chrome_elf/blacklist/test/blacklist_test.cc - platform/external/chromium_org - Git at Google

 // Copyright 2013 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.

 #include "base/environment.h"
 #include "base/files/file_path.h"
 #include "base/files/scoped_temp_dir.h"
 #include "base/i18n/case_conversion.h"
 #include "base/path_service.h"
 #include "base/scoped_native_library.h"
 #include "base/strings/string16.h"
 #include "base/strings/string_number_conversions.h"
 #include "base/strings/utf_string_conversions.h"
 #include "base/test/test_reg_util_win.h"
 #include "base/win/registry.h"
 #include "chrome_elf/blacklist/blacklist.h"
 #include "chrome_elf/blacklist/test/blacklist_test_main_dll.h"
 #include "chrome_elf/chrome_elf_constants.h"
 #include "testing/gtest/include/gtest/gtest.h"
 #include "version.h"  // NOLINT

 const wchar_t kTestDllName1[] = L"blacklist_test_dll_1.dll";
 const wchar_t kTestDllName2[] = L"blacklist_test_dll_2.dll";
 const wchar_t kTestDllName3[] = L"blacklist_test_dll_3.dll";

 const wchar_t kDll2Beacon[] = L"{F70A0100-2889-4629-9B44-610FE5C73231}";
 const wchar_t kDll3Beacon[] = L"{9E056AEC-169E-400c-B2D0-5A07E3ACE2EB}";

 extern const wchar_t* kEnvVars[];

 extern "C" {
 // When modifying the blacklist in the test process, use the exported test dll
 // functions on the test blacklist dll, not the ones linked into the test
 // executable itself.
 __declspec(dllimport) bool TestDll_AddDllsFromRegistryToBlacklist();
 __declspec(dllimport) bool TestDll_AddDllToBlacklist(const wchar_t* dll_name);
 __declspec(dllimport) bool TestDll_IsBlacklistInitialized();
 __declspec(dllimport) bool TestDll_RemoveDllFromBlacklist(
     const wchar_t* dll_name);
 __declspec(dllimport) bool TestDll_SuccessfullyBlocked(
     const wchar_t** blocked_dlls,
     int* size);
 }

 namespace {

 class BlacklistTest : public testing::Test {
  protected:
   BlacklistTest() : override_manager_() {
     override_manager_.OverrideRegistry(HKEY_CURRENT_USER, L"beacon_test");
   }

   scoped_ptr<base::win::RegKey> blacklist_registry_key_;
   registry_util::RegistryOverrideManager override_manager_;

  private:
   virtual void SetUp() {
     // Force an import from blacklist_test_main_dll.
     InitBlacklistTestDll();
     blacklist_registry_key_.reset(
         new base::win::RegKey(HKEY_CURRENT_USER,
                               blacklist::kRegistryBeaconPath,
                               KEY_QUERY_VALUE | KEY_SET_VALUE));
   }

   virtual void TearDown() {
     TestDll_RemoveDllFromBlacklist(kTestDllName1);
     TestDll_RemoveDllFromBlacklist(kTestDllName2);
     TestDll_RemoveDllFromBlacklist(kTestDllName3);
   }
 };

 struct TestData {
   const wchar_t* dll_name;
   const wchar_t* dll_beacon;
 } test_data[] = {{kTestDllName2, kDll2Beacon}, {kTestDllName3, kDll3Beacon}};

 TEST_F(BlacklistTest, Beacon) {
   // Ensure that the beacon state starts off 'running' for this version.
   LONG result = blacklist_registry_key_->WriteValue(
       blacklist::kBeaconState, blacklist::BLACKLIST_SETUP_RUNNING);
   EXPECT_EQ(ERROR_SUCCESS, result);

   result = blacklist_registry_key_->WriteValue(blacklist::kBeaconVersion,
                                                TEXT(CHROME_VERSION_STRING));
   EXPECT_EQ(ERROR_SUCCESS, result);

