media/codec2/sfplugin/CCodecConfig.h - platform/frameworks/av - Git at Google

 /*
  * Copyright (C) 2018 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 C_CODEC_CONFIG_H_
 #define C_CODEC_CONFIG_H_

 #include <map>
 #include <memory>
 #include <set>
 #include <vector>

 #include <C2Component.h>
 #include <codec2/hidl/client.h>

 #include <utils/RefBase.h>

 #include "InputSurfaceWrapper.h"
 #include "ReflectedParamUpdater.h"

 namespace android {

 struct AMessage;
 struct StandardParams;

 /**
  * Struct managing the codec configuration for CCodec.
  */
 struct CCodecConfig {

     /**
      * Domain consists of a bitmask divided into fields, and specifiers work by excluding other
      * values in those domains.
      *
      * Component domains are composed by or-ing the individual IS_ constants, e.g.
      * IS_DECODER | IS_AUDIO.
      *
      * Config specifiers are composed by or-ing the individual mask constants, and
      * and-ing these groups: e.g. (DECODER | ENCODER) & AUDIO.
      *
      * The naming of these constants was to limit the length of mask names as these are used more
      * commonly as masks.
      */
     enum Domain : uint32_t {
         // component domain (domain & kind)
         GUARD_BIT   = (1 << 1),   ///< this is to prevent against accidental && or || usage
         IS_AUDIO    = (1 << 2),   ///< for audio codecs
         IS_VIDEO    = (1 << 3),   ///< for video codecs
         IS_IMAGE    = (1 << 4),   ///< for image codecs
         OTHER_DOMAIN = (1 << 5),  ///< for other domains

         IS_ENCODER  = (1 << 6),   ///< for encoders
         IS_DECODER  = (1 << 7),   ///< for decoders
         OTHER_KIND  = (1 << 8),   ///< for other domains

         // config domain
         IS_PARAM    = (1 << 9),   ///< for setParameter
         IS_CONFIG   = (1 << 10),  ///< for configure
         IS_READ     = (1 << 11),  ///< for getFormat

         // port domain
         IS_INPUT    = (1 << 12),  ///< for input port (getFormat)
         IS_OUTPUT   = (1 << 13),  ///< for output port (getFormat)
         IS_RAW      = (1 << 14),  ///< for raw port (input-encoder, output-decoder)
         IS_CODED    = (1 << 15),  ///< for coded port (input-decoder, output-encoder)

         ALL     = ~0U,
         NONE    = 0,

         AUDIO   = ~(IS_IMAGE | IS_VIDEO | OTHER_DOMAIN),
         VIDEO   = ~(IS_AUDIO | IS_IMAGE | OTHER_DOMAIN),
         IMAGE   = ~(IS_AUDIO | IS_VIDEO | OTHER_DOMAIN),

         DECODER = ~(IS_ENCODER | OTHER_KIND),
         ENCODER = ~(IS_DECODER | OTHER_KIND),

         PARAM   = ~(IS_CONFIG | IS_READ),
         CONFIG  = ~(IS_PARAM  | IS_READ),
         READ    = ~(IS_CONFIG | IS_PARAM),

         INPUT   = ~(IS_OUTPUT | IS_RAW    | IS_CODED),
         OUTPUT  = ~(IS_INPUT  | IS_RAW    | IS_CODED),
         RAW     = ~(IS_INPUT  | IS_OUTPUT | IS_CODED),
         CODED   = ~(IS_INPUT  | IS_RAW    | IS_OUTPUT),
     };

     // things required to manage formats
     std::vector<std::shared_ptr<C2ParamDescriptor>> mParamDescs;
     std::shared_ptr<C2ParamReflector> mReflector;

     std::shared_ptr<ReflectedParamUpdater> mParamUpdater;

     Domain mDomain; // component domain
     Domain mInputDomain; // input port domain
     Domain mOutputDomain; // output port domain
     std::string mCodingMediaType;  // media type of the coded stream

