media/sfplugin/CCodecBufferChannel.h - platform/hardware/google/av - Git at Google

 /*
  * Copyright 2017, 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 CCODEC_BUFFER_CHANNEL_H_

 #define CCODEC_BUFFER_CHANNEL_H_

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

 #include <C2Buffer.h>
 #include <C2Component.h>
 #include <Codec2Mapper.h>

 #include <codec2/hidl/client.h>
 #include <media/stagefright/bqhelper/GraphicBufferSource.h>
 #include <media/stagefright/codec2/1.0/InputSurface.h>
 #include <media/stagefright/foundation/Mutexed.h>
 #include <media/stagefright/CodecBase.h>
 #include <media/ICrypto.h>

 #include "InputSurfaceWrapper.h"

 namespace android {

 class CCodecCallback {
 public:
     virtual ~CCodecCallback() = default;
     virtual void onError(status_t err, enum ActionCode actionCode) = 0;
     virtual void onOutputFramesRendered(int64_t mediaTimeUs, nsecs_t renderTimeNs) = 0;
     virtual void onWorkQueued(bool eos) = 0;
 };

 /**
  * BufferChannelBase implementation for CCodec.
  */
 class CCodecBufferChannel
     : public BufferChannelBase, public std::enable_shared_from_this<CCodecBufferChannel> {
 public:
     explicit CCodecBufferChannel(const std::shared_ptr<CCodecCallback> &callback);
     virtual ~CCodecBufferChannel();

     // BufferChannelBase interface
     virtual status_t queueInputBuffer(const sp<MediaCodecBuffer> &buffer) override;
     virtual status_t queueSecureInputBuffer(
             const sp<MediaCodecBuffer> &buffer,
             bool secure,
             const uint8_t *key,
             const uint8_t *iv,
             CryptoPlugin::Mode mode,
             CryptoPlugin::Pattern pattern,
             const CryptoPlugin::SubSample *subSamples,
             size_t numSubSamples,
             AString *errorDetailMsg) override;
     virtual status_t renderOutputBuffer(
             const sp<MediaCodecBuffer> &buffer, int64_t timestampNs) override;
     virtual status_t discardBuffer(const sp<MediaCodecBuffer> &buffer) override;
     virtual void getInputBufferArray(Vector<sp<MediaCodecBuffer>> *array) override;
     virtual void getOutputBufferArray(Vector<sp<MediaCodecBuffer>> *array) override;

     // Methods below are interface for CCodec to use.

     /**
      * Set the component object for buffer processing.
      */
     void setComponent(const std::shared_ptr<Codec2Client::Component> &component);

     /**
      * Set output graphic surface for rendering.
      */
     status_t setSurface(const sp<Surface> &surface);

     /**
      * Set GraphicBufferSource object from which the component extracts input
      * buffers.
      */
     status_t setInputSurface(const std::shared_ptr<InputSurfaceWrapper> &surface);

     /**
      * Signal EOS to input surface.
      */
     status_t signalEndOfInputStream();

     /**
      * Set parameters.
      */
     status_t setParameters(std::vector<std::unique_ptr<C2Param>> &params);

     /**
      * Start queueing buffers to the component. This object should never queue
      * buffers before this call has completed.
      */
     status_t start(const sp<AMessage> &inputFormat, const sp<AMessage> &outputFormat);

     /**
      * Request initial input buffers to be filled by client.
      */
     status_t requestInitialInputBuffers();

     /**
      * Stop queueing buffers to the component. This object should never queue
      * buffers after this call, until start() is called.
      */
     void stop();

     void flush(const std::list<std::unique_ptr<C2Work>> &flushedWork);

     /**
      * Notify input client about work done.
      *
      * @param workItems   finished work item.
      * @param outputFormat new output format if it has changed, otherwise nullptr
      * @param initData    new init data (CSD) if it has changed, otherwise nullptr
      * @param numDiscardedInputBuffers the number of input buffers that are
      *                    returned for the first time (not previously returned by
      *                    onInputBufferDone()).
      */
     void onWorkDone(
             std::unique_ptr<C2Work> work, const sp<AMessage> &outputFormat,
             const C2StreamInitDataInfo::output *initData,
             size_t numDiscardedInputBuffers);

