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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 https://mozilla.org/MPL/2.0/. */
#ifndef mozilla_NativeNt_h
#define mozilla_NativeNt_h
#include <stdint.h>
#include <windows.h>
#include <winnt.h>
#include <winternl.h>
#include <algorithm>
#include <utility>
#include "mozilla/ArrayUtils.h"
#include "mozilla/Attributes.h"
#include "mozilla/DebugOnly.h"
#include "mozilla/Maybe.h"
#include "mozilla/Range.h"
#include "mozilla/Span.h"
#include "mozilla/WinHeaderOnlyUtils.h"
#include "mozilla/interceptor/MMPolicies.h"
#include "mozilla/interceptor/TargetFunction.h"
#if defined(MOZILLA_INTERNAL_API)
# include "nsString.h"
#endif // defined(MOZILLA_INTERNAL_API)
// The declarations within this #if block are intended to be used for initial
// process initialization ONLY. You probably don't want to be using these in
// normal Gecko code!
#if !defined(MOZILLA_INTERNAL_API)
extern "C" {
# if !defined(STATUS_ACCESS_DENIED)
# define STATUS_ACCESS_DENIED ((NTSTATUS)0xC0000022L)
# endif // !defined(STATUS_ACCESS_DENIED)
# if !defined(STATUS_DLL_NOT_FOUND)
# define STATUS_DLL_NOT_FOUND ((NTSTATUS)0xC0000135L)
# endif // !defined(STATUS_DLL_NOT_FOUND)
# if !defined(STATUS_UNSUCCESSFUL)
# define STATUS_UNSUCCESSFUL ((NTSTATUS)0xC0000001L)
# endif // !defined(STATUS_UNSUCCESSFUL)
# if !defined(STATUS_INFO_LENGTH_MISMATCH)
# define STATUS_INFO_LENGTH_MISMATCH ((NTSTATUS)0xC0000004L)
# endif
enum SECTION_INHERIT { ViewShare = 1, ViewUnmap = 2 };
NTSTATUS NTAPI NtMapViewOfSection(
HANDLE aSection, HANDLE aProcess, PVOID* aBaseAddress, ULONG_PTR aZeroBits,
SIZE_T aCommitSize, PLARGE_INTEGER aSectionOffset, PSIZE_T aViewSize,
SECTION_INHERIT aInheritDisposition, ULONG aAllocationType,
ULONG aProtectionFlags);
NTSTATUS NTAPI NtUnmapViewOfSection(HANDLE aProcess, PVOID aBaseAddress);
enum MEMORY_INFORMATION_CLASS {
MemoryBasicInformation = 0,
MemorySectionName = 2
};
// NB: When allocating, space for the buffer must also be included
typedef struct _MEMORY_SECTION_NAME {
UNICODE_STRING mSectionFileName;
} MEMORY_SECTION_NAME, *PMEMORY_SECTION_NAME;
NTSTATUS NTAPI NtQueryVirtualMemory(HANDLE aProcess, PVOID aBaseAddress,
MEMORY_INFORMATION_CLASS aMemInfoClass,
PVOID aMemInfo, SIZE_T aMemInfoLen,
PSIZE_T aReturnLen);
LONG NTAPI RtlCompareUnicodeString(PCUNICODE_STRING aStr1,
PCUNICODE_STRING aStr2,
BOOLEAN aCaseInsensitive);
BOOLEAN NTAPI RtlEqualUnicodeString(PCUNICODE_STRING aStr1,
PCUNICODE_STRING aStr2,
BOOLEAN aCaseInsensitive);
NTSTATUS NTAPI RtlGetVersion(PRTL_OSVERSIONINFOW aOutVersionInformation);
VOID NTAPI RtlAcquireSRWLockExclusive(PSRWLOCK aLock);
VOID NTAPI RtlAcquireSRWLockShared(PSRWLOCK aLock);
VOID NTAPI RtlReleaseSRWLockExclusive(PSRWLOCK aLock);
VOID NTAPI RtlReleaseSRWLockShared(PSRWLOCK aLock);
ULONG NTAPI RtlNtStatusToDosError(NTSTATUS aStatus);
VOID NTAPI RtlSetLastWin32Error(DWORD aError);
DWORD NTAPI RtlGetLastWin32Error();
VOID NTAPI RtlRunOnceInitialize(PRTL_RUN_ONCE aRunOnce);
NTSTATUS NTAPI NtReadVirtualMemory(HANDLE aProcessHandle, PVOID aBaseAddress,
PVOID aBuffer, SIZE_T aNumBytesToRead,
PSIZE_T aNumBytesRead);
NTSTATUS NTAPI LdrLoadDll(PWCHAR aDllPath, PULONG aFlags,
PUNICODE_STRING aDllName, PHANDLE aOutHandle);
typedef ULONG(NTAPI* PRTL_RUN_ONCE_INIT_FN)(PRTL_RUN_ONCE, PVOID, PVOID*);
NTSTATUS NTAPI RtlRunOnceExecuteOnce(PRTL_RUN_ONCE aRunOnce,
PRTL_RUN_ONCE_INIT_FN aInitFn,
PVOID aContext, PVOID* aParameter);
} // extern "C"
#endif // !defined(MOZILLA_INTERNAL_API)
extern "C" {
PVOID NTAPI RtlAllocateHeap(PVOID aHeapHandle, ULONG aFlags, SIZE_T aSize);
PVOID NTAPI RtlReAllocateHeap(PVOID aHeapHandle, ULONG aFlags, LPVOID aMem,
SIZE_T aNewSize);
BOOLEAN NTAPI RtlFreeHeap(PVOID aHeapHandle, ULONG aFlags, PVOID aHeapBase);
BOOLEAN NTAPI RtlQueryPerformanceCounter(LARGE_INTEGER* aPerfCount);
#define RTL_DUPLICATE_UNICODE_STRING_NULL_TERMINATE 1
#define RTL_DUPLICATE_UNICODE_STRING_ALLOCATE_NULL_STRING 2
NTSTATUS NTAPI RtlDuplicateUnicodeString(ULONG aFlags, PCUNICODE_STRING aSrc,
PUNICODE_STRING aDest);
VOID NTAPI RtlFreeUnicodeString(PUNICODE_STRING aUnicodeString);
} // extern "C"
namespace mozilla {
namespace nt {
/**
* This class encapsulates a UNICODE_STRING that owns its own buffer. The
* buffer is always NULL terminated, thus allowing us to cast to a wide C-string
* without requiring any mutation.
*
* We only allow creation of this owned buffer from outside XUL.
*/
class AllocatedUnicodeString final {
public:
AllocatedUnicodeString() : mUnicodeString() {}
#if defined(MOZILLA_INTERNAL_API)
AllocatedUnicodeString(const AllocatedUnicodeString& aOther) = delete;
AllocatedUnicodeString& operator=(const AllocatedUnicodeString& aOther) =
delete;
#else
explicit AllocatedUnicodeString(PCUNICODE_STRING aSrc) {
if (!aSrc) {
mUnicodeString = {};
return;
}
Duplicate(aSrc);
}
explicit AllocatedUnicodeString(const char* aSrc) {
if (!aSrc) {
mUnicodeString = {};
return;
}
Duplicate(aSrc);
}
AllocatedUnicodeString(const AllocatedUnicodeString& aOther) {
Duplicate(&aOther.mUnicodeString);
}
AllocatedUnicodeString& operator=(const AllocatedUnicodeString& aOther) {
Clear();
Duplicate(&aOther.mUnicodeString);
return *this;
}
AllocatedUnicodeString& operator=(PCUNICODE_STRING aSrc) {
Clear();
Duplicate(aSrc);
return *this;
}
#endif // defined(MOZILLA_INTERNAL_API)
AllocatedUnicodeString(AllocatedUnicodeString&& aOther)
: mUnicodeString(aOther.mUnicodeString) {
aOther.mUnicodeString = {};
}
AllocatedUnicodeString& operator=(AllocatedUnicodeString&& aOther) {
Clear();
mUnicodeString = aOther.mUnicodeString;
aOther.mUnicodeString = {};
return *this;
}
~AllocatedUnicodeString() { Clear(); }
bool IsEmpty() const {
return !mUnicodeString.Buffer || !mUnicodeString.Length;
}
operator PCUNICODE_STRING() const { return &mUnicodeString; }
operator const WCHAR*() const { return mUnicodeString.Buffer; }
USHORT CharLen() const { return mUnicodeString.Length / sizeof(WCHAR); }
#if defined(MOZILLA_INTERNAL_API)
nsDependentString AsString() const {
if (!mUnicodeString.Buffer) {
return nsDependentString();
}
// We can use nsDependentString here as we guaranteed null termination
// when we allocated the string.
