gecko/layout/base/nsPresArena.cpp

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/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*-
* vim: set ts=2 sw=2 et tw=78:
2012-05-21 04:12:37 -07:00
* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/.
*/
/* arena allocation for the frame tree and closely-related objects */
#include "nsPresArena.h"
#include "nsCRT.h"
#include "nsDebug.h"
#include "nsTArray.h"
#include "nsTHashtable.h"
#include "prmem.h"
#include "prinit.h"
#include "prlog.h"
#include "nsArenaMemoryStats.h"
#ifdef MOZ_CRASHREPORTER
#include "nsICrashReporter.h"
#include "nsCOMPtr.h"
#include "nsServiceManagerUtils.h"
#include "nsPrintfCString.h"
#endif
#include "mozilla/StandardInteger.h"
// Even on 32-bit systems, we allocate objects from the frame arena
// that require 8-byte alignment. The cast to uintptr_t is needed
// because plarena isn't as careful about mask construction as it
// ought to be.
#define ALIGN_SHIFT 3
#define PL_ARENA_CONST_ALIGN_MASK ((uintptr_t(1) << ALIGN_SHIFT) - 1)
#include "plarena.h"
#ifdef _WIN32
# include <windows.h>
#elif !defined(__OS2__)
# include <unistd.h>
# include <sys/mman.h>
# ifndef MAP_ANON
# ifdef MAP_ANONYMOUS
# define MAP_ANON MAP_ANONYMOUS
# else
# error "Don't know how to get anonymous memory"
# endif
# endif
#endif
// Size to use for PLArena block allocations.
static const size_t ARENA_PAGE_SIZE = 8192;
// Freed memory is filled with a poison value, which we arrange to
// form a pointer either to an always-unmapped region of the address
// space, or to a page that has been reserved and rendered
// inaccessible via OS primitives. See tests/TestPoisonArea.cpp for
// extensive discussion of the requirements for this page. The code
// from here to 'class FreeList' needs to be kept in sync with that
// file.
#ifdef _WIN32
static void *
ReserveRegion(uintptr_t region, uintptr_t size)
{
return VirtualAlloc((void *)region, size, MEM_RESERVE, PAGE_NOACCESS);
}
static void
ReleaseRegion(void *region, uintptr_t size)
{
VirtualFree(region, size, MEM_RELEASE);
}
static bool
ProbeRegion(uintptr_t region, uintptr_t size)
{
SYSTEM_INFO sinfo;
GetSystemInfo(&sinfo);
if (region >= (uintptr_t)sinfo.lpMaximumApplicationAddress &&
region + size >= (uintptr_t)sinfo.lpMaximumApplicationAddress) {
return true;
} else {
return false;
}
}
static uintptr_t
GetDesiredRegionSize()
{
SYSTEM_INFO sinfo;
GetSystemInfo(&sinfo);
return sinfo.dwAllocationGranularity;
}
#define RESERVE_FAILED 0
#elif defined(__OS2__)
static void *
ReserveRegion(uintptr_t region, uintptr_t size)
{
// OS/2 doesn't support allocation at an arbitrary address,
// so return an address that is known to be invalid.
return (void*)0xFFFD0000;
}
static void
ReleaseRegion(void *region, uintptr_t size)
{
return;
}
static bool
ProbeRegion(uintptr_t region, uintptr_t size)
{
// There's no reliable way to probe an address in the system
// arena other than by touching it and seeing if a trap occurs.
return false;
}
static uintptr_t
GetDesiredRegionSize()
{
// Page size is fixed at 4k.
