fs_mgr/libsnapshot/snapshot_fuzz.cpp - platform/system/core - Git at Google

 // Copyright (C) 2020 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 <stddef.h>
 #include <stdint.h>
 #include <sysexits.h>

 #include <functional>
 #include <sstream>
 #include <tuple>

 #include <android-base/logging.h>
 #include <android-base/properties.h>
 #include <android-base/result.h>
 #include <gtest/gtest.h>
 #include <src/libfuzzer/libfuzzer_macro.h>
 #include <storage_literals/storage_literals.h>

 #include "fuzz_utils.h"
 #include "snapshot_fuzz_utils.h"

 using android::base::Error;
 using android::base::GetBoolProperty;
 using android::base::LogId;
 using android::base::LogSeverity;
 using android::base::ReadFileToString;
 using android::base::Result;
 using android::base::SetLogger;
 using android::base::StderrLogger;
 using android::base::StdioLogger;
 using android::fs_mgr::CreateLogicalPartitionParams;
 using android::fuzz::CheckedCast;
 using android::snapshot::SnapshotFuzzData;
 using android::snapshot::SnapshotFuzzEnv;
 using chromeos_update_engine::DeltaArchiveManifest;
 using google::protobuf::FieldDescriptor;
 using google::protobuf::Message;
 using google::protobuf::RepeatedPtrField;

 // Avoid linking to libgsi since it needs disk I/O.
 namespace android::gsi {
 bool IsGsiRunning() {
     LOG(FATAL) << "Called IsGsiRunning";
     __builtin_unreachable();
 }
 std::string GetDsuSlot(const std::string& install_dir) {
     LOG(FATAL) << "Called GetDsuSlot(" << install_dir << ")";
     __builtin_unreachable();
 }
 }  // namespace android::gsi

 namespace android::snapshot {

 const SnapshotFuzzData* current_data = nullptr;
 const SnapshotTestModule* current_module = nullptr;

 SnapshotFuzzEnv* GetSnapshotFuzzEnv();

 FUZZ_CLASS(ISnapshotManager, SnapshotManagerAction);

 using ProcessUpdateStateArgs = SnapshotManagerAction::Proto::ProcessUpdateStateArgs;
 using CreateLogicalAndSnapshotPartitionsArgs =
         SnapshotManagerAction::Proto::CreateLogicalAndSnapshotPartitionsArgs;
 using RecoveryCreateSnapshotDevicesArgs =
         SnapshotManagerAction::Proto::RecoveryCreateSnapshotDevicesArgs;

 FUZZ_SIMPLE_FUNCTION(SnapshotManagerAction, BeginUpdate);
 FUZZ_SIMPLE_FUNCTION(SnapshotManagerAction, CancelUpdate);
 FUZZ_SIMPLE_FUNCTION(SnapshotManagerAction, InitiateMerge);
 FUZZ_SIMPLE_FUNCTION(SnapshotManagerAction, NeedSnapshotsInFirstStageMount);
 FUZZ_SIMPLE_FUNCTION(SnapshotManagerAction, RecoveryCreateSnapshotDevices);
 FUZZ_SIMPLE_FUNCTION(SnapshotManagerAction, EnsureMetadataMounted);
 FUZZ_SIMPLE_FUNCTION(SnapshotManagerAction, GetSnapshotMergeStatsInstance);

 #define SNAPSHOT_FUZZ_FUNCTION(FunctionName, ReturnType, ...)                                  \
     FUZZ_FUNCTION(SnapshotManagerAction, FunctionName, ReturnType, ISnapshotManager* snapshot, \
                   ##__VA_ARGS__)

 SNAPSHOT_FUZZ_FUNCTION(FinishedSnapshotWrites, bool, bool wipe) {
     return snapshot->FinishedSnapshotWrites(wipe);
 }

 SNAPSHOT_FUZZ_FUNCTION(ProcessUpdateState, bool, const ProcessUpdateStateArgs& args) {
     std::function<bool()> before_cancel;
     if (args.has_before_cancel()) {
         before_cancel = [&]() { return args.fail_before_cancel(); };
     }
     return snapshot->ProcessUpdateState({}, before_cancel);
 }

