gecko-dev/xpcom/base/MemoryMapping.h

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/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* vim: set ts=8 sts=2 et sw=2 tw=80: */
/* 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/. */
#ifndef mozilla_MemoryMapping_h
#define mozilla_MemoryMapping_h
#include "mozilla/EnumSet.h"
#include "nsString.h"
#include "nsTArray.h"
/**
* MemoryMapping is a helper class which describes an entry in the Linux
* /proc/<pid>/smaps file. See procfs(5) for details on the entry format.
*
* The GetMemoryMappings() function returns an array of such entries, sorted by
* start address, one for each entry in the current process's address space.
*/
namespace mozilla {
enum class VMFlag : uint8_t
{
Readable, // rd - readable
Writable, // wr - writable
Executable, // ex - executable
Shared, // sh - shared
MayRead, // mr - may read
MayWrite, // mw - may write
MayExecute, // me - may execute
MayShare, // ms - may share
GrowsDown, // gd - stack segment grows down
PurePFN, // pf - pure PFN range
DisabledWrite, // dw - disabled write to the mapped file
Locked, // lo - pages are locked in memory
IO, // io - memory mapped I/O area
Sequential, // sr - sequential read advise provided
Random, // rr - random read advise provided
NoFork, // dc - do not copy area on fork
NoExpand, // de - do not expand area on remapping
Accountable, // ac - area is accountable
NotReserved, // nr - swap space is not reserved for the area
HugeTLB, // ht - area uses huge tlb pages
NonLinear, // nl - non-linear mapping
ArchSpecific, // ar - architecture specific flag
NoCore, // dd - do not include area into core dump
SoftDirty, // sd - soft-dirty flag
MixedMap, // mm - mixed map area
HugePage, // hg - huge page advise flag
NoHugePage, // nh - no-huge page advise flag
Mergeable, // mg - mergeable advise flag
};
using VMFlagSet = EnumSet<VMFlag, uint32_t>;
class MemoryMapping final
{
public:
enum class Perm : uint8_t
{
Read,
Write,
Execute,
Shared,
Private,
};
using PermSet = EnumSet<Perm>;
MemoryMapping(uintptr_t aStart, uintptr_t aEnd,
PermSet aPerms, size_t aOffset,
const char* aName)
: mStart(aStart)
, mEnd(aEnd)
, mOffset(aOffset)
, mName(aName)
, mPerms(aPerms)
{}
const nsCString& Name() const { return mName; }
uintptr_t Start() const { return mStart; }
uintptr_t End() const { return mEnd; }
bool Includes(const void* aPtr) const
{
auto ptr = uintptr_t(aPtr);
return ptr >= mStart && ptr < mEnd;
}
PermSet Perms() const { return mPerms; }
VMFlagSet VMFlags() const { return mFlags; }
// For file mappings, the offset in the mapped file which corresponds to the
// start of the mapped region.
size_t Offset() const { return mOffset; }
size_t AnonHugePages() const { return mAnonHugePages; }
size_t Anonymous() const { return mAnonymous; }
size_t KernelPageSize() const { return mKernelPageSize; }
size_t LazyFree() const { return mLazyFree; }
size_t Locked() const { return mLocked; }
size_t MMUPageSize() const { return mMMUPageSize; }
size_t Private_Clean() const { return mPrivate_Clean; }
size_t Private_Dirty() const { return mPrivate_Dirty; }
size_t Private_Hugetlb() const { return mPrivate_Hugetlb; }
size_t Pss() const { return mPss; }
size_t Referenced() const { return mReferenced; }
size_t Rss() const { return mRss; }
size_t Shared_Clean() const { return mShared_Clean; }
size_t Shared_Dirty() const { return mShared_Dirty; }
size_t Shared_Hugetlb() const { return mShared_Hugetlb; }
size_t ShmemPmdMapped() const { return mShmemPmdMapped; }
size_t Size() const { return mSize; }
size_t Swap() const { return mSwap; }
size_t SwapPss() const { return mSwapPss; }
// Dumps a string representation of the entry, similar to its format in the
// smaps file, to the given string. Mainly useful for debugging.
void Dump(nsACString& aOut) const;
// These comparison operators are used for binary searching sorted arrays of
// MemoryMapping entries to find the one which contains a given pointer.
bool operator==(const void* aPtr) const { return Includes(aPtr); }
bool operator<(const void* aPtr) const { return mStart < uintptr_t(aPtr); }
private:
friend nsresult GetMemoryMappings(nsTArray<MemoryMapping>& aMappings);
uintptr_t mStart = 0;
uintptr_t mEnd = 0;
size_t mOffset = 0;
nsCString mName;
// Members for size fields in the smaps file. Please keep these in sync with
// the sFields array.
size_t mAnonHugePages = 0;
size_t mAnonymous = 0;
size_t mKernelPageSize = 0;
size_t mLazyFree = 0;
size_t mLocked = 0;
size_t mMMUPageSize = 0;
size_t mPrivate_Clean = 0;
size_t mPrivate_Dirty = 0;
size_t mPrivate_Hugetlb = 0;
size_t mPss = 0;
size_t mReferenced = 0;
size_t mRss = 0;
size_t mShared_Clean = 0;
size_t mShared_Dirty = 0;
size_t mShared_Hugetlb = 0;
size_t mShmemPmdMapped = 0;
size_t mSize = 0;
size_t mSwap = 0;
size_t mSwapPss = 0;
PermSet mPerms{};
VMFlagSet mFlags{};
// Contains the name and offset of one of the above size_t fields, for use in
// parsing in dumping. The below helpers contain a list of the fields, and map
// Field entries to the appropriate member in a class instance.
struct Field
{
const char* mName;
size_t mOffset;
};
static const Field sFields[20];
size_t& ValueForField(const Field& aField)
{
char* fieldPtr = reinterpret_cast<char*>(this) + aField.mOffset;
return reinterpret_cast<size_t*>(fieldPtr)[0];
}
size_t ValueForField(const Field& aField) const
{
return const_cast<MemoryMapping*>(this)->ValueForField(aField);
}
};
nsresult GetMemoryMappings(nsTArray<MemoryMapping>& aMappings);
} // namespace mozilla
#endif // mozilla_MemoryMapping_h