current/host-exports/include/art/libartbase/base/flags.h - platform/prebuilts/module_sdk/art - Gitiles

 /*
  * Copyright (C) 2021 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.
  */

 #ifndef ART_LIBARTBASE_BASE_FLAGS_H_
 #define ART_LIBARTBASE_BASE_FLAGS_H_

 #include <forward_list>
 #include <optional>
 #include <string>
 #include <variant>

 #include "logging.h"

 // This file defines a set of flags that can be used to enable/disable features within ART or
 // otherwise tune ART's behavior. Flags can be set through command line options, server side
 // configuration, system properties, or default values. This flexibility enables easier development
 // and also larger experiments.
 //
 // The value is retrieved in the following oder:
 //   1) server side (device config) property
 //   2) system property
 //   3) cmdline flag
 //   4) default value
 //
 // The flags are defined in the Flags struct near the bottom of the file. To define a new flag, add
 // a Flag field to the struct. Then to read the value of the flag, use gFlag.MyNewFlag().

 #pragma clang diagnostic push
 #pragma clang diagnostic error "-Wconversion"

 namespace art {

 // Enum representing the type of the ART flag.
 enum class FlagType {
   // A flag that only looks at the cmdline argument to retrieve its value.
   kCmdlineOnly,
   // A flag that also looks at system properties and device config
   // (phenotype properties) when retrieving its value.
   kDeviceConfig,
 };

 // FlagMetaBase handles automatically adding flags to the command line parser. It is parameterized
 // by all supported flag types. In general, this should be treated as though it does not exist and
 // FlagBase, which is already specialized to the types we support, should be used instead.
 template <typename... T>
 class FlagMetaBase {
  public:
   FlagMetaBase(const std::string&& command_line_argument_name,
                const std::string&& system_property_name,
                const std::string&& server_setting_name,
                FlagType type) :
       command_line_argument_name_(command_line_argument_name),
       system_property_name_(system_property_name),
       server_setting_name_(server_setting_name),
       type_(type) {}
   virtual ~FlagMetaBase() {}

   template <typename Builder>
   static void AddFlagsToCmdlineParser(Builder* builder) {
     for (auto* flag : ALL_FLAGS) {
       // Each flag can return a pointer to where its command line value is stored. Because these can
       // be different types, the return value comes as a variant. The cases list below contains a
       // lambda that is specialized to handle each branch of the variant and call the correct
       // methods on the command line parser builder.
       FlagValuePointer location = flag->GetCmdLineLocation();
       auto cases = {std::function<void()>([&]() {
         if (std::holds_alternative<std::optional<T>*>(location)) {
           builder = &builder->Define(flag->command_line_argument_name_.c_str())
                          .template WithType<T>()
                          .IntoLocation(std::get<std::optional<T>*>(location));
         }
       })...};
       for (auto c : cases) {
         c();
       }
     }
   }

   // Reload the value of the flags.
   //
   // DO NOT CALL this outside Runtime Init or Zygote post fork.
   // This is a convention, as we should strive to have a constant view
   // of the flags and not change the runtime behaviour midway during execution.
   static void ReloadAllFlags(const std::string& caller) {
     // Check the caller. This is a simple workaround to attract the attention
     // to a possible dangerous call to ReloadAllFlags, while avoid building
     // a lot of infra for it or having a complex friend definition.
     DCHECK(caller == "Init"
         || caller == "ZygoteHooks_nativePostForkChild"
         || caller == "ZygoteHooks_nativePostForkSystemServer"
         || caller == "test") << caller;
     for (auto* flag : ALL_FLAGS) {
       flag->Reload();
     }

     if (VLOG_IS_ON(startup)) {
       VLOG_STREAM(startup) << "Dumping flags for " << caller;
       DumpFlags(VLOG_STREAM(startup));
     }
   }

