/* * Copyright (C) 2016 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. */ /** * @addtogroup Audio * @{ */ /** * @file aaudio/AAudio.h */ /** * This is the 'C' API for AAudio. */ #ifndef AAUDIO_AAUDIO_H #define AAUDIO_AAUDIO_H #include #include #include #ifdef __cplusplus extern "C" { #endif /** * This is used to represent a value that has not been specified. * For example, an application could use {@link #AAUDIO_UNSPECIFIED} to indicate * that it did not care what the specific value of a parameter was * and would accept whatever it was given. */ #define AAUDIO_UNSPECIFIED 0 enum { /** * Audio data will travel out of the device, for example through a speaker. */ AAUDIO_DIRECTION_OUTPUT, /** * Audio data will travel into the device, for example from a microphone. */ AAUDIO_DIRECTION_INPUT }; typedef int32_t aaudio_direction_t; enum { AAUDIO_FORMAT_INVALID = -1, AAUDIO_FORMAT_UNSPECIFIED = 0, /** * This format uses the int16_t data type. * The maximum range of the data is -32768 (0x8000) to 32767 (0x7FFF). */ AAUDIO_FORMAT_PCM_I16, /** * This format uses the float data type. * The nominal range of the data is [-1.0f, 1.0f). * Values outside that range may be clipped. * * See also the float Data in * * write(float[], int, int, int). */ AAUDIO_FORMAT_PCM_FLOAT, /** * This format uses 24-bit samples packed into 3 bytes. * The bytes are in little-endian order, so the least significant byte * comes first in the byte array. * * The maximum range of the data is -8388608 (0x800000) * to 8388607 (0x7FFFFF). * * Note that the lower precision bits may be ignored by the device. * * Available since API level 31. */ AAUDIO_FORMAT_PCM_I24_PACKED, /** * This format uses 32-bit samples stored in an int32_t data type. * The maximum range of the data is -2147483648 (0x80000000) * to 2147483647 (0x7FFFFFFF). * * Note that the lower precision bits may be ignored by the device. * * Available since API level 31. */ AAUDIO_FORMAT_PCM_I32, /** * This format is used for compressed audio wrapped in IEC61937 for HDMI * or S/PDIF passthrough. * * Unlike PCM playback, the Android framework is not able to do format * conversion for IEC61937. In that case, when IEC61937 is requested, sampling * rate and channel count or channel mask must be specified. Otherwise, it may * fail when opening the stream. Apps are able to get the correct configuration * for the playback by calling * * AudioManager#getDevices(int). * * Available since API level 34. */ AAUDIO_FORMAT_IEC61937 }; typedef int32_t aaudio_format_t; /** * These result codes are returned from AAudio functions to indicate success or failure. * Note that error return codes may change in the future so applications should generally * not rely on specific return codes. */ enum { /** * The call was successful. */ AAUDIO_OK, /** * Reserved. This should not be returned. */ AAUDIO_ERROR_BASE = -900, /** * The audio device was disconnected. This could occur, for example, when headphones * are plugged in or unplugged. The stream cannot be used after the device is disconnected. * Applications should stop and close the stream. * If this error is received in an error callback then another thread should be * used to stop and close the stream. */ AAUDIO_ERROR_DISCONNECTED, /** * An invalid parameter was passed to AAudio. */ AAUDIO_ERROR_ILLEGAL_ARGUMENT, // reserved /** * An internal error occurred. */ AAUDIO_ERROR_INTERNAL = AAUDIO_ERROR_ILLEGAL_ARGUMENT + 2, /** * The requested operation is not appropriate for the current state of AAudio. */ AAUDIO_ERROR_INVALID_STATE, // reserved // reserved /** * The server rejected the handle used to identify the stream. */ AAUDIO_ERROR_INVALID_HANDLE = AAUDIO_ERROR_INVALID_STATE + 3, // reserved /** * The function is not implemented for this stream. */ AAUDIO_ERROR_UNIMPLEMENTED = AAUDIO_ERROR_INVALID_HANDLE + 2, /** * A resource or information is unavailable. * This could occur when an application tries to open too many streams, * or a timestamp is not available. */ AAUDIO_ERROR_UNAVAILABLE, /** * Reserved. This should not be returned. */ AAUDIO_ERROR_NO_FREE_HANDLES, /** * Memory could not be allocated. */ AAUDIO_ERROR_NO_MEMORY, /** * A NULL pointer was passed to AAudio. * Or a NULL pointer was detected internally. */ AAUDIO_ERROR_NULL, /** * An operation took longer than expected. */ AAUDIO_ERROR_TIMEOUT, /** * A queue is full. This queue would be blocked. */ AAUDIO_ERROR_WOULD_BLOCK, /** * The requested data format is not supported. */ AAUDIO_ERROR_INVALID_FORMAT, /** * A requested was out of range. */ AAUDIO_ERROR_OUT_OF_RANGE, /** * The audio service was not available. */ AAUDIO_ERROR_NO_SERVICE, /** * The requested sample rate was not supported. */ AAUDIO_ERROR_INVALID_RATE }; typedef int32_t aaudio_result_t; /** * AAudio Stream states, for details, refer to * Using an Audio Stream */ enum { /** * The stream is created but not initialized yet. */ AAUDIO_STREAM_STATE_UNINITIALIZED = 0, /** * The stream is in an unrecognized state. */ AAUDIO_STREAM_STATE_UNKNOWN, /** * The stream is open and ready to use. */ AAUDIO_STREAM_STATE_OPEN, /** * The stream is just starting up. */ AAUDIO_STREAM_STATE_STARTING, /** * The stream has started. */ AAUDIO_STREAM_STATE_STARTED, /** * The stream is pausing. */ AAUDIO_STREAM_STATE_PAUSING, /** * The stream has paused, could be restarted or flushed. */ AAUDIO_STREAM_STATE_PAUSED, /** * The stream is being flushed. */ AAUDIO_STREAM_STATE_FLUSHING, /** * The stream is flushed, ready to be restarted. */ AAUDIO_STREAM_STATE_FLUSHED, /** * The stream is stopping. */ AAUDIO_STREAM_STATE_STOPPING, /** * The stream has been stopped. */ AAUDIO_STREAM_STATE_STOPPED, /** * The stream is closing. */ AAUDIO_STREAM_STATE_CLOSING, /** * The stream has been closed. */ AAUDIO_STREAM_STATE_CLOSED, /** * The stream is disconnected from audio device. * @deprecated */ AAUDIO_STREAM_STATE_DISCONNECTED }; typedef int32_t aaudio_stream_state_t; enum { /** * This will be the only stream using a particular source or sink. * This mode will provide the lowest possible latency. * You should close EXCLUSIVE streams immediately when you are not using them. */ AAUDIO_SHARING_MODE_EXCLUSIVE, /** * Multiple applications will be mixed by the AAudio Server. * This will have higher latency than the EXCLUSIVE mode. */ AAUDIO_SHARING_MODE_SHARED }; typedef int32_t aaudio_sharing_mode_t; enum { /** * No particular performance needs. Default. */ AAUDIO_PERFORMANCE_MODE_NONE = 10, /** * Extending battery life is more important than low latency. * * This mode is not supported in input streams. * For input, mode NONE will be used if this is requested. */ AAUDIO_PERFORMANCE_MODE_POWER_SAVING, /** * Reducing latency is more important than battery life. */ AAUDIO_PERFORMANCE_MODE_LOW_LATENCY }; typedef int32_t aaudio_performance_mode_t; #define AAUDIO_SYSTEM_USAGE_OFFSET 1000 /** * The USAGE attribute expresses "why" you are playing a sound, what is this sound used for. * This information is used by certain platforms or routing policies * to make more refined volume or routing decisions. * * Note that these match the equivalent values in * AudioAttributes * in the Android Java API. * * Added in API level 28. */ enum { /** * Use this for streaming media, music performance, video, podcasts, etcetera. */ AAUDIO_USAGE_MEDIA = 1, /** * Use this for voice over IP, telephony, etcetera. */ AAUDIO_USAGE_VOICE_COMMUNICATION = 2, /** * Use this for sounds associated with telephony such as busy tones, DTMF, etcetera. */ AAUDIO_USAGE_VOICE_COMMUNICATION_SIGNALLING = 3, /** * Use this to demand the users attention. */ AAUDIO_USAGE_ALARM = 4, /** * Use this for notifying the user when a message has arrived or some * other background event has occured. */ AAUDIO_USAGE_NOTIFICATION = 5, /** * Use this when the phone rings. */ AAUDIO_USAGE_NOTIFICATION_RINGTONE = 6, /** * Use this to attract the users attention when, for example, the battery is low. */ AAUDIO_USAGE_NOTIFICATION_EVENT = 10, /** * Use this for screen readers, etcetera. */ AAUDIO_USAGE_ASSISTANCE_ACCESSIBILITY = 11, /** * Use this for driving or navigation directions. */ AAUDIO_USAGE_ASSISTANCE_NAVIGATION_GUIDANCE = 12, /** * Use this for user interface sounds, beeps, etcetera. */ AAUDIO_USAGE_ASSISTANCE_SONIFICATION = 13, /** * Use this for game audio and sound effects. */ AAUDIO_USAGE_GAME = 14, /** * Use this for audio responses to user queries, audio instructions or help utterances. */ AAUDIO_USAGE_ASSISTANT = 16, /** * Use this in case of playing sounds in an emergency. * Privileged MODIFY_AUDIO_ROUTING permission required. */ AAUDIO_SYSTEM_USAGE_EMERGENCY = AAUDIO_SYSTEM_USAGE_OFFSET, /** * Use this for safety sounds and alerts, for example backup camera obstacle detection. * Privileged MODIFY_AUDIO_ROUTING permission required. */ AAUDIO_SYSTEM_USAGE_SAFETY = AAUDIO_SYSTEM_USAGE_OFFSET + 1, /** * Use this for vehicle status alerts and information, for example the check engine light. * Privileged MODIFY_AUDIO_ROUTING permission required. */ AAUDIO_SYSTEM_USAGE_VEHICLE_STATUS = AAUDIO_SYSTEM_USAGE_OFFSET + 2, /** * Use this for traffic announcements, etc. * Privileged MODIFY_AUDIO_ROUTING permission required. */ AAUDIO_SYSTEM_USAGE_ANNOUNCEMENT = AAUDIO_SYSTEM_USAGE_OFFSET + 3, }; typedef int32_t aaudio_usage_t; /** * The CONTENT_TYPE attribute describes "what" you are playing. * It expresses the general category of the content. This information is optional. * But in case it is known (for instance AAUDIO_CONTENT_TYPE_MOVIE for a * movie streaming service or AAUDIO_CONTENT_TYPE_SPEECH for * an audio book application) this information might be used by the audio framework to * enforce audio focus. * * Note that these match the equivalent values in * AudioAttributes * in the Android Java API. * * Added in API level 28. */ enum { /** * Use this for spoken voice, audio books, etcetera. */ AAUDIO_CONTENT_TYPE_SPEECH = 1, /** * Use this for pre-recorded or live music. */ AAUDIO_CONTENT_TYPE_MUSIC = 2, /** * Use this for a movie or video soundtrack. */ AAUDIO_CONTENT_TYPE_MOVIE = 3, /** * Use this for sound is designed to accompany a user action, * such as a click or beep sound made when the user presses a button. */ AAUDIO_CONTENT_TYPE_SONIFICATION = 4 }; typedef int32_t aaudio_content_type_t; enum { /** * Constant indicating the audio content associated with these attributes will follow the * default platform behavior with regards to which content will be spatialized or not. */ AAUDIO_SPATIALIZATION_BEHAVIOR_AUTO = 1, /** * Constant indicating the audio content associated with these attributes should never * be spatialized. */ AAUDIO_SPATIALIZATION_BEHAVIOR_NEVER = 2, }; typedef int32_t aaudio_spatialization_behavior_t; /** * Defines the audio source. * An audio source defines both a default physical source of audio signal, and a recording * configuration. * * Note that these match the equivalent values in MediaRecorder.AudioSource in the Android Java API. * * Added in API level 28. */ enum { /** * Use this preset when other presets do not apply. */ AAUDIO_INPUT_PRESET_GENERIC = 1, /** * Use this preset when recording video. */ AAUDIO_INPUT_PRESET_CAMCORDER = 5, /** * Use this preset when doing speech recognition. */ AAUDIO_INPUT_PRESET_VOICE_RECOGNITION = 6, /** * Use this preset when doing telephony or voice messaging. */ AAUDIO_INPUT_PRESET_VOICE_COMMUNICATION = 7, /** * Use this