ppapi/proxy/ppapi_proxy_test.cc - 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.

 #include "ppapi/proxy/ppapi_proxy_test.h"

 #include <tuple>

 #include "base/bind.h"
 #include "base/bind_helpers.h"
 #include "base/location.h"
 #include "base/observer_list.h"
 #include "base/process/process_handle.h"
 #include "base/run_loop.h"
 #include "base/single_thread_task_runner.h"
 #include "base/threading/thread_task_runner_handle.h"
 #include "ipc/ipc_sync_channel.h"
 #include "ipc/message_filter.h"
 #include "ppapi/c/pp_errors.h"
 #include "ppapi/c/private/ppb_proxy_private.h"
 #include "ppapi/proxy/ppapi_messages.h"
 #include "ppapi/proxy/ppb_message_loop_proxy.h"

 namespace ppapi {
 namespace proxy {

 namespace {
 // HostDispatcher requires a PPB_Proxy_Private, so we always provide a fallback
 // do-nothing implementation.
 void PluginCrashed(PP_Module module) {
   NOTREACHED();
 };

 PP_Instance GetInstanceForResource(PP_Resource resource) {
   // If a test relies on this, we need to implement it.
   NOTREACHED();
   return 0;
 }

 void SetReserveInstanceIDCallback(PP_Module module,
                                   PP_Bool (*is_seen)(PP_Module, PP_Instance)) {
   // This function gets called in HostDispatcher's constructor.  We simply don't
   // worry about Instance uniqueness in tests, so we can ignore the call.
 }

 void AddRefModule(PP_Module module) {}
 void ReleaseModule(PP_Module module) {}
 PP_Bool IsInModuleDestructor(PP_Module module) { return PP_FALSE; }

 PPB_Proxy_Private ppb_proxy_private = {
   &PluginCrashed,
   &GetInstanceForResource,
   &SetReserveInstanceIDCallback,
   &AddRefModule,
   &ReleaseModule,
   &IsInModuleDestructor
 };

 // We allow multiple harnesses at a time to respond to 'GetInterface' calls.
 // We assume that only 1 harness's GetInterface function will ever support a
 // given interface name. In practice, there will either be only 1 GetInterface
 // handler (for PluginProxyTest or HostProxyTest), or there will be only 2
 // GetInterface handlers (for TwoWayTest).  In the latter case, one handler is
 // for the PluginProxyTestHarness and should only respond for PPP interfaces,
 // and the other handler is for the HostProxyTestHarness which should only
 // ever respond for PPB interfaces.
 base::ObserverList<ProxyTestHarnessBase> get_interface_handlers_;

 const void* MockGetInterface(const char* name) {
   for (auto& observer : get_interface_handlers_) {
     const void* interface = observer.GetInterface(name);
     if (interface)
       return interface;
   }
   if (strcmp(name, PPB_PROXY_PRIVATE_INTERFACE) == 0)
     return &ppb_proxy_private;
   return NULL;
 }

 void SetUpRemoteHarness(ProxyTestHarnessBase* harness,
                         const IPC::ChannelHandle& handle,
                         base::SingleThreadTaskRunner* ipc_task_runner,
                         base::WaitableEvent* shutdown_event,
                         base::WaitableEvent* harness_set_up) {
   harness->SetUpHarnessWithChannel(handle, ipc_task_runner, shutdown_event,
                                    false);
   harness_set_up->Signal();
 }

 void TearDownRemoteHarness(ProxyTestHarnessBase* harness,
                            base::WaitableEvent* harness_torn_down) {
   harness->TearDownHarness();
   harness_torn_down->Signal();
 }

 void RunTaskOnRemoteHarness(const base::Closure& task,
                             base::WaitableEvent* task_complete) {
  task.Run();
  task_complete->Signal();
 }

 }  // namespace

 // ProxyTestHarnessBase --------------------------------------------------------

 ProxyTestHarnessBase::ProxyTestHarnessBase() : pp_module_(0x98765),
                                                pp_instance_(0x12345) {
   get_interface_handlers_.AddObserver(this);
 }

 ProxyTestHarnessBase::~ProxyTestHarnessBase() {
   get_interface_handlers_.RemoveObserver(this);
 }

 const void* ProxyTestHarnessBase::GetInterface(const char* name) {
   return registered_interfaces_[name];
 }

 void ProxyTestHarnessBase::RegisterTestInterface(const char* name,
                                                  const void* test_interface) {
   registered_interfaces_[name] = test_interface;
 }

 bool ProxyTestHarnessBase::SupportsInterface(const char* name) {
   sink().ClearMessages();

   // IPC doesn't actually write to this when we send a message manually
   // not actually using IPC.
   bool unused_result = false;
   PpapiMsg_SupportsInterface msg(name, &unused_result);
   GetDispatcher()->OnMessageReceived(msg);

   const IPC::Message* reply_msg =
       sink().GetUniqueMessageMatching(IPC_REPLY_ID);
   EXPECT_TRUE(reply_msg);
   if (!reply_msg)
     return false;

   PpapiMsg_SupportsInterface::ReplyParam reply_data;
   EXPECT_TRUE(PpapiMsg_SupportsInterface::ReadReplyParam(
       reply_msg, &reply_data));

   sink().ClearMessages();
   return std::get<0>(reply_data);
 }

 // PluginProxyTestHarness ------------------------------------------------------

 PluginProxyTestHarness::PluginProxyTestHarness(
     GlobalsConfiguration globals_config)
     : globals_config_(globals_config) {
 }

