/* * 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. */ package android.hardware.audio@4.0; import android.hardware.audio.common@4.0; import IStreamIn; import IStreamOut; interface IDevice { /** * Returns whether the audio hardware interface has been initialized. * * @return retval OK on success, NOT_INITIALIZED on failure. */ initCheck() generates (Result retval); /** * Sets the audio volume for all audio activities other than voice call. If * NOT_SUPPORTED is returned, the software mixer will emulate this * capability. * * @param volume 1.0f means unity, 0.0f is zero. * @return retval operation completion status. */ setMasterVolume(float volume) generates (Result retval); /** * Get the current master volume value for the HAL, if the HAL supports * master volume control. For example, AudioFlinger will query this value * from the primary audio HAL when the service starts and use the value for * setting the initial master volume across all HALs. HALs which do not * support this method must return NOT_SUPPORTED in 'retval'. * * @return retval operation completion status. * @return volume 1.0f means unity, 0.0f is zero. */ getMasterVolume() generates (Result retval, float volume); /** * Sets microphone muting state. * * @param mute whether microphone is muted. * @return retval operation completion status. */ setMicMute(bool mute) generates (Result retval); /** * Gets whether microphone is muted. * * @return retval operation completion status. * @return mute whether microphone is muted. */ getMicMute() generates (Result retval, bool mute); /** * Set the audio mute status for all audio activities. If the return value * is NOT_SUPPORTED, the software mixer will emulate this capability. * * @param mute whether audio is muted. * @return retval operation completion status. */ setMasterMute(bool mute) generates (Result retval); /** * Get the current master mute status for the HAL, if the HAL supports * master mute control. AudioFlinger will query this value from the primary * audio HAL when the service starts and use the value for setting the * initial master mute across all HALs. HAL must indicate that the feature * is not supported by returning NOT_SUPPORTED status. * * @return retval operation completion status. * @return mute whether audio is muted. */ getMasterMute() generates (Result retval, bool mute); /** * Returns audio input buffer size according to parameters passed or * INVALID_ARGUMENTS if one of the parameters is not supported. * * @param config audio configuration. * @return retval operation completion status. * @return bufferSize input buffer size in bytes. */ getInputBufferSize(AudioConfig config) generates (Result retval, uint64_t bufferSize); /** * This method creates and opens the audio hardware output stream. * If the stream can not be opened with the proposed audio config, * HAL must provide suggested values for the audio config. * * @param ioHandle handle assigned by AudioFlinger. * @param device device type and (if needed) address. * @param config stream configuration. * @param flags additional flags. * @param sourceMetadata Description of the audio that will be played. May be used by implementations to configure hardware effects. * @return retval operation completion status. * @return outStream created output stream. * @return suggestedConfig in case of invalid parameters, suggested config. */ openOutputStream( AudioIoHandle ioHandle, DeviceAddress device, AudioConfig config, bitfield flags, SourceMetadata sourceMetadata) generates ( Result retval, IStreamOut outStream, AudioConfig suggestedConfig); /** * This method creates and opens the audio hardware input stream. * If the stream can not be opened with the proposed audio config, * HAL must provide suggested values for the audio config. * * @param ioHandle handle assigned by AudioFlinger. * @param device device type and (if needed) address. * @param config stream configuration. * @param flags additional flags. * @param sinkMetadata Description of the audio that is suggested by the client. * May be used by implementations to configure hardware effects. * @return retval operation completion status. * @return inStream in case of success, created input stream. * @return suggestedConfig in case of invalid parameters, suggested config. */ openInputStream( AudioIoHandle ioHandle, DeviceAddress device, AudioConfig config, bitfield flags, SinkMetadata sinkMetadata) generates ( Result retval, IStreamIn inStream, AudioConfig suggestedConfig); /** * Returns whether HAL supports audio patches. * * @return supports true if audio patches are supported. */ supportsAudioPatches() generates (bool supports); /** * Creates an audio patch between several source and sink ports. The handle * is allocated by the HAL and must be unique for this audio HAL module. * * @param sources patch sources. * @param sinks patch sinks. * @return retval operation completion status. * @return patch created patch handle. */ createAudioPatch(vec sources, vec sinks) generates (Result retval, AudioPatchHandle patch); /** * Release an audio patch. * * @param patch patch handle. * @return retval operation completion status. */ releaseAudioPatch(AudioPatchHandle patch) generates (Result retval); /** * Returns the list of supported attributes for a given audio port. * * As input, 'port' contains the information (type, role, address etc...) * needed by the HAL to identify the port. * * As output, 'resultPort' contains possible attributes (sampling rates, * formats, channel masks, gain controllers...) for this port. * * @param port port identifier. * @return retval operation completion status. * @return resultPort port descriptor with all parameters filled up. */ getAudioPort(AudioPort port) generates (Result retval, AudioPort resultPort); /** * Set audio port configuration. * * @param config audio port configuration. * @return retval operation completion status. */ setAudioPortConfig(AudioPortConfig config) generates (Result retval); /** * Gets the HW synchronization source of the device. Calling this method is * equivalent to getting AUDIO_PARAMETER_HW_AV_SYNC on the legacy HAL. * Optional method * * @return retval operation completion status: OK or NOT_SUPPORTED. * @return hwAvSync HW synchronization source */ getHwAvSync() generates (Result retval, AudioHwSync hwAvSync); /** * Sets whether the screen is on. Calling this method is equivalent to * setting AUDIO_PARAMETER_KEY_SCREEN_STATE on the legacy HAL. * Optional method * * @param turnedOn whether the screen is turned on. * @return retval operation completion status. */ setScreenState(bool turnedOn) generates (Result retval); /** * Generic method for retrieving vendor-specific parameter values. * The framework does not interpret the parameters, they are passed * in an opaque manner between a vendor application and HAL. * * Multiple parameters can be retrieved at the same time. * The implementation should return as many requested parameters * as possible, even if one or more is not supported * * @param context provides more information about the request * @param keys keys of the requested parameters * @return retval operation completion status. * OK must be returned if keys is empty. * NOT_SUPPORTED must be returned if at least one key is unknown. * @return parameters parameter key value pairs. * Must contain the value of all requested keys if retval == OK */ getParameters(vec context, vec keys) generates (Result retval, vec parameters); /** * Generic method for setting vendor-specific parameter values. * The framework does not interpret the parameters, they are passed * in an opaque manner between a vendor application and HAL. * * Multiple parameters can be set at the same time though this is * discouraged as it make failure analysis harder. * * If possible, a failed setParameters should not impact the platform state. * * @param context provides more information about the request * @param parameters parameter key value pairs. * @return retval operation completion status. * All parameters must be successfully set for OK to be returned */ setParameters(vec context, vec parameters) generates (Result retval); /** * Returns an array with available microphones in device. * * @return retval INVALID_STATE if the call is not successful, * OK otherwise. * * @return microphones array with microphones info */ getMicrophones() generates(Result retval, vec microphones); /** * Notifies the device module about the connection state of an input/output * device attached to it. Calling this method is equivalent to setting * AUDIO_PARAMETER_DEVICE_[DIS]CONNECT on the legacy HAL. * * @param address audio device specification. * @param connected whether the device is connected. * @return retval operation completion status. */ setConnectedState(DeviceAddress address, bool connected) generates (Result retval); };