     /**
      * Make an input buffer available for the client as it is no longer needed
      * by the codec.
      *
      * @param buffer The buffer that becomes unused.
      */
     void onInputBufferDone(const std::shared_ptr<C2Buffer>& buffer);

     enum MetaMode {
         MODE_NONE,
         MODE_ANW,
     };

     void setMetaMode(MetaMode mode);

     // Internal classes
     class Buffers;
     class InputBuffers;
     class OutputBuffers;

 private:
     class QueueGuard;

     /**
      * Special mutex-like object with the following properties:
      *
      * - At STOPPED state (initial, or after stop())
      *   - QueueGuard object gets created at STOPPED state, and the client is
      *     supposed to return immediately.
      * - At RUNNING state (after start())
      *   - Each QueueGuard object
      */
     class QueueSync {
     public:
         /**
          * At construction the sync object is in STOPPED state.
          */
         inline QueueSync() {}
         ~QueueSync() = default;

         /**
          * Transition to RUNNING state when stopped. No-op if already in RUNNING
          * state.
          */
         void start();

         /**
          * At RUNNING state, wait until all QueueGuard object created during
          * RUNNING state are destroyed, and then transition to STOPPED state.
          * No-op if already in STOPPED state.
          */
         void stop();

     private:
         Mutex mGuardLock;

         struct Counter {
             inline Counter() : value(-1) {}
             int32_t value;
             Condition cond;
         };
         Mutexed<Counter> mCount;

         friend class CCodecBufferChannel::QueueGuard;
     };

     class QueueGuard {
     public:
         QueueGuard(QueueSync &sync);
         ~QueueGuard();
         inline bool isRunning() { return mRunning; }

     private:
         QueueSync &mSync;
         bool mRunning;
     };

     void feedInputBufferIfAvailable();
     void feedInputBufferIfAvailableInternal();
     status_t queueInputBufferInternal(const sp<MediaCodecBuffer> &buffer);
     bool handleWork(
             std::unique_ptr<C2Work> work, const sp<AMessage> &outputFormat,
             const C2StreamInitDataInfo::output *initData);

     QueueSync mSync;
     sp<MemoryDealer> mDealer;
     sp<IMemory> mDecryptDestination;
     int32_t mHeapSeqNum;

     std::shared_ptr<Codec2Client::Component> mComponent;
     std::string mComponentName; ///< component name for debugging
     const char *mName; ///< C-string version of component name
     std::shared_ptr<CCodecCallback> mCCodecCallback;
     std::shared_ptr<C2BlockPool> mInputAllocator;
     QueueSync mQueueSync;
     std::vector<std::unique_ptr<C2Param>> mParamsToBeSet;

     Mutexed<std::unique_ptr<InputBuffers>> mInputBuffers;
     Mutexed<std::list<sp<ABuffer>>> mFlushedConfigs;
     Mutexed<std::unique_ptr<OutputBuffers>> mOutputBuffers;

     std::atomic_uint64_t mFrameIndex;
     std::atomic_uint64_t mFirstValidFrameIndex;

     sp<MemoryDealer> makeMemoryDealer(size_t heapSize);

     struct OutputSurface {
         sp<Surface> surface;
         uint32_t generation;
     };
     Mutexed<OutputSurface> mOutputSurface;

     struct BlockPools {
         C2Allocator::id_t inputAllocatorId;
         std::shared_ptr<C2BlockPool> inputPool;
         C2Allocator::id_t outputAllocatorId;
         C2BlockPool::local_id_t outputPoolId;
         std::shared_ptr<Codec2Client::Configurable> outputPoolIntf;
     };
     Mutexed<BlockPools> mBlockPools;

     std::shared_ptr<InputSurfaceWrapper> mInputSurface;

     MetaMode mMetaMode;

     // PipelineCapacity is used in the input buffer gating logic.
     //
     // There are three criteria that need to be met before
     // onInputBufferAvailable() is called:
     // 1. The number of input buffers that have been received by
     //    CCodecBufferChannel but not returned via onWorkDone() or
     //    onInputBufferDone() does not exceed a certain limit. (Let us call this
     //    number the "input" capacity.)
     // 2. The number of work items that have been received by
     //    CCodecBufferChannel whose outputs have not been returned from the
     //    component (by calling onWorkDone()) does not exceed a certain limit.
     //    (Let us call this the "component" capacity.)
     // 3. The number of work items that have been received by
     //    CCodecBufferChannel whose outputs have not been released by the app
     //    (either by calling discardBuffer() on an output buffer or calling
     //    renderOutputBuffer()) does not exceed a certain limit. (Let us call
     //    this the "output" capacity.)
     //
     // These three criteria guarantee that a new input buffer that arrives from
     // the invocation of onInputBufferAvailable() will not
     // 1. overload CCodecBufferChannel's input buffers;
     // 2. overload the component; or
     // 3. overload CCodecBufferChannel's output buffers if the component
     //    finishes all the pending work right away.
     //
     struct PipelineCapacity {
         // The number of available input capacity.
         std::atomic_int input;
         // The number of available component capacity.
         std::atomic_int component;
         // The number of available output capacity.
         std::atomic_int output;