return nsDependentString(mUnicodeString.Buffer, CharLen());
}
#endif // defined(MOZILLA_INTERNAL_API)
private:
#if !defined(MOZILLA_INTERNAL_API)
void Duplicate(PCUNICODE_STRING aSrc) {
MOZ_ASSERT(aSrc);
// We duplicate with null termination so that this string may be used
// as a wide C-string without any further manipulation.
NTSTATUS ntStatus = ::RtlDuplicateUnicodeString(
RTL_DUPLICATE_UNICODE_STRING_NULL_TERMINATE, aSrc, &mUnicodeString);
MOZ_ASSERT(NT_SUCCESS(ntStatus));
if (!NT_SUCCESS(ntStatus)) {
// Make sure that mUnicodeString does not contain bogus data
// (since not all callers zero it out before invoking)
mUnicodeString = {};
}
}
void Duplicate(const char* aSrc) {
MOZ_ASSERT(aSrc);
ANSI_STRING ansiStr;
RtlInitAnsiString(&ansiStr, aSrc);
NTSTATUS ntStatus =
::RtlAnsiStringToUnicodeString(&mUnicodeString, &ansiStr, TRUE);
MOZ_ASSERT(NT_SUCCESS(ntStatus));
if (!NT_SUCCESS(ntStatus)) {
mUnicodeString = {};
}
}
#endif // !defined(MOZILLA_INTERNAL_API)
void Clear() {
if (!mUnicodeString.Buffer) {
return;
}
::RtlFreeUnicodeString(&mUnicodeString);
mUnicodeString = {};
}
UNICODE_STRING mUnicodeString;
};
#if !defined(MOZILLA_INTERNAL_API)
struct MemorySectionNameBuf : public _MEMORY_SECTION_NAME {
MemorySectionNameBuf() {
mSectionFileName.Length = 0;
mSectionFileName.MaximumLength = sizeof(mBuf);
mSectionFileName.Buffer = mBuf;
}
MemorySectionNameBuf(const MemorySectionNameBuf& aOther) { *this = aOther; }
MemorySectionNameBuf(MemorySectionNameBuf&& aOther) {
*this = std::move(aOther);
}
// We cannot use default copy here because mSectionFileName.Buffer needs to
// be updated to point to |this->mBuf|, not |aOther.mBuf|.
MemorySectionNameBuf& operator=(const MemorySectionNameBuf& aOther) {
mSectionFileName.Length = aOther.mSectionFileName.Length;
mSectionFileName.MaximumLength = sizeof(mBuf);
MOZ_ASSERT(mSectionFileName.Length <= mSectionFileName.MaximumLength);
mSectionFileName.Buffer = mBuf;
memcpy(mBuf, aOther.mBuf, aOther.mSectionFileName.Length);
return *this;
}
MemorySectionNameBuf& operator=(MemorySectionNameBuf&& aOther) {
mSectionFileName.Length = aOther.mSectionFileName.Length;
aOther.mSectionFileName.Length = 0;
mSectionFileName.MaximumLength = sizeof(mBuf);
MOZ_ASSERT(mSectionFileName.Length <= mSectionFileName.MaximumLength);
aOther.mSectionFileName.MaximumLength = sizeof(aOther.mBuf);
mSectionFileName.Buffer = mBuf;
memmove(mBuf, aOther.mBuf, mSectionFileName.Length);
return *this;
}
// Native NT paths, so we can't assume MAX_PATH. Use a larger buffer.
WCHAR mBuf[2 * MAX_PATH];
bool IsEmpty() const {
return !mSectionFileName.Buffer || !mSectionFileName.Length;
}
operator PCUNICODE_STRING() const { return &mSectionFileName; }
};
class MemorySectionNameOnHeap {
UniquePtr<uint8_t[]> mBuffer;
MemorySectionNameOnHeap() = default;
explicit MemorySectionNameOnHeap(size_t aBufferLen)
: mBuffer(MakeUnique<uint8_t[]>(aBufferLen)) {}
public:
static MemorySectionNameOnHeap GetBackingFilePath(HANDLE aProcess,
void* aSectionAddr) {
SIZE_T bufferLen = MAX_PATH * 2;
do {
MemorySectionNameOnHeap sectionName(bufferLen);
SIZE_T requiredBytes;
NTSTATUS ntStatus = ::NtQueryVirtualMemory(
aProcess, aSectionAddr, MemorySectionName, sectionName.mBuffer.get(),
bufferLen, &requiredBytes);
if (NT_SUCCESS(ntStatus)) {
return sectionName;
}
if (ntStatus != STATUS_INFO_LENGTH_MISMATCH ||
bufferLen >= requiredBytes) {
break;
}
bufferLen = requiredBytes;
} while (1);
return MemorySectionNameOnHeap();
}
// Allow move & Disallow copy
MemorySectionNameOnHeap(MemorySectionNameOnHeap&&) = default;
MemorySectionNameOnHeap& operator=(MemorySectionNameOnHeap&&) = default;
MemorySectionNameOnHeap(const MemorySectionNameOnHeap&) = delete;
MemorySectionNameOnHeap& operator=(const MemorySectionNameOnHeap&) = delete;
PCUNICODE_STRING AsUnicodeString() const {
return reinterpret_cast<PCUNICODE_STRING>(mBuffer.get());
}
};
inline bool FindCharInUnicodeString(const UNICODE_STRING& aStr, WCHAR aChar,
uint16_t& aPos, uint16_t aStartIndex = 0) {
const uint16_t aMaxIndex = aStr.Length / sizeof(WCHAR);
for (uint16_t curIndex = aStartIndex; curIndex < aMaxIndex; ++curIndex) {
if (aStr.Buffer[curIndex] == aChar) {
aPos = curIndex;
return true;
}
}
return false;
}
inline bool IsHexDigit(WCHAR aChar) {
return (aChar >= L'0' && aChar <= L'9') || (aChar >= L'A' && aChar <= L'F') ||
(aChar >= L'a' && aChar <= L'f');
}
inline bool MatchUnicodeString(const UNICODE_STRING& aStr,
bool (*aPredicate)(WCHAR)) {
WCHAR* cur = aStr.Buffer;
WCHAR* end = &aStr.Buffer[aStr.Length / sizeof(WCHAR)];
while (cur < end) {
if (!aPredicate(*cur)) {
return false;
}
++cur;
}
return true;
}
inline bool Contains12DigitHexString(const UNICODE_STRING& aLeafName) {
// Quick check: If the string is too short, don't bother
// (We need at least 12 hex digits, one char for '.', and 3 for extension)
const USHORT kMinLen = (12 + 1 + 3) * sizeof(wchar_t);
if (aLeafName.Length < kMinLen) {
return false;
}
uint16_t start, end;
if (!FindCharInUnicodeString(aLeafName, L'.', start)) {
return false;
}
++start;
if (!FindCharInUnicodeString(aLeafName, L'.', end, start)) {
return false;
}
if (end - start != 12) {
return false;
}
UNICODE_STRING test;
test.Buffer = &aLeafName.Buffer[start];
test.Length = (end - start) * sizeof(WCHAR);
test.MaximumLength = test.Length;
return MatchUnicodeString(test, &IsHexDigit);
}
inline bool IsFileNameAtLeast16HexDigits(const UNICODE_STRING& aLeafName) {
// Quick check: If the string is too short, don't bother
// (We need 16 hex digits, one char for '.', and 3 for extension)
const USHORT kMinLen = (16 + 1 + 3) * sizeof(wchar_t);
if (aLeafName.Length < kMinLen) {
return false;
}
uint16_t dotIndex;
if (!FindCharInUnicodeString(aLeafName, L'.', dotIndex)) {
return false;
}
if (dotIndex < 16) {
return false;
}
UNICODE_STRING test;
test.Buffer = aLeafName.Buffer;
test.Length = dotIndex * sizeof(WCHAR);
test.MaximumLength = aLeafName.MaximumLength;
return MatchUnicodeString(test, &IsHexDigit);
}
inline void GetLeafName(PUNICODE_STRING aDestString,
PCUNICODE_STRING aSrcString) {
WCHAR* buf = aSrcString->Buffer;
WCHAR* end = &aSrcString->Buffer[(aSrcString->Length / sizeof(WCHAR)) - 1];
WCHAR* cur = end;
while (cur >= buf) {
if (*cur == L'\\') {
break;
}
--cur;
}
// At this point, either cur points to the final backslash, or it points to
// buf - 1. Either way, we're interested in cur + 1 as the desired buffer.
