update_engine/common/action_processor_unittest.cc - nest-cam/4320010/update_engine - Git at Google

 //
 // Copyright (C) 2009 The Android Open Source Project
 //
 // Licensed under the Apache License, Version 2.0 (the "License");
 // you may not use this file except in compliance with the License.
 // You may obtain a copy of the License at
 //
 //      http://www.apache.org/licenses/LICENSE-2.0
 //
 // Unless required by applicable law or agreed to in writing, software
 // distributed under the License is distributed on an "AS IS" BASIS,
 // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 // See the License for the specific language governing permissions and
 // limitations under the License.
 //

 #include "update_engine/common/action_processor.h"

 #include <string>

 #include <gtest/gtest.h>

 #include "update_engine/common/action.h"
 #include "update_engine/common/mock_action.h"

 using std::string;

 namespace chromeos_update_engine {

 using chromeos_update_engine::ActionPipe;

 class ActionProcessorTestAction;

 template<>
 class ActionTraits<ActionProcessorTestAction> {
  public:
   typedef string OutputObjectType;
   typedef string InputObjectType;
 };

 // This is a simple Action class for testing.
 class ActionProcessorTestAction : public Action<ActionProcessorTestAction> {
  public:
   typedef string InputObjectType;
   typedef string OutputObjectType;
   ActionPipe<string>* in_pipe() { return in_pipe_.get(); }
   ActionPipe<string>* out_pipe() { return out_pipe_.get(); }
   ActionProcessor* processor() { return processor_; }
   void PerformAction() {}
   void CompleteAction() {
     ASSERT_TRUE(processor());
     processor()->ActionComplete(this, ErrorCode::kSuccess);
   }
   string Type() const { return "ActionProcessorTestAction"; }
 };

 namespace {
 class MyActionProcessorDelegate : public ActionProcessorDelegate {
  public:
   explicit MyActionProcessorDelegate(const ActionProcessor* processor)
       : processor_(processor),
         processing_done_called_(false),
         processing_stopped_called_(false),
         action_completed_called_(false),
         action_exit_code_(ErrorCode::kError) {}

   virtual void ProcessingDone(const ActionProcessor* processor,
                               ErrorCode code) {
     EXPECT_EQ(processor_, processor);
     EXPECT_FALSE(processing_done_called_);
     processing_done_called_ = true;
   }
   virtual void ProcessingStopped(const ActionProcessor* processor) {
     EXPECT_EQ(processor_, processor);
     EXPECT_FALSE(processing_stopped_called_);
     processing_stopped_called_ = true;
   }
   virtual void ActionCompleted(ActionProcessor* processor,
                                AbstractAction* action,
                                ErrorCode code) {
     EXPECT_EQ(processor_, processor);
     EXPECT_FALSE(action_completed_called_);
     action_completed_called_ = true;
     action_exit_code_ = code;
   }

   const ActionProcessor* processor_;
   bool processing_done_called_;
   bool processing_stopped_called_;
   bool action_completed_called_;
   ErrorCode action_exit_code_;
 };
 }  // namespace

 class ActionProcessorTest : public ::testing::Test {
   void SetUp() override {
     action_processor_.set_delegate(&delegate_);
     // Silence Type() calls used for logging.
     EXPECT_CALL(mock_action_, Type()).Times(testing::AnyNumber());
   }

   void TearDown() override {
     action_processor_.set_delegate(nullptr);
   }

  protected:
   // The ActionProcessor under test.
   ActionProcessor action_processor_;

   MyActionProcessorDelegate delegate_{&action_processor_};

   // Common actions used during most tests.
   testing::StrictMock<MockAction> mock_action_;
   ActionProcessorTestAction action_;
 };

