audio/6.0/IStreamIn.hal - platform/hardware/interfaces - Git at Google

 /*
  * Copyright (C) 2019 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.
  */

 package android.hardware.audio@6.0;

 import android.hardware.audio.common@6.0;
 import IStream;

 interface IStreamIn extends IStream {
     /**
      * Returns the source descriptor of the input stream. Calling this method is
      * equivalent to getting AUDIO_PARAMETER_STREAM_INPUT_SOURCE on the legacy
      * HAL.
      * Optional method
      *
      * @return retval operation completion status.
      * @return source audio source.
      */
     getAudioSource() generates (Result retval, AudioSource source);

     /**
      * Set the input gain for the audio driver.
      * Optional method
      *
      * @param gain 1.0f is unity, 0.0f is zero.
      * @result retval operation completion status.
      */
     setGain(float gain) generates (Result retval);

     /**
      * Commands that can be executed on the driver reader thread.
      */
     enum ReadCommand : int32_t {
         READ,
         GET_CAPTURE_POSITION
     };

     /**
      * Data structure passed to the driver for executing commands
      * on the driver reader thread.
      */
     struct ReadParameters {
         ReadCommand command;  // discriminator
         union Params {
             uint64_t read;    // READ command, amount of bytes to read, >= 0.
             // No parameters for GET_CAPTURE_POSITION.
         } params;
     };

     /**
      * Data structure passed back to the client via status message queue
      * of 'read' operation.
      *
      * Possible values of 'retval' field:
      *  - OK, read operation was successful;
      *  - INVALID_ARGUMENTS, stream was not configured properly;
      *  - INVALID_STATE, stream is in a state that doesn't allow reads.
      */
     struct ReadStatus {
         Result retval;
         ReadCommand replyTo;  // discriminator
         union Reply {
             uint64_t read;    // READ command, amount of bytes read, >= 0.
             struct CapturePosition { // same as generated by getCapturePosition.
                 uint64_t frames;
                 uint64_t time;
             } capturePosition;
         } reply;
     };

     /**
      * Called when the metadata of the stream's sink has been changed.
      * @param sinkMetadata Description of the audio that is suggested by the clients.
      */
     updateSinkMetadata(SinkMetadata sinkMetadata);

     /**
      * Set up required transports for receiving audio buffers from the driver.
      *
      * The transport consists of three message queues:
      *  -- command queue is used to instruct the reader thread what operation
      *     to perform;
      *  -- data queue is used for passing audio data from the driver
      *     to the client;
      *  -- status queue is used for reporting operation status
      *     (e.g. amount of bytes actually read or error code).
      *
      * The driver operates on a dedicated thread. The client must ensure that
      * the thread is given an appropriate priority and assigned to correct
      * scheduler and cgroup. For this purpose, the method returns identifiers
      * of the driver thread.
      *
      * @param frameSize the size of a single frame, in bytes.
      * @param framesCount the number of frames in a buffer.
      * @param threadPriority priority of the driver thread.
      * @return retval OK if both message queues were created successfully.
      *                INVALID_STATE if the method was already called.
      *                INVALID_ARGUMENTS if there was a problem setting up
      *                                  the queues.
      * @return commandMQ a message queue used for passing commands.
      * @return dataMQ a message queue used for passing audio data in the format
      *                specified at the stream opening.
      * @return statusMQ a message queue used for passing status from the driver
      *                  using ReadStatus structures.
      * @return threadInfo identifiers of the driver's dedicated thread.
      */
     prepareForReading(uint32_t frameSize, uint32_t framesCount)
     generates (
             Result retval,
             fmq_sync<ReadParameters> commandMQ,
             fmq_sync<uint8_t> dataMQ,
             fmq_sync<ReadStatus> statusMQ,
             ThreadInfo threadInfo);

     /**
      * Return the amount of input frames lost in the audio driver since the last
      * call of this function.
      *
      * Audio driver is expected to reset the value to 0 and restart counting
      * upon returning the current value by this function call. Such loss
      * typically occurs when the user space process is blocked longer than the
      * capacity of audio driver buffers.
      *
      * @return framesLost the number of input audio frames lost.
      */
     getInputFramesLost() generates (uint32_t framesLost);