   // First call should find the beacon and reset it.
   EXPECT_TRUE(blacklist::ResetBeacon());

   // First call should succeed as the beacon is enabled.
   EXPECT_TRUE(blacklist::LeaveSetupBeacon());
 }

 TEST_F(BlacklistTest, AddAndRemoveModules) {
   EXPECT_TRUE(blacklist::AddDllToBlacklist(L"foo.dll"));
   // Adding the same item twice should be idempotent.
   EXPECT_TRUE(blacklist::AddDllToBlacklist(L"foo.dll"));
   EXPECT_TRUE(blacklist::RemoveDllFromBlacklist(L"foo.dll"));
   EXPECT_FALSE(blacklist::RemoveDllFromBlacklist(L"foo.dll"));

   // Increase the blacklist size by 1 to include the NULL pointer
   // that marks the end.
   int empty_spaces = blacklist::kTroublesomeDllsMaxCount - (
       blacklist::BlacklistSize() + 1);
   std::vector<base::string16> added_dlls;
   added_dlls.reserve(empty_spaces);
   for (int i = 0; i < empty_spaces; ++i) {
     added_dlls.push_back(base::IntToString16(i) + L".dll");
     EXPECT_TRUE(blacklist::AddDllToBlacklist(added_dlls[i].c_str())) << i;
   }
   EXPECT_FALSE(blacklist::AddDllToBlacklist(L"overflow.dll"));
   for (int i = 0; i < empty_spaces; ++i) {
     EXPECT_TRUE(blacklist::RemoveDllFromBlacklist(added_dlls[i].c_str())) << i;
   }
   EXPECT_FALSE(blacklist::RemoveDllFromBlacklist(added_dlls[0].c_str()));
   EXPECT_FALSE(blacklist::RemoveDllFromBlacklist(
     added_dlls[empty_spaces - 1].c_str()));
 }

 TEST_F(BlacklistTest, SuccessfullyBlocked) {
   // Ensure that we have at least 5 dlls to blacklist.
   int blacklist_size = blacklist::BlacklistSize();
   const int kDesiredBlacklistSize = 5;
   for (int i = blacklist_size; i < kDesiredBlacklistSize; ++i) {
     base::string16 new_dll_name(base::IntToString16(i) + L".dll");
     EXPECT_TRUE(blacklist::AddDllToBlacklist(new_dll_name.c_str()));
   }

   // Block 5 dlls, one at a time, starting from the end of the list, and
   // ensuring SuccesfullyBlocked correctly passes the list of blocked dlls.
   for (int i = 0; i < kDesiredBlacklistSize; ++i) {
     blacklist::BlockedDll(i);

     int size = 0;
     blacklist::SuccessfullyBlocked(NULL, &size);
     EXPECT_EQ(i + 1, size);

     std::vector<const wchar_t*> blocked_dlls(size);
     blacklist::SuccessfullyBlocked(&(blocked_dlls[0]), &size);
     EXPECT_EQ(i + 1, size);

     for (size_t j = 0; j < blocked_dlls.size(); ++j) {
       EXPECT_EQ(blocked_dlls[j], blacklist::g_troublesome_dlls[j]);
     }
   }
 }

 void CheckBlacklistedDllsNotLoaded() {
   base::FilePath current_dir;
   ASSERT_TRUE(PathService::Get(base::DIR_EXE, &current_dir));

   for (int i = 0; i < arraysize(test_data); ++i) {
     // Ensure that the dll has not been loaded both by inspecting the handle
     // returned by LoadLibrary and by looking for an environment variable that
     // is set when the DLL's entry point is called.
     base::ScopedNativeLibrary dll_blacklisted(
         current_dir.Append(test_data[i].dll_name));
     EXPECT_FALSE(dll_blacklisted.is_valid());
     EXPECT_EQ(0u, ::GetEnvironmentVariable(test_data[i].dll_beacon, NULL, 0));
     dll_blacklisted.Reset(NULL);

