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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/. */
#include <shlobj.h>
#include <stdio.h>
#include <commdlg.h>
#define SECURITY_WIN32
#include <security.h>
#include <wininet.h>
#include <schnlsp.h>
#include <winternl.h>
#include <processthreadsapi.h>
#include <bcrypt.h>
#pragma comment(lib, "bcrypt.lib")
#include "AssemblyPayloads.h"
#include "mozilla/DynamicallyLinkedFunctionPtr.h"
#include "mozilla/UniquePtr.h"
#include "mozilla/WindowsProcessMitigations.h"
#include "nsWindowsDllInterceptor.h"
#include "nsWindowsHelpers.h"
NTSTATUS NTAPI NtFlushBuffersFile(HANDLE, PIO_STATUS_BLOCK);
NTSTATUS NTAPI NtReadFile(HANDLE, HANDLE, PIO_APC_ROUTINE, PVOID,
PIO_STATUS_BLOCK, PVOID, ULONG, PLARGE_INTEGER,
PULONG);
NTSTATUS NTAPI NtReadFileScatter(HANDLE, HANDLE, PIO_APC_ROUTINE, PVOID,
PIO_STATUS_BLOCK, PFILE_SEGMENT_ELEMENT, ULONG,
PLARGE_INTEGER, PULONG);
NTSTATUS NTAPI NtWriteFile(HANDLE, HANDLE, PIO_APC_ROUTINE, PVOID,
PIO_STATUS_BLOCK, PVOID, ULONG, PLARGE_INTEGER,
PULONG);
NTSTATUS NTAPI NtWriteFileGather(HANDLE, HANDLE, PIO_APC_ROUTINE, PVOID,
PIO_STATUS_BLOCK, PFILE_SEGMENT_ELEMENT, ULONG,
PLARGE_INTEGER, PULONG);
NTSTATUS NTAPI NtQueryFullAttributesFile(POBJECT_ATTRIBUTES, PVOID);
NTSTATUS NTAPI LdrLoadDll(PWCHAR filePath, PULONG flags,
PUNICODE_STRING moduleFileName, PHANDLE handle);
NTSTATUS NTAPI LdrUnloadDll(HMODULE);
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);
// These pointers are disguised as PVOID to avoid pulling in obscure headers
PVOID NTAPI LdrResolveDelayLoadedAPI(PVOID, PVOID, PVOID, PVOID, PVOID, ULONG);
void CALLBACK ProcessCaretEvents(HWINEVENTHOOK, DWORD, HWND, LONG, LONG, DWORD,
DWORD);
void __fastcall BaseThreadInitThunk(BOOL aIsInitialThread, void* aStartAddress,
void* aThreadParam);
BOOL WINAPI ApiSetQueryApiSetPresence(PCUNICODE_STRING, PBOOLEAN);
#define RtlGenRandom SystemFunction036
extern "C" BOOLEAN NTAPI RtlGenRandom(PVOID aRandomBuffer,
ULONG aRandomBufferLength);
extern "C" uintptr_t WINAPI TF_Notify(UINT uMsg, WPARAM wParam, LPARAM lParam);
using namespace mozilla;
struct payload {
UINT64 a;
UINT64 b;
UINT64 c;
bool operator==(const payload& other) const {
return (a == other.a && b == other.b && c == other.c);
}
};
extern "C" __declspec(dllexport) __declspec(noinline) payload
rotatePayload(payload p) {
UINT64 tmp = p.a;
p.a = p.b;
p.b = p.c;
p.c = tmp;
return p;
}
// payloadNotHooked is a target function for a test to expect a negative result.
// We cannot use rotatePayload for that purpose because our detour cannot hook
// a function detoured already. Please keep this function always unhooked.
extern "C" __declspec(dllexport) __declspec(noinline) payload
payloadNotHooked(payload p) {
// Do something different from rotatePayload to avoid ICF.
p.a ^= p.b;
p.b ^= p.c;
p.c ^= p.a;
return p;
}
// Declared as volatile to prevent optimizers from incorrectly eliding accesses
// to it. (See bug 1769001 for a motivating example.)
static volatile bool patched_func_called = false;
static WindowsDllInterceptor::FuncHookType<decltype(&rotatePayload)>
orig_rotatePayload;
static WindowsDllInterceptor::FuncHookType<decltype(&payloadNotHooked)>
orig_payloadNotHooked;
static payload patched_rotatePayload(payload p) {
patched_func_called = true;
return orig_rotatePayload(p);
}
// Invoke aFunc by taking aArg's contents and using them as aFunc's arguments
template <typename OrigFuncT, typename... Args,
typename ArgTuple = std::tuple<Args...>, size_t... Indices>
decltype(auto) Apply(OrigFuncT& aFunc, ArgTuple&& aArgs,
std::index_sequence<Indices...>) {
return std::apply(aFunc, aArgs);
}
#define DEFINE_TEST_FUNCTION(calling_convention) \
template <typename R, typename... Args, typename... TestArgs> \
bool TestFunction(R(calling_convention* aFunc)(Args...), bool (*aPred)(R), \
TestArgs&&... aArgs) { \
using ArgTuple = std::tuple<Args...>; \
using Indices = std::index_sequence_for<Args...>; \
ArgTuple fakeArgs{std::forward<TestArgs>(aArgs)...}; \
patched_func_called = false; \
return aPred(Apply(aFunc, std::forward<ArgTuple>(fakeArgs), Indices())) && \
patched_func_called; \
} \
\
/* Specialization for functions returning void */ \
template <typename PredT, typename... Args, typename... TestArgs> \
bool TestFunction(void(calling_convention * aFunc)(Args...), PredT, \
TestArgs&&... aArgs) { \
using ArgTuple = std::tuple<Args...>; \
using Indices = std::index_sequence_for<Args...>; \
ArgTuple fakeArgs{std::forward<TestArgs>(aArgs)...}; \
patched_func_called = false; \
Apply(aFunc, std::forward<ArgTuple>(fakeArgs), Indices()); \
return patched_func_called; \
}
// C++11 allows empty arguments to macros. clang works just fine. MSVC does the
// right thing, but it also throws up warning C4003.
#if defined(_MSC_VER) && !defined(__clang__)
DEFINE_TEST_FUNCTION(__cdecl)
#else
DEFINE_TEST_FUNCTION()
#endif
#ifdef _M_IX86
DEFINE_TEST_FUNCTION(__stdcall)
DEFINE_TEST_FUNCTION(__fastcall)
#endif // _M_IX86
// Test the hooked function against the supplied predicate
template <typename OrigFuncT, typename PredicateT, typename... Args>
bool CheckHook(OrigFuncT& aOrigFunc, const char* aDllName,
const char* aFuncName, PredicateT&& aPred, Args&&... aArgs) {
if (TestFunction(aOrigFunc, std::forward<PredicateT>(aPred),
std::forward<Args>(aArgs)...)) {
printf(
"TEST-PASS | WindowsDllInterceptor | "
"Executed hooked function %s from %s\n",
aFuncName, aDllName);
fflush(stdout);
return true;
}
printf(
"TEST-FAILED | WindowsDllInterceptor | "
"Failed to execute hooked function %s from %s\n",
aFuncName, aDllName);
return false;
}
struct InterceptorFunction {
static const size_t EXEC_MEMBLOCK_SIZE = 64 * 1024; // 64K
static InterceptorFunction& Create() {
// Make sure the executable memory is allocated
if (!sBlock) {
Init();
}
MOZ_ASSERT(sBlock);
// Make sure we aren't making more functions than we allocated room for
MOZ_RELEASE_ASSERT((sNumInstances + 1) * sizeof(InterceptorFunction) <=
EXEC_MEMBLOCK_SIZE);
// Grab the next InterceptorFunction from executable memory
InterceptorFunction& ret = *reinterpret_cast<InterceptorFunction*>(
sBlock + (sNumInstances++ * sizeof(InterceptorFunction)));
// Set the InterceptorFunction to the code template.
auto funcCode = &ret[0];
memcpy(funcCode, sInterceptorTemplate, TemplateLength);
// Fill in the patched_func_called pointer in the template.
auto pfPtr =
reinterpret_cast<volatile bool**>(&ret[PatchedFuncCalledIndex]);
*pfPtr = &patched_func_called;
return ret;
}
uint8_t& operator[](size_t i) { return mFuncCode[i]; }
uint8_t* GetFunction() { return mFuncCode; }
void SetStub(uintptr_t aStub) {
auto pfPtr = reinterpret_cast<uintptr_t*>(&mFuncCode[StubFuncIndex]);
*pfPtr = aStub;
}
private:
// We intercept functions with short machine-code functions that set a boolean
// and run the stub that launches the original function. Each entry in the
// array is the code for one of those interceptor functions. We cannot
// free this memory until the test shuts down.
