peridot/vendor/go.temporal.io/sdk/internal/internal_activity.go
2022-07-07 22:13:21 +02:00

429 lines
14 KiB
Go

// The MIT License
//
// Copyright (c) 2020 Temporal Technologies Inc. All rights reserved.
//
// Copyright (c) 2020 Uber Technologies, Inc.
//
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in
// all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
// THE SOFTWARE.
package internal
// All code in this file is private to the package.
import (
"context"
"errors"
"fmt"
"reflect"
"time"
commonpb "go.temporal.io/api/common/v1"
"go.temporal.io/sdk/converter"
"go.temporal.io/sdk/internal/common/metrics"
"go.temporal.io/sdk/log"
)
type (
// activity is an interface of an activity implementation.
activity interface {
Execute(ctx context.Context, input *commonpb.Payloads) (*commonpb.Payloads, error)
ActivityType() ActivityType
GetFunction() interface{}
}
// ActivityID uniquely identifies an activity execution
ActivityID struct {
id string
}
// LocalActivityID uniquely identifies a local activity execution
LocalActivityID struct {
id string
}
// ExecuteActivityOptions option for executing an activity
ExecuteActivityOptions struct {
ActivityID string // Users can choose IDs but our framework makes it optional to decrease the crust.
TaskQueueName string
ScheduleToCloseTimeout time.Duration
ScheduleToStartTimeout time.Duration
StartToCloseTimeout time.Duration
HeartbeatTimeout time.Duration
WaitForCancellation bool
OriginalTaskQueueName string
RetryPolicy *commonpb.RetryPolicy
}
// ExecuteLocalActivityOptions options for executing a local activity
ExecuteLocalActivityOptions struct {
ScheduleToCloseTimeout time.Duration
StartToCloseTimeout time.Duration
RetryPolicy *RetryPolicy
}
// ExecuteActivityParams parameters for executing an activity
ExecuteActivityParams struct {
ExecuteActivityOptions
ActivityType ActivityType
Input *commonpb.Payloads
DataConverter converter.DataConverter
Header *commonpb.Header
}
// ExecuteLocalActivityParams parameters for executing a local activity
ExecuteLocalActivityParams struct {
ExecuteLocalActivityOptions
ActivityFn interface{} // local activity function pointer
ActivityType string // local activity type
InputArgs []interface{}
WorkflowInfo *WorkflowInfo
DataConverter converter.DataConverter
Attempt int32
ScheduledTime time.Time
Header *commonpb.Header
}
// AsyncActivityClient for requesting activity execution
AsyncActivityClient interface {
// The ExecuteActivity schedules an activity with a callback handler.
// If the activity failed to complete the callback error would indicate the failure
// and it can be one of ActivityTaskFailedError, ActivityTaskTimeoutError, ActivityTaskCanceledError
ExecuteActivity(parameters ExecuteActivityParams, callback ResultHandler) ActivityID
// This only initiates cancel request for activity. if the activity is configured to not WaitForCancellation then
// it would invoke the callback handler immediately with error code ActivityTaskCanceledError.
// If the activity is not running(either scheduled or started) then it is a no-operation.
RequestCancelActivity(activityID ActivityID)
}
// LocalActivityClient for requesting local activity execution
LocalActivityClient interface {
ExecuteLocalActivity(params ExecuteLocalActivityParams, callback LocalActivityResultHandler) LocalActivityID
RequestCancelLocalActivity(activityID LocalActivityID)
}
activityEnvironment struct {
taskToken []byte
workflowExecution WorkflowExecution
activityID string
activityType ActivityType
serviceInvoker ServiceInvoker
logger log.Logger
metricsHandler metrics.Handler
isLocalActivity bool
heartbeatTimeout time.Duration
deadline time.Time
scheduledTime time.Time
startedTime time.Time
taskQueue string
dataConverter converter.DataConverter
attempt int32 // starts from 1.
heartbeatDetails *commonpb.Payloads
workflowType *WorkflowType
workflowNamespace string
workerStopChannel <-chan struct{}
contextPropagators []ContextPropagator
}
// context.WithValue need this type instead of basic type string to avoid lint error
contextKey string
)
const (
activityEnvContextKey contextKey = "activityEnv"
activityOptionsContextKey contextKey = "activityOptions"
localActivityOptionsContextKey contextKey = "localActivityOptions"
activityInterceptorContextKey contextKey = "activityInterceptor"
activityEnvInterceptorContextKey contextKey = "activityEnvInterceptor"
)
func (i ActivityID) String() string {
return i.id
}
// ParseActivityID returns ActivityID constructed from its string representation.
