sandbox/win/src/interception_unittest.cc - bauxite - Git at Google

 // Copyright (c) 2011 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 InterceptionManager.
 // The tests require private information so the whole interception.cc file is
 // included from this file.

 #include <windows.h>

 #include "base/memory/scoped_ptr.h"
 #include "sandbox/win/src/interception.h"
 #include "sandbox/win/src/interceptors.h"
 #include "sandbox/win/src/interception_internal.h"
 #include "sandbox/win/src/target_process.h"
 #include "testing/gtest/include/gtest/gtest.h"

 namespace sandbox {

 // Walks the settings buffer, verifying that the values make sense and counting
 // objects.
 // Arguments:
 // buffer (in): the buffer to walk.
 // size (in): buffer size
 // num_dlls (out): count of the dlls on the buffer.
 // num_function (out): count of intercepted functions.
 // num_names (out): count of named interceptor functions.
 void WalkBuffer(void* buffer, size_t size, int* num_dlls, int* num_functions,
                 int* num_names) {
   ASSERT_TRUE(NULL != buffer);
   ASSERT_TRUE(NULL != num_functions);
   ASSERT_TRUE(NULL != num_names);
   *num_dlls = *num_functions = *num_names = 0;
   SharedMemory *memory = reinterpret_cast<SharedMemory*>(buffer);

   ASSERT_GT(size, sizeof(SharedMemory));
   DllPatchInfo *dll = &memory->dll_list[0];

   for (int i = 0; i < memory->num_intercepted_dlls; i++) {
     ASSERT_NE(0u, wcslen(dll->dll_name));
     ASSERT_EQ(0u, dll->record_bytes % sizeof(size_t));
     ASSERT_EQ(0u, dll->offset_to_functions % sizeof(size_t));
     ASSERT_NE(0, dll->num_functions);

     FunctionInfo *function = reinterpret_cast<FunctionInfo*>(
       reinterpret_cast<char*>(dll) + dll->offset_to_functions);

     for (int j = 0; j < dll->num_functions; j++) {
       ASSERT_EQ(0u, function->record_bytes % sizeof(size_t));

       char* name = function->function;
       size_t length = strlen(name);
       ASSERT_NE(0u, length);
       name += length + 1;

       // look for overflows
       ASSERT_GT(reinterpret_cast<char*>(buffer) + size, name + strlen(name));

       // look for a named interceptor
       if (strlen(name)) {
         (*num_names)++;
         EXPECT_TRUE(NULL == function->interceptor_address);
       } else {
         EXPECT_TRUE(NULL != function->interceptor_address);
       }

       (*num_functions)++;
       function = reinterpret_cast<FunctionInfo*>(
         reinterpret_cast<char*>(function) + function->record_bytes);
     }

     (*num_dlls)++;
     dll = reinterpret_cast<DllPatchInfo*>(reinterpret_cast<char*>(dll) +
                                           dll->record_bytes);
   }
 }

 TEST(InterceptionManagerTest, BufferLayout1) {
   wchar_t exe_name[MAX_PATH];
   ASSERT_NE(0u, GetModuleFileName(NULL, exe_name, MAX_PATH - 1));

   TargetProcess *target = MakeTestTargetProcess(::GetCurrentProcess(),
                                                 ::GetModuleHandle(exe_name));

   InterceptionManager interceptions(target, true);

   // Any pointer will do for a function pointer.
   void* function = &interceptions;

