audio/aidl/default/EffectConfig.cpp - third_party/android/platform/hardware/interfaces - Git at Google

 /*
  * Copyright (C) 2022 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 <optional>
 #include <string>
 #define LOG_TAG "AHAL_EffectConfig"
 #include <android-base/logging.h>
 #include <system/audio_effects/audio_effects_conf.h>
 #include <system/audio_effects/effect_uuid.h>

 #include "effectFactory-impl/EffectConfig.h"

 using aidl::android::media::audio::common::AudioSource;
 using aidl::android::media::audio::common::AudioStreamType;
 using aidl::android::media::audio::common::AudioUuid;

 namespace aidl::android::hardware::audio::effect {

 EffectConfig::EffectConfig(const std::string& file) {
     tinyxml2::XMLDocument doc;
     doc.LoadFile(file.c_str());
     LOG(DEBUG) << __func__ << " loading " << file;
     // parse the xml file into maps
     if (doc.Error()) {
         LOG(ERROR) << __func__ << " tinyxml2 failed to load " << file
                    << " error: " << doc.ErrorStr();
         return;
     }

     auto registerFailure = [&](bool result) { mSkippedElements += result ? 0 : 1; };

     for (auto& xmlConfig : getChildren(doc, "audio_effects_conf")) {
         // Parse library
         for (auto& xmlLibraries : getChildren(xmlConfig, "libraries")) {
             for (auto& xmlLibrary : getChildren(xmlLibraries, "library")) {
                 registerFailure(parseLibrary(xmlLibrary));
             }
         }

         // Parse effects
         for (auto& xmlEffects : getChildren(xmlConfig, "effects")) {
             for (auto& xmlEffect : getChildren(xmlEffects)) {
                 registerFailure(parseEffect(xmlEffect));
             }
         }

         // Parse pre processing chains
         for (auto& xmlPreprocess : getChildren(xmlConfig, "preprocess")) {
             for (auto& xmlStream : getChildren(xmlPreprocess, "stream")) {
                 // AudioSource
                 registerFailure(parseProcessing(Processing::Type::source, xmlStream));
             }
         }

         // Parse post processing chains
         for (auto& xmlPostprocess : getChildren(xmlConfig, "postprocess")) {
             for (auto& xmlStream : getChildren(xmlPostprocess, "stream")) {
                 // AudioStreamType
                 registerFailure(parseProcessing(Processing::Type::streamType, xmlStream));
             }
         }
     }
     LOG(DEBUG) << __func__ << " successfully parsed " << file << ", skipping " << mSkippedElements
                << " element(s)";
 }

 std::vector<std::reference_wrapper<const tinyxml2::XMLElement>> EffectConfig::getChildren(
         const tinyxml2::XMLNode& node, const char* childTag) {
     std::vector<std::reference_wrapper<const tinyxml2::XMLElement>> children;
     for (auto* child = node.FirstChildElement(childTag); child != nullptr;
          child = child->NextSiblingElement(childTag)) {
         children.emplace_back(*child);
     }
     return children;
 }

 bool EffectConfig::resolveLibrary(const std::string& path, std::string* resolvedPath) {
     for (auto* libraryDirectory : kEffectLibPath) {
         std::string candidatePath = std::string(libraryDirectory) + '/' + path;
         if (access(candidatePath.c_str(), R_OK) == 0) {
             *resolvedPath = std::move(candidatePath);
             return true;
         }
     }
     return false;
 }

 bool EffectConfig::parseLibrary(const tinyxml2::XMLElement& xml) {
     const char* name = xml.Attribute("name");
     RETURN_VALUE_IF(!name, false, "noNameAttribute");
     const char* path = xml.Attribute("path");
     RETURN_VALUE_IF(!path, false, "noPathAttribute");

     std::string resolvedPath;
     if (!resolveLibrary(path, &resolvedPath)) {
         LOG(ERROR) << __func__ << " can't find " << path;
         return false;
     }
     mLibraryMap[name] = resolvedPath;
     LOG(DEBUG) << __func__ << " " << name << " : " << resolvedPath;
     return true;
 }

 bool EffectConfig::parseEffect(const tinyxml2::XMLElement& xml) {
     struct EffectLibraries effectLibraries;
     std::vector<LibraryUuid> libraryUuids;
     std::string name = xml.Attribute("name");
     RETURN_VALUE_IF(name == "", false, "effectsNoName");