return 0x1000;
}
#define RESERVE_FAILED 0
#else // Unix
static void *
ReserveRegion(uintptr_t region, uintptr_t size)
{
return mmap((caddr_t)region, size, PROT_NONE, MAP_PRIVATE|MAP_ANON, -1, 0);
}
static void
ReleaseRegion(void *region, uintptr_t size)
{
munmap((caddr_t)region, size);
}
static bool
ProbeRegion(uintptr_t region, uintptr_t size)
{
if (madvise((caddr_t)region, size, MADV_NORMAL)) {
return true;
} else {
return false;
}
}
static uintptr_t
GetDesiredRegionSize()
{
return sysconf(_SC_PAGESIZE);
}
#define RESERVE_FAILED MAP_FAILED
#endif // system dependencies
PR_STATIC_ASSERT(sizeof(uintptr_t) == 4 || sizeof(uintptr_t) == 8);
PR_STATIC_ASSERT(sizeof(uintptr_t) == sizeof(void *));
static uintptr_t
ReservePoisonArea(uintptr_t rgnsize)
{
if (sizeof(uintptr_t) == 8) {
// Use the hardware-inaccessible region.
// We have to avoid 64-bit constants and shifts by 32 bits, since this
// code is compiled in 32-bit mode, although it is never executed there.
return
(((uintptr_t(0x7FFFFFFFu) << 31) << 1 | uintptr_t(0xF0DEAFFFu))
& ~(rgnsize-1));
} else {
// First see if we can allocate the preferred poison address from the OS.
uintptr_t candidate = (0xF0DEAFFF & ~(rgnsize-1));
void *result = ReserveRegion(candidate, rgnsize);
if (result == (void *)candidate) {
// success - inaccessible page allocated
return candidate;
}
// That didn't work, so see if the preferred address is within a range
// of permanently inacessible memory.
if (ProbeRegion(candidate, rgnsize)) {
// success - selected page cannot be usable memory
if (result != RESERVE_FAILED)
ReleaseRegion(result, rgnsize);
return candidate;
}
// The preferred address is already in use. Did the OS give us a
// consolation prize?
if (result != RESERVE_FAILED) {
return uintptr_t(result);
}
// It didn't, so try to allocate again, without any constraint on
// the address.
result = ReserveRegion(0, rgnsize);
if (result != RESERVE_FAILED) {
return uintptr_t(result);
}
NS_RUNTIMEABORT("no usable poison region identified");
return 0;
}
}
static uintptr_t ARENA_POISON;
static PRCallOnceType ARENA_POISON_guard;
static PRStatus
ARENA_POISON_init()
{
uintptr_t rgnsize = GetDesiredRegionSize();
uintptr_t rgnbase = ReservePoisonArea(rgnsize);
if (rgnsize == 0) // can't happen
return PR_FAILURE;
ARENA_POISON = rgnbase + rgnsize/2 - 1;
#ifdef MOZ_CRASHREPORTER
nsCOMPtr<nsICrashReporter> cr =
do_GetService("@mozilla.org/toolkit/crash-reporter;1");
bool enabled;
if (cr && NS_SUCCEEDED(cr->GetEnabled(&enabled)) && enabled) {
cr->AnnotateCrashReport(NS_LITERAL_CSTRING("FramePoisonBase"),
nsPrintfCString("%.16llx", uint64_t(rgnbase)));
cr->AnnotateCrashReport(NS_LITERAL_CSTRING("FramePoisonSize"),
nsPrintfCString("%lu", uint32_t(rgnsize)));
}
#endif
return PR_SUCCESS;
}
#ifndef DEBUG_TRACEMALLOC_PRESARENA
// All keys to this hash table fit in 32 bits (see below) so we do not
// bother actually hashing them.
namespace {
class FreeList : public PLDHashEntryHdr
{
public:
typedef uint32_t KeyType;
nsTArray<void *> mEntries;
size_t mEntrySize;
size_t mEntriesEverAllocated;
typedef const void* KeyTypePointer;
KeyTypePointer mKey;
FreeList(KeyTypePointer aKey)
: mEntrySize(0), mEntriesEverAllocated(0), mKey(aKey) {}
// Default copy constructor and destructor are ok.