 SNAPSHOT_FUZZ_FUNCTION(GetUpdateState, UpdateState, bool has_progress_arg) {
     double progress;
     return snapshot->GetUpdateState(has_progress_arg ? &progress : nullptr);
 }

 SNAPSHOT_FUZZ_FUNCTION(HandleImminentDataWipe, bool, bool has_callback) {
     std::function<void()> callback;
     if (has_callback) {
         callback = []() {};
     }
     return snapshot->HandleImminentDataWipe(callback);
 }

 SNAPSHOT_FUZZ_FUNCTION(Dump, bool) {
     std::stringstream ss;
     return snapshot->Dump(ss);
 }

 SNAPSHOT_FUZZ_FUNCTION(CreateUpdateSnapshots, bool, const DeltaArchiveManifest& manifest) {
     return snapshot->CreateUpdateSnapshots(manifest);
 }

 SNAPSHOT_FUZZ_FUNCTION(UnmapUpdateSnapshot, bool, const std::string& name) {
     return snapshot->UnmapUpdateSnapshot(name);
 }

 SNAPSHOT_FUZZ_FUNCTION(CreateLogicalAndSnapshotPartitions, bool,
                        const CreateLogicalAndSnapshotPartitionsArgs& args) {
     const std::string* super;
     if (args.use_correct_super()) {
         super = &GetSnapshotFuzzEnv()->super();
     } else {
         super = &args.super();
     }
     return snapshot->CreateLogicalAndSnapshotPartitions(
             *super, std::chrono::milliseconds(args.timeout_millis()));
 }

 SNAPSHOT_FUZZ_FUNCTION(RecoveryCreateSnapshotDevicesWithMetadata, CreateResult,
                        const RecoveryCreateSnapshotDevicesArgs& args) {
     std::unique_ptr<AutoDevice> device;
     if (args.has_metadata_device_object()) {
         device = std::make_unique<NoOpAutoDevice>(args.metadata_mounted());
     }
     return snapshot->RecoveryCreateSnapshotDevices(device);
 }

 SNAPSHOT_FUZZ_FUNCTION(MapUpdateSnapshot, bool,
                        const CreateLogicalPartitionParamsProto& params_proto) {
     auto partition_opener = std::make_unique<TestPartitionOpener>(GetSnapshotFuzzEnv()->super());
     CreateLogicalPartitionParams params;
     if (params_proto.use_correct_super()) {
         params.block_device = GetSnapshotFuzzEnv()->super();
     } else {
         params.block_device = params_proto.block_device();
     }
     if (params_proto.has_metadata_slot()) {
         params.metadata_slot = params_proto.metadata_slot();
     }
     params.partition_name = params_proto.partition_name();
     params.force_writable = params_proto.force_writable();
     params.timeout_ms = std::chrono::milliseconds(params_proto.timeout_millis());
     params.device_name = params_proto.device_name();
     params.partition_opener = partition_opener.get();
     std::string path;
     return snapshot->MapUpdateSnapshot(params, &path);
 }

 SNAPSHOT_FUZZ_FUNCTION(SwitchSlot, void) {
     (void)snapshot;
     CHECK(current_module != nullptr);
     CHECK(current_module->device_info != nullptr);
     current_module->device_info->SwitchSlot();
 }

 // During global init, log all messages to stdio. This is only done once.
 int AllowLoggingDuringGlobalInit() {
     SetLogger(&StdioLogger);
     return 0;
 }

 // Only log fatal messages during tests.
 void FatalOnlyLogger(LogId logid, LogSeverity severity, const char* tag, const char* file,
                      unsigned int line, const char* message) {
     if (severity == LogSeverity::FATAL) {
         StderrLogger(logid, severity, tag, file, line, message);

