chrome_frame/test/chrome_frame_test_utils.h - chromium/src - Git at Google

 // 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.

 #ifndef CHROME_FRAME_TEST_CHROME_FRAME_TEST_UTILS_H_
 #define CHROME_FRAME_TEST_CHROME_FRAME_TEST_UTILS_H_

 #include <windows.h>

 #include <atlbase.h>
 #include <atlwin.h>

 #include <string>

 #include "base/basictypes.h"
 #include "base/cancelable_callback.h"
 #include "base/compiler_specific.h"
 #include "base/file_path.h"
 #include "base/memory/scoped_ptr.h"
 #include "base/message_loop.h"
 #include "base/process_util.h"
 #include "base/time.h"
 #include "base/test/test_reg_util_win.h"
 #include "base/time.h"
 #include "base/win/registry.h"
 #include "base/win/scoped_comptr.h"
 #include "chrome/test/base/ui_test_utils.h"
 #include "chrome_frame/chrome_tab.h"
 #include "chrome_frame/test/simulate_input.h"
 #include "chrome_frame/test_utils.h"
 #include "chrome_frame/utils.h"

 #include "gtest/gtest.h"

 // Needed for CreateFunctor.
 #define GMOCK_MUTANT_INCLUDE_LATE_OBJECT_BINDING
 #include "testing/gmock_mutant.h"

 class FilePath;
 interface IWebBrowser2;

 namespace chrome_frame_test {

 int CloseVisibleWindowsOnAllThreads(HANDLE process);

 base::ProcessHandle LaunchIE(const std::wstring& url);
 base::ProcessHandle LaunchChrome(const std::wstring& url,
                                  const FilePath& user_data_dir);

 // Attempts to close all open IE windows.
 // The return value is the number of windows closed.
 // @note: this function requires COM to be initialized on the calling thread.
 // Since the caller might be running in either MTA or STA, the function does
 // not perform this initialization itself.
 int CloseAllIEWindows();

 extern const wchar_t kIEImageName[];
 extern const wchar_t kIEBrokerImageName[];
 extern const char kChromeImageName[];
 extern const wchar_t kChromeLauncher[];
 extern const base::TimeDelta kChromeFrameLongNavigationTimeout;
 extern const base::TimeDelta kChromeFrameVeryLongNavigationTimeout;

 // Temporarily impersonate the current thread to low integrity for the lifetime
 // of the object. Destructor will automatically revert integrity level.
 class LowIntegrityToken {
  public:
   LowIntegrityToken();
   ~LowIntegrityToken();
   BOOL Impersonate();
   BOOL RevertToSelf();
  protected:
   static bool IsImpersonated();
   bool impersonated_;
 };

 // This class implements the COM IMessageFilter interface and is used to detect
 // hung outgoing COM calls which are typically to IE. If IE is hung for any
 // reason the chrome frame tests should not hang indefinitely. This class
 // basically cancels the outgoing call if the WM_TIMER which is set by the
 // TimedMsgLoop object is posted to the message queue.
 class HungCOMCallDetector
     : public CComObjectRootEx<CComMultiThreadModel>,
       public IMessageFilter,
       public CWindowImpl<HungCOMCallDetector> {
  public:
   HungCOMCallDetector()
       : is_hung_(false) {
   }

   ~HungCOMCallDetector() {
     TearDown();
   }

   BEGIN_MSG_MAP(HungCOMCallDetector)
     MESSAGE_HANDLER(WM_TIMER, OnTimer)
   END_MSG_MAP()

   BEGIN_COM_MAP(HungCOMCallDetector)
     COM_INTERFACE_ENTRY(IMessageFilter)
   END_COM_MAP()

   static CComObject<HungCOMCallDetector>* Setup(int timeout_seconds) {
     CComObject<HungCOMCallDetector>* this_instance  = NULL;
     CComObject<HungCOMCallDetector>::CreateInstance(&this_instance);
     EXPECT_TRUE(this_instance != NULL);
     scoped_refptr<HungCOMCallDetector> ref_instance = this_instance;