     /**
      * Return a recent count of the number of audio frames received and the
      * clock time associated with that frame count.
      *
      * @return retval INVALID_STATE if the device is not ready/available,
      *                NOT_SUPPORTED if the command is not supported,
      *                OK otherwise.
      * @return frames the total frame count received. This must be as early in
      *                the capture pipeline as possible. In general, frames
      *                must be non-negative and must not go "backwards".
      * @return time is the clock monotonic time when frames was measured. In
      *              general, time must be a positive quantity and must not
      *              go "backwards".
      */
     getCapturePosition()
             generates (Result retval, uint64_t frames, uint64_t time);

     /**
      * Returns an array with active microphones in the stream.
      *
      * @return retval INVALID_STATE if the call is not successful,
      *                OK otherwise.
      *
      * @return microphones array with microphones info
      */
     getActiveMicrophones()
                generates(Result retval, vec<MicrophoneInfo> microphones);

     /**
      * Specifies the logical microphone (for processing).
      *
      * If the feature is not supported an error should be returned
      * If multiple microphones are present, this should be treated as a preference
      * for their combined direction.
      *
      * Optional method
      *
      * @param Direction constant
      * @return retval OK if the call is successful, an error code otherwise.
      */
     setMicrophoneDirection(MicrophoneDirection direction)
                generates(Result retval);

     /**
      * Specifies the zoom factor for the selected microphone (for processing).
      *
      * If the feature is not supported an error should be returned
      * If multiple microphones are present, this should be treated as a preference
      * for their combined field dimension.
      *
      * Optional method
      *
      * @param the desired field dimension of microphone capture. Range is from -1 (wide angle),
      * though 0 (no zoom) to 1 (maximum zoom).
      *
      * @return retval OK if the call is not successful, an error code otherwise.
      */
     setMicrophoneFieldDimension(float zoom) generates(Result retval);
 };
	/*
	* Copyright (C) 2019 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.
	*/

	package android.hardware.audio@6.0;

	import android.hardware.audio.common@6.0;
	import IStream;

	interface IStreamIn extends IStream {
	/**
	* Returns the source descriptor of the input stream. Calling this method is
	* equivalent to getting AUDIO_PARAMETER_STREAM_INPUT_SOURCE on the legacy
	* HAL.
	* Optional method
	*
	* @return retval operation completion status.
	* @return source audio source.
	*/
	getAudioSource() generates (Result retval, AudioSource source);

	/**
	* Set the input gain for the audio driver.
	* Optional method
	*
	* @param gain 1.0f is unity, 0.0f is zero.
	* @result retval operation completion status.
	*/
	setGain(float gain) generates (Result retval);

	/**
	* Commands that can be executed on the driver reader thread.
	*/
	enum ReadCommand : int32_t {
	READ,
	GET_CAPTURE_POSITION
	};

	/**
	* Data structure passed to the driver for executing commands
	* on the driver reader thread.
	*/
	struct ReadParameters {
	ReadCommand command; // discriminator
	union Params {
	uint64_t read; // READ command, amount of bytes to read, >= 0.
	// No parameters for GET_CAPTURE_POSITION.
	} params;
	};

	/**
	* Data structure passed back to the client via status message queue
	* of 'read' operation.
	*
	* Possible values of 'retval' field:
	* - OK, read operation was successful;
	* - INVALID_ARGUMENTS, stream was not configured properly;
	* - INVALID_STATE, stream is in a state that doesn't allow reads.
	*/
	struct ReadStatus {
	Result retval;
	ReadCommand replyTo; // discriminator
	union Reply {
	uint64_t read; // READ command, amount of bytes read, >= 0.
	struct CapturePosition { // same as generated by getCapturePosition.
	uint64_t frames;
	uint64_t time;
	} capturePosition;
	} reply;
	};