// The templates have spots for the address of patched_func_called
// and for the address of the stub function. Their indices in the byte
// array are given as constants below and they appear as blocks of
// 0xff bytes in the templates.
#if defined(_M_X64)
// 0: 48 b8 ff ff ff ff ff ff ff ff movabs rax, &patched_func_called
// a: c6 00 01 mov BYTE PTR [rax],0x1
// d: 48 b8 ff ff ff ff ff ff ff ff movabs rax, &stub_func_ptr
// 17: ff e0 jmp rax
static constexpr uint8_t sInterceptorTemplate[] = {
0x48, 0xB8, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF,
0xFF, 0xC6, 0x00, 0x01, 0x48, 0xB8, 0xFF, 0xFF, 0xFF,
0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xE0};
static const size_t PatchedFuncCalledIndex = 0x2;
static const size_t StubFuncIndex = 0xf;
#elif defined(_M_IX86)
// 0: c6 05 ff ff ff ff 01 mov BYTE PTR &patched_func_called, 0x1
// 7: 68 ff ff ff ff push &stub_func_ptr
// c: c3 ret
static constexpr uint8_t sInterceptorTemplate[] = {
0xC6, 0x05, 0xFF, 0xFF, 0xFF, 0xFF, 0x01,
0x68, 0xFF, 0xFF, 0xFF, 0xFF, 0xC3};
static const size_t PatchedFuncCalledIndex = 0x2;
static const size_t StubFuncIndex = 0x8;
#elif defined(_M_ARM64)
// 0: 31 00 80 52 movz w17, #0x1
// 4: 90 00 00 58 ldr x16, #16
// 8: 11 02 00 39 strb w17, [x16]
// c: 90 00 00 58 ldr x16, #16
// 10: 00 02 1F D6 br x16
// 14: &patched_func_called
// 1c: &stub_func_ptr
static constexpr uint8_t sInterceptorTemplate[] = {
0x31, 0x00, 0x80, 0x52, 0x90, 0x00, 0x00, 0x58, 0x11, 0x02, 0x00, 0x39,
0x90, 0x00, 0x00, 0x58, 0x00, 0x02, 0x1F, 0xD6, 0xFF, 0xFF, 0xFF, 0xFF,
0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF};
static const size_t PatchedFuncCalledIndex = 0x14;
static const size_t StubFuncIndex = 0x1c;
#else
# error "Missing template for architecture"
#endif
static const size_t TemplateLength = sizeof(sInterceptorTemplate);
uint8_t mFuncCode[TemplateLength];
InterceptorFunction() = delete;
InterceptorFunction(const InterceptorFunction&) = delete;
InterceptorFunction& operator=(const InterceptorFunction&) = delete;
static void Init() {
MOZ_ASSERT(!sBlock);
sBlock = reinterpret_cast<uint8_t*>(
::VirtualAlloc(nullptr, EXEC_MEMBLOCK_SIZE, MEM_RESERVE | MEM_COMMIT,
PAGE_EXECUTE_READWRITE));
}
static uint8_t* sBlock;
static size_t sNumInstances;
};
uint8_t* InterceptorFunction::sBlock = nullptr;
size_t InterceptorFunction::sNumInstances = 0;
constexpr uint8_t InterceptorFunction::sInterceptorTemplate[];
#ifdef _M_X64
// To check that unwind information propagates from hooked functions to their
// stubs, we need to find the real address where the detoured code lives.
class RedirectionResolver : public interceptor::WindowsDllPatcherBase<
interceptor::VMSharingPolicyShared> {
public:
uintptr_t ResolveRedirectedAddressForTest(FARPROC aFunc) {
return ResolveRedirectedAddress(aFunc).GetAddress();
}
};
#endif // _M_X64
void PrintFunctionBytes(FARPROC aFuncAddr, uint32_t aNumBytesToDump) {
printf("\tFirst %u bytes of function:\n\t", aNumBytesToDump);
auto code = reinterpret_cast<const uint8_t*>(aFuncAddr);
for (uint32_t i = 0; i < aNumBytesToDump; ++i) {
char suffix = (i < (aNumBytesToDump - 1)) ? ' ' : '\n';
printf("%02hhX%c", code[i], suffix);
}
fflush(stdout);
}
// Hook the function and optionally attempt calling it
template <typename OrigFuncT, size_t N, typename PredicateT, typename... Args>
bool TestHook(const char (&dll)[N], const char* func, PredicateT&& aPred,
Args&&... aArgs) {
auto orig_func(
mozilla::MakeUnique<WindowsDllInterceptor::FuncHookType<OrigFuncT>>());
wchar_t dllW[N];
std::copy(std::begin(dll), std::end(dll), std::begin(dllW));
HMODULE module = ::LoadLibraryW(dllW);
FARPROC funcAddr = ::GetProcAddress(module, func);
if (!funcAddr) {
printf(
"TEST-UNEXPECTED-FAIL | WindowsDllInterceptor | Failed to find %s from "
"%s\n",
func, dll);
fflush(stdout);
return false;
}
#ifdef _M_X64
// Resolve what is the actual address of the code that will be detoured, as
// that's the code we want to compare with when we check for unwind
// information. Do that *before* detouring, although the address will only be
// used after detouring.
RedirectionResolver resolver;
auto detouredCodeAddr = resolver.ResolveRedirectedAddressForTest(funcAddr);
#endif // _M_X64
bool successful = false;
WindowsDllInterceptor TestIntercept;
TestIntercept.Init(dll);
InterceptorFunction& interceptorFunc = InterceptorFunction::Create();
successful = orig_func->Set(
TestIntercept, func,
reinterpret_cast<OrigFuncT>(interceptorFunc.GetFunction()));
if (successful) {
auto stub = reinterpret_cast<uintptr_t>(orig_func->GetStub());
interceptorFunc.SetStub(stub);
printf("TEST-PASS | WindowsDllInterceptor | Could hook %s from %s\n", func,
dll);
fflush(stdout);
#ifdef _M_X64
// Check that unwind information has been added if and only if it was
// present for the original detoured code.
uintptr_t funcImageBase = 0;
auto funcEntry =
RtlLookupFunctionEntry(detouredCodeAddr, &funcImageBase, nullptr);
bool funcHasUnwindInfo = bool(funcEntry);
uintptr_t stubImageBase = 0;
auto stubEntry = RtlLookupFunctionEntry(stub, &stubImageBase, nullptr);
bool stubHasUnwindInfo = bool(stubEntry);
if (funcHasUnwindInfo == stubHasUnwindInfo) {
printf(
"TEST-PASS | WindowsDllInterceptor | The hook for %s from %s and "
"the original function are coherent with respect to unwind info: "
"funcHasUnwindInfo (%d) == stubHasUnwindInfo (%d).\n",
func, dll, funcHasUnwindInfo, stubHasUnwindInfo);
fflush(stdout);
} else {
printf(
"TEST-UNEXPECTED-FAIL | WindowsDllInterceptor | Hook for %s from %s "
"and the original function are not coherent with respect to unwind "
"info: "
"funcHasUnwindInfo (%d) != stubHasUnwindInfo (%d).\n",
func, dll, funcHasUnwindInfo, stubHasUnwindInfo);
fflush(stdout);
return false;
}
if (stubHasUnwindInfo) {
if (stub == (stubImageBase + stubEntry->BeginAddress)) {
printf(
"TEST-PASS | WindowsDllInterceptor | The hook for %s from %s has "
"coherent unwind info.\n",
func, dll);
fflush(stdout);
} else {
printf(
"TEST-UNEXPECTED-FAIL | WindowsDllInterceptor | The hook for %s "
" from %s has incoherent unwind info.\n",
func, dll);
fflush(stdout);
return false;
}
}
#endif // _M_X64
if (!aPred) {
printf(
"TEST-SKIPPED | WindowsDllInterceptor | "
"Will not attempt to execute patched %s.\n",
func);
fflush(stdout);
return true;
}
// Test the DLL function we just hooked.