     // Ensure that the dll is recorded as blocked.
     int array_size = 1;
     const wchar_t* blocked_dll = NULL;
     TestDll_SuccessfullyBlocked(&blocked_dll, &array_size);
     EXPECT_EQ(1, array_size);
     EXPECT_EQ(test_data[i].dll_name, base::string16(blocked_dll));

     // Remove the DLL from the blacklist. Ensure that it loads and that its
     // entry point was called.
     EXPECT_TRUE(TestDll_RemoveDllFromBlacklist(test_data[i].dll_name));
     base::ScopedNativeLibrary dll(current_dir.Append(test_data[i].dll_name));
     EXPECT_TRUE(dll.is_valid());
     EXPECT_NE(0u, ::GetEnvironmentVariable(test_data[i].dll_beacon, NULL, 0));
     dll.Reset(NULL);

     ::SetEnvironmentVariable(test_data[i].dll_beacon, NULL);

     // Ensure that the dll won't load even if the name has different
     // capitalization.
     base::string16 uppercase_name = base::i18n::ToUpper(test_data[i].dll_name);
     EXPECT_TRUE(TestDll_AddDllToBlacklist(uppercase_name.c_str()));
     base::ScopedNativeLibrary dll_blacklisted_different_case(
         current_dir.Append(test_data[i].dll_name));
     EXPECT_FALSE(dll_blacklisted_different_case.is_valid());
     EXPECT_EQ(0u, ::GetEnvironmentVariable(test_data[i].dll_beacon, NULL, 0));
     dll_blacklisted_different_case.Reset(NULL);

     EXPECT_TRUE(TestDll_RemoveDllFromBlacklist(uppercase_name.c_str()));

     // The blocked dll was removed, so we shouldn't get anything returned
     // here.
     int num_blocked_dlls = 0;
     TestDll_SuccessfullyBlocked(NULL, &num_blocked_dlls);
     EXPECT_EQ(0, num_blocked_dlls);
   }
 }

 TEST_F(BlacklistTest, LoadBlacklistedLibrary) {
   base::FilePath current_dir;
   ASSERT_TRUE(PathService::Get(base::DIR_EXE, &current_dir));

   // Ensure that the blacklist is loaded.
   ASSERT_TRUE(TestDll_IsBlacklistInitialized());

   // Test that an un-blacklisted DLL can load correctly.
   base::ScopedNativeLibrary dll1(current_dir.Append(kTestDllName1));
   EXPECT_TRUE(dll1.is_valid());
   dll1.Reset(NULL);

   int num_blocked_dlls = 0;
   TestDll_SuccessfullyBlocked(NULL, &num_blocked_dlls);
   EXPECT_EQ(0, num_blocked_dlls);

   // Add all DLLs to the blacklist then check they are blocked.
   for (int i = 0; i < arraysize(test_data); ++i) {
     EXPECT_TRUE(TestDll_AddDllToBlacklist(test_data[i].dll_name));
   }
   CheckBlacklistedDllsNotLoaded();
 }

 TEST_F(BlacklistTest, AddDllsFromRegistryToBlacklist) {
   // Ensure that the blacklist is loaded.
   ASSERT_TRUE(TestDll_IsBlacklistInitialized());

   // Delete the finch registry key to clear its values.
   base::win::RegKey key(HKEY_CURRENT_USER,
                         blacklist::kRegistryFinchListPath,
                         KEY_QUERY_VALUE | KEY_SET_VALUE);
   key.DeleteKey(L"");

   // Add the test dlls to the registry (with their name as both key and value).
   base::win::RegKey finch_blacklist_registry_key(
       HKEY_CURRENT_USER,
       blacklist::kRegistryFinchListPath,
       KEY_QUERY_VALUE | KEY_SET_VALUE);
   for (int i = 0; i < arraysize(test_data); ++i) {
     finch_blacklist_registry_key.WriteValue(test_data[i].dll_name,
                                             test_data[i].dll_name);
   }

