, activity interface{}, args ...interface{}) Future {
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return internal.ExecuteActivity(ctx, activity, args...)
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}
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// ExecuteLocalActivity requests to run a local activity. A local activity is like a regular activity with some key
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// differences:
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//
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// • Local activity is scheduled and run by the workflow worker locally.
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//
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// • Local activity does not need Temporal server to schedule activity task and does not rely on activity worker.
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//
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// • No need to register local activity.
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//
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// • Local activity is for short living activities (usually finishes within seconds).
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//
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// • Local activity cannot heartbeat.
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//
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// Context can be used to pass the settings for this local activity.
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// For now there is only one setting for timeout to be set:
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// lao := LocalActivityOptions{
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// ScheduleToCloseTimeout: 5 * time.Second,
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// }
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// ctx := WithLocalActivityOptions(ctx, lao)
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// The timeout here should be relative shorter than the WorkflowTaskTimeout of the workflow. If you need a
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// longer timeout, you probably should not use local activity and instead should use regular activity. Local activity is
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// designed to be used for short living activities (usually finishes within seconds).
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//
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// Input args are the arguments that will to be passed to the local activity. The input args will be hand over directly
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// to local activity function without serialization/deserialization because we don't need to pass the input across process
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// boundary. However, the result will still go through serialization/deserialization because we need to record the result
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// as history to temporal server so if the workflow crashes, a different worker can replay the history without running
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// the local activity again.
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//
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// If the activity failed to complete then the future get error would indicate the failure.
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// The error will be of type *ActivityError. It will have important activity information and actual error that caused
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// activity failure. Use errors.Unwrap to get this error or errors.As to check it type which can be one of
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// *ApplicationError, *TimeoutError, *CanceledError, or *PanicError.
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//
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// You can cancel the pending activity using context(workflow.WithCancel(ctx)) and that will fail the activity with
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// *CanceledError set as cause for *ActivityError.
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//
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// ExecuteLocalActivity returns Future with local activity result or failure.
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func ExecuteLocalActivity(ctx Context, activity interface{}, args ...interface{}) Future {
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return internal.ExecuteLocalActivity(ctx, activity, args...)
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}
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// ExecuteChildWorkflow requests child workflow execution in the context of a workflow.
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// Context can be used to pass the settings for the child workflow.
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// For example: task queue that this child workflow should be routed, timeouts that need to be configured.
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// Use ChildWorkflowOptions to pass down the options.
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// cwo := ChildWorkflowOptions{
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// WorkflowExecutionTimeout: 10 * time.Minute,
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// WorkflowTaskTimeout: time.Minute,
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// }
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// ctx := WithChildOptions(ctx, cwo)
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// Input childWorkflow is either a workflow name or a workflow function that is getting scheduled.
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// Input args are the arguments that need to be passed to the child workflow function represented by childWorkflow.
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//
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// If the child workflow failed to complete then the future get error would indicate the failure.
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// The error will be of type *ChildWorkflowExecutionError. It will have important child workflow information and actual error that caused
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// child workflow failure. Use errors.Unwrap to get this error or errors.As to check it type which can be one of
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// *ApplicationError, *TimeoutError, or *CanceledError.
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//
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// You can cancel the pending child workflow using context(workflow.WithCancel(ctx)) and that will fail the workflow with
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// *CanceledError set as cause for *ChildWorkflowExecutionError.
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//
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// ExecuteChildWorkflow returns ChildWorkflowFuture.
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func ExecuteChildWorkflow(ctx Context, childWorkflow interface{}, args ...interface{}) ChildWorkflowFuture {
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return internal.ExecuteChildWorkflow(ctx, childWorkflow, args...)
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}
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// GetInfo extracts info of a current workflow from a context.
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func GetInfo(ctx Context) *Info {
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return internal.GetWorkflowInfo(ctx)
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}
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// GetLogger returns a logger to be used in workflow's context
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func GetLogger(ctx Context) log.Logger {
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return internal.GetLogger(ctx)
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}
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// GetMetricsHandler returns a metrics handler to be used in workflow's context.