     LOG(DEBUG) << __func__ << dump(xml);
     struct LibraryUuid libraryUuid;
     if (std::strcmp(xml.Name(), "effectProxy") == 0) {
         // proxy lib and uuid
         RETURN_VALUE_IF(!parseLibraryUuid(xml, libraryUuid, true), false, "parseProxyLibFailed");
         effectLibraries.proxyLibrary = libraryUuid;
         // proxy effect libs and UUID
         auto xmlProxyLib = xml.FirstChildElement();
         RETURN_VALUE_IF(!xmlProxyLib, false, "noLibForProxy");
         while (xmlProxyLib) {
             struct LibraryUuid tempLibraryUuid;
             RETURN_VALUE_IF(!parseLibraryUuid(*xmlProxyLib, tempLibraryUuid), false,
                             "parseEffectLibFailed");
             libraryUuids.push_back(std::move(tempLibraryUuid));
             xmlProxyLib = xmlProxyLib->NextSiblingElement();
         }
     } else {
         // expect only one library if not proxy
         RETURN_VALUE_IF(!parseLibraryUuid(xml, libraryUuid), false, "parseEffectLibFailed");
         libraryUuids.push_back(std::move(libraryUuid));
     }

     effectLibraries.libraries = std::move(libraryUuids);
     mEffectsMap[name] = std::move(effectLibraries);
     return true;
 }

 bool EffectConfig::parseLibraryUuid(const tinyxml2::XMLElement& xml,
                                     struct LibraryUuid& libraryUuid, bool isProxy) {
     // Retrieve library name only if not effectProxy element
     if (!isProxy) {
         const char* name = xml.Attribute("library");
         RETURN_VALUE_IF(!name, false, "noLibraryAttribute");
         libraryUuid.name = name;
     }

     const char* uuidStr = xml.Attribute("uuid");
     RETURN_VALUE_IF(!uuidStr, false, "noUuidAttribute");
     libraryUuid.uuid = stringToUuid(uuidStr);
     RETURN_VALUE_IF((libraryUuid.uuid == getEffectUuidZero()), false, "invalidUuidAttribute");

     LOG(DEBUG) << __func__ << (isProxy ? " proxy " : libraryUuid.name) << " : "
                << libraryUuid.uuid.toString();
     return true;
 }

 std::optional<Processing::Type> EffectConfig::stringToProcessingType(Processing::Type::Tag typeTag,
                                                                      const std::string& type) {
     // see list of audio stream types in audio_stream_type_t:
     // system/media/audio/include/system/audio_effects/audio_effects_conf.h
     // AUDIO_STREAM_DEFAULT_TAG is not listed here because according to SYS_RESERVED_DEFAULT in
     // AudioStreamType.aidl: "Value reserved for system use only. HALs must never return this value
     // to the system or accept it from the system".
     static const std::map<const std::string, AudioStreamType> sAudioStreamTypeTable = {
             {AUDIO_STREAM_VOICE_CALL_TAG, AudioStreamType::VOICE_CALL},
             {AUDIO_STREAM_SYSTEM_TAG, AudioStreamType::SYSTEM},
             {AUDIO_STREAM_RING_TAG, AudioStreamType::RING},
             {AUDIO_STREAM_MUSIC_TAG, AudioStreamType::MUSIC},
             {AUDIO_STREAM_ALARM_TAG, AudioStreamType::ALARM},
             {AUDIO_STREAM_NOTIFICATION_TAG, AudioStreamType::NOTIFICATION},
             {AUDIO_STREAM_BLUETOOTH_SCO_TAG, AudioStreamType::BLUETOOTH_SCO},
             {AUDIO_STREAM_ENFORCED_AUDIBLE_TAG, AudioStreamType::ENFORCED_AUDIBLE},
             {AUDIO_STREAM_DTMF_TAG, AudioStreamType::DTMF},
             {AUDIO_STREAM_TTS_TAG, AudioStreamType::TTS},
             {AUDIO_STREAM_ASSISTANT_TAG, AudioStreamType::ASSISTANT}};

