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// Copyright 2023 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.
//go:build goexperiment.exectracer2
// Trace goroutine and P status management.
package runtime
import "runtime/internal/atomic"
// traceGoStatus is the status of a goroutine.
//
// They correspond directly to the various goroutine
// statuses.
type traceGoStatus uint8
const (
traceGoBad traceGoStatus = iota
traceGoRunnable
traceGoRunning
traceGoSyscall
traceGoWaiting
)
// traceProcStatus is the status of a P.
//
// They mostly correspond to the various P statuses.
type traceProcStatus uint8
const (
traceProcBad traceProcStatus = iota
traceProcRunning
traceProcIdle
traceProcSyscall
// traceProcSyscallAbandoned is a special case of
// traceProcSyscall. It's used in the very specific case
// where the first a P is mentioned in a generation is
// part of a ProcSteal event. If that's the first time
// it's mentioned, then there's no GoSyscallBegin to
// connect the P stealing back to at that point. This
// special state indicates this to the parser, so it
// doesn't try to find a GoSyscallEndBlocked that
// corresponds with the ProcSteal.
traceProcSyscallAbandoned
)
// writeGoStatus emits a GoStatus event as well as any active ranges on the goroutine.
func (w traceWriter) writeGoStatus(goid uint64, mid int64, status traceGoStatus, markAssist bool) traceWriter {
// The status should never be bad. Some invariant must have been violated.
if status == traceGoBad {
print("runtime: goid=", goid, "\n")
throw("attempted to trace a bad status for a goroutine")
}
// Trace the status.
w = w.event(traceEvGoStatus, traceArg(goid), traceArg(uint64(mid)), traceArg(status))
// Trace any special ranges that are in-progress.
if markAssist {
w = w.event(traceEvGCMarkAssistActive, traceArg(goid))
}
return w
}
// writeProcStatusForP emits a ProcStatus event for the provided p based on its status.
//
// The caller must fully own pp and it must be prevented from transitioning (e.g. this can be
// called by a forEachP callback or from a STW).
func (w traceWriter) writeProcStatusForP(pp *p, inSTW bool) traceWriter {
if !pp.trace.acquireStatus(w.gen) {
return w
}
var status traceProcStatus
switch pp.status {
case _Pidle, _Pgcstop:
status = traceProcIdle
if pp.status == _Pgcstop && inSTW {
// N.B. a P that is running and currently has the world stopped will be
// in _Pgcstop, but we model it as running in the tracer.
status = traceProcRunning
}
case _Prunning:
status = traceProcRunning
// There's a short window wherein the goroutine may have entered _Gsyscall
// but it still owns the P (it's not in _Psyscall yet). The goroutine entering
// _Gsyscall is the tracer's signal that the P its bound to is also in a syscall,
// so we need to emit a status that matches. See #64318.
if w.mp.p.ptr() == pp && w.mp.curg != nil && readgstatus(w.mp.curg)&^_Gscan == _Gsyscall {
status = traceProcSyscall
}
case _Psyscall:
status = traceProcSyscall
default:
throw("attempt to trace invalid or unsupported P status")
}
w = w.writeProcStatus(uint64(pp.id), status, pp.trace.inSweep)
return w
}
// writeProcStatus emits a ProcStatus event with all the provided information.
//
// The caller must have taken ownership of a P's status writing, and the P must be
// prevented from transitioning.
func (w traceWriter) writeProcStatus(pid uint64, status traceProcStatus, inSweep bool) traceWriter {
// The status should never be bad. Some invariant must have been violated.
if status == traceProcBad {
print("runtime: pid=", pid, "\n")
throw("attempted to trace a bad status for a proc")
}
// Trace the status.
w = w.event(traceEvProcStatus, traceArg(pid), traceArg(status))
// Trace any special ranges that are in-progress.
if inSweep {
w = w.event(traceEvGCSweepActive, traceArg(pid))
}
return w
}
// goStatusToTraceGoStatus translates the internal status to tracGoStatus.
//
// status must not be _Gdead or any status whose name has the suffix "_unused."
func goStatusToTraceGoStatus(status uint32, wr waitReason) traceGoStatus {
// N.B. Ignore the _Gscan bit. We don't model it in the tracer.
var tgs traceGoStatus
switch status &^ _Gscan {
case _Grunnable:
tgs = traceGoRunnable
case _Grunning, _Gcopystack:
tgs = traceGoRunning
case _Gsyscall:
tgs = traceGoSyscall
case _Gwaiting, _Gpreempted:
// There are a number of cases where a G might end up in
// _Gwaiting but it's actually running in a non-preemptive
// state but needs to present itself as preempted to the
// garbage collector. In these cases, we're not going to
// emit an event, and we want these goroutines to appear in
// the final trace as if they're running, not blocked.
tgs = traceGoWaiting
if status == _Gwaiting &&
wr == waitReasonStoppingTheWorld ||
wr == waitReasonGCMarkTermination ||
wr == waitReasonGarbageCollection ||
wr == waitReasonTraceProcStatus ||
wr == waitReasonPageTraceFlush ||
wr == waitReasonGCWorkerActive {
tgs = traceGoRunning
}
case _Gdead:
throw("tried to trace dead goroutine")
default:
throw("tried to trace goroutine with invalid or unsupported status")
}
return tgs
}
// traceSchedResourceState is shared state for scheduling resources (i.e. fields common to
// both Gs and Ps).
type traceSchedResourceState struct {
// statusTraced indicates whether a status event was traced for this resource
// a particular generation.
//
// There are 3 of these because when transitioning across generations, traceAdvance
// needs to be able to reliably observe whether a status was traced for the previous
// generation, while we need to clear the value for the next generation.
statusTraced [3]atomic.Uint32
// seq is the sequence counter for this scheduling resource's events.
// The purpose of the sequence counter is to establish a partial order between
// events that don't obviously happen serially (same M) in the stream ofevents.
//
// There are two of these so that we can reset the counter on each generation.
// This saves space in the resulting trace by keeping the counter small and allows
// GoStatus and GoCreate events to omit a sequence number (implicitly 0).
seq [2]uint64
}
// acquireStatus acquires the right to emit a Status event for the scheduling resource.
func (r *traceSchedResourceState) acquireStatus(gen uintptr) bool {
if !r.statusTraced[gen%3].CompareAndSwap(0, 1) {
return false
}
r.readyNextGen(gen)
return true
}
// readyNextGen readies r for the generation following gen.
func (r *traceSchedResourceState) readyNextGen(gen uintptr) {
nextGen := traceNextGen(gen)
r.seq[nextGen%2] = 0
r.statusTraced[nextGen%3].Store(0)
}
// statusWasTraced returns true if the sched resource's status was already acquired for tracing.
func (r *traceSchedResourceState) statusWasTraced(gen uintptr) bool {
return r.statusTraced[gen%3].Load() != 0
}
// setStatusTraced indicates that the resource's status was already traced, for example
// when a goroutine is created.
func (r *traceSchedResourceState) setStatusTraced(gen uintptr) {
r.statusTraced[gen%3].Store(1)
}
// nextSeq returns the next sequence number for the resource.
func (r *traceSchedResourceState) nextSeq(gen uintptr) traceArg {
r.seq[gen%2]++
return traceArg(r.seq[gen%2])
}