return CheckHook(reinterpret_cast<OrigFuncT&>(funcAddr), dll, func,
std::forward<PredicateT>(aPred),
std::forward<Args>(aArgs)...);
} else {
printf(
"TEST-UNEXPECTED-FAIL | WindowsDllInterceptor | Failed to hook %s from "
"%s\n",
func, dll);
fflush(stdout);
// Print out the function's bytes so that we can easily analyze the error.
nsModuleHandle mod(::LoadLibraryW(dllW));
FARPROC funcAddr = ::GetProcAddress(mod, func);
if (funcAddr) {
const uint32_t kNumBytesToDump =
WindowsDllInterceptor::GetWorstCaseRequiredBytesToPatch();
PrintFunctionBytes(funcAddr, kNumBytesToDump);
}
return false;
}
}
// Detour the function and optionally attempt calling it
template <typename OrigFuncT, size_t N, typename PredicateT>
bool TestDetour(const char (&dll)[N], const char* func, PredicateT&& aPred) {
auto orig_func(
mozilla::MakeUnique<WindowsDllInterceptor::FuncHookType<OrigFuncT>>());
wchar_t dllW[N];
std::copy(std::begin(dll), std::end(dll), std::begin(dllW));
bool successful = false;
WindowsDllInterceptor TestIntercept;
TestIntercept.Init(dll);
InterceptorFunction& interceptorFunc = InterceptorFunction::Create();
successful = orig_func->Set(
TestIntercept, func,
reinterpret_cast<OrigFuncT>(interceptorFunc.GetFunction()));
if (successful) {
interceptorFunc.SetStub(reinterpret_cast<uintptr_t>(orig_func->GetStub()));
printf("TEST-PASS | WindowsDllInterceptor | Could detour %s from %s\n",
func, dll);
fflush(stdout);
if (!aPred) {
printf(
"TEST-SKIPPED | WindowsDllInterceptor | "
"Will not attempt to execute patched %s.\n",
func);
fflush(stdout);
return true;
}
// Test the DLL function we just hooked.
HMODULE module = ::LoadLibraryW(dllW);
FARPROC funcAddr = ::GetProcAddress(module, func);
if (!funcAddr) {
return false;
}
return CheckHook(reinterpret_cast<OrigFuncT&>(funcAddr), dll, func,
std::forward<PredicateT>(aPred));
} else {
printf(
"TEST-UNEXPECTED-FAIL | WindowsDllInterceptor | Failed to detour %s "
"from %s\n",
func, dll);
fflush(stdout);
return false;
}
}
// If a function pointer's type returns void*, this template converts that type
// to return uintptr_t instead, for the purposes of predicates.
template <typename FuncT>
struct SubstituteForVoidPtr {
using Type = FuncT;
};
template <typename... Args>
struct SubstituteForVoidPtr<void* (*)(Args...)> {
using Type = uintptr_t (*)(Args...);
};
#ifdef _M_IX86
template <typename... Args>
struct SubstituteForVoidPtr<void*(__stdcall*)(Args...)> {
using Type = uintptr_t(__stdcall*)(Args...);
};
template <typename... Args>
struct SubstituteForVoidPtr<void*(__fastcall*)(Args...)> {
using Type = uintptr_t(__fastcall*)(Args...);
};
#endif // _M_IX86
// Determines the function's return type
template <typename FuncT>
struct ReturnType;
template <typename R, typename... Args>
struct ReturnType<R (*)(Args...)> {
using Type = R;
};
#ifdef _M_IX86
template <typename R, typename... Args>
struct ReturnType<R(__stdcall*)(Args...)> {
using Type = R;
};
template <typename R, typename... Args>
struct ReturnType<R(__fastcall*)(Args...)> {
using Type = R;
};
#endif // _M_IX86
// Predicates that may be supplied during tests
template <typename FuncT>
struct Predicates {
using ArgType = typename ReturnType<FuncT>::Type;
template <ArgType CompVal>
static bool Equals(ArgType aValue) {
return CompVal == aValue;
}
template <ArgType CompVal>
static bool NotEquals(ArgType aValue) {
return CompVal != aValue;
}
template <ArgType CompVal>
static bool Ignore(ArgType aValue) {
return true;
}
};
// Functions that return void should be ignored, so we specialize the
// Ignore predicate for that case. Use nullptr as the value to compare against.
template <typename... Args>
struct Predicates<void (*)(Args...)> {
template <nullptr_t DummyVal>
static bool Ignore() {
return true;
}
};
#ifdef _M_IX86
template <typename... Args>
struct Predicates<void(__stdcall*)(Args...)> {
template <nullptr_t DummyVal>
static bool Ignore() {
return true;
}
};
template <typename... Args>
struct Predicates<void(__fastcall*)(Args...)> {
template <nullptr_t DummyVal>
static bool Ignore() {
return true;
}
};
#endif // _M_IX86
// The standard test. Hook |func|, and then try executing it with all zero
// arguments, using |pred| and |comp| to determine whether the call successfully
// executed. In general, you want set pred and comp such that they return true
// when the function is returning whatever value is expected with all-zero
// arguments.
//
// Note: When |func| returns void, you must supply |Ignore| and |nullptr| as the
// |pred| and |comp| arguments, respectively.
#define TEST_HOOK_HELPER(dll, func, pred, comp) \
TestHook<decltype(&func)>(dll, #func, \
&Predicates<decltype(&func)>::pred<comp>)
#define TEST_HOOK(dll, func, pred, comp) TEST_HOOK_HELPER(dll, func, pred, comp)
// We need to special-case functions that return INVALID_HANDLE_VALUE
// (ie, CreateFile). Our template machinery for comparing values doesn't work
// with integer constants passed as pointers (well, it works on MSVC, but not
// clang, because that is not standard-compliant).
#define TEST_HOOK_FOR_INVALID_HANDLE_VALUE(dll, func) \
TestHook<SubstituteForVoidPtr<decltype(&func)>::Type>( \
dll, #func, \
&Predicates<SubstituteForVoidPtr<decltype(&func)>::Type>::Equals< \
uintptr_t(-1)>)
// This variant allows you to explicitly supply arguments to the hooked function
// during testing. You want to provide arguments that produce the conditions
// that induce the function to return a value that is accepted by your
// predicate.
#define TEST_HOOK_PARAMS(dll, func, pred, comp, ...) \
TestHook<decltype(&func)>( \
dll, #func, &Predicates<decltype(&func)>::pred<comp>, __VA_ARGS__)
// This is for cases when we want to hook |func|, but it is unsafe to attempt
// to execute the function in the context of a test.
#define TEST_HOOK_SKIP_EXEC(dll, func) \
TestHook<decltype(&func)>( \
dll, #func, \
reinterpret_cast<bool (*)(typename ReturnType<decltype(&func)>::Type)>( \
NULL))
// The following three variants are identical to the previous macros,
// however the forcibly use a Detour on 32-bit Windows. On 64-bit Windows,
// these macros are identical to their TEST_HOOK variants.
