ppapi/proxy/ppapi_proxy_test.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 PPAPI_PROXY_PPAPI_PROXY_TEST_H_
 #define PPAPI_PROXY_PPAPI_PROXY_TEST_H_

 #include <stdint.h>

 #include <map>
 #include <memory>
 #include <string>

 #include "base/compiler_specific.h"
 #include "base/macros.h"
 #include "base/memory/ref_counted.h"
 #include "base/synchronization/waitable_event.h"
 #include "base/test/task_environment.h"
 #include "base/threading/simple_thread.h"
 #include "base/threading/thread.h"
 #include "ppapi/c/pp_instance.h"
 #include "ppapi/proxy/host_dispatcher.h"
 #include "ppapi/proxy/plugin_dispatcher.h"
 #include "ppapi/proxy/plugin_globals.h"
 #include "ppapi/proxy/plugin_proxy_delegate.h"
 #include "ppapi/proxy/plugin_resource_tracker.h"
 #include "ppapi/proxy/plugin_var_tracker.h"
 #include "ppapi/proxy/resource_message_test_sink.h"
 #include "ppapi/shared_impl/proxy_lock.h"
 #include "ppapi/shared_impl/test_globals.h"
 #include "testing/gtest/include/gtest/gtest.h"

 namespace base {
 class RunLoop;
 class SingleThreadTaskRunner;
 }

 namespace ppapi {
 namespace proxy {

 class MessageLoopResource;

 // Base class for plugin and host test harnesses. Tests will not use this
 // directly. Instead, use the PluginProxyTest, HostProxyTest, or TwoWayTest.
 class ProxyTestHarnessBase {
  public:
   enum GlobalsConfiguration {
     PER_THREAD_GLOBALS,
     SINGLETON_GLOBALS
   };

   ProxyTestHarnessBase();
   virtual ~ProxyTestHarnessBase();

   PP_Module pp_module() const { return pp_module_; }
   PP_Instance pp_instance() const { return pp_instance_; }
   ResourceMessageTestSink& sink() { return sink_; }

   virtual PpapiGlobals* GetGlobals() = 0;
   // Returns either the plugin or host dispatcher, depending on the test.
   virtual Dispatcher* GetDispatcher() = 0;

   // Set up the harness using an IPC::TestSink to capture messages.
   virtual void SetUpHarness() = 0;

   // Set up the harness using a real IPC channel.
   virtual void SetUpHarnessWithChannel(
       const IPC::ChannelHandle& channel_handle,
       base::SingleThreadTaskRunner* ipc_task_runner,
       base::WaitableEvent* shutdown_event,
       bool is_client) = 0;

   virtual void TearDownHarness() = 0;

   // Implementation of GetInterface for the dispatcher. This will
   // return NULL for all interfaces unless one is registered by calling
   // RegisterTestInterface();
   const void* GetInterface(const char* name);

   // Allows the test to specify an interface implementation for a given
   // interface name. This will be returned when any of the proxy logic
   // requests a local interface.
   void RegisterTestInterface(const char* name, const void* test_interface);

   // Sends a "supports interface" message to the current dispatcher and returns
   // true if it's supported. This is just for the convenience of tests.
   bool SupportsInterface(const char* name);

  private:
   // Destination for IPC messages sent by the test.
   ResourceMessageTestSink sink_;

   // The module and instance ID associated with the plugin dispatcher.
   PP_Module pp_module_;
   PP_Instance pp_instance_;

   // Stores the data for GetInterface/RegisterTestInterface.
   std::map<std::string, const void*> registered_interfaces_;
 };

 // Test harness for the plugin side of the proxy.
 class PluginProxyTestHarness : public ProxyTestHarnessBase {
  public:
   explicit PluginProxyTestHarness(GlobalsConfiguration globals_config);
   virtual ~PluginProxyTestHarness();

   PluginDispatcher* plugin_dispatcher() { return plugin_dispatcher_.get(); }
   PluginResourceTracker& resource_tracker() {
     return *plugin_globals_->plugin_resource_tracker();
   }
   PluginVarTracker& var_tracker() {
     return *plugin_globals_->plugin_var_tracker();
   }