 PluginProxyTestHarness::~PluginProxyTestHarness() {
 }

 PpapiGlobals* PluginProxyTestHarness::GetGlobals() {
   return plugin_globals_.get();
 }

 Dispatcher* PluginProxyTestHarness::GetDispatcher() {
   return plugin_dispatcher_.get();
 }

 void PluginProxyTestHarness::SetUpHarness() {
   // These must be first since the dispatcher set-up uses them.
   CreatePluginGlobals(nullptr /* ipc_task_runner */);
   // Some of the methods called during set-up check that the lock is held.
   ProxyAutoLock lock;

   resource_tracker().DidCreateInstance(pp_instance());

   plugin_dispatcher_.reset(new PluginDispatcher(
       &MockGetInterface,
       PpapiPermissions(),
       false));
   plugin_dispatcher_->InitWithTestSink(&sink());
   // The plugin proxy delegate is needed for
   // |PluginProxyDelegate::GetBrowserSender| which is used
   // in |ResourceCreationProxy::GetConnection| to get the channel to the
   // browser. In this case we just use the |plugin_dispatcher_| as the channel
   // for test purposes.
   plugin_delegate_mock_.set_browser_sender(plugin_dispatcher_.get());
   PluginGlobals::Get()->SetPluginProxyDelegate(&plugin_delegate_mock_);
   plugin_dispatcher_->DidCreateInstance(pp_instance());
 }

 void PluginProxyTestHarness::SetUpHarnessWithChannel(
     const IPC::ChannelHandle& channel_handle,
     base::SingleThreadTaskRunner* ipc_task_runner,
     base::WaitableEvent* shutdown_event,
     bool is_client) {
   // These must be first since the dispatcher set-up uses them.
   CreatePluginGlobals(ipc_task_runner);
   // Some of the methods called during set-up check that the lock is held.
   ProxyAutoLock lock;

   resource_tracker().DidCreateInstance(pp_instance());
   plugin_delegate_mock_.Init(ipc_task_runner, shutdown_event);

   plugin_dispatcher_.reset(new PluginDispatcher(
       &MockGetInterface,
       PpapiPermissions(),
       false));
   plugin_dispatcher_->InitPluginWithChannel(&plugin_delegate_mock_,
                                             base::kNullProcessId,
                                             channel_handle,
                                             is_client);
   plugin_delegate_mock_.set_browser_sender(plugin_dispatcher_.get());
   PluginGlobals::Get()->SetPluginProxyDelegate(&plugin_delegate_mock_);
   plugin_dispatcher_->DidCreateInstance(pp_instance());
 }

 void PluginProxyTestHarness::TearDownHarness() {
   {
     // Some of the methods called during tear-down check that the lock is held.
     ProxyAutoLock lock;

     plugin_dispatcher_->DidDestroyInstance(pp_instance());
     plugin_dispatcher_.reset();

     resource_tracker().DidDeleteInstance(pp_instance());
   }
   plugin_globals_.reset();
 }

 void PluginProxyTestHarness::CreatePluginGlobals(
     const scoped_refptr<base::TaskRunner>& ipc_task_runner) {
   if (globals_config_ == PER_THREAD_GLOBALS) {
     plugin_globals_.reset(new PluginGlobals(PpapiGlobals::PerThreadForTest(),
                                             ipc_task_runner));
     PpapiGlobals::SetPpapiGlobalsOnThreadForTest(GetGlobals());
   } else {
     plugin_globals_.reset(new PluginGlobals(ipc_task_runner));
   }
 }

 base::SingleThreadTaskRunner*
 PluginProxyTestHarness::PluginDelegateMock::GetIPCTaskRunner() {
   return ipc_task_runner_;
 }

 base::WaitableEvent*
 PluginProxyTestHarness::PluginDelegateMock::GetShutdownEvent() {
   return shutdown_event_;
 }

 IPC::PlatformFileForTransit
 PluginProxyTestHarness::PluginDelegateMock::ShareHandleWithRemote(
     base::PlatformFile handle,
     base::ProcessId /* remote_pid */,
     bool should_close_source) {
   return IPC::GetPlatformFileForTransit(handle,
                                         should_close_source);
 }

 base::SharedMemoryHandle
 PluginProxyTestHarness::PluginDelegateMock::ShareSharedMemoryHandleWithRemote(
     const base::SharedMemoryHandle& handle,
     base::ProcessId /* remote_pid */) {
   return base::SharedMemory::DuplicateHandle(handle);
 }

 std::set<PP_Instance>*
 PluginProxyTestHarness::PluginDelegateMock::GetGloballySeenInstanceIDSet() {
   return &instance_id_set_;
 }

 uint32_t PluginProxyTestHarness::PluginDelegateMock::Register(
     PluginDispatcher* plugin_dispatcher) {
   return 0;
 }

 void PluginProxyTestHarness::PluginDelegateMock::Unregister(
     uint32_t plugin_dispatcher_id) {}

 IPC::Sender* PluginProxyTestHarness::PluginDelegateMock::GetBrowserSender() {
   return browser_sender_;
 }

 std::string PluginProxyTestHarness::PluginDelegateMock::GetUILanguage() {
   return std::string("en-US");
 }

 void PluginProxyTestHarness::PluginDelegateMock::PreCacheFontForFlash(
     const void* logfontw) {
 }

 void PluginProxyTestHarness::PluginDelegateMock::SetActiveURL(
     const std::string& url) {
 }