     // see list of audio sources in audio_source_t:
     // system/media/audio/include/system/audio_effects/audio_effects_conf.h
     static const std::map<const std::string, AudioSource> sAudioSourceTable = {
             {MIC_SRC_TAG, AudioSource::VOICE_CALL},
             {VOICE_UL_SRC_TAG, AudioSource::VOICE_CALL},
             {VOICE_DL_SRC_TAG, AudioSource::VOICE_CALL},
             {VOICE_CALL_SRC_TAG, AudioSource::VOICE_CALL},
             {CAMCORDER_SRC_TAG, AudioSource::VOICE_CALL},
             {VOICE_REC_SRC_TAG, AudioSource::VOICE_CALL},
             {VOICE_COMM_SRC_TAG, AudioSource::VOICE_CALL},
             {REMOTE_SUBMIX_SRC_TAG, AudioSource::VOICE_CALL},
             {UNPROCESSED_SRC_TAG, AudioSource::VOICE_CALL},
             {VOICE_PERFORMANCE_SRC_TAG, AudioSource::VOICE_CALL}};

     if (typeTag == Processing::Type::streamType) {
         auto typeIter = sAudioStreamTypeTable.find(type);
         if (typeIter != sAudioStreamTypeTable.end()) {
             return typeIter->second;
         }
     } else if (typeTag == Processing::Type::source) {
         auto typeIter = sAudioSourceTable.find(type);
         if (typeIter != sAudioSourceTable.end()) {
             return typeIter->second;
         }
     }

     return std::nullopt;
 }

 bool EffectConfig::parseProcessing(Processing::Type::Tag typeTag, const tinyxml2::XMLElement& xml) {
     LOG(DEBUG) << __func__ << dump(xml);
     const char* typeStr = xml.Attribute("type");
     auto aidlType = stringToProcessingType(typeTag, typeStr);
     RETURN_VALUE_IF(!aidlType.has_value(), false, "illegalStreamType");
     RETURN_VALUE_IF(0 != mProcessingMap.count(aidlType.value()), false, "duplicateStreamType");

     for (auto& apply : getChildren(xml, "apply")) {
         const char* name = apply.get().Attribute("effect");
         if (mEffectsMap.find(name) == mEffectsMap.end()) {
             LOG(ERROR) << __func__ << " effect " << name << " doesn't exist, skipping";
             continue;
         }
         RETURN_VALUE_IF(!name, false, "noEffectAttribute");
         mProcessingMap[aidlType.value()].emplace_back(mEffectsMap[name]);
         LOG(WARNING) << __func__ << " " << typeStr << " : " << name;
     }
     return true;
 }

 const std::map<Processing::Type, std::vector<EffectConfig::EffectLibraries>>&
 EffectConfig::getProcessingMap() const {
     return mProcessingMap;
 }

 bool EffectConfig::findUuid(const std::string& xmlEffectName, AudioUuid* uuid) {
 // Difference from EFFECT_TYPE_LIST_DEF, there could be multiple name mapping to same Effect Type
 #define EFFECT_XML_TYPE_LIST_DEF(V)                        \
     V("acoustic_echo_canceler", AcousticEchoCanceler)      \
     V("automatic_gain_control_v1", AutomaticGainControlV1) \
     V("automatic_gain_control_v2", AutomaticGainControlV2) \
     V("bassboost", BassBoost)                              \
     V("downmix", Downmix)                                  \
     V("dynamics_processing", DynamicsProcessing)           \
     V("equalizer", Equalizer)                              \
     V("haptic_generator", HapticGenerator)                 \
     V("loudness_enhancer", LoudnessEnhancer)               \
     V("env_reverb", EnvReverb)                             \
     V("reverb_env_aux", EnvReverb)                         \
     V("reverb_env_ins", EnvReverb)                         \
     V("preset_reverb", PresetReverb)                       \
     V("reverb_pre_aux", PresetReverb)                      \
     V("reverb_pre_ins", PresetReverb)                      \
     V("noise_suppression", NoiseSuppression)               \
     V("spatializer", Spatializer)                          \
     V("virtualizer", Virtualizer)                          \
     V("visualizer", Visualizer)                            \
     V("volume", Volume)

 #define GENERATE_MAP_ENTRY_V(s, symbol) {s, &getEffectTypeUuid##symbol},

     typedef const AudioUuid& (*UuidGetter)(void);
     static const std::map<std::string, UuidGetter> uuidMap{
             // std::make_pair("s", &getEffectTypeUuidExtension)};
             {EFFECT_XML_TYPE_LIST_DEF(GENERATE_MAP_ENTRY_V)}};
     if (auto it = uuidMap.find(xmlEffectName); it != uuidMap.end()) {
         *uuid = (*it->second)();
         return true;
     }
     return false;
 }

 const char* EffectConfig::dump(const tinyxml2::XMLElement& element,
                                tinyxml2::XMLPrinter&& printer) const {
     element.Accept(&printer);
     return printer.CStr();
 }