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// This handler does not record metrics during replay.
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func GetMetricsHandler(ctx Context) metrics.Handler {
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return internal.GetMetricsHandler(ctx)
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}
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// RequestCancelExternalWorkflow can be used to request cancellation of an external workflow.
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// Input workflowID is the workflow ID of target workflow.
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// Input runID indicates the instance of a workflow. Input runID is optional (default is ""). When runID is not specified,
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// then the currently running instance of that workflowID will be used.
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// By default, the current workflow's namespace will be used as target namespace. However, you can specify a different namespace
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// of the target workflow using the context like:
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// ctx := WithWorkflowNamespace(ctx, "namespace")
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// RequestCancelExternalWorkflow return Future with failure or empty success result.
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func RequestCancelExternalWorkflow(ctx Context, workflowID, runID string) Future {
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return internal.RequestCancelExternalWorkflow(ctx, workflowID, runID)
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}
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// SignalExternalWorkflow can be used to send signal info to an external workflow.
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// Input workflowID is the workflow ID of target workflow.
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// Input runID indicates the instance of a workflow. Input runID is optional (default is ""). When runID is not specified,
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// then the currently running instance of that workflowID will be used.
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// By default, the current workflow's namespace will be used as target namespace. However, you can specify a different namespace
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// of the target workflow using the context like:
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// ctx := WithWorkflowNamespace(ctx, "namespace")
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// SignalExternalWorkflow return Future with failure or empty success result.
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func SignalExternalWorkflow(ctx Context, workflowID, runID, signalName string, arg interface{}) Future {
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return internal.SignalExternalWorkflow(ctx, workflowID, runID, signalName, arg)
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}
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// GetSignalChannel returns channel corresponding to the signal name.
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func GetSignalChannel(ctx Context, signalName string) ReceiveChannel {
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return internal.GetSignalChannel(ctx, signalName)
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}
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// SideEffect executes the provided function once, records its result into the workflow history. The recorded result on
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// history will be returned without executing the provided function during replay. This guarantees the deterministic
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// requirement for workflow as the exact same result will be returned in replay.
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// Common use case is to run some short non-deterministic code in workflow, like getting random number or new UUID.
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// The only way to fail SideEffect is to panic which causes workflow task failure. The workflow task after timeout is
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// rescheduled and re-executed giving SideEffect another chance to succeed.
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//
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// Caution: do not use SideEffect to modify closures. Always retrieve result from SideEffect's encoded return value.
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// For example this code is BROKEN:
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// // Bad example:
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// var random int
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// workflow.SideEffect(func(ctx workflow.Context) interface{} {
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// random = rand.Intn(100)
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// return nil
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// })
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// // random will always be 0 in replay, thus this code is non-deterministic
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// if random < 50 {
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// ....
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// } else {
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// ....
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// }
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// On replay the provided function is not executed, the random will always be 0, and the workflow could takes a
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// different path breaking the determinism.
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//
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// Here is the correct way to use SideEffect:
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// // Good example:
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// encodedRandom := SideEffect(func(ctx workflow.Context) interface{} {
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// return rand.Intn(100)
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// })
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// var random int
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// encodedRandom.Get(&random)
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// if random < 50 {
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// ....
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// } else {
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// ....
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// }
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func SideEffect(ctx Context, f func(ctx Context) interface{}) converter.EncodedValue {
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return internal.SideEffect(ctx, f)
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}
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// MutableSideEffect executes the provided function once, then it looks up the history for the value with the given id.
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// If there is no existing value, then it records the function result as a value with the given id on history;
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// otherwise, it compares whether the existing value from history has changed from the new function result by calling the
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// provided equals function. If they are equal, it returns the value without recording a new one in history;
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// otherwise, it records the new value with the same id on history.