#define TEST_DETOUR(dll, func, pred, comp) \
TestDetour<decltype(&func)>(dll, #func, \
&Predicates<decltype(&func)>::pred<comp>)
#define TEST_DETOUR_PARAMS(dll, func, pred, comp, ...) \
TestDetour<decltype(&func)>( \
dll, #func, &Predicates<decltype(&func)>::pred<comp>, __VA_ARGS__)
#define TEST_DETOUR_SKIP_EXEC(dll, func) \
TestDetour<decltype(&func)>( \
dll, #func, \
reinterpret_cast<bool (*)(typename ReturnType<decltype(&func)>::Type)>( \
NULL))
template <typename OrigFuncT, size_t N, typename PredicateT, typename... Args>
bool MaybeTestHook(const bool cond, const char (&dll)[N], const char* func,
PredicateT&& aPred, Args&&... aArgs) {
if (!cond) {
printf(
"TEST-SKIPPED | WindowsDllInterceptor | Skipped hook test for %s from "
"%s\n",
func, dll);
fflush(stdout);
return true;
}
return TestHook<OrigFuncT>(dll, func, std::forward<PredicateT>(aPred),
std::forward<Args>(aArgs)...);
}
// Like TEST_HOOK, but the test is only executed when cond is true.
#define MAYBE_TEST_HOOK(cond, dll, func, pred, comp) \
MaybeTestHook<decltype(&func)>(cond, dll, #func, \
&Predicates<decltype(&func)>::pred<comp>)
#define MAYBE_TEST_HOOK_PARAMS(cond, dll, func, pred, comp, ...) \
MaybeTestHook<decltype(&func)>( \
cond, dll, #func, &Predicates<decltype(&func)>::pred<comp>, __VA_ARGS__)
#define MAYBE_TEST_HOOK_SKIP_EXEC(cond, dll, func) \
MaybeTestHook<decltype(&func)>( \
cond, dll, #func, \
reinterpret_cast<bool (*)(typename ReturnType<decltype(&func)>::Type)>( \
NULL))
bool ShouldTestTipTsf() {
mozilla::DynamicallyLinkedFunctionPtr<decltype(&SHGetKnownFolderPath)>
pSHGetKnownFolderPath(L"shell32.dll", "SHGetKnownFolderPath");
if (!pSHGetKnownFolderPath) {
return false;
}
PWSTR commonFilesPath = nullptr;
if (FAILED(pSHGetKnownFolderPath(FOLDERID_ProgramFilesCommon, 0, nullptr,
&commonFilesPath))) {
return false;
}
wchar_t fullPath[MAX_PATH + 1] = {};
wcscpy(fullPath, commonFilesPath);
wcscat(fullPath, L"\\Microsoft Shared\\Ink\\tiptsf.dll");
CoTaskMemFree(commonFilesPath);
if (!LoadLibraryW(fullPath)) {
return false;
}
// Leak the module so that it's loaded for the interceptor test
return true;
}
static const wchar_t gEmptyUnicodeStringLiteral[] = L"";
static UNICODE_STRING gEmptyUnicodeString;
static BOOLEAN gIsPresent;
bool HasApiSetQueryApiSetPresence() {
mozilla::DynamicallyLinkedFunctionPtr<decltype(&ApiSetQueryApiSetPresence)>
func(L"Api-ms-win-core-apiquery-l1-1-0.dll", "ApiSetQueryApiSetPresence");
if (!func) {
return false;
}
// Prepare gEmptyUnicodeString for the test
::RtlInitUnicodeString(&gEmptyUnicodeString, gEmptyUnicodeStringLiteral);
return true;
}
// Set this to true to test function unhooking (currently broken).
const bool ShouldTestUnhookFunction = false;
#if defined(_M_X64) || defined(_M_ARM64)
// Use VMSharingPolicyUnique for the ShortInterceptor, as it needs to
// reserve its trampoline memory in a special location.
using ShortInterceptor = mozilla::interceptor::WindowsDllInterceptor<
mozilla::interceptor::VMSharingPolicyUnique<
mozilla::interceptor::MMPolicyInProcess>>;
static ShortInterceptor::FuncHookType<decltype(&::NtMapViewOfSection)>
orig_NtMapViewOfSection;
#endif // defined(_M_X64) || defined(_M_ARM64)
bool TestShortDetour() {
#if defined(_M_X64) || defined(_M_ARM64)
auto pNtMapViewOfSection = reinterpret_cast<decltype(&::NtMapViewOfSection)>(
::GetProcAddress(::GetModuleHandleW(L"ntdll.dll"), "NtMapViewOfSection"));
if (!pNtMapViewOfSection) {
printf(
"TEST-FAILED | WindowsDllInterceptor | "
"Failed to resolve ntdll!NtMapViewOfSection\n");
fflush(stdout);
return false;
}
{ // Scope for shortInterceptor
ShortInterceptor shortInterceptor;
shortInterceptor.TestOnlyDetourInit(
L"ntdll.dll",
mozilla::interceptor::DetourFlags::eTestOnlyForceShortPatch);
InterceptorFunction& interceptorFunc = InterceptorFunction::Create();
if (!orig_NtMapViewOfSection.SetDetour(
shortInterceptor, "NtMapViewOfSection",
reinterpret_cast<decltype(&::NtMapViewOfSection)>(
interceptorFunc.GetFunction()))) {
printf(
"TEST-FAILED | WindowsDllInterceptor | "
"Failed to hook ntdll!NtMapViewOfSection via 10-byte patch\n");
fflush(stdout);
return false;
}
interceptorFunc.SetStub(
reinterpret_cast<uintptr_t>(orig_NtMapViewOfSection.GetStub()));
auto pred =
&Predicates<decltype(&::NtMapViewOfSection)>::Ignore<((NTSTATUS)0)>;
if (!CheckHook(pNtMapViewOfSection, "ntdll.dll", "NtMapViewOfSection",
pred)) {
// CheckHook has already printed the error message for us
return false;
}
}
// Now ensure that our hook cleanup worked
if (ShouldTestUnhookFunction) {
NTSTATUS status =
pNtMapViewOfSection(nullptr, nullptr, nullptr, 0, 0, nullptr, nullptr,
((SECTION_INHERIT)0), 0, 0);
if (NT_SUCCESS(status)) {
printf(
"TEST-FAILED | WindowsDllInterceptor | "
"Unexpected successful call to ntdll!NtMapViewOfSection after "
"removing short-patched hook\n");
fflush(stdout);
return false;
}
printf(
"TEST-PASS | WindowsDllInterceptor | "
"Successfully unhooked ntdll!NtMapViewOfSection via short patch\n");
fflush(stdout);
}
return true;
#else
return true;
#endif
}
constexpr uintptr_t NoStubAddressCheck = 0;
constexpr uintptr_t ExpectedFail = 1;
struct TestCase {
const char* mFunctionName;
uintptr_t mExpectedStub;
bool mPatchedOnce;
bool mSkipExec;
explicit TestCase(const char* aFunctionName, uintptr_t aExpectedStub,
bool aSkipExec = false)
: mFunctionName(aFunctionName),
mExpectedStub(aExpectedStub),
mPatchedOnce(false),
mSkipExec(aSkipExec) {}
} g_AssemblyTestCases[] = {
#if defined(__clang__)
// We disable these testcases because the code coverage instrumentation injects
// code in a way that WindowsDllInterceptor doesn't understand.
# ifndef MOZ_CODE_COVERAGE
# if defined(_M_X64)
// Since we have PatchIfTargetIsRecognizedTrampoline for x64, we expect the
// original jump destination is returned as a stub.
TestCase("MovPushRet", JumpDestination,
mozilla::IsUserShadowStackEnabled()),
TestCase("MovRaxJump", JumpDestination),
TestCase("DoubleJump", JumpDestination),
// Passing NoStubAddressCheck as the following testcases return
// a trampoline address instead of the original destination.
