vendor/github.com/jonboulle/clockwork/context.go - voltha-lib-go - Gitiles

 package clockwork

 import (
 	"context"
 	"fmt"
 	"sync"
 	"time"
 )

 // contextKey is private to this package so we can ensure uniqueness here. This
 // type identifies context values provided by this package.
 type contextKey string

 // keyClock provides a clock for injecting during tests. If absent, a real clock
 // should be used.
 var keyClock = contextKey("clock") // clockwork.Clock

 // AddToContext creates a derived context that references the specified clock.
 //
 // Be aware this doesn't change the behavior of standard library functions, such
 // as [context.WithTimeout] or [context.WithDeadline]. For this reason, users
 // should prefer passing explicit [clockwork.Clock] variables rather can passing
 // the clock via the context.
 func AddToContext(ctx context.Context, clock Clock) context.Context {
 	return context.WithValue(ctx, keyClock, clock)
 }

 // FromContext extracts a clock from the context. If not present, a real clock
 // is returned.
 func FromContext(ctx context.Context) Clock {
 	if clock, ok := ctx.Value(keyClock).(Clock); ok {
 		return clock
 	}
 	return NewRealClock()
 }

 // ErrFakeClockDeadlineExceeded is the error returned by [context.Context] when
 // the deadline passes on a context which uses a [FakeClock].
 //
 // It wraps a [context.DeadlineExceeded] error, i.e.:
 //
 //	// The following is true for any Context whose deadline has been exceeded,
 //	// including contexts made with clockwork.WithDeadline or clockwork.WithTimeout.
 //
 //	errors.Is(ctx.Err(), context.DeadlineExceeded)
 //
 //	// The following can only be true for contexts made
 //	// with clockwork.WithDeadline or clockwork.WithTimeout.
 //
 //	errors.Is(ctx.Err(), clockwork.ErrFakeClockDeadlineExceeded)
 var ErrFakeClockDeadlineExceeded error = fmt.Errorf("clockwork.FakeClock: %w", context.DeadlineExceeded)

 // WithDeadline returns a context with a deadline based on a [FakeClock].
 //
 // The returned context ignores parent cancelation if the parent was cancelled
 // with a [context.DeadlineExceeded] error. Any other error returned by the
 // parent is treated normally, cancelling the returned context.
 //
 // If the parent is cancelled with a [context.DeadlineExceeded] error, the only
 // way to then cancel the returned context is by calling the returned
 // context.CancelFunc.
 func WithDeadline(parent context.Context, clock Clock, t time.Time) (context.Context, context.CancelFunc) {
 	if fc, ok := clock.(*FakeClock); ok {
 		return newFakeClockContext(parent, t, fc.newTimerAtTime(t, nil).Chan())
 	}
 	return context.WithDeadline(parent, t)
 }

 // WithTimeout returns a context with a timeout based on a [FakeClock].
 //
 // The returned context follows the same behaviors as [WithDeadline].
 func WithTimeout(parent context.Context, clock Clock, d time.Duration) (context.Context, context.CancelFunc) {
 	if fc, ok := clock.(*FakeClock); ok {
 		t, deadline := fc.newTimer(d, nil)
 		return newFakeClockContext(parent, deadline, t.Chan())
 	}
 	return context.WithTimeout(parent, d)
 }

 // fakeClockContext implements context.Context, using a fake clock for its
 // deadline.
 //
 // It ignores parent cancellation if the parent is cancelled with
 // context.DeadlineExceeded.
 type fakeClockContext struct {
 	parent   context.Context
 	deadline time.Time // The user-facing deadline based on the fake clock's time.