     // standard MediaCodec to Codec 2.0 params mapping
     std::shared_ptr<StandardParams> mStandardParams;

     std::set<C2Param::Index> mSupportedIndices; ///< indices supported by the component
     std::set<C2Param::Index> mSubscribedIndices; ///< indices to subscribe to
     size_t mSubscribedIndicesSize; ///< count of currently subscribed indices

     sp<AMessage> mInputFormat;
     sp<AMessage> mOutputFormat;

     bool mUsingSurface; ///< using input or output surface

     std::shared_ptr<InputSurfaceWrapper> mInputSurface;
     std::unique_ptr<InputSurfaceWrapper::Config> mISConfig;

     /// the current configuration. Updated after configure() and based on configUpdate in
     /// onWorkDone
     std::map<C2Param::Index, std::unique_ptr<C2Param>> mCurrentConfig;

     typedef std::function<c2_status_t(std::unique_ptr<C2Param>&)> LocalParamValidator;

     /// Parameter indices tracked in current config that are not supported by the component.
     /// these are provided so that optional parameters can remain in the current configuration.
     /// as such, these parameters have no dependencies. TODO: use C2InterfaceHelper for this.
     /// For now support a validation function.
     std::map<C2Param::Index, LocalParamValidator> mLocalParams;

     std::set<std::string> mLastConfig;

     CCodecConfig();

     /// initializes the members required to manage the format: descriptors, reflector,
     /// reflected param helper, domain, standard params, and subscribes to standard
     /// indices.
     status_t initialize(
             const std::shared_ptr<Codec2Client> &client,
             const std::shared_ptr<Codec2Client::Component> &component);


     /**
      * Adds a locally maintained parameter. This is used for output configuration that can be
      * appended to the output buffers in case it is not supported by the component.
      */
     template<typename T>
     bool addLocalParam(
             const std::string &name,
             C2ParamDescriptor::attrib_t attrib = C2ParamDescriptor::IS_READ_ONLY,
             std::function<c2_status_t(std::unique_ptr<T>&)> validator_ =
                 std::function<c2_status_t(std::unique_ptr<T>&)>()) {
         C2Param::Index index = T::PARAM_TYPE;
         if (mSupportedIndices.count(index) || mLocalParams.count(index)) {
             if (mSupportedIndices.count(index)) {
                 mSubscribedIndices.emplace(index);
             }
             ALOGD("ignoring local param %s (%#x) as it is already %s",
                     name.c_str(), (uint32_t)index, mSupportedIndices.count(index) ? "supported" : "local");
             return false; // already supported by the component or already added
         }

         // wrap typed validator into untyped validator
         LocalParamValidator validator;
         if (validator_) {
             validator = [validator_](std::unique_ptr<C2Param>& p){
                 c2_status_t res = C2_BAD_VALUE;
                 std::unique_ptr<T> typed(static_cast<T*>(p.release()));
                 // if parameter is correctly typed
                 if (T::From(typed.get())) {
                     res = validator_(typed);
                     p.reset(typed.release());
                 }
                 return res;
             };
         }

         mLocalParams.emplace(index, validator);
         mParamUpdater->addStandardParam<T>(name, attrib);
         return true;
     }

     /**
      * Adds a locally maintained parameter with a default value.
      */
     template<typename T>
     bool addLocalParam(
             std::unique_ptr<T> default_,
             const std::string &name,
             C2ParamDescriptor::attrib_t attrib = C2ParamDescriptor::IS_READ_ONLY,
             std::function<c2_status_t(std::unique_ptr<T>&)> validator_ =
                 std::function<c2_status_t(std::unique_ptr<T>&)>()) {
         if (addLocalParam<T>(name, attrib, validator_)) {
             if (validator_) {
                 c2_status_t err = validator_(default_);
                 if (err != C2_OK) {
                     ALOGD("default value for %s is invalid => %s", name.c_str(), asString(err));
                     return false;
                 }
             }
             mCurrentConfig[T::PARAM_TYPE] = std::move(default_);
             return true;
         }
         return false;
     }

     template<typename T>
     bool addLocalParam(
             T *default_, const std::string &name,
             C2ParamDescriptor::attrib_t attrib = C2ParamDescriptor::IS_READ_ONLY,
             std::function<c2_status_t(std::unique_ptr<T>&)> validator_ =
                 std::function<c2_status_t(std::unique_ptr<T>&)>()) {
         return addLocalParam(std::unique_ptr<T>(default_), name, attrib, validator_);
     }