   // We don't care about the interceptor id.
   interceptions.AddToPatchedFunctions(L"ntdll.dll", "NtCreateFile",
                                       INTERCEPTION_SERVICE_CALL, function,
                                       OPEN_KEY_ID);
   interceptions.AddToPatchedFunctions(L"kernel32.dll", "CreateFileEx",
                                       INTERCEPTION_EAT, function, OPEN_KEY_ID);
   interceptions.AddToPatchedFunctions(L"kernel32.dll", "SomeFileEx",
                                       INTERCEPTION_SMART_SIDESTEP, function,
                                       OPEN_KEY_ID);
   interceptions.AddToPatchedFunctions(L"user32.dll", "FindWindow",
                                       INTERCEPTION_EAT, function, OPEN_KEY_ID);
   interceptions.AddToPatchedFunctions(L"kernel32.dll", "CreateMutex",
                                       INTERCEPTION_EAT, function, OPEN_KEY_ID);
   interceptions.AddToPatchedFunctions(L"user32.dll", "PostMsg",
                                       INTERCEPTION_EAT, function, OPEN_KEY_ID);
   interceptions.AddToPatchedFunctions(L"user32.dll", "PostMsg",
                                       INTERCEPTION_EAT, "replacement",
                                       OPEN_KEY_ID);
   interceptions.AddToPatchedFunctions(L"comctl.dll", "SaveAsDlg",
                                       INTERCEPTION_EAT, function, OPEN_KEY_ID);
   interceptions.AddToPatchedFunctions(L"ntdll.dll", "NtClose",
                                       INTERCEPTION_SERVICE_CALL, function,
                                       OPEN_KEY_ID);
   interceptions.AddToPatchedFunctions(L"ntdll.dll", "NtOpenFile",
                                       INTERCEPTION_SIDESTEP, function,
                                       OPEN_KEY_ID);
   interceptions.AddToPatchedFunctions(L"some.dll", "Superfn",
                                       INTERCEPTION_EAT, function, OPEN_KEY_ID);
   interceptions.AddToPatchedFunctions(L"comctl.dll", "SaveAsDlg",
                                       INTERCEPTION_EAT, "a", OPEN_KEY_ID);
   interceptions.AddToPatchedFunctions(L"comctl.dll", "SaveAsDlg",
                                       INTERCEPTION_SIDESTEP, "ab", OPEN_KEY_ID);
   interceptions.AddToPatchedFunctions(L"comctl.dll", "SaveAsDlg",
                                       INTERCEPTION_EAT, "abc", OPEN_KEY_ID);
   interceptions.AddToPatchedFunctions(L"a.dll", "p",
                                       INTERCEPTION_EAT, function, OPEN_KEY_ID);
   interceptions.AddToPatchedFunctions(L"b.dll",
                                       "TheIncredibleCallToSaveTheWorld",
                                       INTERCEPTION_EAT, function, OPEN_KEY_ID);
   interceptions.AddToPatchedFunctions(L"a.dll", "BIsLame",
                                       INTERCEPTION_EAT, function, OPEN_KEY_ID);
   interceptions.AddToPatchedFunctions(L"a.dll", "ARules",
                                       INTERCEPTION_EAT, function, OPEN_KEY_ID);

   // Verify that all interceptions were added
   ASSERT_EQ(18, interceptions.interceptions_.size());

   size_t buffer_size = interceptions.GetBufferSize();
   scoped_ptr<BYTE[]> local_buffer(new BYTE[buffer_size]);

   ASSERT_TRUE(interceptions.SetupConfigBuffer(local_buffer.get(),
                                               buffer_size));

   // At this point, the interceptions should have been separated into two
   // groups: one group with the local ("cold") interceptions, consisting of
   // everything from ntdll and stuff set as INTRECEPTION_SERVICE_CALL, and
   // another group with the interceptions belonging to dlls that will be "hot"
   // patched on the client. The second group lives on local_buffer, and the
   // first group remains on the list of interceptions (inside the object
   // "interceptions"). There are 3 local interceptions (of ntdll); the
   // other 15 have to be sent to the child to be performed "hot".
   EXPECT_EQ(3, interceptions.interceptions_.size());

   int num_dlls, num_functions, num_names;
   WalkBuffer(local_buffer.get(), buffer_size, &num_dlls, &num_functions,
              &num_names);

   // The 15 interceptions on the buffer (to the child) should be grouped on 6
   // dlls. Only four interceptions are using an explicit name for the
   // interceptor function.
   EXPECT_EQ(6, num_dlls);
   EXPECT_EQ(15, num_functions);
   EXPECT_EQ(4, num_names);
 }

