update_engine/payload_consumer/filesystem_verifier_action_unittest.cc - nest-cam/4320010/update_engine - Git at Google

 //
 // Copyright (C) 2012 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/payload_consumer/filesystem_verifier_action.h"

 #include <fcntl.h>

 #include <set>
 #include <string>
 #include <vector>

 #include <base/bind.h>
 #include <base/posix/eintr_wrapper.h>
 #include <base/strings/string_util.h>
 #include <base/strings/stringprintf.h>
 #include <brillo/bind_lambda.h>
 #include <brillo/message_loops/fake_message_loop.h>
 #include <brillo/message_loops/message_loop_utils.h>
 #include <gmock/gmock.h>
 #include <gtest/gtest.h>

 #include "update_engine/common/hash_calculator.h"
 #include "update_engine/common/test_utils.h"
 #include "update_engine/common/utils.h"
 #include "update_engine/payload_consumer/payload_constants.h"

 using brillo::MessageLoop;
 using std::set;
 using std::string;
 using std::vector;

 namespace chromeos_update_engine {

 class FilesystemVerifierActionTest : public ::testing::Test {
  protected:
   void SetUp() override {
     loop_.SetAsCurrent();
   }

   void TearDown() override {
     EXPECT_EQ(0, brillo::MessageLoopRunMaxIterations(&loop_, 1));
   }

   // Returns true iff test has completed successfully.
   bool DoTest(bool terminate_early, bool hash_fail);

   brillo::FakeMessageLoop loop_{nullptr};
 };

 class FilesystemVerifierActionTestDelegate : public ActionProcessorDelegate {
  public:
   explicit FilesystemVerifierActionTestDelegate(
       FilesystemVerifierAction* action)
       : action_(action), ran_(false), code_(ErrorCode::kError) {}
   void ExitMainLoop() {
     // We need to wait for the Action to call Cleanup.
     if (action_->IsCleanupPending()) {
       LOG(INFO) << "Waiting for Cleanup() to be called.";
       MessageLoop::current()->PostDelayedTask(
           FROM_HERE,
           base::Bind(&FilesystemVerifierActionTestDelegate::ExitMainLoop,
                      base::Unretained(this)),
           base::TimeDelta::FromMilliseconds(100));
     } else {
       MessageLoop::current()->BreakLoop();
     }
   }
   void ProcessingDone(const ActionProcessor* processor, ErrorCode code) {
     ExitMainLoop();
   }
   void ProcessingStopped(const ActionProcessor* processor) {
     ExitMainLoop();
   }
   void ActionCompleted(ActionProcessor* processor,
                        AbstractAction* action,
                        ErrorCode code) {
     if (action->Type() == FilesystemVerifierAction::StaticType()) {
       ran_ = true;
       code_ = code;
     }
   }
   bool ran() const { return ran_; }
   ErrorCode code() const { return code_; }

  private:
   FilesystemVerifierAction* action_;
   bool ran_;
   ErrorCode code_;
 };

 void StartProcessorInRunLoop(ActionProcessor* processor,
                              FilesystemVerifierAction* filesystem_copier_action,
                              bool terminate_early) {
   processor->StartProcessing();
   if (terminate_early) {
     EXPECT_NE(nullptr, filesystem_copier_action);
     processor->StopProcessing();
   }
 }

 bool FilesystemVerifierActionTest::DoTest(bool terminate_early,
                                           bool hash_fail) {
   string a_loop_file;

   if (!(utils::MakeTempFile("a_loop_file.XXXXXX", &a_loop_file, nullptr))) {
     ADD_FAILURE();
     return false;
   }
   ScopedPathUnlinker a_loop_file_unlinker(a_loop_file);

   // Make random data for a.
   const size_t kLoopFileSize = 10 * 1024 * 1024 + 512;
   brillo::Blob a_loop_data(kLoopFileSize);
   test_utils::FillWithData(&a_loop_data);

   // Write data to disk
   if (!(test_utils::WriteFileVector(a_loop_file, a_loop_data))) {
     ADD_FAILURE();
     return false;
   }