 	// Tracks timeout/deadline cancellation.
 	timerDone <-chan time.Time

 	// Tracks manual calls to the cancel function.
 	cancel       func() // Closes cancelCalled wrapped in a sync.Once.
 	cancelCalled chan struct{}

 	// The user-facing data from the context.Context interface.
 	ctxDone chan struct{} // Returned by Done().
 	err     error         // nil until ctxDone is ready to be closed.
 }

 func newFakeClockContext(parent context.Context, deadline time.Time, timer <-chan time.Time) (context.Context, context.CancelFunc) {
 	cancelCalled := make(chan struct{})
 	ctx := &fakeClockContext{
 		parent:       parent,
 		deadline:     deadline,
 		timerDone:    timer,
 		cancelCalled: cancelCalled,
 		ctxDone:      make(chan struct{}),
 		cancel: sync.OnceFunc(func() {
 			close(cancelCalled)
 		}),
 	}
 	ready := make(chan struct{}, 1)
 	go ctx.runCancel(ready)
 	<-ready // Wait until the cancellation goroutine is running.
 	return ctx, ctx.cancel
 }

 func (c *fakeClockContext) Deadline() (time.Time, bool) {
 	return c.deadline, true
 }

 func (c *fakeClockContext) Done() <-chan struct{} {
 	return c.ctxDone
 }

 func (c *fakeClockContext) Err() error {
 	<-c.Done() // Don't return the error before it is ready.
 	return c.err
 }

 func (c *fakeClockContext) Value(key any) any {
 	return c.parent.Value(key)
 }

 // runCancel runs the fakeClockContext's cancel goroutine and returns the
 // fakeClockContext's cancel function.
 //
 // fakeClockContext is then cancelled when any of the following occur:
 //
 //   - The fakeClockContext.done channel is closed by its timer.
 //   - The returned CancelFunc is executed.
 //   - The fakeClockContext's parent context is cancelled with an error other
 //     than context.DeadlineExceeded.
 func (c *fakeClockContext) runCancel(ready chan struct{}) {
 	parentDone := c.parent.Done()

 	// Close ready when done, just in case the ready signal races with other
 	// branches of our select statement below.
 	defer close(ready)

 	for c.err == nil {
 		select {
 		case <-c.timerDone:
 			c.err = ErrFakeClockDeadlineExceeded
 		case <-c.cancelCalled:
 			c.err = context.Canceled
 		case <-parentDone:
 			c.err = c.parent.Err()

 		case ready <- struct{}{}:
 			// Signals the cancellation goroutine has begun, in an attempt to minimize
 			// race conditions related to goroutine startup time.
 			ready = nil // This case statement can only fire once.
 		}
 	}
 	close(c.ctxDone)
 	return
 }
	package clockwork

	import (
	"context"
	"fmt"
	"sync"
	"time"
	)

	// contextKey is private to this package so we can ensure uniqueness here. This
	// type identifies context values provided by this package.
	type contextKey string

	// keyClock provides a clock for injecting during tests. If absent, a real clock
	// should be used.
	var keyClock = contextKey("clock") // clockwork.Clock

	// AddToContext creates a derived context that references the specified clock.
	//
	// Be aware this doesn't change the behavior of standard library functions, such
	// as [context.WithTimeout] or [context.WithDeadline]. For this reason, users
	// should prefer passing explicit [clockwork.Clock] variables rather can passing
	// the clock via the context.
	func AddToContext(ctx context.Context, clock Clock) context.Context {
	return context.WithValue(ctx, keyClock, clock)
	}

	// FromContext extracts a clock from the context. If not present, a real clock
	// is returned.
	func FromContext(ctx context.Context) Clock {
	if clock, ok := ctx.Value(keyClock).(Clock); ok {
	return clock
	}
	return NewRealClock()
	}

	// ErrFakeClockDeadlineExceeded is the error returned by [context.Context] when
	// the deadline passes on a context which uses a [FakeClock].
	//
	// It wraps a [context.DeadlineExceeded] error, i.e.:
	//
	// // The following is true for any Context whose deadline has been exceeded,
	// // including contexts made with clockwork.WithDeadline or clockwork.WithTimeout.
	//
	// errors.Is(ctx.Err(), context.DeadlineExceeded)
	//
	// // The following can only be true for contexts made
	// // with clockwork.WithDeadline or clockwork.WithTimeout.
	//
	// errors.Is(ctx.Err(), clockwork.ErrFakeClockDeadlineExceeded)
	var ErrFakeClockDeadlineExceeded error = fmt.Errorf("clockwork.FakeClock: %w", context.DeadlineExceeded)

