mojo/runner/shell_test_base_unittest.cc - chromium/src - Git at Google

 // Copyright 2014 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 "mojo/runner/shell_test_base.h"

 #include "base/bind.h"
 #include "base/i18n/time_formatting.h"
 #include "base/macros.h"
 #include "base/message_loop/message_loop.h"
 #include "base/strings/utf_string_conversions.h"
 #include "mojo/public/cpp/bindings/interface_ptr.h"
 #include "mojo/public/cpp/system/core.h"
 #include "mojo/services/test_service/test_request_tracker.mojom.h"
 #include "mojo/services/test_service/test_service.mojom.h"
 #include "testing/gtest/include/gtest/gtest.h"
 #include "url/gurl.h"

 using mojo::test::ServiceReport;
 using mojo::test::ServiceReportPtr;
 using mojo::test::TestService;
 using mojo::test::TestTimeService;
 using mojo::test::TestServicePtr;
 using mojo::test::TestTimeServicePtr;
 using mojo::test::TestTrackedRequestService;
 using mojo::test::TestTrackedRequestServicePtr;

 namespace mojo {
 namespace runner {
 namespace test {
 namespace {

 void GetReportCallback(base::MessageLoop* loop,
                        std::vector<ServiceReport>* reports_out,
                        Array<ServiceReportPtr> report) {
   for (size_t i = 0; i < report.size(); i++)
     reports_out->push_back(*report[i]);
   loop->QuitWhenIdle();
 }

 class ShellTestBaseTest : public ShellTestBase {
  public:
   // Convenience helpers for use as callbacks in tests.
   template <typename T>
   base::Callback<void()> SetAndQuit(T* val, T result) {
     return base::Bind(&ShellTestBaseTest::SetAndQuitImpl<T>,
                       base::Unretained(this), val, result);
   }
   template <typename T>
   base::Callback<void(T result)> SetAndQuit(T* val) {
     return base::Bind(&ShellTestBaseTest::SetAndQuitImpl<T>,
                       base::Unretained(this), val);
   }
   static GURL test_app_url() { return GURL("mojo:test_app"); }

   void GetReport(std::vector<ServiceReport>* report) {
     ConnectToService(GURL("mojo:test_request_tracker_app"), &request_tracking_);
     request_tracking_->GetReport(base::Bind(&GetReportCallback,
                                             base::Unretained(message_loop()),
                                             base::Unretained(report)));
     message_loop()->Run();
   }

  private:
   template <typename T>
   void SetAndQuitImpl(T* val, T result) {
     *val = result;
     message_loop()->QuitWhenIdle();
   }
   TestTrackedRequestServicePtr request_tracking_;
 };

 // Tests that we can connect to a single service within a single app.
 TEST_F(ShellTestBaseTest, ConnectBasic) {
   InterfacePtr<TestService> service;
   ConnectToService(test_app_url(), &service);

   bool was_run = false;
   service->Ping(SetAndQuit<bool>(&was_run, true));
   message_loop()->Run();
   EXPECT_TRUE(was_run);
   EXPECT_FALSE(service.encountered_error());

   service.reset();

   // This will run until the test app has actually quit (which it will,
   // since we killed the only connection to it).
   message_loop()->Run();
 }

 // Tests that trying to connect to a service fails properly if the service
 // doesn't exist. Implicit in this test is verification that the shell
 // terminates if no services are running.
 TEST_F(ShellTestBaseTest, ConnectInvalidService) {
   InterfacePtr<TestService> test_service;
   ConnectToService(GURL("mojo:non_existent_service"), &test_service);

   bool was_run = false;
   test_service->Ping(SetAndQuit<bool>(&was_run, true));

   // This will quit because there's nothing running.
   message_loop()->Run();
   EXPECT_FALSE(was_run);