   // Attach loop devices to the files
   string a_dev;
   test_utils::ScopedLoopbackDeviceBinder a_dev_releaser(
       a_loop_file, false, &a_dev);
   if (!(a_dev_releaser.is_bound())) {
     ADD_FAILURE();
     return false;
   }

   LOG(INFO) << "verifying: "  << a_loop_file << " (" << a_dev << ")";

   bool success = true;

   // Set up the action objects
   InstallPlan install_plan;
   install_plan.source_slot = 0;
   install_plan.target_slot = 1;
   InstallPlan::Partition part;
   part.name = "part";
   part.target_size = kLoopFileSize - (hash_fail ? 1 : 0);
   part.target_path = a_dev;
   if (!HashCalculator::RawHashOfData(a_loop_data, &part.target_hash)) {
     ADD_FAILURE();
     success = false;
   }
   part.source_size = kLoopFileSize;
   part.source_path = a_dev;
   if (!HashCalculator::RawHashOfData(a_loop_data, &part.source_hash)) {
     ADD_FAILURE();
     success = false;
   }
   install_plan.partitions = {part};

   ActionProcessor processor;

   ObjectFeederAction<InstallPlan> feeder_action;
   FilesystemVerifierAction copier_action;
   ObjectCollectorAction<InstallPlan> collector_action;

   BondActions(&feeder_action, &copier_action);
   BondActions(&copier_action, &collector_action);

   FilesystemVerifierActionTestDelegate delegate(&copier_action);
   processor.set_delegate(&delegate);
   processor.EnqueueAction(&feeder_action);
   processor.EnqueueAction(&copier_action);
   processor.EnqueueAction(&collector_action);

   feeder_action.set_obj(install_plan);

   loop_.PostTask(FROM_HERE, base::Bind(&StartProcessorInRunLoop,
                                        &processor,
                                        &copier_action,
                                        terminate_early));
   loop_.Run();

   if (!terminate_early) {
     bool is_delegate_ran = delegate.ran();
     EXPECT_TRUE(is_delegate_ran);
     success = success && is_delegate_ran;
   } else {
     EXPECT_EQ(ErrorCode::kError, delegate.code());
     return (ErrorCode::kError == delegate.code());
   }
   if (hash_fail) {
     ErrorCode expected_exit_code = ErrorCode::kNewRootfsVerificationError;
     EXPECT_EQ(expected_exit_code, delegate.code());
     return (expected_exit_code == delegate.code());
   }
   EXPECT_EQ(ErrorCode::kSuccess, delegate.code());

   // Make sure everything in the out_image is there
   brillo::Blob a_out;
   if (!utils::ReadFile(a_dev, &a_out)) {
     ADD_FAILURE();
     return false;
   }
   const bool is_a_file_reading_eq =
       test_utils::ExpectVectorsEq(a_loop_data, a_out);
   EXPECT_TRUE(is_a_file_reading_eq);
   success = success && is_a_file_reading_eq;

   bool is_install_plan_eq = (collector_action.object() == install_plan);
   EXPECT_TRUE(is_install_plan_eq);
   success = success && is_install_plan_eq;
   return success;
 }

 class FilesystemVerifierActionTest2Delegate : public ActionProcessorDelegate {
  public:
   void ActionCompleted(ActionProcessor* processor,
                        AbstractAction* action,
                        ErrorCode code) {
     if (action->Type() == FilesystemVerifierAction::StaticType()) {
       ran_ = true;
       code_ = code;
     }
   }
   bool ran_;
   ErrorCode code_;
 };

 TEST_F(FilesystemVerifierActionTest, MissingInputObjectTest) {
   ActionProcessor processor;
   FilesystemVerifierActionTest2Delegate delegate;

   processor.set_delegate(&delegate);

   FilesystemVerifierAction copier_action;
   ObjectCollectorAction<InstallPlan> collector_action;