	// WithDeadline returns a context with a deadline based on a [FakeClock].
	//
	// The returned context ignores parent cancelation if the parent was cancelled
	// with a [context.DeadlineExceeded] error. Any other error returned by the
	// parent is treated normally, cancelling the returned context.
	//
	// If the parent is cancelled with a [context.DeadlineExceeded] error, the only
	// way to then cancel the returned context is by calling the returned
	// context.CancelFunc.
	func WithDeadline(parent context.Context, clock Clock, t time.Time) (context.Context, context.CancelFunc) {
	if fc, ok := clock.(*FakeClock); ok {
	return newFakeClockContext(parent, t, fc.newTimerAtTime(t, nil).Chan())
	}
	return context.WithDeadline(parent, t)
	}

	// WithTimeout returns a context with a timeout based on a [FakeClock].
	//
	// The returned context follows the same behaviors as [WithDeadline].
	func WithTimeout(parent context.Context, clock Clock, d time.Duration) (context.Context, context.CancelFunc) {
	if fc, ok := clock.(*FakeClock); ok {
	t, deadline := fc.newTimer(d, nil)
	return newFakeClockContext(parent, deadline, t.Chan())
	}
	return context.WithTimeout(parent, d)
	}

	// fakeClockContext implements context.Context, using a fake clock for its
	// deadline.
	//
	// It ignores parent cancellation if the parent is cancelled with
	// context.DeadlineExceeded.
	type fakeClockContext struct {
	parent context.Context
	deadline time.Time // The user-facing deadline based on the fake clock's time.

	// Tracks timeout/deadline cancellation.
	timerDone <-chan time.Time

	// Tracks manual calls to the cancel function.
	cancel func() // Closes cancelCalled wrapped in a sync.Once.
	cancelCalled chan struct{}

	// The user-facing data from the context.Context interface.
	ctxDone chan struct{} // Returned by Done().
	err error // nil until ctxDone is ready to be closed.
	}

	func newFakeClockContext(parent context.Context, deadline time.Time, timer <-chan time.Time) (context.Context, context.CancelFunc) {
	cancelCalled := make(chan struct{})
	ctx := &fakeClockContext{
	parent: parent,
	deadline: deadline,
	timerDone: timer,
	cancelCalled: cancelCalled,
	ctxDone: make(chan struct{}),
	cancel: sync.OnceFunc(func() {
	close(cancelCalled)
	}),
	}
	ready := make(chan struct{}, 1)
	go ctx.runCancel(ready)
	<-ready // Wait until the cancellation goroutine is running.
	return ctx, ctx.cancel
	}

	func (c *fakeClockContext) Deadline() (time.Time, bool) {
	return c.deadline, true
	}

	func (c *fakeClockContext) Done() <-chan struct{} {
	return c.ctxDone
	}

	func (c *fakeClockContext) Err() error {
	<-c.Done() // Don't return the error before it is ready.
	return c.err
	}

	func (c *fakeClockContext) Value(key any) any {
	return c.parent.Value(key)
	}

	// runCancel runs the fakeClockContext's cancel goroutine and returns the
	// fakeClockContext's cancel function.
	//
	// fakeClockContext is then cancelled when any of the following occur:
	//
	// - The fakeClockContext.done channel is closed by its timer.
	// - The returned CancelFunc is executed.
	// - The fakeClockContext's parent context is cancelled with an error other
	// than context.DeadlineExceeded.
	func (c *fakeClockContext) runCancel(ready chan struct{}) {
	parentDone := c.parent.Done()

	// Close ready when done, just in case the ready signal races with other
	// branches of our select statement below.
	defer close(ready)

	for c.err == nil {
	select {
	case <-c.timerDone:
	c.err = ErrFakeClockDeadlineExceeded
	case <-c.cancelCalled:
	c.err = context.Canceled
	case <-parentDone:
	c.err = c.parent.Err()

	case ready <- struct{}{}:
	// Signals the cancellation goroutine has begun, in an attempt to minimize
	// race conditions related to goroutine startup time.
	ready = nil // This case statement can only fire once.
	}
	}
	close(c.ctxDone)
	return
	}