preset to obtain an input with no effects. * Note that this input will not have automatic gain control * so the recorded volume may be very low. */ AAUDIO_INPUT_PRESET_UNPROCESSED = 9, /** * Use this preset for capturing audio meant to be processed in real time * and played back for live performance (e.g karaoke). * The capture path will minimize latency and coupling with playback path. * Available since API level 29. */ AAUDIO_INPUT_PRESET_VOICE_PERFORMANCE = 10, /** * Use this preset for an echo canceller to capture the reference signal. * Reserved for system components. * Requires CAPTURE_AUDIO_OUTPUT permission * Available since API level 35. */ AAUDIO_INPUT_PRESET_SYSTEM_ECHO_REFERENCE = 1997, /** * Use this preset for preemptible, low-priority software hotword detection. * Reserved for system components. * Requires CAPTURE_AUDIO_HOTWORD permission. * Available since API level 35. */ AAUDIO_INPUT_PRESET_SYSTEM_HOTWORD = 1999, }; typedef int32_t aaudio_input_preset_t; /** * Specifying if audio may or may not be captured by other apps or the system. * * Note that these match the equivalent values in * AudioAttributes * in the Android Java API. * * Added in API level 29. */ enum { /** * Indicates that the audio may be captured by any app. * * For privacy, the following usages can not be recorded: AAUDIO_VOICE_COMMUNICATION*, * AAUDIO_USAGE_NOTIFICATION*, AAUDIO_USAGE_ASSISTANCE* and {@link #AAUDIO_USAGE_ASSISTANT}. * * On Q, * this means only {@link #AAUDIO_USAGE_MEDIA} and {@link #AAUDIO_USAGE_GAME} may be captured. * * See * ALLOW_CAPTURE_BY_ALL. */ AAUDIO_ALLOW_CAPTURE_BY_ALL = 1, /** * Indicates that the audio may only be captured by system apps. * * System apps can capture for many purposes like accessibility, user guidance... * but have strong restriction. See * * ALLOW_CAPTURE_BY_SYSTEM * for what the system apps can do with the capture audio. */ AAUDIO_ALLOW_CAPTURE_BY_SYSTEM = 2, /** * Indicates that the audio may not be recorded by any app, even if it is a system app. * * It is encouraged to use {@link #AAUDIO_ALLOW_CAPTURE_BY_SYSTEM} instead of this value as system apps * provide significant and useful features for the user (eg. accessibility). * See * ALLOW_CAPTURE_BY_NONE. */ AAUDIO_ALLOW_CAPTURE_BY_NONE = 3, }; typedef int32_t aaudio_allowed_capture_policy_t; /** * These may be used with AAudioStreamBuilder_setSessionId(). * * Added in API level 28. */ enum { /** * Do not allocate a session ID. * Effects cannot be used with this stream. * Default. * * Added in API level 28. */ AAUDIO_SESSION_ID_NONE = -1, /** * Allocate a session ID that can be used to attach and control * effects using the Java AudioEffects API. * Note that using this may result in higher latency. * * Note that this matches the value of AudioManager.AUDIO_SESSION_ID_GENERATE. * * Added in API level 28. */ AAUDIO_SESSION_ID_ALLOCATE = 0, }; typedef int32_t aaudio_session_id_t; /** * Defines the audio channel mask. * Channel masks are used to describe the samples and their * arrangement in the audio frame. They are also used in the endpoint * (e.g. a USB audio interface, a DAC connected to headphones) to * specify allowable configurations of a particular device. * * Channel masks are for input only, output only, or both input and output. * These channel masks are different than those defined in AudioFormat.java. * If an app gets a channel mask from Java API and wants to use it in AAudio, * conversion should be done by the app. * * Added in API level 32. */ enum { /** * Invalid channel mask */ AAUDIO_CHANNEL_INVALID = -1, AAUDIO_CHANNEL_FRONT_LEFT = 1 << 0, AAUDIO_CHANNEL_FRONT_RIGHT = 1 << 1, AAUDIO_CHANNEL_FRONT_CENTER = 1 << 2, AAUDIO_CHANNEL_LOW_FREQUENCY = 1 << 3, AAUDIO_CHANNEL_BACK_LEFT = 1 << 4, AAUDIO_CHANNEL_BACK_RIGHT = 1 << 