 TEST(InterceptionManagerTest, BufferLayout2) {
   wchar_t exe_name[MAX_PATH];
   ASSERT_NE(0u, GetModuleFileName(NULL, exe_name, MAX_PATH - 1));

   TargetProcess *target = MakeTestTargetProcess(::GetCurrentProcess(),
                                                 ::GetModuleHandle(exe_name));

   InterceptionManager interceptions(target, true);

   // Any pointer will do for a function pointer.
   void* function = &interceptions;
   interceptions.AddToUnloadModules(L"some01.dll");
   // We don't care about the interceptor id.
   interceptions.AddToPatchedFunctions(L"ntdll.dll", "NtCreateFile",
                                       INTERCEPTION_SERVICE_CALL, function,
                                       OPEN_FILE_ID);
   interceptions.AddToPatchedFunctions(L"kernel32.dll", "CreateFileEx",
                                       INTERCEPTION_EAT, function, OPEN_FILE_ID);
   interceptions.AddToUnloadModules(L"some02.dll");
   interceptions.AddToPatchedFunctions(L"kernel32.dll", "SomeFileEx",
                                       INTERCEPTION_SMART_SIDESTEP, function,
                                       OPEN_FILE_ID);
   // Verify that all interceptions were added
   ASSERT_EQ(5, interceptions.interceptions_.size());

   size_t buffer_size = interceptions.GetBufferSize();
   scoped_ptr<BYTE[]> local_buffer(new BYTE[buffer_size]);

   ASSERT_TRUE(interceptions.SetupConfigBuffer(local_buffer.get(),
                                               buffer_size));

   // At this point, the interceptions should have been separated into two
   // groups: one group with the local ("cold") interceptions, and another
   // group with the interceptions belonging to dlls that will be "hot"
   // patched on the client. The second group lives on local_buffer, and the
   // first group remains on the list of interceptions, in this case just one.
   EXPECT_EQ(1, interceptions.interceptions_.size());

   int num_dlls, num_functions, num_names;
   WalkBuffer(local_buffer.get(), buffer_size, &num_dlls, &num_functions,
              &num_names);

   EXPECT_EQ(3, num_dlls);
   EXPECT_EQ(4, num_functions);
   EXPECT_EQ(0, num_names);
 }

 }  // namespace sandbox
	// Copyright (c) 2011 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 InterceptionManager.
	// The tests require private information so the whole interception.cc file is
	// included from this file.

	#include <windows.h>

	#include "base/memory/scoped_ptr.h"
	#include "sandbox/win/src/interception.h"
	#include "sandbox/win/src/interceptors.h"
	#include "sandbox/win/src/interception_internal.h"
	#include "sandbox/win/src/target_process.h"
	#include "testing/gtest/include/gtest/gtest.h"

	namespace sandbox {

	// Walks the settings buffer, verifying that the values make sense and counting
	// objects.
	// Arguments:
	// buffer (in): the buffer to walk.
	// size (in): buffer size
	// num_dlls (out): count of the dlls on the buffer.
	// num_function (out): count of intercepted functions.
	// num_names (out): count of named interceptor functions.
	void WalkBuffer(void* buffer, size_t size, int* num_dlls, int* num_functions,
	int* num_names) {
	ASSERT_TRUE(NULL != buffer);
	ASSERT_TRUE(NULL != num_functions);
	ASSERT_TRUE(NULL != num_names);
	num_dlls = num_functions = *num_names = 0;
	SharedMemory memory = reinterpret_cast<SharedMemory>(buffer);

	ASSERT_GT(size, sizeof(SharedMemory));
	DllPatchInfo *dll = &memory->dll_list[0];

	for (int i = 0; i < memory->num_intercepted_dlls; i++) {
	ASSERT_NE(0u, wcslen(dll->dll_name));
	ASSERT_EQ(0u, dll->record_bytes % sizeof(size_t));
	ASSERT_EQ(0u, dll->offset_to_functions % sizeof(size_t));
	ASSERT_NE(0, dll->num_functions);