aDestString->Buffer = cur + 1;
aDestString->Length = (end - aDestString->Buffer + 1) * sizeof(WCHAR);
aDestString->MaximumLength = aDestString->Length;
}
#endif // !defined(MOZILLA_INTERNAL_API)
#if defined(MOZILLA_INTERNAL_API)
inline const nsDependentSubstring GetLeafName(const nsAString& aString) {
auto it = aString.EndReading();
size_t pos = aString.Length();
while (it > aString.BeginReading()) {
if (*(it - 1) == u'\\') {
return Substring(aString, pos);
}
MOZ_ASSERT(pos > 0);
--pos;
--it;
}
return Substring(aString, 0); // No backslash in the string
}
#endif // defined(MOZILLA_INTERNAL_API)
inline char EnsureLowerCaseASCII(char aChar) {
if (aChar >= 'A' && aChar <= 'Z') {
aChar -= 'A' - 'a';
}
return aChar;
}
inline int StricmpASCII(const char* aLeft, const char* aRight) {
char curLeft, curRight;
do {
curLeft = EnsureLowerCaseASCII(*(aLeft++));
curRight = EnsureLowerCaseASCII(*(aRight++));
} while (curLeft && curLeft == curRight);
return curLeft - curRight;
}
inline int StrcmpASCII(const char* aLeft, const char* aRight) {
char curLeft, curRight;
do {
curLeft = *(aLeft++);
curRight = *(aRight++);
} while (curLeft && curLeft == curRight);
return curLeft - curRight;
}
inline size_t StrlenASCII(const char* aStr) {
size_t len = 0;
while (*(aStr++)) {
++len;
}
return len;
}
struct CodeViewRecord70 {
uint32_t signature;
GUID pdbSignature;
uint32_t pdbAge;
// A UTF-8 string, according to
// https://github.com/Microsoft/microsoft-pdb/blob/082c5290e5aff028ae84e43affa8be717aa7af73/PDB/dbi/locator.cpp#L785
char pdbFileName[1];
};
class MOZ_RAII PEHeaders final {
/**
* This structure is documented on MSDN as VS_VERSIONINFO, but is not present
* in SDK headers because it cannot be specified as a C struct. The following
* structure contains the fixed-length fields at the beginning of
* VS_VERSIONINFO.
*/
struct VS_VERSIONINFO_HEADER {
WORD wLength;
WORD wValueLength;
WORD wType;
WCHAR szKey[16]; // ArrayLength(L"VS_VERSION_INFO")
// Additional data goes here, aligned on a 4-byte boundary
};
public:
// The lowest two bits of an HMODULE are used as flags. Stripping those bits
// from the HMODULE yields the base address of the binary's memory mapping.
// (See LoadLibraryEx docs on MSDN)
template <typename T>
static T HModuleToBaseAddr(HMODULE aModule) {
return reinterpret_cast<T>(reinterpret_cast<uintptr_t>(aModule) &
~uintptr_t(3));
}
explicit PEHeaders(void* aBaseAddress)
: PEHeaders(reinterpret_cast<PIMAGE_DOS_HEADER>(aBaseAddress)) {}
explicit PEHeaders(HMODULE aModule)
: PEHeaders(HModuleToBaseAddr<PIMAGE_DOS_HEADER>(aModule)) {}
explicit PEHeaders(PIMAGE_DOS_HEADER aMzHeader)
: mMzHeader(aMzHeader),
mPeHeader(nullptr),
mImageLimit(nullptr),
mIsImportDirectoryTampered(false) {
if (!mMzHeader || mMzHeader->e_magic != IMAGE_DOS_SIGNATURE) {
return;
}
mPeHeader = RVAToPtrUnchecked<PIMAGE_NT_HEADERS>(mMzHeader->e_lfanew);
if (!mPeHeader || mPeHeader->Signature != IMAGE_NT_SIGNATURE) {
return;
}
if (mPeHeader->OptionalHeader.Magic != IMAGE_NT_OPTIONAL_HDR_MAGIC) {
return;
}
DWORD imageSize = mPeHeader->OptionalHeader.SizeOfImage;
// This is a coarse-grained check to ensure that the image size is
// reasonable. It we aren't big enough to contain headers, we have a
// problem!
if (imageSize < sizeof(IMAGE_DOS_HEADER) + sizeof(IMAGE_NT_HEADERS)) {
return;
}
mImageLimit = RVAToPtrUnchecked<void*>(imageSize - 1UL);
PIMAGE_DATA_DIRECTORY importDirEntry =
GetImageDirectoryEntryPtr(IMAGE_DIRECTORY_ENTRY_IMPORT);
if (!importDirEntry) {
return;
}
mIsImportDirectoryTampered = (importDirEntry->VirtualAddress >= imageSize);
}
explicit operator bool() const { return !!mImageLimit; }
/**
* This overload computes absolute virtual addresses relative to the base
* address of the binary.
*/
template <typename T, typename R>
T RVAToPtr(R aRva) const {
return RVAToPtr<T>(mMzHeader, aRva);
}
/**
* This overload computes a result by adding aRva to aBase, but also ensures
* that the resulting pointer falls within the bounds of this binary's memory
* mapping.
*/
template <typename T, typename R>
T RVAToPtr(void* aBase, R aRva) const {
if (!mImageLimit) {
return nullptr;
}
char* absAddress = reinterpret_cast<char*>(aBase) + aRva;
if (absAddress < reinterpret_cast<char*>(mMzHeader) ||
absAddress > reinterpret_cast<char*>(mImageLimit)) {
return nullptr;
}
return reinterpret_cast<T>(absAddress);
}
Maybe<Range<const uint8_t>> GetBounds() const {
if (!mImageLimit) {
return Nothing();
}
auto base = reinterpret_cast<const uint8_t*>(mMzHeader);
DWORD imageSize = mPeHeader->OptionalHeader.SizeOfImage;
return Some(Range(base, imageSize));
}
DWORD GetFileCharacteristics() const {
return mPeHeader ? mPeHeader->FileHeader.Characteristics : 0;
}
bool IsWithinImage(const void* aAddress) const {
uintptr_t addr = reinterpret_cast<uintptr_t>(aAddress);
uintptr_t imageBase = reinterpret_cast<uintptr_t>(mMzHeader);
uintptr_t imageLimit = reinterpret_cast<uintptr_t>(mImageLimit);
return addr >= imageBase && addr <= imageLimit;
}
PIMAGE_IMPORT_DESCRIPTOR GetImportDirectory() const {
// If the import directory is already tampered, we skip bounds check
// because it could be located outside the mapped image.