         // If test fails by a LOG(FATAL) or CHECK(), log the corpus. If it abort()'s, there's
         // nothing else we can do.
         StderrLogger(logid, severity, tag, __FILE__, __LINE__,
                      "Attempting to dump current corpus:");
         if (current_data == nullptr) {
             StderrLogger(logid, severity, tag, __FILE__, __LINE__, "Current corpus is nullptr.");
         } else {
             std::string content;
             if (!google::protobuf::TextFormat::PrintToString(*current_data, &content)) {
                 StderrLogger(logid, severity, tag, __FILE__, __LINE__,
                              "Failed to print corpus to string.");
             } else {
                 StderrLogger(logid, severity, tag, __FILE__, __LINE__, content.c_str());
             }
         }
     }
 }
 // Stop logging (except fatal messages) after global initialization. This is only done once.
 int StopLoggingAfterGlobalInit() {
     (void)GetSnapshotFuzzEnv();
     [[maybe_unused]] static protobuf_mutator::protobuf::LogSilencer log_silencer;
     SetLogger(&FatalOnlyLogger);
     return 0;
 }

 SnapshotFuzzEnv* GetSnapshotFuzzEnv() {
     [[maybe_unused]] static auto allow_logging = AllowLoggingDuringGlobalInit();
     static SnapshotFuzzEnv env;
     return &env;
 }

 SnapshotTestModule SetUpTest(const SnapshotFuzzData& snapshot_fuzz_data) {
     current_data = &snapshot_fuzz_data;

     auto env = GetSnapshotFuzzEnv();
     env->CheckSoftReset();

     auto test_module = env->CheckCreateSnapshotManager(snapshot_fuzz_data);
     current_module = &test_module;
     CHECK(test_module.snapshot);
     return test_module;
 }

 void TearDownTest() {
     current_module = nullptr;
     current_data = nullptr;
 }

 }  // namespace android::snapshot

 DEFINE_PROTO_FUZZER(const SnapshotFuzzData& snapshot_fuzz_data) {
     using namespace android::snapshot;

     [[maybe_unused]] static auto stop_logging = StopLoggingAfterGlobalInit();
     auto test_module = SetUpTest(snapshot_fuzz_data);
     SnapshotManagerAction::ExecuteAll(test_module.snapshot.get(), snapshot_fuzz_data.actions());
     TearDownTest();
 }

 namespace android::snapshot {

 // Work-around to cast a 'void' value to Result<void>.
 template <typename T>
 struct GoodResult {
     template <typename F>
     static Result<T> Cast(F&& f) {
         return f();
     }
 };

 template <>
 struct GoodResult<void> {
     template <typename F>
     static Result<void> Cast(F&& f) {
         f();
         return {};
     }
 };

 class LibsnapshotFuzzerTest : public ::testing::Test {
   protected:
     static void SetUpTestCase() {
         // Do initialization once.
         (void)GetSnapshotFuzzEnv();
     }
     void SetUp() override {
         bool is_virtual_ab = GetBoolProperty("ro.virtual_ab.enabled", false);
         if (!is_virtual_ab) GTEST_SKIP() << "Test only runs on Virtual A/B devices.";
     }
     void SetUpFuzzData(const std::string& fn) {
         auto path = android::base::GetExecutableDirectory() + "/corpus/"s + fn;
         std::string proto_text;
         ASSERT_TRUE(ReadFileToString(path, &proto_text));
         snapshot_fuzz_data_ = std::make_unique<SnapshotFuzzData>();
         ASSERT_TRUE(google::protobuf::TextFormat::ParseFromString(proto_text,
                                                                   snapshot_fuzz_data_.get()));
         test_module_ = android::snapshot::SetUpTest(*snapshot_fuzz_data_);
     }
     void TearDown() override { android::snapshot::TearDownTest(); }
     template <typename FuzzFunction>
     Result<typename FuzzFunction::ReturnType> Execute(int action_index) {
         if (action_index >= snapshot_fuzz_data_->actions_size()) {
             return Error() << "Index " << action_index << " is out of bounds ("
                            << snapshot_fuzz_data_->actions_size() << " actions in corpus";
         }
         const auto& action_proto = snapshot_fuzz_data_->actions(action_index);
         const auto* field_desc =
                 android::fuzz::GetValueFieldDescriptor<typename FuzzFunction::ActionType>(
                         action_proto);
         if (field_desc == nullptr) {
             return Error() << "Action at index " << action_index << " has no value defined.";
         }
         if (FuzzFunction::tag != field_desc->number()) {
             return Error() << "Action at index " << action_index << " is expected to be "
                            << FuzzFunction::name << ", but it is " << field_desc->name()
                            << " in corpus.";
         }
         return GoodResult<typename FuzzFunction::ReturnType>::Cast([&]() {
             return android::fuzz::ActionPerformer<FuzzFunction>::Invoke(test_module_.snapshot.get(),
                                                                         action_proto, field_desc);
         });
     }