     HRESULT hr = ref_instance->Initialize(timeout_seconds);
     if (FAILED(hr)) {
       LOG(ERROR) << "Failed to Initialize Hung COM call detector. Error:"
                  << hr;
       return NULL;
     }
     return this_instance;
   }

   void TearDown() {
     if (prev_filter_) {
       base::win::ScopedComPtr<IMessageFilter> prev_filter;
       CoRegisterMessageFilter(prev_filter_.get(), prev_filter.Receive());
       DCHECK(prev_filter.IsSameObject(this));
       prev_filter_.Release();
     }
     if (IsWindow()) {
       DestroyWindow();
       m_hWnd = NULL;
     }
   }

   STDMETHOD_(DWORD, HandleInComingCall)(DWORD call_type,
                                         HTASK caller,
                                         DWORD tick_count,
                                         LPINTERFACEINFO interface_info) {
     return SERVERCALL_ISHANDLED;
   }

   STDMETHOD_(DWORD, RetryRejectedCall)(HTASK callee,
                                        DWORD tick_count,
                                        DWORD reject_type) {
     return -1;
   }

   STDMETHOD_(DWORD, MessagePending)(HTASK callee,
                                     DWORD tick_count,
                                     DWORD pending_type) {
     MSG msg = {0};
     if (is_hung_) {
       return PENDINGMSG_CANCELCALL;
     }
     return PENDINGMSG_WAITDEFPROCESS;
   }

   bool is_hung() const {
     return is_hung_;
   }

   LRESULT OnTimer(UINT msg, WPARAM wp, LPARAM lp, BOOL& handled) {  // NOLINT
     is_hung_ = true;
     return 1;
   }

  private:
   HRESULT Initialize(int timeout_seconds) {
     // Create a window for the purpose of setting a windows timer for
     // detecting whether any outgoing COM call issued in this context
     // hangs.
     // We then register a COM message filter which basically looks for the
     // timer posted to this window and cancels the outgoing call.
     Create(HWND_MESSAGE);
     if (!IsWindow()) {
       LOG(ERROR) << "Failed to create window. Error:" << GetLastError();
       return E_FAIL;
     }

     HRESULT hr = CoRegisterMessageFilter(this, prev_filter_.Receive());
     if (FAILED(hr)) {
       LOG(ERROR) << "Failed to register message filter. Error:" << hr;
       return hr;
     }

     static const int kHungDetectTimerId = 0x0000baba;
     SetTimer(kHungDetectTimerId, 1000 * (timeout_seconds + 40), NULL);
     return S_OK;
   }

   // used to detect if outgoing COM calls hung.
   bool is_hung_;
   base::win::ScopedComPtr<IMessageFilter> prev_filter_;
 };

 // MessageLoopForUI wrapper that runs only for a limited time.
 // We need a UI message loop in the main thread.
 class TimedMsgLoop {
  public:
   TimedMsgLoop() : snapshot_on_timeout_(false), quit_loop_invoked_(false) {
   }

   void set_snapshot_on_timeout(bool value) {
     snapshot_on_timeout_ = value;
   }

   void RunFor(base::TimeDelta duration) {
     quit_loop_invoked_ = false;
     if (snapshot_on_timeout_)
       timeout_closure_.Reset(base::Bind(&TimedMsgLoop::SnapshotAndQuit));
     else
       timeout_closure_.Reset(MessageLoop::QuitClosure());
     loop_.PostDelayedTask(FROM_HERE, timeout_closure_.callback(), duration);
     loop_.MessageLoop::Run();
     timeout_closure_.Cancel();
   }

   void PostTask(const tracked_objects::Location& from_here,
                 const base::Closure& task) {
     loop_.PostTask(from_here, task);
   }