TestCase("NearJump", NoStubAddressCheck),
TestCase("OpcodeFF", NoStubAddressCheck),
TestCase("IndirectCall", NoStubAddressCheck),
TestCase("MovImm64", NoStubAddressCheck),
# elif defined(_M_IX86)
// Skip the stub address check as we always generate a trampoline for x86.
TestCase("PushRet", NoStubAddressCheck,
mozilla::IsUserShadowStackEnabled()),
TestCase("MovEaxJump", NoStubAddressCheck),
TestCase("DoubleJump", NoStubAddressCheck),
TestCase("Opcode83", NoStubAddressCheck),
TestCase("LockPrefix", NoStubAddressCheck),
TestCase("LooksLikeLockPrefix", NoStubAddressCheck),
# endif
# if !defined(DEBUG)
// Skip on Debug build because it hits MOZ_ASSERT_UNREACHABLE.
TestCase("UnsupportedOp", ExpectedFail),
# endif // !defined(DEBUG)
# endif // MOZ_CODE_COVERAGE
#endif // defined(__clang__)
};
template <typename InterceptorType>
bool TestAssemblyFunctions() {
static const auto patchedFunction = []() { patched_func_called = true; };
InterceptorType interceptor;
interceptor.Init("TestDllInterceptor.exe");
for (auto& testCase : g_AssemblyTestCases) {
if (testCase.mExpectedStub == NoStubAddressCheck && testCase.mPatchedOnce) {
// For the testcases with NoStubAddressCheck, we revert a hook by
// jumping into the original stub, which is not detourable again.
continue;
}
typename InterceptorType::template FuncHookType<void (*)()> hook;
bool result =
hook.Set(interceptor, testCase.mFunctionName, patchedFunction);
if (testCase.mExpectedStub == ExpectedFail) {
if (result) {
printf(
"TEST-FAILED | WindowsDllInterceptor | "
"Unexpectedly succeeded to detour %s.\n",
testCase.mFunctionName);
return false;
}
#if defined(NIGHTLY_BUILD)
const Maybe<DetourError>& maybeError = interceptor.GetLastDetourError();
if (maybeError.isNothing()) {
printf(
"TEST-FAILED | WindowsDllInterceptor | "
"DetourError was not set on detour error.\n");
return false;
}
if (maybeError.ref().mErrorCode !=
DetourResultCode::DETOUR_PATCHER_CREATE_TRAMPOLINE_ERROR) {
printf(
"TEST-FAILED | WindowsDllInterceptor | "
"A wrong detour errorcode was set on detour error.\n");
return false;
}
#endif // defined(NIGHTLY_BUILD)
printf("TEST-PASS | WindowsDllInterceptor | %s\n",
testCase.mFunctionName);
continue;
}
if (!result) {
printf(
"TEST-FAILED | WindowsDllInterceptor | "
"Failed to detour %s.\n",
testCase.mFunctionName);
return false;
}
testCase.mPatchedOnce = true;
const auto actualStub = reinterpret_cast<uintptr_t>(hook.GetStub());
if (testCase.mExpectedStub != NoStubAddressCheck &&
actualStub != testCase.mExpectedStub) {
printf(
"TEST-FAILED | WindowsDllInterceptor | "
"Wrong stub was backed up for %s: %zx\n",
testCase.mFunctionName, actualStub);
return false;
}
if (testCase.mSkipExec) {
printf(
"TEST-SKIPPED | WindowsDllInterceptor | "
"Will not attempt to execute patched %s.\n",
testCase.mFunctionName);
} else {
patched_func_called = false;
auto originalFunction = reinterpret_cast<void (*)()>(
GetProcAddress(GetModuleHandleW(nullptr), testCase.mFunctionName));
originalFunction();
if (!patched_func_called) {
printf(
"TEST-FAILED | WindowsDllInterceptor | "
"Hook from %s was not called\n",
testCase.mFunctionName);
return false;
}
}
printf("TEST-PASS | WindowsDllInterceptor | %s\n", testCase.mFunctionName);
}
return true;
}
#if defined(_M_X64) && !defined(MOZ_CODE_COVERAGE)
// We want to test hooking and unhooking with unwind information, so we need:
// - a VMSharingPolicy such that ShouldUnhookUponDestruction() is true and
// Items() is implemented;
// - a MMPolicy such that ShouldUnhookUponDestruction() is true and
// kSupportsUnwindInfo is true.
using DetouredCallInterceptor = mozilla::interceptor::WindowsDllInterceptor<
mozilla::interceptor::VMSharingPolicyUnique<
mozilla::interceptor::MMPolicyInProcess>>;
struct DetouredCallChunk {
alignas(uint32_t) RUNTIME_FUNCTION functionTable[1];
alignas(uint32_t) uint8_t unwindInfo[sizeof(gDetouredCallUnwindInfo)];
uint8_t code[gDetouredCallCodeSize];
};
// Unfortunately using RtlAddFunctionTable for static code that lives within
// a module doesn't seem to work. Presumably it conflicts with the static
// function tables. So we recreate gDetouredCall as dynamic code to be able to
// associate it with unwind information.
decltype(&DetouredCallCode) gDetouredCall =
[]() -> decltype(&DetouredCallCode) {
// We first adjust the detoured call jumper from:
// ff 25 00 00 00 00 jmp qword ptr [rip + 0]
// to:
// ff 25 XX XX XX XX jmp qword ptr [rip + offset gDetouredCall]
uint8_t bytes[6]{0xff, 0x25, 0, 0, 0, 0};
if (0 != memcmp(bytes, reinterpret_cast<void*>(DetouredCallJumper),
sizeof bytes)) {
return nullptr;
}
DWORD oldProtect{};
// Because the current function could be located on the same memory page as
// DetouredCallJumper, we must preserve the permission to execute the page
// while we adjust the detoured call jumper (hence PAGE_EXECUTE_READWRITE).
if (!VirtualProtect(reinterpret_cast<void*>(DetouredCallJumper), sizeof bytes,
PAGE_EXECUTE_READWRITE, &oldProtect)) {
return nullptr;
}
*reinterpret_cast<uint32_t*>(&bytes[2]) = static_cast<uint32_t>(
reinterpret_cast<uintptr_t>(&gDetouredCall) -
(reinterpret_cast<uintptr_t>(DetouredCallJumper) + sizeof bytes));
memcpy(reinterpret_cast<void*>(DetouredCallJumper), bytes, sizeof bytes);
if (!VirtualProtect(reinterpret_cast<void*>(DetouredCallJumper), sizeof bytes,
oldProtect, &oldProtect)) {
return nullptr;
}
auto detouredCallChunk = reinterpret_cast<DetouredCallChunk*>(
VirtualAlloc(nullptr, sizeof(DetouredCallChunk), MEM_RESERVE | MEM_COMMIT,
PAGE_READWRITE));
if (!detouredCallChunk) {
return nullptr;
}
detouredCallChunk->functionTable[0].BeginAddress =
offsetof(DetouredCallChunk, code);
detouredCallChunk->functionTable[0].EndAddress =
offsetof(DetouredCallChunk, code) + gDetouredCallCodeSize;
detouredCallChunk->functionTable[0].UnwindData =
offsetof(DetouredCallChunk, unwindInfo);
memcpy(reinterpret_cast<void*>(&detouredCallChunk->unwindInfo),
reinterpret_cast<void*>(gDetouredCallUnwindInfo),
sizeof(detouredCallChunk->unwindInfo));
memcpy(reinterpret_cast<void*>(&detouredCallChunk->code[0]),
reinterpret_cast<void*>(DetouredCallCode),
sizeof(detouredCallChunk->code));
if (!VirtualProtect(reinterpret_cast<void*>(detouredCallChunk),
sizeof(DetouredCallChunk), PAGE_EXECUTE_READ,
&oldProtect)) {
VirtualFree(detouredCallChunk, 0, MEM_RELEASE);
return nullptr;
}
if (!RtlAddFunctionTable(detouredCallChunk->functionTable, 1,
reinterpret_cast<uintptr_t>(detouredCallChunk))) {
VirtualFree(detouredCallChunk, 0, MEM_RELEASE);
return nullptr;
}
return reinterpret_cast<decltype(&DetouredCallCode)>(detouredCallChunk->code);
}();
// We use our own variable instead of patched_func_called because the callee of
// gDetouredCall could end up calling other, already hooked functions could
// change patched_func_called.