         PipelineCapacity();
         // Set the values of #component and #output.
         void initialize(int newInput, int newComponent, int newOutput,
                         const char* newName = "<UNKNOWN COMPONENT>",
                         const char* callerTag = nullptr);

         // Return true and decrease #input, #component and #output by one if
         // they are all greater than zero; return false otherwise.
         //
         // callerTag is used for logging only.
         //
         // allocate() is called by CCodecBufferChannel to check whether it can
         // receive another input buffer. If the return value is true,
         // onInputBufferAvailable() can (and will) be called afterwards.
         bool allocate(const char* callerTag = nullptr);

         // Increase #input, #component and #output by one.
         //
         // callerTag is used for logging only.
         //
         // free() is called by CCodecBufferChannel after allocate() returns true
         // but onInputBufferAvailable() cannot be called for any reasons. It
         // essentially undoes an allocate() call.
         void free(const char* callerTag = nullptr);

         // Increase #input by @p numDiscardedInputBuffers.
         //
         // callerTag is used for logging only.
         //
         // freeInputSlots() is called by CCodecBufferChannel when onWorkDone()
         // or onInputBufferDone() is called. @p numDiscardedInputBuffers is
         // provided in onWorkDone(), and is 1 in onInputBufferDone().
         int freeInputSlots(size_t numDiscardedInputBuffers,
                            const char* callerTag = nullptr);

         // Increase #component by one and return the updated value.
         //
         // callerTag is used for logging only.
         //
         // freeComponentSlot() is called by CCodecBufferChannel when
         // onWorkDone() is called.
         int freeComponentSlot(const char* callerTag = nullptr);

         // Increase #output by one and return the updated value.
         //
         // callerTag is used for logging only.
         //
         // freeOutputSlot() is called by CCodecBufferChannel when
         // discardBuffer() is called on an output buffer or when
         // renderOutputBuffer() is called.
         int freeOutputSlot(const char* callerTag = nullptr);

     private:
         // Component name. Used for logging.
         const char* mName;
     };
     PipelineCapacity mAvailablePipelineCapacity;

     std::atomic_bool mInputMetEos;
     std::atomic_int64_t mPendingEosTimestamp;

     inline bool hasCryptoOrDescrambler() {
         return mCrypto != NULL || mDescrambler != NULL;
     }
 };

 // Conversion of a c2_status_t value to a status_t value may depend on the
 // operation that returns the c2_status_t value.
 enum c2_operation_t {
     C2_OPERATION_NONE,
     C2_OPERATION_Component_connectToOmxInputSurface,
     C2_OPERATION_Component_createBlockPool,
     C2_OPERATION_Component_destroyBlockPool,
     C2_OPERATION_Component_disconnectFromInputSurface,
     C2_OPERATION_Component_drain,
     C2_OPERATION_Component_flush,
     C2_OPERATION_Component_queue,
     C2_OPERATION_Component_release,
     C2_OPERATION_Component_reset,
     C2_OPERATION_Component_setOutputSurface,
     C2_OPERATION_Component_start,
     C2_OPERATION_Component_stop,
     C2_OPERATION_ComponentStore_copyBuffer,
     C2_OPERATION_ComponentStore_createComponent,
     C2_OPERATION_ComponentStore_createInputSurface,
     C2_OPERATION_ComponentStore_createInterface,
     C2_OPERATION_Configurable_config,
     C2_OPERATION_Configurable_query,
     C2_OPERATION_Configurable_querySupportedParams,
     C2_OPERATION_Configurable_querySupportedValues,
     C2_OPERATION_InputSurface_connectToComponent,
     C2_OPERATION_InputSurfaceConnection_disconnect,
 };

 status_t toStatusT(c2_status_t c2s, c2_operation_t c2op = C2_OPERATION_NONE);