return mIsImportDirectoryTampered
? GetImageDirectoryEntry<PIMAGE_IMPORT_DESCRIPTOR,
BoundsCheckPolicy::Skip>(
IMAGE_DIRECTORY_ENTRY_IMPORT)
: GetImageDirectoryEntry<PIMAGE_IMPORT_DESCRIPTOR>(
IMAGE_DIRECTORY_ENTRY_IMPORT);
}
PIMAGE_RESOURCE_DIRECTORY GetResourceTable() const {
return GetImageDirectoryEntry<PIMAGE_RESOURCE_DIRECTORY>(
IMAGE_DIRECTORY_ENTRY_RESOURCE);
}
PIMAGE_DATA_DIRECTORY GetImageDirectoryEntryPtr(
const uint32_t aDirectoryIndex, uint32_t* aOutRva = nullptr) const {
if (aOutRva) {
*aOutRva = 0;
}
IMAGE_OPTIONAL_HEADER& optionalHeader = mPeHeader->OptionalHeader;
const uint32_t maxIndex = std::min(optionalHeader.NumberOfRvaAndSizes,
DWORD(IMAGE_NUMBEROF_DIRECTORY_ENTRIES));
if (aDirectoryIndex >= maxIndex) {
return nullptr;
}
PIMAGE_DATA_DIRECTORY dirEntry =
&optionalHeader.DataDirectory[aDirectoryIndex];
if (aOutRva) {
*aOutRva = reinterpret_cast<char*>(dirEntry) -
reinterpret_cast<char*>(mMzHeader);
MOZ_ASSERT(*aOutRva);
}
return dirEntry;
}
bool GetVersionInfo(uint64_t& aOutVersion) const {
// RT_VERSION == 16
// Version resources require an id of 1
auto root = FindResourceLeaf<VS_VERSIONINFO_HEADER*>(16, 1);
if (!root) {
return false;
}
VS_FIXEDFILEINFO* fixedInfo = GetFixedFileInfo(root);
if (!fixedInfo) {
return false;
}
aOutVersion = ((static_cast<uint64_t>(fixedInfo->dwFileVersionMS) << 32) |
static_cast<uint64_t>(fixedInfo->dwFileVersionLS));
return true;
}
bool GetTimeStamp(DWORD& aResult) const {
if (!(*this)) {
return false;
}
aResult = mPeHeader->FileHeader.TimeDateStamp;
return true;
}
bool GetImageSize(DWORD& aResult) const {
if (!(*this)) {
return false;
}
aResult = mPeHeader->OptionalHeader.SizeOfImage;
return true;
}
bool GetCheckSum(DWORD& aResult) const {
if (!(*this)) {
return false;
}
aResult = mPeHeader->OptionalHeader.CheckSum;
return true;
}
PIMAGE_IMPORT_DESCRIPTOR
GetImportDescriptor(const char* aModuleNameASCII) const {
for (PIMAGE_IMPORT_DESCRIPTOR curImpDesc = GetImportDirectory();
IsValid(curImpDesc); ++curImpDesc) {
auto curName = mIsImportDirectoryTampered
? RVAToPtrUnchecked<const char*>(curImpDesc->Name)
: RVAToPtr<const char*>(curImpDesc->Name);
if (!curName) {
return nullptr;
}
if (StricmpASCII(aModuleNameASCII, curName)) {
continue;
}
// curImpDesc now points to the IAT for the module we're interested in
return curImpDesc;
}
return nullptr;
}
template <typename CallbackT>
void EnumImportChunks(const CallbackT& aCallback) const {
for (PIMAGE_IMPORT_DESCRIPTOR curImpDesc = GetImportDirectory();
IsValid(curImpDesc); ++curImpDesc) {
auto curName = mIsImportDirectoryTampered
? RVAToPtrUnchecked<const char*>(curImpDesc->Name)
: RVAToPtr<const char*>(curImpDesc->Name);
if (!curName) {
continue;
}
aCallback(curName);
}
}
/**
* If |aBoundaries| is given, this method checks whether each IAT entry is
* within the given range, and if any entry is out of the range, we return
* Nothing().
*/
Maybe<Span<IMAGE_THUNK_DATA>> GetIATThunksForModule(
const char* aModuleNameASCII,
const Range<const uint8_t>* aBoundaries = nullptr) const {
PIMAGE_IMPORT_DESCRIPTOR impDesc = GetImportDescriptor(aModuleNameASCII);
if (!impDesc) {
return Nothing();
}
auto firstIatThunk =
this->template RVAToPtr<PIMAGE_THUNK_DATA>(impDesc->FirstThunk);
if (!firstIatThunk) {
return Nothing();
}
// Find the length by iterating through the table until we find a null entry
PIMAGE_THUNK_DATA curIatThunk = firstIatThunk;
while (IsValid(curIatThunk)) {
if (aBoundaries) {
auto iatEntry =
reinterpret_cast<const uint8_t*>(curIatThunk->u1.Function);
if (iatEntry < aBoundaries->begin().get() ||
iatEntry >= aBoundaries->end().get()) {
return Nothing();
}
}
++curIatThunk;
}
return Some(Span(firstIatThunk, curIatThunk));
}
/**
* Resources are stored in a three-level tree. To locate a particular entry,
* you must supply a resource type, the resource id, and then the language id.
* If aLangId == 0, we just resolve the first entry regardless of language.
*/
template <typename T>
T FindResourceLeaf(WORD aType, WORD aResId, WORD aLangId = 0) const {
PIMAGE_RESOURCE_DIRECTORY topLevel = GetResourceTable();
if (!topLevel) {
return nullptr;
}
PIMAGE_RESOURCE_DIRECTORY_ENTRY typeEntry =
FindResourceEntry(topLevel, aType);
if (!typeEntry || !typeEntry->DataIsDirectory) {
return nullptr;
}
auto idDir = RVAToPtr<PIMAGE_RESOURCE_DIRECTORY>(
topLevel, typeEntry->OffsetToDirectory);
PIMAGE_RESOURCE_DIRECTORY_ENTRY idEntry = FindResourceEntry(idDir, aResId);
if (!idEntry || !idEntry->DataIsDirectory) {
return nullptr;
}
auto langDir = RVAToPtr<PIMAGE_RESOURCE_DIRECTORY>(
topLevel, idEntry->OffsetToDirectory);
PIMAGE_RESOURCE_DIRECTORY_ENTRY langEntry;
if (aLangId) {
langEntry = FindResourceEntry(langDir, aLangId);
} else {
langEntry = FindFirstResourceEntry(langDir);
}
if (!langEntry || langEntry->DataIsDirectory) {
return nullptr;
}
auto dataEntry =
RVAToPtr<PIMAGE_RESOURCE_DATA_ENTRY>(topLevel, langEntry->OffsetToData);
return dataEntry ? RVAToPtr<T>(dataEntry->OffsetToData) : nullptr;
}
template <size_t N>
Maybe<Span<const uint8_t>> FindSection(const char (&aSecName)[N],
DWORD aCharacteristicsMask) const {
static_assert((N - 1) <= IMAGE_SIZEOF_SHORT_NAME,
"Section names must be at most 8 characters excluding null "
"terminator");
if (!(*this)) {
return Nothing();
}
Span<IMAGE_SECTION_HEADER> sectionTable = GetSectionTable();
for (auto&& sectionHeader : sectionTable) {
if (strncmp(reinterpret_cast<const char*>(sectionHeader.Name), aSecName,
IMAGE_SIZEOF_SHORT_NAME)) {
continue;
}
if (!(sectionHeader.Characteristics & aCharacteristicsMask)) {
// We found the section but it does not have the expected
// characteristics
return Nothing();
}
DWORD rva = sectionHeader.VirtualAddress;
if (!rva) {
return Nothing();
}
DWORD size = sectionHeader.Misc.VirtualSize;
if (!size) {
return Nothing();
}
auto base = RVAToPtr<const uint8_t*>(rva);
return Some(Span(base, size));
}
return Nothing();
}
// There may be other code sections in the binary besides .text
Maybe<Span<const uint8_t>> GetTextSectionInfo() const {
return FindSection(".text", IMAGE_SCN_CNT_CODE | IMAGE_SCN_MEM_EXECUTE |
IMAGE_SCN_MEM_READ);
}
static bool IsValid(PIMAGE_IMPORT_DESCRIPTOR aImpDesc) {
return aImpDesc && aImpDesc->OriginalFirstThunk != 0;
}
static bool IsValid(PIMAGE_THUNK_DATA aImgThunk) {
return aImgThunk && aImgThunk->u1.Ordinal != 0;
}
bool IsImportDirectoryTampered() const { return mIsImportDirectoryTampered; }
FARPROC GetEntryPoint() const {
// Use the unchecked version because the entrypoint may be tampered.