5, AAUDIO_CHANNEL_FRONT_LEFT_OF_CENTER = 1 << 6, AAUDIO_CHANNEL_FRONT_RIGHT_OF_CENTER = 1 << 7, AAUDIO_CHANNEL_BACK_CENTER = 1 << 8, AAUDIO_CHANNEL_SIDE_LEFT = 1 << 9, AAUDIO_CHANNEL_SIDE_RIGHT = 1 << 10, AAUDIO_CHANNEL_TOP_CENTER = 1 << 11, AAUDIO_CHANNEL_TOP_FRONT_LEFT = 1 << 12, AAUDIO_CHANNEL_TOP_FRONT_CENTER = 1 << 13, AAUDIO_CHANNEL_TOP_FRONT_RIGHT = 1 << 14, AAUDIO_CHANNEL_TOP_BACK_LEFT = 1 << 15, AAUDIO_CHANNEL_TOP_BACK_CENTER = 1 << 16, AAUDIO_CHANNEL_TOP_BACK_RIGHT = 1 << 17, AAUDIO_CHANNEL_TOP_SIDE_LEFT = 1 << 18, AAUDIO_CHANNEL_TOP_SIDE_RIGHT = 1 << 19, AAUDIO_CHANNEL_BOTTOM_FRONT_LEFT = 1 << 20, AAUDIO_CHANNEL_BOTTOM_FRONT_CENTER = 1 << 21, AAUDIO_CHANNEL_BOTTOM_FRONT_RIGHT = 1 << 22, AAUDIO_CHANNEL_LOW_FREQUENCY_2 = 1 << 23, AAUDIO_CHANNEL_FRONT_WIDE_LEFT = 1 << 24, AAUDIO_CHANNEL_FRONT_WIDE_RIGHT = 1 << 25, /** * Supported for Input and Output */ AAUDIO_CHANNEL_MONO = AAUDIO_CHANNEL_FRONT_LEFT, /** * Supported for Input and Output */ AAUDIO_CHANNEL_STEREO = AAUDIO_CHANNEL_FRONT_LEFT | AAUDIO_CHANNEL_FRONT_RIGHT, /** * Supported for only Output */ AAUDIO_CHANNEL_2POINT1 = AAUDIO_CHANNEL_FRONT_LEFT | AAUDIO_CHANNEL_FRONT_RIGHT | AAUDIO_CHANNEL_LOW_FREQUENCY, /** * Supported for only Output */ AAUDIO_CHANNEL_TRI = AAUDIO_CHANNEL_FRONT_LEFT | AAUDIO_CHANNEL_FRONT_RIGHT | AAUDIO_CHANNEL_FRONT_CENTER, /** * Supported for only Output */ AAUDIO_CHANNEL_TRI_BACK = AAUDIO_CHANNEL_FRONT_LEFT | AAUDIO_CHANNEL_FRONT_RIGHT | AAUDIO_CHANNEL_BACK_CENTER, /** * Supported for only Output */ AAUDIO_CHANNEL_3POINT1 = AAUDIO_CHANNEL_FRONT_LEFT | AAUDIO_CHANNEL_FRONT_RIGHT | AAUDIO_CHANNEL_FRONT_CENTER | AAUDIO_CHANNEL_LOW_FREQUENCY, /** * Supported for Input and Output */ AAUDIO_CHANNEL_2POINT0POINT2 = AAUDIO_CHANNEL_FRONT_LEFT | AAUDIO_CHANNEL_FRONT_RIGHT | AAUDIO_CHANNEL_TOP_SIDE_LEFT | AAUDIO_CHANNEL_TOP_SIDE_RIGHT, /** * Supported for Input and Output */ AAUDIO_CHANNEL_2POINT1POINT2 = AAUDIO_CHANNEL_2POINT0POINT2 | AAUDIO_CHANNEL_LOW_FREQUENCY, /** * Supported for Input and Output */ AAUDIO_CHANNEL_3POINT0POINT2 = AAUDIO_CHANNEL_FRONT_LEFT | AAUDIO_CHANNEL_FRONT_RIGHT | AAUDIO_CHANNEL_FRONT_CENTER | AAUDIO_CHANNEL_TOP_SIDE_LEFT | AAUDIO_CHANNEL_TOP_SIDE_RIGHT, /** * Supported for Input and Output */ AAUDIO_CHANNEL_3POINT1POINT2 = AAUDIO_CHANNEL_3POINT0POINT2 | AAUDIO_CHANNEL_LOW_FREQUENCY, /** * Supported for only Output */ AAUDIO_CHANNEL_QUAD = AAUDIO_CHANNEL_FRONT_LEFT | AAUDIO_CHANNEL_FRONT_RIGHT | AAUDIO_CHANNEL_BACK_LEFT | AAUDIO_CHANNEL_BACK_RIGHT, /** * Supported for only Output */ AAUDIO_CHANNEL_QUAD_SIDE = AAUDIO_CHANNEL_FRONT_LEFT | AAUDIO_CHANNEL_FRONT_RIGHT | AAUDIO_CHANNEL_SIDE_LEFT | AAUDIO_CHANNEL_SIDE_RIGHT, /** * Supported for only Output */ AAUDIO_CHANNEL_SURROUND = AAUDIO_CHANNEL_FRONT_LEFT | AAUDIO_CHANNEL_FRONT_RIGHT | AAUDIO_CHANNEL_FRONT_CENTER | AAUDIO_CHANNEL_BACK_CENTER, /** * Supported for only Output */ AAUDIO_CHANNEL_PENTA = AAUDIO_CHANNEL_QUAD | AAUDIO_CHANNEL_FRONT_CENTER, /** * Supported for Input and Output. aka 5POINT1_BACK */ AAUDIO_CHANNEL_5POINT1 = AAUDIO_CHANNEL_FRONT_LEFT | AAUDIO_CHANNEL_FRONT_RIGHT | AAUDIO_CHANNEL_FRONT_CENTER | AAUDIO_CHANNEL_LOW_FREQUENCY | AAUDIO_CHANNEL_BACK_LEFT | AAUDIO_CHANNEL_BACK_RIGHT, /** * Supported for only Output */ AAUDIO_CHANNEL_5POINT1_SIDE = AAUDIO_CHANNEL_FRONT_LEFT | AAUDIO_CHANNEL_FRONT_RIGHT | AAUDIO_CHANNEL_FRONT_CENTER | AAUDIO_CHANNEL_LOW_FREQUENCY | AAUDIO_CHANNEL_SIDE_LEFT | AAUDIO_CHANNEL_SIDE_RIGHT, /** * Supported for only Output */ AAUDIO_CHANNEL_6POINT1 = AAUDIO_CHANNEL_FRONT_LEFT | AAUDIO_CHANNEL_FRONT_RIGHT | AAUDIO_CHANNEL_FRONT_CENTER | AAUDIO_CHANNEL_LOW_FREQUENCY | AAUDIO_CHANNEL_BACK_LEFT | AAUDIO_CHANNEL_BACK_RIGHT | AAUDIO_CHANNEL_BACK_CENTER, /** * Supported for only Output */ AAUDIO_CHANNEL_7POINT1 = AAUDIO_CHANNEL_5POINT1 | AAUDIO_CHANNEL_SIDE_LEFT | AAUDIO_CHANNEL_SIDE_RIGHT, /** * Supported for only Output */ AAUDIO_CHANNEL_5POINT1POINT2 = AAUDIO_CHANNEL_5POINT1 | AAUDIO_CHANNEL_TOP_SIDE_LEFT | AAUDIO_CHANNEL_TOP_SIDE_RIGHT, /** * Supported for only Output */ AAUDIO_CHANNEL_5POINT1POINT4 = AAUDIO_CHANNEL_5POINT1 | AAUDIO_CHANNEL_TOP_FRONT_LEFT | AAUDIO_CHANNEL_TOP_FRONT_RIGHT | AAUDIO_CHANNEL_TOP_BACK_LEFT | AAUDIO_CHANNEL_TOP_BACK_RIGHT, /** * Supported for only Output */ AAUDIO_CHANNEL_7POINT1POINT2 = AAUDIO_CHANNEL_7POINT1 | AAUDIO_CHANNEL_TOP_SIDE_LEFT | AAUDIO_CHANNEL_TOP_SIDE_RIGHT, /** * Supported for only Output */ AAUDIO_CHANNEL_7POINT1POINT4 = AAUDIO_CHANNEL_7POINT1 | AAUDIO_CHANNEL_TOP_FRONT_LEFT | AAUDIO_CHANNEL_TOP_FRONT_RIGHT | AAUDIO_CHANNEL_TOP_BACK_LEFT | AAUDIO_CHANNEL_TOP_BACK_RIGHT, /** * Supported for only Output */ AAUDIO_CHANNEL_9POINT1POINT4 = AAUDIO_CHANNEL_7POINT1POINT4 | AAUDIO_CHANNEL_FRONT_WIDE_LEFT | AAUDIO_CHANNEL_FRONT_WIDE_RIGHT, /** * Supported for only Output */ AAUDIO_CHANNEL_9POINT1POINT6 = AAUDIO_CHANNEL_9POINT1POINT4 | AAUDIO_CHANNEL_TOP_SIDE_LEFT | AAUDIO_CHANNEL_TOP_SIDE_RIGHT, /** * Supported for only Input */ AAUDIO_CHANNEL_FRONT_BACK = AAUDIO_CHANNEL_FRONT_CENTER | AAUDIO_CHANNEL_BACK_CENTER, }; typedef uint32_t aaudio_channel_mask_t; typedef struct AAudioStreamStruct AAudioStream; typedef struct AAudioStreamBuilderStruct AAudioStreamBuilder; #ifndef AAUDIO_API #define AAUDIO_API /* export this symbol */ #endif // ============================================================ // Audio System // ============================================================ /** * The text is the ASCII symbol corresponding to the returnCode, * or an English message saying the returnCode is unrecognized. * This is intended for developers to use when debugging. * It is not for display to users. * * Available since API level 26. * * @return pointer to a text representation of an AAudio result code. */ AAUDIO_API const char * _Nonnull AAudio_convertResultToText(aaudio_result_t returnCode) __INTRODUCED_IN(26); /** * The text is the ASCII symbol corresponding to the stream state, * or an English message saying the state is unrecognized. * This is intended for developers to use when debugging. * It is not for display to users. * * Available since API level 26. * * @return pointer to a text representation of an AAudio state. */ AAUDIO_API const char * _Nonnull AAudio_convertStreamStateToText(aaudio_stream_state_t state) __INTRODUCED_IN(26); // ============================================================ // StreamBuilder // ============================================================ /** * Create a StreamBuilder that can be used to open a Stream. * * The deviceId is initially unspecified, meaning that the current default device will be used. * * The default direction is {@link #AAUDIO_DIRECTION_OUTPUT}. * The default sharing mode is {@link #AAUDIO_SHARING_MODE_SHARED}. * The data format, samplesPerFrames and sampleRate are unspecified and will be * chosen by the device when it is opened. * * AAudioStreamBuilder_delete() must be called when you are done using the builder. * * Available since API level 26. */ AAUDIO_API aaudio_result_t AAudio_createStreamBuilder(AAudioStreamBuilder* _Nullable* _Nonnull builder) __INTRODUCED_IN(26); /** * Request an audio device identified by an ID. * * The ID could be obtained from the Java AudioManager. * AudioManager.getDevices() returns an array of {@link AudioDeviceInfo}, * which contains a getId() method. That ID can be passed to this function. * * It is possible that you may not get the device that you requested. * So if it is important to you, you should call * AAudioStream_getDeviceId() after the stream is opened to * verify the actual ID. * * The default, if you do not call this function, is {@link #AAUDIO_UNSPECIFIED}, * in which case the primary device will be used. * * Available since API level 26. * * @param builder reference provided by AAudio_createStreamBuilder() * @param deviceId device identifier or {@link #AAUDIO_UNSPECIFIED} */ AAUDIO_API void AAudioStreamBuilder_setDeviceId(AAudioStreamBuilder* _Nonnull builder, int32_t deviceId) __INTRODUCED_IN(26); /** * Declare the name of the package creating the stream. * * This is usually {@code Context#getPackageName()}. * * The default, if you do not call this function, is a random package in the calling uid. * The vast majority of apps have only one package per calling UID. * If an invalid package name is set, input streams may not be given permission to * record when started. * * The package name is usually the applicationId in your app's build.gradle file. * * Available since API level 31. * * @param builder reference provided by AAudio_createStreamBuilder() * @param packageName packageName of the calling app. */ AAUDIO_API void AAudioStreamBuilder_setPackageName(AAudioStreamBuilder* _Nonnull builder, const char * _Nonnull packageName) __INTRODUCED_IN(31); /** * Declare the attribution tag of the context creating the stream. * * This is usually {@code Context#getAttributionTag()}. * * The default, if you do not call this function, is null. * * Available since API level 31. * * @param builder reference provided by AAudio_createStreamBuilder() * @param attributionTag attributionTag of the calling context. */ AAUDIO_API void AAudioStreamBuilder_setAttributionTag(AAudioStreamBuilder* _Nonnull builder, const char * _Nonnull attributionTag) __INTRODUCED_IN(31); /** * Request a sample rate in Hertz. * * The default, if you do not call this function, is {@link #AAUDIO_UNSPECIFIED}. * An optimal value will then be chosen when the stream is opened. * After opening a stream with an unspecified value, the application must * query for the actual value, which may vary by device. * * If an exact value is specified then an opened stream will use that value. * If a stream cannot be opened with the specified value then the open will fail. * * Available since API level 26. * * @param builder reference provided by AAudio_createStreamBuilder() * @param sampleRate frames per second. Common rates include 44100 and 48000 Hz. */ AAUDIO_API void AAudioStreamBuilder_setSampleRate(AAudioStreamBuilder* _Nonnull builder, int32_t sampleRate) __INTRODUCED_IN(26); /** * Request a number of channels for the stream. * * The default, if you do not call this function, is {@link #AAUDIO_UNSPECIFIED}. * An optimal value will then be chosen when the stream is opened. * After opening a stream with an unspecified value, the application must * query for the actual value, which may vary by device. * * If an exact value is specified then an opened stream will use that value. * If a stream cannot be opened with the specified value then the open will fail. * * As the channel count provided here may be different from the corresponding channel count * of channel mask used in {@link AAudioStreamBuilder_setChannelMask}, the last called function * will be respected if both this function and {@link AAudioStreamBuilder_setChannelMask} are * called. * * Note that if the channel count is two then it may get mixed to mono when the device only supports * one channel. If the channel count is greater than two but the device's supported channel count is * less than the requested value, the channels higher than the device channel will be dropped. If * higher channels should be mixed or spatialized, use {@link AAudioStreamBuilder_setChannelMask} * instead. * * Available since API level 26. * * @param builder reference provided by AAudio_createStreamBuilder() * @param channelCount Number of channels desired. */ AAUDIO_API void