     std::unique_ptr<SnapshotFuzzData> snapshot_fuzz_data_;
     SnapshotTestModule test_module_;
 };

 #define SNAPSHOT_FUZZ_FN_NAME(name) FUZZ_FUNCTION_CLASS_NAME(SnapshotManagerAction, name)

 MATCHER_P(ResultIs, expected, "") {
     if (!arg.ok()) {
         *result_listener << arg.error();
         return false;
     }
     *result_listener << "expected: " << expected;
     return arg.value() == expected;
 }

 #define ASSERT_RESULT_TRUE(actual) ASSERT_THAT(actual, ResultIs(true))

 // Check that launch_device.txt is executed correctly.
 TEST_F(LibsnapshotFuzzerTest, LaunchDevice) {
     SetUpFuzzData("launch_device.txt");

     int i = 0;
     ASSERT_RESULT_TRUE(Execute<SNAPSHOT_FUZZ_FN_NAME(BeginUpdate)>(i++));
     ASSERT_RESULT_TRUE(Execute<SNAPSHOT_FUZZ_FN_NAME(CreateUpdateSnapshots)>(i++));
     ASSERT_RESULT_TRUE(Execute<SNAPSHOT_FUZZ_FN_NAME(MapUpdateSnapshot)>(i++)) << "sys_b";
     ASSERT_RESULT_TRUE(Execute<SNAPSHOT_FUZZ_FN_NAME(MapUpdateSnapshot)>(i++)) << "vnd_b";
     ASSERT_RESULT_TRUE(Execute<SNAPSHOT_FUZZ_FN_NAME(MapUpdateSnapshot)>(i++)) << "prd_b";
     ASSERT_RESULT_TRUE(Execute<SNAPSHOT_FUZZ_FN_NAME(FinishedSnapshotWrites)>(i++));
     ASSERT_RESULT_TRUE(Execute<SNAPSHOT_FUZZ_FN_NAME(UnmapUpdateSnapshot)>(i++)) << "sys_b";
     ASSERT_RESULT_TRUE(Execute<SNAPSHOT_FUZZ_FN_NAME(UnmapUpdateSnapshot)>(i++)) << "vnd_b";
     ASSERT_RESULT_TRUE(Execute<SNAPSHOT_FUZZ_FN_NAME(UnmapUpdateSnapshot)>(i++)) << "prd_b";
     ASSERT_RESULT_OK(Execute<SNAPSHOT_FUZZ_FN_NAME(SwitchSlot)>(i++));
     ASSERT_EQ("_b", test_module_.device_info->GetSlotSuffix());
     ASSERT_RESULT_TRUE(Execute<SNAPSHOT_FUZZ_FN_NAME(NeedSnapshotsInFirstStageMount)>(i++));
     ASSERT_RESULT_TRUE(Execute<SNAPSHOT_FUZZ_FN_NAME(CreateLogicalAndSnapshotPartitions)>(i++));
     ASSERT_RESULT_TRUE(Execute<SNAPSHOT_FUZZ_FN_NAME(InitiateMerge)>(i++));
     ASSERT_RESULT_TRUE(Execute<SNAPSHOT_FUZZ_FN_NAME(ProcessUpdateState)>(i++));
     ASSERT_EQ(i, snapshot_fuzz_data_->actions_size()) << "Not all actions are executed.";
 }