static volatile bool sCalledPatchedDetouredCall = false;
static volatile bool sCalledDetouredCallCallee = false;
static volatile bool sCouldUnwindFromDetouredCallCallee = false;
void DetouredCallCallee() {
sCalledDetouredCallCallee = true;
// Check that we can fully unwind the stack
CONTEXT contextRecord{};
RtlCaptureContext(&contextRecord);
if (!contextRecord.Rip) {
printf(
"TEST-UNEXPECTED-FAIL | WindowsDllInterceptor | "
"DetouredCallCallee was unable to get an initial context to work "
"with\n");
fflush(stdout);
return;
}
while (contextRecord.Rip) {
DWORD64 imageBase = 0;
auto FunctionEntry =
RtlLookupFunctionEntry(contextRecord.Rip, &imageBase, nullptr);
if (!FunctionEntry) {
printf(
"TEST-UNEXPECTED-FAIL | WindowsDllInterceptor | "
"DetouredCallCallee was unable to get unwind info for ControlPc=%p\n",
reinterpret_cast<void*>(contextRecord.Rip));
fflush(stdout);
return;
}
printf(
"TEST-PASS | WindowsDllInterceptor | "
"DetouredCallCallee was able to get unwind info for ControlPc=%p\n",
reinterpret_cast<void*>(contextRecord.Rip));
fflush(stdout);
void* handlerData = nullptr;
DWORD64 establisherFrame = 0;
RtlVirtualUnwind(UNW_FLAG_NHANDLER, imageBase, contextRecord.Rip,
FunctionEntry, &contextRecord, &handlerData,
&establisherFrame, nullptr);
}
sCouldUnwindFromDetouredCallCallee = true;
}
static DetouredCallInterceptor::FuncHookType<decltype(&DetouredCallCode)>
orig_DetouredCall;
static void patched_DetouredCall(uintptr_t aCallee) {
sCalledPatchedDetouredCall = true;
return orig_DetouredCall(aCallee);
}
bool TestCallingDetouredCall(const char* aTestDescription,
bool aExpectCalledPatchedDetouredCall) {
sCalledPatchedDetouredCall = false;
sCalledDetouredCallCallee = false;
sCouldUnwindFromDetouredCallCallee = false;
DetouredCallJumper(reinterpret_cast<uintptr_t>(DetouredCallCallee));
if (aExpectCalledPatchedDetouredCall != sCalledPatchedDetouredCall) {
printf(
"TEST-UNEXPECTED-FAIL | WindowsDllInterceptor | "
"%s: expectCalledPatchedDetouredCall (%d) differs from "
"sCalledPatchedDetouredCall (%d)\n",
aTestDescription, aExpectCalledPatchedDetouredCall,
sCalledPatchedDetouredCall);
fflush(stdout);
return false;
}
printf(
"TEST-PASS | WindowsDllInterceptor | "
"%s: expectCalledPatchedDetouredCall (%d) matches with "
"sCalledPatchedDetouredCall (%d)\n",
aTestDescription, aExpectCalledPatchedDetouredCall,
sCalledPatchedDetouredCall);
fflush(stdout);
if (!sCalledDetouredCallCallee) {
printf(
"TEST-UNEXPECTED-FAIL | WindowsDllInterceptor | "
"%s: gDetouredCall failed to call its callee\n",
aTestDescription);
fflush(stdout);
return false;
}
printf(
"TEST-PASS | WindowsDllInterceptor | "
"%s: gDetouredCall successfully called its callee\n",
aTestDescription);
fflush(stdout);
if (!sCouldUnwindFromDetouredCallCallee) {
printf(
"TEST-UNEXPECTED-FAIL | WindowsDllInterceptor | "
"%s: the callee of gDetouredCall failed to unwind\n",
aTestDescription);
fflush(stdout);
return false;
}
printf(
"TEST-PASS | WindowsDllInterceptor | "
"%s: the callee of gDetouredCall successfully unwinded\n",
aTestDescription);
fflush(stdout);
return true;
}
// Test that detouring a call preserves unwind information (bug 1798787).
bool TestDetouredCallUnwindInfo() {
if (!gDetouredCall) {
printf(
"TEST-UNEXPECTED-FAIL | WindowsDllInterceptor | "
"Failed to generate dynamic gDetouredCall code\n");
fflush(stdout);
return false;
}
uintptr_t imageBase = 0;
if (!RtlLookupFunctionEntry(reinterpret_cast<uintptr_t>(gDetouredCall),
&imageBase, nullptr)) {
printf(
"TEST-UNEXPECTED-FAIL | WindowsDllInterceptor | "
"Failed to find unwind information for dynamic gDetouredCall code\n");
fflush(stdout);
return false;
}
// We first double check that we manage to unwind when we *do not* detour
if (!TestCallingDetouredCall("Before hooking", false)) {
return false;
}
uintptr_t StubAddress = 0;
// The real test starts here: let's detour and check if we can still unwind
{
DetouredCallInterceptor ExeIntercept;
ExeIntercept.Init("TestDllInterceptor.exe");
if (!orig_DetouredCall.Set(ExeIntercept, "DetouredCallJumper",
&patched_DetouredCall)) {
printf(
"TEST-UNEXPECTED-FAIL | WindowsDllInterceptor | "
"Failed to hook the detoured call jumper.\n");
fflush(stdout);
return false;
}
printf(
"TEST-PASS | WindowsDllInterceptor | "
"Successfully hooked the detoured call jumper.\n");
fflush(stdout);
StubAddress = reinterpret_cast<uintptr_t>(orig_DetouredCall.GetStub());
if (!RtlLookupFunctionEntry(StubAddress, &imageBase, nullptr)) {
printf(
"TEST-UNEXPECTED-FAIL | WindowsDllInterceptor | "
"Failed to find unwind information for detoured code of "
"gDetouredCall\n");
fflush(stdout);
return false;
}
TestCallingDetouredCall("After hooking", true);
}
// Check that we can still unwind after clearing the hook.