// The string representation should be obtained through ActivityID.String()
func ParseActivityID(id string) (ActivityID, error) {
return ActivityID{id: id}, nil
}
func (i LocalActivityID) String() string {
return i.id
}
// ParseLocalActivityID returns LocalActivityID constructed from its string representation.
// The string representation should be obtained through LocalActivityID.String()
func ParseLocalActivityID(v string) (LocalActivityID, error) {
return LocalActivityID{id: v}, nil
}
func getActivityEnv(ctx context.Context) *activityEnvironment {
env := ctx.Value(activityEnvContextKey)
if env == nil {
panic("getActivityEnv: Not an activity context")
}
return env.(*activityEnvironment)
}
func getActivityOptions(ctx Context) *ExecuteActivityOptions {
eap := ctx.Value(activityOptionsContextKey)
if eap == nil {
return nil
}
return eap.(*ExecuteActivityOptions)
}
func getLocalActivityOptions(ctx Context) *ExecuteLocalActivityOptions {
opts := ctx.Value(localActivityOptionsContextKey)
if opts == nil {
return nil
}
return opts.(*ExecuteLocalActivityOptions)
}
func getValidatedLocalActivityOptions(ctx Context) (*ExecuteLocalActivityOptions, error) {
p := getLocalActivityOptions(ctx)
if p == nil {
return nil, errLocalActivityParamsBadRequest
}
if p.ScheduleToCloseTimeout < 0 {
return nil, errors.New("negative ScheduleToCloseTimeout")
}
if p.StartToCloseTimeout < 0 {
return nil, errors.New("negative StartToCloseTimeout")
}
if p.ScheduleToCloseTimeout == 0 && p.StartToCloseTimeout == 0 {
return nil, errors.New("at least one of ScheduleToCloseTimeout and StartToCloseTimeout is required")
}
if p.ScheduleToCloseTimeout == 0 {
p.ScheduleToCloseTimeout = p.StartToCloseTimeout
} else {
p.StartToCloseTimeout = p.ScheduleToCloseTimeout
}
return p, nil
}
func validateFunctionArgs(workflowFunc interface{}, args []interface{}, isWorkflow bool) error {
fType := reflect.TypeOf(workflowFunc)
switch getKind(fType) {
case reflect.String:
// We can't validate function passed as string.
return nil
case reflect.Func:
default:
return fmt.Errorf(
"invalid type 'workflowFunc' parameter provided, it can be either worker function or function name: %v",
workflowFunc)
}
fnName, _ := getFunctionName(workflowFunc)
fnArgIndex := 0
// Skip Context function argument.
if fType.NumIn() > 0 {
if isWorkflow && isWorkflowContext(fType.In(0)) {
fnArgIndex++
}
if !isWorkflow && isActivityContext(fType.In(0)) {
fnArgIndex++
}
}
// Validate provided args match with function order match.
if fType.NumIn()-fnArgIndex != len(args) {
return fmt.Errorf(
"expected %d args for function: %v but found %v",
fType.NumIn()-fnArgIndex, fnName, len(args))
}
for i := 0; fnArgIndex < fType.NumIn(); fnArgIndex, i = fnArgIndex+1, i+1 {
fnArgType := fType.In(fnArgIndex)
argType := reflect.TypeOf(args[i])
if argType != nil && !argType.AssignableTo(fnArgType) {
return fmt.Errorf(
"cannot assign function argument: %d from type: %s to type: %s",
fnArgIndex+1, argType, fnArgType,
)
}
}
return nil
}
func getValidatedActivityFunction(f interface{}, args []interface{}, registry *registry) (*ActivityType, error) {
fnName := ""
fType := reflect.TypeOf(f)
switch getKind(fType) {
case reflect.String:
fnName = reflect.ValueOf(f).String()
case reflect.Func:
if err := validateFunctionArgs(f, args, false); err != nil {
return nil, err
}
fnName, _ = getFunctionName(f)
if alias, ok := registry.getActivityAlias(fnName); ok {
fnName = alias
}
default:
return nil, fmt.Errorf(
"invalid type 'f' parameter provided, it can be either activity function or name of the activity: %v", f)
}
return &ActivityType{Name: fnName}, nil
}
func getKind(fType reflect.Type) reflect.Kind {
if fType == nil {
return reflect.Invalid
}
return fType.Kind()
}
func isActivityContext(inType reflect.Type) bool {
contextElem := reflect.TypeOf((*context.Context)(nil)).Elem()
return inType != nil && inType.Implements(contextElem)
