Documentation ¶
Overview ¶
Package worker contains functions to manage lifecycle of a Temporal client side worker.
Index ¶
- Constants
- func EnableVerboseLogging(enable bool)
- func InterruptCh() <-chan interface{}
- func PurgeStickyWorkflowCache()
- func SetBinaryChecksum(checksum string)
- func SetStickyWorkflowCacheSize(cacheSize int)
- type ActivityRegistry
- type Options
- type Registry
- type ReplayWorkflowHistoryOptions
- type Worker
- type WorkflowPanicPolicy
- type WorkflowRegistry
- type WorkflowReplayer
- type WorkflowReplayerOptions
Constants ¶
const ( // BlockWorkflow is the default WorkflowPanicPolicy policy for handling workflow panics and detected non-determinism. // This option causes workflow to get stuck in the workflow task retry loop. // It is expected that after the problem is discovered and fixed the workflows are going to continue // without any additional manual intervention. BlockWorkflow = internal.BlockWorkflow // FailWorkflow WorkflowPanicPolicy immediately fails workflow execution if workflow code throws panic or // detects non-determinism. This feature is convenient during development. // WARNING: enabling this in production can cause all open workflows to fail on a single bug or bad deployment. FailWorkflow = internal.FailWorkflow )
Variables ¶
This section is empty.
Functions ¶
func EnableVerboseLogging ¶
func EnableVerboseLogging(enable bool)
EnableVerboseLogging enable or disable verbose logging of internal Temporal library components. Most customers don't need this feature, unless advised by the Temporal team member. Also there is no guarantee that this API is not going to change.
func InterruptCh ¶
func InterruptCh() <-chan interface{}
InterruptCh returns channel which will get data when system receives interrupt signal from OS. Pass it to worker.Run() func to stop worker with Ctrl+C.
func PurgeStickyWorkflowCache ¶
func PurgeStickyWorkflowCache()
PurgeStickyWorkflowCache resets the sticky workflow cache. This must be called only when all workers are stopped.
func SetBinaryChecksum ¶
func SetBinaryChecksum(checksum string)
SetBinaryChecksum sets the identifier of the binary(aka BinaryChecksum). The identifier is mainly used in recording reset points when respondWorkflowTaskCompleted. For each workflow, the very first workflow task completed by a binary will be associated as a auto-reset point for the binary. So that when a customer wants to mark the binary as bad, the workflow will be reset to that point -- which means workflow will forget all progress generated by the binary. On another hand, once the binary is marked as bad, the bad binary cannot poll workflow queue and make any progress any more.
func SetStickyWorkflowCacheSize ¶
func SetStickyWorkflowCacheSize(cacheSize int)
SetStickyWorkflowCacheSize sets the cache size for sticky workflow cache. Sticky workflow execution is the affinity between workflow tasks of a specific workflow execution to a specific worker. The benefit of sticky execution is that the workflow does not have to reconstruct state by replaying history from the beginning. The cache is shared between workers running within same process. This must be called before any worker is started. If not called, the default size of 10K (which may change) will be used.
Types ¶
type ActivityRegistry ¶
type ActivityRegistry interface { // RegisterActivity - register an activity function or a pointer to a structure with the worker. // An activity function takes a context and input and returns a (result, error) or just error. // // And activity struct is a structure with all its exported methods treated as activities. The default // name of each activity is the method name. // // Examples: // func sampleActivity(ctx context.Context, input []byte) (result []byte, err error) // func sampleActivity(ctx context.Context, arg1 int, arg2 string) (result *customerStruct, err error) // func sampleActivity(ctx context.Context) (err error) // func sampleActivity() (result string, err error) // func sampleActivity(arg1 bool) (result int, err error) // func sampleActivity(arg1 bool) (err error) // // type Activities struct { // // fields // } // func (a *Activities) SampleActivity1(ctx context.Context, arg1 int, arg2 string) (result *customerStruct, err error) { // ... // } // // func (a *Activities) SampleActivity2(ctx context.Context, arg1 int, arg2 *customerStruct) (result string, err error) { // ... // } // // Serialization of all primitive types, structures is supported ... except channels, functions, variadic, unsafe pointer. // This method panics if activityFunc doesn't comply with the expected format or an activity with the same // type name is registered more than once. RegisterActivity(a interface{}) // RegisterActivityWithOptions registers the activity function or struct pointer with options. // The user can use options to provide an external name for the activity or leave it empty if no // external name is required. This can be used as // worker.RegisterActivityWithOptions(barActivity, RegisterActivityOptions{}) // worker.RegisterActivityWithOptions(barActivity, RegisterActivityOptions{Name: "barExternal"}) // When registering the structure that implements activities the name is used as a prefix that is // prepended to the activity method name. // worker.RegisterActivityWithOptions(&Activities{ ... }, RegisterActivityOptions{Name: "MyActivities_"}) // To override each name of activities defined through a structure register the methods one by one: // activities := &Activities{ ... } // worker.RegisterActivityWithOptions(activities.SampleActivity1, RegisterActivityOptions{Name: "Sample1"}) // worker.RegisterActivityWithOptions(activities.SampleActivity2, RegisterActivityOptions{Name: "Sample2"}) // See RegisterActivity function for more info. // The other use of options is to disable duplicated activity registration check // which might be useful for integration tests. // worker.RegisterActivityWithOptions(barActivity, RegisterActivityOptions{DisableAlreadyRegisteredCheck: true}) RegisterActivityWithOptions(a interface{}, options activity.RegisterOptions) }
ActivityRegistry exposes activity registration functions to consumers.