     /// Applies configuration updates, and updates format in the specific domain.
     /// Returns true if formats were updated
     /// \param domain input/output bitmask
     bool updateConfiguration(
             std::vector<std::unique_ptr<C2Param>> &configUpdate, Domain domain);

     /// Updates formats in the specific domain. Returns true if any of the formats have changed.
     /// \param domain input/output bitmask
     bool updateFormats(Domain domain);

     /**
      * Applies SDK configurations in a specific configuration domain.
      * Updates relevant input/output formats and subscribes to parameters specified in the
      * configuration.
      * \param domain config/setParam bitmask
      * \param blocking blocking mode to use with the component
      */
     status_t getConfigUpdateFromSdkParams(
             std::shared_ptr<Codec2Client::Component> component,
             const sp<AMessage> &sdkParams, Domain domain,
             c2_blocking_t blocking,
             std::vector<std::unique_ptr<C2Param>> *configUpdate) const;

     /**
      * Applies a configuration update to the component.
      * Updates relevant input/output formats and subscribes to parameters specified in the
      * configuration.
      * \param blocking blocking mode to use with the component
      */
     status_t setParameters(
             std::shared_ptr<Codec2Client::Component> component,
             std::vector<std::unique_ptr<C2Param>> &configUpdate,
             c2_blocking_t blocking);

     /// Queries subscribed indices (which contains all SDK-exposed values) and updates
     /// input/output formats.
     status_t queryConfiguration(
             const std::shared_ptr<Codec2Client::Component> &component);

     /// Queries a configuration parameter value. Returns nullptr if the parameter is not
     /// part of the current configuration
     const C2Param *getConfigParameterValue(C2Param::Index index) const;

     /**
      * Object that can be used to access configuration parameters and if they change.
      */
     template<typename T>
     struct Watcher {
         ~Watcher() = default;

         /// returns true if the value of this configuration has changed
         bool hasChanged() const {
             const C2Param *value = mParent->getConfigParameterValue(mIndex);
             if (value && mValue) {
                 return *value != *mValue;
             } else {
                 return value != mValue.get();
             }
         }

         /// updates the current value and returns it
         std::shared_ptr<const T> update() {
             const C2Param *value = mParent->getConfigParameterValue(mIndex);
             if (value) {
                 mValue = std::shared_ptr<const T>(T::From(C2Param::Copy(*value).release()));
             }
             return mValue;
         }

     private:
         Watcher(C2Param::Index index, const CCodecConfig *parent)
             : mParent(parent), mIndex(index) {
             update();
         }

         friend struct CCodecConfig;

         const CCodecConfig *mParent;
         std::shared_ptr<const T> mValue;
         C2Param::Index mIndex;
     };

     /**
      * Returns a watcher object for a parameter.
      */
     template<typename T>
     Watcher<T> watch(C2Param::Index index = T::PARAM_TYPE) const {
         if (index.type() != T::PARAM_TYPE) {
             __builtin_trap();
         }
         return Watcher<T>(index, this);
     }

 private:

     /// initializes the standard MediaCodec to Codec 2.0 params mapping
     void initializeStandardParams();

     /// Adds indices to the subscribed indices, and updated subscription to component
     /// \param blocking blocking mode to use with the component
     status_t subscribeToConfigUpdate(
             const std::shared_ptr<Codec2Client::Component> &component,
             const std::vector<C2Param::Index> &indices,
             c2_blocking_t blocking = C2_DONT_BLOCK);

     /// Gets SDK format from codec 2.0 reflected configuration
     /// \param domain input/output bitmask
     sp<AMessage> getSdkFormatForDomain(
             const ReflectedParamUpdater::Dict &reflected, Domain domain) const;

     /**
      * Converts a set of configuration parameters in an AMessage to a list of path-based Codec
      * 2.0 configuration parameters.
      *
      * \param domain config/setParam bitmask
      */
     ReflectedParamUpdater::Dict getReflectedFormat(
             const sp<AMessage> &config, Domain domain) const;
 };

 DEFINE_ENUM_OPERATORS(CCodecConfig::Domain)