 }  // namespace android::snapshot
	// Copyright (C) 2020 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 <stddef.h>
	#include <stdint.h>
	#include <sysexits.h>

	#include <functional>
	#include <sstream>
	#include <tuple>

	#include <android-base/logging.h>
	#include <android-base/properties.h>
	#include <android-base/result.h>
	#include <gtest/gtest.h>
	#include <src/libfuzzer/libfuzzer_macro.h>
	#include <storage_literals/storage_literals.h>

	#include "fuzz_utils.h"
	#include "snapshot_fuzz_utils.h"

	using android::base::Error;
	using android::base::GetBoolProperty;
	using android::base::LogId;
	using android::base::LogSeverity;
	using android::base::ReadFileToString;
	using android::base::Result;
	using android::base::SetLogger;
	using android::base::StderrLogger;
	using android::base::StdioLogger;
	using android::fs_mgr::CreateLogicalPartitionParams;
	using android::fuzz::CheckedCast;
	using android::snapshot::SnapshotFuzzData;
	using android::snapshot::SnapshotFuzzEnv;
	using chromeos_update_engine::DeltaArchiveManifest;
	using google::protobuf::FieldDescriptor;
	using google::protobuf::Message;
	using google::protobuf::RepeatedPtrField;

	// Avoid linking to libgsi since it needs disk I/O.
	namespace android::gsi {
	bool IsGsiRunning() {
	LOG(FATAL) << "Called IsGsiRunning";
	__builtin_unreachable();
	}
	std::string GetDsuSlot(const std::string& install_dir) {
	LOG(FATAL) << "Called GetDsuSlot(" << install_dir << ")";
	__builtin_unreachable();
	}
	} // namespace android::gsi

	namespace android::snapshot {

	const SnapshotFuzzData* current_data = nullptr;
	const SnapshotTestModule* current_module = nullptr;

	SnapshotFuzzEnv* GetSnapshotFuzzEnv();

	FUZZ_CLASS(ISnapshotManager, SnapshotManagerAction);

	using ProcessUpdateStateArgs = SnapshotManagerAction::Proto::ProcessUpdateStateArgs;
	using CreateLogicalAndSnapshotPartitionsArgs =
	SnapshotManagerAction::Proto::CreateLogicalAndSnapshotPartitionsArgs;
	using RecoveryCreateSnapshotDevicesArgs =
	SnapshotManagerAction::Proto::RecoveryCreateSnapshotDevicesArgs;

	FUZZ_SIMPLE_FUNCTION(SnapshotManagerAction, BeginUpdate);
	FUZZ_SIMPLE_FUNCTION(SnapshotManagerAction, CancelUpdate);
	FUZZ_SIMPLE_FUNCTION(SnapshotManagerAction, InitiateMerge);
	FUZZ_SIMPLE_FUNCTION(SnapshotManagerAction, NeedSnapshotsInFirstStageMount);
	FUZZ_SIMPLE_FUNCTION(SnapshotManagerAction, RecoveryCreateSnapshotDevices);
	FUZZ_SIMPLE_FUNCTION(SnapshotManagerAction, EnsureMetadataMounted);
	FUZZ_SIMPLE_FUNCTION(SnapshotManagerAction, GetSnapshotMergeStatsInstance);

	#define SNAPSHOT_FUZZ_FUNCTION(FunctionName, ReturnType, ...) \
	FUZZ_FUNCTION(SnapshotManagerAction, FunctionName, ReturnType, ISnapshotManager* snapshot, \
	##__VA_ARGS__)

	SNAPSHOT_FUZZ_FUNCTION(FinishedSnapshotWrites, bool, bool wipe) {
	return snapshot->FinishedSnapshotWrites(wipe);
	}

	SNAPSHOT_FUZZ_FUNCTION(ProcessUpdateState, bool, const ProcessUpdateStateArgs& args) {
	std::function<bool()> before_cancel;
	if (args.has_before_cancel()) {
	before_cancel = [&]() { return args.fail_before_cancel(); };
	}
	return snapshot->ProcessUpdateState({}, before_cancel);
	}