 TEST_F(ActionProcessorTest, SimpleTest) {
   EXPECT_FALSE(action_processor_.IsRunning());
   action_processor_.EnqueueAction(&action_);
   EXPECT_FALSE(action_processor_.IsRunning());
   EXPECT_FALSE(action_.IsRunning());
   action_processor_.StartProcessing();
   EXPECT_TRUE(action_processor_.IsRunning());
   EXPECT_TRUE(action_.IsRunning());
   EXPECT_EQ(action_processor_.current_action(), &action_);
   action_.CompleteAction();
   EXPECT_FALSE(action_processor_.IsRunning());
   EXPECT_FALSE(action_.IsRunning());
 }

 TEST_F(ActionProcessorTest, DelegateTest) {
   action_processor_.EnqueueAction(&action_);
   action_processor_.StartProcessing();
   action_.CompleteAction();
   EXPECT_TRUE(delegate_.processing_done_called_);
   EXPECT_TRUE(delegate_.action_completed_called_);
 }

 TEST_F(ActionProcessorTest, StopProcessingTest) {
   action_processor_.EnqueueAction(&action_);
   action_processor_.StartProcessing();
   action_processor_.StopProcessing();
   EXPECT_TRUE(delegate_.processing_stopped_called_);
   EXPECT_FALSE(delegate_.action_completed_called_);
   EXPECT_FALSE(action_processor_.IsRunning());
   EXPECT_EQ(nullptr, action_processor_.current_action());
 }

 TEST_F(ActionProcessorTest, ChainActionsTest) {
   // This test doesn't use a delegate since it terminates several actions.
   action_processor_.set_delegate(nullptr);

   ActionProcessorTestAction action1, action2;
   action_processor_.EnqueueAction(&action1);
   action_processor_.EnqueueAction(&action2);
   action_processor_.StartProcessing();
   EXPECT_EQ(&action1, action_processor_.current_action());
   EXPECT_TRUE(action_processor_.IsRunning());
   action1.CompleteAction();
   EXPECT_EQ(&action2, action_processor_.current_action());
   EXPECT_TRUE(action_processor_.IsRunning());
   action2.CompleteAction();
   EXPECT_EQ(nullptr, action_processor_.current_action());
   EXPECT_FALSE(action_processor_.IsRunning());
 }

 TEST_F(ActionProcessorTest, DtorTest) {
   ActionProcessorTestAction action1, action2;
   {
     ActionProcessor action_processor;
     action_processor.EnqueueAction(&action1);
     action_processor.EnqueueAction(&action2);
     action_processor.StartProcessing();
   }
   EXPECT_EQ(nullptr, action1.processor());
   EXPECT_FALSE(action1.IsRunning());
   EXPECT_EQ(nullptr, action2.processor());
   EXPECT_FALSE(action2.IsRunning());
 }

 TEST_F(ActionProcessorTest, DefaultDelegateTest) {
   // Just make sure it doesn't crash
   action_processor_.EnqueueAction(&action_);
   action_processor_.StartProcessing();
   action_.CompleteAction();

   action_processor_.EnqueueAction(&action_);
   action_processor_.StartProcessing();
   action_processor_.StopProcessing();
 }

 // This test suspends and resume the action processor while running one action_.
 TEST_F(ActionProcessorTest, SuspendResumeTest) {
   action_processor_.EnqueueAction(&mock_action_);

   testing::InSequence s;
   EXPECT_CALL(mock_action_, PerformAction());
   action_processor_.StartProcessing();

   EXPECT_CALL(mock_action_, SuspendAction());
   action_processor_.SuspendProcessing();
   // Suspending the processor twice should not suspend the action twice.
   action_processor_.SuspendProcessing();

   // IsRunning should return whether there's is an action doing some work, even
   // if it is suspended.
   EXPECT_TRUE(action_processor_.IsRunning());
   EXPECT_EQ(&mock_action_, action_processor_.current_action());

   EXPECT_CALL(mock_action_, ResumeAction());
   action_processor_.ResumeProcessing();