   // It may have quit before an error was processed.
   if (!test_service.encountered_error()) {
     test_service.set_connection_error_handler(
         []() { base::MessageLoop::current()->QuitWhenIdle(); });
     message_loop()->Run();
     EXPECT_TRUE(test_service.encountered_error());
   }

   test_service.reset();
 }

 // Tests that we can connect to a single service within a single app using
 // a network based loader instead of local files.
 // TODO(tim): Disabled because network service leaks NSS at exit, meaning
 // subsequent tests can't init properly.
 TEST_F(ShellTestBaseTest, DISABLED_ConnectBasicNetwork) {
   InterfacePtr<TestService> service;
   ConnectToService(test_app_url(), &service);

   bool was_run = false;
   service->Ping(SetAndQuit<bool>(&was_run, true));
   message_loop()->Run();
   EXPECT_TRUE(was_run);
   EXPECT_FALSE(service.encountered_error());

   // Note that use of the network service is implicit in this test.
   // Since TestService is not the only service in use, the shell won't auto
   // magically exit when TestService is destroyed (unlike ConnectBasic).
   // Tearing down the shell context will kill connections. The shell loop will
   // exit as soon as no more apps are connected.
   // TODO(tim): crbug.com/392685.  Calling this explicitly shouldn't be
   // necessary once the shell terminates if the primordial app exits, which
   // we could enforce here by resetting |service|.
   shell_context()->application_manager()->TerminateShellConnections();
   message_loop()->Run();  // Waits for all connections to die.
 }

 // Tests that trying to connect to a service over network fails preoprly
 // if the service doesn't exist.
 // TODO(tim): Disabled because network service leaks NSS at exit, meaning
 // subsequent tests can't init properly.
 TEST_F(ShellTestBaseTest, DISABLED_ConnectInvalidServiceNetwork) {
   InterfacePtr<TestService> test_service;
   ConnectToService(GURL("http://example.com/non_existent_service"),
                    &test_service);
   test_service.set_connection_error_handler(
       []() { base::MessageLoop::current()->QuitWhenIdle(); });
   bool was_run = false;
   test_service->Ping(SetAndQuit<bool>(&was_run, true));
   message_loop()->Run();
   EXPECT_TRUE(test_service.encountered_error());

   // TODO(tim): crbug.com/392685.  Calling this explicitly shouldn't be
   // necessary once the shell terminates if the primordial app exits, which
   // we could enforce here by resetting |service|.
   shell_context()->application_manager()->TerminateShellConnections();
   message_loop()->Run();  // Waits for all connections to die.
 }

 // Similar to ConnectBasic, but causes the app to instantiate multiple
 // service implementation objects and verifies the shell can reach both.
 TEST_F(ShellTestBaseTest, ConnectMultipleInstancesPerApp) {
   {
     TestServicePtr service1, service2;
     ConnectToService(test_app_url(), &service1);
     ConnectToService(test_app_url(), &service2);

     bool was_run1 = false;
     bool was_run2 = false;
     service1->Ping(SetAndQuit<bool>(&was_run1, true));
     message_loop()->Run();
     service2->Ping(SetAndQuit<bool>(&was_run2, true));
     message_loop()->Run();
     EXPECT_TRUE(was_run1);
     EXPECT_TRUE(was_run2);
     EXPECT_FALSE(service1.encountered_error());
     EXPECT_FALSE(service2.encountered_error());
   }
   message_loop()->Run();
 }

 // Tests that service A and service B, both in App 1, can talk to each other
 // and parameters are passed around properly.
 TEST_F(ShellTestBaseTest, ConnectDifferentServicesInSingleApp) {
   // Have a TestService GetPartyTime on a TestTimeService in the same app.
   int64 time_message;
   TestServicePtr service;
   ConnectToService(test_app_url(), &service);
   service->ConnectToAppAndGetTime(test_app_url().spec(),
                                   SetAndQuit<int64>(&time_message));
   message_loop()->Run();

   // Verify by hitting the TimeService directly.
   TestTimeServicePtr time_service;
   ConnectToService(test_app_url(), &time_service);
   int64 party_time;
   time_service->GetPartyTime(SetAndQuit<int64>(&party_time));
   message_loop()->Run();