   void PostDelayedTask(const tracked_objects::Location& from_here,
                        const base::Closure& task, base::TimeDelta delay) {
     loop_.PostDelayedTask(from_here, task, delay);
   }

   void Quit() {
     // Quit after no delay.
     QuitAfter(base::TimeDelta());
   }

   void QuitAfter(base::TimeDelta delay) {
     timeout_closure_.Cancel();
     quit_loop_invoked_ = true;
     loop_.PostDelayedTask(FROM_HERE, MessageLoop::QuitClosure(), delay);
   }

   bool WasTimedOut() const {
     return !quit_loop_invoked_;
   }

   void RunAllPending() {
     loop_.RunAllPending();
   }

  private:
   static void SnapshotAndQuit() {
     FilePath snapshot;
     if (ui_test_utils::SaveScreenSnapshotToDesktop(&snapshot)) {
       testing::UnitTest* unit_test = testing::UnitTest::GetInstance();
       const testing::TestInfo* test_info = unit_test->current_test_info();
       std::string name;
       if (test_info != NULL) {
         name.append(test_info->test_case_name())
             .append(1, '.')
             .append(test_info->name());
       } else {
         name = "unknown test";
       }
       LOG(ERROR) << name << " timed out. Screen snapshot saved to "
                  << snapshot.value();
     }
     MessageLoop::current()->Quit();
   }

   MessageLoopForUI loop_;
   base::CancelableClosure timeout_closure_;
   bool snapshot_on_timeout_;
   bool quit_loop_invoked_;
 };

 // Saves typing. It's somewhat hard to create a wrapper around
 // testing::InvokeWithoutArgs since it returns a
 // non-public (testing::internal) type.
 #define QUIT_LOOP(loop) testing::InvokeWithoutArgs(\
   testing::CreateFunctor(&loop, &chrome_frame_test::TimedMsgLoop::Quit))

 #define QUIT_LOOP_SOON(loop, delay) testing::InvokeWithoutArgs(\
   testing::CreateFunctor(&loop, &chrome_frame_test::TimedMsgLoop::QuitAfter, \
                          delay))

 // Launches IE as a COM server and returns the corresponding IWebBrowser2
 // interface pointer.
 // Returns S_OK on success.
 HRESULT LaunchIEAsComServer(IWebBrowser2** web_browser);

 // Returns the path of the exe passed in.
 std::wstring GetExecutableAppPath(const std::wstring& file);

 // Returns the profile path to be used for IE. This varies as per version.
 FilePath GetProfilePathForIE();

 // Returns the version of the exe passed in.
 std::wstring GetExeVersion(const std::wstring& exe_path);

 // Returns the version of Internet Explorer on the machine.
 IEVersion GetInstalledIEVersion();

 // Returns the folder for CF test data.
 FilePath GetTestDataFolder();

 // Returns the folder for Selenium core.
 FilePath GetSeleniumTestFolder();

 // Returns the path portion of the url.
 std::wstring GetPathFromUrl(const std::wstring& url);

 // Returns the path and query portion of the url.
 std::wstring GetPathAndQueryFromUrl(const std::wstring& url);

 // Adds the CF meta tag to the html page. Returns true if successful.
 bool AddCFMetaTag(std::string* html_data);

 // Get text data from the clipboard.
 std::wstring GetClipboardText();

 // Puts the given text data on the clipboard. All previous items on the
 // clipboard are removed.
 void SetClipboardText(const std::wstring& text);

 // A convenience class to close all open IE windows at the end
 // of a scope.  It's more convenient to do it this way than to
 // explicitly call chrome_frame_test::CloseAllIEWindows at the
 // end of a test since part of the test's cleanup code may be
 // in object destructors that would run after CloseAllIEWindows
 // would get called.
 // Ideally all IE windows should be closed when this happens so
 // if the test ran normally, we should not have any windows to
 // close at this point.
 class CloseIeAtEndOfScope {
  public:
   CloseIeAtEndOfScope() {}
   ~CloseIeAtEndOfScope();
 };