   BondActions(&copier_action, &collector_action);

   processor.EnqueueAction(&copier_action);
   processor.EnqueueAction(&collector_action);
   processor.StartProcessing();
   EXPECT_FALSE(processor.IsRunning());
   EXPECT_TRUE(delegate.ran_);
   EXPECT_EQ(ErrorCode::kError, delegate.code_);
 }

 TEST_F(FilesystemVerifierActionTest, NonExistentDriveTest) {
   ActionProcessor processor;
   FilesystemVerifierActionTest2Delegate delegate;

   processor.set_delegate(&delegate);

   ObjectFeederAction<InstallPlan> feeder_action;
   InstallPlan install_plan;
   InstallPlan::Partition part;
   part.name = "nope";
   part.source_path = "/no/such/file";
   part.target_path = "/no/such/file";
   install_plan.partitions = {part};

   feeder_action.set_obj(install_plan);
   FilesystemVerifierAction verifier_action;
   ObjectCollectorAction<InstallPlan> collector_action;

   BondActions(&verifier_action, &collector_action);

   processor.EnqueueAction(&feeder_action);
   processor.EnqueueAction(&verifier_action);
   processor.EnqueueAction(&collector_action);
   processor.StartProcessing();
   EXPECT_FALSE(processor.IsRunning());
   EXPECT_TRUE(delegate.ran_);
   EXPECT_EQ(ErrorCode::kError, delegate.code_);
 }

 TEST_F(FilesystemVerifierActionTest, RunAsRootVerifyHashTest) {
   ASSERT_EQ(0U, getuid());
   EXPECT_TRUE(DoTest(false, false));
 }

 TEST_F(FilesystemVerifierActionTest, RunAsRootVerifyHashFailTest) {
   ASSERT_EQ(0U, getuid());
   EXPECT_TRUE(DoTest(false, true));
 }

 TEST_F(FilesystemVerifierActionTest, RunAsRootTerminateEarlyTest) {
   ASSERT_EQ(0U, getuid());
   EXPECT_TRUE(DoTest(true, false));
   // TerminateEarlyTest may leak some null callbacks from the Stream class.
   while (loop_.RunOnce(false)) {}
 }

 }  // namespace chromeos_update_engine
	//
	// Copyright (C) 2012 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/payload_consumer/filesystem_verifier_action.h"

	#include <fcntl.h>

	#include <set>
	#include <string>
	#include <vector>

	#include <base/bind.h>
	#include <base/posix/eintr_wrapper.h>
	#include <base/strings/string_util.h>
	#include <base/strings/stringprintf.h>
	#include <brillo/bind_lambda.h>
	#include <brillo/message_loops/fake_message_loop.h>
	#include <brillo/message_loops/message_loop_utils.h>
	#include <gmock/gmock.h>
	#include <gtest/gtest.h>

	#include "update_engine/common/hash_calculator.h"
	#include "update_engine/common/test_utils.h"
	#include "update_engine/common/utils.h"
	#include "update_engine/payload_consumer/payload_constants.h"

	using brillo::MessageLoop;
	using std::set;
	using std::string;
	using std::vector;

	namespace chromeos_update_engine {

	class FilesystemVerifierActionTest : public ::testing::Test {
	protected:
	void SetUp() override {
	loop_.SetAsCurrent();
	}

	void TearDown() override {
	EXPECT_EQ(0, brillo::MessageLoopRunMaxIterations(&loop_, 1));
	}

	// Returns true iff test has completed successfully.
	bool DoTest(bool terminate_early, bool hash_fail);

	brillo::FakeMessageLoop loop_{nullptr};
	};

