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312 lines
11 KiB
C++
312 lines
11 KiB
C++
// Copyright (c) 2008, Google Inc.
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// All rights reserved.
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//
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// Redistribution and use in source and binary forms, with or without
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// modification, are permitted provided that the following conditions are
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// met:
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//
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// * Redistributions of source code must retain the above copyright
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// notice, this list of conditions and the following disclaimer.
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// * Redistributions in binary form must reproduce the above
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// copyright notice, this list of conditions and the following disclaimer
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// in the documentation and/or other materials provided with the
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// distribution.
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// * Neither the name of Google Inc. nor the names of its
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// contributors may be used to endorse or promote products derived from
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// this software without specific prior written permission.
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//
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// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
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// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
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// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
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// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
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// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
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// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
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// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
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// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
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// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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// ---
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// Author: Sanjay Ghemawat <opensource@google.com>
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#ifndef TCMALLOC_PAGE_HEAP_H_
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#define TCMALLOC_PAGE_HEAP_H_
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#include <config.h>
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#include <stddef.h> // for size_t
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#ifdef HAVE_STDINT_H
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#include <stdint.h> // for uint64_t, int64_t, uint16_t
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#endif
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#include <gperftools/malloc_extension.h>
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#include "base/basictypes.h"
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#include "common.h"
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#include "packed-cache-inl.h"
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#include "pagemap.h"
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#include "span.h"
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// We need to dllexport PageHeap just for the unittest. MSVC complains
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// that we don't dllexport the PageHeap members, but we don't need to
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// test those, so I just suppress this warning.
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#ifdef _MSC_VER
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#pragma warning(push)
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#pragma warning(disable:4251)
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#endif
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// This #ifdef should almost never be set. Set NO_TCMALLOC_SAMPLES if
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// you're porting to a system where you really can't get a stacktrace.
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// Because we control the definition of GetStackTrace, all clients of
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// GetStackTrace should #include us rather than stacktrace.h.
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#ifdef NO_TCMALLOC_SAMPLES
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// We use #define so code compiles even if you #include stacktrace.h somehow.
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# define GetStackTrace(stack, depth, skip) (0)
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#else
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# include <gperftools/stacktrace.h>
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#endif
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namespace base {
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struct MallocRange;
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}
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namespace tcmalloc {
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// -------------------------------------------------------------------------
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// Map from page-id to per-page data
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// -------------------------------------------------------------------------
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// We use PageMap2<> for 32-bit and PageMap3<> for 64-bit machines.
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// ...except...
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// On Windows, we use TCMalloc_PageMap1_LazyCommit<> for 32-bit machines.
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// We also use a simple one-level cache for hot PageID-to-sizeclass mappings,
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// because sometimes the sizeclass is all the information we need.
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// Selector class -- general selector uses 3-level map
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template <int BITS> class MapSelector {
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public:
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typedef TCMalloc_PageMap3<BITS-kPageShift> Type;
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typedef PackedCache<BITS-kPageShift, uint64_t> CacheType;
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};
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// A two-level map for 32-bit machines
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template <> class MapSelector<32> {
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public:
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#ifdef WIN32
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// A flat map for 32-bit machines (with lazy commit of memory).
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typedef TCMalloc_PageMap1_LazyCommit<32-kPageShift> Type;
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#else
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// A two-level map for 32-bit machines
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typedef TCMalloc_PageMap2<32-kPageShift> Type;
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#endif
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typedef PackedCache<32-kPageShift, uint16_t> CacheType;
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};
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// -------------------------------------------------------------------------
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// Page-level allocator
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// * Eager coalescing
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//
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// Heap for page-level allocation. We allow allocating and freeing a
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// contiguous runs of pages (called a "span").
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// -------------------------------------------------------------------------
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class PERFTOOLS_DLL_DECL PageHeap {
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public:
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PageHeap();
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// Allocate a run of "n" pages. Returns zero if out of memory.
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// Caller should not pass "n == 0" -- instead, n should have
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// been rounded up already.
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Span* New(Length n);
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// Delete the span "[p, p+n-1]".
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// REQUIRES: span was returned by earlier call to New() and
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// has not yet been deleted.
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void Delete(Span* span);
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// Mark an allocated span as being used for small objects of the
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// specified size-class.
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// REQUIRES: span was returned by an earlier call to New()
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// and has not yet been deleted.
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void RegisterSizeClass(Span* span, size_t sc);
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// Split an allocated span into two spans: one of length "n" pages
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// followed by another span of length "span->length - n" pages.
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// Modifies "*span" to point to the first span of length "n" pages.
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// Returns a pointer to the second span.
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//
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// REQUIRES: "0 < n < span->length"
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// REQUIRES: span->location == IN_USE
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// REQUIRES: span->sizeclass == 0
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Span* Split(Span* span, Length n);
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// Return the descriptor for the specified page. Returns NULL if
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// this PageID was not allocated previously.
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inline Span* GetDescriptor(PageID p) const {
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return reinterpret_cast<Span*>(pagemap_.get(p));
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}
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// If this page heap is managing a range with starting page # >= start,
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// store info about the range in *r and return true. Else return false.
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bool GetNextRange(PageID start, base::MallocRange* r);
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// Page heap statistics
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struct Stats {
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Stats() : system_bytes(0), free_bytes(0), unmapped_bytes(0) {}
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uint64_t system_bytes; // Total bytes allocated from system
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uint64_t free_bytes; // Total bytes on normal freelists
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uint64_t unmapped_bytes; // Total bytes on returned freelists
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uint64_t committed_bytes; // Bytes committed, always <= system_bytes_.