 }  // namespace android

 #endif  // CCODEC_BUFFER_CHANNEL_H_
	/*
	* Copyright 2017, 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 CCODEC_BUFFER_CHANNEL_H_

	#define CCODEC_BUFFER_CHANNEL_H_

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

	#include <C2Buffer.h>
	#include <C2Component.h>
	#include <Codec2Mapper.h>

	#include <codec2/hidl/client.h>
	#include <media/stagefright/bqhelper/GraphicBufferSource.h>
	#include <media/stagefright/codec2/1.0/InputSurface.h>
	#include <media/stagefright/foundation/Mutexed.h>
	#include <media/stagefright/CodecBase.h>
	#include <media/ICrypto.h>

	#include "InputSurfaceWrapper.h"

	namespace android {

	class CCodecCallback {
	public:
	virtual ~CCodecCallback() = default;
	virtual void onError(status_t err, enum ActionCode actionCode) = 0;
	virtual void onOutputFramesRendered(int64_t mediaTimeUs, nsecs_t renderTimeNs) = 0;
	virtual void onWorkQueued(bool eos) = 0;
	};

	/**
	* BufferChannelBase implementation for CCodec.
	*/
	class CCodecBufferChannel
	: public BufferChannelBase, public std::enable_shared_from_this<CCodecBufferChannel> {
	public:
	explicit CCodecBufferChannel(const std::shared_ptr<CCodecCallback> &callback);
	virtual ~CCodecBufferChannel();

	// BufferChannelBase interface
	virtual status_t queueInputBuffer(const sp<MediaCodecBuffer> &buffer) override;
	virtual status_t queueSecureInputBuffer(
	const sp<MediaCodecBuffer> &buffer,
	bool secure,
	const uint8_t *key,
	const uint8_t *iv,
	CryptoPlugin::Mode mode,
	CryptoPlugin::Pattern pattern,
	const CryptoPlugin::SubSample *subSamples,
	size_t numSubSamples,
	AString *errorDetailMsg) override;
	virtual status_t renderOutputBuffer(
	const sp<MediaCodecBuffer> &buffer, int64_t timestampNs) override;
	virtual status_t discardBuffer(const sp<MediaCodecBuffer> &buffer) override;
	virtual void getInputBufferArray(Vector<sp<MediaCodecBuffer>> *array) override;
	virtual void getOutputBufferArray(Vector<sp<MediaCodecBuffer>> *array) override;

	// Methods below are interface for CCodec to use.

	/**
	* Set the component object for buffer processing.
	*/
	void setComponent(const std::shared_ptr<Codec2Client::Component> &component);

	/**
	* Set output graphic surface for rendering.
	*/
	status_t setSurface(const sp<Surface> &surface);

	/**
	* Set GraphicBufferSource object from which the component extracts input
	* buffers.
	*/
	status_t setInputSurface(const std::shared_ptr<InputSurfaceWrapper> &surface);

	/**
	* Signal EOS to input surface.
	*/
	status_t signalEndOfInputStream();

	/**
	* Set parameters.
	*/
	status_t setParameters(std::vector<std::unique_ptr<C2Param>> &params);

	/**
	* Start queueing buffers to the component. This object should never queue
	* buffers before this call has completed.
	*/
	status_t start(const sp<AMessage> &inputFormat, const sp<AMessage> &outputFormat);

	/**
	* Request initial input buffers to be filled by client.
	*/
	status_t requestInitialInputBuffers();

	/**
	* Stop queueing buffers to the component. This object should never queue
	* buffers after this call, until start() is called.
	*/
	void stop();

	void flush(const std::list<std::unique_ptr<C2Work>> &flushedWork);

	/**
	* Notify input client about work done.
	*
	* @param workItems finished work item.
	* @param outputFormat new output format if it has changed, otherwise nullptr
	* @param initData new init data (CSD) if it has changed, otherwise nullptr
	* @param numDiscardedInputBuffers the number of input buffers that are
	* returned for the first time (not previously returned by
	* onInputBufferDone()).
	*/
	void onWorkDone(
	std::unique_ptr<C2Work> work, const sp<AMessage> &outputFormat,
	const C2StreamInitDataInfo::output *initData,
	size_t numDiscardedInputBuffers);

	/**
	* Make an input buffer available for the client as it is no longer needed
	* by the codec.
	*
	* @param buffer The buffer that becomes unused.
	*/
	void onInputBufferDone(const std::shared_ptr<C2Buffer>& buffer);

	enum MetaMode {
	MODE_NONE,
	MODE_ANW,
	};

	void setMetaMode(MetaMode mode);

