runtime: scavenge memory on physical page-aligned boundaries

Currently the scavenger marks memory unused in multiples of the allocator page size (8K). This is safe as long as the true physical page size is 4K (or 8K), as it is on many platforms. However, on ARM64, PPC64x, and MIPS64, the physical page size is larger than 8K, so if we attempt to mark memory unused, the kernel will round the boundaries of the region *out* to all pages covered by the requested region, and we'll release a larger region of memory than intended. As a result, the scavenger is currently disabled on these platforms. Fix this by first rounding the region to be marked unused *in* to multiples of the physical page size, so that when we ask the kernel to mark it unused, it releases exactly the requested region. Fixes #9993. Change-Id: I96d5fdc2f77f9d69abadcea29bcfe55e68288cb1 Reviewed-on: https://go-review.googlesource.com/22066Reviewed-by: Rick Hudson <rlh@golang.org>

runtime: scavenge memory on physical page-aligned boundaries
Currently the scavenger marks memory unused in multiples of the allocator page size (8K). This is safe as long as the true physical page size is 4K (or 8K), as it is on many platforms. However, on ARM64, PPC64x, and MIPS64, the physical page size is larger than 8K, so if we attempt to mark memory unused, the kernel will round the boundaries of the region *out* to all pages covered by the requested region, and we'll release a larger region of memory than intended. As a result, the scavenger is currently disabled on these platforms. Fix this by first rounding the region to be marked unused *in* to multiples of the physical page size, so that when we ask the kernel to mark it unused, it releases exactly the requested region. Fixes #9993. Change-Id: I96d5fdc2f77f9d69abadcea29bcfe55e68288cb1 Reviewed-on: https://go-review.googlesource.com/22066Reviewed-by: Rick Hudson <rlh@golang.org>
2cdcb6f8 · Austin Clements · 11514730 · 2cdcb6f8
Commit 2cdcb6f8 authored Apr 14, 2016 by Austin Clements
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Showing with 22 additions and 12 deletions

mheap.go src/runtime/mheap.go +22 -12

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--- a/src/runtime/mheap.go
+++ b/src/runtime/mheap.go
@@ -824,15 +824,6 @@ func (h *mheap) busyList(npages uintptr) *mSpanList {
 }

 func scavengelist(list *mSpanList, now, limit uint64) uintptr {
-	if sys.PhysPageSize > _PageSize {
-		// golang.org/issue/9993
-		// If the physical page size of the machine is larger than
-		// our logical heap page size the kernel may round up the
-		// amount to be freed to its page size and corrupt the heap
-		// pages surrounding the unused block.
-		return 0
-	}
-
 	if list.isEmpty() {
 		return 0
 	}
@@ -840,11 +831,30 @@ func scavengelist(list *mSpanList, now, limit uint64) uintptr {
 	var sumreleased uintptr
 	for s := list.first; s != nil; s = s.next {
 		if (now-uint64(s.unusedsince)) > limit && s.npreleased != s.npages {
-			released := (s.npages - s.npreleased) << _PageShift
+			start := uintptr(s.start) << _PageShift
+			end := start + s.npages<<_PageShift
+			if sys.PhysPageSize > _PageSize {
+				// We can only release pages in
+				// PhysPageSize blocks, so round start
+				// and end in. (Otherwise, madvise
+				// will round them *out* and release
+				// more memory than we want.)
+				start = (start + sys.PhysPageSize - 1) &^ (sys.PhysPageSize - 1)
+				end &^= sys.PhysPageSize - 1
+				if start == end {
+					continue
+				}
+			}
+			len := end - start
+
+			released := len - (s.npreleased << _PageShift)
+			if sys.PhysPageSize > _PageSize && released == 0 {
+				continue
+			}
 			memstats.heap_released += uint64(released)
 			sumreleased += released
-			s.npreleased = s.npages
-			sysUnused(unsafe.Pointer(s.start<<_PageShift), s.npages<<_PageShift)
+			s.npreleased = len >> _PageShift
+			sysUnused(unsafe.Pointer(start), len)
 		}
 	}
 	return sumreleased