   // Calling ResumeProcessing twice should not affect the action_.
   action_processor_.ResumeProcessing();

   action_processor_.ActionComplete(&mock_action_, ErrorCode::kSuccess);
 }

 // This test suspends an action that presumably doesn't support suspend/resume
 // and it finished before being resumed.
 TEST_F(ActionProcessorTest, ActionCompletedWhileSuspendedTest) {
   action_processor_.EnqueueAction(&mock_action_);

   testing::InSequence s;
   EXPECT_CALL(mock_action_, PerformAction());
   action_processor_.StartProcessing();

   EXPECT_CALL(mock_action_, SuspendAction());
   action_processor_.SuspendProcessing();

   // Simulate the action completion while suspended. No other call to
   // |mock_action_| is expected at this point.
   action_processor_.ActionComplete(&mock_action_, ErrorCode::kSuccess);

   // The processing should not be done since the ActionProcessor is suspended
   // and the processing is considered to be still running until resumed.
   EXPECT_FALSE(delegate_.processing_done_called_);
   EXPECT_TRUE(action_processor_.IsRunning());

   action_processor_.ResumeProcessing();
   EXPECT_TRUE(delegate_.processing_done_called_);
   EXPECT_FALSE(delegate_.processing_stopped_called_);
 }

 TEST_F(ActionProcessorTest, StoppedWhileSuspendedTest) {
   action_processor_.EnqueueAction(&mock_action_);

   testing::InSequence s;
   EXPECT_CALL(mock_action_, PerformAction());
   action_processor_.StartProcessing();
   EXPECT_CALL(mock_action_, SuspendAction());
   action_processor_.SuspendProcessing();

   EXPECT_CALL(mock_action_, TerminateProcessing());
   action_processor_.StopProcessing();
   // Stopping the processing should abort the current execution no matter what.
   EXPECT_TRUE(delegate_.processing_stopped_called_);
   EXPECT_FALSE(delegate_.processing_done_called_);
   EXPECT_FALSE(delegate_.action_completed_called_);
   EXPECT_FALSE(action_processor_.IsRunning());
   EXPECT_EQ(nullptr, action_processor_.current_action());
 }

 }  // namespace chromeos_update_engine
	//
	// Copyright (C) 2009 The Android Open Source Project
	//
	// Licensed under the Apache License, Version 2.0 (the "License");
	// you may not use this file except in compliance with the License.
	// You may obtain a copy of the License at
	//
	// http://www.apache.org/licenses/LICENSE-2.0
	//
	// Unless required by applicable law or agreed to in writing, software
	// distributed under the License is distributed on an "AS IS" BASIS,
	// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	// See the License for the specific language governing permissions and
	// limitations under the License.
	//

	#include "update_engine/common/action_processor.h"

	#include <string>

	#include <gtest/gtest.h>

	#include "update_engine/common/action.h"
	#include "update_engine/common/mock_action.h"

	using std::string;

	namespace chromeos_update_engine {

	using chromeos_update_engine::ActionPipe;

	class ActionProcessorTestAction;

	template<>
	class ActionTraits<ActionProcessorTestAction> {
	public:
	typedef string OutputObjectType;
	typedef string InputObjectType;
	};

	// This is a simple Action class for testing.
	class ActionProcessorTestAction : public Action<ActionProcessorTestAction> {
	public:
	typedef string InputObjectType;
	typedef string OutputObjectType;
	ActionPipe<string>* in_pipe() { return in_pipe_.get(); }
	ActionPipe<string>* out_pipe() { return out_pipe_.get(); }
	ActionProcessor* processor() { return processor_; }
	void PerformAction() {}
	void CompleteAction() {
	ASSERT_TRUE(processor());
	processor()->ActionComplete(this, ErrorCode::kSuccess);
	}
	string Type() const { return "ActionProcessorTestAction"; }
	};

	namespace {
	class MyActionProcessorDelegate : public ActionProcessorDelegate {
	public:
	explicit MyActionProcessorDelegate(const ActionProcessor* processor)
	: processor_(processor),
	processing_done_called_(false),
	processing_stopped_called_(false),
	action_completed_called_(false),
	action_exit_code_(ErrorCode::kError) {}