   // ProxyTestHarnessBase implementation.
   virtual PpapiGlobals* GetGlobals();
   virtual Dispatcher* GetDispatcher();
   virtual void SetUpHarness();
   virtual void SetUpHarnessWithChannel(
       const IPC::ChannelHandle& channel_handle,
       base::SingleThreadTaskRunner* ipc_task_runner,
       base::WaitableEvent* shutdown_event,
       bool is_client);
   virtual void TearDownHarness();

   class PluginDelegateMock : public PluginDispatcher::PluginDelegate,
                              public PluginProxyDelegate {
    public:
     PluginDelegateMock() : ipc_task_runner_(NULL), shutdown_event_() {}
     ~PluginDelegateMock() override {}

     void Init(base::SingleThreadTaskRunner* ipc_task_runner,
               base::WaitableEvent* shutdown_event) {
       ipc_task_runner_ = ipc_task_runner;
       shutdown_event_ = shutdown_event;
     }

     void set_browser_sender(IPC::Sender* browser_sender) {
       browser_sender_ = browser_sender;
     }

     // ProxyChannel::Delegate implementation.
     base::SingleThreadTaskRunner* GetIPCTaskRunner() override;
     base::WaitableEvent* GetShutdownEvent() override;
     IPC::PlatformFileForTransit ShareHandleWithRemote(
         base::PlatformFile handle,
         base::ProcessId remote_pid,
         bool should_close_source) override;
     base::UnsafeSharedMemoryRegion ShareUnsafeSharedMemoryRegionWithRemote(
         const base::UnsafeSharedMemoryRegion& region,
         base::ProcessId remote_pid) override;
     base::ReadOnlySharedMemoryRegion ShareReadOnlySharedMemoryRegionWithRemote(
         const base::ReadOnlySharedMemoryRegion& region,
         base::ProcessId remote_pid) override;

     // PluginDispatcher::PluginDelegate implementation.
     std::set<PP_Instance>* GetGloballySeenInstanceIDSet() override;
     uint32_t Register(PluginDispatcher* plugin_dispatcher) override;
     void Unregister(uint32_t plugin_dispatcher_id) override;

     // PluginProxyDelegate implementation.
     IPC::Sender* GetBrowserSender() override;
     std::string GetUILanguage() override;
     void SetActiveURL(const std::string& url) override;
     PP_Resource CreateBrowserFont(
         Connection connection,
         PP_Instance instance,
         const PP_BrowserFont_Trusted_Description& desc,
         const Preferences& prefs) override;

    private:
     base::SingleThreadTaskRunner* ipc_task_runner_;  // Weak
     base::WaitableEvent* shutdown_event_;  // Weak
     std::set<PP_Instance> instance_id_set_;
     IPC::Sender* browser_sender_;

     DISALLOW_COPY_AND_ASSIGN(PluginDelegateMock);
   };

  private:
   void CreatePluginGlobals(
       const scoped_refptr<base::SingleThreadTaskRunner>& ipc_task_runner);

   GlobalsConfiguration globals_config_;
   std::unique_ptr<PluginGlobals> plugin_globals_;

   std::unique_ptr<PluginDispatcher> plugin_dispatcher_;
   PluginDelegateMock plugin_delegate_mock_;
 };

 class PluginProxyTest : public PluginProxyTestHarness, public testing::Test {
  public:
   PluginProxyTest();
   virtual ~PluginProxyTest();

   // testing::Test implementation.
   virtual void SetUp();
   virtual void TearDown();
  private:
   base::test::SingleThreadTaskEnvironment task_environment_;
 };

 // This class provides support for multi-thread testing. A secondary thread is
 // created with a Pepper message loop.
 // Subclasses need to implement the two SetUpTestOn*Thread() methods to do the
 // actual testing work; and call both PostQuitFor*Thread() when testing is
 // done.
 class PluginProxyMultiThreadTest
     : public PluginProxyTest,
       public base::DelegateSimpleThread::Delegate {
  public:
   PluginProxyMultiThreadTest();
   ~PluginProxyMultiThreadTest() override;

   // Called before the secondary thread is started, but after all the member
   // variables, including |secondary_thread_| and
   // |secondary_thread_message_loop_|, are initialized.
   virtual void SetUpTestOnMainThread() = 0;

   virtual void SetUpTestOnSecondaryThread() = 0;