   EXPECT_TRUE(TestDll_AddDllsFromRegistryToBlacklist());
   CheckBlacklistedDllsNotLoaded();
 }

 void TestResetBeacon(scoped_ptr<base::win::RegKey>& key,
                      DWORD input_state,
                      DWORD expected_output_state) {
   LONG result = key->WriteValue(blacklist::kBeaconState, input_state);
   EXPECT_EQ(ERROR_SUCCESS, result);

   EXPECT_TRUE(blacklist::ResetBeacon());
   DWORD blacklist_state = blacklist::BLACKLIST_STATE_MAX;
   result = key->ReadValueDW(blacklist::kBeaconState, &blacklist_state);
   EXPECT_EQ(ERROR_SUCCESS, result);
   EXPECT_EQ(expected_output_state, blacklist_state);
 }

 TEST_F(BlacklistTest, ResetBeacon) {
   // Ensure that ResetBeacon resets properly on successful runs and not on
   // failed or disabled runs.
   TestResetBeacon(blacklist_registry_key_,
                   blacklist::BLACKLIST_SETUP_RUNNING,
                   blacklist::BLACKLIST_ENABLED);

   TestResetBeacon(blacklist_registry_key_,
                   blacklist::BLACKLIST_SETUP_FAILED,
                   blacklist::BLACKLIST_SETUP_FAILED);

   TestResetBeacon(blacklist_registry_key_,
                   blacklist::BLACKLIST_DISABLED,
                   blacklist::BLACKLIST_DISABLED);
 }

 TEST_F(BlacklistTest, SetupFailed) {
   // Ensure that when the number of failed tries reaches the maximum allowed,
   // the blacklist state is set to failed.
   LONG result = blacklist_registry_key_->WriteValue(
       blacklist::kBeaconState, blacklist::BLACKLIST_SETUP_RUNNING);
   EXPECT_EQ(ERROR_SUCCESS, result);

   // Set the attempt count so that on the next failure the blacklist is
   // disabled.
   result = blacklist_registry_key_->WriteValue(
       blacklist::kBeaconAttemptCount, blacklist::kBeaconMaxAttempts - 1);
   EXPECT_EQ(ERROR_SUCCESS, result);

   EXPECT_FALSE(blacklist::LeaveSetupBeacon());

   DWORD attempt_count = 0;
   blacklist_registry_key_->ReadValueDW(blacklist::kBeaconAttemptCount,
                                        &attempt_count);
   EXPECT_EQ(attempt_count, blacklist::kBeaconMaxAttempts);

   DWORD blacklist_state = blacklist::BLACKLIST_STATE_MAX;
   result = blacklist_registry_key_->ReadValueDW(blacklist::kBeaconState,
                                                 &blacklist_state);
   EXPECT_EQ(ERROR_SUCCESS, result);
   EXPECT_EQ(blacklist_state, blacklist::BLACKLIST_SETUP_FAILED);
 }

 TEST_F(BlacklistTest, SetupSucceeded) {
   // Starting with the enabled beacon should result in the setup running state
   // and the attempt counter reset to zero.
   LONG result = blacklist_registry_key_->WriteValue(
       blacklist::kBeaconState, blacklist::BLACKLIST_ENABLED);
   EXPECT_EQ(ERROR_SUCCESS, result);
   result = blacklist_registry_key_->WriteValue(blacklist::kBeaconAttemptCount,
                                                blacklist::kBeaconMaxAttempts);
   EXPECT_EQ(ERROR_SUCCESS, result);

   EXPECT_TRUE(blacklist::LeaveSetupBeacon());

   DWORD blacklist_state = blacklist::BLACKLIST_STATE_MAX;
   blacklist_registry_key_->ReadValueDW(blacklist::kBeaconState,
                                        &blacklist_state);
   EXPECT_EQ(blacklist_state, blacklist::BLACKLIST_SETUP_RUNNING);

   DWORD attempt_count = blacklist::kBeaconMaxAttempts;
   blacklist_registry_key_->ReadValueDW(blacklist::kBeaconAttemptCount,
                                        &attempt_count);
   EXPECT_EQ(static_cast<DWORD>(0), attempt_count);
 }

 }  // namespace
	// Copyright 2013 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.