 PP_Resource PluginProxyTestHarness::PluginDelegateMock::CreateBrowserFont(
     Connection connection,
     PP_Instance instance,
     const PP_BrowserFont_Trusted_Description& desc,
     const Preferences& prefs) {
   return 0;
 }

 // PluginProxyTest -------------------------------------------------------------

 PluginProxyTest::PluginProxyTest() : PluginProxyTestHarness(SINGLETON_GLOBALS) {
 }

 PluginProxyTest::~PluginProxyTest() {
 }

 void PluginProxyTest::SetUp() {
   SetUpHarness();
 }

 void PluginProxyTest::TearDown() {
   TearDownHarness();
 }

 // PluginProxyMultiThreadTest --------------------------------------------------

 PluginProxyMultiThreadTest::PluginProxyMultiThreadTest() {
 }

 PluginProxyMultiThreadTest::~PluginProxyMultiThreadTest() {
 }

 void PluginProxyMultiThreadTest::RunTest() {
   main_thread_task_runner_ = PpapiGlobals::Get()->GetMainThreadMessageLoop();
   ASSERT_EQ(main_thread_task_runner_.get(),
             base::ThreadTaskRunnerHandle::Get().get());
   nested_main_thread_message_loop_.reset(new base::RunLoop());

   secondary_thread_.reset(new base::DelegateSimpleThread(
       this, "PluginProxyMultiThreadTest"));

   {
     ProxyAutoLock auto_lock;

     // MessageLoopResource assumes that the proxy lock has been acquired.
     secondary_thread_message_loop_ = new MessageLoopResource(pp_instance());

     ASSERT_EQ(PP_OK,
         secondary_thread_message_loop_->PostWork(
             PP_MakeCompletionCallback(
                 &PluginProxyMultiThreadTest::InternalSetUpTestOnSecondaryThread,
                 this),
             0));
   }

   SetUpTestOnMainThread();

   secondary_thread_->Start();
   nested_main_thread_message_loop_->Run();
   secondary_thread_->Join();

   {
     ProxyAutoLock auto_lock;

     // The destruction requires a valid PpapiGlobals instance, so we should
     // explicitly release it.
     secondary_thread_message_loop_ = NULL;
   }

   secondary_thread_.reset(NULL);
   nested_main_thread_message_loop_.reset(NULL);
   main_thread_task_runner_ = NULL;
 }

 void PluginProxyMultiThreadTest::CheckOnThread(ThreadType thread_type) {
   ProxyAutoLock auto_lock;
   if (thread_type == MAIN_THREAD) {
     ASSERT_TRUE(MessageLoopResource::GetCurrent()->is_main_thread_loop());
   } else {
     ASSERT_EQ(secondary_thread_message_loop_.get(),
               MessageLoopResource::GetCurrent());
   }
 }

 void PluginProxyMultiThreadTest::PostQuitForMainThread() {
   main_thread_task_runner_->PostTask(
       FROM_HERE, base::Bind(&PluginProxyMultiThreadTest::QuitNestedLoop,
                             base::Unretained(this)));
 }

 void PluginProxyMultiThreadTest::PostQuitForSecondaryThread() {
   ProxyAutoLock auto_lock;
   secondary_thread_message_loop_->PostQuit(PP_TRUE);
 }

 void PluginProxyMultiThreadTest::Run() {
   ProxyAutoLock auto_lock;
   ASSERT_EQ(PP_OK, secondary_thread_message_loop_->AttachToCurrentThread());
   ASSERT_EQ(PP_OK, secondary_thread_message_loop_->Run());
   secondary_thread_message_loop_->DetachFromThread();
 }

 void PluginProxyMultiThreadTest::QuitNestedLoop() {
   nested_main_thread_message_loop_->Quit();
 }

 // static
 void PluginProxyMultiThreadTest::InternalSetUpTestOnSecondaryThread(
     void* user_data,
     int32_t result) {
   EXPECT_EQ(PP_OK, result);
   PluginProxyMultiThreadTest* thiz =
       static_cast<PluginProxyMultiThreadTest*>(user_data);
   thiz->CheckOnThread(SECONDARY_THREAD);
   thiz->SetUpTestOnSecondaryThread();
 }

 // HostProxyTestHarness --------------------------------------------------------

 HostProxyTestHarness::HostProxyTestHarness(GlobalsConfiguration globals_config)
     : globals_config_(globals_config) {
 }

 HostProxyTestHarness::~HostProxyTestHarness() {
 }

 PpapiGlobals* HostProxyTestHarness::GetGlobals() {
   return host_globals_.get();
 }

 Dispatcher* HostProxyTestHarness::GetDispatcher() {
   return host_dispatcher_.get();
 }

 void HostProxyTestHarness::SetUpHarness() {
   // These must be first since the dispatcher set-up uses them.
   CreateHostGlobals();

   host_dispatcher_.reset(new HostDispatcher(
       pp_module(),
       &MockGetInterface,
       PpapiPermissions::AllPermissions()));
   host_dispatcher_->InitWithTestSink(&sink());
   HostDispatcher::SetForInstance(pp_instance(), host_dispatcher_.get());
 }

 void HostProxyTestHarness::SetUpHarnessWithChannel(
     const IPC::ChannelHandle& channel_handle,
     base::SingleThreadTaskRunner* ipc_task_runner,
     base::WaitableEvent* shutdown_event,
     bool is_client) {
   // These must be first since the dispatcher set-up uses them.
   CreateHostGlobals();

   delegate_mock_.Init(ipc_task_runner, shutdown_event);