   // Dump all the flags info to the given stream.
   static void DumpFlags(std::ostream& oss) {
     for (auto* flag : ALL_FLAGS) {
       oss << "\n{\n";
       flag->Dump(oss);
       oss << "\n}";
     }
   }

  protected:
   using FlagValuePointer = std::variant<std::optional<T>*...>;
   // Return the pointer to the value holder associated with the cmd line location.
   virtual FlagValuePointer GetCmdLineLocation() = 0;
   // Reloads the flag values.
   virtual void Reload() = 0;
   // Dumps the flags info to the given stream.
   virtual void Dump(std::ostream& oss) const = 0;

   static std::forward_list<FlagMetaBase<T...>*> ALL_FLAGS;

   const std::string command_line_argument_name_;
   const std::string system_property_name_;
   const std::string server_setting_name_;
   FlagType type_;
 };

 using FlagBase = FlagMetaBase<bool, int32_t, uint32_t, std::string>;

 template <>
 std::forward_list<FlagBase*> FlagBase::ALL_FLAGS;

 class FlagsTests;

 // Describes the possible origins of a flag value.
 enum class FlagOrigin {
   kDefaultValue,
   kCmdlineArg,
   kSystemProperty,
   kServerSetting,
 };

 // This class defines a flag with a value of a particular type.
 template <typename Value>
 class Flag : public FlagBase {
  public:
   // Create a new Flag. The name parameter is used to generate the names from the various parameter
   // sources. See the documentation on the Flags struct for an example.
   Flag(const std::string& name, Value default_value, FlagType type);
   virtual ~Flag();


   // Returns the flag value.
   //
   // The value is retrieved in the following oder:
   //   1) server side (device config) property
   //   2) system property
   //   3) cmdline flag
   //   4) default value
   ALWAYS_INLINE Value GetValue() const {
     return std::get<0>(GetValueAndOrigin());
   }

   ALWAYS_INLINE Value operator()() const {
     return GetValue();
   }

   // Return the value of the flag as optional.
   //
   // Returns the value of the flag if and only if the flag is set via
   // a server side setting, system property or a cmdline arg.
   // Otherwise it returns nullopt (meaning this never returns the default value).
   //
   // This is useful for properties that do not have a good default natural value
   // (e.g. file path arguments).
   ALWAYS_INLINE std::optional<Value> GetValueOptional() const {
     std::pair<Value, FlagOrigin> result = GetValueAndOrigin();
     return std::get<1>(result) == FlagOrigin::kDefaultValue
       ? std::nullopt
       : std::make_optional(std::get<0>(result));
   }

   // Returns the value and the origin of that value for the given flag.
   ALWAYS_INLINE std::pair<Value, FlagOrigin> GetValueAndOrigin() const {
     DCHECK(initialized_);
     if (from_server_setting_.has_value()) {
       return std::pair{from_server_setting_.value(), FlagOrigin::kServerSetting};
     }
     if (from_system_property_.has_value()) {
       return std::pair{from_system_property_.value(), FlagOrigin::kSystemProperty};
     }
     if (from_command_line_.has_value()) {
       return std::pair{from_command_line_.value(), FlagOrigin::kCmdlineArg};
     }
     return std::pair{default_, FlagOrigin::kDefaultValue};
   }

   void Dump(std::ostream& oss) const override;

  protected:
   FlagValuePointer GetCmdLineLocation() override { return &from_command_line_; }


   // Reload the server-configured value and system property values. In general this should not be
   // used directly, but it can be used to support reloading the value without restarting the device.
   void Reload() override;

  private:
   bool initialized_;
   const Value default_;
   std::optional<Value> from_command_line_;
   std::optional<Value> from_system_property_;
   std::optional<Value> from_server_setting_;

   friend class TestFlag;
 };

