Add counters to track the maximum amount of memory committed by the heap.

BUG=None R=bmeurer@chromium.org, ulan@chromium.org Review URL: https://chromiumcodereview.appspot.com/29203003 Patch from Ross McIlroy <rmcilroy@chromium.org>. git-svn-id: http://v8.googlecode.com/svn/branches/bleeding_edge@17478 ce2b1a6d-e550-0410-aec6-3dcde31c8c00
2013-11-05 11:59:42 +00:00 · 2013-11-05 11:59:42 +00:00 · 0fd7c2a78a
commit 0fd7c2a78a
parent ada13dfc3f
6 changed files with 109 additions and 5 deletions
--- a/src/flag-definitions.h
+++ b/src/flag-definitions.h
@ -502,6 +502,9 @@ DEFINE_bool(trace_gc_ignore_scavenger, false,
            "do not print trace line after scavenger collection")
 DEFINE_bool(print_cumulative_gc_stat, false,
            "print cumulative GC statistics in name=value format on exit")
+DEFINE_bool(print_max_heap_committed, false,
+            "print statistics of the maximum memory committed for the heap "
+            "in name=value format on exit")
 DEFINE_bool(trace_gc_verbose, false,
            "print more details following each garbage collection")
 DEFINE_bool(trace_fragmentation, false,
--- a/src/heap.cc
+++ b/src/heap.cc
@ -79,6 +79,7 @@ Heap::Heap()
 // ConfigureHeap (survived_since_last_expansion_, external_allocation_limit_)
 // Will be 4 * reserved_semispace_size_ to ensure that young
 // generation can be aligned to its size.
+      maximum_committed_(0),
      survived_since_last_expansion_(0),
      sweep_generation_(0),
      always_allocate_scope_depth_(0),
@ -232,6 +233,16 @@ intptr_t Heap::CommittedMemoryExecutable() {
 }


+void Heap::UpdateMaximumCommitted() {
+  if (!HasBeenSetUp()) return;
+
+  intptr_t current_committed_memory = CommittedMemory();
+  if (current_committed_memory > maximum_committed_) {
+    maximum_committed_ = current_committed_memory;
+  }
+}
+
+
 intptr_t Heap::Available() {
  if (!HasBeenSetUp()) return 0;

@ -441,6 +452,8 @@ void Heap::GarbageCollectionPrologue() {
 #endif
  }

+  UpdateMaximumCommitted();
+
 #ifdef DEBUG
  ASSERT(!AllowHeapAllocation::IsAllowed() && gc_state_ == NOT_IN_GC);

@ -506,6 +519,8 @@ void Heap::GarbageCollectionEpilogue() {
    }
  }

+  UpdateMaximumCommitted();
+
  isolate_->counters()->alive_after_last_gc()->Set(
      static_cast<int>(SizeOfObjects()));

@ -567,6 +582,9 @@ void Heap::GarbageCollectionEpilogue() {
                property_cell_space()->CommittedMemory() / KB));
    isolate_->counters()->heap_sample_code_space_committed()->AddSample(
        static_cast<int>(code_space()->CommittedMemory() / KB));
+
+    isolate_->counters()->heap_sample_maximum_committed()->AddSample(
+        static_cast<int>(MaximumCommittedMemory() / KB));
  }

 #define UPDATE_COUNTERS_FOR_SPACE(space)                                       \
@ -6812,6 +6830,8 @@ void Heap::TearDown() {
  }
 #endif

+  UpdateMaximumCommitted();
+
  if (FLAG_print_cumulative_gc_stat) {
    PrintF("\n");
    PrintF("gc_count=%d ", gc_count_);
@ -6826,6 +6846,31 @@ void Heap::TearDown() {
    PrintF("\n\n");
  }

+  if (FLAG_print_max_heap_committed) {
+    PrintF("\n");
+    PrintF("maximum_committed_by_heap=%" V8_PTR_PREFIX "d ",
+      MaximumCommittedMemory());
+    PrintF("maximum_committed_by_new_space=%" V8_PTR_PREFIX "d ",
+      new_space_.MaximumCommittedMemory());
+    PrintF("maximum_committed_by_old_pointer_space=%" V8_PTR_PREFIX "d ",
+      old_data_space_->MaximumCommittedMemory());
+    PrintF("maximum_committed_by_old_data_space=%" V8_PTR_PREFIX "d ",
+      old_pointer_space_->MaximumCommittedMemory());
+    PrintF("maximum_committed_by_old_data_space=%" V8_PTR_PREFIX "d ",
+      old_pointer_space_->MaximumCommittedMemory());
+    PrintF("maximum_committed_by_code_space=%" V8_PTR_PREFIX "d ",
+      code_space_->MaximumCommittedMemory());
+    PrintF("maximum_committed_by_map_space=%" V8_PTR_PREFIX "d ",
+      map_space_->MaximumCommittedMemory());
+    PrintF("maximum_committed_by_cell_space=%" V8_PTR_PREFIX "d ",
+      cell_space_->MaximumCommittedMemory());
+    PrintF("maximum_committed_by_property_space=%" V8_PTR_PREFIX "d ",
+      property_cell_space_->MaximumCommittedMemory());
+    PrintF("maximum_committed_by_lo_space=%" V8_PTR_PREFIX "d ",
+      lo_space_->MaximumCommittedMemory());
+    PrintF("\n\n");
+  }
+
  TearDownArrayBuffers();