return RVAToPtrUnchecked<FARPROC>(
mPeHeader->OptionalHeader.AddressOfEntryPoint);
}
const CodeViewRecord70* GetPdbInfo() const {
PIMAGE_DEBUG_DIRECTORY debugDirectory =
GetImageDirectoryEntry<PIMAGE_DEBUG_DIRECTORY>(
IMAGE_DIRECTORY_ENTRY_DEBUG);
if (!debugDirectory) {
return nullptr;
}
const CodeViewRecord70* debugInfo =
RVAToPtr<CodeViewRecord70*>(debugDirectory->AddressOfRawData);
return (debugInfo && debugInfo->signature == 'SDSR') ? debugInfo : nullptr;
}
private:
enum class BoundsCheckPolicy { Default, Skip };
template <typename T, BoundsCheckPolicy Policy = BoundsCheckPolicy::Default>
T GetImageDirectoryEntry(const uint32_t aDirectoryIndex) const {
PIMAGE_DATA_DIRECTORY dirEntry = GetImageDirectoryEntryPtr(aDirectoryIndex);
if (!dirEntry) {
return nullptr;
}
return Policy == BoundsCheckPolicy::Skip
? RVAToPtrUnchecked<T>(dirEntry->VirtualAddress)
: RVAToPtr<T>(dirEntry->VirtualAddress);
}
// This private variant does not have bounds checks, because we need to be
// able to resolve the bounds themselves.
template <typename T, typename R>
T RVAToPtrUnchecked(R aRva) const {
return reinterpret_cast<T>(reinterpret_cast<char*>(mMzHeader) + aRva);
}
Span<IMAGE_SECTION_HEADER> GetSectionTable() const {
MOZ_ASSERT(*this);
auto base = RVAToPtr<PIMAGE_SECTION_HEADER>(
&mPeHeader->OptionalHeader, mPeHeader->FileHeader.SizeOfOptionalHeader);
// The Windows loader has an internal limit of 96 sections (per PE spec)
auto numSections =
std::min(mPeHeader->FileHeader.NumberOfSections, WORD(96));
return Span{base, numSections};
}
PIMAGE_RESOURCE_DIRECTORY_ENTRY
FindResourceEntry(PIMAGE_RESOURCE_DIRECTORY aCurLevel, WORD aId) const {
if (!aCurLevel) {
return nullptr;
}
// Immediately after the IMAGE_RESOURCE_DIRECTORY structure is an array
// of IMAGE_RESOURCE_DIRECTORY_ENTRY structures. Since this function
// searches by ID, we need to skip past any named entries before iterating.
auto dirEnt =
reinterpret_cast<PIMAGE_RESOURCE_DIRECTORY_ENTRY>(aCurLevel + 1) +
aCurLevel->NumberOfNamedEntries;
if (!(IsWithinImage(dirEnt) &&
IsWithinImage(&dirEnt[aCurLevel->NumberOfIdEntries - 1].Id))) {
return nullptr;
}
for (WORD i = 0; i < aCurLevel->NumberOfIdEntries; ++i) {
if (dirEnt[i].Id == aId) {
return &dirEnt[i];
}
}
return nullptr;
}
PIMAGE_RESOURCE_DIRECTORY_ENTRY
FindFirstResourceEntry(PIMAGE_RESOURCE_DIRECTORY aCurLevel) const {
// Immediately after the IMAGE_RESOURCE_DIRECTORY structure is an array
// of IMAGE_RESOURCE_DIRECTORY_ENTRY structures. We just return the first
// entry, regardless of whether it is indexed by name or by id.
auto dirEnt =
reinterpret_cast<PIMAGE_RESOURCE_DIRECTORY_ENTRY>(aCurLevel + 1);
WORD numEntries =
aCurLevel->NumberOfNamedEntries + aCurLevel->NumberOfIdEntries;
if (!numEntries) {
return nullptr;
}
return dirEnt;
}
VS_FIXEDFILEINFO* GetFixedFileInfo(VS_VERSIONINFO_HEADER* aVerInfo) const {
WORD length = aVerInfo->wLength;
if (length < sizeof(VS_VERSIONINFO_HEADER)) {
return nullptr;
}
const wchar_t kVersionInfoKey[] = L"VS_VERSION_INFO";
if (::RtlCompareMemory(aVerInfo->szKey, kVersionInfoKey,
ArrayLength(kVersionInfoKey)) !=
ArrayLength(kVersionInfoKey)) {
return nullptr;
}
if (aVerInfo->wValueLength != sizeof(VS_FIXEDFILEINFO)) {
// Fixed file info does not exist
return nullptr;
}
WORD offset = sizeof(VS_VERSIONINFO_HEADER);
uintptr_t base = reinterpret_cast<uintptr_t>(aVerInfo);
// Align up to 4-byte boundary
#pragma warning(suppress : 4146)
offset += (-(base + offset) & 3);
if (offset >= length) {
return nullptr;
}
auto result = reinterpret_cast<VS_FIXEDFILEINFO*>(base + offset);
if (result->dwSignature != 0xFEEF04BD) {
return nullptr;
}
return result;
}
private:
PIMAGE_DOS_HEADER mMzHeader;
PIMAGE_NT_HEADERS mPeHeader;
void* mImageLimit;
bool mIsImportDirectoryTampered;
};
// This class represents an export section of a local/remote process.
template <typename MMPolicy>
class MOZ_RAII PEExportSection {
const MMPolicy& mMMPolicy;
uintptr_t mImageBase;
DWORD mOrdinalBase;
DWORD mRvaDirStart;
DWORD mRvaDirEnd;
mozilla::interceptor::TargetObjectArray<MMPolicy, DWORD> mExportAddressTable;
mozilla::interceptor::TargetObjectArray<MMPolicy, DWORD> mExportNameTable;
mozilla::interceptor::TargetObjectArray<MMPolicy, WORD> mExportOrdinalTable;
explicit PEExportSection(const MMPolicy& aMMPolicy)
: mMMPolicy(aMMPolicy),
mImageBase(0),
mOrdinalBase(0),
mRvaDirStart(0),
mRvaDirEnd(0),
mExportAddressTable(mMMPolicy),
mExportNameTable(mMMPolicy),
mExportOrdinalTable(mMMPolicy) {}
PEExportSection(const MMPolicy& aMMPolicy, uintptr_t aImageBase,
DWORD aRvaDirStart, DWORD aRvaDirEnd,
const IMAGE_EXPORT_DIRECTORY& exportDir)
: mMMPolicy(aMMPolicy),
mImageBase(aImageBase),
mOrdinalBase(exportDir.Base),
mRvaDirStart(aRvaDirStart),
mRvaDirEnd(aRvaDirEnd),
mExportAddressTable(mMMPolicy,
mImageBase + exportDir.AddressOfFunctions,
exportDir.NumberOfFunctions),
mExportNameTable(mMMPolicy, mImageBase + exportDir.AddressOfNames,
exportDir.NumberOfNames),
mExportOrdinalTable(mMMPolicy,
mImageBase + exportDir.AddressOfNameOrdinals,
exportDir.NumberOfNames) {}
static const PEExportSection Get(uintptr_t aImageBase,
const MMPolicy& aMMPolicy) {
mozilla::interceptor::TargetObject<MMPolicy, IMAGE_DOS_HEADER> mzHeader(
aMMPolicy, aImageBase);
if (!mzHeader || mzHeader->e_magic != IMAGE_DOS_SIGNATURE) {
return PEExportSection(aMMPolicy);
}
mozilla::interceptor::TargetObject<MMPolicy, IMAGE_NT_HEADERS> peHeader(
aMMPolicy, aImageBase + mzHeader->e_lfanew);
if (!peHeader || peHeader->Signature != IMAGE_NT_SIGNATURE) {
return PEExportSection(aMMPolicy);
}
if (peHeader->OptionalHeader.Magic != IMAGE_NT_OPTIONAL_HDR_MAGIC) {
return PEExportSection(aMMPolicy);
}
const IMAGE_OPTIONAL_HEADER& optionalHeader = peHeader->OptionalHeader;
DWORD imageSize = optionalHeader.SizeOfImage;
// This is a coarse-grained check to ensure that the image size is
// reasonable. It we aren't big enough to contain headers, we have a
// problem!