 // This struct contains the list of ART flags. Flags are parameterized by the type of value they
 // support (bool, int, string, etc.). In addition to field name, flags have a name for the parameter
 // as well.
 //
 // Example:
 //
 //     Flag<int> WriteMetricsToLog{"my-feature-test.flag", 42, FlagType::kDeviceConfig};
 //
 // This creates an integer flag that can be read through gFlags.WriteMetricsToLog(). The default
 // value is 42. Note that the default value can be left unspecified, in which case the value of the
 // type's default constructor will be used.
 //
 // The flag can be set through the following generated means:
 //
 // Command Line:
 //
 //     -Xmy-feature-test-flag=1
 //
 // Server Side (Phenotype) Configuration:
 //
 //     persist.device_config.runtime_native.my-feature-test.flag
 //
 // System Property:
 //
 //     setprop dalvik.vm.metrics.my-feature-test.flag 2
 struct Flags {
   // Flag used to test the infra.
   // TODO: can be removed once we add real flags.
   Flag<int32_t> MyFeatureTestFlag{"my-feature-test.flag", 42, FlagType::kDeviceConfig};


   // Metric infra flags.

   // The reporting spec for regular apps. An example of valid value is "S,1,2,4,*".
   // See metrics::ReportingPeriodSpec for complete docs.
   Flag<std::string> MetricsReportingSpec{
       "metrics.reporting-spec", "1,5,30,60,600", FlagType::kDeviceConfig};

   // The reporting spec for the system server. See MetricsReportingSpec as well.
   Flag<std::string> MetricsReportingSpecSystemServer{
       "metrics.reporting-spec-server", "1,10,60,3600,*", FlagType::kDeviceConfig};

   // The mods that should report metrics. Together with MetricsReportingNumMods, they
   // dictate what percentage of the runtime execution will report metrics.
   // If the `session_id (a random number) % MetricsReportingNumMods < MetricsReportingMods`
   // then the runtime session will report metrics.
   //
   // By default, the mods are 2, which means that 2 out of #{reporting-num-mods} of Android sessions
   // will be reported (with the default values this is 2/100 = 2%).
   Flag<uint32_t> MetricsReportingMods{"metrics.reporting-mods", 2, FlagType::kDeviceConfig};
   Flag<uint32_t> MetricsReportingModsServer{
       "metrics.reporting-mods-server", 2, FlagType::kDeviceConfig};

   // See MetricsReportingMods docs.
   //
   // By default the number of mods is 100, so MetricsReportingMods will naturally
   // read as the percent of runtime sessions that will report metrics. If a finer
   // grain unit is needed (e.g. a tenth of a percent), the num-mods can be increased.
   Flag<uint32_t> MetricsReportingNumMods{"metrics.reporting-num-mods", 100,
       FlagType::kDeviceConfig};
   Flag<uint32_t> MetricsReportingNumModsServer{"metrics.reporting-num-mods-server", 100,
       FlagType::kDeviceConfig};

   // Whether or not we should write metrics to statsd.
   // Note that the actual write is still controlled by
   // MetricsReportingMods and MetricsReportingNumMods.
   Flag<bool> MetricsWriteToStatsd{"metrics.write-to-statsd", true, FlagType::kDeviceConfig};

   // Whether or not we should write metrics to logcat.
   // Note that the actual write is still controlled by
   // MetricsReportingMods and MetricsReportingNumMods.
   Flag<bool> MetricsWriteToLogcat{ "metrics.write-to-logcat", false, FlagType::kCmdlineOnly};

   // Whether or not we should write metrics to a file.
   // Note that the actual write is still controlled by
   // MetricsReportingMods and MetricsReportingNumMods.
   Flag<std::string> MetricsWriteToFile{"metrics.write-to-file", "", FlagType::kCmdlineOnly};

   // The output format for metrics. This is only used
   // when writing metrics to a file; metrics written
   // to logcat will be in human-readable text format.
   // Supported values are "text" and "xml".
   Flag<std::string> MetricsFormat{"metrics.format", "text", FlagType::kCmdlineOnly};
 };

 // This is the actual instance of all the flags.
 extern Flags gFlags;

