libbrillo/brillo/dbus/dbus_method_invoker_unittest.cc - nest-cam/4320010/libbrillo - Git at Google

 // Copyright 2014 The Chromium OS 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 <brillo/dbus/dbus_method_invoker.h>

 #include <string>

 #include <brillo/bind_lambda.h>
 #include <dbus/mock_bus.h>
 #include <dbus/mock_object_proxy.h>
 #include <dbus/scoped_dbus_error.h>
 #include <gmock/gmock.h>
 #include <gtest/gtest.h>

 using testing::AnyNumber;
 using testing::InSequence;
 using testing::Invoke;
 using testing::Return;
 using testing::_;

 using dbus::MessageReader;
 using dbus::MessageWriter;
 using dbus::Response;

 namespace brillo {
 namespace dbus_utils {

 const char kTestPath[] = "/test/path";
 const char kTestServiceName[] = "org.test.Object";
 const char kTestInterface[] = "org.test.Object.TestInterface";
 const char kTestMethod1[] = "TestMethod1";
 const char kTestMethod2[] = "TestMethod2";
 const char kTestMethod4[] = "TestMethod4";

 class DBusMethodInvokerTest : public testing::Test {
  public:
   void SetUp() override {
     dbus::Bus::Options options;
     options.bus_type = dbus::Bus::SYSTEM;
     bus_ = new dbus::MockBus(options);
     // By default, don't worry about threading assertions.
     EXPECT_CALL(*bus_, AssertOnOriginThread()).Times(AnyNumber());
     EXPECT_CALL(*bus_, AssertOnDBusThread()).Times(AnyNumber());
     // Use a mock exported object.
     mock_object_proxy_ = new dbus::MockObjectProxy(
         bus_.get(), kTestServiceName, dbus::ObjectPath(kTestPath));
     EXPECT_CALL(*bus_,
                 GetObjectProxy(kTestServiceName, dbus::ObjectPath(kTestPath)))
         .WillRepeatedly(Return(mock_object_proxy_.get()));
     int def_timeout_ms = dbus::ObjectProxy::TIMEOUT_USE_DEFAULT;
     EXPECT_CALL(*mock_object_proxy_,
                 MockCallMethodAndBlockWithErrorDetails(_, def_timeout_ms, _))
         .WillRepeatedly(Invoke(this, &DBusMethodInvokerTest::CreateResponse));
   }

   void TearDown() override { bus_ = nullptr; }

   Response* CreateResponse(dbus::MethodCall* method_call,
                            int /* timeout_ms */,
                            dbus::ScopedDBusError* dbus_error) {
     if (method_call->GetInterface() == kTestInterface) {
       if (method_call->GetMember() == kTestMethod1) {
         MessageReader reader(method_call);
         int v1, v2;
         // Input: two ints.
         // Output: sum of the ints converted to string.
         if (reader.PopInt32(&v1) && reader.PopInt32(&v2)) {
           auto response = Response::CreateEmpty();
           MessageWriter writer(response.get());
           writer.AppendString(std::to_string(v1 + v2));
           return response.release();
         }
       } else if (method_call->GetMember() == kTestMethod2) {
         method_call->SetSerial(123);
         dbus_set_error(dbus_error->get(), "org.MyError", "My error message");
         return nullptr;
       } else if (method_call->GetMember() == kTestMethod4) {
         method_call->SetSerial(123);
         MessageReader reader(method_call);
         dbus::FileDescriptor fd;
         if (reader.PopFileDescriptor(&fd)) {
           auto response = Response::CreateEmpty();
           MessageWriter writer(response.get());
           fd.CheckValidity();
           writer.AppendFileDescriptor(fd);
           return response.release();
         }
       }
     }

     LOG(ERROR) << "Unexpected method call: " << method_call->ToString();
     return nullptr;
   }

   std::string CallTestMethod(int v1, int v2) {
     std::unique_ptr<dbus::Response> response =
         brillo::dbus_utils::CallMethodAndBlock(mock_object_proxy_.get(),
                                                kTestInterface, kTestMethod1,
                                                nullptr, v1, v2);
     EXPECT_NE(nullptr, response.get());
     std::string result;
     using brillo::dbus_utils::ExtractMethodCallResults;
     EXPECT_TRUE(ExtractMethodCallResults(response.get(), nullptr, &result));
     return result;
   }