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//
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// Caution: do not use MutableSideEffect to modify closures. Always retrieve result from MutableSideEffect's encoded
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// return value.
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//
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// The difference between MutableSideEffect() and SideEffect() is that every new SideEffect() call in non-replay will
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// result in a new marker being recorded on history. However, MutableSideEffect() only records a new marker if the value
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// changed. During replay, MutableSideEffect() will not execute the function again, but it will return the exact same
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// value as it was returning during the non-replay run.
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//
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// One good use case of MutableSideEffect() is to access dynamically changing config without breaking determinism.
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func MutableSideEffect(ctx Context, id string, f func(ctx Context) interface{}, equals func(a, b interface{}) bool) converter.EncodedValue {
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return internal.MutableSideEffect(ctx, id, f, equals)
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}
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// DefaultVersion is a version returned by GetVersion for code that wasn't versioned before
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const DefaultVersion Version = internal.DefaultVersion
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// GetVersion is used to safely perform backwards incompatible changes to workflow definitions.
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// It is not allowed to update workflow code while there are workflows running as it is going to break
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// determinism. The solution is to have both old code that is used to replay existing workflows
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// as well as the new one that is used when it is executed for the first time.
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// GetVersion returns maxSupported version when is executed for the first time. This version is recorded into the
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// workflow history as a marker event. Even if maxSupported version is changed the version that was recorded is
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// returned on replay. DefaultVersion constant contains version of code that wasn't versioned before.
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// For example initially workflow has the following code:
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// err = workflow.ExecuteActivity(ctx, foo).Get(ctx, nil)
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// it should be updated to
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// err = workflow.ExecuteActivity(ctx, bar).Get(ctx, nil)
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// The backwards compatible way to execute the update is
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// v := GetVersion(ctx, "fooChange", DefaultVersion, 1)
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// if v == DefaultVersion {
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// err = workflow.ExecuteActivity(ctx, foo).Get(ctx, nil)
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// } else {
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// err = workflow.ExecuteActivity(ctx, bar).Get(ctx, nil)
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// }
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//
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// Then bar has to be changed to baz:
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// v := GetVersion(ctx, "fooChange", DefaultVersion, 2)
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// if v == DefaultVersion {
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// err = workflow.ExecuteActivity(ctx, foo).Get(ctx, nil)
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// } else if v == 1 {
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// err = workflow.ExecuteActivity(ctx, bar).Get(ctx, nil)
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// } else {
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// err = workflow.ExecuteActivity(ctx, baz).Get(ctx, nil)
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// }
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//
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// Later when there are no workflow executions running DefaultVersion the correspondent branch can be removed:
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// v := GetVersion(ctx, "fooChange", 1, 2)
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// if v == 1 {
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// err = workflow.ExecuteActivity(ctx, bar).Get(ctx, nil)
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// } else {
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// err = workflow.ExecuteActivity(ctx, baz).Get(ctx, nil)
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// }
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//
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// It is recommended to keep the GetVersion() call even if single branch is left:
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// GetVersion(ctx, "fooChange", 2, 2)
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// err = workflow.ExecuteActivity(ctx, baz).Get(ctx, nil)
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//
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// The reason to keep it is: 1) it ensures that if there is older version execution still running, it will fail here
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// and not proceed; 2) if you ever need to make more changes for “fooChange”, for example change activity from baz to qux,
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// you just need to update the maxVersion from 2 to 3.
