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go/src/runtime/time.go
Dmitry Vyukov 919fd24884 runtime: remove runtime frames from stacks in traces
Stip uninteresting bottom and top frames from trace stacks.
This makes both binary and json trace files smaller,
and also makes stacks shorter and more readable in the viewer.

Change-Id: Ib9c80ccc280504f0e235f867f53f1d2652c41583
Reviewed-on: https://go-review.googlesource.com/5523
Reviewed-by: Keith Randall <khr@golang.org>
Run-TryBot: Dmitry Vyukov <dvyukov@google.com>
2015-03-10 14:46:15 +00:00

304 lines
6.3 KiB
Go

// Copyright 2009 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.
// Time-related runtime and pieces of package time.
package runtime
import "unsafe"
// Package time knows the layout of this structure.
// If this struct changes, adjust ../time/sleep.go:/runtimeTimer.
// For GOOS=nacl, package syscall knows the layout of this structure.
// If this struct changes, adjust ../syscall/net_nacl.go:/runtimeTimer.
type timer struct {
i int // heap index
// Timer wakes up at when, and then at when+period, ... (period > 0 only)
// each time calling f(now, arg) in the timer goroutine, so f must be
// a well-behaved function and not block.
when int64
period int64
f func(interface{}, uintptr)
arg interface{}
seq uintptr
}
var timers struct {
lock mutex
gp *g
created bool
sleeping bool
rescheduling bool
waitnote note
t []*timer
}
// nacl fake time support - time in nanoseconds since 1970
var faketime int64
// Package time APIs.
// Godoc uses the comments in package time, not these.
// time.now is implemented in assembly.
// timeSleep puts the current goroutine to sleep for at least ns nanoseconds.
//go:linkname timeSleep time.Sleep
func timeSleep(ns int64) {
if ns <= 0 {
return
}
t := new(timer)
t.when = nanotime() + ns
t.f = goroutineReady
t.arg = getg()
lock(&timers.lock)
addtimerLocked(t)
goparkunlock(&timers.lock, "sleep", traceEvGoSleep, 2)
}
// startTimer adds t to the timer heap.
//go:linkname startTimer time.startTimer
func startTimer(t *timer) {
if raceenabled {
racerelease(unsafe.Pointer(t))
}
addtimer(t)
}
// stopTimer removes t from the timer heap if it is there.
// It returns true if t was removed, false if t wasn't even there.
//go:linkname stopTimer time.stopTimer
func stopTimer(t *timer) bool {
return deltimer(t)
}
// Go runtime.
// Ready the goroutine arg.
func goroutineReady(arg interface{}, seq uintptr) {
goready(arg.(*g), 0)
}
func addtimer(t *timer) {
lock(&timers.lock)
addtimerLocked(t)
unlock(&timers.lock)
}
// Add a timer to the heap and start or kick the timer proc.
// If the new timer is earlier than any of the others.
// Timers are locked.
func addtimerLocked(t *timer) {
// when must never be negative; otherwise timerproc will overflow
// during its delta calculation and never expire other runtime·timers.
if t.when < 0 {
t.when = 1<<63 - 1
}
t.i = len(timers.t)
timers.t = append(timers.t, t)
siftupTimer(t.i)
if t.i == 0 {
// siftup moved to top: new earliest deadline.
if timers.sleeping {
timers.sleeping = false
notewakeup(&timers.waitnote)
}
if timers.rescheduling {
timers.rescheduling = false
goready(timers.gp, 0)
}
}
if !timers.created {
timers.created = true
go timerproc()
}
}
// Delete timer t from the heap.
// Do not need to update the timerproc: if it wakes up early, no big deal.
func deltimer(t *timer) bool {
// Dereference t so that any panic happens before the lock is held.
// Discard result, because t might be moving in the heap.
_ = t.i
lock(&timers.lock)
// t may not be registered anymore and may have
// a bogus i (typically 0, if generated by Go).
// Verify it before proceeding.
i := t.i
last := len(timers.t) - 1
if i < 0 || i > last || timers.t[i] != t {
unlock(&timers.lock)
return false
}
if i != last {
timers.t[i] = timers.t[last]
timers.t[i].i = i
}
timers.t[last] = nil
timers.t = timers.t[:last]
if i != last {
siftupTimer(i)
siftdownTimer(i)
}
unlock(&timers.lock)
return true
}
// Timerproc runs the time-driven events.
// It sleeps until the next event in the timers heap.
// If addtimer inserts a new earlier event, addtimer1 wakes timerproc early.
func timerproc() {
timers.gp = getg()
for {
lock(&timers.lock)
timers.sleeping = false
now := nanotime()
delta := int64(-1)
for {
if len(timers.t) == 0 {
delta = -1
break
}
t := timers.t[0]
delta = t.when - now
if delta > 0 {
break
}
if t.period > 0 {
// leave in heap but adjust next time to fire
t.when += t.period * (1 + -delta/t.period)
siftdownTimer(0)
} else {
// remove from heap
last := len(timers.t) - 1
if last > 0 {
timers.t[0] = timers.t[last]
timers.t[0].i = 0
}
timers.t[last] = nil
timers.t = timers.t[:last]
if last > 0 {
siftdownTimer(0)
}
t.i = -1 // mark as removed
}
f := t.f
arg := t.arg
seq := t.seq
unlock(&timers.lock)
if raceenabled {
raceacquire(unsafe.Pointer(t))
}
f(arg, seq)
lock(&timers.lock)
}
if delta < 0 || faketime > 0 {
// No timers left - put goroutine to sleep.
timers.rescheduling = true
goparkunlock(&timers.lock, "timer goroutine (idle)", traceEvGoBlock, 1)
continue
}
// At least one timer pending. Sleep until then.
timers.sleeping = true
noteclear(&timers.waitnote)
unlock(&timers.lock)
notetsleepg(&timers.waitnote, delta)
}
}
func timejump() *g {
if faketime == 0 {
return nil
}
lock(&timers.lock)
if !timers.created || len(timers.t) == 0 {
unlock(&timers.lock)
return nil
}
var gp *g
if faketime < timers.t[0].when {
faketime = timers.t[0].when
if timers.rescheduling {
timers.rescheduling = false
gp = timers.gp
}
}
unlock(&timers.lock)
return gp
}
// Heap maintenance algorithms.
func siftupTimer(i int) {
t := timers.t
when := t[i].when
tmp := t[i]
for i > 0 {
p := (i - 1) / 4 // parent
if when >= t[p].when {
break
}
t[i] = t[p]
t[i].i = i
t[p] = tmp
t[p].i = p
i = p
}
}
func siftdownTimer(i int) {
t := timers.t
n := len(t)
when := t[i].when
tmp := t[i]
for {
c := i*4 + 1 // left child
c3 := c + 2 // mid child
if c >= n {
break
}
w := t[c].when
if c+1 < n && t[c+1].when < w {
w = t[c+1].when
c++
}
if c3 < n {
w3 := t[c3].when
if c3+1 < n && t[c3+1].when < w3 {
w3 = t[c3+1].when
c3++
}
if w3 < w {
w = w3
c = c3
}
}
if w >= when {
break
}
t[i] = t[c]
t[i].i = i
t[c] = tmp
t[c].i = c
i = c
}
}
// Entry points for net, time to call nanotime.
//go:linkname net_runtimeNano net.runtimeNano
func net_runtimeNano() int64 {
return nanotime()
}
//go:linkname time_runtimeNano time.runtimeNano
func time_runtimeNano() int64 {
return nanotime()
}