   // Sends a file descriptor received over D-Bus back to the caller.
   dbus::FileDescriptor EchoFD(const dbus::FileDescriptor& fd_in) {
     std::unique_ptr<dbus::Response> response =
         brillo::dbus_utils::CallMethodAndBlock(mock_object_proxy_.get(),
                                                kTestInterface, kTestMethod4,
                                                nullptr, fd_in);
     EXPECT_NE(nullptr, response.get());
     dbus::FileDescriptor fd_out;
     using brillo::dbus_utils::ExtractMethodCallResults;
     EXPECT_TRUE(ExtractMethodCallResults(response.get(), nullptr, &fd_out));
     return fd_out;
   }

   scoped_refptr<dbus::MockBus> bus_;
   scoped_refptr<dbus::MockObjectProxy> mock_object_proxy_;
 };

 TEST_F(DBusMethodInvokerTest, TestSuccess) {
   EXPECT_EQ("4", CallTestMethod(2, 2));
   EXPECT_EQ("10", CallTestMethod(3, 7));
   EXPECT_EQ("-4", CallTestMethod(13, -17));
 }

 TEST_F(DBusMethodInvokerTest, TestFailure) {
   brillo::ErrorPtr error;
   std::unique_ptr<dbus::Response> response =
       brillo::dbus_utils::CallMethodAndBlock(
           mock_object_proxy_.get(), kTestInterface, kTestMethod2, &error);
   EXPECT_EQ(nullptr, response.get());
   EXPECT_EQ(brillo::errors::dbus::kDomain, error->GetDomain());
   EXPECT_EQ("org.MyError", error->GetCode());
   EXPECT_EQ("My error message", error->GetMessage());
 }

 TEST_F(DBusMethodInvokerTest, TestFileDescriptors) {
   // Passing a file descriptor over D-Bus would effectively duplicate the fd.
   // So the resulting file descriptor value would be different but it still
   // should be valid.
   dbus::FileDescriptor fd_stdin(0);
   fd_stdin.CheckValidity();
   EXPECT_NE(fd_stdin.value(), EchoFD(fd_stdin).value());
   dbus::FileDescriptor fd_stdout(1);
   fd_stdout.CheckValidity();
   EXPECT_NE(fd_stdout.value(), EchoFD(fd_stdout).value());
   dbus::FileDescriptor fd_stderr(2);
   fd_stderr.CheckValidity();
   EXPECT_NE(fd_stderr.value(), EchoFD(fd_stderr).value());
 }

 //////////////////////////////////////////////////////////////////////////////
 // Asynchronous method invocation support

 class AsyncDBusMethodInvokerTest : public testing::Test {
  public:
   void SetUp() override {
     dbus::Bus::Options options;
     options.bus_type = dbus::Bus::SYSTEM;
     bus_ = new dbus::MockBus(options);
     // By default, don't worry about threading assertions.
     EXPECT_CALL(*bus_, AssertOnOriginThread()).Times(AnyNumber());
     EXPECT_CALL(*bus_, AssertOnDBusThread()).Times(AnyNumber());
     // Use a mock exported object.
     mock_object_proxy_ = new dbus::MockObjectProxy(
         bus_.get(), kTestServiceName, dbus::ObjectPath(kTestPath));
     EXPECT_CALL(*bus_,
                 GetObjectProxy(kTestServiceName, dbus::ObjectPath(kTestPath)))
         .WillRepeatedly(Return(mock_object_proxy_.get()));
     int def_timeout_ms = dbus::ObjectProxy::TIMEOUT_USE_DEFAULT;
     EXPECT_CALL(*mock_object_proxy_,
                 CallMethodWithErrorCallback(_, def_timeout_ms, _, _))
         .WillRepeatedly(Invoke(this, &AsyncDBusMethodInvokerTest::HandleCall));
   }

