src/time/internal_test.go - go - Git at Google

 // Copyright 2011 The Go Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style
 // license that can be found in the LICENSE file.

 package time

 func init() {
 	// force US/Pacific for time zone tests
 	ForceUSPacificForTesting()
 }

 func initTestingZone() {
 	z, err := loadLocation("America/Los_Angeles", zoneSources[len(zoneSources)-1:])
 	if err != nil {
 		panic("cannot load America/Los_Angeles for testing: " + err.Error())
 	}
 	z.name = "Local"
 	localLoc = *z
 }

 var OrigZoneSources = zoneSources

 func forceZipFileForTesting(zipOnly bool) {
 	zoneSources = make([]string, len(OrigZoneSources))
 	copy(zoneSources, OrigZoneSources)
 	if zipOnly {
 		zoneSources = zoneSources[len(zoneSources)-1:]
 	}
 }

 var Interrupt = interrupt
 var DaysIn = daysIn

 func empty(arg interface{}, seq uintptr) {}

 // Test that a runtimeTimer with a duration so large it overflows
 // does not cause other timers to hang.
 //
 // This test has to be in internal_test.go since it fiddles with
 // unexported data structures.
 func CheckRuntimeTimerOverflow() {
 	// We manually create a runtimeTimer to bypass the overflow
 	// detection logic in NewTimer: we're testing the underlying
 	// runtime.addtimer function.
 	r := &runtimeTimer{
 		when: runtimeNano() + (1<<63 - 1),
 		f:    empty,
 		arg:  nil,
 	}
 	startTimer(r)

 	// Start a goroutine that should send on t.C right away.
 	t := NewTimer(1)

 	defer func() {
 		// Subsequent tests won't work correctly if we don't stop the
 		// overflow timer and kick the timer proc back into service.
 		//
 		// The timer proc is now sleeping and can only be awoken by
 		// adding a timer to the *beginning* of the heap. We can't
 		// wake it up by calling NewTimer since other tests may have
 		// left timers running that should have expired before ours.
 		// Instead we zero the overflow timer duration and start it
 		// once more.
 		stopTimer(r)
 		t.Stop()
 		r.when = 0
 		startTimer(r)
 	}()

 	// If the test fails, we will hang here until the timeout in the testing package
 	// fires, which is 10 minutes. It would be nice to catch the problem sooner,
 	// but there is no reliable way to guarantee that timerproc schedules without
 	// doing something involving timerproc itself. Previous failed attempts have
 	// tried calling runtime.Gosched and runtime.GC, but neither is reliable.
 	// So we fall back to hope: We hope we don't hang here.
 	<-t.C
 }

 var (
 	MinMonoTime = Time{wall: 1 << 63, ext: -1 << 63, loc: UTC}
 	MaxMonoTime = Time{wall: 1 << 63, ext: 1<<63 - 1, loc: UTC}
 )
	// Copyright 2011 The Go Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style
	// license that can be found in the LICENSE file.

	package time

	func init() {
	// force US/Pacific for time zone tests
	ForceUSPacificForTesting()
	}

	func initTestingZone() {
	z, err := loadLocation("America/Los_Angeles", zoneSources[len(zoneSources)-1:])
	if err != nil {
	panic("cannot load America/Los_Angeles for testing: " + err.Error())
	}
	z.name = "Local"
	localLoc = *z
	}

	var OrigZoneSources = zoneSources

	func forceZipFileForTesting(zipOnly bool) {
	zoneSources = make([]string, len(OrigZoneSources))
	copy(zoneSources, OrigZoneSources)
	if zipOnly {
	zoneSources = zoneSources[len(zoneSources)-1:]
	}
	}

	var Interrupt = interrupt
	var DaysIn = daysIn

	func empty(arg interface{}, seq uintptr) {}

	// Test that a runtimeTimer with a duration so large it overflows
	// does not cause other timers to hang.
	//
	// This test has to be in internal_test.go since it fiddles with
	// unexported data structures.
	func CheckRuntimeTimerOverflow() {
	// We manually create a runtimeTimer to bypass the overflow
	// detection logic in NewTimer: we're testing the underlying
	// runtime.addtimer function.
	r := &runtimeTimer{
	when: runtimeNano() + (1<<63 - 1),
	f: empty,
	arg: nil,
	}
	startTimer(r)

	// Start a goroutine that should send on t.C right away.
	t := NewTimer(1)

	defer func() {
	// Subsequent tests won't work correctly if we don't stop the
	// overflow timer and kick the timer proc back into service.
	//
	// The timer proc is now sleeping and can only be awoken by
	// adding a timer to the beginning of the heap. We can't
	// wake it up by calling NewTimer since other tests may have
	// left timers running that should have expired before ours.
	// Instead we zero the overflow timer duration and start it
	// once more.
	stopTimer(r)
	t.Stop()
	r.when = 0
	startTimer(r)
	}()

	// If the test fails, we will hang here until the timeout in the testing package
	// fires, which is 10 minutes. It would be nice to catch the problem sooner,
	// but there is no reliable way to guarantee that timerproc schedules without
	// doing something involving timerproc itself. Previous failed attempts have
	// tried calling runtime.Gosched and runtime.GC, but neither is reliable.
	// So we fall back to hope: We hope we don't hang here.
	<-t.C
	}

	var (
	MinMonoTime = Time{wall: 1 << 63, ext: -1 << 63, loc: UTC}
	MaxMonoTime = Time{wall: 1 << 63, ext: 1<<63 - 1, loc: UTC}
	)