type Options ¶
type Options = internal.WorkerOptions
Options is used to configure a worker instance.
type Registry ¶
type Registry interface { WorkflowRegistry ActivityRegistry }
Registry exposes registration functions to consumers.
type ReplayWorkflowHistoryOptions ¶
type ReplayWorkflowHistoryOptions = internal.ReplayWorkflowHistoryOptions
ReplayWorkflowHistoryOptions are options for replaying a workflow.
type Worker ¶
type Worker interface { Registry // Start the worker in a non-blocking fashion. // // Note, this will only return errors on start. To catch errors during run, // use Run() instead or set Options.OnFatalError. Start() error // Run the worker in a blocking fashion. Stop the worker when interruptCh receives signal. // Pass worker.InterruptCh() to stop the worker with SIGINT or SIGTERM. // Pass nil to stop the worker with external Stop() call. // Pass any other `<-chan interface{}` and Run will wait for signal from that channel. // Returns error if the worker fails to start or there is a fatal error // during execution. // // Users are encouraged to use Start() instead of this call if they plan to // manually Stop(). Otherwise a race can occur if shutdown occurs before the // worker is started. This Run() call is only best if shutdown is initiated // via the interrupt channel. Run(interruptCh <-chan interface{}) error // Stop the worker. // // This may panic if called a second time. Stop() }
Worker hosts workflow and activity implementations. Use worker.New(...) to create an instance.
func New ¶
New creates an instance of worker for managing workflow and activity executions.
client - the client for use by the worker taskQueue - is the task queue name you use to identify your client worker, also identifies group of workflow and activity implementations that are hosted by a single worker process options - configure any worker specific options like logger, metrics, identity
type WorkflowPanicPolicy ¶
type WorkflowPanicPolicy = internal.WorkflowPanicPolicy
WorkflowPanicPolicy is used for configuring how worker deals with workflow code panicking which includes non backwards compatible changes to the workflow code without appropriate versioning (see workflow.GetVersion). The default behavior is to block workflow execution until the problem is fixed.
type WorkflowRegistry ¶
type WorkflowRegistry interface { // RegisterWorkflow - registers a workflow function with the worker. // A workflow takes a [workflow.Context] and input and returns a (result, error) or just error. // Examples: // func sampleWorkflow(ctx workflow.Context, input []byte) (result []byte, err error) // func sampleWorkflow(ctx workflow.Context, arg1 int, arg2 string) (result []byte, err error) // func sampleWorkflow(ctx workflow.Context) (result []byte, err error) // func sampleWorkflow(ctx workflow.Context, arg1 int) (result string, err error) // Serialization of all primitive types, structures is supported ... except channels, functions, variadic, unsafe pointer. // For global registration consider workflow.Register // This method panics if workflowFunc doesn't comply with the expected format or tries to register the same workflow RegisterWorkflow(w interface{}) // RegisterWorkflowWithOptions registers the workflow function with options. // The user can use options to provide an external name for the workflow or leave it empty if no // external name is required. This can be used as // worker.RegisterWorkflowWithOptions(sampleWorkflow, RegisterWorkflowOptions{}) // worker.RegisterWorkflowWithOptions(sampleWorkflow, RegisterWorkflowOptions{Name: "foo"}) // This method panics if workflowFunc doesn't comply with the expected format or tries to register the same workflow // type name twice. Use workflow.RegisterOptions.DisableAlreadyRegisteredCheck to allow multiple registrations. RegisterWorkflowWithOptions(w interface{}, options workflow.RegisterOptions) }
WorkflowRegistry exposes workflow registration functions to consumers.