return TestCallingDetouredCall("After unhooking", false);
}
#endif // defined(_M_X64) && !defined(MOZ_CODE_COVERAGE)
#ifndef MOZ_CODE_COVERAGE
# if defined(_M_X64) || defined(_M_IX86)
bool TestSpareBytesAfterDetour() {
WindowsDllInterceptor interceptor;
interceptor.Init("TestDllInterceptor.exe");
InterceptorFunction& interceptorFunc = InterceptorFunction::Create();
auto orig_func(
mozilla::MakeUnique<WindowsDllInterceptor::FuncHookType<void (*)()>>());
bool successful = orig_func->Set(
interceptor, "SpareBytesAfterDetour",
reinterpret_cast<void (*)()>(interceptorFunc.GetFunction()));
if (!successful) {
printf(
"TEST-FAILED | WindowsDllInterceptor | "
"Failed to detour SpareBytesAfterDetour.\n");
return false;
}
FARPROC funcAddr =
::GetProcAddress(GetModuleHandleW(nullptr), "SpareBytesAfterDetour");
if (!funcAddr) {
printf(
"TEST-FAILED | WindowsDllInterceptor | "
"Failed to GetProcAddress() for SpareBytesAfterDetour.\n");
return false;
}
uint8_t* funcBytes = reinterpret_cast<uint8_t*>(funcAddr);
# if defined(_M_X64)
// patch is 13 bytes
// the next instruction ends after 17 bytes
if (*(funcBytes + 13) != 0x90 || *(funcBytes + 14) != 0x90 ||
*(funcBytes + 15) != 0x90 || *(funcBytes + 16) != 0x90) {
printf(
"TEST-FAILED | WindowsDllInterceptor | "
"SpareBytesAfterDetour doesn't have nop's after the patch.\n");
PrintFunctionBytes(funcAddr, 17);
return false;
}
printf(
"TEST-PASS | WindowsDllInterceptor | "
"SpareBytesAfterDetour has correct nop bytes after the patch.\n");
# elif defined(_M_IX86)
// patch is 5 bytes
// the next instruction ends after 6 bytes
if (*(funcBytes + 5) != 0x90) {
printf(
"TEST-FAILED | WindowsDllInterceptor | "
"SpareBytesAfterDetour doesn't have nop's after the patch.\n");
PrintFunctionBytes(funcAddr, 6);
return false;
}
printf(
"TEST-PASS | WindowsDllInterceptor | "
"SpareBytesAfterDetour has correct nop bytes after the patch.\n");
# endif
return true;
}
# endif // defined(_M_X64) || defined(_M_IX86)
# if defined(_M_X64)
bool TestSpareBytesAfterDetourFor10BytePatch() {
ShortInterceptor interceptor;
interceptor.TestOnlyDetourInit(
L"TestDllInterceptor.exe",
mozilla::interceptor::DetourFlags::eTestOnlyForceShortPatch);
InterceptorFunction& interceptorFunc = InterceptorFunction::Create();
auto orig_func(
mozilla::MakeUnique<ShortInterceptor::FuncHookType<void (*)()>>());
bool successful = orig_func->SetDetour(
interceptor, "SpareBytesAfterDetourFor10BytePatch",
reinterpret_cast<void (*)()>(interceptorFunc.GetFunction()));
if (!successful) {
printf(
"TEST-FAILED | WindowsDllInterceptor | "
"Failed to detour SpareBytesAfterDetourFor10BytePatch.\n");
return false;
}
FARPROC funcAddr = ::GetProcAddress(GetModuleHandleW(nullptr),
"SpareBytesAfterDetourFor10BytePatch");
if (!funcAddr) {
printf(
"TEST-FAILED | WindowsDllInterceptor | "
"Failed to GetProcAddress() for "
"SpareBytesAfterDetourFor10BytePatch.\n");
return false;
}
uint8_t* funcBytes = reinterpret_cast<uint8_t*>(funcAddr);
// patch is 10 bytes
// the next instruction ends after 12 bytes
if (*(funcBytes + 10) != 0x90 || *(funcBytes + 11) != 0x90) {
printf(
"TEST-FAILED | WindowsDllInterceptor | "
"SpareBytesAfterDetourFor10BytePatch doesn't have nop's after the "
"patch.\n");
PrintFunctionBytes(funcAddr, 12);
return false;
}
printf(
"TEST-PASS | WindowsDllInterceptor | "
"SpareBytesAfterDetourFor10BytePatch has correct nop bytes after the "
"patch.\n");
return true;
}
# endif
#endif // MOZ_CODE_COVERAGE
bool TestDynamicCodePolicy() {
PROCESS_MITIGATION_DYNAMIC_CODE_POLICY policy = {};
policy.ProhibitDynamicCode = true;
mozilla::DynamicallyLinkedFunctionPtr<decltype(&SetProcessMitigationPolicy)>
pSetProcessMitigationPolicy(L"kernel32.dll",
"SetProcessMitigationPolicy");
if (!pSetProcessMitigationPolicy) {
printf(
"TEST-UNEXPECTED-FAIL | WindowsDllInterceptor | "
"SetProcessMitigationPolicy does not exist.\n");
fflush(stdout);
return false;
}
if (!pSetProcessMitigationPolicy(ProcessDynamicCodePolicy, &policy,
sizeof(policy))) {
printf(
"TEST-UNEXPECTED-FAIL | WindowsDllInterceptor | "
"Fail to enable ProcessDynamicCodePolicy.\n");
fflush(stdout);
return false;
}
WindowsDllInterceptor ExeIntercept;
ExeIntercept.Init("TestDllInterceptor.exe");
// Make sure we fail to hook a function if ProcessDynamicCodePolicy is on
// because we cannot create an executable trampoline region.
if (orig_payloadNotHooked.Set(ExeIntercept, "payloadNotHooked",
&patched_rotatePayload)) {
printf(
"TEST-UNEXPECTED-FAIL | WindowsDllInterceptor | "
"ProcessDynamicCodePolicy is not working.\n");
fflush(stdout);
return false;
}
printf(
"TEST-PASS | WindowsDllInterceptor | "
"Successfully passed TestDynamicCodePolicy.\n");
fflush(stdout);
return true;
}
extern "C" int wmain(int argc, wchar_t* argv[]) {
LARGE_INTEGER start;
QueryPerformanceCounter(&start);
// We disable this part of the test because the code coverage instrumentation
// injects code in rotatePayload in a way that WindowsDllInterceptor doesn't
// understand.
#ifndef MOZ_CODE_COVERAGE
payload initial = {0x12345678, 0xfc4e9d31, 0x87654321};
payload p0, p1;
ZeroMemory(&p0, sizeof(p0));
ZeroMemory(&p1, sizeof(p1));
p0 = rotatePayload(initial);
{
WindowsDllInterceptor ExeIntercept;
ExeIntercept.Init("TestDllInterceptor.exe");
if (orig_rotatePayload.Set(ExeIntercept, "rotatePayload",
&patched_rotatePayload)) {
printf("TEST-PASS | WindowsDllInterceptor | Hook added\n");
fflush(stdout);
} else {
printf(
"TEST-UNEXPECTED-FAIL | WindowsDllInterceptor | Failed to add "
"hook\n");
fflush(stdout);
return 1;
}
p1 = rotatePayload(initial);
if (patched_func_called) {
printf("TEST-PASS | WindowsDllInterceptor | Hook called\n");
fflush(stdout);
} else {
printf(
"TEST-UNEXPECTED-FAIL | WindowsDllInterceptor | Hook was not "
"called\n");
fflush(stdout);
return 1;
}
if (p0 == p1) {
printf("TEST-PASS | WindowsDllInterceptor | Hook works properly\n");
fflush(stdout);
} else {
printf(
"TEST-UNEXPECTED-FAIL | WindowsDllInterceptor | Hook didn't return "
"the right information\n");
fflush(stdout);
return 1;
}
}
patched_func_called = false;
ZeroMemory(&p1, sizeof(p1));
p1 = rotatePayload(initial);
if (ShouldTestUnhookFunction != patched_func_called) {
printf(
"TEST-PASS | WindowsDllInterceptor | Hook was %scalled after "
"unregistration\n",
ShouldTestUnhookFunction ? "not " : "");
fflush(stdout);
} else {
printf(
"TEST-UNEXPECTED-FAIL | WindowsDllInterceptor | Hook was %scalled "
"after unregistration\n",
ShouldTestUnhookFunction ? "" : "not ");
fflush(stdout);
return 1;
}
if (p0 == p1) {
printf(
"TEST-PASS | WindowsDllInterceptor | Original function worked "
"properly\n");
fflush(stdout);
} else {
printf(
"TEST-UNEXPECTED-FAIL | WindowsDllInterceptor | Original function "
"didn't return the right information\n");
fflush(stdout);
return 1;
}
#endif
CredHandle credHandle;
memset(&credHandle, 0, sizeof(CredHandle));
OBJECT_ATTRIBUTES attributes = {};
// NB: These tests should be ordered such that lower-level APIs are tested
// before higher-level APIs.
if (TestShortDetour() &&
// Run <ShortInterceptor> first because <WindowsDllInterceptor>
// does not clean up hooks.