 // Starts the Chrome crash service which enables us to gather crash dumps
 // during test runs.
 base::ProcessHandle StartCrashService();

 // Used in tests where we reference the registry and don't want to run into
 // problems where existing registry settings might conflict with the
 // expectations of the test.
 class ScopedVirtualizeHklmAndHkcu {
  public:
   ScopedVirtualizeHklmAndHkcu();
   ~ScopedVirtualizeHklmAndHkcu();

   // Removes all overrides and deletes all temporary test keys used by the
   // overrides.
   void RemoveAllOverrides();

  protected:
   registry_util::RegistryOverrideManager override_manager_;
 };

 // Attempts to kill all the processes on the current machine that were launched
 // from the given executable name, ending them with the given exit code.  If
 // filter is non-null, then only processes selected by the filter are killed.
 // Returns true if all processes were able to be killed off, false if at least
 // one couldn't be killed.
 // NOTE: This function is based on the base\process_util.h helper function
 // KillProcesses. Takes in the wait flag as a parameter.
 bool KillProcesses(const std::wstring& executable_name, int exit_code,
                    bool wait);

 // Returns the type of test bed, PER_USER or SYSTEM_LEVEL.
 ScopedChromeFrameRegistrar::RegistrationType GetTestBedType();

 // Clears IE8 session restore history.
 void ClearIESessionHistory();

 // Returns a local IPv4 address for the current machine. The address
 // corresponding to a NIC is preferred over the loopback address.
 std::string GetLocalIPv4Address();

 }  // namespace chrome_frame_test

 // TODO(tommi): This is a temporary workaround while we're getting our
 // Singleton story straight.  Ideally each test should clear up any singletons
 // it might have created, but test cases do not implicitly have their own
 // AtExitManager, so we have this workaround method for tests that depend on
 // "fresh" singletons.  The implementation is in chrome_frame_unittest_main.cc.
 void DeleteAllSingletons();

 #endif  // CHROME_FRAME_TEST_CHROME_FRAME_TEST_UTILS_H_
	// 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.

	#ifndef CHROME_FRAME_TEST_CHROME_FRAME_TEST_UTILS_H_
	#define CHROME_FRAME_TEST_CHROME_FRAME_TEST_UTILS_H_

	#include <windows.h>

	#include <atlbase.h>
	#include <atlwin.h>

	#include <string>

	#include "base/basictypes.h"
	#include "base/cancelable_callback.h"
	#include "base/compiler_specific.h"
	#include "base/file_path.h"
	#include "base/memory/scoped_ptr.h"
	#include "base/message_loop.h"
	#include "base/process_util.h"
	#include "base/time.h"
	#include "base/test/test_reg_util_win.h"
	#include "base/time.h"
	#include "base/win/registry.h"
	#include "base/win/scoped_comptr.h"
	#include "chrome/test/base/ui_test_utils.h"
	#include "chrome_frame/chrome_tab.h"
	#include "chrome_frame/test/simulate_input.h"
	#include "chrome_frame/test_utils.h"
	#include "chrome_frame/utils.h"

	#include "gtest/gtest.h"

	// Needed for CreateFunctor.
	#define GMOCK_MUTANT_INCLUDE_LATE_OBJECT_BINDING
	#include "testing/gmock_mutant.h"

	class FilePath;
	interface IWebBrowser2;

	namespace chrome_frame_test {

	int CloseVisibleWindowsOnAllThreads(HANDLE process);

	base::ProcessHandle LaunchIE(const std::wstring& url);
	base::ProcessHandle LaunchChrome(const std::wstring& url,
	const FilePath& user_data_dir);