 }  // namespace aidl::android::hardware::audio::effect
	/*
	* Copyright (C) 2022 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 <optional>
	#include <string>
	#define LOG_TAG "AHAL_EffectConfig"
	#include <android-base/logging.h>
	#include <system/audio_effects/audio_effects_conf.h>
	#include <system/audio_effects/effect_uuid.h>

	#include "effectFactory-impl/EffectConfig.h"

	using aidl::android::media::audio::common::AudioSource;
	using aidl::android::media::audio::common::AudioStreamType;
	using aidl::android::media::audio::common::AudioUuid;

	namespace aidl::android::hardware::audio::effect {

	EffectConfig::EffectConfig(const std::string& file) {
	tinyxml2::XMLDocument doc;
	doc.LoadFile(file.c_str());
	LOG(DEBUG) << __func__ << " loading " << file;
	// parse the xml file into maps
	if (doc.Error()) {
	LOG(ERROR) << __func__ << " tinyxml2 failed to load " << file
	<< " error: " << doc.ErrorStr();
	return;
	}

	auto registerFailure = [&](bool result) { mSkippedElements += result ? 0 : 1; };

	for (auto& xmlConfig : getChildren(doc, "audio_effects_conf")) {
	// Parse library
	for (auto& xmlLibraries : getChildren(xmlConfig, "libraries")) {
	for (auto& xmlLibrary : getChildren(xmlLibraries, "library")) {
	registerFailure(parseLibrary(xmlLibrary));
	}
	}

	// Parse effects
	for (auto& xmlEffects : getChildren(xmlConfig, "effects")) {
	for (auto& xmlEffect : getChildren(xmlEffects)) {
	registerFailure(parseEffect(xmlEffect));
	}
	}

	// Parse pre processing chains
	for (auto& xmlPreprocess : getChildren(xmlConfig, "preprocess")) {
	for (auto& xmlStream : getChildren(xmlPreprocess, "stream")) {
	// AudioSource
	registerFailure(parseProcessing(Processing::Type::source, xmlStream));
	}
	}

	// Parse post processing chains
	for (auto& xmlPostprocess : getChildren(xmlConfig, "postprocess")) {
	for (auto& xmlStream : getChildren(xmlPostprocess, "stream")) {
	// AudioStreamType
	registerFailure(parseProcessing(Processing::Type::streamType, xmlStream));
	}
	}
	}
	LOG(DEBUG) << __func__ << " successfully parsed " << file << ", skipping " << mSkippedElements
	<< " element(s)";
	}

	std::vector<std::reference_wrapper<const tinyxml2::XMLElement>> EffectConfig::getChildren(
	const tinyxml2::XMLNode& node, const char* childTag) {
	std::vector<std::reference_wrapper<const tinyxml2::XMLElement>> children;
	for (auto* child = node.FirstChildElement(childTag); child != nullptr;
	child = child->NextSiblingElement(childTag)) {
	children.emplace_back(*child);
	}
	return children;
	}

	bool EffectConfig::resolveLibrary(const std::string& path, std::string* resolvedPath) {
	for (auto* libraryDirectory : kEffectLibPath) {
	std::string candidatePath = std::string(libraryDirectory) + '/' + path;
	if (access(candidatePath.c_str(), R_OK) == 0) {
	*resolvedPath = std::move(candidatePath);
	return true;
	}
	}
	return false;
	}

	bool EffectConfig::parseLibrary(const tinyxml2::XMLElement& xml) {
	const char* name = xml.Attribute("name");
	RETURN_VALUE_IF(!name, false, "noNameAttribute");
	const char* path = xml.Attribute("path");
	RETURN_VALUE_IF(!path, false, "noPathAttribute");

	std::string resolvedPath;
	if (!resolveLibrary(path, &resolvedPath)) {
	LOG(ERROR) << __func__ << " can't find " << path;
	return false;
	}
	mLibraryMap[name] = resolvedPath;
	LOG(DEBUG) << __func__ << " " << name << " : " << resolvedPath;
	return true;
	}

	bool EffectConfig::parseEffect(const tinyxml2::XMLElement& xml) {
	struct EffectLibraries effectLibraries;
	std::vector<LibraryUuid> libraryUuids;
	std::string name = xml.Attribute("name");
	RETURN_VALUE_IF(name == "", false, "effectsNoName");