if (imageSize < sizeof(IMAGE_DOS_HEADER) + sizeof(IMAGE_NT_HEADERS)) {
return PEExportSection(aMMPolicy);
}
if (optionalHeader.NumberOfRvaAndSizes <= IMAGE_DIRECTORY_ENTRY_EXPORT) {
return PEExportSection(aMMPolicy);
}
const IMAGE_DATA_DIRECTORY& exportDirectoryEntry =
optionalHeader.DataDirectory[IMAGE_DIRECTORY_ENTRY_EXPORT];
if (!exportDirectoryEntry.VirtualAddress || !exportDirectoryEntry.Size) {
return PEExportSection(aMMPolicy);
}
mozilla::interceptor::TargetObject<MMPolicy, IMAGE_EXPORT_DIRECTORY>
exportDirectory(aMMPolicy,
aImageBase + exportDirectoryEntry.VirtualAddress);
if (!exportDirectory || !exportDirectory->NumberOfFunctions) {
return PEExportSection(aMMPolicy);
}
return PEExportSection(
aMMPolicy, aImageBase, exportDirectoryEntry.VirtualAddress,
exportDirectoryEntry.VirtualAddress + exportDirectoryEntry.Size,
*exportDirectory.GetLocalBase());
}
FARPROC GetProcAddressByOrdinal(WORD aOrdinal) const {
if (aOrdinal < mOrdinalBase) {
return nullptr;
}
auto rvaToFunction = mExportAddressTable[aOrdinal - mOrdinalBase];
if (!rvaToFunction) {
return nullptr;
}
return reinterpret_cast<FARPROC>(mImageBase + *rvaToFunction);
}
public:
static const PEExportSection Get(HMODULE aModule, const MMPolicy& aMMPolicy) {
return Get(PEHeaders::HModuleToBaseAddr<uintptr_t>(aModule), aMMPolicy);
}
explicit operator bool() const {
// Because PEExportSection doesn't use MMPolicy::Reserve(), a boolified
// mMMPolicy is expected to be false. We don't check mMMPolicy here.
return mImageBase && mRvaDirStart && mRvaDirEnd && mExportAddressTable &&
mExportNameTable && mExportOrdinalTable;
}
template <typename T>
T RVAToPtr(uint32_t aRva) const {
return reinterpret_cast<T>(mImageBase + aRva);
}
PIMAGE_EXPORT_DIRECTORY GetExportDirectory() const {
if (!*this) {
return nullptr;
}
return RVAToPtr<PIMAGE_EXPORT_DIRECTORY>(mRvaDirStart);
}
/**
* This functions searches the export table for a given string as
* GetProcAddress does, but this returns a matched entry of the Export
* Address Table i.e. a pointer to an RVA of a matched function instead
* of a function address. If the entry is forwarded, this function
* returns nullptr.
*/
const DWORD* FindExportAddressTableEntry(
const char* aFunctionNameASCII) const {
if (!*this || !aFunctionNameASCII) {
return nullptr;
}
struct NameTableComparator {
NameTableComparator(const PEExportSection<MMPolicy>& aExportSection,
const char* aTarget)
: mExportSection(aExportSection),
mTargetName(aTarget),
mTargetNamelength(StrlenASCII(aTarget)) {}
int operator()(DWORD aRVAToString) const {
mozilla::interceptor::TargetObjectArray<MMPolicy, char> itemString(
mExportSection.mMMPolicy, mExportSection.mImageBase + aRVAToString,
mTargetNamelength + 1);
return StrcmpASCII(mTargetName, itemString[0]);
}
const PEExportSection<MMPolicy>& mExportSection;
const char* mTargetName;
size_t mTargetNamelength;
};
const NameTableComparator comp(*this, aFunctionNameASCII);
size_t match;
if (!mExportNameTable.BinarySearchIf(comp, &match)) {
return nullptr;
}
const WORD* index = mExportOrdinalTable[match];
if (!index) {
return nullptr;
}
const DWORD* rvaToFunction = mExportAddressTable[*index];
if (!rvaToFunction) {
return nullptr;
}
if (*rvaToFunction >= mRvaDirStart && *rvaToFunction < mRvaDirEnd) {
// If an entry points to an address within the export section, the
// field is a forwarder RVA. We return nullptr because the entry is
// not a function address but a null-terminated string used for export
// forwarding.
return nullptr;
}
return rvaToFunction;
}
/**
* This functions behaves the same as the native ::GetProcAddress except
* the following cases:
* - Returns nullptr if a target entry is forwarded to another dll.
*/
FARPROC GetProcAddress(const char* aFunctionNameASCII) const {
uintptr_t maybeOdrinal = reinterpret_cast<uintptr_t>(aFunctionNameASCII);
// When the high-order word of |aFunctionNameASCII| is zero, it's not
// a string but an ordinal value.