   EXPECT_EQ(time_message, party_time);
 }

 // Tests that a service A in App 1 can talk to service B in App 2 and
 // parameters are passed around properly.
 TEST_F(ShellTestBaseTest, ConnectDifferentServicesInDifferentApps) {
   int64 time_message;
   TestServicePtr service;
   ConnectToService(test_app_url(), &service);
   service->ConnectToAppAndGetTime("mojo:test_request_tracker_app",
                                   SetAndQuit<int64>(&time_message));
   message_loop()->Run();

   // Verify by hitting the TimeService in the request tracker app directly.
   TestTimeServicePtr time_service;
   ConnectToService(GURL("mojo:test_request_tracker_app"), &time_service);
   int64 party_time;
   time_service->GetPartyTime(SetAndQuit<int64>(&party_time));
   message_loop()->Run();

   EXPECT_EQ(time_message, party_time);
 }

 // Tests that service A in App 1 can be a client of service B in App 2.
 TEST_F(ShellTestBaseTest, ConnectServiceAsClientOfSeparateApp) {
   TestServicePtr service;
   ConnectToService(test_app_url(), &service);
   service->StartTrackingRequests(message_loop()->QuitWhenIdleClosure());
   service->Ping(Callback<void()>());
   message_loop()->Run();

   for (int i = 0; i < 8; i++)
     service->Ping(Callback<void()>());
   service->Ping(message_loop()->QuitWhenIdleClosure());
   message_loop()->Run();

   // If everything worked properly, the tracking service should report
   // 10 pings to TestService.
   std::vector<ServiceReport> reports;
   GetReport(&reports);
   ASSERT_EQ(1U, reports.size());
   EXPECT_EQ(TestService::Name_, reports[0].service_name);
   EXPECT_EQ(10U, reports[0].total_requests);
 }

 // Connect several services together and use the tracking service to verify
 // communication.
 TEST_F(ShellTestBaseTest, ConnectManyClientsAndServices) {
   TestServicePtr service;
   TestTimeServicePtr time_service;

   // Make a request to the TestService and have it contact TimeService in the
   // tracking app. Do all this with tracking enabled, meaning both services
   // are connected as clients of the TrackedRequestService.
   ConnectToService(test_app_url(), &service);
   service->StartTrackingRequests(message_loop()->QuitWhenIdleClosure());
   message_loop()->Run();
   for (int i = 0; i < 5; i++)
     service->Ping(Callback<void()>());
   int64 time_result;
   service->ConnectToAppAndGetTime("mojo:test_request_tracker_app",
                                   SetAndQuit<int64>(&time_result));
   message_loop()->Run();

   // Also make a few requests to the TimeService in the test_app.
   ConnectToService(test_app_url(), &time_service);
   time_service->StartTrackingRequests(message_loop()->QuitWhenIdleClosure());
   time_service->GetPartyTime(Callback<void(uint64_t)>());
   message_loop()->Run();
   for (int i = 0; i < 18; i++)
     time_service->GetPartyTime(Callback<void(uint64_t)>());
   // Flush the tasks with one more to quit.
   int64 party_time = 0;
   time_service->GetPartyTime(SetAndQuit<int64>(&party_time));
   message_loop()->Run();

   std::vector<ServiceReport> reports;
   GetReport(&reports);
   ASSERT_EQ(3U, reports.size());
   EXPECT_EQ(TestService::Name_, reports[0].service_name);
   EXPECT_EQ(6U, reports[0].total_requests);
   EXPECT_EQ(TestTimeService::Name_, reports[1].service_name);
   EXPECT_EQ(1U, reports[1].total_requests);
   EXPECT_EQ(TestTimeService::Name_, reports[2].service_name);
   EXPECT_EQ(20U, reports[2].total_requests);
 }