   void TearDown() override { bus_ = nullptr; }

   void HandleCall(dbus::MethodCall* method_call,
                   int /* timeout_ms */,
                   dbus::ObjectProxy::ResponseCallback success_callback,
                   dbus::ObjectProxy::ErrorCallback error_callback) {
     if (method_call->GetInterface() == kTestInterface) {
       if (method_call->GetMember() == kTestMethod1) {
         MessageReader reader(method_call);
         int v1, v2;
         // Input: two ints.
         // Output: sum of the ints converted to string.
         if (reader.PopInt32(&v1) && reader.PopInt32(&v2)) {
           auto response = Response::CreateEmpty();
           MessageWriter writer(response.get());
           writer.AppendString(std::to_string(v1 + v2));
           success_callback.Run(response.get());
         }
         return;
       } else if (method_call->GetMember() == kTestMethod2) {
         method_call->SetSerial(123);
         auto error_response = dbus::ErrorResponse::FromMethodCall(
             method_call, "org.MyError", "My error message");
         error_callback.Run(error_response.get());
         return;
       }
     }

     LOG(FATAL) << "Unexpected method call: " << method_call->ToString();
   }

   base::Callback<void(const std::string&)> SuccessCallback(
       const std::string& in_result, int* in_counter) {
     return base::Bind(
         [](const std::string& result,
            int* counter,
            const std::string& actual_result) {
           (*counter)++;
           EXPECT_EQ(result, actual_result);
         },
         in_result,
         base::Unretained(in_counter));
   }

   base::Callback<void(const std::string&)> SuccessCallback(int* in_counter) {
     return base::Bind(
         [](int* counter, const std::string& actual_result) {
           (*counter)++;
           EXPECT_EQ("", actual_result);
         },
         base::Unretained(in_counter));
   }

   AsyncErrorCallback ErrorCallback(int* in_counter) {
     return base::Bind(
         [](int* counter, brillo::Error* error) {
           (*counter)++;
           EXPECT_NE(nullptr, error);
           EXPECT_EQ("", error->GetDomain());
           EXPECT_EQ("", error->GetCode());
           EXPECT_EQ("", error->GetMessage());
         },
         base::Unretained(in_counter));
   }

   AsyncErrorCallback ErrorCallback(const std::string& domain,
                                    const std::string& code,
                                    const std::string& message,
                                    int* in_counter) {
     return base::Bind(
         [](const std::string& domain,
            const std::string& code,
            const std::string& message,
            int* counter,
            brillo::Error* error) {
           (*counter)++;
           EXPECT_NE(nullptr, error);
           EXPECT_EQ(domain, error->GetDomain());
           EXPECT_EQ(code, error->GetCode());
           EXPECT_EQ(message, error->GetMessage());
         },
         domain,
         code,
         message,
         base::Unretained(in_counter));
   }

   scoped_refptr<dbus::MockBus> bus_;
   scoped_refptr<dbus::MockObjectProxy> mock_object_proxy_;
 };

 TEST_F(AsyncDBusMethodInvokerTest, TestSuccess) {
   int error_count = 0;
   int success_count = 0;
   brillo::dbus_utils::CallMethod(
       mock_object_proxy_.get(),
       kTestInterface,
       kTestMethod1,
       base::Bind(SuccessCallback("4", &success_count)),
       base::Bind(ErrorCallback(&error_count)),
       2, 2);
   brillo::dbus_utils::CallMethod(
       mock_object_proxy_.get(),
       kTestInterface,
       kTestMethod1,
       base::Bind(SuccessCallback("10", &success_count)),
       base::Bind(ErrorCallback(&error_count)),
       3, 7);
   brillo::dbus_utils::CallMethod(
       mock_object_proxy_.get(),
       kTestInterface,
       kTestMethod1,
       base::Bind(SuccessCallback("-4", &success_count)),
       base::Bind(ErrorCallback(&error_count)),
       13, -17);
   EXPECT_EQ(0, error_count);
   EXPECT_EQ(3, success_count);
 }

 TEST_F(AsyncDBusMethodInvokerTest, TestFailure) {
   int error_count = 0;
   int success_count = 0;
   brillo::dbus_utils::CallMethod(
       mock_object_proxy_.get(),
       kTestInterface,
       kTestMethod2,
       base::Bind(SuccessCallback(&success_count)),
       base::Bind(ErrorCallback(brillo::errors::dbus::kDomain,
                                "org.MyError",
                                "My error message",
                                &error_count)),
       2, 2);
   EXPECT_EQ(1, error_count);
   EXPECT_EQ(0, success_count);
 }

