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runtime: encapsulate access to allgs

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Correctly accessing allgs is a bit hairy. Some paths need to lock
allglock, some don't. Those that don't are safest using atomicAllG, but
usage is not consistent.

Rather than doing this ad-hoc, move all access* through forEachG /
forEachGRace, the locking and atomic versions, respectively. This will
make it easier to ensure safe access.

* markroot is the only exception, as it has a far-removed guarantee of
safe access via an atomic load of allglen far before actual use.

Change-Id: Ie1c7a8243e155ae2b4bc3143577380c695680e89
Reviewed-on: https://go-review.googlesource.com/c/go/+/279994
Trust: Michael Pratt <mpratt@google.com>
Run-TryBot: Michael Pratt <mpratt@google.com>
TryBot-Result: Go Bot <gobot@golang.org>
Reviewed-by: Michael Knyszek <mknyszek@google.com>
This commit is contained in:
Michael Pratt 2020-12-23 15:05:37 -05:00
parent 39bdd41d03
commit d85083911d
7 changed files with 87 additions and 63 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

7
src/runtime/heapdump.go
View File

@ -403,9 +403,10 @@ func dumpgoroutine(gp *g) {
}
func dumpgs() {
assertWorldStopped()
// goroutines & stacks
for i := 0; uintptr(i) < allglen; i++ {
gp := allgs[i]
forEachG(func(gp *g) {
status := readgstatus(gp) // The world is stopped so gp will not be in a scan state.
switch status {
default:
@ -418,7 +419,7 @@ func dumpgs() {
_Gwaiting:
dumpgoroutine(gp)
}
}
})
}
func finq_callback(fn *funcval, obj unsafe.Pointer, nret uintptr, fint *_type, ot *ptrtype) {

8
src/runtime/mgc.go
View File

@ -2229,14 +2229,12 @@ func gcSweep(mode gcMode) {
//
//go:systemstack
func gcResetMarkState() {
// This may be called during a concurrent phase, so make sure
// This may be called during a concurrent phase, so lock to make sure
// allgs doesn't change.
lock(&allglock)
for _, gp := range allgs {
forEachG(func(gp *g) {
gp.gcscandone = false // set to true in gcphasework
gp.gcAssistBytes = 0
}
unlock(&allglock)
})
// Clear page marks. This is just 1MB per 64GB of heap, so the
// time here is pretty trivial.

26
src/runtime/mgcmark.go
View File

@ -116,23 +116,26 @@ func gcMarkRootCheck() {
throw("left over markroot jobs")
}
lock(&allglock)
// Check that stacks have been scanned.
var gp *g
for i := 0; i < work.nStackRoots; i++ {
gp = allgs[i]
if !gp.gcscandone {
goto fail
}
}
unlock(&allglock)
//
// We only check the first nStackRoots Gs that we should have scanned.
// Since we don't care about newer Gs (see comment in
// gcMarkRootPrepare), no locking is required.
i := 0
forEachGRace(func(gp *g) {
if i >= work.nStackRoots {
return
}
fail:
if !gp.gcscandone {
println("gp", gp, "goid", gp.goid,
"status", readgstatus(gp),
"gcscandone", gp.gcscandone)
throw("scan missed a g")
}
i++
})
}
// ptrmask for an allocation containing a single pointer.
@ -189,6 +192,9 @@ func markroot(gcw *gcWork, i uint32) {
// the rest is scanning goroutine stacks
var gp *g
if baseStacks <= i && i < end {
// N.B. Atomic read of allglen in gcMarkRootPrepare
// acts as a barrier to ensure that allgs must be large
// enough to contain all relevant Gs.
gp = allgs[i-baseStacks]
} else {
throw("markroot: bad index")

17
src/runtime/mprof.go
View File

@ -731,12 +731,13 @@ func goroutineProfileWithLabels(p []StackRecord, labels []unsafe.Pointer) (n int
stopTheWorld("profile")
// World is stopped, no locking required.
n = 1
for _, gp1 := range allgs {
forEachGRace(func(gp1 *g) {
if isOK(gp1) {
n++
}
}
})
if n <= len(p) {
ok = true
@ -757,12 +758,15 @@ func goroutineProfileWithLabels(p []StackRecord, labels []unsafe.Pointer) (n int
}
// Save other goroutines.
for _, gp1 := range allgs {
if isOK(gp1) {
forEachGRace(func(gp1 *g) {
if !isOK(gp1) {
return
}
if len(r) == 0 {
// Should be impossible, but better to return a
// truncated profile than to crash the entire process.
break
return
}
saveg(^uintptr(0), ^uintptr(0), gp1, &r[0])
if labels != nil {
@ -770,8 +774,7 @@ func goroutineProfileWithLabels(p []StackRecord, labels []unsafe.Pointer) (n int
lbl = lbl[1:]
}
r = r[1:]
}
}
})
}
startTheWorld()