	class FilesystemVerifierActionTestDelegate : public ActionProcessorDelegate {
	public:
	explicit FilesystemVerifierActionTestDelegate(
	FilesystemVerifierAction* action)
	: action_(action), ran_(false), code_(ErrorCode::kError) {}
	void ExitMainLoop() {
	// We need to wait for the Action to call Cleanup.
	if (action_->IsCleanupPending()) {
	LOG(INFO) << "Waiting for Cleanup() to be called.";
	MessageLoop::current()->PostDelayedTask(
	FROM_HERE,
	base::Bind(&FilesystemVerifierActionTestDelegate::ExitMainLoop,
	base::Unretained(this)),
	base::TimeDelta::FromMilliseconds(100));
	} else {
	MessageLoop::current()->BreakLoop();
	}
	}
	void ProcessingDone(const ActionProcessor* processor, ErrorCode code) {
	ExitMainLoop();
	}
	void ProcessingStopped(const ActionProcessor* processor) {
	ExitMainLoop();
	}
	void ActionCompleted(ActionProcessor* processor,
	AbstractAction* action,
	ErrorCode code) {
	if (action->Type() == FilesystemVerifierAction::StaticType()) {
	ran_ = true;
	code_ = code;
	}
	}
	bool ran() const { return ran_; }
	ErrorCode code() const { return code_; }

	private:
	FilesystemVerifierAction* action_;
	bool ran_;
	ErrorCode code_;
	};

	void StartProcessorInRunLoop(ActionProcessor* processor,
	FilesystemVerifierAction* filesystem_copier_action,
	bool terminate_early) {
	processor->StartProcessing();
	if (terminate_early) {
	EXPECT_NE(nullptr, filesystem_copier_action);
	processor->StopProcessing();
	}
	}

	bool FilesystemVerifierActionTest::DoTest(bool terminate_early,
	bool hash_fail) {
	string a_loop_file;

	if (!(utils::MakeTempFile("a_loop_file.XXXXXX", &a_loop_file, nullptr))) {
	ADD_FAILURE();
	return false;
	}
	ScopedPathUnlinker a_loop_file_unlinker(a_loop_file);

	// Make random data for a.
	const size_t kLoopFileSize = 10 * 1024 * 1024 + 512;
	brillo::Blob a_loop_data(kLoopFileSize);
	test_utils::FillWithData(&a_loop_data);

	// Write data to disk
	if (!(test_utils::WriteFileVector(a_loop_file, a_loop_data))) {
	ADD_FAILURE();
	return false;
	}

	// Attach loop devices to the files
	string a_dev;
	test_utils::ScopedLoopbackDeviceBinder a_dev_releaser(
	a_loop_file, false, &a_dev);
	if (!(a_dev_releaser.is_bound())) {
	ADD_FAILURE();
	return false;
	}

	LOG(INFO) << "verifying: " << a_loop_file << " (" << a_dev << ")";

	bool success = true;

	// Set up the action objects
	InstallPlan install_plan;
	install_plan.source_slot = 0;
	install_plan.target_slot = 1;
	InstallPlan::Partition part;
	part.name = "part";
	part.target_size = kLoopFileSize - (hash_fail ? 1 : 0);
	part.target_path = a_dev;
	if (!HashCalculator::RawHashOfData(a_loop_data, &part.target_hash)) {
	ADD_FAILURE();
	success = false;
	}
	part.source_size = kLoopFileSize;
	part.source_path = a_dev;
	if (!HashCalculator::RawHashOfData(a_loop_data, &part.source_hash)) {
	ADD_FAILURE();
	success = false;
	}
	install_plan.partitions = {part};

	ActionProcessor processor;

	ObjectFeederAction<InstallPlan> feeder_action;
	FilesystemVerifierAction copier_action;
	ObjectCollectorAction<InstallPlan> collector_action;

	BondActions(&feeder_action, &copier_action);
	BondActions(&copier_action, &collector_action);

	FilesystemVerifierActionTestDelegate delegate(&copier_action);
	processor.set_delegate(&delegate);
	processor.EnqueueAction(&feeder_action);
	processor.EnqueueAction(&copier_action);
	processor.EnqueueAction(&collector_action);

	feeder_action.set_obj(install_plan);

	loop_.PostTask(FROM_HERE, base::Bind(&StartProcessorInRunLoop,
	&processor,
	&copier_action,
	terminate_early));
	loop_.Run();

	if (!terminate_early) {
	bool is_delegate_ran = delegate.ran();
	EXPECT_TRUE(is_delegate_ran);
	success = success && is_delegate_ran;
	} else {
	EXPECT_EQ(ErrorCode::kError, delegate.code());
	return (ErrorCode::kError == delegate.code());
	}
	if (hash_fail) {
	ErrorCode expected_exit_code = ErrorCode::kNewRootfsVerificationError;
	EXPECT_EQ(expected_exit_code, delegate.code());
	return (expected_exit_code == delegate.code());
	}
	EXPECT_EQ(ErrorCode::kSuccess, delegate.code());