 }  // namespace art

 #pragma clang diagnostic pop  // -Wconversion

 #endif  // ART_LIBARTBASE_BASE_FLAGS_H_
	/*
	* Copyright (C) 2021 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.
	*/

	#ifndef ART_LIBARTBASE_BASE_FLAGS_H_
	#define ART_LIBARTBASE_BASE_FLAGS_H_

	#include <forward_list>
	#include <optional>
	#include <string>
	#include <variant>

	#include "logging.h"

	// This file defines a set of flags that can be used to enable/disable features within ART or
	// otherwise tune ART's behavior. Flags can be set through command line options, server side
	// configuration, system properties, or default values. This flexibility enables easier development
	// and also larger experiments.
	//
	// The value is retrieved in the following oder:
	// 1) server side (device config) property
	// 2) system property
	// 3) cmdline flag
	// 4) default value
	//
	// The flags are defined in the Flags struct near the bottom of the file. To define a new flag, add
	// a Flag field to the struct. Then to read the value of the flag, use gFlag.MyNewFlag().

	#pragma clang diagnostic push
	#pragma clang diagnostic error "-Wconversion"

	namespace art {

	// Enum representing the type of the ART flag.
	enum class FlagType {
	// A flag that only looks at the cmdline argument to retrieve its value.
	kCmdlineOnly,
	// A flag that also looks at system properties and device config
	// (phenotype properties) when retrieving its value.
	kDeviceConfig,
	};

	// FlagMetaBase handles automatically adding flags to the command line parser. It is parameterized
	// by all supported flag types. In general, this should be treated as though it does not exist and
	// FlagBase, which is already specialized to the types we support, should be used instead.
	template <typename... T>
	class FlagMetaBase {
	public:
	FlagMetaBase(const std::string&& command_line_argument_name,
	const std::string&& system_property_name,
	const std::string&& server_setting_name,
	FlagType type) :
	command_line_argument_name_(command_line_argument_name),
	system_property_name_(system_property_name),
	server_setting_name_(server_setting_name),
	type_(type) {}
	virtual ~FlagMetaBase() {}

	template <typename Builder>
	static void AddFlagsToCmdlineParser(Builder* builder) {
	for (auto* flag : ALL_FLAGS) {
	// Each flag can return a pointer to where its command line value is stored. Because these can
	// be different types, the return value comes as a variant. The cases list below contains a
	// lambda that is specialized to handle each branch of the variant and call the correct
	// methods on the command line parser builder.
	FlagValuePointer location = flag->GetCmdLineLocation();
	auto cases = {std::function<void()>([&]() {
	if (std::holds_alternative<std::optional<T>*>(location)) {
	builder = &builder->Define(flag->command_line_argument_name_.c_str())
	.template WithType<T>()
	.IntoLocation(std::get<std::optional<T>*>(location));
	}
	})...};
	for (auto c : cases) {
	c();
	}
	}
	}

	// Reload the value of the flags.
	//
	// DO NOT CALL this outside Runtime Init or Zygote post fork.
	// This is a convention, as we should strive to have a constant view
	// of the flags and not change the runtime behaviour midway during execution.
	static void ReloadAllFlags(const std::string& caller) {
	// Check the caller. This is a simple workaround to attract the attention
	// to a possible dangerous call to ReloadAllFlags, while avoid building
	// a lot of infra for it or having a complex friend definition.
	DCHECK(caller == "Init"
	\|\| caller == "ZygoteHooks_nativePostForkChild"
	\|\| caller == "ZygoteHooks_nativePostForkSystemServer"
	\|\| caller == "test") << caller;
	for (auto* flag : ALL_FLAGS) {
	flag->Reload();
	}

	if (VLOG_IS_ON(startup)) {
	VLOG_STREAM(startup) << "Dumping flags for " << caller;
	DumpFlags(VLOG_STREAM(startup));
	}
	}