if (maybeOdrinal < 0x10000) {
return GetProcAddressByOrdinal(static_cast<WORD>(maybeOdrinal));
}
auto rvaToFunction = FindExportAddressTableEntry(aFunctionNameASCII);
if (!rvaToFunction) {
return nullptr;
}
return reinterpret_cast<FARPROC>(mImageBase + *rvaToFunction);
}
};
inline HANDLE RtlGetProcessHeap() {
PTEB teb = ::NtCurrentTeb();
PPEB peb = teb->ProcessEnvironmentBlock;
return peb->Reserved4[1];
}
inline PVOID RtlGetThreadLocalStoragePointer() {
return ::NtCurrentTeb()->Reserved1[11];
}
inline void RtlSetThreadLocalStoragePointerForTestingOnly(PVOID aNewValue) {
::NtCurrentTeb()->Reserved1[11] = aNewValue;
}
inline DWORD RtlGetCurrentThreadId() {
PTEB teb = ::NtCurrentTeb();
CLIENT_ID* cid = reinterpret_cast<CLIENT_ID*>(&teb->Reserved1[8]);
return static_cast<DWORD>(reinterpret_cast<uintptr_t>(cid->UniqueThread) &
0xFFFFFFFFUL);
}
const HANDLE kCurrentProcess = reinterpret_cast<HANDLE>(-1);
inline LauncherResult<DWORD> GetParentProcessId() {
struct PROCESS_BASIC_INFORMATION {
NTSTATUS ExitStatus;
PPEB PebBaseAddress;
ULONG_PTR AffinityMask;
LONG BasePriority;
ULONG_PTR UniqueProcessId;
ULONG_PTR InheritedFromUniqueProcessId;
};
ULONG returnLength;
PROCESS_BASIC_INFORMATION pbi = {};
NTSTATUS status =
::NtQueryInformationProcess(kCurrentProcess, ProcessBasicInformation,
&pbi, sizeof(pbi), &returnLength);
if (!NT_SUCCESS(status)) {
return LAUNCHER_ERROR_FROM_NTSTATUS(status);
}
return static_cast<DWORD>(pbi.InheritedFromUniqueProcessId & 0xFFFFFFFF);
}
inline SIZE_T WINAPI VirtualQueryEx(HANDLE aProcess, LPCVOID aAddress,
PMEMORY_BASIC_INFORMATION aMemInfo,
SIZE_T aMemInfoLen) {
#if defined(MOZILLA_INTERNAL_API)
return ::VirtualQueryEx(aProcess, aAddress, aMemInfo, aMemInfoLen);
#else
SIZE_T returnedLength;
NTSTATUS status = ::NtQueryVirtualMemory(
aProcess, const_cast<PVOID>(aAddress), MemoryBasicInformation, aMemInfo,
aMemInfoLen, &returnedLength);
if (!NT_SUCCESS(status)) {
::RtlSetLastWin32Error(::RtlNtStatusToDosError(status));
returnedLength = 0;
}
return returnedLength;
#endif // defined(MOZILLA_INTERNAL_API)
}
inline SIZE_T WINAPI VirtualQuery(LPCVOID aAddress,
PMEMORY_BASIC_INFORMATION aMemInfo,
SIZE_T aMemInfoLen) {
return nt::VirtualQueryEx(kCurrentProcess, aAddress, aMemInfo, aMemInfoLen);
}
struct DataDirectoryEntry : public _IMAGE_DATA_DIRECTORY {
DataDirectoryEntry() : _IMAGE_DATA_DIRECTORY() {}
MOZ_IMPLICIT DataDirectoryEntry(const _IMAGE_DATA_DIRECTORY& aOther)
: _IMAGE_DATA_DIRECTORY(aOther) {}
DataDirectoryEntry(const DataDirectoryEntry& aOther) = default;
bool operator==(const DataDirectoryEntry& aOther) const {
return VirtualAddress == aOther.VirtualAddress && Size == aOther.Size;
}
bool operator!=(const DataDirectoryEntry& aOther) const {
return !(*this == aOther);
}
};
inline LauncherResult<void*> GetProcessPebPtr(HANDLE aProcess) {
ULONG returnLength;
PROCESS_BASIC_INFORMATION pbi;
NTSTATUS status = ::NtQueryInformationProcess(
aProcess, ProcessBasicInformation, &pbi, sizeof(pbi), &returnLength);
if (!NT_SUCCESS(status)) {
return LAUNCHER_ERROR_FROM_NTSTATUS(status);
}
return pbi.PebBaseAddress;
}
/**
* This function relies on a specific offset into the mostly-undocumented PEB
* structure. The risk is reduced thanks to the fact that the Chromium sandbox
* relies on the location of this field. It is unlikely to change at this point.
* To further reduce the risk, we also check for the magic 'MZ' signature that
* should indicate the beginning of a PE image.
*/
inline LauncherResult<HMODULE> GetProcessExeModule(HANDLE aProcess) {
LauncherResult<void*> ppeb = GetProcessPebPtr(aProcess);
if (ppeb.isErr()) {
return ppeb.propagateErr();
}
PEB peb;
SIZE_T bytesRead;
#if defined(MOZILLA_INTERNAL_API)
if (!::ReadProcessMemory(aProcess, ppeb.unwrap(), &peb, sizeof(peb),
&bytesRead) ||
bytesRead != sizeof(peb)) {
return LAUNCHER_ERROR_FROM_LAST();
}
#else
NTSTATUS ntStatus = ::NtReadVirtualMemory(aProcess, ppeb.unwrap(), &peb,
sizeof(peb), &bytesRead);
if (!NT_SUCCESS(ntStatus) || bytesRead != sizeof(peb)) {
return LAUNCHER_ERROR_FROM_NTSTATUS(ntStatus);
}
#endif
// peb.ImageBaseAddress
void* baseAddress = peb.Reserved3[1];
char mzMagic[2];
#if defined(MOZILLA_INTERNAL_API)
if (!::ReadProcessMemory(aProcess, baseAddress, mzMagic, sizeof(mzMagic),
&bytesRead) ||
bytesRead != sizeof(mzMagic)) {
return LAUNCHER_ERROR_FROM_LAST();
}
#else
ntStatus = ::NtReadVirtualMemory(aProcess, baseAddress, mzMagic,
sizeof(mzMagic), &bytesRead);
if (!NT_SUCCESS(ntStatus) || bytesRead != sizeof(mzMagic)) {
return LAUNCHER_ERROR_FROM_NTSTATUS(ntStatus);
}
#endif
MOZ_ASSERT(mzMagic[0] == 'M' && mzMagic[1] == 'Z');
if (mzMagic[0] != 'M' || mzMagic[1] != 'Z') {
return LAUNCHER_ERROR_FROM_WIN32(ERROR_BAD_EXE_FORMAT);
}
return static_cast<HMODULE>(baseAddress);
}
#if defined(_MSC_VER)
extern "C" IMAGE_DOS_HEADER __ImageBase;
#endif
// This class manages data transfer from the local process's executable
// to another process's executable via WriteProcessMemory.
// Bug 1662560 told us the same executable may be mapped onto a different
// address in a different process. This means when we transfer data within
// the mapped executable such as a global variable or IAT from the current
// process to another process, we need to shift its address by the difference
// between two executable's mapped imagebase.
class CrossExecTransferManager final {
HANDLE mRemoteProcess;
uint8_t* mLocalImagebase;
PEHeaders mLocalExec;
uint8_t* mRemoteImagebase;
static HMODULE GetLocalExecModule() {
#if defined(_MSC_VER)
return reinterpret_cast<HMODULE>(&__ImageBase);
#else
return ::GetModuleHandleW(nullptr);
#endif
}
LauncherVoidResult EnsureRemoteImagebase() {
if (!mRemoteImagebase) {
LauncherResult<HMODULE> remoteImageBaseResult =
GetProcessExeModule(mRemoteProcess);
if (remoteImageBaseResult.isErr()) {
return remoteImageBaseResult.propagateErr();
}
mRemoteImagebase =
reinterpret_cast<uint8_t*>(remoteImageBaseResult.unwrap());
}
return Ok();
}
template <typename T>
T* LocalExecToRemoteExec(T* aLocalAddress) const {
MOZ_ASSERT(mRemoteImagebase);
MOZ_ASSERT(mLocalExec.IsWithinImage(aLocalAddress));
if (!mRemoteImagebase || !mLocalExec.IsWithinImage(aLocalAddress)) {
return aLocalAddress;
}
uintptr_t offset = reinterpret_cast<uintptr_t>(aLocalAddress) -
reinterpret_cast<uintptr_t>(mLocalImagebase);
return reinterpret_cast<T*>(mRemoteImagebase + offset);
}
public:
explicit CrossExecTransferManager(HANDLE aRemoteProcess)
: mRemoteProcess(aRemoteProcess),
mLocalImagebase(
PEHeaders::HModuleToBaseAddr<uint8_t*>(GetLocalExecModule())),
mLocalExec(mLocalImagebase),
mRemoteImagebase(nullptr) {}
CrossExecTransferManager(HANDLE aRemoteProcess, HMODULE aLocalImagebase)
: mRemoteProcess(aRemoteProcess),
mLocalImagebase(
PEHeaders::HModuleToBaseAddr<uint8_t*>(aLocalImagebase)),
mLocalExec(mLocalImagebase),
mRemoteImagebase(nullptr) {}
explicit operator bool() const { return !!mLocalExec; }
HANDLE RemoteProcess() const { return mRemoteProcess; }
const PEHeaders& LocalPEHeaders() const { return mLocalExec; }
AutoVirtualProtect Protect(void* aLocalAddress, size_t aLength,
DWORD aProtFlags) {
// If EnsureRemoteImagebase() fails, a subsequent operaion will fail.