	SNAPSHOT_FUZZ_FUNCTION(GetUpdateState, UpdateState, bool has_progress_arg) {
	double progress;
	return snapshot->GetUpdateState(has_progress_arg ? &progress : nullptr);
	}

	SNAPSHOT_FUZZ_FUNCTION(HandleImminentDataWipe, bool, bool has_callback) {
	std::function<void()> callback;
	if (has_callback) {
	callback = []() {};
	}
	return snapshot->HandleImminentDataWipe(callback);
	}

	SNAPSHOT_FUZZ_FUNCTION(Dump, bool) {
	std::stringstream ss;
	return snapshot->Dump(ss);
	}

	SNAPSHOT_FUZZ_FUNCTION(CreateUpdateSnapshots, bool, const DeltaArchiveManifest& manifest) {
	return snapshot->CreateUpdateSnapshots(manifest);
	}

	SNAPSHOT_FUZZ_FUNCTION(UnmapUpdateSnapshot, bool, const std::string& name) {
	return snapshot->UnmapUpdateSnapshot(name);
	}

	SNAPSHOT_FUZZ_FUNCTION(CreateLogicalAndSnapshotPartitions, bool,
	const CreateLogicalAndSnapshotPartitionsArgs& args) {
	const std::string* super;
	if (args.use_correct_super()) {
	super = &GetSnapshotFuzzEnv()->super();
	} else {
	super = &args.super();
	}
	return snapshot->CreateLogicalAndSnapshotPartitions(
	*super, std::chrono::milliseconds(args.timeout_millis()));
	}

	SNAPSHOT_FUZZ_FUNCTION(RecoveryCreateSnapshotDevicesWithMetadata, CreateResult,
	const RecoveryCreateSnapshotDevicesArgs& args) {
	std::unique_ptr<AutoDevice> device;
	if (args.has_metadata_device_object()) {
	device = std::make_unique<NoOpAutoDevice>(args.metadata_mounted());
	}
	return snapshot->RecoveryCreateSnapshotDevices(device);
	}

	SNAPSHOT_FUZZ_FUNCTION(MapUpdateSnapshot, bool,
	const CreateLogicalPartitionParamsProto& params_proto) {
	auto partition_opener = std::make_unique<TestPartitionOpener>(GetSnapshotFuzzEnv()->super());
	CreateLogicalPartitionParams params;
	if (params_proto.use_correct_super()) {
	params.block_device = GetSnapshotFuzzEnv()->super();
	} else {
	params.block_device = params_proto.block_device();
	}
	if (params_proto.has_metadata_slot()) {
	params.metadata_slot = params_proto.metadata_slot();
	}
	params.partition_name = params_proto.partition_name();
	params.force_writable = params_proto.force_writable();
	params.timeout_ms = std::chrono::milliseconds(params_proto.timeout_millis());
	params.device_name = params_proto.device_name();
	params.partition_opener = partition_opener.get();
	std::string path;
	return snapshot->MapUpdateSnapshot(params, &path);
	}

	SNAPSHOT_FUZZ_FUNCTION(SwitchSlot, void) {
	(void)snapshot;
	CHECK(current_module != nullptr);
	CHECK(current_module->device_info != nullptr);
	current_module->device_info->SwitchSlot();
	}

	// During global init, log all messages to stdio. This is only done once.
	int AllowLoggingDuringGlobalInit() {
	SetLogger(&StdioLogger);
	return 0;
	}

	// Only log fatal messages during tests.
	void FatalOnlyLogger(LogId logid, LogSeverity severity, const char* tag, const char* file,
	unsigned int line, const char* message) {
	if (severity == LogSeverity::FATAL) {
	StderrLogger(logid, severity, tag, file, line, message);