	virtual void ProcessingDone(const ActionProcessor* processor,
	ErrorCode code) {
	EXPECT_EQ(processor_, processor);
	EXPECT_FALSE(processing_done_called_);
	processing_done_called_ = true;
	}
	virtual void ProcessingStopped(const ActionProcessor* processor) {
	EXPECT_EQ(processor_, processor);
	EXPECT_FALSE(processing_stopped_called_);
	processing_stopped_called_ = true;
	}
	virtual void ActionCompleted(ActionProcessor* processor,
	AbstractAction* action,
	ErrorCode code) {
	EXPECT_EQ(processor_, processor);
	EXPECT_FALSE(action_completed_called_);
	action_completed_called_ = true;
	action_exit_code_ = code;
	}

	const ActionProcessor* processor_;
	bool processing_done_called_;
	bool processing_stopped_called_;
	bool action_completed_called_;
	ErrorCode action_exit_code_;
	};
	} // namespace

	class ActionProcessorTest : public ::testing::Test {
	void SetUp() override {
	action_processor_.set_delegate(&delegate_);
	// Silence Type() calls used for logging.
	EXPECT_CALL(mock_action_, Type()).Times(testing::AnyNumber());
	}

	void TearDown() override {
	action_processor_.set_delegate(nullptr);
	}

	protected:
	// The ActionProcessor under test.
	ActionProcessor action_processor_;

	MyActionProcessorDelegate delegate_{&action_processor_};

	// Common actions used during most tests.
	testing::StrictMock<MockAction> mock_action_;
	ActionProcessorTestAction action_;
	};

	TEST_F(ActionProcessorTest, SimpleTest) {
	EXPECT_FALSE(action_processor_.IsRunning());
	action_processor_.EnqueueAction(&action_);
	EXPECT_FALSE(action_processor_.IsRunning());
	EXPECT_FALSE(action_.IsRunning());
	action_processor_.StartProcessing();
	EXPECT_TRUE(action_processor_.IsRunning());
	EXPECT_TRUE(action_.IsRunning());
	EXPECT_EQ(action_processor_.current_action(), &action_);
	action_.CompleteAction();
	EXPECT_FALSE(action_processor_.IsRunning());
	EXPECT_FALSE(action_.IsRunning());
	}

	TEST_F(ActionProcessorTest, DelegateTest) {
	action_processor_.EnqueueAction(&action_);
	action_processor_.StartProcessing();
	action_.CompleteAction();
	EXPECT_TRUE(delegate_.processing_done_called_);
	EXPECT_TRUE(delegate_.action_completed_called_);
	}

	TEST_F(ActionProcessorTest, StopProcessingTest) {
	action_processor_.EnqueueAction(&action_);
	action_processor_.StartProcessing();
	action_processor_.StopProcessing();
	EXPECT_TRUE(delegate_.processing_stopped_called_);
	EXPECT_FALSE(delegate_.action_completed_called_);
	EXPECT_FALSE(action_processor_.IsRunning());
	EXPECT_EQ(nullptr, action_processor_.current_action());
	}

	TEST_F(ActionProcessorTest, ChainActionsTest) {
	// This test doesn't use a delegate since it terminates several actions.
	action_processor_.set_delegate(nullptr);

	ActionProcessorTestAction action1, action2;
	action_processor_.EnqueueAction(&action1);
	action_processor_.EnqueueAction(&action2);
	action_processor_.StartProcessing();
	EXPECT_EQ(&action1, action_processor_.current_action());
	EXPECT_TRUE(action_processor_.IsRunning());
	action1.CompleteAction();
	EXPECT_EQ(&action2, action_processor_.current_action());
	EXPECT_TRUE(action_processor_.IsRunning());
	action2.CompleteAction();
	EXPECT_EQ(nullptr, action_processor_.current_action());
	EXPECT_FALSE(action_processor_.IsRunning());
	}

