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// Copyright (c) 2012 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
// This file contains unit tests for ServiceResolverThunk.
#include "sandbox/win/src/service_resolver.h"
#include <stddef.h>
#include <memory>
#include "base/bit_cast.h"
#include "base/macros.h"
#include "base/win/windows_version.h"
#include "sandbox/win/src/resolver.h"
#include "sandbox/win/src/sandbox_utils.h"
#include "testing/gtest/include/gtest/gtest.h"
namespace {
class ResolverThunkTest {
public:
virtual ~ResolverThunkTest() {}
virtual sandbox::ServiceResolverThunk* resolver() = 0;
// Sets the interception target to the desired address.
void set_target(void* target) { fake_target_ = target; }
protected:
// Holds the address of the fake target.
void* fake_target_;
};
// This is the concrete resolver used to perform service-call type functions
// inside ntdll.dll.
template <typename T>
class ResolverThunkTestImpl : public T, public ResolverThunkTest {
public:
// The service resolver needs a child process to write to.
explicit ResolverThunkTestImpl(bool relaxed)
: T(::GetCurrentProcess(), relaxed) {}
sandbox::ServiceResolverThunk* resolver() { return this; }
protected:
// Overrides Resolver::Init
virtual NTSTATUS Init(const void* target_module,
const void* interceptor_module,
const char* target_name,
const char* interceptor_name,
const void* interceptor_entry_point,
void* thunk_storage,
size_t storage_bytes) {
NTSTATUS ret = STATUS_SUCCESS;
ret = T::Init(target_module, interceptor_module, target_name,
interceptor_name, interceptor_entry_point, thunk_storage,
storage_bytes);
EXPECT_EQ(STATUS_SUCCESS, ret);
this->target_ = fake_target_;
return ret;
}
DISALLOW_COPY_AND_ASSIGN(ResolverThunkTestImpl);
};
typedef ResolverThunkTestImpl<sandbox::ServiceResolverThunk> WinXpResolverTest;
#if !defined(_WIN64)
typedef ResolverThunkTestImpl<sandbox::Win8ResolverThunk> Win8ResolverTest;
typedef ResolverThunkTestImpl<sandbox::Wow64ResolverThunk> Wow64ResolverTest;
typedef ResolverThunkTestImpl<sandbox::Wow64W8ResolverThunk>
Wow64W8ResolverTest;
typedef ResolverThunkTestImpl<sandbox::Wow64W10ResolverThunk>
Wow64W10ResolverTest;
#endif
const BYTE kJump32 = 0xE9;
void CheckJump(void* source, void* target) {
#pragma pack(push)
#pragma pack(1)
struct Code {
BYTE jump;
ULONG delta;
};
#pragma pack(pop)
#if defined(_WIN64)
FAIL() << "Running 32-bit codepath";
#else
Code* patched = reinterpret_cast<Code*>(source);
EXPECT_EQ(kJump32, patched->jump);
ULONG source_addr = bit_cast<ULONG>(source);
ULONG target_addr = bit_cast<ULONG>(target);
EXPECT_EQ(target_addr + 19 - source_addr, patched->delta);
#endif
}
NTSTATUS PatchNtdllWithResolver(const char* function,
bool relaxed,
ResolverThunkTest* thunk_test) {
HMODULE ntdll_base = ::GetModuleHandle(L"ntdll.dll");
EXPECT_TRUE(ntdll_base);
void* target =
reinterpret_cast<void*>(::GetProcAddress(ntdll_base, function));
EXPECT_TRUE(target);
if (!target)
return STATUS_UNSUCCESSFUL;
BYTE service[50];
memcpy(service, target, sizeof(service));
thunk_test->set_target(service);
sandbox::ServiceResolverThunk* resolver = thunk_test->resolver();
// Any pointer will do as an interception_entry_point
void* function_entry = resolver;
size_t thunk_size = resolver->GetThunkSize();
std::unique_ptr<char[]> thunk(new char[thunk_size]);
size_t used;
resolver->AllowLocalPatches();
NTSTATUS ret =
resolver->Setup(ntdll_base, nullptr, function, nullptr, function_entry,
thunk.get(), thunk_size, &used);
if (NT_SUCCESS(ret)) {
EXPECT_EQ(thunk_size, used);
EXPECT_NE(0, memcmp(service, target, sizeof(service)));
EXPECT_NE(kJump32, service[0]);
if (relaxed) {
// It's already patched, let's patch again, and simulate a direct patch.