   // TEST_F() should call this method.
   void RunTest();

   enum ThreadType {
     MAIN_THREAD,
     SECONDARY_THREAD
   };
   void CheckOnThread(ThreadType thread_type);

   // These can be called on any thread.
   void PostQuitForMainThread();
   void PostQuitForSecondaryThread();

  protected:
   scoped_refptr<MessageLoopResource> secondary_thread_message_loop_;
   scoped_refptr<base::SingleThreadTaskRunner> main_thread_task_runner_;

  private:
   // base::DelegateSimpleThread::Delegate implementation.
   void Run() override;

   void QuitNestedLoop();

   static void InternalSetUpTestOnSecondaryThread(void* user_data,
                                                  int32_t result);

   std::unique_ptr<base::DelegateSimpleThread> secondary_thread_;
   std::unique_ptr<base::RunLoop> nested_main_thread_message_loop_;
 };

 class HostProxyTestHarness : public ProxyTestHarnessBase {
  public:
   explicit HostProxyTestHarness(GlobalsConfiguration globals_config);
   virtual ~HostProxyTestHarness();

   HostDispatcher* host_dispatcher() { return host_dispatcher_.get(); }
   ResourceTracker& resource_tracker() {
     return *host_globals_->GetResourceTracker();
   }
   VarTracker& var_tracker() {
     return *host_globals_->GetVarTracker();
   }

   // ProxyTestBase implementation.
   virtual PpapiGlobals* GetGlobals();
   virtual Dispatcher* GetDispatcher();
   virtual void SetUpHarness();
   virtual void SetUpHarnessWithChannel(
       const IPC::ChannelHandle& channel_handle,
       base::SingleThreadTaskRunner* ipc_task_runner,
       base::WaitableEvent* shutdown_event,
       bool is_client);
   virtual void TearDownHarness();

   class DelegateMock : public ProxyChannel::Delegate {
    public:
     DelegateMock() : ipc_task_runner_(NULL), shutdown_event_(NULL) {}
     ~DelegateMock() override {}

     void Init(base::SingleThreadTaskRunner* ipc_task_runner,
               base::WaitableEvent* shutdown_event) {
       ipc_task_runner_ = ipc_task_runner;
       shutdown_event_ = shutdown_event;
     }

     // ProxyChannel::Delegate implementation.
     base::SingleThreadTaskRunner* GetIPCTaskRunner() override;
     base::WaitableEvent* GetShutdownEvent() override;
     IPC::PlatformFileForTransit ShareHandleWithRemote(
         base::PlatformFile handle,
         base::ProcessId remote_pid,
         bool should_close_source) override;
     base::UnsafeSharedMemoryRegion ShareUnsafeSharedMemoryRegionWithRemote(
         const base::UnsafeSharedMemoryRegion& region,
         base::ProcessId remote_pid) override;
     base::ReadOnlySharedMemoryRegion ShareReadOnlySharedMemoryRegionWithRemote(
         const base::ReadOnlySharedMemoryRegion& region,
         base::ProcessId remote_pid) override;

    private:
     base::SingleThreadTaskRunner* ipc_task_runner_;  // Weak
     base::WaitableEvent* shutdown_event_;  // Weak

     DISALLOW_COPY_AND_ASSIGN(DelegateMock);
   };

  private:
   void CreateHostGlobals();

   GlobalsConfiguration globals_config_;
   std::unique_ptr<ppapi::TestGlobals> host_globals_;
   std::unique_ptr<HostDispatcher> host_dispatcher_;
   // The host side of the real proxy doesn't lock, so this disables locking for
   // the thread the host side of the test runs on.
   std::unique_ptr<ProxyLock::LockingDisablerForTest> disable_locking_;
   DelegateMock delegate_mock_;
 };

 class HostProxyTest : public HostProxyTestHarness, public testing::Test {
  public:
   HostProxyTest();
   virtual ~HostProxyTest();

   // testing::Test implementation.
   virtual void SetUp();
   virtual void TearDown();
  private:
   base::test::SingleThreadTaskEnvironment task_environment_;
 };

 // Use this base class to test both sides of a proxy.
 class TwoWayTest : public testing::Test {
  public:
   enum TwoWayTestMode {
     TEST_PPP_INTERFACE,
     TEST_PPB_INTERFACE
   };
   TwoWayTest(TwoWayTestMode test_mode);
   virtual ~TwoWayTest();