  isolate_->global_handles()->TearDown();
--- a/src/heap.h
+++ b/src/heap.h
@ -533,6 +533,13 @@ class Heap {
  // Returns the amount of phyical memory currently committed for the heap.
  size_t CommittedPhysicalMemory();

+  // Returns the maximum amount of memory ever committed for the heap.
+  intptr_t MaximumCommittedMemory() { return maximum_committed_; }
+
+  // Updates the maximum committed memory for the heap. Should be called
+  // whenever a space grows.
+  void UpdateMaximumCommitted();
+
  // Returns the available bytes in space w/o growing.
  // Heap doesn't guarantee that it can allocate an object that requires
  // all available bytes. Check MaxHeapObjectSize() instead.
@ -1888,6 +1895,7 @@ class Heap {
  int initial_semispace_size_;
  intptr_t max_old_generation_size_;
  intptr_t max_executable_size_;
+  intptr_t maximum_committed_;

  // For keeping track of how much data has survived
  // scavenge since last new space expansion.
--- a/src/spaces.cc
+++ b/src/spaces.cc
@ -1122,6 +1122,11 @@ void PagedSpace::ResetFreeListStatistics() {
 }


+void PagedSpace::IncreaseCapacity(int size) {
+  accounting_stats_.ExpandSpace(size);
+}
+
+
 void PagedSpace::ReleasePage(Page* page, bool unlink) {
  ASSERT(page->LiveBytes() == 0);
  ASSERT(AreaSize() == page->area_size());
@ -1511,6 +1516,7 @@ void SemiSpace::SetUp(Address start,
  initial_capacity_ = RoundDown(initial_capacity, Page::kPageSize);
  capacity_ = initial_capacity;
  maximum_capacity_ = RoundDown(maximum_capacity, Page::kPageSize);
+  maximum_committed_ = 0;
  committed_ = false;
  start_ = start;
  address_mask_ = ~(maximum_capacity - 1);
@ -1543,6 +1549,7 @@ bool SemiSpace::Commit() {
    current = new_page;
  }

+  SetCapacity(capacity_);
  committed_ = true;
  Reset();
  return true;
@ -1591,7 +1598,7 @@ bool SemiSpace::GrowTo(int new_capacity) {
      start_ + capacity_, delta, executable())) {
    return false;
  }
-  capacity_ = new_capacity;
+  SetCapacity(new_capacity);
  NewSpacePage* last_page = anchor()->prev_page();
  ASSERT(last_page != anchor());
  for (int i = pages_before; i < pages_after; i++) {
@ -1631,7 +1638,7 @@ bool SemiSpace::ShrinkTo(int new_capacity) {
    ASSERT((current_page_ >= first_page()) && (current_page_ <= new_last_page));
  }

-  capacity_ = new_capacity;
+  SetCapacity(new_capacity);

  return true;
 }
@ -1694,6 +1701,14 @@ void SemiSpace::Swap(SemiSpace* from, SemiSpace* to) {
 }


+void SemiSpace::SetCapacity(int new_capacity) {
+  capacity_ = new_capacity;
+  if (capacity_ > maximum_committed_) {
+    maximum_committed_ = capacity_;
+  }
+}
+
+
 void SemiSpace::set_age_mark(Address mark) {
  ASSERT(NewSpacePage::FromLimit(mark)->semi_space() == this);
  age_mark_ = mark;
@ -2938,6 +2953,7 @@ LargeObjectSpace::LargeObjectSpace(Heap* heap,
 bool LargeObjectSpace::SetUp() {
  first_page_ = NULL;
  size_ = 0;
+  maximum_committed_ = 0;
  page_count_ = 0;
  objects_size_ = 0;
  chunk_map_.Clear();
@ -2984,6 +3000,10 @@ MaybeObject* LargeObjectSpace::AllocateRaw(int object_size,
  page->set_next_page(first_page_);
  first_page_ = page;