}
func setActivityParametersIfNotExist(ctx Context) Context {
params := getActivityOptions(ctx)
var newParams ExecuteActivityOptions
if params != nil {
newParams = *params
if params.RetryPolicy != nil {
newRetryPolicy := *newParams.RetryPolicy
newParams.RetryPolicy = &newRetryPolicy
}
}
return WithValue(ctx, activityOptionsContextKey, &newParams)
}
func setLocalActivityParametersIfNotExist(ctx Context) Context {
params := getLocalActivityOptions(ctx)
var newParams ExecuteLocalActivityOptions
if params != nil {
newParams = *params
}
return WithValue(ctx, localActivityOptionsContextKey, &newParams)
}
type activityEnvironmentInterceptor struct {
env *activityEnvironment
inboundInterceptor ActivityInboundInterceptor
outboundInterceptor ActivityOutboundInterceptor
fn interface{}
}
func getActivityEnvironmentInterceptor(ctx context.Context) *activityEnvironmentInterceptor {
a := ctx.Value(activityEnvInterceptorContextKey)
if a == nil {
panic("getActivityEnvironmentInterceptor: Not an activity context")
}
return a.(*activityEnvironmentInterceptor)
}
func getActivityOutboundInterceptor(ctx context.Context) ActivityOutboundInterceptor {
a := ctx.Value(activityInterceptorContextKey)
if a == nil {
panic("getActivityOutboundInterceptor: Not an activity context")
}
return a.(ActivityOutboundInterceptor)
}
func (a *activityEnvironmentInterceptor) Init(outbound ActivityOutboundInterceptor) error {
a.outboundInterceptor = outbound
return nil
}
func (a *activityEnvironmentInterceptor) ExecuteActivity(
ctx context.Context,
in *ExecuteActivityInput,
) (interface{}, error) {
// Remove header from context
ctx = contextWithoutHeader(ctx)
return executeFunctionWithContext(ctx, a.fn, in.Args)
}
func (a *activityEnvironmentInterceptor) GetInfo(ctx context.Context) ActivityInfo {
return ActivityInfo{
ActivityID: a.env.activityID,
ActivityType: a.env.activityType,
TaskToken: a.env.taskToken,
WorkflowExecution: a.env.workflowExecution,
HeartbeatTimeout: a.env.heartbeatTimeout,
Deadline: a.env.deadline,
ScheduledTime: a.env.scheduledTime,
StartedTime: a.env.startedTime,
TaskQueue: a.env.taskQueue,
Attempt: a.env.attempt,
WorkflowType: a.env.workflowType,
WorkflowNamespace: a.env.workflowNamespace,
}
}
func (a *activityEnvironmentInterceptor) GetLogger(ctx context.Context) log.Logger {
return a.env.logger
}
func (a *activityEnvironmentInterceptor) GetMetricsHandler(ctx context.Context) metrics.Handler {
return a.env.metricsHandler
}
func (a *activityEnvironmentInterceptor) RecordHeartbeat(ctx context.Context, details ...interface{}) {
if a.env.isLocalActivity {
// no-op for local activity
return
}
var data *commonpb.Payloads
var err error
// We would like to be able to pass in "nil" as part of details(that is no progress to report to)
if len(details) > 1 || (len(details) == 1 && details[0] != nil) {
data, err = encodeArgs(getDataConverterFromActivityCtx(ctx), details)
if err != nil {
panic(err)
}
}
// Heartbeat error is logged inside ServiceInvoker.internalHeartBeat
_ = a.env.serviceInvoker.Heartbeat(ctx, data, false)
}
func (a *activityEnvironmentInterceptor) HasHeartbeatDetails(ctx context.Context) bool {
return a.env.heartbeatDetails != nil
}
func (a *activityEnvironmentInterceptor) GetHeartbeatDetails(ctx context.Context, d ...interface{}) error {
if a.env.heartbeatDetails == nil {
return ErrNoData
}
encoded := newEncodedValues(a.env.heartbeatDetails, a.env.dataConverter)
return encoded.Get(d...)
}
func (a *activityEnvironmentInterceptor) GetWorkerStopChannel(ctx context.Context) <-chan struct{} {
return a.env.workerStopChannel
}
// Needed so this can properly be considered an inbound interceptor
func (a *activityEnvironmentInterceptor) mustEmbedActivityInboundInterceptorBase() {}
// Needed so this can properly be considered an outbound interceptor
func (a *activityEnvironmentInterceptor) mustEmbedActivityOutboundInterceptorBase() {}