 }  // namespace dbus_utils
 }  // namespace brillo
	// Copyright 2014 The Chromium OS 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 <brillo/dbus/dbus_method_invoker.h>

	#include <string>

	#include <brillo/bind_lambda.h>
	#include <dbus/mock_bus.h>
	#include <dbus/mock_object_proxy.h>
	#include <dbus/scoped_dbus_error.h>
	#include <gmock/gmock.h>
	#include <gtest/gtest.h>

	using testing::AnyNumber;
	using testing::InSequence;
	using testing::Invoke;
	using testing::Return;
	using testing::_;

	using dbus::MessageReader;
	using dbus::MessageWriter;
	using dbus::Response;

	namespace brillo {
	namespace dbus_utils {

	const char kTestPath[] = "/test/path";
	const char kTestServiceName[] = "org.test.Object";
	const char kTestInterface[] = "org.test.Object.TestInterface";
	const char kTestMethod1[] = "TestMethod1";
	const char kTestMethod2[] = "TestMethod2";
	const char kTestMethod4[] = "TestMethod4";

	class DBusMethodInvokerTest : public testing::Test {
	public:
	void SetUp() override {
	dbus::Bus::Options options;
	options.bus_type = dbus::Bus::SYSTEM;
	bus_ = new dbus::MockBus(options);
	// By default, don't worry about threading assertions.
	EXPECT_CALL(*bus_, AssertOnOriginThread()).Times(AnyNumber());
	EXPECT_CALL(*bus_, AssertOnDBusThread()).Times(AnyNumber());
	// Use a mock exported object.
	mock_object_proxy_ = new dbus::MockObjectProxy(
	bus_.get(), kTestServiceName, dbus::ObjectPath(kTestPath));
	EXPECT_CALL(*bus_,
	GetObjectProxy(kTestServiceName, dbus::ObjectPath(kTestPath)))
	.WillRepeatedly(Return(mock_object_proxy_.get()));
	int def_timeout_ms = dbus::ObjectProxy::TIMEOUT_USE_DEFAULT;
	EXPECT_CALL(*mock_object_proxy_,
	MockCallMethodAndBlockWithErrorDetails(_, def_timeout_ms, _))
	.WillRepeatedly(Invoke(this, &DBusMethodInvokerTest::CreateResponse));
	}

	void TearDown() override { bus_ = nullptr; }

	Response* CreateResponse(dbus::MethodCall* method_call,
	int /* timeout_ms */,
	dbus::ScopedDBusError* dbus_error) {
	if (method_call->GetInterface() == kTestInterface) {
	if (method_call->GetMember() == kTestMethod1) {
	MessageReader reader(method_call);
	int v1, v2;
	// Input: two ints.
	// Output: sum of the ints converted to string.
	if (reader.PopInt32(&v1) && reader.PopInt32(&v2)) {
	auto response = Response::CreateEmpty();
	MessageWriter writer(response.get());
	writer.AppendString(std::to_string(v1 + v2));
	return response.release();
	}
	} else if (method_call->GetMember() == kTestMethod2) {
	method_call->SetSerial(123);
	dbus_set_error(dbus_error->get(), "org.MyError", "My error message");
	return nullptr;
	} else if (method_call->GetMember() == kTestMethod4) {
	method_call->SetSerial(123);
	MessageReader reader(method_call);
	dbus::FileDescriptor fd;
	if (reader.PopFileDescriptor(&fd)) {
	auto response = Response::CreateEmpty();
	MessageWriter writer(response.get());
	fd.CheckValidity();
	writer.AppendFileDescriptor(fd);
	return response.release();
	}
	}
	}

	LOG(ERROR) << "Unexpected method call: " << method_call->ToString();
	return nullptr;
	}

	std::string CallTestMethod(int v1, int v2) {
	std::unique_ptr<dbus::Response> response =
	brillo::dbus_utils::CallMethodAndBlock(mock_object_proxy_.get(),
	kTestInterface, kTestMethod1,
	nullptr, v1, v2);
	EXPECT_NE(nullptr, response.get());
	std::string result;
	using brillo::dbus_utils::ExtractMethodCallResults;
	EXPECT_TRUE(ExtractMethodCallResults(response.get(), nullptr, &result));
	return result;
	}