#if defined(_M_X64)
TestAssemblyFunctions<ShortInterceptor>() &&
#endif
TestAssemblyFunctions<WindowsDllInterceptor>() &&
#ifdef _M_IX86
// We keep this test to hook complex code on x86. (Bug 850957)
TEST_HOOK("ntdll.dll", NtFlushBuffersFile, NotEquals, 0) &&
#endif
TEST_HOOK("ntdll.dll", NtCreateFile, NotEquals, 0) &&
TEST_HOOK("ntdll.dll", NtReadFile, NotEquals, 0) &&
TEST_HOOK("ntdll.dll", NtReadFileScatter, NotEquals, 0) &&
TEST_HOOK("ntdll.dll", NtWriteFile, NotEquals, 0) &&
TEST_HOOK("ntdll.dll", NtWriteFileGather, NotEquals, 0) &&
TEST_HOOK_PARAMS("ntdll.dll", NtQueryFullAttributesFile, NotEquals, 0,
&attributes, nullptr) &&
TEST_DETOUR_SKIP_EXEC("ntdll.dll", LdrLoadDll) &&
TEST_HOOK("ntdll.dll", LdrUnloadDll, NotEquals, 0) &&
TEST_HOOK_SKIP_EXEC("ntdll.dll", LdrResolveDelayLoadedAPI) &&
MAYBE_TEST_HOOK_PARAMS(HasApiSetQueryApiSetPresence(),
"Api-ms-win-core-apiquery-l1-1-0.dll",
ApiSetQueryApiSetPresence, Equals, FALSE,
&gEmptyUnicodeString, &gIsPresent) &&
TEST_HOOK("kernelbase.dll", QueryDosDeviceW, Equals, 0) &&
TEST_HOOK("kernel32.dll", GetFileAttributesW, Equals,
INVALID_FILE_ATTRIBUTES) &&
#if !defined(_M_ARM64)
# ifndef MOZ_ASAN
// Bug 733892: toolkit/crashreporter/nsExceptionHandler.cpp
// This fails on ASan because the ASan runtime already hooked this
// function
TEST_HOOK("kernel32.dll", SetUnhandledExceptionFilter, Ignore, nullptr) &&
# endif
#endif // !defined(_M_ARM64)
#ifdef _M_IX86
TEST_HOOK_FOR_INVALID_HANDLE_VALUE("kernel32.dll", CreateFileW) &&
#endif
#if !defined(_M_ARM64)
TEST_HOOK_FOR_INVALID_HANDLE_VALUE("kernel32.dll", CreateFileA) &&
#endif // !defined(_M_ARM64)
#if !defined(_M_ARM64)
TEST_HOOK("kernel32.dll", TlsAlloc, NotEquals, TLS_OUT_OF_INDEXES) &&
TEST_HOOK_PARAMS("kernel32.dll", TlsFree, Equals, FALSE,
TLS_OUT_OF_INDEXES) &&
TEST_HOOK("kernel32.dll", CloseHandle, Equals, FALSE) &&
TEST_HOOK("kernel32.dll", DuplicateHandle, Equals, FALSE) &&
#endif // !defined(_M_ARM64)
TEST_DETOUR_SKIP_EXEC("kernel32.dll", BaseThreadInitThunk) &&
#if defined(_M_X64) || defined(_M_ARM64)
TEST_HOOK("user32.dll", GetKeyState, Ignore, 0) && // see Bug 1316415
#endif
TEST_HOOK("user32.dll", GetWindowInfo, Equals, FALSE) &&
TEST_HOOK("user32.dll", TrackPopupMenu, Equals, FALSE) &&
TEST_DETOUR("user32.dll", CreateWindowExW, Equals, nullptr) &&
TEST_HOOK("user32.dll", InSendMessageEx, Equals, ISMEX_NOSEND) &&
TEST_HOOK("user32.dll", SendMessageTimeoutW, Equals, 0) &&
TEST_HOOK("user32.dll", SetCursorPos, NotEquals, FALSE) &&
TEST_HOOK("bcrypt.dll", BCryptGenRandom, Equals,
static_cast<NTSTATUS>(STATUS_INVALID_HANDLE)) &&
TEST_HOOK("advapi32.dll", RtlGenRandom, Equals, TRUE) &&
#if !defined(_M_ARM64)
TEST_HOOK("imm32.dll", ImmGetContext, Equals, nullptr) &&
#endif // !defined(_M_ARM64)
TEST_HOOK("imm32.dll", ImmGetCompositionStringW, Ignore, 0) &&
TEST_HOOK_SKIP_EXEC("imm32.dll", ImmSetCandidateWindow) &&
TEST_HOOK("imm32.dll", ImmNotifyIME, Equals, 0) &&
TEST_HOOK("msctf.dll", TF_Notify, Equals, 0) &&
TEST_HOOK("comdlg32.dll", GetSaveFileNameW, Ignore, FALSE) &&
TEST_HOOK("comdlg32.dll", GetOpenFileNameW, Ignore, FALSE) &&
#if defined(_M_X64)
TEST_HOOK("comdlg32.dll", PrintDlgW, Ignore, 0) &&
#endif
MAYBE_TEST_HOOK(ShouldTestTipTsf(), "tiptsf.dll", ProcessCaretEvents,
Ignore, nullptr) &&
TEST_HOOK("wininet.dll", InternetOpenA, NotEquals, nullptr) &&
TEST_HOOK("wininet.dll", InternetCloseHandle, Equals, FALSE) &&
TEST_HOOK("wininet.dll", InternetConnectA, Equals, nullptr) &&
TEST_HOOK("wininet.dll", InternetQueryDataAvailable, Equals, FALSE) &&
TEST_HOOK("wininet.dll", InternetReadFile, Equals, FALSE) &&
TEST_HOOK("wininet.dll", InternetWriteFile, Equals, FALSE) &&
TEST_HOOK("wininet.dll", InternetSetOptionA, Equals, FALSE) &&
TEST_HOOK("wininet.dll", HttpAddRequestHeadersA, Equals, FALSE) &&
TEST_HOOK("wininet.dll", HttpOpenRequestA, Equals, nullptr) &&
TEST_HOOK("wininet.dll", HttpQueryInfoA, Equals, FALSE) &&
TEST_HOOK("wininet.dll", HttpSendRequestA, Equals, FALSE) &&
TEST_HOOK("wininet.dll", HttpSendRequestExA, Equals, FALSE) &&
TEST_HOOK("wininet.dll", HttpEndRequestA, Equals, FALSE) &&
TEST_HOOK("wininet.dll", InternetQueryOptionA, Equals, FALSE) &&
TEST_HOOK("sspicli.dll", AcquireCredentialsHandleA, NotEquals,
SEC_E_OK) &&
TEST_HOOK_PARAMS("sspicli.dll", QueryCredentialsAttributesA, Equals,
SEC_E_INVALID_HANDLE, &credHandle, 0, nullptr) &&
TEST_HOOK_PARAMS("sspicli.dll", FreeCredentialsHandle, Equals,
SEC_E_INVALID_HANDLE, &credHandle) &&
#if defined(_M_X64) && !defined(MOZ_CODE_COVERAGE)
TestDetouredCallUnwindInfo() &&
#endif // defined(_M_X64) && !defined(MOZ_CODE_COVERAGE)
// We disable these testcases because the code coverage instrumentation injects
// code in a way that WindowsDllInterceptor doesn't understand.
#ifndef MOZ_CODE_COVERAGE
# if defined(_M_X64) || defined(_M_IX86)
TestSpareBytesAfterDetour() &&
# if defined(_M_X64)
TestSpareBytesAfterDetourFor10BytePatch() &&
# endif // defined(_M_X64)
# endif // MOZ_CODE_COVERAGE
#endif // defined(_M_X64) || defined(_M_IX86)
// Run TestDynamicCodePolicy() at the end because the policy is
// irreversible.
TestDynamicCodePolicy()) {
printf("TEST-PASS | WindowsDllInterceptor | all checks passed\n");
LARGE_INTEGER end, freq;
QueryPerformanceCounter(&end);
QueryPerformanceFrequency(&freq);
LARGE_INTEGER result;
result.QuadPart = end.QuadPart - start.QuadPart;
result.QuadPart *= 1000000;
result.QuadPart /= freq.QuadPart;
printf("Elapsed time: %lld microseconds\n", result.QuadPart);
return 0;
}
return 1;
}
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