	/**
	* Called when the metadata of the stream's sink has been changed.
	* @param sinkMetadata Description of the audio that is suggested by the clients.
	*/
	updateSinkMetadata(SinkMetadata sinkMetadata);

	/**
	* Set up required transports for receiving audio buffers from the driver.
	*
	* The transport consists of three message queues:
	* -- command queue is used to instruct the reader thread what operation
	* to perform;
	* -- data queue is used for passing audio data from the driver
	* to the client;
	* -- status queue is used for reporting operation status
	* (e.g. amount of bytes actually read or error code).
	*
	* The driver operates on a dedicated thread. The client must ensure that
	* the thread is given an appropriate priority and assigned to correct
	* scheduler and cgroup. For this purpose, the method returns identifiers
	* of the driver thread.
	*
	* @param frameSize the size of a single frame, in bytes.
	* @param framesCount the number of frames in a buffer.
	* @param threadPriority priority of the driver thread.
	* @return retval OK if both message queues were created successfully.
	* INVALID_STATE if the method was already called.
	* INVALID_ARGUMENTS if there was a problem setting up
	* the queues.
	* @return commandMQ a message queue used for passing commands.
	* @return dataMQ a message queue used for passing audio data in the format
	* specified at the stream opening.
	* @return statusMQ a message queue used for passing status from the driver
	* using ReadStatus structures.
	* @return threadInfo identifiers of the driver's dedicated thread.
	*/
	prepareForReading(uint32_t frameSize, uint32_t framesCount)
	generates (
	Result retval,
	fmq_sync<ReadParameters> commandMQ,
	fmq_sync<uint8_t> dataMQ,
	fmq_sync<ReadStatus> statusMQ,
	ThreadInfo threadInfo);

	/**
	* Return the amount of input frames lost in the audio driver since the last
	* call of this function.
	*
	* Audio driver is expected to reset the value to 0 and restart counting
	* upon returning the current value by this function call. Such loss
	* typically occurs when the user space process is blocked longer than the
	* capacity of audio driver buffers.
	*
	* @return framesLost the number of input audio frames lost.
	*/
	getInputFramesLost() generates (uint32_t framesLost);

	/**
	* Return a recent count of the number of audio frames received and the
	* clock time associated with that frame count.
	*
	* @return retval INVALID_STATE if the device is not ready/available,
	* NOT_SUPPORTED if the command is not supported,
	* OK otherwise.
	* @return frames the total frame count received. This must be as early in
	* the capture pipeline as possible. In general, frames
	* must be non-negative and must not go "backwards".
	* @return time is the clock monotonic time when frames was measured. In
	* general, time must be a positive quantity and must not
	* go "backwards".
	*/
	getCapturePosition()
	generates (Result retval, uint64_t frames, uint64_t time);

	/**
	* Returns an array with active microphones in the stream.
	*
	* @return retval INVALID_STATE if the call is not successful,
	* OK otherwise.
	*
	* @return microphones array with microphones info
	*/
	getActiveMicrophones()
	generates(Result retval, vec<MicrophoneInfo> microphones);

	/**
	* Specifies the logical microphone (for processing).
	*
	* If the feature is not supported an error should be returned
	* If multiple microphones are present, this should be treated as a preference
	* for their combined direction.
	*
	* Optional method
	*
	* @param Direction constant
	* @return retval OK if the call is successful, an error code otherwise.
	*/
	setMicrophoneDirection(MicrophoneDirection direction)
	generates(Result retval);

	/**
	* Specifies the zoom factor for the selected microphone (for processing).
	*
	* If the feature is not supported an error should be returned
	* If multiple microphones are present, this should be treated as a preference
	* for their combined field dimension.
	*
	* Optional method
	*
	* @param the desired field dimension of microphone capture. Range is from -1 (wide angle),
	* though 0 (no zoom) to 1 (maximum zoom).
	*
	* @return retval OK if the call is not successful, an error code otherwise.
	*/
	setMicrophoneFieldDimension(float zoom) generates(Result retval);
	};