   HostProxyTestHarness& host() { return host_; }
   PluginProxyTestHarness& plugin() { return plugin_; }
   PP_Module pp_module() const { return host_.pp_module(); }
   PP_Instance pp_instance() const { return host_.pp_instance(); }
   TwoWayTestMode test_mode() { return test_mode_; }

   // testing::Test implementation.
   virtual void SetUp();
   virtual void TearDown();

  protected:
   // Post a task to the thread where the remote harness lives. This
   // is typically used to test the state of the var tracker on the plugin
   // thread. This runs the task synchronously for convenience.
   void PostTaskOnRemoteHarness(const base::Closure& task);

  private:
   TwoWayTestMode test_mode_;
   HostProxyTestHarness host_;
   PluginProxyTestHarness plugin_;
   // In order to use sync IPC, we need to have an IO thread.
   base::Thread io_thread_;
   // The plugin side of the proxy runs on its own thread.
   base::Thread plugin_thread_;
   // The message loop for the main (host) thread.
   base::test::SingleThreadTaskEnvironment task_environment_;

   // Aliases for the host and plugin harnesses; if we're testing a PPP
   // interface, remote_harness will point to plugin_, and local_harness
   // will point to host_.  This makes it convenient when we're starting and
   // stopping the harnesses.
   ProxyTestHarnessBase* remote_harness_;
   ProxyTestHarnessBase* local_harness_;

   base::WaitableEvent channel_created_;
   base::WaitableEvent shutdown_event_;
 };

 // Used during Gtests when you have a PP_Var that you want to EXPECT is equal
 // to a certain constant string value:
 //
 //   EXPECT_VAR_IS_STRING("foo", my_var);
 #define EXPECT_VAR_IS_STRING(str, var) { \
   StringVar* sv = StringVar::FromPPVar(var); \
   EXPECT_TRUE(sv); \
   if (sv) \
     EXPECT_EQ(str, sv->value()); \
 }

 }  // namespace proxy
 }  // namespace ppapi

 #endif  // PPAPI_PROXY_PPAPI_PROXY_TEST_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 PPAPI_PROXY_PPAPI_PROXY_TEST_H_
	#define PPAPI_PROXY_PPAPI_PROXY_TEST_H_

	#include <stdint.h>

	#include <map>
	#include <memory>
	#include <string>

	#include "base/compiler_specific.h"
	#include "base/macros.h"
	#include "base/memory/ref_counted.h"
	#include "base/synchronization/waitable_event.h"
	#include "base/test/task_environment.h"
	#include "base/threading/simple_thread.h"
	#include "base/threading/thread.h"
	#include "ppapi/c/pp_instance.h"
	#include "ppapi/proxy/host_dispatcher.h"
	#include "ppapi/proxy/plugin_dispatcher.h"
	#include "ppapi/proxy/plugin_globals.h"
	#include "ppapi/proxy/plugin_proxy_delegate.h"
	#include "ppapi/proxy/plugin_resource_tracker.h"
	#include "ppapi/proxy/plugin_var_tracker.h"
	#include "ppapi/proxy/resource_message_test_sink.h"
	#include "ppapi/shared_impl/proxy_lock.h"
	#include "ppapi/shared_impl/test_globals.h"
	#include "testing/gtest/include/gtest/gtest.h"

	namespace base {
	class RunLoop;
	class SingleThreadTaskRunner;
	}

	namespace ppapi {
	namespace proxy {

	class MessageLoopResource;

	// Base class for plugin and host test harnesses. Tests will not use this
	// directly. Instead, use the PluginProxyTest, HostProxyTest, or TwoWayTest.
	class ProxyTestHarnessBase {
	public:
	enum GlobalsConfiguration {
	PER_THREAD_GLOBALS,
	SINGLETON_GLOBALS
	};

	ProxyTestHarnessBase();
	virtual ~ProxyTestHarnessBase();

	PP_Module pp_module() const { return pp_module_; }
	PP_Instance pp_instance() const { return pp_instance_; }
	ResourceMessageTestSink& sink() { return sink_; }

	virtual PpapiGlobals* GetGlobals() = 0;
	// Returns either the plugin or host dispatcher, depending on the test.
	virtual Dispatcher* GetDispatcher() = 0;

