// 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 import "runtime" func init() { // force US/Pacific for time zone tests ForceUSPacificForTesting() } func initTestingZone() { z, err := loadLocation("America/Los_Angeles", zoneSources[len(zoneSources)-1:]) if runtime.Compiler == "gccgo" && err != nil { z, err = loadLocation("America/Los_Angeles", zoneSources) } 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} )