service[0] = kJump32;
ret = resolver->Setup(ntdll_base, nullptr, function, nullptr,
function_entry, thunk.get(), thunk_size, &used);
CheckJump(service, thunk.get());
}
}
return ret;
}
std::unique_ptr<ResolverThunkTest> GetTestResolver(bool relaxed) {
#if defined(_WIN64)
return std::make_unique<WinXpResolverTest>(relaxed);
#else
base::win::OSInfo* os_info = base::win::OSInfo::GetInstance();
if (os_info->wow64_status() == base::win::OSInfo::WOW64_ENABLED) {
if (os_info->version() >= base::win::Version::WIN10)
return std::make_unique<Wow64W10ResolverTest>(relaxed);
if (os_info->version() >= base::win::Version::WIN8)
return std::make_unique<Wow64W8ResolverTest>(relaxed);
return std::make_unique<Wow64ResolverTest>(relaxed);
}
if (os_info->version() >= base::win::Version::WIN8)
return std::make_unique<Win8ResolverTest>(relaxed);
return std::make_unique<WinXpResolverTest>(relaxed);
#endif
}
NTSTATUS PatchNtdll(const char* function, bool relaxed) {
std::unique_ptr<ResolverThunkTest> thunk_test = GetTestResolver(relaxed);
return PatchNtdllWithResolver(function, relaxed, thunk_test.get());
}
TEST(ServiceResolverTest, PatchesServices) {
NTSTATUS ret = PatchNtdll("NtClose", false);
EXPECT_EQ(STATUS_SUCCESS, ret) << "NtClose, last error: " << ::GetLastError();
ret = PatchNtdll("NtCreateFile", false);
EXPECT_EQ(STATUS_SUCCESS, ret)
<< "NtCreateFile, last error: " << ::GetLastError();
ret = PatchNtdll("NtCreateMutant", false);
EXPECT_EQ(STATUS_SUCCESS, ret)
<< "NtCreateMutant, last error: " << ::GetLastError();
ret = PatchNtdll("NtMapViewOfSection", false);
EXPECT_EQ(STATUS_SUCCESS, ret)
<< "NtMapViewOfSection, last error: " << ::GetLastError();
}
TEST(ServiceResolverTest, FailsIfNotService) {
#if !defined(_WIN64)
EXPECT_NE(STATUS_SUCCESS, PatchNtdll("RtlUlongByteSwap", false));
#endif
EXPECT_NE(STATUS_SUCCESS, PatchNtdll("LdrLoadDll", false));
}
TEST(ServiceResolverTest, PatchesPatchedServices) {
// We don't support "relaxed mode" for Win64 apps.
#if !defined(_WIN64)
NTSTATUS ret = PatchNtdll("NtClose", true);
EXPECT_EQ(STATUS_SUCCESS, ret) << "NtClose, last error: " << ::GetLastError();
ret = PatchNtdll("NtCreateFile", true);
EXPECT_EQ(STATUS_SUCCESS, ret)
<< "NtCreateFile, last error: " << ::GetLastError();
ret = PatchNtdll("NtCreateMutant", true);
EXPECT_EQ(STATUS_SUCCESS, ret)
<< "NtCreateMutant, last error: " << ::GetLastError();
ret = PatchNtdll("NtMapViewOfSection", true);
EXPECT_EQ(STATUS_SUCCESS, ret)
<< "NtMapViewOfSection, last error: " << ::GetLastError();
#endif
}
TEST(ServiceResolverTest, MultiplePatchedServices) {
// We don't support "relaxed mode" for Win64 apps.
#if !defined(_WIN64)
std::unique_ptr<ResolverThunkTest> thunk_test = GetTestResolver(true);
NTSTATUS ret = PatchNtdllWithResolver("NtClose", true, thunk_test.get());
EXPECT_EQ(STATUS_SUCCESS, ret) << "NtClose, last error: " << ::GetLastError();
ret = PatchNtdllWithResolver("NtCreateFile", true, thunk_test.get());
EXPECT_EQ(STATUS_SUCCESS, ret)
<< "NtCreateFile, last error: " << ::GetLastError();
ret = PatchNtdllWithResolver("NtCreateMutant", true, thunk_test.get());
EXPECT_EQ(STATUS_SUCCESS, ret)
<< "NtCreateMutant, last error: " << ::GetLastError();
ret = PatchNtdllWithResolver("NtMapViewOfSection", true, thunk_test.get());
EXPECT_EQ(STATUS_SUCCESS, ret)
<< "NtMapViewOfSection, last error: " << ::GetLastError();
#endif
}
TEST(ServiceResolverTest, LocalPatchesAllowed) {
std::unique_ptr<ResolverThunkTest> thunk_test = GetTestResolver(true);
HMODULE ntdll_base = ::GetModuleHandle(L"ntdll.dll");
ASSERT_TRUE(ntdll_base);
const char kFunctionName[] = "NtClose";
void* target =
reinterpret_cast<void*>(::GetProcAddress(ntdll_base, kFunctionName));
ASSERT_TRUE(target);
BYTE service[50];
memcpy(service, target, sizeof(service));
thunk_test->set_target(service);
sandbox::ServiceResolverThunk* resolver = thunk_test->resolver();
// Any pointer will do as an interception_entry_point
void* function_entry = resolver;
size_t thunk_size = resolver->GetThunkSize();
std::unique_ptr<char[]> thunk(new char[thunk_size]);
size_t used;
NTSTATUS ret = STATUS_UNSUCCESSFUL;
// First try patching without having allowed local patches.
ret = resolver->Setup(ntdll_base, nullptr, kFunctionName, nullptr,
function_entry, thunk.get(), thunk_size, &used);
EXPECT_FALSE(NT_SUCCESS(ret));
// Now allow local patches and check that things work.
resolver->AllowLocalPatches();
ret = resolver->Setup(ntdll_base, nullptr, kFunctionName, nullptr,
function_entry, thunk.get(), thunk_size, &used);
EXPECT_EQ(STATUS_SUCCESS, ret);
}
} // namespace
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