	// Set up the harness using an IPC::TestSink to capture messages.
	virtual void SetUpHarness() = 0;

	// Set up the harness using a real IPC channel.
	virtual void SetUpHarnessWithChannel(
	const IPC::ChannelHandle& channel_handle,
	base::SingleThreadTaskRunner* ipc_task_runner,
	base::WaitableEvent* shutdown_event,
	bool is_client) = 0;

	virtual void TearDownHarness() = 0;

	// Implementation of GetInterface for the dispatcher. This will
	// return NULL for all interfaces unless one is registered by calling
	// RegisterTestInterface();
	const void* GetInterface(const char* name);

	// Allows the test to specify an interface implementation for a given
	// interface name. This will be returned when any of the proxy logic
	// requests a local interface.
	void RegisterTestInterface(const char* name, const void* test_interface);

	// Sends a "supports interface" message to the current dispatcher and returns
	// true if it's supported. This is just for the convenience of tests.
	bool SupportsInterface(const char* name);

	private:
	// Destination for IPC messages sent by the test.
	ResourceMessageTestSink sink_;

	// The module and instance ID associated with the plugin dispatcher.
	PP_Module pp_module_;
	PP_Instance pp_instance_;

	// Stores the data for GetInterface/RegisterTestInterface.
	std::map<std::string, const void*> registered_interfaces_;
	};

	// Test harness for the plugin side of the proxy.
	class PluginProxyTestHarness : public ProxyTestHarnessBase {
	public:
	explicit PluginProxyTestHarness(GlobalsConfiguration globals_config);
	virtual ~PluginProxyTestHarness();

	PluginDispatcher* plugin_dispatcher() { return plugin_dispatcher_.get(); }
	PluginResourceTracker& resource_tracker() {
	return *plugin_globals_->plugin_resource_tracker();
	}
	PluginVarTracker& var_tracker() {
	return *plugin_globals_->plugin_var_tracker();
	}

	// ProxyTestHarnessBase implementation.
	virtual PpapiGlobals* GetGlobals();
	virtual Dispatcher* GetDispatcher();
	virtual void SetUpHarness();
	virtual void SetUpHarnessWithChannel(
	const IPC::ChannelHandle& channel_handle,
	base::SingleThreadTaskRunner* ipc_task_runner,
	base::WaitableEvent* shutdown_event,
	bool is_client);
	virtual void TearDownHarness();

	class PluginDelegateMock : public PluginDispatcher::PluginDelegate,
	public PluginProxyDelegate {
	public:
	PluginDelegateMock() : ipc_task_runner_(NULL), shutdown_event_() {}
	~PluginDelegateMock() override {}

	void Init(base::SingleThreadTaskRunner* ipc_task_runner,
	base::WaitableEvent* shutdown_event) {
	ipc_task_runner_ = ipc_task_runner;
	shutdown_event_ = shutdown_event;
	}

	void set_browser_sender(IPC::Sender* browser_sender) {
	browser_sender_ = browser_sender;
	}

	// ProxyChannel::Delegate implementation.
	base::SingleThreadTaskRunner* GetIPCTaskRunner() override;
	base::WaitableEvent* GetShutdownEvent() override;
	IPC::PlatformFileForTransit ShareHandleWithRemote(
	base::PlatformFile handle,
	base::ProcessId remote_pid,
	bool should_close_source) override;
	base::UnsafeSharedMemoryRegion ShareUnsafeSharedMemoryRegionWithRemote(
	const base::UnsafeSharedMemoryRegion& region,
	base::ProcessId remote_pid) override;
	base::ReadOnlySharedMemoryRegion ShareReadOnlySharedMemoryRegionWithRemote(
	const base::ReadOnlySharedMemoryRegion& region,
	base::ProcessId remote_pid) override;

	// PluginDispatcher::PluginDelegate implementation.
	std::set<PP_Instance>* GetGloballySeenInstanceIDSet() override;
	uint32_t Register(PluginDispatcher* plugin_dispatcher) override;
	void Unregister(uint32_t plugin_dispatcher_id) override;