   host_dispatcher_.reset(new HostDispatcher(
       pp_module(),
       &MockGetInterface,
       PpapiPermissions::AllPermissions()));
   ppapi::Preferences preferences;
   host_dispatcher_->InitHostWithChannel(&delegate_mock_,
                                         base::kNullProcessId, channel_handle,
                                         is_client, preferences);
   HostDispatcher::SetForInstance(pp_instance(), host_dispatcher_.get());
 }

 void HostProxyTestHarness::TearDownHarness() {
   HostDispatcher::RemoveForInstance(pp_instance());
   host_dispatcher_.reset();
   host_globals_.reset();
 }

 void HostProxyTestHarness::CreateHostGlobals() {
   disable_locking_.reset(new ProxyLock::LockingDisablerForTest);
   if (globals_config_ == PER_THREAD_GLOBALS) {
     host_globals_.reset(new TestGlobals(PpapiGlobals::PerThreadForTest()));
     PpapiGlobals::SetPpapiGlobalsOnThreadForTest(GetGlobals());
   } else {
     host_globals_.reset(new TestGlobals());
   }
 }

 base::SingleThreadTaskRunner*
 HostProxyTestHarness::DelegateMock::GetIPCTaskRunner() {
   return ipc_task_runner_;
 }

 base::WaitableEvent* HostProxyTestHarness::DelegateMock::GetShutdownEvent() {
   return shutdown_event_;
 }

 IPC::PlatformFileForTransit
 HostProxyTestHarness::DelegateMock::ShareHandleWithRemote(
     base::PlatformFile handle,
     base::ProcessId /* remote_pid */,
     bool should_close_source) {
   return IPC::GetPlatformFileForTransit(handle,
                                         should_close_source);
 }

 base::SharedMemoryHandle
 HostProxyTestHarness::DelegateMock::ShareSharedMemoryHandleWithRemote(
     const base::SharedMemoryHandle& handle,
     base::ProcessId /*remote_pid*/) {
   return base::SharedMemory::DuplicateHandle(handle);
 }

 // HostProxyTest ---------------------------------------------------------------

 HostProxyTest::HostProxyTest() : HostProxyTestHarness(SINGLETON_GLOBALS) {
 }

 HostProxyTest::~HostProxyTest() {
 }

 void HostProxyTest::SetUp() {
   SetUpHarness();
 }

 void HostProxyTest::TearDown() {
   TearDownHarness();
 }

 // TwoWayTest ---------------------------------------------------------------

 TwoWayTest::TwoWayTest(TwoWayTest::TwoWayTestMode test_mode)
     : test_mode_(test_mode),
       host_(ProxyTestHarnessBase::PER_THREAD_GLOBALS),
       plugin_(ProxyTestHarnessBase::PER_THREAD_GLOBALS),
       io_thread_("TwoWayTest_IOThread"),
       plugin_thread_("TwoWayTest_PluginThread"),
       remote_harness_(NULL),
       local_harness_(NULL),
       channel_created_(base::WaitableEvent::ResetPolicy::MANUAL,
                        base::WaitableEvent::InitialState::NOT_SIGNALED),
       shutdown_event_(base::WaitableEvent::ResetPolicy::MANUAL,
                       base::WaitableEvent::InitialState::NOT_SIGNALED) {
   if (test_mode == TEST_PPP_INTERFACE) {
     remote_harness_ = &plugin_;
     local_harness_ = &host_;
   } else {
     remote_harness_ = &host_;
     local_harness_ = &plugin_;
   }
 }

 TwoWayTest::~TwoWayTest() {
   shutdown_event_.Signal();
 }

 void TwoWayTest::SetUp() {
   base::Thread::Options options;
   options.message_loop_type = base::MessageLoop::TYPE_IO;
   io_thread_.StartWithOptions(options);
   plugin_thread_.Start();

   mojo::MessagePipe pipe;
   base::WaitableEvent remote_harness_set_up(
       base::WaitableEvent::ResetPolicy::MANUAL,
       base::WaitableEvent::InitialState::NOT_SIGNALED);
   plugin_thread_.task_runner()->PostTask(
       FROM_HERE,
       base::Bind(&SetUpRemoteHarness, remote_harness_, pipe.handle0.release(),
                  base::RetainedRef(io_thread_.task_runner()), &shutdown_event_,
                  &remote_harness_set_up));
   remote_harness_set_up.Wait();
   local_harness_->SetUpHarnessWithChannel(
       pipe.handle1.release(), io_thread_.task_runner().get(), &shutdown_event_,
       true);  // is_client
 }

 void TwoWayTest::TearDown() {
   base::WaitableEvent remote_harness_torn_down(
       base::WaitableEvent::ResetPolicy::MANUAL,
       base::WaitableEvent::InitialState::NOT_SIGNALED);
   plugin_thread_.task_runner()->PostTask(
       FROM_HERE, base::Bind(&TearDownRemoteHarness, remote_harness_,
                             &remote_harness_torn_down));
   remote_harness_torn_down.Wait();

   local_harness_->TearDownHarness();

   io_thread_.Stop();
 }

 void TwoWayTest::PostTaskOnRemoteHarness(const base::Closure& task) {
   base::WaitableEvent task_complete(
       base::WaitableEvent::ResetPolicy::MANUAL,
       base::WaitableEvent::InitialState::NOT_SIGNALED);
   plugin_thread_.task_runner()->PostTask(
       FROM_HERE, base::Bind(&RunTaskOnRemoteHarness, task, &task_complete));
   task_complete.Wait();
 }


 }  // namespace proxy
 }  // namespace ppapi
	// 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.