	#include "base/environment.h"
	#include "base/files/file_path.h"
	#include "base/files/scoped_temp_dir.h"
	#include "base/i18n/case_conversion.h"
	#include "base/path_service.h"
	#include "base/scoped_native_library.h"
	#include "base/strings/string16.h"
	#include "base/strings/string_number_conversions.h"
	#include "base/strings/utf_string_conversions.h"
	#include "base/test/test_reg_util_win.h"
	#include "base/win/registry.h"
	#include "chrome_elf/blacklist/blacklist.h"
	#include "chrome_elf/blacklist/test/blacklist_test_main_dll.h"
	#include "chrome_elf/chrome_elf_constants.h"
	#include "testing/gtest/include/gtest/gtest.h"
	#include "version.h" // NOLINT

	const wchar_t kTestDllName1[] = L"blacklist_test_dll_1.dll";
	const wchar_t kTestDllName2[] = L"blacklist_test_dll_2.dll";
	const wchar_t kTestDllName3[] = L"blacklist_test_dll_3.dll";

	const wchar_t kDll2Beacon[] = L"{F70A0100-2889-4629-9B44-610FE5C73231}";
	const wchar_t kDll3Beacon[] = L"{9E056AEC-169E-400c-B2D0-5A07E3ACE2EB}";

	extern const wchar_t* kEnvVars[];

	extern "C" {
	// When modifying the blacklist in the test process, use the exported test dll
	// functions on the test blacklist dll, not the ones linked into the test
	// executable itself.
	__declspec(dllimport) bool TestDll_AddDllsFromRegistryToBlacklist();
	__declspec(dllimport) bool TestDll_AddDllToBlacklist(const wchar_t* dll_name);
	__declspec(dllimport) bool TestDll_IsBlacklistInitialized();
	__declspec(dllimport) bool TestDll_RemoveDllFromBlacklist(
	const wchar_t* dll_name);
	__declspec(dllimport) bool TestDll_SuccessfullyBlocked(
	const wchar_t** blocked_dlls,
	int* size);
	}

	namespace {

	class BlacklistTest : public testing::Test {
	protected:
	BlacklistTest() : override_manager_() {
	override_manager_.OverrideRegistry(HKEY_CURRENT_USER, L"beacon_test");
	}

	scoped_ptr<base::win::RegKey> blacklist_registry_key_;
	registry_util::RegistryOverrideManager override_manager_;

	private:
	virtual void SetUp() {
	// Force an import from blacklist_test_main_dll.
	InitBlacklistTestDll();
	blacklist_registry_key_.reset(
	new base::win::RegKey(HKEY_CURRENT_USER,
	blacklist::kRegistryBeaconPath,
	KEY_QUERY_VALUE \| KEY_SET_VALUE));
	}

	virtual void TearDown() {
	TestDll_RemoveDllFromBlacklist(kTestDllName1);
	TestDll_RemoveDllFromBlacklist(kTestDllName2);
	TestDll_RemoveDllFromBlacklist(kTestDllName3);
	}
	};

	struct TestData {
	const wchar_t* dll_name;
	const wchar_t* dll_beacon;
	} test_data[] = {{kTestDllName2, kDll2Beacon}, {kTestDllName3, kDll3Beacon}};

	TEST_F(BlacklistTest, Beacon) {
	// Ensure that the beacon state starts off 'running' for this version.
	LONG result = blacklist_registry_key_->WriteValue(
	blacklist::kBeaconState, blacklist::BLACKLIST_SETUP_RUNNING);
	EXPECT_EQ(ERROR_SUCCESS, result);

	result = blacklist_registry_key_->WriteValue(blacklist::kBeaconVersion,
	TEXT(CHROME_VERSION_STRING));
	EXPECT_EQ(ERROR_SUCCESS, result);

	// First call should find the beacon and reset it.
	EXPECT_TRUE(blacklist::ResetBeacon());