 }  // namespace android

 #endif  // C_CODEC_H_
	/*
	* Copyright (C) 2018 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 C_CODEC_CONFIG_H_
	#define C_CODEC_CONFIG_H_

	#include <map>
	#include <memory>
	#include <set>
	#include <vector>

	#include <C2Component.h>
	#include <codec2/hidl/client.h>

	#include <utils/RefBase.h>

	#include "InputSurfaceWrapper.h"
	#include "ReflectedParamUpdater.h"

	namespace android {

	struct AMessage;
	struct StandardParams;

	/**
	* Struct managing the codec configuration for CCodec.
	*/
	struct CCodecConfig {

	/**
	* Domain consists of a bitmask divided into fields, and specifiers work by excluding other
	* values in those domains.
	*
	* Component domains are composed by or-ing the individual IS_ constants, e.g.
	* IS_DECODER \| IS_AUDIO.
	*
	* Config specifiers are composed by or-ing the individual mask constants, and
	* and-ing these groups: e.g. (DECODER \| ENCODER) & AUDIO.
	*
	* The naming of these constants was to limit the length of mask names as these are used more
	* commonly as masks.
	*/
	enum Domain : uint32_t {
	// component domain (domain & kind)
	GUARD_BIT = (1 << 1), ///< this is to prevent against accidental && or \|\| usage
	IS_AUDIO = (1 << 2), ///< for audio codecs
	IS_VIDEO = (1 << 3), ///< for video codecs
	IS_IMAGE = (1 << 4), ///< for image codecs
	OTHER_DOMAIN = (1 << 5), ///< for other domains

	IS_ENCODER = (1 << 6), ///< for encoders
	IS_DECODER = (1 << 7), ///< for decoders
	OTHER_KIND = (1 << 8), ///< for other domains

	// config domain
	IS_PARAM = (1 << 9), ///< for setParameter
	IS_CONFIG = (1 << 10), ///< for configure
	IS_READ = (1 << 11), ///< for getFormat

	// port domain
	IS_INPUT = (1 << 12), ///< for input port (getFormat)
	IS_OUTPUT = (1 << 13), ///< for output port (getFormat)
	IS_RAW = (1 << 14), ///< for raw port (input-encoder, output-decoder)
	IS_CODED = (1 << 15), ///< for coded port (input-decoder, output-encoder)

	ALL = ~0U,
	NONE = 0,

	AUDIO = ~(IS_IMAGE \| IS_VIDEO \| OTHER_DOMAIN),
	VIDEO = ~(IS_AUDIO \| IS_IMAGE \| OTHER_DOMAIN),
	IMAGE = ~(IS_AUDIO \| IS_VIDEO \| OTHER_DOMAIN),

	DECODER = ~(IS_ENCODER \| OTHER_KIND),
	ENCODER = ~(IS_DECODER \| OTHER_KIND),

	PARAM = ~(IS_CONFIG \| IS_READ),
	CONFIG = ~(IS_PARAM \| IS_READ),
	READ = ~(IS_CONFIG \| IS_PARAM),

	INPUT = ~(IS_OUTPUT \| IS_RAW \| IS_CODED),
	OUTPUT = ~(IS_INPUT \| IS_RAW \| IS_CODED),
	RAW = ~(IS_INPUT \| IS_OUTPUT \| IS_CODED),
	CODED = ~(IS_INPUT \| IS_RAW \| IS_OUTPUT),
	};

	// things required to manage formats
	std::vector<std::shared_ptr<C2ParamDescriptor>> mParamDescs;
	std::shared_ptr<C2ParamReflector> mReflector;

	std::shared_ptr<ReflectedParamUpdater> mParamUpdater;

	Domain mDomain; // component domain
	Domain mInputDomain; // input port domain
	Domain mOutputDomain; // output port domain
	std::string mCodingMediaType; // media type of the coded stream