Unused << EnsureRemoteImagebase();
return AutoVirtualProtect(LocalExecToRemoteExec(aLocalAddress), aLength,
aProtFlags, mRemoteProcess);
}
LauncherVoidResult Transfer(LPVOID aDestinationAddress,
LPCVOID aBufferToWrite, SIZE_T aBufferSize) {
LauncherVoidResult result = EnsureRemoteImagebase();
if (result.isErr()) {
return result.propagateErr();
}
if (!::WriteProcessMemory(mRemoteProcess,
LocalExecToRemoteExec(aDestinationAddress),
aBufferToWrite, aBufferSize, nullptr)) {
return LAUNCHER_ERROR_FROM_LAST();
}
return Ok();
}
};
#if !defined(MOZILLA_INTERNAL_API)
inline LauncherResult<HMODULE> GetModuleHandleFromLeafName(
const UNICODE_STRING& aTarget) {
auto maybePeb = nt::GetProcessPebPtr(kCurrentProcess);
if (maybePeb.isErr()) {
return maybePeb.propagateErr();
}
const PPEB peb = reinterpret_cast<PPEB>(maybePeb.unwrap());
if (!peb->Ldr) {
return LAUNCHER_ERROR_FROM_WIN32(ERROR_BAD_EXE_FORMAT);
}
auto firstItem = &peb->Ldr->InMemoryOrderModuleList;
for (auto p = firstItem->Flink; p != firstItem; p = p->Flink) {
const auto currentTableEntry =
CONTAINING_RECORD(p, LDR_DATA_TABLE_ENTRY, InMemoryOrderLinks);
UNICODE_STRING leafName;
nt::GetLeafName(&leafName, ¤tTableEntry->FullDllName);
if (::RtlCompareUnicodeString(&leafName, &aTarget, TRUE) == 0) {
return reinterpret_cast<HMODULE>(currentTableEntry->DllBase);
}
}
return LAUNCHER_ERROR_FROM_WIN32(ERROR_MOD_NOT_FOUND);
}
class MOZ_ONLY_USED_TO_AVOID_STATIC_CONSTRUCTORS SRWLock final {
public:
constexpr SRWLock() : mLock(SRWLOCK_INIT) {}
void LockShared() { ::RtlAcquireSRWLockShared(&mLock); }
void LockExclusive() { ::RtlAcquireSRWLockExclusive(&mLock); }
void UnlockShared() { ::RtlReleaseSRWLockShared(&mLock); }
void UnlockExclusive() { ::RtlReleaseSRWLockExclusive(&mLock); }
SRWLock(const SRWLock&) = delete;
SRWLock(SRWLock&&) = delete;
SRWLock& operator=(const SRWLock&) = delete;
SRWLock& operator=(SRWLock&&) = delete;
SRWLOCK* operator&() { return &mLock; }
private:
SRWLOCK mLock;
};
class MOZ_RAII AutoExclusiveLock final {
public:
explicit AutoExclusiveLock(SRWLock& aLock) : mLock(aLock) {
aLock.LockExclusive();
}
~AutoExclusiveLock() { mLock.UnlockExclusive(); }
AutoExclusiveLock(const AutoExclusiveLock&) = delete;
AutoExclusiveLock(AutoExclusiveLock&&) = delete;
AutoExclusiveLock& operator=(const AutoExclusiveLock&) = delete;
AutoExclusiveLock& operator=(AutoExclusiveLock&&) = delete;
private:
SRWLock& mLock;
};
class MOZ_RAII AutoSharedLock final {
public:
explicit AutoSharedLock(SRWLock& aLock) : mLock(aLock) { aLock.LockShared(); }
~AutoSharedLock() { mLock.UnlockShared(); }
AutoSharedLock(const AutoSharedLock&) = delete;
AutoSharedLock(AutoSharedLock&&) = delete;
AutoSharedLock& operator=(const AutoSharedLock&) = delete;
AutoSharedLock& operator=(AutoSharedLock&&) = delete;
private:
SRWLock& mLock;
};
#endif // !defined(MOZILLA_INTERNAL_API)
class RtlAllocPolicy {
public:
template <typename T>
T* maybe_pod_malloc(size_t aNumElems) {
if (aNumElems & mozilla::tl::MulOverflowMask<sizeof(T)>::value) {
return nullptr;
}
return static_cast<T*>(
::RtlAllocateHeap(RtlGetProcessHeap(), 0, aNumElems * sizeof(T)));
}
template <typename T>
T* maybe_pod_calloc(size_t aNumElems) {
if (aNumElems & mozilla::tl::MulOverflowMask<sizeof(T)>::value) {
return nullptr;
}
return static_cast<T*>(::RtlAllocateHeap(
RtlGetProcessHeap(), HEAP_ZERO_MEMORY, aNumElems * sizeof(T)));
}
template <typename T>
T* maybe_pod_realloc(T* aPtr, size_t aOldSize, size_t aNewSize) {
if (aNewSize & mozilla::tl::MulOverflowMask<sizeof(T)>::value) {
return nullptr;
}
return static_cast<T*>(::RtlReAllocateHeap(RtlGetProcessHeap(), 0, aPtr,
aNewSize * sizeof(T)));
}
template <typename T>
T* pod_malloc(size_t aNumElems) {
return maybe_pod_malloc<T>(aNumElems);
}
template <typename T>
T* pod_calloc(size_t aNumElems) {
return maybe_pod_calloc<T>(aNumElems);
}
template <typename T>
T* pod_realloc(T* aPtr, size_t aOldSize, size_t aNewSize) {
return maybe_pod_realloc<T>(aPtr, aOldSize, aNewSize);
}
template <typename T>
void free_(T* aPtr, size_t aNumElems = 0) {
::RtlFreeHeap(RtlGetProcessHeap(), 0, aPtr);
}
void reportAllocOverflow() const {}
[[nodiscard]] bool checkSimulatedOOM() const { return true; }
};
class AutoMappedView final {
void* mView;
void Unmap() {
if (!mView) {
return;
}
#if defined(MOZILLA_INTERNAL_API)
::UnmapViewOfFile(mView);
#else
NTSTATUS status = ::NtUnmapViewOfSection(nt::kCurrentProcess, mView);
if (!NT_SUCCESS(status)) {
::RtlSetLastWin32Error(::RtlNtStatusToDosError(status));
}
#endif
mView = nullptr;
}
public:
explicit AutoMappedView(void* aView) : mView(aView) {}
AutoMappedView(HANDLE aSection, ULONG aProtectionFlags) : mView(nullptr) {
#if defined(MOZILLA_INTERNAL_API)
mView = ::MapViewOfFile(aSection, aProtectionFlags, 0, 0, 0);
#else
SIZE_T viewSize = 0;
NTSTATUS status = ::NtMapViewOfSection(aSection, nt::kCurrentProcess,
&mView, 0, 0, nullptr, &viewSize,
ViewUnmap, 0, aProtectionFlags);
if (!NT_SUCCESS(status)) {
::RtlSetLastWin32Error(::RtlNtStatusToDosError(status));
}
#endif
}
~AutoMappedView() { Unmap(); }
// Allow move & Disallow copy
AutoMappedView(AutoMappedView&& aOther) : mView(aOther.mView) {
aOther.mView = nullptr;
}
AutoMappedView& operator=(AutoMappedView&& aOther) {
if (this != &aOther) {
Unmap();
mView = aOther.mView;
aOther.mView = nullptr;
}
return *this;
}
AutoMappedView(const AutoMappedView&) = delete;
AutoMappedView& operator=(const AutoMappedView&) = delete;
explicit operator bool() const { return !!mView; }
template <typename T>
T* as() {
return reinterpret_cast<T*>(mView);
}
void* release() {
void* p = mView;
mView = nullptr;
return p;
}
};
} // namespace nt
} // namespace mozilla
#endif // mozilla_NativeNt_h
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