	#include "ppapi/proxy/ppapi_proxy_test.h"

	#include <tuple>

	#include "base/bind.h"
	#include "base/bind_helpers.h"
	#include "base/location.h"
	#include "base/observer_list.h"
	#include "base/process/process_handle.h"
	#include "base/run_loop.h"
	#include "base/single_thread_task_runner.h"
	#include "base/threading/thread_task_runner_handle.h"
	#include "ipc/ipc_sync_channel.h"
	#include "ipc/message_filter.h"
	#include "ppapi/c/pp_errors.h"
	#include "ppapi/c/private/ppb_proxy_private.h"
	#include "ppapi/proxy/ppapi_messages.h"
	#include "ppapi/proxy/ppb_message_loop_proxy.h"

	namespace ppapi {
	namespace proxy {

	namespace {
	// HostDispatcher requires a PPB_Proxy_Private, so we always provide a fallback
	// do-nothing implementation.
	void PluginCrashed(PP_Module module) {
	NOTREACHED();
	};

	PP_Instance GetInstanceForResource(PP_Resource resource) {
	// If a test relies on this, we need to implement it.
	NOTREACHED();
	return 0;
	}

	void SetReserveInstanceIDCallback(PP_Module module,
	PP_Bool (*is_seen)(PP_Module, PP_Instance)) {
	// This function gets called in HostDispatcher's constructor. We simply don't
	// worry about Instance uniqueness in tests, so we can ignore the call.
	}

	void AddRefModule(PP_Module module) {}
	void ReleaseModule(PP_Module module) {}
	PP_Bool IsInModuleDestructor(PP_Module module) { return PP_FALSE; }

	PPB_Proxy_Private ppb_proxy_private = {
	&PluginCrashed,
	&GetInstanceForResource,
	&SetReserveInstanceIDCallback,
	&AddRefModule,
	&ReleaseModule,
	&IsInModuleDestructor
	};

	// We allow multiple harnesses at a time to respond to 'GetInterface' calls.
	// We assume that only 1 harness's GetInterface function will ever support a
	// given interface name. In practice, there will either be only 1 GetInterface
	// handler (for PluginProxyTest or HostProxyTest), or there will be only 2
	// GetInterface handlers (for TwoWayTest). In the latter case, one handler is
	// for the PluginProxyTestHarness and should only respond for PPP interfaces,
	// and the other handler is for the HostProxyTestHarness which should only
	// ever respond for PPB interfaces.
	base::ObserverList<ProxyTestHarnessBase> get_interface_handlers_;

	const void* MockGetInterface(const char* name) {
	for (auto& observer : get_interface_handlers_) {
	const void* interface = observer.GetInterface(name);
	if (interface)
	return interface;
	}
	if (strcmp(name, PPB_PROXY_PRIVATE_INTERFACE) == 0)
	return &ppb_proxy_private;
	return NULL;
	}

	void SetUpRemoteHarness(ProxyTestHarnessBase* harness,
	const IPC::ChannelHandle& handle,
	base::SingleThreadTaskRunner* ipc_task_runner,
	base::WaitableEvent* shutdown_event,
	base::WaitableEvent* harness_set_up) {
	harness->SetUpHarnessWithChannel(handle, ipc_task_runner, shutdown_event,
	false);
	harness_set_up->Signal();
	}

	void TearDownRemoteHarness(ProxyTestHarnessBase* harness,
	base::WaitableEvent* harness_torn_down) {
	harness->TearDownHarness();
	harness_torn_down->Signal();
	}

	void RunTaskOnRemoteHarness(const base::Closure& task,
	base::WaitableEvent* task_complete) {
	task.Run();
	task_complete->Signal();
	}

	} // namespace

	// ProxyTestHarnessBase --------------------------------------------------------

	ProxyTestHarnessBase::ProxyTestHarnessBase() : pp_module_(0x98765),
	pp_instance_(0x12345) {
	get_interface_handlers_.AddObserver(this);
	}

	ProxyTestHarnessBase::~ProxyTestHarnessBase() {
	get_interface_handlers_.RemoveObserver(this);
	}

	const void* ProxyTestHarnessBase::GetInterface(const char* name) {
	return registered_interfaces_[name];
	}

	void ProxyTestHarnessBase::RegisterTestInterface(const char* name,
	const void* test_interface) {
	registered_interfaces_[name] = test_interface;
	}

	bool ProxyTestHarnessBase::SupportsInterface(const char* name) {
	sink().ClearMessages();

	// IPC doesn't actually write to this when we send a message manually
	// not actually using IPC.
	bool unused_result = false;
	PpapiMsg_SupportsInterface msg(name, &unused_result);
	GetDispatcher()->OnMessageReceived(msg);

	const IPC::Message* reply_msg =
	sink().GetUniqueMessageMatching(IPC_REPLY_ID);
	EXPECT_TRUE(reply_msg);
	if (!reply_msg)
	return false;

	PpapiMsg_SupportsInterface::ReplyParam reply_data;
	EXPECT_TRUE(PpapiMsg_SupportsInterface::ReadReplyParam(
	reply_msg, &reply_data));

	sink().ClearMessages();
	return std::get<0>(reply_data);
	}

	// PluginProxyTestHarness ------------------------------------------------------

	PluginProxyTestHarness::PluginProxyTestHarness(
	GlobalsConfiguration globals_config)
	: globals_config_(globals_config) {
	}