	// Sends a file descriptor received over D-Bus back to the caller.
	dbus::FileDescriptor EchoFD(const dbus::FileDescriptor& fd_in) {
	std::unique_ptr<dbus::Response> response =
	brillo::dbus_utils::CallMethodAndBlock(mock_object_proxy_.get(),
	kTestInterface, kTestMethod4,
	nullptr, fd_in);
	EXPECT_NE(nullptr, response.get());
	dbus::FileDescriptor fd_out;
	using brillo::dbus_utils::ExtractMethodCallResults;
	EXPECT_TRUE(ExtractMethodCallResults(response.get(), nullptr, &fd_out));
	return fd_out;
	}

	scoped_refptr<dbus::MockBus> bus_;
	scoped_refptr<dbus::MockObjectProxy> mock_object_proxy_;
	};

	TEST_F(DBusMethodInvokerTest, TestSuccess) {
	EXPECT_EQ("4", CallTestMethod(2, 2));
	EXPECT_EQ("10", CallTestMethod(3, 7));
	EXPECT_EQ("-4", CallTestMethod(13, -17));
	}

	TEST_F(DBusMethodInvokerTest, TestFailure) {
	brillo::ErrorPtr error;
	std::unique_ptr<dbus::Response> response =
	brillo::dbus_utils::CallMethodAndBlock(
	mock_object_proxy_.get(), kTestInterface, kTestMethod2, &error);
	EXPECT_EQ(nullptr, response.get());
	EXPECT_EQ(brillo::errors::dbus::kDomain, error->GetDomain());
	EXPECT_EQ("org.MyError", error->GetCode());
	EXPECT_EQ("My error message", error->GetMessage());
	}

	TEST_F(DBusMethodInvokerTest, TestFileDescriptors) {
	// Passing a file descriptor over D-Bus would effectively duplicate the fd.
	// So the resulting file descriptor value would be different but it still
	// should be valid.
	dbus::FileDescriptor fd_stdin(0);
	fd_stdin.CheckValidity();
	EXPECT_NE(fd_stdin.value(), EchoFD(fd_stdin).value());
	dbus::FileDescriptor fd_stdout(1);
	fd_stdout.CheckValidity();
	EXPECT_NE(fd_stdout.value(), EchoFD(fd_stdout).value());
	dbus::FileDescriptor fd_stderr(2);
	fd_stderr.CheckValidity();
	EXPECT_NE(fd_stderr.value(), EchoFD(fd_stderr).value());
	}

	//////////////////////////////////////////////////////////////////////////////
	// Asynchronous method invocation support

	class AsyncDBusMethodInvokerTest : public testing::Test {
	public:
	void SetUp() override {
	dbus::Bus::Options options;
	options.bus_type = dbus::Bus::SYSTEM;
	bus_ = new dbus::MockBus(options);
	// By default, don't worry about threading assertions.
	EXPECT_CALL(*bus_, AssertOnOriginThread()).Times(AnyNumber());
	EXPECT_CALL(*bus_, AssertOnDBusThread()).Times(AnyNumber());
	// Use a mock exported object.
	mock_object_proxy_ = new dbus::MockObjectProxy(
	bus_.get(), kTestServiceName, dbus::ObjectPath(kTestPath));
	EXPECT_CALL(*bus_,
	GetObjectProxy(kTestServiceName, dbus::ObjectPath(kTestPath)))
	.WillRepeatedly(Return(mock_object_proxy_.get()));
	int def_timeout_ms = dbus::ObjectProxy::TIMEOUT_USE_DEFAULT;
	EXPECT_CALL(*mock_object_proxy_,
	CallMethodWithErrorCallback(_, def_timeout_ms, _, _))
	.WillRepeatedly(Invoke(this, &AsyncDBusMethodInvokerTest::HandleCall));
	}