	// Attempts to close all open IE windows.
	// The return value is the number of windows closed.
	// @note: this function requires COM to be initialized on the calling thread.
	// Since the caller might be running in either MTA or STA, the function does
	// not perform this initialization itself.
	int CloseAllIEWindows();

	extern const wchar_t kIEImageName[];
	extern const wchar_t kIEBrokerImageName[];
	extern const char kChromeImageName[];
	extern const wchar_t kChromeLauncher[];
	extern const base::TimeDelta kChromeFrameLongNavigationTimeout;
	extern const base::TimeDelta kChromeFrameVeryLongNavigationTimeout;

	// Temporarily impersonate the current thread to low integrity for the lifetime
	// of the object. Destructor will automatically revert integrity level.
	class LowIntegrityToken {
	public:
	LowIntegrityToken();
	~LowIntegrityToken();
	BOOL Impersonate();
	BOOL RevertToSelf();
	protected:
	static bool IsImpersonated();
	bool impersonated_;
	};

	// This class implements the COM IMessageFilter interface and is used to detect
	// hung outgoing COM calls which are typically to IE. If IE is hung for any
	// reason the chrome frame tests should not hang indefinitely. This class
	// basically cancels the outgoing call if the WM_TIMER which is set by the
	// TimedMsgLoop object is posted to the message queue.
	class HungCOMCallDetector
	: public CComObjectRootEx<CComMultiThreadModel>,
	public IMessageFilter,
	public CWindowImpl<HungCOMCallDetector> {
	public:
	HungCOMCallDetector()
	: is_hung_(false) {
	}

	~HungCOMCallDetector() {
	TearDown();
	}

	BEGIN_MSG_MAP(HungCOMCallDetector)
	MESSAGE_HANDLER(WM_TIMER, OnTimer)
	END_MSG_MAP()

	BEGIN_COM_MAP(HungCOMCallDetector)
	COM_INTERFACE_ENTRY(IMessageFilter)
	END_COM_MAP()

	static CComObject<HungCOMCallDetector>* Setup(int timeout_seconds) {
	CComObject<HungCOMCallDetector>* this_instance = NULL;
	CComObject<HungCOMCallDetector>::CreateInstance(&this_instance);
	EXPECT_TRUE(this_instance != NULL);
	scoped_refptr<HungCOMCallDetector> ref_instance = this_instance;

	HRESULT hr = ref_instance->Initialize(timeout_seconds);
	if (FAILED(hr)) {
	LOG(ERROR) << "Failed to Initialize Hung COM call detector. Error:"
	<< hr;
	return NULL;
	}
	return this_instance;
	}

	void TearDown() {
	if (prev_filter_) {
	base::win::ScopedComPtr<IMessageFilter> prev_filter;
	CoRegisterMessageFilter(prev_filter_.get(), prev_filter.Receive());
	DCHECK(prev_filter.IsSameObject(this));
	prev_filter_.Release();
	}
	if (IsWindow()) {
	DestroyWindow();
	m_hWnd = NULL;
	}
	}

	STDMETHOD_(DWORD, HandleInComingCall)(DWORD call_type,
	HTASK caller,
	DWORD tick_count,
	LPINTERFACEINFO interface_info) {
	return SERVERCALL_ISHANDLED;
	}

	STDMETHOD_(DWORD, RetryRejectedCall)(HTASK callee,
	DWORD tick_count,
	DWORD reject_type) {
	return -1;
	}

	STDMETHOD_(DWORD, MessagePending)(HTASK callee,
	DWORD tick_count,
	DWORD pending_type) {
	MSG msg = {0};
	if (is_hung_) {
	return PENDINGMSG_CANCELCALL;
	}
	return PENDINGMSG_WAITDEFPROCESS;
	}

	bool is_hung() const {
	return is_hung_;
	}

	LRESULT OnTimer(UINT msg, WPARAM wp, LPARAM lp, BOOL& handled) { // NOLINT
	is_hung_ = true;
	return 1;
	}

	private:
	HRESULT Initialize(int timeout_seconds) {
	// Create a window for the purpose of setting a windows timer for
	// detecting whether any outgoing COM call issued in this context
	// hangs.
	// We then register a COM message filter which basically looks for the
	// timer posted to this window and cancels the outgoing call.
	Create(HWND_MESSAGE);
	if (!IsWindow()) {
	LOG(ERROR) << "Failed to create window. Error:" << GetLastError();
	return E_FAIL;
	}