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};
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inline Stats stats() const { return stats_; }
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struct SmallSpanStats {
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// For each free list of small spans, the length (in spans) of the
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// normal and returned free lists for that size.
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int64 normal_length[kMaxPages];
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int64 returned_length[kMaxPages];
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};
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void GetSmallSpanStats(SmallSpanStats* result);
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// Stats for free large spans (i.e., spans with more than kMaxPages pages).
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struct LargeSpanStats {
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int64 spans; // Number of such spans
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int64 normal_pages; // Combined page length of normal large spans
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int64 returned_pages; // Combined page length of unmapped spans
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};
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void GetLargeSpanStats(LargeSpanStats* result);
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bool Check();
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// Like Check() but does some more comprehensive checking.
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bool CheckExpensive();
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bool CheckList(Span* list, Length min_pages, Length max_pages,
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int freelist); // ON_NORMAL_FREELIST or ON_RETURNED_FREELIST
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// Try to release at least num_pages for reuse by the OS. Returns
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// the actual number of pages released, which may be less than
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// num_pages if there weren't enough pages to release. The result
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// may also be larger than num_pages since page_heap might decide to
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// release one large range instead of fragmenting it into two
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// smaller released and unreleased ranges.
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Length ReleaseAtLeastNPages(Length num_pages);
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// Return 0 if we have no information, or else the correct sizeclass for p.
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// Reads and writes to pagemap_cache_ do not require locking.
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// The entries are 64 bits on 64-bit hardware and 16 bits on
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// 32-bit hardware, and we don't mind raciness as long as each read of
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// an entry yields a valid entry, not a partially updated entry.
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size_t GetSizeClassIfCached(PageID p) const {
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return pagemap_cache_.GetOrDefault(p, 0);
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}
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void CacheSizeClass(PageID p, size_t cl) const { pagemap_cache_.Put(p, cl); }
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private:
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// Allocates a big block of memory for the pagemap once we reach more than
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// 128MB
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static const size_t kPageMapBigAllocationThreshold = 128 << 20;
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// Minimum number of pages to fetch from system at a time. Must be
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// significantly bigger than kBlockSize to amortize system-call
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// overhead, and also to reduce external fragementation. Also, we
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// should keep this value big because various incarnations of Linux
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// have small limits on the number of mmap() regions per
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// address-space.
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// REQUIRED: kMinSystemAlloc <= kMaxPages;
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static const int kMinSystemAlloc = kMaxPages;
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// Never delay scavenging for more than the following number of
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// deallocated pages. With 4K pages, this comes to 4GB of
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// deallocation.
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// Chrome: Changed to 64MB
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static const int kMaxReleaseDelay = 1 << 14;
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// If there is nothing to release, wait for so many pages before
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// scavenging again. With 4K pages, this comes to 1GB of memory.
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// Chrome: Changed to 16MB
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static const int kDefaultReleaseDelay = 1 << 12;
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// Pick the appropriate map and cache types based on pointer size
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typedef MapSelector<kAddressBits>::Type PageMap;
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typedef MapSelector<kAddressBits>::CacheType PageMapCache;
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PageMap pagemap_;
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mutable PageMapCache pagemap_cache_;
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// We segregate spans of a given size into two circular linked
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// lists: one for normal spans, and one for spans whose memory
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// has been returned to the system.
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struct SpanList {
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Span normal;
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Span returned;
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};
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// List of free spans of length >= kMaxPages
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SpanList large_;
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// Array mapping from span length to a doubly linked list of free spans
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SpanList free_[kMaxPages];
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// Statistics on system, free, and unmapped bytes
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Stats stats_;
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Span* SearchFreeAndLargeLists(Length n);
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bool GrowHeap(Length n);
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// REQUIRES: span->length >= n
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// REQUIRES: span->location != IN_USE
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// Remove span from its free list, and move any leftover part of
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// span into appropriate free lists. Also update "span" to have
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// length exactly "n" and mark it as non-free so it can be returned
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// to the client. After all that, decrease free_pages_ by n and
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// return span.
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Span* Carve(Span* span, Length n);
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void RecordSpan(Span* span) {
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pagemap_.set(span->start, span);
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if (span->length > 1) {
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pagemap_.set(span->start + span->length - 1, span);
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}
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}
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// Allocate a large span of length == n. If successful, returns a
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// span of exactly the specified length. Else, returns NULL.
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Span* AllocLarge(Length n);
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// Coalesce span with neighboring spans if possible, prepend to
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// appropriate free list, and adjust stats.
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void MergeIntoFreeList(Span* span);
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// Commit the span.
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void CommitSpan(Span* span);
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// Decommit the span.
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void DecommitSpan(Span* span);
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// Prepends span to appropriate free list, and adjusts stats.
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void PrependToFreeList(Span* span);
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// Removes span from its free list, and adjust stats.
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void RemoveFromFreeList(Span* span);
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// Incrementally release some memory to the system.
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// IncrementalScavenge(n) is called whenever n pages are freed.
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void IncrementalScavenge(Length n);
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// Release the last span on the normal portion of this list.
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// Return the length of that span.
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Length ReleaseLastNormalSpan(SpanList* slist);
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// Number of pages to deallocate before doing more scavenging
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int64_t scavenge_counter_;
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// Index of last free list where we released memory to the OS.
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int release_index_;
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};
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} // namespace tcmalloc
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#ifdef _MSC_VER
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#pragma warning(pop)
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#endif
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#endif // TCMALLOC_PAGE_HEAP_H_
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