 }  // namespace
 }  // namespace test
 }  // namespace runner
 }  // namespace mojo
	// Copyright 2014 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 "mojo/runner/shell_test_base.h"

	#include "base/bind.h"
	#include "base/i18n/time_formatting.h"
	#include "base/macros.h"
	#include "base/message_loop/message_loop.h"
	#include "base/strings/utf_string_conversions.h"
	#include "mojo/public/cpp/bindings/interface_ptr.h"
	#include "mojo/public/cpp/system/core.h"
	#include "mojo/services/test_service/test_request_tracker.mojom.h"
	#include "mojo/services/test_service/test_service.mojom.h"
	#include "testing/gtest/include/gtest/gtest.h"
	#include "url/gurl.h"

	using mojo::test::ServiceReport;
	using mojo::test::ServiceReportPtr;
	using mojo::test::TestService;
	using mojo::test::TestTimeService;
	using mojo::test::TestServicePtr;
	using mojo::test::TestTimeServicePtr;
	using mojo::test::TestTrackedRequestService;
	using mojo::test::TestTrackedRequestServicePtr;

	namespace mojo {
	namespace runner {
	namespace test {
	namespace {

	void GetReportCallback(base::MessageLoop* loop,
	std::vector<ServiceReport>* reports_out,
	Array<ServiceReportPtr> report) {
	for (size_t i = 0; i < report.size(); i++)
	reports_out->push_back(*report[i]);
	loop->QuitWhenIdle();
	}

	class ShellTestBaseTest : public ShellTestBase {
	public:
	// Convenience helpers for use as callbacks in tests.
	template <typename T>
	base::Callback<void()> SetAndQuit(T* val, T result) {
	return base::Bind(&ShellTestBaseTest::SetAndQuitImpl<T>,
	base::Unretained(this), val, result);
	}
	template <typename T>
	base::Callback<void(T result)> SetAndQuit(T* val) {
	return base::Bind(&ShellTestBaseTest::SetAndQuitImpl<T>,
	base::Unretained(this), val);
	}
	static GURL test_app_url() { return GURL("mojo:test_app"); }

	void GetReport(std::vector<ServiceReport>* report) {
	ConnectToService(GURL("mojo:test_request_tracker_app"), &request_tracking_);
	request_tracking_->GetReport(base::Bind(&GetReportCallback,
	base::Unretained(message_loop()),
	base::Unretained(report)));
	message_loop()->Run();
	}

	private:
	template <typename T>
	void SetAndQuitImpl(T* val, T result) {
	*val = result;
	message_loop()->QuitWhenIdle();
	}
	TestTrackedRequestServicePtr request_tracking_;
	};

	// Tests that we can connect to a single service within a single app.
	TEST_F(ShellTestBaseTest, ConnectBasic) {
	InterfacePtr<TestService> service;
	ConnectToService(test_app_url(), &service);

	bool was_run = false;
	service->Ping(SetAndQuit<bool>(&was_run, true));
	message_loop()->Run();
	EXPECT_TRUE(was_run);
	EXPECT_FALSE(service.encountered_error());

	service.reset();

	// This will run until the test app has actually quit (which it will,
	// since we killed the only connection to it).
	message_loop()->Run();
	}

	// Tests that trying to connect to a service fails properly if the service
	// doesn't exist. Implicit in this test is verification that the shell
	// terminates if no services are running.
	TEST_F(ShellTestBaseTest, ConnectInvalidService) {
	InterfacePtr<TestService> test_service;
	ConnectToService(GURL("mojo:non_existent_service"), &test_service);

	bool was_run = false;
	test_service->Ping(SetAndQuit<bool>(&was_run, true));

	// This will quit because there's nothing running.
	message_loop()->Run();
	EXPECT_FALSE(was_run);