	// First call should succeed as the beacon is enabled.
	EXPECT_TRUE(blacklist::LeaveSetupBeacon());
	}

	TEST_F(BlacklistTest, AddAndRemoveModules) {
	EXPECT_TRUE(blacklist::AddDllToBlacklist(L"foo.dll"));
	// Adding the same item twice should be idempotent.
	EXPECT_TRUE(blacklist::AddDllToBlacklist(L"foo.dll"));
	EXPECT_TRUE(blacklist::RemoveDllFromBlacklist(L"foo.dll"));
	EXPECT_FALSE(blacklist::RemoveDllFromBlacklist(L"foo.dll"));

	// Increase the blacklist size by 1 to include the NULL pointer
	// that marks the end.
	int empty_spaces = blacklist::kTroublesomeDllsMaxCount - (
	blacklist::BlacklistSize() + 1);
	std::vector<base::string16> added_dlls;
	added_dlls.reserve(empty_spaces);
	for (int i = 0; i < empty_spaces; ++i) {
	added_dlls.push_back(base::IntToString16(i) + L".dll");
	EXPECT_TRUE(blacklist::AddDllToBlacklist(added_dlls[i].c_str())) << i;
	}
	EXPECT_FALSE(blacklist::AddDllToBlacklist(L"overflow.dll"));
	for (int i = 0; i < empty_spaces; ++i) {
	EXPECT_TRUE(blacklist::RemoveDllFromBlacklist(added_dlls[i].c_str())) << i;
	}
	EXPECT_FALSE(blacklist::RemoveDllFromBlacklist(added_dlls[0].c_str()));
	EXPECT_FALSE(blacklist::RemoveDllFromBlacklist(
	added_dlls[empty_spaces - 1].c_str()));
	}

	TEST_F(BlacklistTest, SuccessfullyBlocked) {
	// Ensure that we have at least 5 dlls to blacklist.
	int blacklist_size = blacklist::BlacklistSize();
	const int kDesiredBlacklistSize = 5;
	for (int i = blacklist_size; i < kDesiredBlacklistSize; ++i) {
	base::string16 new_dll_name(base::IntToString16(i) + L".dll");
	EXPECT_TRUE(blacklist::AddDllToBlacklist(new_dll_name.c_str()));
	}

	// Block 5 dlls, one at a time, starting from the end of the list, and
	// ensuring SuccesfullyBlocked correctly passes the list of blocked dlls.
	for (int i = 0; i < kDesiredBlacklistSize; ++i) {
	blacklist::BlockedDll(i);

	int size = 0;
	blacklist::SuccessfullyBlocked(NULL, &size);
	EXPECT_EQ(i + 1, size);

	std::vector<const wchar_t*> blocked_dlls(size);
	blacklist::SuccessfullyBlocked(&(blocked_dlls[0]), &size);
	EXPECT_EQ(i + 1, size);

	for (size_t j = 0; j < blocked_dlls.size(); ++j) {
	EXPECT_EQ(blocked_dlls[j], blacklist::g_troublesome_dlls[j]);
	}
	}
	}

	void CheckBlacklistedDllsNotLoaded() {
	base::FilePath current_dir;
	ASSERT_TRUE(PathService::Get(base::DIR_EXE, &current_dir));

	for (int i = 0; i < arraysize(test_data); ++i) {
	// Ensure that the dll has not been loaded both by inspecting the handle
	// returned by LoadLibrary and by looking for an environment variable that
	// is set when the DLL's entry point is called.
	base::ScopedNativeLibrary dll_blacklisted(
	current_dir.Append(test_data[i].dll_name));
	EXPECT_FALSE(dll_blacklisted.is_valid());
	EXPECT_EQ(0u, ::GetEnvironmentVariable(test_data[i].dll_beacon, NULL, 0));
	dll_blacklisted.Reset(NULL);

