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runtime: consolidate "is sweep done" conditions
The runtime currently has two different notions of sweep completion: 1. All spans are either swept or have begun sweeping. 2. The sweeper has *finished* sweeping all spans. Having both is confusing (it doesn't help that the documentation is often unclear or wrong). Condition 2 is stronger and the theoretical slight optimization that condition 1 could impact is never actually useful. Hence, this CL consolidates both conditions down to condition 2. Updates #45315. Change-Id: I55c84d767d74eb31a004a5619eaba2e351162332 Reviewed-on: https://go-review.googlesource.com/c/go/+/307916 Trust: Austin Clements <austin@google.com> Run-TryBot: Austin Clements <austin@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Michael Knyszek <mknyszek@google.com>
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@ -175,7 +175,7 @@ func gcinit() {
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}
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// No sweep on the first cycle.
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mheap_.sweepdone = 1
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mheap_.sweepDrained = 1
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// Set a reasonable initial GC trigger.
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memstats.triggerRatio = 7 / 8.0
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@ -1187,7 +1187,7 @@ func GC() {
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// First, wait for sweeping to finish. (We know there are no
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// more spans on the sweep queue, but we may be concurrently
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// sweeping spans, so we have to wait.)
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for atomic.Load(&work.cycles) == n+1 && atomic.Load(&mheap_.sweepers) != 0 {
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for atomic.Load(&work.cycles) == n+1 && !isSweepDone() {
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Gosched()
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}
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@ -2192,7 +2192,7 @@ func gcSweep(mode gcMode) {
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lock(&mheap_.lock)
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mheap_.sweepgen += 2
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mheap_.sweepdone = 0
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mheap_.sweepDrained = 0
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mheap_.pagesSwept = 0
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mheap_.sweepArenas = mheap_.allArenas
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mheap_.reclaimIndex = 0
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@ -238,7 +238,7 @@ func (l *sweepLocker) dispose() {
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// Decrement the number of active sweepers and if this is the
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// last one, mark sweep as complete.
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l.blocking = false
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if atomic.Xadd(&mheap_.sweepers, -1) == 0 && atomic.Load(&mheap_.sweepdone) != 0 {
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if atomic.Xadd(&mheap_.sweepers, -1) == 0 && atomic.Load(&mheap_.sweepDrained) != 0 {
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l.sweepIsDone()
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}
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}
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@ -257,7 +257,7 @@ func sweepone() uintptr {
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// increment locks to ensure that the goroutine is not preempted
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// in the middle of sweep thus leaving the span in an inconsistent state for next GC
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_g_.m.locks++
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if atomic.Load(&mheap_.sweepdone) != 0 {
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if atomic.Load(&mheap_.sweepDrained) != 0 {
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_g_.m.locks--
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return ^uintptr(0)
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}
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@ -271,7 +271,7 @@ func sweepone() uintptr {
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for {
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s := mheap_.nextSpanForSweep()
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if s == nil {
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noMoreWork = atomic.Cas(&mheap_.sweepdone, 0, 1)
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noMoreWork = atomic.Cas(&mheap_.sweepDrained, 0, 1)
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break
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}
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if state := s.state.get(); state != mSpanInUse {
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@ -335,14 +335,17 @@ func sweepone() uintptr {
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return npages
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}
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// isSweepDone reports whether all spans are swept or currently being swept.
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// isSweepDone reports whether all spans are swept.
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//
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// Note that this condition may transition from false to true at any
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// time as the sweeper runs. It may transition from true to false if a
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// GC runs; to prevent that the caller must be non-preemptible or must
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// somehow block GC progress.
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func isSweepDone() bool {
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return mheap_.sweepdone != 0
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// Check that all spans have at least begun sweeping and there
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// are no active sweepers. If both are true, then all spans
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// have finished sweeping.
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return atomic.Load(&mheap_.sweepDrained) != 0 && atomic.Load(&mheap_.sweepers) == 0
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}
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// Returns only when span s has been swept.
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@ -64,8 +64,9 @@ type mheap struct {
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// could self-deadlock if its stack grows with the lock held.
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lock mutex
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pages pageAlloc // page allocation data structure
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sweepgen uint32 // sweep generation, see comment in mspan; written during STW
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sweepdone uint32 // all spans are swept
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sweepDrained uint32 // all spans are swept or are being swept
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sweepers uint32 // number of active sweepone calls
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// allspans is a slice of all mspans ever created. Each mspan
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@ -904,7 +905,7 @@ func (h *mheap) alloc(npages uintptr, spanclass spanClass, needzero bool) *mspan
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systemstack(func() {
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// To prevent excessive heap growth, before allocating n pages
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// we need to sweep and reclaim at least n pages.
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if h.sweepdone == 0 {
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if !isSweepDone() {
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h.reclaim(npages)
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}
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s = h.allocSpan(npages, spanAllocHeap, spanclass)
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