	void TearDown() override { bus_ = nullptr; }

	void HandleCall(dbus::MethodCall* method_call,
	int /* timeout_ms */,
	dbus::ObjectProxy::ResponseCallback success_callback,
	dbus::ObjectProxy::ErrorCallback error_callback) {
	if (method_call->GetInterface() == kTestInterface) {
	if (method_call->GetMember() == kTestMethod1) {
	MessageReader reader(method_call);
	int v1, v2;
	// Input: two ints.
	// Output: sum of the ints converted to string.
	if (reader.PopInt32(&v1) && reader.PopInt32(&v2)) {
	auto response = Response::CreateEmpty();
	MessageWriter writer(response.get());
	writer.AppendString(std::to_string(v1 + v2));
	success_callback.Run(response.get());
	}
	return;
	} else if (method_call->GetMember() == kTestMethod2) {
	method_call->SetSerial(123);
	auto error_response = dbus::ErrorResponse::FromMethodCall(
	method_call, "org.MyError", "My error message");
	error_callback.Run(error_response.get());
	return;
	}
	}

	LOG(FATAL) << "Unexpected method call: " << method_call->ToString();
	}

	base::Callback<void(const std::string&)> SuccessCallback(
	const std::string& in_result, int* in_counter) {
	return base::Bind(
	[](const std::string& result,
	int* counter,
	const std::string& actual_result) {
	(*counter)++;
	EXPECT_EQ(result, actual_result);
	},
	in_result,
	base::Unretained(in_counter));
	}

	base::Callback<void(const std::string&)> SuccessCallback(int* in_counter) {
	return base::Bind(
	[](int* counter, const std::string& actual_result) {
	(*counter)++;
	EXPECT_EQ("", actual_result);
	},
	base::Unretained(in_counter));
	}

	AsyncErrorCallback ErrorCallback(int* in_counter) {
	return base::Bind(
	[](int* counter, brillo::Error* error) {
	(*counter)++;
	EXPECT_NE(nullptr, error);
	EXPECT_EQ("", error->GetDomain());
	EXPECT_EQ("", error->GetCode());
	EXPECT_EQ("", error->GetMessage());
	},
	base::Unretained(in_counter));
	}

	AsyncErrorCallback ErrorCallback(const std::string& domain,
	const std::string& code,
	const std::string& message,
	int* in_counter) {
	return base::Bind(
	[](const std::string& domain,
	const std::string& code,
	const std::string& message,
	int* counter,
	brillo::Error* error) {
	(*counter)++;
	EXPECT_NE(nullptr, error);
	EXPECT_EQ(domain, error->GetDomain());
	EXPECT_EQ(code, error->GetCode());
	EXPECT_EQ(message, error->GetMessage());
	},
	domain,
	code,
	message,
	base::Unretained(in_counter));
	}

	scoped_refptr<dbus::MockBus> bus_;
	scoped_refptr<dbus::MockObjectProxy> mock_object_proxy_;
	};

	TEST_F(AsyncDBusMethodInvokerTest, TestSuccess) {
	int error_count = 0;
	int success_count = 0;
	brillo::dbus_utils::CallMethod(
	mock_object_proxy_.get(),
	kTestInterface,
	kTestMethod1,
	base::Bind(SuccessCallback("4", &success_count)),
	base::Bind(ErrorCallback(&error_count)),
	2, 2);
	brillo::dbus_utils::CallMethod(
	mock_object_proxy_.get(),
	kTestInterface,
	kTestMethod1,
	base::Bind(SuccessCallback("10", &success_count)),
	base::Bind(ErrorCallback(&error_count)),
	3, 7);
	brillo::dbus_utils::CallMethod(
	mock_object_proxy_.get(),
	kTestInterface,
	kTestMethod1,
	base::Bind(SuccessCallback("-4", &success_count)),
	base::Bind(ErrorCallback(&error_count)),
	13, -17);
	EXPECT_EQ(0, error_count);
	EXPECT_EQ(3, success_count);
	}

	TEST_F(AsyncDBusMethodInvokerTest, TestFailure) {
	int error_count = 0;
	int success_count = 0;
	brillo::dbus_utils::CallMethod(
	mock_object_proxy_.get(),
	kTestInterface,
	kTestMethod2,
	base::Bind(SuccessCallback(&success_count)),
	base::Bind(ErrorCallback(brillo::errors::dbus::kDomain,
	"org.MyError",
	"My error message",
	&error_count)),
	2, 2);
	EXPECT_EQ(1, error_count);
	EXPECT_EQ(0, success_count);
	}

	} // namespace dbus_utils
	} // namespace brillo