	// Dump all the flags info to the given stream.
	static void DumpFlags(std::ostream& oss) {
	for (auto* flag : ALL_FLAGS) {
	oss << "\n{\n";
	flag->Dump(oss);
	oss << "\n}";
	}
	}

	protected:
	using FlagValuePointer = std::variant<std::optional<T>*...>;
	// Return the pointer to the value holder associated with the cmd line location.
	virtual FlagValuePointer GetCmdLineLocation() = 0;
	// Reloads the flag values.
	virtual void Reload() = 0;
	// Dumps the flags info to the given stream.
	virtual void Dump(std::ostream& oss) const = 0;

	static std::forward_list<FlagMetaBase<T...>*> ALL_FLAGS;

	const std::string command_line_argument_name_;
	const std::string system_property_name_;
	const std::string server_setting_name_;
	FlagType type_;
	};

	using FlagBase = FlagMetaBase<bool, int32_t, uint32_t, std::string>;

	template <>
	std::forward_list<FlagBase*> FlagBase::ALL_FLAGS;

	class FlagsTests;

	// Describes the possible origins of a flag value.
	enum class FlagOrigin {
	kDefaultValue,
	kCmdlineArg,
	kSystemProperty,
	kServerSetting,
	};

	// This class defines a flag with a value of a particular type.
	template <typename Value>
	class Flag : public FlagBase {
	public:
	// Create a new Flag. The name parameter is used to generate the names from the various parameter
	// sources. See the documentation on the Flags struct for an example.
	Flag(const std::string& name, Value default_value, FlagType type);
	virtual ~Flag();


	// Returns the flag value.
	//
	// The value is retrieved in the following oder:
	// 1) server side (device config) property
	// 2) system property
	// 3) cmdline flag
	// 4) default value
	ALWAYS_INLINE Value GetValue() const {
	return std::get<0>(GetValueAndOrigin());
	}

	ALWAYS_INLINE Value operator()() const {
	return GetValue();
	}

	// Return the value of the flag as optional.
	//
	// Returns the value of the flag if and only if the flag is set via
	// a server side setting, system property or a cmdline arg.
	// Otherwise it returns nullopt (meaning this never returns the default value).
	//
	// This is useful for properties that do not have a good default natural value
	// (e.g. file path arguments).
	ALWAYS_INLINE std::optional<Value> GetValueOptional() const {
	std::pair<Value, FlagOrigin> result = GetValueAndOrigin();
	return std::get<1>(result) == FlagOrigin::kDefaultValue
	? std::nullopt
	: std::make_optional(std::get<0>(result));
	}

	// Returns the value and the origin of that value for the given flag.
	ALWAYS_INLINE std::pair<Value, FlagOrigin> GetValueAndOrigin() const {
	DCHECK(initialized_);
	if (from_server_setting_.has_value()) {
	return std::pair{from_server_setting_.value(), FlagOrigin::kServerSetting};
	}
	if (from_system_property_.has_value()) {
	return std::pair{from_system_property_.value(), FlagOrigin::kSystemProperty};
	}
	if (from_command_line_.has_value()) {
	return std::pair{from_command_line_.value(), FlagOrigin::kCmdlineArg};
	}
	return std::pair{default_, FlagOrigin::kDefaultValue};
	}

	void Dump(std::ostream& oss) const override;

	protected:
	FlagValuePointer GetCmdLineLocation() override { return &from_command_line_; }


	// Reload the server-configured value and system property values. In general this should not be
	// used directly, but it can be used to support reloading the value without restarting the device.
	void Reload() override;

	private:
	bool initialized_;
	const Value default_;
	std::optional<Value> from_command_line_;
	std::optional<Value> from_system_property_;
	std::optional<Value> from_server_setting_;

	friend class TestFlag;
	};