	// standard MediaCodec to Codec 2.0 params mapping
	std::shared_ptr<StandardParams> mStandardParams;

	std::set<C2Param::Index> mSupportedIndices; ///< indices supported by the component
	std::set<C2Param::Index> mSubscribedIndices; ///< indices to subscribe to
	size_t mSubscribedIndicesSize; ///< count of currently subscribed indices

	sp<AMessage> mInputFormat;
	sp<AMessage> mOutputFormat;

	bool mUsingSurface; ///< using input or output surface

	std::shared_ptr<InputSurfaceWrapper> mInputSurface;
	std::unique_ptr<InputSurfaceWrapper::Config> mISConfig;

	/// the current configuration. Updated after configure() and based on configUpdate in
	/// onWorkDone
	std::map<C2Param::Index, std::unique_ptr<C2Param>> mCurrentConfig;

	typedef std::function<c2_status_t(std::unique_ptr<C2Param>&)> LocalParamValidator;

	/// Parameter indices tracked in current config that are not supported by the component.
	/// these are provided so that optional parameters can remain in the current configuration.
	/// as such, these parameters have no dependencies. TODO: use C2InterfaceHelper for this.
	/// For now support a validation function.
	std::map<C2Param::Index, LocalParamValidator> mLocalParams;

	std::set<std::string> mLastConfig;

	CCodecConfig();

	/// initializes the members required to manage the format: descriptors, reflector,
	/// reflected param helper, domain, standard params, and subscribes to standard
	/// indices.
	status_t initialize(
	const std::shared_ptr<Codec2Client> &client,
	const std::shared_ptr<Codec2Client::Component> &component);


	/**
	* Adds a locally maintained parameter. This is used for output configuration that can be
	* appended to the output buffers in case it is not supported by the component.
	*/
	template<typename T>
	bool addLocalParam(
	const std::string &name,
	C2ParamDescriptor::attrib_t attrib = C2ParamDescriptor::IS_READ_ONLY,
	std::function<c2_status_t(std::unique_ptr<T>&)> validator_ =
	std::function<c2_status_t(std::unique_ptr<T>&)>()) {
	C2Param::Index index = T::PARAM_TYPE;
	if (mSupportedIndices.count(index) \|\| mLocalParams.count(index)) {
	if (mSupportedIndices.count(index)) {
	mSubscribedIndices.emplace(index);
	}
	ALOGD("ignoring local param %s (%#x) as it is already %s",
	name.c_str(), (uint32_t)index, mSupportedIndices.count(index) ? "supported" : "local");
	return false; // already supported by the component or already added
	}

	// wrap typed validator into untyped validator
	LocalParamValidator validator;
	if (validator_) {
	validator = [validator_](std::unique_ptr<C2Param>& p){
	c2_status_t res = C2_BAD_VALUE;
	std::unique_ptr<T> typed(static_cast<T*>(p.release()));
	// if parameter is correctly typed
	if (T::From(typed.get())) {
	res = validator_(typed);
	p.reset(typed.release());
	}
	return res;
	};
	}

	mLocalParams.emplace(index, validator);
	mParamUpdater->addStandardParam<T>(name, attrib);
	return true;
	}

	/**
	* Adds a locally maintained parameter with a default value.
	*/
	template<typename T>
	bool addLocalParam(
	std::unique_ptr<T> default_,
	const std::string &name,
	C2ParamDescriptor::attrib_t attrib = C2ParamDescriptor::IS_READ_ONLY,
	std::function<c2_status_t(std::unique_ptr<T>&)> validator_ =
	std::function<c2_status_t(std::unique_ptr<T>&)>()) {
	if (addLocalParam<T>(name, attrib, validator_)) {
	if (validator_) {
	c2_status_t err = validator_(default_);
	if (err != C2_OK) {
	ALOGD("default value for %s is invalid => %s", name.c_str(), asString(err));
	return false;
	}
	}
	mCurrentConfig[T::PARAM_TYPE] = std::move(default_);
	return true;
	}
	return false;
	}

	template<typename T>
	bool addLocalParam(
	T *default_, const std::string &name,
	C2ParamDescriptor::attrib_t attrib = C2ParamDescriptor::IS_READ_ONLY,
	std::function<c2_status_t(std::unique_ptr<T>&)> validator_ =
	std::function<c2_status_t(std::unique_ptr<T>&)>()) {
	return addLocalParam(std::unique_ptr<T>(default_), name, attrib, validator_);
	}