	HRESULT hr = CoRegisterMessageFilter(this, prev_filter_.Receive());
	if (FAILED(hr)) {
	LOG(ERROR) << "Failed to register message filter. Error:" << hr;
	return hr;
	}

	static const int kHungDetectTimerId = 0x0000baba;
	SetTimer(kHungDetectTimerId, 1000 * (timeout_seconds + 40), NULL);
	return S_OK;
	}

	// used to detect if outgoing COM calls hung.
	bool is_hung_;
	base::win::ScopedComPtr<IMessageFilter> prev_filter_;
	};

	// MessageLoopForUI wrapper that runs only for a limited time.
	// We need a UI message loop in the main thread.
	class TimedMsgLoop {
	public:
	TimedMsgLoop() : snapshot_on_timeout_(false), quit_loop_invoked_(false) {
	}

	void set_snapshot_on_timeout(bool value) {
	snapshot_on_timeout_ = value;
	}

	void RunFor(base::TimeDelta duration) {
	quit_loop_invoked_ = false;
	if (snapshot_on_timeout_)
	timeout_closure_.Reset(base::Bind(&TimedMsgLoop::SnapshotAndQuit));
	else
	timeout_closure_.Reset(MessageLoop::QuitClosure());
	loop_.PostDelayedTask(FROM_HERE, timeout_closure_.callback(), duration);
	loop_.MessageLoop::Run();
	timeout_closure_.Cancel();
	}

	void PostTask(const tracked_objects::Location& from_here,
	const base::Closure& task) {
	loop_.PostTask(from_here, task);
	}

	void PostDelayedTask(const tracked_objects::Location& from_here,
	const base::Closure& task, base::TimeDelta delay) {
	loop_.PostDelayedTask(from_here, task, delay);
	}

	void Quit() {
	// Quit after no delay.
	QuitAfter(base::TimeDelta());
	}

	void QuitAfter(base::TimeDelta delay) {
	timeout_closure_.Cancel();
	quit_loop_invoked_ = true;
	loop_.PostDelayedTask(FROM_HERE, MessageLoop::QuitClosure(), delay);
	}

	bool WasTimedOut() const {
	return !quit_loop_invoked_;
	}

	void RunAllPending() {
	loop_.RunAllPending();
	}

	private:
	static void SnapshotAndQuit() {
	FilePath snapshot;
	if (ui_test_utils::SaveScreenSnapshotToDesktop(&snapshot)) {
	testing::UnitTest* unit_test = testing::UnitTest::GetInstance();
	const testing::TestInfo* test_info = unit_test->current_test_info();
	std::string name;
	if (test_info != NULL) {
	name.append(test_info->test_case_name())
	.append(1, '.')
	.append(test_info->name());
	} else {
	name = "unknown test";
	}
	LOG(ERROR) << name << " timed out. Screen snapshot saved to "
	<< snapshot.value();
	}
	MessageLoop::current()->Quit();
	}

	MessageLoopForUI loop_;
	base::CancelableClosure timeout_closure_;
	bool snapshot_on_timeout_;
	bool quit_loop_invoked_;
	};

	// Saves typing. It's somewhat hard to create a wrapper around
	// testing::InvokeWithoutArgs since it returns a
	// non-public (testing::internal) type.
	#define QUIT_LOOP(loop) testing::InvokeWithoutArgs(\
	testing::CreateFunctor(&loop, &chrome_frame_test::TimedMsgLoop::Quit))

	#define QUIT_LOOP_SOON(loop, delay) testing::InvokeWithoutArgs(\
	testing::CreateFunctor(&loop, &chrome_frame_test::TimedMsgLoop::QuitAfter, \
	delay))