bool KeyEquals(KeyTypePointer const aKey) const
{ return mKey == aKey; }
static KeyTypePointer KeyToPointer(KeyType aKey)
{ return NS_INT32_TO_PTR(aKey); }
static PLDHashNumber HashKey(KeyTypePointer aKey)
{ return NS_PTR_TO_INT32(aKey); }
enum { ALLOW_MEMMOVE = false };
};
}
struct nsPresArena::State {
nsTHashtable<FreeList> mFreeLists;
PLArenaPool mPool;
State()
{
mFreeLists.Init();
PL_INIT_ARENA_POOL(&mPool, "PresArena", ARENA_PAGE_SIZE);
PR_CallOnce(&ARENA_POISON_guard, ARENA_POISON_init);
}
~State()
{
PL_FinishArenaPool(&mPool);
}
void* Allocate(uint32_t aCode, size_t aSize)
{
NS_ABORT_IF_FALSE(aSize > 0, "PresArena cannot allocate zero bytes");
// We only hand out aligned sizes
aSize = PL_ARENA_ALIGN(&mPool, aSize);
// If there is no free-list entry for this type already, we have
// to create one now, to record its size.
FreeList* list = mFreeLists.PutEntry(aCode);
nsTArray<void*>::index_type len = list->mEntries.Length();
if (list->mEntrySize == 0) {
NS_ABORT_IF_FALSE(len == 0, "list with entries but no recorded size");
list->mEntrySize = aSize;
} else {
NS_ABORT_IF_FALSE(list->mEntrySize == aSize,
"different sizes for same object type code");
}
void* result;
if (len > 0) {
// LIFO behavior for best cache utilization
result = list->mEntries.ElementAt(len - 1);
list->mEntries.RemoveElementAt(len - 1);
#ifdef DEBUG
{
char* p = reinterpret_cast<char*>(result);
char* limit = p + list->mEntrySize;
for (; p < limit; p += sizeof(uintptr_t)) {
NS_ABORT_IF_FALSE(*reinterpret_cast<uintptr_t*>(p) == ARENA_POISON,
"PresArena: poison overwritten");
}
}
#endif
return result;
}
// Allocate a new chunk from the arena
list->mEntriesEverAllocated++;
PL_ARENA_ALLOCATE(result, &mPool, aSize);
return result;
}
void Free(uint32_t aCode, void* aPtr)
{
// Try to recycle this entry.
FreeList* list = mFreeLists.GetEntry(aCode);
NS_ABORT_IF_FALSE(list, "no free list for pres arena object");
NS_ABORT_IF_FALSE(list->mEntrySize > 0, "PresArena cannot free zero bytes");
char* p = reinterpret_cast<char*>(aPtr);
char* limit = p + list->mEntrySize;
for (; p < limit; p += sizeof(uintptr_t)) {
*reinterpret_cast<uintptr_t*>(p) = ARENA_POISON;
}
list->mEntries.AppendElement(aPtr);
}
static size_t SizeOfFreeListEntryExcludingThis(FreeList* aEntry,
nsMallocSizeOfFun aMallocSizeOf,
void *)
{
return aEntry->mEntries.SizeOfExcludingThis(aMallocSizeOf);
}
size_t SizeOfIncludingThisFromMalloc(nsMallocSizeOfFun aMallocSizeOf) const
{
size_t n = aMallocSizeOf(this);
// The first PLArena is within the PLArenaPool, i.e. within |this|, so we
// don't measure it. Subsequent PLArenas are by themselves and must be
// measured.
const PLArena *arena = mPool.first.next;
while (arena) {
n += aMallocSizeOf(arena);
arena = arena->next;
}
n += mFreeLists.SizeOfExcludingThis(SizeOfFreeListEntryExcludingThis,
aMallocSizeOf);
return n;
}
struct EnumerateData {
nsArenaMemoryStats* stats;
size_t total;
};
static PLDHashOperator FreeListEnumerator(FreeList* aEntry, void* aData)
{
EnumerateData* data = static_cast<EnumerateData*>(aData);
// Note that we're not measuring the size of the entries on the free
// list here. The free list knows how many objects we've allocated
// ever (which includes any objects that may be on the FreeList's
// |mEntries| at this point) and we're using that to determine the
// total size of objects allocated with a given ID.