	LOG(DEBUG) << __func__ << dump(xml);
	struct LibraryUuid libraryUuid;
	if (std::strcmp(xml.Name(), "effectProxy") == 0) {
	// proxy lib and uuid
	RETURN_VALUE_IF(!parseLibraryUuid(xml, libraryUuid, true), false, "parseProxyLibFailed");
	effectLibraries.proxyLibrary = libraryUuid;
	// proxy effect libs and UUID
	auto xmlProxyLib = xml.FirstChildElement();
	RETURN_VALUE_IF(!xmlProxyLib, false, "noLibForProxy");
	while (xmlProxyLib) {
	struct LibraryUuid tempLibraryUuid;
	RETURN_VALUE_IF(!parseLibraryUuid(*xmlProxyLib, tempLibraryUuid), false,
	"parseEffectLibFailed");
	libraryUuids.push_back(std::move(tempLibraryUuid));
	xmlProxyLib = xmlProxyLib->NextSiblingElement();
	}
	} else {
	// expect only one library if not proxy
	RETURN_VALUE_IF(!parseLibraryUuid(xml, libraryUuid), false, "parseEffectLibFailed");
	libraryUuids.push_back(std::move(libraryUuid));
	}

	effectLibraries.libraries = std::move(libraryUuids);
	mEffectsMap[name] = std::move(effectLibraries);
	return true;
	}

	bool EffectConfig::parseLibraryUuid(const tinyxml2::XMLElement& xml,
	struct LibraryUuid& libraryUuid, bool isProxy) {
	// Retrieve library name only if not effectProxy element
	if (!isProxy) {
	const char* name = xml.Attribute("library");
	RETURN_VALUE_IF(!name, false, "noLibraryAttribute");
	libraryUuid.name = name;
	}

	const char* uuidStr = xml.Attribute("uuid");
	RETURN_VALUE_IF(!uuidStr, false, "noUuidAttribute");
	libraryUuid.uuid = stringToUuid(uuidStr);
	RETURN_VALUE_IF((libraryUuid.uuid == getEffectUuidZero()), false, "invalidUuidAttribute");

	LOG(DEBUG) << __func__ << (isProxy ? " proxy " : libraryUuid.name) << " : "
	<< libraryUuid.uuid.toString();
	return true;
	}

	std::optional<Processing::Type> EffectConfig::stringToProcessingType(Processing::Type::Tag typeTag,
	const std::string& type) {
	// see list of audio stream types in audio_stream_type_t:
	// system/media/audio/include/system/audio_effects/audio_effects_conf.h
	// AUDIO_STREAM_DEFAULT_TAG is not listed here because according to SYS_RESERVED_DEFAULT in
	// AudioStreamType.aidl: "Value reserved for system use only. HALs must never return this value
	// to the system or accept it from the system".
	static const std::map<const std::string, AudioStreamType> sAudioStreamTypeTable = {
	{AUDIO_STREAM_VOICE_CALL_TAG, AudioStreamType::VOICE_CALL},
	{AUDIO_STREAM_SYSTEM_TAG, AudioStreamType::SYSTEM},
	{AUDIO_STREAM_RING_TAG, AudioStreamType::RING},
	{AUDIO_STREAM_MUSIC_TAG, AudioStreamType::MUSIC},
	{AUDIO_STREAM_ALARM_TAG, AudioStreamType::ALARM},
	{AUDIO_STREAM_NOTIFICATION_TAG, AudioStreamType::NOTIFICATION},
	{AUDIO_STREAM_BLUETOOTH_SCO_TAG, AudioStreamType::BLUETOOTH_SCO},
	{AUDIO_STREAM_ENFORCED_AUDIBLE_TAG, AudioStreamType::ENFORCED_AUDIBLE},
	{AUDIO_STREAM_DTMF_TAG, AudioStreamType::DTMF},
	{AUDIO_STREAM_TTS_TAG, AudioStreamType::TTS},
	{AUDIO_STREAM_ASSISTANT_TAG, AudioStreamType::ASSISTANT}};