	// If test fails by a LOG(FATAL) or CHECK(), log the corpus. If it abort()'s, there's
	// nothing else we can do.
	StderrLogger(logid, severity, tag, __FILE__, __LINE__,
	"Attempting to dump current corpus:");
	if (current_data == nullptr) {
	StderrLogger(logid, severity, tag, __FILE__, __LINE__, "Current corpus is nullptr.");
	} else {
	std::string content;
	if (!google::protobuf::TextFormat::PrintToString(*current_data, &content)) {
	StderrLogger(logid, severity, tag, __FILE__, __LINE__,
	"Failed to print corpus to string.");
	} else {
	StderrLogger(logid, severity, tag, __FILE__, __LINE__, content.c_str());
	}
	}
	}
	}
	// Stop logging (except fatal messages) after global initialization. This is only done once.
	int StopLoggingAfterGlobalInit() {
	(void)GetSnapshotFuzzEnv();
	[[maybe_unused]] static protobuf_mutator::protobuf::LogSilencer log_silencer;
	SetLogger(&FatalOnlyLogger);
	return 0;
	}

	SnapshotFuzzEnv* GetSnapshotFuzzEnv() {
	[[maybe_unused]] static auto allow_logging = AllowLoggingDuringGlobalInit();
	static SnapshotFuzzEnv env;
	return &env;
	}

	SnapshotTestModule SetUpTest(const SnapshotFuzzData& snapshot_fuzz_data) {
	current_data = &snapshot_fuzz_data;

	auto env = GetSnapshotFuzzEnv();
	env->CheckSoftReset();

	auto test_module = env->CheckCreateSnapshotManager(snapshot_fuzz_data);
	current_module = &test_module;
	CHECK(test_module.snapshot);
	return test_module;
	}

	void TearDownTest() {
	current_module = nullptr;
	current_data = nullptr;
	}

	} // namespace android::snapshot

	DEFINE_PROTO_FUZZER(const SnapshotFuzzData& snapshot_fuzz_data) {
	using namespace android::snapshot;

	[[maybe_unused]] static auto stop_logging = StopLoggingAfterGlobalInit();
	auto test_module = SetUpTest(snapshot_fuzz_data);
	SnapshotManagerAction::ExecuteAll(test_module.snapshot.get(), snapshot_fuzz_data.actions());
	TearDownTest();
	}

	namespace android::snapshot {

	// Work-around to cast a 'void' value to Result<void>.
	template <typename T>
	struct GoodResult {
	template <typename F>
	static Result<T> Cast(F&& f) {
	return f();
	}
	};

	template <>
	struct GoodResult<void> {
	template <typename F>
	static Result<void> Cast(F&& f) {
	f();
	return {};
	}
	};

	class LibsnapshotFuzzerTest : public ::testing::Test {
	protected:
	static void SetUpTestCase() {
	// Do initialization once.
	(void)GetSnapshotFuzzEnv();
	}
	void SetUp() override {
	bool is_virtual_ab = GetBoolProperty("ro.virtual_ab.enabled", false);
	if (!is_virtual_ab) GTEST_SKIP() << "Test only runs on Virtual A/B devices.";
	}
	void SetUpFuzzData(const std::string& fn) {
	auto path = android::base::GetExecutableDirectory() + "/corpus/"s + fn;
	std::string proto_text;
	ASSERT_TRUE(ReadFileToString(path, &proto_text));
	snapshot_fuzz_data_ = std::make_unique<SnapshotFuzzData>();
	ASSERT_TRUE(google::protobuf::TextFormat::ParseFromString(proto_text,
	snapshot_fuzz_data_.get()));
	test_module_ = android::snapshot::SetUpTest(*snapshot_fuzz_data_);
	}
	void TearDown() override { android::snapshot::TearDownTest(); }
	template <typename FuzzFunction>
	Result<typename FuzzFunction::ReturnType> Execute(int action_index) {
	if (action_index >= snapshot_fuzz_data_->actions_size()) {
	return Error() << "Index " << action_index << " is out of bounds ("
	<< snapshot_fuzz_data_->actions_size() << " actions in corpus";
	}
	const auto& action_proto = snapshot_fuzz_data_->actions(action_index);
	const auto* field_desc =
	android::fuzz::GetValueFieldDescriptor<typename FuzzFunction::ActionType>(
	action_proto);
	if (field_desc == nullptr) {
	return Error() << "Action at index " << action_index << " has no value defined.";
	}
	if (FuzzFunction::tag != field_desc->number()) {
	return Error() << "Action at index " << action_index << " is expected to be "
	<< FuzzFunction::name << ", but it is " << field_desc->name()
	<< " in corpus.";
	}
	return GoodResult<typename FuzzFunction::ReturnType>::Cast([&]() {
	return android::fuzz::ActionPerformer<FuzzFunction>::Invoke(test_module_.snapshot.get(),
	action_proto, field_desc);
	});
	}