	// Launches IE as a COM server and returns the corresponding IWebBrowser2
	// interface pointer.
	// Returns S_OK on success.
	HRESULT LaunchIEAsComServer(IWebBrowser2** web_browser);

	// Returns the path of the exe passed in.
	std::wstring GetExecutableAppPath(const std::wstring& file);

	// Returns the profile path to be used for IE. This varies as per version.
	FilePath GetProfilePathForIE();

	// Returns the version of the exe passed in.
	std::wstring GetExeVersion(const std::wstring& exe_path);

	// Returns the version of Internet Explorer on the machine.
	IEVersion GetInstalledIEVersion();

	// Returns the folder for CF test data.
	FilePath GetTestDataFolder();

	// Returns the folder for Selenium core.
	FilePath GetSeleniumTestFolder();

	// Returns the path portion of the url.
	std::wstring GetPathFromUrl(const std::wstring& url);

	// Returns the path and query portion of the url.
	std::wstring GetPathAndQueryFromUrl(const std::wstring& url);

	// Adds the CF meta tag to the html page. Returns true if successful.
	bool AddCFMetaTag(std::string* html_data);

	// Get text data from the clipboard.
	std::wstring GetClipboardText();

	// Puts the given text data on the clipboard. All previous items on the
	// clipboard are removed.
	void SetClipboardText(const std::wstring& text);

	// A convenience class to close all open IE windows at the end
	// of a scope. It's more convenient to do it this way than to
	// explicitly call chrome_frame_test::CloseAllIEWindows at the
	// end of a test since part of the test's cleanup code may be
	// in object destructors that would run after CloseAllIEWindows
	// would get called.
	// Ideally all IE windows should be closed when this happens so
	// if the test ran normally, we should not have any windows to
	// close at this point.
	class CloseIeAtEndOfScope {
	public:
	CloseIeAtEndOfScope() {}
	~CloseIeAtEndOfScope();
	};

	// Starts the Chrome crash service which enables us to gather crash dumps
	// during test runs.
	base::ProcessHandle StartCrashService();

	// Used in tests where we reference the registry and don't want to run into
	// problems where existing registry settings might conflict with the
	// expectations of the test.
	class ScopedVirtualizeHklmAndHkcu {
	public:
	ScopedVirtualizeHklmAndHkcu();
	~ScopedVirtualizeHklmAndHkcu();

	// Removes all overrides and deletes all temporary test keys used by the
	// overrides.
	void RemoveAllOverrides();

	protected:
	registry_util::RegistryOverrideManager override_manager_;
	};

	// Attempts to kill all the processes on the current machine that were launched
	// from the given executable name, ending them with the given exit code. If
	// filter is non-null, then only processes selected by the filter are killed.
	// Returns true if all processes were able to be killed off, false if at least
	// one couldn't be killed.
	// NOTE: This function is based on the base\process_util.h helper function
	// KillProcesses. Takes in the wait flag as a parameter.
	bool KillProcesses(const std::wstring& executable_name, int exit_code,
	bool wait);

	// Returns the type of test bed, PER_USER or SYSTEM_LEVEL.
	ScopedChromeFrameRegistrar::RegistrationType GetTestBedType();

	// Clears IE8 session restore history.
	void ClearIESessionHistory();

	// Returns a local IPv4 address for the current machine. The address
	// corresponding to a NIC is preferred over the loopback address.
	std::string GetLocalIPv4Address();

	} // namespace chrome_frame_test

	// TODO(tommi): This is a temporary workaround while we're getting our
	// Singleton story straight. Ideally each test should clear up any singletons
	// it might have created, but test cases do not implicitly have their own
	// AtExitManager, so we have this workaround method for tests that depend on
	// "fresh" singletons. The implementation is in chrome_frame_unittest_main.cc.
	void DeleteAllSingletons();

	#endif // CHROME_FRAME_TEST_CHROME_FRAME_TEST_UTILS_H_