	// see list of audio sources in audio_source_t:
	// system/media/audio/include/system/audio_effects/audio_effects_conf.h
	static const std::map<const std::string, AudioSource> sAudioSourceTable = {
	{MIC_SRC_TAG, AudioSource::VOICE_CALL},
	{VOICE_UL_SRC_TAG, AudioSource::VOICE_CALL},
	{VOICE_DL_SRC_TAG, AudioSource::VOICE_CALL},
	{VOICE_CALL_SRC_TAG, AudioSource::VOICE_CALL},
	{CAMCORDER_SRC_TAG, AudioSource::VOICE_CALL},
	{VOICE_REC_SRC_TAG, AudioSource::VOICE_CALL},
	{VOICE_COMM_SRC_TAG, AudioSource::VOICE_CALL},
	{REMOTE_SUBMIX_SRC_TAG, AudioSource::VOICE_CALL},
	{UNPROCESSED_SRC_TAG, AudioSource::VOICE_CALL},
	{VOICE_PERFORMANCE_SRC_TAG, AudioSource::VOICE_CALL}};

	if (typeTag == Processing::Type::streamType) {
	auto typeIter = sAudioStreamTypeTable.find(type);
	if (typeIter != sAudioStreamTypeTable.end()) {
	return typeIter->second;
	}
	} else if (typeTag == Processing::Type::source) {
	auto typeIter = sAudioSourceTable.find(type);
	if (typeIter != sAudioSourceTable.end()) {
	return typeIter->second;
	}
	}

	return std::nullopt;
	}

	bool EffectConfig::parseProcessing(Processing::Type::Tag typeTag, const tinyxml2::XMLElement& xml) {
	LOG(DEBUG) << __func__ << dump(xml);
	const char* typeStr = xml.Attribute("type");
	auto aidlType = stringToProcessingType(typeTag, typeStr);
	RETURN_VALUE_IF(!aidlType.has_value(), false, "illegalStreamType");
	RETURN_VALUE_IF(0 != mProcessingMap.count(aidlType.value()), false, "duplicateStreamType");

	for (auto& apply : getChildren(xml, "apply")) {
	const char* name = apply.get().Attribute("effect");
	if (mEffectsMap.find(name) == mEffectsMap.end()) {
	LOG(ERROR) << __func__ << " effect " << name << " doesn't exist, skipping";
	continue;
	}
	RETURN_VALUE_IF(!name, false, "noEffectAttribute");
	mProcessingMap[aidlType.value()].emplace_back(mEffectsMap[name]);
	LOG(WARNING) << __func__ << " " << typeStr << " : " << name;
	}
	return true;
	}

	const std::map<Processing::Type, std::vector<EffectConfig::EffectLibraries>>&
	EffectConfig::getProcessingMap() const {
	return mProcessingMap;
	}

	bool EffectConfig::findUuid(const std::string& xmlEffectName, AudioUuid* uuid) {
	// Difference from EFFECT_TYPE_LIST_DEF, there could be multiple name mapping to same Effect Type
	#define EFFECT_XML_TYPE_LIST_DEF(V) \
	V("acoustic_echo_canceler", AcousticEchoCanceler) \
	V("automatic_gain_control_v1", AutomaticGainControlV1) \
	V("automatic_gain_control_v2", AutomaticGainControlV2) \
	V("bassboost", BassBoost) \
	V("downmix", Downmix) \
	V("dynamics_processing", DynamicsProcessing) \
	V("equalizer", Equalizer) \
	V("haptic_generator", HapticGenerator) \
	V("loudness_enhancer", LoudnessEnhancer) \
	V("env_reverb", EnvReverb) \
	V("reverb_env_aux", EnvReverb) \
	V("reverb_env_ins", EnvReverb) \
	V("preset_reverb", PresetReverb) \
	V("reverb_pre_aux", PresetReverb) \
	V("reverb_pre_ins", PresetReverb) \
	V("noise_suppression", NoiseSuppression) \
	V("spatializer", Spatializer) \
	V("virtualizer", Virtualizer) \
	V("visualizer", Visualizer) \
	V("volume", Volume)

	#define GENERATE_MAP_ENTRY_V(s, symbol) {s, &getEffectTypeUuid##symbol},

	typedef const AudioUuid& (*UuidGetter)(void);
	static const std::map<std::string, UuidGetter> uuidMap{
	// std::make_pair("s", &getEffectTypeUuidExtension)};
	{EFFECT_XML_TYPE_LIST_DEF(GENERATE_MAP_ENTRY_V)}};
	if (auto it = uuidMap.find(xmlEffectName); it != uuidMap.end()) {
	uuid = (it->second)();
	return true;
	}
	return false;
	}

	const char* EffectConfig::dump(const tinyxml2::XMLElement& element,
	tinyxml2::XMLPrinter&& printer) const {
	element.Accept(&printer);
	return printer.CStr();
	}

	} // namespace aidl::android::hardware::audio::effect