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180 lines
7.4 KiB
Go
180 lines
7.4 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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"time"
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"go.temporal.io/sdk/internal"
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)
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type (
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// Channel must be used instead of native go channel by workflow code.
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// Use workflow.NewChannel(ctx) method to create Channel instance.
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// Channel extends both ReadChanel and SendChannel. Prefer to use one of these interfaces
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// to share Channel with consumers or producers.
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Channel = internal.Channel
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// ReceiveChannel is a read only view of the Channel
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ReceiveChannel = internal.ReceiveChannel
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// SendChannel is a write only view of the Channel
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SendChannel = internal.SendChannel
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// Selector must be used instead of native go select by workflow code.
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// Use workflow.NewSelector(ctx) method to create a Selector instance.
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Selector = internal.Selector
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// Future represents the result of an asynchronous computation.
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Future = internal.Future
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// Settable is used to set value or error on a future.
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// See more: workflow.NewFuture(ctx).
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Settable = internal.Settable
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// WaitGroup is used to wait for a collection of
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// coroutines to finish
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WaitGroup = internal.WaitGroup
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)
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// Await blocks the calling thread until condition() returns true.
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// Do not mutate values or trigger side effects inside condition.
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// Returns CanceledError if the ctx is canceled.
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// The following code is going to block until the captured count
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// variable is set to 5:
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// workflow.Await(ctx, func() bool {
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// return count == 5
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// })
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//
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// The trigger is evaluated on every workflow state transition.
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// Note that conditions that wait for time can be error-prone as nothing might cause evaluation.
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// For example:
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// workflow.Await(ctx, func() bool {
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// return workflow.Now() > someTime
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// })
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// might never return true unless some other event like Signal or activity completion would force the condition evaluation.
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// For a time-based wait use workflow.AwaitWithTimeout function.
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func Await(ctx Context, condition func() bool) error {
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return internal.Await(ctx, condition)
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}
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// AwaitWithTimeout blocks the calling thread until condition() returns true
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// or blocking time exceeds the passed timeout value
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// Returns ok equals to false if timed out and err equals to
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// CanceledError if the ctx is canceled.
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// The following code is going to block until the captured count
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// variable is set to 5 or one hour passes.
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//
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// workflow.AwaitWithTimeout(ctx, time.Hour, func() bool {
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// return count == 5
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// })
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func AwaitWithTimeout(ctx Context, timeout time.Duration, condition func() bool) (ok bool, err error) {
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return internal.AwaitWithTimeout(ctx, timeout, condition)
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}
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// NewChannel create new Channel instance
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func NewChannel(ctx Context) Channel {
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return internal.NewChannel(ctx)
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}
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// NewNamedChannel create new Channel instance with a given human readable name.
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// Name appears in stack traces that are blocked on this channel.
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func NewNamedChannel(ctx Context, name string) Channel {
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return internal.NewNamedChannel(ctx, name)
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}
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// NewBufferedChannel create new buffered Channel instance
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func NewBufferedChannel(ctx Context, size int) Channel {
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return internal.NewBufferedChannel(ctx, size)
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}
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// NewNamedBufferedChannel create new BufferedChannel instance with a given human readable name.
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// Name appears in stack traces that are blocked on this Channel.
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func NewNamedBufferedChannel(ctx Context, name string, size int) Channel {
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return internal.NewNamedBufferedChannel(ctx, name, size)
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}
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// NewSelector creates a new Selector instance.
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func NewSelector(ctx Context) Selector {
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return internal.NewSelector(ctx)
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}
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// NewNamedSelector creates a new Selector instance with a given human readable name.
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// Name appears in stack traces that are blocked on this Selector.
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func NewNamedSelector(ctx Context, name string) Selector {
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return internal.NewNamedSelector(ctx, name)
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}
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// NewWaitGroup creates a new WaitGroup instance.
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func NewWaitGroup(ctx Context) WaitGroup {
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return internal.NewWaitGroup(ctx)
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}
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// Go creates a new coroutine. It has similar semantic to goroutine in a context of the workflow.
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func Go(ctx Context, f func(ctx Context)) {
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internal.Go(ctx, f)
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}
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// GoNamed creates a new coroutine with a given human readable name.
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// It has similar semantic to goroutine in a context of the workflow.
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// Name appears in stack traces that include this coroutine.
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func GoNamed(ctx Context, name string, f func(ctx Context)) {
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internal.GoNamed(ctx, name, f)
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}
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// NewFuture creates a new future as well as associated Settable that is used to set its value.
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func NewFuture(ctx Context) (Future, Settable) {
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return internal.NewFuture(ctx)
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}
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// Now returns the current time when the workflow task is started or replayed.
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// The workflow needs to use this Now() to get the wall clock time instead of the Go lang library one.
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func Now(ctx Context) time.Time {
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return internal.Now(ctx)
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}
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// NewTimer returns immediately and the future becomes ready after the specified duration d. The workflow needs to use
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// this NewTimer() to get the timer instead of the Go lang library one(timer.NewTimer()). You can cancel the pending
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// timer by cancel the Context (using context from workflow.WithCancel(ctx)) and that will cancel the timer. After timer
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// is canceled, the returned Future become ready, and Future.Get() will return *CanceledError.
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// The current timer resolution implementation is in seconds and uses math.Ceil(d.Seconds()) as the duration. But is
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// subjected to change in the future.
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func NewTimer(ctx Context, d time.Duration) Future {
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return internal.NewTimer(ctx, d)
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}
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// Sleep pauses the current workflow for at least the duration d. A negative or zero duration causes Sleep to return
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// immediately. Workflow code needs to use this Sleep() to sleep instead of the Go lang library one(timer.Sleep()).
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// You can cancel the pending sleep by cancel the Context (using context from workflow.WithCancel(ctx)).
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// Sleep() returns nil if the duration d is passed, or it returns *CanceledError if the ctx is canceled. There are 2
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// reasons the ctx could be canceled: 1) your workflow code cancel the ctx (with workflow.WithCancel(ctx));
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// 2) your workflow itself is canceled by external request.
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// The current timer resolution implementation is in seconds and uses math.Ceil(d.Seconds()) as the duration. But is
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// subjected to change in the future.
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func Sleep(ctx Context, d time.Duration) (err error) {
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return internal.Sleep(ctx, d)
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}
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