type WorkflowReplayer ¶
type WorkflowReplayer interface { // RegisterWorkflow registers workflow that is going to be replayed RegisterWorkflow(w interface{}) // RegisterWorkflowWithOptions registers workflow that is going to be replayed with user provided name RegisterWorkflowWithOptions(w interface{}, options workflow.RegisterOptions) // ReplayWorkflowHistory executes a single workflow task for the given json history file. // Use for testing the backwards compatibility of code changes and troubleshooting workflows in a debugger. // The logger is an optional parameter. Defaults to the noop logger. // // History can be loaded from a reader with client.HistoryFromJSON. ReplayWorkflowHistory(logger log.Logger, history *historypb.History) error // ReplayWorkflowHistoryWithOptions executes a single workflow task for the given json history file. // Use for testing the backwards compatibility of code changes and troubleshooting workflows in a debugger. // The logger is an optional parameter. Defaults to the noop logger. Options allow aditional customization when // replaying this history. // // History can be loaded from a reader with client.HistoryFromJSON. ReplayWorkflowHistoryWithOptions(logger log.Logger, history *historypb.History, options ReplayWorkflowHistoryOptions) error // ReplayWorkflowHistoryFromJSONFile executes a single workflow task for the json history file downloaded from the cli. // To download the history file: temporal workflow show --workflow-id <workflow_id> --output json > <output_file> // See https://github.com/temporalio/temporal/blob/master/tools/cli/README.md for full documentation // Use for testing the backwards compatibility of code changes and troubleshooting workflows in a debugger. // The logger is an optional parameter. Defaults to the noop logger. ReplayWorkflowHistoryFromJSONFile(logger log.Logger, jsonfileName string) error // ReplayPartialWorkflowHistoryFromJSONFile executes a single workflow task for the json history file upto provided // lastEventID(inclusive), downloaded from the cli. // To download the history file: temporal workflow show --workflow-id <workflow_id> --output json > <output_file> // See https://github.com/temporalio/temporal/blob/master/tools/cli/README.md for full documentation // Use for testing the backwards compatibility of code changes and troubleshooting workflows in a debugger. // The logger is an optional parameter. Defaults to the noop logger. ReplayPartialWorkflowHistoryFromJSONFile(logger log.Logger, jsonfileName string, lastEventID int64) error // ReplayWorkflowExecution loads a workflow execution history from the Temporal service and executes a single workflow task for it. // Use for testing the backwards compatibility of code changes and troubleshooting workflows in a debugger. // The logger is the only optional parameter. Defaults to the noop logger. The Run ID and Workflow ID used during replay are derived // from execution. ReplayWorkflowExecution(ctx context.Context, service workflowservice.WorkflowServiceClient, logger log.Logger, namespace string, execution workflow.Execution) error }
WorkflowReplayer supports replaying a workflow from its event history. Use for troubleshooting and backwards compatibility unit tests. For example if a workflow failed in production then its history can be downloaded through UI or CLI and replayed in a debugger as many times as necessary. Use this class to create unit tests that check if workflow changes are backwards compatible. It is important to maintain backwards compatibility through use of workflow.GetVersion to ensure that new deployments are not going to break open workflows.
func NewWorkflowReplayer ¶
func NewWorkflowReplayer() WorkflowReplayer
NewWorkflowReplayer creates a WorkflowReplayer instance.
func NewWorkflowReplayerWithOptions ¶
func NewWorkflowReplayerWithOptions(options WorkflowReplayerOptions) (WorkflowReplayer, error)
NewWorkflowReplayerWithOptions creates a WorkflowReplayer instance with the given options.
type WorkflowReplayerOptions ¶
type WorkflowReplayerOptions = internal.WorkflowReplayerOptions
WorkflowReplayerOptions are options used for NewWorkflowReplayerWithOptions.