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//
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// Note that, you only need to preserve the first call to GetVersion() for each changeID. All subsequent call to GetVersion()
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// with same changeID are safe to remove. However, if you really want to get rid of the first GetVersion() call as well,
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// you can do so, but you need to make sure: 1) all older version executions are completed; 2) you can no longer use “fooChange”
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// as changeID. If you ever need to make changes to that same part like change from baz to qux, you would need to use a
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// different changeID like “fooChange-fix2”, and start minVersion from DefaultVersion again. The code would looks like:
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//
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// v := workflow.GetVersion(ctx, "fooChange-fix2", workflow.DefaultVersion, 1)
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// if v == workflow.DefaultVersion {
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// err = workflow.ExecuteActivity(ctx, baz, data).Get(ctx, nil)
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// } else {
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// err = workflow.ExecuteActivity(ctx, qux, data).Get(ctx, nil)
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// }
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func GetVersion(ctx Context, changeID string, minSupported, maxSupported Version) Version {
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return internal.GetVersion(ctx, changeID, minSupported, maxSupported)
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}
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// SetQueryHandler sets the query handler to handle workflow query. The queryType specify which query type this handler
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// should handle. The handler must be a function that returns 2 values. The first return value must be a serializable
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// result. The second return value must be an error. The handler function could receive any number of input parameters.
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// All the input parameter must be serializable. You should call workflow.SetQueryHandler() at the beginning of the workflow
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// code. When client calls Client.QueryWorkflow() to temporal server, a task will be generated on server that will be dispatched
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// to a workflow worker, which will replay the history events and then execute a query handler based on the query type.
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// The query handler will be invoked out of the context of the workflow, meaning that the handler code must not use workflow
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// context to do things like workflow.NewChannel(), workflow.Go() or to call any workflow blocking functions like
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// Channel.Get() or Future.Get(). Trying to do so in query handler code will fail the query and client will receive
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// QueryFailedError.
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// Example of workflow code that support query type "current_state":
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// func MyWorkflow(ctx workflow.Context, input string) error {
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// currentState := "started" // this could be any serializable struct
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// err := workflow.SetQueryHandler(ctx, "current_state", func() (string, error) {
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// return currentState, nil
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// })
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// if err != nil {
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// currentState = "failed to register query handler"
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// return err
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// }
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// // your normal workflow code begins here, and you update the currentState as the code makes progress.
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// currentState = "waiting timer"
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// err = NewTimer(ctx, time.Hour).Get(ctx, nil)
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// if err != nil {
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// currentState = "timer failed"
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// return err
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// }
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//
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// currentState = "waiting activity"
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// ctx = WithActivityOptions(ctx, myActivityOptions)
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// err = ExecuteActivity(ctx, MyActivity, "my_input").Get(ctx, nil)
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// if err != nil {
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// currentState = "activity failed"
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// return err
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// }
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// currentState = "done"
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// return nil
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// }
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func SetQueryHandler(ctx Context, queryType string, handler interface{}) error {
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return internal.SetQueryHandler(ctx, queryType, handler)
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}
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// IsReplaying returns whether the current workflow code is replaying.
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//
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// Warning! Never make commands, like schedule activity/childWorkflow/timer or send/wait on future/channel, based on
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// this flag as it is going to break workflow determinism requirement.
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// The only reasonable use case for this flag is to avoid some external actions during replay, like custom logging or
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// metric reporting. Please note that Temporal already provide standard logging/metric via workflow.GetLogger(ctx) and
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// workflow.GetMetricsHandler(ctx), and those standard mechanism are replay-aware and it will automatically suppress
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// during replay. Only use this flag if you need custom logging/metrics reporting, for example if you want to log to
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// kafka.
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//
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// Warning! Any action protected by this flag should not fail or if it does fail should ignore that failure or panic
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// on the failure. If workflow don't want to be blocked on those failure, it should ignore those failure; if workflow do
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// want to make sure it proceed only when that action succeed then it should panic on that failure. Panic raised from a
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// workflow causes workflow task to fail and temporal server will rescheduled later to retry.
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func IsReplaying(ctx Context) bool {
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return internal.IsReplaying(ctx)
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}
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// HasLastCompletionResult checks if there is completion result from previous runs.
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// This is used in combination with cron schedule. A workflow can be started with an optional cron schedule.
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// If a cron workflow wants to pass some data to next schedule, it can return any data and that data will become
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// available when next run starts.