	// Ensure that the dll is recorded as blocked.
	int array_size = 1;
	const wchar_t* blocked_dll = NULL;
	TestDll_SuccessfullyBlocked(&blocked_dll, &array_size);
	EXPECT_EQ(1, array_size);
	EXPECT_EQ(test_data[i].dll_name, base::string16(blocked_dll));

	// Remove the DLL from the blacklist. Ensure that it loads and that its
	// entry point was called.
	EXPECT_TRUE(TestDll_RemoveDllFromBlacklist(test_data[i].dll_name));
	base::ScopedNativeLibrary dll(current_dir.Append(test_data[i].dll_name));
	EXPECT_TRUE(dll.is_valid());
	EXPECT_NE(0u, ::GetEnvironmentVariable(test_data[i].dll_beacon, NULL, 0));
	dll.Reset(NULL);

	::SetEnvironmentVariable(test_data[i].dll_beacon, NULL);

	// Ensure that the dll won't load even if the name has different
	// capitalization.
	base::string16 uppercase_name = base::i18n::ToUpper(test_data[i].dll_name);
	EXPECT_TRUE(TestDll_AddDllToBlacklist(uppercase_name.c_str()));
	base::ScopedNativeLibrary dll_blacklisted_different_case(
	current_dir.Append(test_data[i].dll_name));
	EXPECT_FALSE(dll_blacklisted_different_case.is_valid());
	EXPECT_EQ(0u, ::GetEnvironmentVariable(test_data[i].dll_beacon, NULL, 0));
	dll_blacklisted_different_case.Reset(NULL);

	EXPECT_TRUE(TestDll_RemoveDllFromBlacklist(uppercase_name.c_str()));

	// The blocked dll was removed, so we shouldn't get anything returned
	// here.
	int num_blocked_dlls = 0;
	TestDll_SuccessfullyBlocked(NULL, &num_blocked_dlls);
	EXPECT_EQ(0, num_blocked_dlls);
	}
	}

	TEST_F(BlacklistTest, LoadBlacklistedLibrary) {
	base::FilePath current_dir;
	ASSERT_TRUE(PathService::Get(base::DIR_EXE, &current_dir));

	// Ensure that the blacklist is loaded.
	ASSERT_TRUE(TestDll_IsBlacklistInitialized());

	// Test that an un-blacklisted DLL can load correctly.
	base::ScopedNativeLibrary dll1(current_dir.Append(kTestDllName1));
	EXPECT_TRUE(dll1.is_valid());
	dll1.Reset(NULL);

	int num_blocked_dlls = 0;
	TestDll_SuccessfullyBlocked(NULL, &num_blocked_dlls);
	EXPECT_EQ(0, num_blocked_dlls);

	// Add all DLLs to the blacklist then check they are blocked.
	for (int i = 0; i < arraysize(test_data); ++i) {
	EXPECT_TRUE(TestDll_AddDllToBlacklist(test_data[i].dll_name));
	}
	CheckBlacklistedDllsNotLoaded();
	}

	TEST_F(BlacklistTest, AddDllsFromRegistryToBlacklist) {
	// Ensure that the blacklist is loaded.
	ASSERT_TRUE(TestDll_IsBlacklistInitialized());

	// Delete the finch registry key to clear its values.
	base::win::RegKey key(HKEY_CURRENT_USER,
	blacklist::kRegistryFinchListPath,
	KEY_QUERY_VALUE \| KEY_SET_VALUE);
	key.DeleteKey(L"");

	// Add the test dlls to the registry (with their name as both key and value).
	base::win::RegKey finch_blacklist_registry_key(
	HKEY_CURRENT_USER,
	blacklist::kRegistryFinchListPath,
	KEY_QUERY_VALUE \| KEY_SET_VALUE);
	for (int i = 0; i < arraysize(test_data); ++i) {
	finch_blacklist_registry_key.WriteValue(test_data[i].dll_name,
	test_data[i].dll_name);
	}

