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runtime: avoid re-scanning scavenged and untouched memory
Currently the scavenger will reset to the top of the heap every GC. This means if it scavenges a bunch of memory which doesn't get used again, it's going to keep re-scanning that memory on subsequent cycles. This problem is especially bad when it comes to heap spikes: suppose an application's heap spikes to 2x its steady-state size. The scavenger will run over the top half of that heap even if the heap shrinks, for the rest of the application's lifetime. To fix this, we maintain two numbers: a "free" high watermark, which represents the highest address freed to the page allocator in that cycle, and a "scavenged" low watermark, which represents how low of an address the scavenger got to when scavenging. If the "free" watermark exceeds the "scavenged" watermark, then we pick the "free" watermark as the new "top of the heap" for the scavenger when starting the next scavenger cycle. Otherwise, we have the scavenger pick up where it left off. With this mechanism, we only ever re-scan scavenged memory if a random page gets freed very high up in the heap address space while most of the action is happening in the lower parts. This case should be exceedingly unlikely because the page reclaimer walks over the heap from low address to high addresses, and we use a first-fit address-ordered allocation policy. Updates #35788. Change-Id: Id335603b526ce3a0eb79ef286d1a4e876abc9cab Reviewed-on: https://go-review.googlesource.com/c/go/+/218997 Run-TryBot: Michael Knyszek <mknyszek@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Austin Clements <austin@google.com> Reviewed-by: David Chase <drchase@google.com>
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@ -450,6 +450,25 @@ func (s *pageAlloc) scavengeStartGen() {
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printScavTrace(s.scav.gen, s.scav.released, false)
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printScavTrace(s.scav.gen, s.scav.released, false)
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}
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}
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s.inUse.cloneInto(&s.scav.inUse)
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s.inUse.cloneInto(&s.scav.inUse)
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// Pick the new starting address for the scavenger cycle.
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var startAddr uintptr
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if s.scav.scavLWM < s.scav.freeHWM {
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// The "free" high watermark exceeds the "scavenged" low watermark,
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// so there are free scavengable pages in parts of the address space
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// that the scavenger already searched, the high watermark being the
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// highest one. Pick that as our new starting point to ensure we
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// see those pages.
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startAddr = s.scav.freeHWM
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} else {
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// The "free" high watermark does not exceed the "scavenged" low
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// watermark. This means the allocator didn't free any memory in
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// the range we scavenged last cycle, so we might as well continue
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// scavenging from where we were.
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startAddr = s.scav.scavLWM
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}
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s.scav.inUse.removeGreaterEqual(startAddr)
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// reservationBytes may be zero if s.inUse.totalBytes is small, or if
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// reservationBytes may be zero if s.inUse.totalBytes is small, or if
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// scavengeReservationShards is large. This case is fine as the scavenger
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// scavengeReservationShards is large. This case is fine as the scavenger
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// will simply be turned off, but it does mean that scavengeReservationShards,
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// will simply be turned off, but it does mean that scavengeReservationShards,
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@ -459,6 +478,8 @@ func (s *pageAlloc) scavengeStartGen() {
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s.scav.reservationBytes = alignUp(s.inUse.totalBytes, pallocChunkBytes) / scavengeReservationShards
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s.scav.reservationBytes = alignUp(s.inUse.totalBytes, pallocChunkBytes) / scavengeReservationShards
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s.scav.gen++
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s.scav.gen++
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s.scav.released = 0
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s.scav.released = 0
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s.scav.freeHWM = 0
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s.scav.scavLWM = maxSearchAddr
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}
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}
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// scavengeReserve reserves a contiguous range of the address space
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// scavengeReserve reserves a contiguous range of the address space
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@ -676,6 +697,11 @@ func (s *pageAlloc) scavengeRangeLocked(ci chunkIdx, base, npages uint) uintptr
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// Compute the full address for the start of the range.
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// Compute the full address for the start of the range.
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addr := chunkBase(ci) + uintptr(base)*pageSize
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addr := chunkBase(ci) + uintptr(base)*pageSize
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// Update the scavenge low watermark.
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if addr < s.scav.scavLWM {
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s.scav.scavLWM = addr
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}
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// Only perform the actual scavenging if we're not in a test.
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// Only perform the actual scavenging if we're not in a test.
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// It's dangerous to do so otherwise.
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// It's dangerous to do so otherwise.
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if s.test {
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if s.test {
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@ -270,6 +270,14 @@ type pageAlloc struct {
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// released is the amount of memory released this generation.
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// released is the amount of memory released this generation.
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released uintptr
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released uintptr
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// scavLWM is the lowest address that the scavenger reached this
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// scavenge generation.
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scavLWM uintptr
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// freeHWM is the highest address of a page that was freed to
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// the page allocator this scavenge generation.
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freeHWM uintptr
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}
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}
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// mheap_.lock. This level of indirection makes it possible
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// mheap_.lock. This level of indirection makes it possible
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@ -306,6 +314,9 @@ func (s *pageAlloc) init(mheapLock *mutex, sysStat *uint64) {
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// Set the mheapLock.
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// Set the mheapLock.
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s.mheapLock = mheapLock
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s.mheapLock = mheapLock
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// Initialize scavenge tracking state.
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s.scav.scavLWM = maxSearchAddr
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}
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}
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// compareSearchAddrTo compares an address against s.searchAddr in a linearized
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// compareSearchAddrTo compares an address against s.searchAddr in a linearized
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@ -813,6 +824,11 @@ func (s *pageAlloc) free(base, npages uintptr) {
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if s.compareSearchAddrTo(base) < 0 {
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if s.compareSearchAddrTo(base) < 0 {
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s.searchAddr = base
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s.searchAddr = base
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}
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}
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// Update the free high watermark for the scavenger.
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limit := base + npages*pageSize - 1
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if s.scav.freeHWM < limit {
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s.scav.freeHWM = limit
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}
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if npages == 1 {
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if npages == 1 {
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// Fast path: we're clearing a single bit, and we know exactly
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// Fast path: we're clearing a single bit, and we know exactly
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// where it is, so mark it directly.
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// where it is, so mark it directly.
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@ -820,7 +836,6 @@ func (s *pageAlloc) free(base, npages uintptr) {
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s.chunkOf(i).free1(chunkPageIndex(base))
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s.chunkOf(i).free1(chunkPageIndex(base))
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} else {
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} else {
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// Slow path: we're clearing more bits so we may need to iterate.
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// Slow path: we're clearing more bits so we may need to iterate.
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limit := base + npages*pageSize - 1
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sc, ec := chunkIndex(base), chunkIndex(limit)
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sc, ec := chunkIndex(base), chunkIndex(limit)
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si, ei := chunkPageIndex(base), chunkPageIndex(limit)
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si, ei := chunkPageIndex(base), chunkPageIndex(limit)
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