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// This HasLastCompletionResult() checks if there is such data available passing down from previous successful run.
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func HasLastCompletionResult(ctx Context) bool {
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return internal.HasLastCompletionResult(ctx)
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}
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// GetLastCompletionResult extract last completion result from previous run for this cron workflow.
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// This is used in combination with cron schedule. A workflow can be started with an optional cron schedule.
|
|
// If a cron workflow wants to pass some data to next schedule, it can return any data and that data will become
|
|
// available when next run starts.
|
|
// This GetLastCompletionResult() extract the data into expected data structure.
|
|
// See TestWorkflowEnvironment.SetLastCompletionResult() for unit test support.
|
|
func GetLastCompletionResult(ctx Context, d ...interface{}) error {
|
|
return internal.GetLastCompletionResult(ctx, d...)
|
|
}
|
|
|
|
// GetLastError extracts the latest failure from any from previous run for this workflow, if one has failed. If none
|
|
// have failed, nil is returned.
|
|
//
|
|
// See TestWorkflowEnvironment.SetLastError() for unit test support.
|
|
func GetLastError(ctx Context) error {
|
|
return internal.GetLastError(ctx)
|
|
}
|
|
|
|
// UpsertSearchAttributes is used to add or update workflow search attributes.
|
|
// The search attributes can be used in query of List/Scan/Count workflow APIs.
|
|
// The key and value type must be registered on temporal server side;
|
|
// The value has to deterministic when replay;
|
|
// The value has to be Json serializable.
|
|
// UpsertSearchAttributes will merge attributes to existing map in workflow, for example workflow code:
|
|
// func MyWorkflow(ctx workflow.Context, input string) error {
|
|
// attr1 := map[string]interface{}{
|
|
// "CustomIntField": 1,
|
|
// "CustomBoolField": true,
|
|
// }
|
|
// workflow.UpsertSearchAttributes(ctx, attr1)
|
|
//
|
|
// attr2 := map[string]interface{}{
|
|
// "CustomIntField": 2,
|
|
// "CustomKeywordField": "seattle",
|
|
// }
|
|
// workflow.UpsertSearchAttributes(ctx, attr2)
|
|
// }
|
|
// will eventually have search attributes:
|
|
// map[string]interface{}{
|
|
// "CustomIntField": 2,
|
|
// "CustomBoolField": true,
|
|
// "CustomKeywordField": "seattle",
|
|
// }
|
|
// This is only supported when using ElasticSearch.
|
|
func UpsertSearchAttributes(ctx Context, attributes map[string]interface{}) error {
|
|
return internal.UpsertSearchAttributes(ctx, attributes)
|
|
}
|
|
|
|
// NewContinueAsNewError creates ContinueAsNewError instance
|
|
// If the workflow main function returns this error then the current execution is ended and
|
|
// the new execution with same workflow ID is started automatically with options
|
|
// provided to this function.
|
|
// ctx - use context to override any options for the new workflow like execution timeout, workflow task timeout, task queue.
|
|
// if not mentioned it would use the defaults that the current workflow is using.
|
|
// ctx := WithWorkflowExecutionTimeout(ctx, 30 * time.Minute)
|
|
// ctx := WithWorkflowTaskTimeout(ctx, time.Minute)
|
|
// ctx := WithWorkflowTaskQueue(ctx, "example-group")
|
|
// wfn - workflow function. for new execution it can be different from the currently running.
|
|
// args - arguments for the new workflow.
|
|
//
|
|
func NewContinueAsNewError(ctx Context, wfn interface{}, args ...interface{}) error {
|
|
return internal.NewContinueAsNewError(ctx, wfn, args...)
|
|
}
|
|
|
|
// IsContinueAsNewError return if the err is a ContinueAsNewError
|
|
func IsContinueAsNewError(err error) bool {
|
|
var continueAsNewErr *ContinueAsNewError
|
|
return errors.As(err, &continueAsNewErr)
|
|
}
|