	// This struct contains the list of ART flags. Flags are parameterized by the type of value they
	// support (bool, int, string, etc.). In addition to field name, flags have a name for the parameter
	// as well.
	//
	// Example:
	//
	// Flag<int> WriteMetricsToLog{"my-feature-test.flag", 42, FlagType::kDeviceConfig};
	//
	// This creates an integer flag that can be read through gFlags.WriteMetricsToLog(). The default
	// value is 42. Note that the default value can be left unspecified, in which case the value of the
	// type's default constructor will be used.
	//
	// The flag can be set through the following generated means:
	//
	// Command Line:
	//
	// -Xmy-feature-test-flag=1
	//
	// Server Side (Phenotype) Configuration:
	//
	// persist.device_config.runtime_native.my-feature-test.flag
	//
	// System Property:
	//
	// setprop dalvik.vm.metrics.my-feature-test.flag 2
	struct Flags {
	// Flag used to test the infra.
	// TODO: can be removed once we add real flags.
	Flag<int32_t> MyFeatureTestFlag{"my-feature-test.flag", 42, FlagType::kDeviceConfig};


	// Metric infra flags.

	// The reporting spec for regular apps. An example of valid value is "S,1,2,4,*".
	// See metrics::ReportingPeriodSpec for complete docs.
	Flag<std::string> MetricsReportingSpec{
	"metrics.reporting-spec", "1,5,30,60,600", FlagType::kDeviceConfig};

	// The reporting spec for the system server. See MetricsReportingSpec as well.
	Flag<std::string> MetricsReportingSpecSystemServer{
	"metrics.reporting-spec-server", "1,10,60,3600,*", FlagType::kDeviceConfig};

	// The mods that should report metrics. Together with MetricsReportingNumMods, they
	// dictate what percentage of the runtime execution will report metrics.
	// If the `session_id (a random number) % MetricsReportingNumMods < MetricsReportingMods`
	// then the runtime session will report metrics.
	//
	// By default, the mods are 2, which means that 2 out of #{reporting-num-mods} of Android sessions
	// will be reported (with the default values this is 2/100 = 2%).
	Flag<uint32_t> MetricsReportingMods{"metrics.reporting-mods", 2, FlagType::kDeviceConfig};
	Flag<uint32_t> MetricsReportingModsServer{
	"metrics.reporting-mods-server", 2, FlagType::kDeviceConfig};

	// See MetricsReportingMods docs.
	//
	// By default the number of mods is 100, so MetricsReportingMods will naturally
	// read as the percent of runtime sessions that will report metrics. If a finer
	// grain unit is needed (e.g. a tenth of a percent), the num-mods can be increased.
	Flag<uint32_t> MetricsReportingNumMods{"metrics.reporting-num-mods", 100,
	FlagType::kDeviceConfig};
	Flag<uint32_t> MetricsReportingNumModsServer{"metrics.reporting-num-mods-server", 100,
	FlagType::kDeviceConfig};

	// Whether or not we should write metrics to statsd.
	// Note that the actual write is still controlled by
	// MetricsReportingMods and MetricsReportingNumMods.
	Flag<bool> MetricsWriteToStatsd{"metrics.write-to-statsd", true, FlagType::kDeviceConfig};

	// Whether or not we should write metrics to logcat.
	// Note that the actual write is still controlled by
	// MetricsReportingMods and MetricsReportingNumMods.
	Flag<bool> MetricsWriteToLogcat{ "metrics.write-to-logcat", false, FlagType::kCmdlineOnly};

	// Whether or not we should write metrics to a file.
	// Note that the actual write is still controlled by
	// MetricsReportingMods and MetricsReportingNumMods.
	Flag<std::string> MetricsWriteToFile{"metrics.write-to-file", "", FlagType::kCmdlineOnly};

	// The output format for metrics. This is only used
	// when writing metrics to a file; metrics written
	// to logcat will be in human-readable text format.
	// Supported values are "text" and "xml".
	Flag<std::string> MetricsFormat{"metrics.format", "text", FlagType::kCmdlineOnly};
	};

	// This is the actual instance of all the flags.
	extern Flags gFlags;

	} // namespace art

	#pragma clang diagnostic pop // -Wconversion

	#endif // ART_LIBARTBASE_BASE_FLAGS_H_