	// PluginProxyDelegate implementation.
	IPC::Sender* GetBrowserSender() override;
	std::string GetUILanguage() override;
	void SetActiveURL(const std::string& url) override;
	PP_Resource CreateBrowserFont(
	Connection connection,
	PP_Instance instance,
	const PP_BrowserFont_Trusted_Description& desc,
	const Preferences& prefs) override;

	private:
	base::SingleThreadTaskRunner* ipc_task_runner_; // Weak
	base::WaitableEvent* shutdown_event_; // Weak
	std::set<PP_Instance> instance_id_set_;
	IPC::Sender* browser_sender_;

	DISALLOW_COPY_AND_ASSIGN(PluginDelegateMock);
	};

	private:
	void CreatePluginGlobals(
	const scoped_refptr<base::SingleThreadTaskRunner>& ipc_task_runner);

	GlobalsConfiguration globals_config_;
	std::unique_ptr<PluginGlobals> plugin_globals_;

	std::unique_ptr<PluginDispatcher> plugin_dispatcher_;
	PluginDelegateMock plugin_delegate_mock_;
	};

	class PluginProxyTest : public PluginProxyTestHarness, public testing::Test {
	public:
	PluginProxyTest();
	virtual ~PluginProxyTest();

	// testing::Test implementation.
	virtual void SetUp();
	virtual void TearDown();
	private:
	base::test::SingleThreadTaskEnvironment task_environment_;
	};

	// This class provides support for multi-thread testing. A secondary thread is
	// created with a Pepper message loop.
	// Subclasses need to implement the two SetUpTestOn*Thread() methods to do the
	// actual testing work; and call both PostQuitFor*Thread() when testing is
	// done.
	class PluginProxyMultiThreadTest
	: public PluginProxyTest,
	public base::DelegateSimpleThread::Delegate {
	public:
	PluginProxyMultiThreadTest();
	~PluginProxyMultiThreadTest() override;

	// Called before the secondary thread is started, but after all the member
	// variables, including \|secondary_thread_\| and
	// \|secondary_thread_message_loop_\|, are initialized.
	virtual void SetUpTestOnMainThread() = 0;

	virtual void SetUpTestOnSecondaryThread() = 0;

	// TEST_F() should call this method.
	void RunTest();

	enum ThreadType {
	MAIN_THREAD,
	SECONDARY_THREAD
	};
	void CheckOnThread(ThreadType thread_type);

	// These can be called on any thread.
	void PostQuitForMainThread();
	void PostQuitForSecondaryThread();

	protected:
	scoped_refptr<MessageLoopResource> secondary_thread_message_loop_;
	scoped_refptr<base::SingleThreadTaskRunner> main_thread_task_runner_;

	private:
	// base::DelegateSimpleThread::Delegate implementation.
	void Run() override;

	void QuitNestedLoop();

	static void InternalSetUpTestOnSecondaryThread(void* user_data,
	int32_t result);

	std::unique_ptr<base::DelegateSimpleThread> secondary_thread_;
	std::unique_ptr<base::RunLoop> nested_main_thread_message_loop_;
	};

	class HostProxyTestHarness : public ProxyTestHarnessBase {
	public:
	explicit HostProxyTestHarness(GlobalsConfiguration globals_config);
	virtual ~HostProxyTestHarness();

	HostDispatcher* host_dispatcher() { return host_dispatcher_.get(); }
	ResourceTracker& resource_tracker() {
	return *host_globals_->GetResourceTracker();
	}
	VarTracker& var_tracker() {
	return *host_globals_->GetVarTracker();
	}

	// ProxyTestBase implementation.
	virtual PpapiGlobals* GetGlobals();
	virtual Dispatcher* GetDispatcher();
	virtual void SetUpHarness();
	virtual void SetUpHarnessWithChannel(
	const IPC::ChannelHandle& channel_handle,
	base::SingleThreadTaskRunner* ipc_task_runner,
	base::WaitableEvent* shutdown_event,
	bool is_client);
	virtual void TearDownHarness();

	class DelegateMock : public ProxyChannel::Delegate {
	public:
	DelegateMock() : ipc_task_runner_(NULL), shutdown_event_(NULL) {}
	~DelegateMock() override {}

	void Init(base::SingleThreadTaskRunner* ipc_task_runner,
	base::WaitableEvent* shutdown_event) {
	ipc_task_runner_ = ipc_task_runner;
	shutdown_event_ = shutdown_event;
	}