	// Internal classes
	class Buffers;
	class InputBuffers;
	class OutputBuffers;

	private:
	class QueueGuard;

	/**
	* Special mutex-like object with the following properties:
	*
	* - At STOPPED state (initial, or after stop())
	* - QueueGuard object gets created at STOPPED state, and the client is
	* supposed to return immediately.
	* - At RUNNING state (after start())
	* - Each QueueGuard object
	*/
	class QueueSync {
	public:
	/**
	* At construction the sync object is in STOPPED state.
	*/
	inline QueueSync() {}
	~QueueSync() = default;

	/**
	* Transition to RUNNING state when stopped. No-op if already in RUNNING
	* state.
	*/
	void start();

	/**
	* At RUNNING state, wait until all QueueGuard object created during
	* RUNNING state are destroyed, and then transition to STOPPED state.
	* No-op if already in STOPPED state.
	*/
	void stop();

	private:
	Mutex mGuardLock;

	struct Counter {
	inline Counter() : value(-1) {}
	int32_t value;
	Condition cond;
	};
	Mutexed<Counter> mCount;

	friend class CCodecBufferChannel::QueueGuard;
	};

	class QueueGuard {
	public:
	QueueGuard(QueueSync &sync);
	~QueueGuard();
	inline bool isRunning() { return mRunning; }

	private:
	QueueSync &mSync;
	bool mRunning;
	};

	void feedInputBufferIfAvailable();
	void feedInputBufferIfAvailableInternal();
	status_t queueInputBufferInternal(const sp<MediaCodecBuffer> &buffer);
	bool handleWork(
	std::unique_ptr<C2Work> work, const sp<AMessage> &outputFormat,
	const C2StreamInitDataInfo::output *initData);

	QueueSync mSync;
	sp<MemoryDealer> mDealer;
	sp<IMemory> mDecryptDestination;
	int32_t mHeapSeqNum;

	std::shared_ptr<Codec2Client::Component> mComponent;
	std::string mComponentName; ///< component name for debugging
	const char *mName; ///< C-string version of component name
	std::shared_ptr<CCodecCallback> mCCodecCallback;
	std::shared_ptr<C2BlockPool> mInputAllocator;
	QueueSync mQueueSync;
	std::vector<std::unique_ptr<C2Param>> mParamsToBeSet;

	Mutexed<std::unique_ptr<InputBuffers>> mInputBuffers;
	Mutexed<std::list<sp<ABuffer>>> mFlushedConfigs;
	Mutexed<std::unique_ptr<OutputBuffers>> mOutputBuffers;

	std::atomic_uint64_t mFrameIndex;
	std::atomic_uint64_t mFirstValidFrameIndex;

	sp<MemoryDealer> makeMemoryDealer(size_t heapSize);

	struct OutputSurface {
	sp<Surface> surface;
	uint32_t generation;
	};
	Mutexed<OutputSurface> mOutputSurface;

	struct BlockPools {
	C2Allocator::id_t inputAllocatorId;
	std::shared_ptr<C2BlockPool> inputPool;
	C2Allocator::id_t outputAllocatorId;
	C2BlockPool::local_id_t outputPoolId;
	std::shared_ptr<Codec2Client::Configurable> outputPoolIntf;
	};
	Mutexed<BlockPools> mBlockPools;

	std::shared_ptr<InputSurfaceWrapper> mInputSurface;

	MetaMode mMetaMode;

	// PipelineCapacity is used in the input buffer gating logic.
	//
	// There are three criteria that need to be met before
	// onInputBufferAvailable() is called:
	// 1. The number of input buffers that have been received by
	// CCodecBufferChannel but not returned via onWorkDone() or
	// onInputBufferDone() does not exceed a certain limit. (Let us call this
	// number the "input" capacity.)
	// 2. The number of work items that have been received by
	// CCodecBufferChannel whose outputs have not been returned from the
	// component (by calling onWorkDone()) does not exceed a certain limit.
	// (Let us call this the "component" capacity.)
	// 3. The number of work items that have been received by
	// CCodecBufferChannel whose outputs have not been released by the app
	// (either by calling discardBuffer() on an output buffer or calling
	// renderOutputBuffer()) does not exceed a certain limit. (Let us call
	// this the "output" capacity.)
	//
	// These three criteria guarantee that a new input buffer that arrives from
	// the invocation of onInputBufferAvailable() will not
	// 1. overload CCodecBufferChannel's input buffers;
	// 2. overload the component; or
	// 3. overload CCodecBufferChannel's output buffers if the component
	// finishes all the pending work right away.
	//
	struct PipelineCapacity {
	// The number of available input capacity.
	std::atomic_int input;
	// The number of available component capacity.
	std::atomic_int component;
	// The number of available output capacity.
	std::atomic_int output;