	FunctionInfo function = reinterpret_cast<FunctionInfo>(
	reinterpret_cast<char*>(dll) + dll->offset_to_functions);

	for (int j = 0; j < dll->num_functions; j++) {
	ASSERT_EQ(0u, function->record_bytes % sizeof(size_t));

	char* name = function->function;
	size_t length = strlen(name);
	ASSERT_NE(0u, length);
	name += length + 1;

	// look for overflows
	ASSERT_GT(reinterpret_cast<char*>(buffer) + size, name + strlen(name));

	// look for a named interceptor
	if (strlen(name)) {
	(*num_names)++;
	EXPECT_TRUE(NULL == function->interceptor_address);
	} else {
	EXPECT_TRUE(NULL != function->interceptor_address);
	}

	(*num_functions)++;
	function = reinterpret_cast<FunctionInfo*>(
	reinterpret_cast<char*>(function) + function->record_bytes);
	}

	(*num_dlls)++;
	dll = reinterpret_cast<DllPatchInfo>(reinterpret_cast<char>(dll) +
	dll->record_bytes);
	}
	}

	TEST(InterceptionManagerTest, BufferLayout1) {
	wchar_t exe_name[MAX_PATH];
	ASSERT_NE(0u, GetModuleFileName(NULL, exe_name, MAX_PATH - 1));

	TargetProcess *target = MakeTestTargetProcess(::GetCurrentProcess(),
	::GetModuleHandle(exe_name));

	InterceptionManager interceptions(target, true);

	// Any pointer will do for a function pointer.
	void* function = &interceptions;

	// We don't care about the interceptor id.
	interceptions.AddToPatchedFunctions(L"ntdll.dll", "NtCreateFile",
	INTERCEPTION_SERVICE_CALL, function,
	OPEN_KEY_ID);
	interceptions.AddToPatchedFunctions(L"kernel32.dll", "CreateFileEx",
	INTERCEPTION_EAT, function, OPEN_KEY_ID);
	interceptions.AddToPatchedFunctions(L"kernel32.dll", "SomeFileEx",
	INTERCEPTION_SMART_SIDESTEP, function,
	OPEN_KEY_ID);
	interceptions.AddToPatchedFunctions(L"user32.dll", "FindWindow",
	INTERCEPTION_EAT, function, OPEN_KEY_ID);
	interceptions.AddToPatchedFunctions(L"kernel32.dll", "CreateMutex",
	INTERCEPTION_EAT, function, OPEN_KEY_ID);
	interceptions.AddToPatchedFunctions(L"user32.dll", "PostMsg",
	INTERCEPTION_EAT, function, OPEN_KEY_ID);
	interceptions.AddToPatchedFunctions(L"user32.dll", "PostMsg",
	INTERCEPTION_EAT, "replacement",
	OPEN_KEY_ID);
	interceptions.AddToPatchedFunctions(L"comctl.dll", "SaveAsDlg",
	INTERCEPTION_EAT, function, OPEN_KEY_ID);
	interceptions.AddToPatchedFunctions(L"ntdll.dll", "NtClose",
	INTERCEPTION_SERVICE_CALL, function,
	OPEN_KEY_ID);
	interceptions.AddToPatchedFunctions(L"ntdll.dll", "NtOpenFile",
	INTERCEPTION_SIDESTEP, function,
	OPEN_KEY_ID);
	interceptions.AddToPatchedFunctions(L"some.dll", "Superfn",
	INTERCEPTION_EAT, function, OPEN_KEY_ID);
	interceptions.AddToPatchedFunctions(L"comctl.dll", "SaveAsDlg",
	INTERCEPTION_EAT, "a", OPEN_KEY_ID);
	interceptions.AddToPatchedFunctions(L"comctl.dll", "SaveAsDlg",
	INTERCEPTION_SIDESTEP, "ab", OPEN_KEY_ID);
	interceptions.AddToPatchedFunctions(L"comctl.dll", "SaveAsDlg",
	INTERCEPTION_EAT, "abc", OPEN_KEY_ID);
	interceptions.AddToPatchedFunctions(L"a.dll", "p",
	INTERCEPTION_EAT, function, OPEN_KEY_ID);
	interceptions.AddToPatchedFunctions(L"b.dll",
	"TheIncredibleCallToSaveTheWorld",
	INTERCEPTION_EAT, function, OPEN_KEY_ID);
	interceptions.AddToPatchedFunctions(L"a.dll", "BIsLame",
	INTERCEPTION_EAT, function, OPEN_KEY_ID);
	interceptions.AddToPatchedFunctions(L"a.dll", "ARules",
	INTERCEPTION_EAT, function, OPEN_KEY_ID);