	std::unique_ptr<SnapshotFuzzData> snapshot_fuzz_data_;
	SnapshotTestModule test_module_;
	};

	#define SNAPSHOT_FUZZ_FN_NAME(name) FUZZ_FUNCTION_CLASS_NAME(SnapshotManagerAction, name)

	MATCHER_P(ResultIs, expected, "") {
	if (!arg.ok()) {
	*result_listener << arg.error();
	return false;
	}
	*result_listener << "expected: " << expected;
	return arg.value() == expected;
	}

	#define ASSERT_RESULT_TRUE(actual) ASSERT_THAT(actual, ResultIs(true))

	// Check that launch_device.txt is executed correctly.
	TEST_F(LibsnapshotFuzzerTest, LaunchDevice) {
	SetUpFuzzData("launch_device.txt");

	int i = 0;
	ASSERT_RESULT_TRUE(Execute<SNAPSHOT_FUZZ_FN_NAME(BeginUpdate)>(i++));
	ASSERT_RESULT_TRUE(Execute<SNAPSHOT_FUZZ_FN_NAME(CreateUpdateSnapshots)>(i++));
	ASSERT_RESULT_TRUE(Execute<SNAPSHOT_FUZZ_FN_NAME(MapUpdateSnapshot)>(i++)) << "sys_b";
	ASSERT_RESULT_TRUE(Execute<SNAPSHOT_FUZZ_FN_NAME(MapUpdateSnapshot)>(i++)) << "vnd_b";
	ASSERT_RESULT_TRUE(Execute<SNAPSHOT_FUZZ_FN_NAME(MapUpdateSnapshot)>(i++)) << "prd_b";
	ASSERT_RESULT_TRUE(Execute<SNAPSHOT_FUZZ_FN_NAME(FinishedSnapshotWrites)>(i++));
	ASSERT_RESULT_TRUE(Execute<SNAPSHOT_FUZZ_FN_NAME(UnmapUpdateSnapshot)>(i++)) << "sys_b";
	ASSERT_RESULT_TRUE(Execute<SNAPSHOT_FUZZ_FN_NAME(UnmapUpdateSnapshot)>(i++)) << "vnd_b";
	ASSERT_RESULT_TRUE(Execute<SNAPSHOT_FUZZ_FN_NAME(UnmapUpdateSnapshot)>(i++)) << "prd_b";
	ASSERT_RESULT_OK(Execute<SNAPSHOT_FUZZ_FN_NAME(SwitchSlot)>(i++));
	ASSERT_EQ("_b", test_module_.device_info->GetSlotSuffix());
	ASSERT_RESULT_TRUE(Execute<SNAPSHOT_FUZZ_FN_NAME(NeedSnapshotsInFirstStageMount)>(i++));
	ASSERT_RESULT_TRUE(Execute<SNAPSHOT_FUZZ_FN_NAME(CreateLogicalAndSnapshotPartitions)>(i++));
	ASSERT_RESULT_TRUE(Execute<SNAPSHOT_FUZZ_FN_NAME(InitiateMerge)>(i++));
	ASSERT_RESULT_TRUE(Execute<SNAPSHOT_FUZZ_FN_NAME(ProcessUpdateState)>(i++));
	ASSERT_EQ(i, snapshot_fuzz_data_->actions_size()) << "Not all actions are executed.";
	}

	} // namespace android::snapshot