	PluginProxyTestHarness::~PluginProxyTestHarness() {
	}

	PpapiGlobals* PluginProxyTestHarness::GetGlobals() {
	return plugin_globals_.get();
	}

	Dispatcher* PluginProxyTestHarness::GetDispatcher() {
	return plugin_dispatcher_.get();
	}

	void PluginProxyTestHarness::SetUpHarness() {
	// These must be first since the dispatcher set-up uses them.
	CreatePluginGlobals(nullptr /* ipc_task_runner */);
	// Some of the methods called during set-up check that the lock is held.
	ProxyAutoLock lock;

	resource_tracker().DidCreateInstance(pp_instance());

	plugin_dispatcher_.reset(new PluginDispatcher(
	&MockGetInterface,
	PpapiPermissions(),
	false));
	plugin_dispatcher_->InitWithTestSink(&sink());
	// The plugin proxy delegate is needed for
	// \|PluginProxyDelegate::GetBrowserSender\| which is used
	// in \|ResourceCreationProxy::GetConnection\| to get the channel to the
	// browser. In this case we just use the \|plugin_dispatcher_\| as the channel
	// for test purposes.
	plugin_delegate_mock_.set_browser_sender(plugin_dispatcher_.get());
	PluginGlobals::Get()->SetPluginProxyDelegate(&plugin_delegate_mock_);
	plugin_dispatcher_->DidCreateInstance(pp_instance());
	}

	void PluginProxyTestHarness::SetUpHarnessWithChannel(
	const IPC::ChannelHandle& channel_handle,
	base::SingleThreadTaskRunner* ipc_task_runner,
	base::WaitableEvent* shutdown_event,
	bool is_client) {
	// These must be first since the dispatcher set-up uses them.
	CreatePluginGlobals(ipc_task_runner);
	// Some of the methods called during set-up check that the lock is held.
	ProxyAutoLock lock;

	resource_tracker().DidCreateInstance(pp_instance());
	plugin_delegate_mock_.Init(ipc_task_runner, shutdown_event);

	plugin_dispatcher_.reset(new PluginDispatcher(
	&MockGetInterface,
	PpapiPermissions(),
	false));
	plugin_dispatcher_->InitPluginWithChannel(&plugin_delegate_mock_,
	base::kNullProcessId,
	channel_handle,
	is_client);
	plugin_delegate_mock_.set_browser_sender(plugin_dispatcher_.get());
	PluginGlobals::Get()->SetPluginProxyDelegate(&plugin_delegate_mock_);
	plugin_dispatcher_->DidCreateInstance(pp_instance());
	}

	void PluginProxyTestHarness::TearDownHarness() {
	{
	// Some of the methods called during tear-down check that the lock is held.
	ProxyAutoLock lock;

	plugin_dispatcher_->DidDestroyInstance(pp_instance());
	plugin_dispatcher_.reset();

	resource_tracker().DidDeleteInstance(pp_instance());
	}
	plugin_globals_.reset();
	}

	void PluginProxyTestHarness::CreatePluginGlobals(
	const scoped_refptr<base::TaskRunner>& ipc_task_runner) {
	if (globals_config_ == PER_THREAD_GLOBALS) {
	plugin_globals_.reset(new PluginGlobals(PpapiGlobals::PerThreadForTest(),
	ipc_task_runner));
	PpapiGlobals::SetPpapiGlobalsOnThreadForTest(GetGlobals());
	} else {
	plugin_globals_.reset(new PluginGlobals(ipc_task_runner));
	}
	}

	base::SingleThreadTaskRunner*
	PluginProxyTestHarness::PluginDelegateMock::GetIPCTaskRunner() {
	return ipc_task_runner_;
	}

	base::WaitableEvent*
	PluginProxyTestHarness::PluginDelegateMock::GetShutdownEvent() {
	return shutdown_event_;
	}

	IPC::PlatformFileForTransit
	PluginProxyTestHarness::PluginDelegateMock::ShareHandleWithRemote(
	base::PlatformFile handle,
	base::ProcessId /* remote_pid */,
	bool should_close_source) {
	return IPC::GetPlatformFileForTransit(handle,
	should_close_source);
	}

	base::SharedMemoryHandle
	PluginProxyTestHarness::PluginDelegateMock::ShareSharedMemoryHandleWithRemote(
	const base::SharedMemoryHandle& handle,
	base::ProcessId /* remote_pid */) {
	return base::SharedMemory::DuplicateHandle(handle);
	}

	std::set<PP_Instance>*
	PluginProxyTestHarness::PluginDelegateMock::GetGloballySeenInstanceIDSet() {
	return &instance_id_set_;
	}

	uint32_t PluginProxyTestHarness::PluginDelegateMock::Register(
	PluginDispatcher* plugin_dispatcher) {
	return 0;
	}

	void PluginProxyTestHarness::PluginDelegateMock::Unregister(
	uint32_t plugin_dispatcher_id) {}

	IPC::Sender* PluginProxyTestHarness::PluginDelegateMock::GetBrowserSender() {
	return browser_sender_;
	}

	std::string PluginProxyTestHarness::PluginDelegateMock::GetUILanguage() {
	return std::string("en-US");
	}

	void PluginProxyTestHarness::PluginDelegateMock::PreCacheFontForFlash(
	const void* logfontw) {
	}

	void PluginProxyTestHarness::PluginDelegateMock::SetActiveURL(
	const std::string& url) {
	}