	/// Applies configuration updates, and updates format in the specific domain.
	/// Returns true if formats were updated
	/// \param domain input/output bitmask
	bool updateConfiguration(
	std::vector<std::unique_ptr<C2Param>> &configUpdate, Domain domain);

	/// Updates formats in the specific domain. Returns true if any of the formats have changed.
	/// \param domain input/output bitmask
	bool updateFormats(Domain domain);

	/**
	* Applies SDK configurations in a specific configuration domain.
	* Updates relevant input/output formats and subscribes to parameters specified in the
	* configuration.
	* \param domain config/setParam bitmask
	* \param blocking blocking mode to use with the component
	*/
	status_t getConfigUpdateFromSdkParams(
	std::shared_ptr<Codec2Client::Component> component,
	const sp<AMessage> &sdkParams, Domain domain,
	c2_blocking_t blocking,
	std::vector<std::unique_ptr<C2Param>> *configUpdate) const;

	/**
	* Applies a configuration update to the component.
	* Updates relevant input/output formats and subscribes to parameters specified in the
	* configuration.
	* \param blocking blocking mode to use with the component
	*/
	status_t setParameters(
	std::shared_ptr<Codec2Client::Component> component,
	std::vector<std::unique_ptr<C2Param>> &configUpdate,
	c2_blocking_t blocking);

	/// Queries subscribed indices (which contains all SDK-exposed values) and updates
	/// input/output formats.
	status_t queryConfiguration(
	const std::shared_ptr<Codec2Client::Component> &component);

	/// Queries a configuration parameter value. Returns nullptr if the parameter is not
	/// part of the current configuration
	const C2Param *getConfigParameterValue(C2Param::Index index) const;

	/**
	* Object that can be used to access configuration parameters and if they change.
	*/
	template<typename T>
	struct Watcher {
	~Watcher() = default;

	/// returns true if the value of this configuration has changed
	bool hasChanged() const {
	const C2Param *value = mParent->getConfigParameterValue(mIndex);
	if (value && mValue) {
	return value != mValue;
	} else {
	return value != mValue.get();
	}
	}

	/// updates the current value and returns it
	std::shared_ptr<const T> update() {
	const C2Param *value = mParent->getConfigParameterValue(mIndex);
	if (value) {
	mValue = std::shared_ptr<const T>(T::From(C2Param::Copy(*value).release()));
	}
	return mValue;
	}

	private:
	Watcher(C2Param::Index index, const CCodecConfig *parent)
	: mParent(parent), mIndex(index) {
	update();
	}

	friend struct CCodecConfig;

	const CCodecConfig *mParent;
	std::shared_ptr<const T> mValue;
	C2Param::Index mIndex;
	};

	/**
	* Returns a watcher object for a parameter.
	*/
	template<typename T>
	Watcher<T> watch(C2Param::Index index = T::PARAM_TYPE) const {
	if (index.type() != T::PARAM_TYPE) {
	__builtin_trap();
	}
	return Watcher<T>(index, this);
	}

	private:

	/// initializes the standard MediaCodec to Codec 2.0 params mapping
	void initializeStandardParams();

	/// Adds indices to the subscribed indices, and updated subscription to component
	/// \param blocking blocking mode to use with the component
	status_t subscribeToConfigUpdate(
	const std::shared_ptr<Codec2Client::Component> &component,
	const std::vector<C2Param::Index> &indices,
	c2_blocking_t blocking = C2_DONT_BLOCK);

	/// Gets SDK format from codec 2.0 reflected configuration
	/// \param domain input/output bitmask
	sp<AMessage> getSdkFormatForDomain(
	const ReflectedParamUpdater::Dict &reflected, Domain domain) const;

	/**
	* Converts a set of configuration parameters in an AMessage to a list of path-based Codec
	* 2.0 configuration parameters.
	*
	* \param domain config/setParam bitmask
	*/
	ReflectedParamUpdater::Dict getReflectedFormat(
	const sp<AMessage> &config, Domain domain) const;
	};

	DEFINE_ENUM_OPERATORS(CCodecConfig::Domain)

	} // namespace android

	#endif // C_CODEC_H_