	// It may have quit before an error was processed.
	if (!test_service.encountered_error()) {
	test_service.set_connection_error_handler(
	[]() { base::MessageLoop::current()->QuitWhenIdle(); });
	message_loop()->Run();
	EXPECT_TRUE(test_service.encountered_error());
	}

	test_service.reset();
	}

	// Tests that we can connect to a single service within a single app using
	// a network based loader instead of local files.
	// TODO(tim): Disabled because network service leaks NSS at exit, meaning
	// subsequent tests can't init properly.
	TEST_F(ShellTestBaseTest, DISABLED_ConnectBasicNetwork) {
	InterfacePtr<TestService> service;
	ConnectToService(test_app_url(), &service);

	bool was_run = false;
	service->Ping(SetAndQuit<bool>(&was_run, true));
	message_loop()->Run();
	EXPECT_TRUE(was_run);
	EXPECT_FALSE(service.encountered_error());

	// Note that use of the network service is implicit in this test.
	// Since TestService is not the only service in use, the shell won't auto
	// magically exit when TestService is destroyed (unlike ConnectBasic).
	// Tearing down the shell context will kill connections. The shell loop will
	// exit as soon as no more apps are connected.
	// TODO(tim): crbug.com/392685. Calling this explicitly shouldn't be
	// necessary once the shell terminates if the primordial app exits, which
	// we could enforce here by resetting \|service\|.
	shell_context()->application_manager()->TerminateShellConnections();
	message_loop()->Run(); // Waits for all connections to die.
	}

	// Tests that trying to connect to a service over network fails preoprly
	// if the service doesn't exist.
	// TODO(tim): Disabled because network service leaks NSS at exit, meaning
	// subsequent tests can't init properly.
	TEST_F(ShellTestBaseTest, DISABLED_ConnectInvalidServiceNetwork) {
	InterfacePtr<TestService> test_service;
	ConnectToService(GURL("http://example.com/non_existent_service"),
	&test_service);
	test_service.set_connection_error_handler(
	[]() { base::MessageLoop::current()->QuitWhenIdle(); });
	bool was_run = false;
	test_service->Ping(SetAndQuit<bool>(&was_run, true));
	message_loop()->Run();
	EXPECT_TRUE(test_service.encountered_error());

	// TODO(tim): crbug.com/392685. Calling this explicitly shouldn't be
	// necessary once the shell terminates if the primordial app exits, which
	// we could enforce here by resetting \|service\|.
	shell_context()->application_manager()->TerminateShellConnections();
	message_loop()->Run(); // Waits for all connections to die.
	}

	// Similar to ConnectBasic, but causes the app to instantiate multiple
	// service implementation objects and verifies the shell can reach both.
	TEST_F(ShellTestBaseTest, ConnectMultipleInstancesPerApp) {
	{
	TestServicePtr service1, service2;
	ConnectToService(test_app_url(), &service1);
	ConnectToService(test_app_url(), &service2);

	bool was_run1 = false;
	bool was_run2 = false;
	service1->Ping(SetAndQuit<bool>(&was_run1, true));
	message_loop()->Run();
	service2->Ping(SetAndQuit<bool>(&was_run2, true));
	message_loop()->Run();
	EXPECT_TRUE(was_run1);
	EXPECT_TRUE(was_run2);
	EXPECT_FALSE(service1.encountered_error());
	EXPECT_FALSE(service2.encountered_error());
	}
	message_loop()->Run();
	}

	// Tests that service A and service B, both in App 1, can talk to each other
	// and parameters are passed around properly.
	TEST_F(ShellTestBaseTest, ConnectDifferentServicesInSingleApp) {
	// Have a TestService GetPartyTime on a TestTimeService in the same app.
	int64 time_message;
	TestServicePtr service;
	ConnectToService(test_app_url(), &service);
	service->ConnectToAppAndGetTime(test_app_url().spec(),
	SetAndQuit<int64>(&time_message));
	message_loop()->Run();

	// Verify by hitting the TimeService directly.
	TestTimeServicePtr time_service;
	ConnectToService(test_app_url(), &time_service);
	int64 party_time;
	time_service->GetPartyTime(SetAndQuit<int64>(&party_time));
	message_loop()->Run();