	PP_Resource PluginProxyTestHarness::PluginDelegateMock::CreateBrowserFont(
	Connection connection,
	PP_Instance instance,
	const PP_BrowserFont_Trusted_Description& desc,
	const Preferences& prefs) {
	return 0;
	}

	// PluginProxyTest -------------------------------------------------------------

	PluginProxyTest::PluginProxyTest() : PluginProxyTestHarness(SINGLETON_GLOBALS) {
	}

	PluginProxyTest::~PluginProxyTest() {
	}

	void PluginProxyTest::SetUp() {
	SetUpHarness();
	}

	void PluginProxyTest::TearDown() {
	TearDownHarness();
	}

	// PluginProxyMultiThreadTest --------------------------------------------------

	PluginProxyMultiThreadTest::PluginProxyMultiThreadTest() {
	}

	PluginProxyMultiThreadTest::~PluginProxyMultiThreadTest() {
	}

	void PluginProxyMultiThreadTest::RunTest() {
	main_thread_task_runner_ = PpapiGlobals::Get()->GetMainThreadMessageLoop();
	ASSERT_EQ(main_thread_task_runner_.get(),
	base::ThreadTaskRunnerHandle::Get().get());
	nested_main_thread_message_loop_.reset(new base::RunLoop());

	secondary_thread_.reset(new base::DelegateSimpleThread(
	this, "PluginProxyMultiThreadTest"));

	{
	ProxyAutoLock auto_lock;

	// MessageLoopResource assumes that the proxy lock has been acquired.
	secondary_thread_message_loop_ = new MessageLoopResource(pp_instance());

	ASSERT_EQ(PP_OK,
	secondary_thread_message_loop_->PostWork(
	PP_MakeCompletionCallback(
	&PluginProxyMultiThreadTest::InternalSetUpTestOnSecondaryThread,
	this),
	0));
	}

	SetUpTestOnMainThread();

	secondary_thread_->Start();
	nested_main_thread_message_loop_->Run();
	secondary_thread_->Join();

	{
	ProxyAutoLock auto_lock;

	// The destruction requires a valid PpapiGlobals instance, so we should
	// explicitly release it.
	secondary_thread_message_loop_ = NULL;
	}

	secondary_thread_.reset(NULL);
	nested_main_thread_message_loop_.reset(NULL);
	main_thread_task_runner_ = NULL;
	}

	void PluginProxyMultiThreadTest::CheckOnThread(ThreadType thread_type) {
	ProxyAutoLock auto_lock;
	if (thread_type == MAIN_THREAD) {
	ASSERT_TRUE(MessageLoopResource::GetCurrent()->is_main_thread_loop());
	} else {
	ASSERT_EQ(secondary_thread_message_loop_.get(),
	MessageLoopResource::GetCurrent());
	}
	}

	void PluginProxyMultiThreadTest::PostQuitForMainThread() {
	main_thread_task_runner_->PostTask(
	FROM_HERE, base::Bind(&PluginProxyMultiThreadTest::QuitNestedLoop,
	base::Unretained(this)));
	}

	void PluginProxyMultiThreadTest::PostQuitForSecondaryThread() {
	ProxyAutoLock auto_lock;
	secondary_thread_message_loop_->PostQuit(PP_TRUE);
	}

	void PluginProxyMultiThreadTest::Run() {
	ProxyAutoLock auto_lock;
	ASSERT_EQ(PP_OK, secondary_thread_message_loop_->AttachToCurrentThread());
	ASSERT_EQ(PP_OK, secondary_thread_message_loop_->Run());
	secondary_thread_message_loop_->DetachFromThread();
	}

	void PluginProxyMultiThreadTest::QuitNestedLoop() {
	nested_main_thread_message_loop_->Quit();
	}

	// static
	void PluginProxyMultiThreadTest::InternalSetUpTestOnSecondaryThread(
	void* user_data,
	int32_t result) {
	EXPECT_EQ(PP_OK, result);
	PluginProxyMultiThreadTest* thiz =
	static_cast<PluginProxyMultiThreadTest*>(user_data);
	thiz->CheckOnThread(SECONDARY_THREAD);
	thiz->SetUpTestOnSecondaryThread();
	}

	// HostProxyTestHarness --------------------------------------------------------

	HostProxyTestHarness::HostProxyTestHarness(GlobalsConfiguration globals_config)
	: globals_config_(globals_config) {
	}

	HostProxyTestHarness::~HostProxyTestHarness() {
	}

	PpapiGlobals* HostProxyTestHarness::GetGlobals() {
	return host_globals_.get();
	}

	Dispatcher* HostProxyTestHarness::GetDispatcher() {
	return host_dispatcher_.get();
	}

	void HostProxyTestHarness::SetUpHarness() {
	// These must be first since the dispatcher set-up uses them.
	CreateHostGlobals();

	host_dispatcher_.reset(new HostDispatcher(
	pp_module(),
	&MockGetInterface,
	PpapiPermissions::AllPermissions()));
	host_dispatcher_->InitWithTestSink(&sink());
	HostDispatcher::SetForInstance(pp_instance(), host_dispatcher_.get());
	}

	void HostProxyTestHarness::SetUpHarnessWithChannel(
	const IPC::ChannelHandle& channel_handle,
	base::SingleThreadTaskRunner* ipc_task_runner,
	base::WaitableEvent* shutdown_event,
	bool is_client) {
	// These must be first since the dispatcher set-up uses them.
	CreateHostGlobals();

	delegate_mock_.Init(ipc_task_runner, shutdown_event);