	EXPECT_TRUE(TestDll_AddDllsFromRegistryToBlacklist());
	CheckBlacklistedDllsNotLoaded();
	}

	void TestResetBeacon(scoped_ptr<base::win::RegKey>& key,
	DWORD input_state,
	DWORD expected_output_state) {
	LONG result = key->WriteValue(blacklist::kBeaconState, input_state);
	EXPECT_EQ(ERROR_SUCCESS, result);

	EXPECT_TRUE(blacklist::ResetBeacon());
	DWORD blacklist_state = blacklist::BLACKLIST_STATE_MAX;
	result = key->ReadValueDW(blacklist::kBeaconState, &blacklist_state);
	EXPECT_EQ(ERROR_SUCCESS, result);
	EXPECT_EQ(expected_output_state, blacklist_state);
	}

	TEST_F(BlacklistTest, ResetBeacon) {
	// Ensure that ResetBeacon resets properly on successful runs and not on
	// failed or disabled runs.
	TestResetBeacon(blacklist_registry_key_,
	blacklist::BLACKLIST_SETUP_RUNNING,
	blacklist::BLACKLIST_ENABLED);

	TestResetBeacon(blacklist_registry_key_,
	blacklist::BLACKLIST_SETUP_FAILED,
	blacklist::BLACKLIST_SETUP_FAILED);

	TestResetBeacon(blacklist_registry_key_,
	blacklist::BLACKLIST_DISABLED,
	blacklist::BLACKLIST_DISABLED);
	}

	TEST_F(BlacklistTest, SetupFailed) {
	// Ensure that when the number of failed tries reaches the maximum allowed,
	// the blacklist state is set to failed.
	LONG result = blacklist_registry_key_->WriteValue(
	blacklist::kBeaconState, blacklist::BLACKLIST_SETUP_RUNNING);
	EXPECT_EQ(ERROR_SUCCESS, result);

	// Set the attempt count so that on the next failure the blacklist is
	// disabled.
	result = blacklist_registry_key_->WriteValue(
	blacklist::kBeaconAttemptCount, blacklist::kBeaconMaxAttempts - 1);
	EXPECT_EQ(ERROR_SUCCESS, result);

	EXPECT_FALSE(blacklist::LeaveSetupBeacon());

	DWORD attempt_count = 0;
	blacklist_registry_key_->ReadValueDW(blacklist::kBeaconAttemptCount,
	&attempt_count);
	EXPECT_EQ(attempt_count, blacklist::kBeaconMaxAttempts);

	DWORD blacklist_state = blacklist::BLACKLIST_STATE_MAX;
	result = blacklist_registry_key_->ReadValueDW(blacklist::kBeaconState,
	&blacklist_state);
	EXPECT_EQ(ERROR_SUCCESS, result);
	EXPECT_EQ(blacklist_state, blacklist::BLACKLIST_SETUP_FAILED);
	}

	TEST_F(BlacklistTest, SetupSucceeded) {
	// Starting with the enabled beacon should result in the setup running state
	// and the attempt counter reset to zero.
	LONG result = blacklist_registry_key_->WriteValue(
	blacklist::kBeaconState, blacklist::BLACKLIST_ENABLED);
	EXPECT_EQ(ERROR_SUCCESS, result);
	result = blacklist_registry_key_->WriteValue(blacklist::kBeaconAttemptCount,
	blacklist::kBeaconMaxAttempts);
	EXPECT_EQ(ERROR_SUCCESS, result);

	EXPECT_TRUE(blacklist::LeaveSetupBeacon());

	DWORD blacklist_state = blacklist::BLACKLIST_STATE_MAX;
	blacklist_registry_key_->ReadValueDW(blacklist::kBeaconState,
	&blacklist_state);
	EXPECT_EQ(blacklist_state, blacklist::BLACKLIST_SETUP_RUNNING);

	DWORD attempt_count = blacklist::kBeaconMaxAttempts;
	blacklist_registry_key_->ReadValueDW(blacklist::kBeaconAttemptCount,
	&attempt_count);
	EXPECT_EQ(static_cast<DWORD>(0), attempt_count);
	}

	} // namespace