	EXPECT_EQ(time_message, party_time);
	}

	// Tests that a service A in App 1 can talk to service B in App 2 and
	// parameters are passed around properly.
	TEST_F(ShellTestBaseTest, ConnectDifferentServicesInDifferentApps) {
	int64 time_message;
	TestServicePtr service;
	ConnectToService(test_app_url(), &service);
	service->ConnectToAppAndGetTime("mojo:test_request_tracker_app",
	SetAndQuit<int64>(&time_message));
	message_loop()->Run();

	// Verify by hitting the TimeService in the request tracker app directly.
	TestTimeServicePtr time_service;
	ConnectToService(GURL("mojo:test_request_tracker_app"), &time_service);
	int64 party_time;
	time_service->GetPartyTime(SetAndQuit<int64>(&party_time));
	message_loop()->Run();

	EXPECT_EQ(time_message, party_time);
	}

	// Tests that service A in App 1 can be a client of service B in App 2.
	TEST_F(ShellTestBaseTest, ConnectServiceAsClientOfSeparateApp) {
	TestServicePtr service;
	ConnectToService(test_app_url(), &service);
	service->StartTrackingRequests(message_loop()->QuitWhenIdleClosure());
	service->Ping(Callback<void()>());
	message_loop()->Run();

	for (int i = 0; i < 8; i++)
	service->Ping(Callback<void()>());
	service->Ping(message_loop()->QuitWhenIdleClosure());
	message_loop()->Run();

	// If everything worked properly, the tracking service should report
	// 10 pings to TestService.
	std::vector<ServiceReport> reports;
	GetReport(&reports);
	ASSERT_EQ(1U, reports.size());
	EXPECT_EQ(TestService::Name_, reports[0].service_name);
	EXPECT_EQ(10U, reports[0].total_requests);
	}

	// Connect several services together and use the tracking service to verify
	// communication.
	TEST_F(ShellTestBaseTest, ConnectManyClientsAndServices) {
	TestServicePtr service;
	TestTimeServicePtr time_service;

	// Make a request to the TestService and have it contact TimeService in the
	// tracking app. Do all this with tracking enabled, meaning both services
	// are connected as clients of the TrackedRequestService.
	ConnectToService(test_app_url(), &service);
	service->StartTrackingRequests(message_loop()->QuitWhenIdleClosure());
	message_loop()->Run();
	for (int i = 0; i < 5; i++)
	service->Ping(Callback<void()>());
	int64 time_result;
	service->ConnectToAppAndGetTime("mojo:test_request_tracker_app",
	SetAndQuit<int64>(&time_result));
	message_loop()->Run();

	// Also make a few requests to the TimeService in the test_app.
	ConnectToService(test_app_url(), &time_service);
	time_service->StartTrackingRequests(message_loop()->QuitWhenIdleClosure());
	time_service->GetPartyTime(Callback<void(uint64_t)>());
	message_loop()->Run();
	for (int i = 0; i < 18; i++)
	time_service->GetPartyTime(Callback<void(uint64_t)>());
	// Flush the tasks with one more to quit.
	int64 party_time = 0;
	time_service->GetPartyTime(SetAndQuit<int64>(&party_time));
	message_loop()->Run();

	std::vector<ServiceReport> reports;
	GetReport(&reports);
	ASSERT_EQ(3U, reports.size());
	EXPECT_EQ(TestService::Name_, reports[0].service_name);
	EXPECT_EQ(6U, reports[0].total_requests);
	EXPECT_EQ(TestTimeService::Name_, reports[1].service_name);
	EXPECT_EQ(1U, reports[1].total_requests);
	EXPECT_EQ(TestTimeService::Name_, reports[2].service_name);
	EXPECT_EQ(20U, reports[2].total_requests);
	}

	} // namespace
	} // namespace test
	} // namespace runner
	} // namespace mojo