	host_dispatcher_.reset(new HostDispatcher(
	pp_module(),
	&MockGetInterface,
	PpapiPermissions::AllPermissions()));
	ppapi::Preferences preferences;
	host_dispatcher_->InitHostWithChannel(&delegate_mock_,
	base::kNullProcessId, channel_handle,
	is_client, preferences);
	HostDispatcher::SetForInstance(pp_instance(), host_dispatcher_.get());
	}

	void HostProxyTestHarness::TearDownHarness() {
	HostDispatcher::RemoveForInstance(pp_instance());
	host_dispatcher_.reset();
	host_globals_.reset();
	}

	void HostProxyTestHarness::CreateHostGlobals() {
	disable_locking_.reset(new ProxyLock::LockingDisablerForTest);
	if (globals_config_ == PER_THREAD_GLOBALS) {
	host_globals_.reset(new TestGlobals(PpapiGlobals::PerThreadForTest()));
	PpapiGlobals::SetPpapiGlobalsOnThreadForTest(GetGlobals());
	} else {
	host_globals_.reset(new TestGlobals());
	}
	}

	base::SingleThreadTaskRunner*
	HostProxyTestHarness::DelegateMock::GetIPCTaskRunner() {
	return ipc_task_runner_;
	}

	base::WaitableEvent* HostProxyTestHarness::DelegateMock::GetShutdownEvent() {
	return shutdown_event_;
	}

	IPC::PlatformFileForTransit
	HostProxyTestHarness::DelegateMock::ShareHandleWithRemote(
	base::PlatformFile handle,
	base::ProcessId /* remote_pid */,
	bool should_close_source) {
	return IPC::GetPlatformFileForTransit(handle,
	should_close_source);
	}

	base::SharedMemoryHandle
	HostProxyTestHarness::DelegateMock::ShareSharedMemoryHandleWithRemote(
	const base::SharedMemoryHandle& handle,
	base::ProcessId /remote_pid/) {
	return base::SharedMemory::DuplicateHandle(handle);
	}

	// HostProxyTest ---------------------------------------------------------------

	HostProxyTest::HostProxyTest() : HostProxyTestHarness(SINGLETON_GLOBALS) {
	}

	HostProxyTest::~HostProxyTest() {
	}

	void HostProxyTest::SetUp() {
	SetUpHarness();
	}

	void HostProxyTest::TearDown() {
	TearDownHarness();
	}

	// TwoWayTest ---------------------------------------------------------------

	TwoWayTest::TwoWayTest(TwoWayTest::TwoWayTestMode test_mode)
	: test_mode_(test_mode),
	host_(ProxyTestHarnessBase::PER_THREAD_GLOBALS),
	plugin_(ProxyTestHarnessBase::PER_THREAD_GLOBALS),
	io_thread_("TwoWayTest_IOThread"),
	plugin_thread_("TwoWayTest_PluginThread"),
	remote_harness_(NULL),
	local_harness_(NULL),
	channel_created_(base::WaitableEvent::ResetPolicy::MANUAL,
	base::WaitableEvent::InitialState::NOT_SIGNALED),
	shutdown_event_(base::WaitableEvent::ResetPolicy::MANUAL,
	base::WaitableEvent::InitialState::NOT_SIGNALED) {
	if (test_mode == TEST_PPP_INTERFACE) {
	remote_harness_ = &plugin_;
	local_harness_ = &host_;
	} else {
	remote_harness_ = &host_;
	local_harness_ = &plugin_;
	}
	}

	TwoWayTest::~TwoWayTest() {
	shutdown_event_.Signal();
	}

	void TwoWayTest::SetUp() {
	base::Thread::Options options;
	options.message_loop_type = base::MessageLoop::TYPE_IO;
	io_thread_.StartWithOptions(options);
	plugin_thread_.Start();

	mojo::MessagePipe pipe;
	base::WaitableEvent remote_harness_set_up(
	base::WaitableEvent::ResetPolicy::MANUAL,
	base::WaitableEvent::InitialState::NOT_SIGNALED);
	plugin_thread_.task_runner()->PostTask(
	FROM_HERE,
	base::Bind(&SetUpRemoteHarness, remote_harness_, pipe.handle0.release(),
	base::RetainedRef(io_thread_.task_runner()), &shutdown_event_,
	&remote_harness_set_up));
	remote_harness_set_up.Wait();
	local_harness_->SetUpHarnessWithChannel(
	pipe.handle1.release(), io_thread_.task_runner().get(), &shutdown_event_,
	true); // is_client
	}

	void TwoWayTest::TearDown() {
	base::WaitableEvent remote_harness_torn_down(
	base::WaitableEvent::ResetPolicy::MANUAL,
	base::WaitableEvent::InitialState::NOT_SIGNALED);
	plugin_thread_.task_runner()->PostTask(
	FROM_HERE, base::Bind(&TearDownRemoteHarness, remote_harness_,
	&remote_harness_torn_down));
	remote_harness_torn_down.Wait();

	local_harness_->TearDownHarness();

	io_thread_.Stop();
	}

	void TwoWayTest::PostTaskOnRemoteHarness(const base::Closure& task) {
	base::WaitableEvent task_complete(
	base::WaitableEvent::ResetPolicy::MANUAL,
	base::WaitableEvent::InitialState::NOT_SIGNALED);
	plugin_thread_.task_runner()->PostTask(
	FROM_HERE, base::Bind(&RunTaskOnRemoteHarness, task, &task_complete));
	task_complete.Wait();
	}


	} // namespace proxy
	} // namespace ppapi