40
src/runtime/proc.go
View File

@ -541,6 +541,30 @@ func atomicAllGIndex(ptr **g, i uintptr) *g {
return *(**g)(add(unsafe.Pointer(ptr), i*sys.PtrSize))
}
// forEachG calls fn on every G from allgs.
//
// forEachG takes a lock to exclude concurrent addition of new Gs.
func forEachG(fn func(gp *g)) {
lock(&allglock)
for _, gp := range allgs {
fn(gp)
}
unlock(&allglock)
}
// forEachGRace calls fn on every G from allgs.
//
// forEachGRace avoids locking, but does not exclude addition of new Gs during
// execution, which may be missed.
func forEachGRace(fn func(gp *g)) {
ptr, length := atomicAllG()
for i := uintptr(0); i < length; i++ {
gp := atomicAllGIndex(ptr, i)
fn(gp)
}
return
}
const (
// Number of goroutine ids to grab from sched.goidgen to local per-P cache at once.
// 16 seems to provide enough amortization, but other than that it's mostly arbitrary number.
@ -4969,11 +4993,9 @@ func checkdead() {
}
grunning := 0
lock(&allglock)
for i := 0; i < len(allgs); i++ {
gp := allgs[i]
forEachG(func(gp *g) {
if isSystemGoroutine(gp, false) {
continue
return
}
s := readgstatus(gp)
switch s &^ _Gscan {
@ -4986,8 +5008,7 @@ func checkdead() {
print("runtime: checkdead: find g ", gp.goid, " in status ", s, "\n")
throw("checkdead: runnable g")
}
}
unlock(&allglock)
})
if grunning == 0 { // possible if main goroutine calls runtime·Goexit()
unlock(&sched.lock) // unlock so that GODEBUG=scheddetail=1 doesn't hang
throw("no goroutines (main called runtime.Goexit) - deadlock!")
@ -5390,9 +5411,7 @@ func schedtrace(detailed bool) {
print(" M", mp.id, ": p=", id1, " curg=", id2, " mallocing=", mp.mallocing, " throwing=", mp.throwing, " preemptoff=", mp.preemptoff, ""+" locks=", mp.locks, " dying=", mp.dying, " spinning=", mp.spinning, " blocked=", mp.blocked, " lockedg=", id3, "\n")
}
lock(&allglock)
for gi := 0; gi < len(allgs); gi++ {
gp := allgs[gi]
forEachG(func(gp *g) {
mp := gp.m
lockedm := gp.lockedm.ptr()
id1 := int64(-1)
@ -5404,8 +5423,7 @@ func schedtrace(detailed bool) {
id2 = lockedm.id
}
print(" G", gp.goid, ": status=", readgstatus(gp), "(", gp.waitreason.String(), ") m=", id1, " lockedm=", id2, "\n")
}
unlock(&allglock)
})
unlock(&sched.lock)
}

5
src/runtime/trace.go
View File

@ -221,7 +221,8 @@ func StartTrace() error {
stackID := traceStackID(mp, stkBuf, 2)
releasem(mp)
for _, gp := range allgs {
// World is stopped, no need to lock.
forEachGRace(func(gp *g) {
status := readgstatus(gp)
if status != _Gdead {
gp.traceseq = 0
@ -241,7 +242,7 @@ func StartTrace() error {
} else {
gp.sysblocktraced = false
}
}
})
traceProcStart()
traceGoStart()
// Note: ticksStart needs to be set after we emit traceEvGoInSyscall events.

21
src/runtime/traceback.go
View File

@ -945,19 +945,16 @@ func tracebackothers(me *g) {
traceback(^uintptr(0), ^uintptr(0), 0, curgp)
}
// We can't take allglock here because this may be during fatal
// throw/panic, where locking allglock could be out-of-order or a
// direct deadlock.
// We can't call locking forEachG here because this may be during fatal
// throw/panic, where locking could be out-of-order or a direct
// deadlock.
//
// Instead, use atomic access to allgs which requires no locking. We
// don't lock against concurrent creation of new Gs, but even with
// allglock we may miss Gs created after this loop.
ptr, length := atomicAllG()
for i := uintptr(0); i < length; i++ {
gp := atomicAllGIndex(ptr, i)
// Instead, use forEachGRace, which requires no locking. We don't lock
// against concurrent creation of new Gs, but even with allglock we may
// miss Gs created after this loop.
forEachGRace(func(gp *g) {
if gp == me || gp == curgp || readgstatus(gp) == _Gdead || isSystemGoroutine(gp, false) && level < 2 {
continue
return
}
print("\n")
goroutineheader(gp)
@ -971,7 +968,7 @@ func tracebackothers(me *g) {
} else {
traceback(^uintptr(0), ^uintptr(0), 0, gp)
}
}
})
}
// tracebackHexdump hexdumps part of stk around frame.sp and frame.fp