	// ProxyChannel::Delegate implementation.
	base::SingleThreadTaskRunner* GetIPCTaskRunner() override;
	base::WaitableEvent* GetShutdownEvent() override;
	IPC::PlatformFileForTransit ShareHandleWithRemote(
	base::PlatformFile handle,
	base::ProcessId remote_pid,
	bool should_close_source) override;
	base::UnsafeSharedMemoryRegion ShareUnsafeSharedMemoryRegionWithRemote(
	const base::UnsafeSharedMemoryRegion& region,
	base::ProcessId remote_pid) override;
	base::ReadOnlySharedMemoryRegion ShareReadOnlySharedMemoryRegionWithRemote(
	const base::ReadOnlySharedMemoryRegion& region,
	base::ProcessId remote_pid) override;

	private:
	base::SingleThreadTaskRunner* ipc_task_runner_; // Weak
	base::WaitableEvent* shutdown_event_; // Weak

	DISALLOW_COPY_AND_ASSIGN(DelegateMock);
	};

	private:
	void CreateHostGlobals();

	GlobalsConfiguration globals_config_;
	std::unique_ptr<ppapi::TestGlobals> host_globals_;
	std::unique_ptr<HostDispatcher> host_dispatcher_;
	// The host side of the real proxy doesn't lock, so this disables locking for
	// the thread the host side of the test runs on.
	std::unique_ptr<ProxyLock::LockingDisablerForTest> disable_locking_;
	DelegateMock delegate_mock_;
	};

	class HostProxyTest : public HostProxyTestHarness, public testing::Test {
	public:
	HostProxyTest();
	virtual ~HostProxyTest();

	// testing::Test implementation.
	virtual void SetUp();
	virtual void TearDown();
	private:
	base::test::SingleThreadTaskEnvironment task_environment_;
	};

	// Use this base class to test both sides of a proxy.
	class TwoWayTest : public testing::Test {
	public:
	enum TwoWayTestMode {
	TEST_PPP_INTERFACE,
	TEST_PPB_INTERFACE
	};
	TwoWayTest(TwoWayTestMode test_mode);
	virtual ~TwoWayTest();

	HostProxyTestHarness& host() { return host_; }
	PluginProxyTestHarness& plugin() { return plugin_; }
	PP_Module pp_module() const { return host_.pp_module(); }
	PP_Instance pp_instance() const { return host_.pp_instance(); }
	TwoWayTestMode test_mode() { return test_mode_; }

	// testing::Test implementation.
	virtual void SetUp();
	virtual void TearDown();

	protected:
	// Post a task to the thread where the remote harness lives. This
	// is typically used to test the state of the var tracker on the plugin
	// thread. This runs the task synchronously for convenience.
	void PostTaskOnRemoteHarness(const base::Closure& task);

	private:
	TwoWayTestMode test_mode_;
	HostProxyTestHarness host_;
	PluginProxyTestHarness plugin_;
	// In order to use sync IPC, we need to have an IO thread.
	base::Thread io_thread_;
	// The plugin side of the proxy runs on its own thread.
	base::Thread plugin_thread_;
	// The message loop for the main (host) thread.
	base::test::SingleThreadTaskEnvironment task_environment_;

	// Aliases for the host and plugin harnesses; if we're testing a PPP
	// interface, remote_harness will point to plugin_, and local_harness
	// will point to host_. This makes it convenient when we're starting and
	// stopping the harnesses.
	ProxyTestHarnessBase* remote_harness_;
	ProxyTestHarnessBase* local_harness_;

	base::WaitableEvent channel_created_;
	base::WaitableEvent shutdown_event_;
	};

	// Used during Gtests when you have a PP_Var that you want to EXPECT is equal
	// to a certain constant string value:
	//
	// EXPECT_VAR_IS_STRING("foo", my_var);
	#define EXPECT_VAR_IS_STRING(str, var) { \
	StringVar* sv = StringVar::FromPPVar(var); \
	EXPECT_TRUE(sv); \
	if (sv) \
	EXPECT_EQ(str, sv->value()); \
	}

	} // namespace proxy
	} // namespace ppapi

	#endif // PPAPI_PROXY_PPAPI_PROXY_TEST_H_