size_t totalSize = aEntry->mEntrySize * aEntry->mEntriesEverAllocated;
size_t* p;
switch (NS_PTR_TO_INT32(aEntry->mKey)) {
#define FRAME_ID(classname) \
case nsQueryFrame::classname##_id: \
p = &data->stats->FRAME_ID_STAT_FIELD(classname); \
break;
#include "nsFrameIdList.h"
#undef FRAME_ID
case nsLineBox_id:
p = &data->stats->mLineBoxes;
break;
case nsRuleNode_id:
p = &data->stats->mRuleNodes;
break;
case nsStyleContext_id:
p = &data->stats->mStyleContexts;
break;
default:
return PL_DHASH_NEXT;
}
*p += totalSize;
data->total += totalSize;
return PL_DHASH_NEXT;
}
void SizeOfIncludingThis(nsMallocSizeOfFun aMallocSizeOf,
nsArenaMemoryStats* aArenaStats)
{
// We do a complicated dance here because we want to measure the
// space taken up by the different kinds of objects in the arena,
// but we don't have pointers to those objects. And even if we did,
// we wouldn't be able to use aMallocSizeOf on them, since they were
// allocated out of malloc'd chunks of memory. So we compute the
// size of the arena as known by malloc and we add up the sizes of
// all the objects that we care about. Subtracting these two
// quantities gives us a catch-all "other" number, which includes
// slop in the arena itself as well as the size of objects that
// we've not measured explicitly.
size_t mallocSize = SizeOfIncludingThisFromMalloc(aMallocSizeOf);
EnumerateData data = { aArenaStats, 0 };
mFreeLists.EnumerateEntries(FreeListEnumerator, &data);
aArenaStats->mOther = mallocSize - data.total;
}
};
void
nsPresArena::SizeOfExcludingThis(nsMallocSizeOfFun aMallocSizeOf,
nsArenaMemoryStats* aArenaStats)
{
mState->SizeOfIncludingThis(aMallocSizeOf, aArenaStats);
}
#else
// Stub implementation that forwards everything to malloc and does not
// poison allocations (it still initializes the poison value though,
// for external use through GetPoisonValue()).
struct nsPresArena::State
{
State()
{
PR_CallOnce(&ARENA_POISON_guard, ARENA_POISON_init);
}
void* Allocate(uint32_t /* unused */, size_t aSize)
{
return PR_Malloc(aSize);
}
void Free(uint32_t /* unused */, void* aPtr)
{
PR_Free(aPtr);
}
};
void
nsPresArena::SizeOfExcludingThis(nsMallocSizeOfFun, nsArenaMemoryStats*)
{}
#endif // DEBUG_TRACEMALLOC_PRESARENA
// Public interface
nsPresArena::nsPresArena()
: mState(new nsPresArena::State())
{}
nsPresArena::~nsPresArena()
{
delete mState;
}
void*
nsPresArena::AllocateBySize(size_t aSize)
{
return mState->Allocate(uint32_t(aSize) | uint32_t(NON_OBJECT_MARKER),
aSize);
}
void
nsPresArena::FreeBySize(size_t aSize, void* aPtr)
{
mState->Free(uint32_t(aSize) | uint32_t(NON_OBJECT_MARKER), aPtr);
}
void*
nsPresArena::AllocateByFrameID(nsQueryFrame::FrameIID aID, size_t aSize)
{
return mState->Allocate(aID, aSize);
}
void
nsPresArena::FreeByFrameID(nsQueryFrame::FrameIID aID, void* aPtr)
{
mState->Free(aID, aPtr);
}
void*
nsPresArena::AllocateByObjectID(ObjectID aID, size_t aSize)
{
return mState->Allocate(aID, aSize);
}
void
nsPresArena::FreeByObjectID(ObjectID aID, void* aPtr)
{
mState->Free(aID, aPtr);
}
/* static */ uintptr_t
nsPresArena::GetPoisonValue()
{
return ARENA_POISON;
}