	// Make sure everything in the out_image is there
	brillo::Blob a_out;
	if (!utils::ReadFile(a_dev, &a_out)) {
	ADD_FAILURE();
	return false;
	}
	const bool is_a_file_reading_eq =
	test_utils::ExpectVectorsEq(a_loop_data, a_out);
	EXPECT_TRUE(is_a_file_reading_eq);
	success = success && is_a_file_reading_eq;

	bool is_install_plan_eq = (collector_action.object() == install_plan);
	EXPECT_TRUE(is_install_plan_eq);
	success = success && is_install_plan_eq;
	return success;
	}

	class FilesystemVerifierActionTest2Delegate : public ActionProcessorDelegate {
	public:
	void ActionCompleted(ActionProcessor* processor,
	AbstractAction* action,
	ErrorCode code) {
	if (action->Type() == FilesystemVerifierAction::StaticType()) {
	ran_ = true;
	code_ = code;
	}
	}
	bool ran_;
	ErrorCode code_;
	};

	TEST_F(FilesystemVerifierActionTest, MissingInputObjectTest) {
	ActionProcessor processor;
	FilesystemVerifierActionTest2Delegate delegate;

	processor.set_delegate(&delegate);

	FilesystemVerifierAction copier_action;
	ObjectCollectorAction<InstallPlan> collector_action;

	BondActions(&copier_action, &collector_action);

	processor.EnqueueAction(&copier_action);
	processor.EnqueueAction(&collector_action);
	processor.StartProcessing();
	EXPECT_FALSE(processor.IsRunning());
	EXPECT_TRUE(delegate.ran_);
	EXPECT_EQ(ErrorCode::kError, delegate.code_);
	}

	TEST_F(FilesystemVerifierActionTest, NonExistentDriveTest) {
	ActionProcessor processor;
	FilesystemVerifierActionTest2Delegate delegate;

	processor.set_delegate(&delegate);

	ObjectFeederAction<InstallPlan> feeder_action;
	InstallPlan install_plan;
	InstallPlan::Partition part;
	part.name = "nope";
	part.source_path = "/no/such/file";
	part.target_path = "/no/such/file";
	install_plan.partitions = {part};

	feeder_action.set_obj(install_plan);
	FilesystemVerifierAction verifier_action;
	ObjectCollectorAction<InstallPlan> collector_action;

	BondActions(&verifier_action, &collector_action);

	processor.EnqueueAction(&feeder_action);
	processor.EnqueueAction(&verifier_action);
	processor.EnqueueAction(&collector_action);
	processor.StartProcessing();
	EXPECT_FALSE(processor.IsRunning());
	EXPECT_TRUE(delegate.ran_);
	EXPECT_EQ(ErrorCode::kError, delegate.code_);
	}

	TEST_F(FilesystemVerifierActionTest, RunAsRootVerifyHashTest) {
	ASSERT_EQ(0U, getuid());
	EXPECT_TRUE(DoTest(false, false));
	}

	TEST_F(FilesystemVerifierActionTest, RunAsRootVerifyHashFailTest) {
	ASSERT_EQ(0U, getuid());
	EXPECT_TRUE(DoTest(false, true));
	}

	TEST_F(FilesystemVerifierActionTest, RunAsRootTerminateEarlyTest) {
	ASSERT_EQ(0U, getuid());
	EXPECT_TRUE(DoTest(true, false));
	// TerminateEarlyTest may leak some null callbacks from the Stream class.
	while (loop_.RunOnce(false)) {}
	}

	} // namespace chromeos_update_engine