	// Verify that all interceptions were added
	ASSERT_EQ(18, interceptions.interceptions_.size());

	size_t buffer_size = interceptions.GetBufferSize();
	scoped_ptr<BYTE[]> local_buffer(new BYTE[buffer_size]);

	ASSERT_TRUE(interceptions.SetupConfigBuffer(local_buffer.get(),
	buffer_size));

	// At this point, the interceptions should have been separated into two
	// groups: one group with the local ("cold") interceptions, consisting of
	// everything from ntdll and stuff set as INTRECEPTION_SERVICE_CALL, and
	// another group with the interceptions belonging to dlls that will be "hot"
	// patched on the client. The second group lives on local_buffer, and the
	// first group remains on the list of interceptions (inside the object
	// "interceptions"). There are 3 local interceptions (of ntdll); the
	// other 15 have to be sent to the child to be performed "hot".
	EXPECT_EQ(3, interceptions.interceptions_.size());

	int num_dlls, num_functions, num_names;
	WalkBuffer(local_buffer.get(), buffer_size, &num_dlls, &num_functions,
	&num_names);

	// The 15 interceptions on the buffer (to the child) should be grouped on 6
	// dlls. Only four interceptions are using an explicit name for the
	// interceptor function.
	EXPECT_EQ(6, num_dlls);
	EXPECT_EQ(15, num_functions);
	EXPECT_EQ(4, num_names);
	}

	TEST(InterceptionManagerTest, BufferLayout2) {
	wchar_t exe_name[MAX_PATH];
	ASSERT_NE(0u, GetModuleFileName(NULL, exe_name, MAX_PATH - 1));

	TargetProcess *target = MakeTestTargetProcess(::GetCurrentProcess(),
	::GetModuleHandle(exe_name));

	InterceptionManager interceptions(target, true);

	// Any pointer will do for a function pointer.
	void* function = &interceptions;
	interceptions.AddToUnloadModules(L"some01.dll");
	// We don't care about the interceptor id.
	interceptions.AddToPatchedFunctions(L"ntdll.dll", "NtCreateFile",
	INTERCEPTION_SERVICE_CALL, function,
	OPEN_FILE_ID);
	interceptions.AddToPatchedFunctions(L"kernel32.dll", "CreateFileEx",
	INTERCEPTION_EAT, function, OPEN_FILE_ID);
	interceptions.AddToUnloadModules(L"some02.dll");
	interceptions.AddToPatchedFunctions(L"kernel32.dll", "SomeFileEx",
	INTERCEPTION_SMART_SIDESTEP, function,
	OPEN_FILE_ID);
	// Verify that all interceptions were added
	ASSERT_EQ(5, interceptions.interceptions_.size());

	size_t buffer_size = interceptions.GetBufferSize();
	scoped_ptr<BYTE[]> local_buffer(new BYTE[buffer_size]);

	ASSERT_TRUE(interceptions.SetupConfigBuffer(local_buffer.get(),
	buffer_size));

	// At this point, the interceptions should have been separated into two
	// groups: one group with the local ("cold") interceptions, and another
	// group with the interceptions belonging to dlls that will be "hot"
	// patched on the client. The second group lives on local_buffer, and the
	// first group remains on the list of interceptions, in this case just one.
	EXPECT_EQ(1, interceptions.interceptions_.size());

	int num_dlls, num_functions, num_names;
	WalkBuffer(local_buffer.get(), buffer_size, &num_dlls, &num_functions,
	&num_names);

	EXPECT_EQ(3, num_dlls);
	EXPECT_EQ(4, num_functions);
	EXPECT_EQ(0, num_names);
	}

	} // namespace sandbox