	PipelineCapacity();
	// Set the values of #component and #output.
	void initialize(int newInput, int newComponent, int newOutput,
	const char* newName = "<UNKNOWN COMPONENT>",
	const char* callerTag = nullptr);

	// Return true and decrease #input, #component and #output by one if
	// they are all greater than zero; return false otherwise.
	//
	// callerTag is used for logging only.
	//
	// allocate() is called by CCodecBufferChannel to check whether it can
	// receive another input buffer. If the return value is true,
	// onInputBufferAvailable() can (and will) be called afterwards.
	bool allocate(const char* callerTag = nullptr);

	// Increase #input, #component and #output by one.
	//
	// callerTag is used for logging only.
	//
	// free() is called by CCodecBufferChannel after allocate() returns true
	// but onInputBufferAvailable() cannot be called for any reasons. It
	// essentially undoes an allocate() call.
	void free(const char* callerTag = nullptr);

	// Increase #input by @p numDiscardedInputBuffers.
	//
	// callerTag is used for logging only.
	//
	// freeInputSlots() is called by CCodecBufferChannel when onWorkDone()
	// or onInputBufferDone() is called. @p numDiscardedInputBuffers is
	// provided in onWorkDone(), and is 1 in onInputBufferDone().
	int freeInputSlots(size_t numDiscardedInputBuffers,
	const char* callerTag = nullptr);

	// Increase #component by one and return the updated value.
	//
	// callerTag is used for logging only.
	//
	// freeComponentSlot() is called by CCodecBufferChannel when
	// onWorkDone() is called.
	int freeComponentSlot(const char* callerTag = nullptr);

	// Increase #output by one and return the updated value.
	//
	// callerTag is used for logging only.
	//
	// freeOutputSlot() is called by CCodecBufferChannel when
	// discardBuffer() is called on an output buffer or when
	// renderOutputBuffer() is called.
	int freeOutputSlot(const char* callerTag = nullptr);

	private:
	// Component name. Used for logging.
	const char* mName;
	};
	PipelineCapacity mAvailablePipelineCapacity;

	std::atomic_bool mInputMetEos;
	std::atomic_int64_t mPendingEosTimestamp;

	inline bool hasCryptoOrDescrambler() {
	return mCrypto != NULL \|\| mDescrambler != NULL;
	}
	};

	// Conversion of a c2_status_t value to a status_t value may depend on the
	// operation that returns the c2_status_t value.
	enum c2_operation_t {
	C2_OPERATION_NONE,
	C2_OPERATION_Component_connectToOmxInputSurface,
	C2_OPERATION_Component_createBlockPool,
	C2_OPERATION_Component_destroyBlockPool,
	C2_OPERATION_Component_disconnectFromInputSurface,
	C2_OPERATION_Component_drain,
	C2_OPERATION_Component_flush,
	C2_OPERATION_Component_queue,
	C2_OPERATION_Component_release,
	C2_OPERATION_Component_reset,
	C2_OPERATION_Component_setOutputSurface,
	C2_OPERATION_Component_start,
	C2_OPERATION_Component_stop,
	C2_OPERATION_ComponentStore_copyBuffer,
	C2_OPERATION_ComponentStore_createComponent,
	C2_OPERATION_ComponentStore_createInputSurface,
	C2_OPERATION_ComponentStore_createInterface,
	C2_OPERATION_Configurable_config,
	C2_OPERATION_Configurable_query,
	C2_OPERATION_Configurable_querySupportedParams,
	C2_OPERATION_Configurable_querySupportedValues,
	C2_OPERATION_InputSurface_connectToComponent,
	C2_OPERATION_InputSurfaceConnection_disconnect,
	};

	status_t toStatusT(c2_status_t c2s, c2_operation_t c2op = C2_OPERATION_NONE);

	} // namespace android

	#endif // CCODEC_BUFFER_CHANNEL_H_