	TEST_F(ActionProcessorTest, DtorTest) {
	ActionProcessorTestAction action1, action2;
	{
	ActionProcessor action_processor;
	action_processor.EnqueueAction(&action1);
	action_processor.EnqueueAction(&action2);
	action_processor.StartProcessing();
	}
	EXPECT_EQ(nullptr, action1.processor());
	EXPECT_FALSE(action1.IsRunning());
	EXPECT_EQ(nullptr, action2.processor());
	EXPECT_FALSE(action2.IsRunning());
	}

	TEST_F(ActionProcessorTest, DefaultDelegateTest) {
	// Just make sure it doesn't crash
	action_processor_.EnqueueAction(&action_);
	action_processor_.StartProcessing();
	action_.CompleteAction();

	action_processor_.EnqueueAction(&action_);
	action_processor_.StartProcessing();
	action_processor_.StopProcessing();
	}

	// This test suspends and resume the action processor while running one action_.
	TEST_F(ActionProcessorTest, SuspendResumeTest) {
	action_processor_.EnqueueAction(&mock_action_);

	testing::InSequence s;
	EXPECT_CALL(mock_action_, PerformAction());
	action_processor_.StartProcessing();

	EXPECT_CALL(mock_action_, SuspendAction());
	action_processor_.SuspendProcessing();
	// Suspending the processor twice should not suspend the action twice.
	action_processor_.SuspendProcessing();

	// IsRunning should return whether there's is an action doing some work, even
	// if it is suspended.
	EXPECT_TRUE(action_processor_.IsRunning());
	EXPECT_EQ(&mock_action_, action_processor_.current_action());

	EXPECT_CALL(mock_action_, ResumeAction());
	action_processor_.ResumeProcessing();

	// Calling ResumeProcessing twice should not affect the action_.
	action_processor_.ResumeProcessing();

	action_processor_.ActionComplete(&mock_action_, ErrorCode::kSuccess);
	}

	// This test suspends an action that presumably doesn't support suspend/resume
	// and it finished before being resumed.
	TEST_F(ActionProcessorTest, ActionCompletedWhileSuspendedTest) {
	action_processor_.EnqueueAction(&mock_action_);

	testing::InSequence s;
	EXPECT_CALL(mock_action_, PerformAction());
	action_processor_.StartProcessing();

	EXPECT_CALL(mock_action_, SuspendAction());
	action_processor_.SuspendProcessing();

	// Simulate the action completion while suspended. No other call to
	// \|mock_action_\| is expected at this point.
	action_processor_.ActionComplete(&mock_action_, ErrorCode::kSuccess);

	// The processing should not be done since the ActionProcessor is suspended
	// and the processing is considered to be still running until resumed.
	EXPECT_FALSE(delegate_.processing_done_called_);
	EXPECT_TRUE(action_processor_.IsRunning());

	action_processor_.ResumeProcessing();
	EXPECT_TRUE(delegate_.processing_done_called_);
	EXPECT_FALSE(delegate_.processing_stopped_called_);
	}

	TEST_F(ActionProcessorTest, StoppedWhileSuspendedTest) {
	action_processor_.EnqueueAction(&mock_action_);

	testing::InSequence s;
	EXPECT_CALL(mock_action_, PerformAction());
	action_processor_.StartProcessing();
	EXPECT_CALL(mock_action_, SuspendAction());
	action_processor_.SuspendProcessing();

	EXPECT_CALL(mock_action_, TerminateProcessing());
	action_processor_.StopProcessing();
	// Stopping the processing should abort the current execution no matter what.
	EXPECT_TRUE(delegate_.processing_stopped_called_);
	EXPECT_FALSE(delegate_.processing_done_called_);
	EXPECT_FALSE(delegate_.action_completed_called_);
	EXPECT_FALSE(action_processor_.IsRunning());
	EXPECT_EQ(nullptr, action_processor_.current_action());
	}

	} // namespace chromeos_update_engine