+  if (size_ > maximum_committed_) {
+    maximum_committed_ = size_;
+  }
+
  // Register all MemoryChunk::kAlignment-aligned chunks covered by
  // this large page in the chunk map.
  uintptr_t base = reinterpret_cast<uintptr_t>(page) / MemoryChunk::kAlignment;
--- a/src/spaces.h
+++ b/src/spaces.h
@ -1388,6 +1388,7 @@ class AllocationStats BASE_EMBEDDED {
  // Zero out all the allocation statistics (i.e., no capacity).
  void Clear() {
    capacity_ = 0;
+    max_capacity_ = 0;
    size_ = 0;
    waste_ = 0;
  }
@ -1406,6 +1407,7 @@ class AllocationStats BASE_EMBEDDED {

  // Accessors for the allocation statistics.
  intptr_t Capacity() { return capacity_; }
+  intptr_t MaxCapacity() { return max_capacity_; }
  intptr_t Size() { return size_; }
  intptr_t Waste() { return waste_; }

@ -1415,6 +1417,9 @@ class AllocationStats BASE_EMBEDDED {
  void ExpandSpace(int size_in_bytes) {
    capacity_ += size_in_bytes;
    size_ += size_in_bytes;
+    if (capacity_ > max_capacity_) {
+      max_capacity_ = capacity_;
+    }
    ASSERT(size_ >= 0);
  }

@ -1448,6 +1453,7 @@ class AllocationStats BASE_EMBEDDED {

 private:
  intptr_t capacity_;
+  intptr_t max_capacity_;
  intptr_t size_;
  intptr_t waste_;
 };
@ -1689,6 +1695,9 @@ class PagedSpace : public Space {
  // spaces this equals the capacity.
  intptr_t CommittedMemory() { return Capacity(); }

+  // The maximum amount of memory ever committed for this space.
+  intptr_t MaximumCommittedMemory() { return accounting_stats_.MaxCapacity(); }
+
  // Approximate amount of physical memory committed for this space.
  size_t CommittedPhysicalMemory();

@ -1795,9 +1804,7 @@ class PagedSpace : public Space {
    accounting_stats_.AllocateBytes(bytes);
  }

-  void IncreaseCapacity(int size) {
-    accounting_stats_.ExpandSpace(size);
-  }
+  void IncreaseCapacity(int size);

  // Releases an unused page and shrinks the space.
  void ReleasePage(Page* page, bool unlink);
@ -2207,6 +2214,9 @@ class SemiSpace : public Space {

  static void Swap(SemiSpace* from, SemiSpace* to);

+  // Returns the maximum amount of memory ever committed by the semi space.
+  size_t MaximumCommittedMemory() { return maximum_committed_; }
+
  // Approximate amount of physical memory committed for this space.
  size_t CommittedPhysicalMemory();

@ -2215,6 +2225,9 @@ class SemiSpace : public Space {
  // Copies the flags into the masked positions on all pages in the space.
  void FlipPages(intptr_t flags, intptr_t flag_mask);

+  // Updates Capacity and MaximumCommitted based on new capacity.
+  void SetCapacity(int new_capacity);
+
  NewSpacePage* anchor() { return &anchor_; }

  // The current and maximum capacity of the space.
@ -2222,6 +2235,8 @@ class SemiSpace : public Space {
  int maximum_capacity_;
  int initial_capacity_;

+  intptr_t maximum_committed_;
+
  // The start address of the space.
  Address start_;
  // Used to govern object promotion during mark-compact collection.
@ -2407,6 +2422,12 @@ class NewSpace : public Space {
    return Capacity();
  }

+  // Return the total amount of memory committed for new space.
+  intptr_t MaximumCommittedMemory() {
+    return to_space_.MaximumCommittedMemory() +
+        from_space_.MaximumCommittedMemory();
+  }
+
  // Approximate amount of physical memory committed for this space.
  size_t CommittedPhysicalMemory();

@ -2802,6 +2823,10 @@ class LargeObjectSpace : public Space {
    return objects_size_;
  }

+  intptr_t MaximumCommittedMemory() {
+    return maximum_committed_;
+  }
+
  intptr_t CommittedMemory() {
    return Size();
  }
@ -2853,6 +2878,7 @@ class LargeObjectSpace : public Space {

 private:
  intptr_t max_capacity_;
+  intptr_t maximum_committed_;
  // The head of the linked list of large object chunks.
  LargePage* first_page_;
  intptr_t size_;  // allocated bytes
--- a/src/v8-counters.h
+++ b/src/v8-counters.h
@ -101,6 +101,8 @@ namespace internal {
     V8.MemoryHeapSamplePropertyCellSpaceCommitted)                   \
  HM(heap_sample_code_space_committed,                                \
     V8.MemoryHeapSampleCodeSpaceCommitted)                           \
+  HM(heap_sample_maximum_committed,                                   \
+     V8.MemoryHeapSampleMaximumCommitted)                             \


 // WARNING: STATS_COUNTER_LIST_* is a very large macro that is causing MSVC