AAudioStreamBuilder_setChannelCount(AAudioStreamBuilder* _Nonnull builder, int32_t channelCount) __INTRODUCED_IN(26); /** * Identical to AAudioStreamBuilder_setChannelCount(). * * Available since API level 26. * * @param builder reference provided by AAudio_createStreamBuilder() * @param samplesPerFrame Number of samples in a frame. * * @deprecated use {@link AAudioStreamBuilder_setChannelCount} */ AAUDIO_API void AAudioStreamBuilder_setSamplesPerFrame(AAudioStreamBuilder* _Nonnull builder, int32_t samplesPerFrame) __INTRODUCED_IN(26); /** * Request a sample data format, for example {@link #AAUDIO_FORMAT_PCM_I16}. * * The default, if you do not call this function, is {@link #AAUDIO_UNSPECIFIED}. * An optimal value will then be chosen when the stream is opened. * After opening a stream with an unspecified value, the application must * query for the actual value, which may vary by device. * * If an exact value is specified then an opened stream will use that value. * If a stream cannot be opened with the specified value then the open will fail. * * Available since API level 26. * * @param builder reference provided by AAudio_createStreamBuilder() * @param format common formats are {@link #AAUDIO_FORMAT_PCM_FLOAT} and * {@link #AAUDIO_FORMAT_PCM_I16}. */ AAUDIO_API void AAudioStreamBuilder_setFormat(AAudioStreamBuilder* _Nonnull builder, aaudio_format_t format) __INTRODUCED_IN(26); /** * Request a mode for sharing the device. * * The default, if you do not call this function, is {@link #AAUDIO_SHARING_MODE_SHARED}. * * The requested sharing mode may not be available. * The application can query for the actual mode after the stream is opened. * * Available since API level 26. * * @param builder reference provided by AAudio_createStreamBuilder() * @param sharingMode {@link #AAUDIO_SHARING_MODE_SHARED} or {@link #AAUDIO_SHARING_MODE_EXCLUSIVE} */ AAUDIO_API void AAudioStreamBuilder_setSharingMode(AAudioStreamBuilder* _Nonnull builder, aaudio_sharing_mode_t sharingMode) __INTRODUCED_IN(26); /** * Request the direction for a stream. * * The default, if you do not call this function, is {@link #AAUDIO_DIRECTION_OUTPUT}. * * Available since API level 26. * * @param builder reference provided by AAudio_createStreamBuilder() * @param direction {@link #AAUDIO_DIRECTION_OUTPUT} or {@link #AAUDIO_DIRECTION_INPUT} */ AAUDIO_API void AAudioStreamBuilder_setDirection(AAudioStreamBuilder* _Nonnull builder, aaudio_direction_t direction) __INTRODUCED_IN(26); /** * Set the requested buffer capacity in frames. * The final AAudioStream capacity may differ, but will probably be at least this big. * * The default, if you do not call this function, is {@link #AAUDIO_UNSPECIFIED}. * * Available since API level 26. * * @param builder reference provided by AAudio_createStreamBuilder() * @param numFrames the desired buffer capacity in frames or {@link #AAUDIO_UNSPECIFIED} */ AAUDIO_API void AAudioStreamBuilder_setBufferCapacityInFrames( AAudioStreamBuilder* _Nonnull builder, int32_t numFrames) __INTRODUCED_IN(26); /** * Set the requested performance mode. * * Supported modes are {@link #AAUDIO_PERFORMANCE_MODE_NONE}, * {@link #AAUDIO_PERFORMANCE_MODE_POWER_SAVING} * and {@link #AAUDIO_PERFORMANCE_MODE_LOW_LATENCY}. * * The default, if you do not call this function, is {@link #AAUDIO_PERFORMANCE_MODE_NONE}. * * You may not get the mode you requested. * You can call AAudioStream_getPerformanceMode() * to find out the final mode for the stream. * * Available since API level 26. * * @param builder reference provided by AAudio_createStreamBuilder() * @param mode the desired performance mode, eg. {@link #AAUDIO_PERFORMANCE_MODE_LOW_LATENCY} */ AAUDIO_API void AAudioStreamBuilder_setPerformanceMode(AAudioStreamBuilder* _Nonnull builder, aaudio_performance_mode_t mode) __INTRODUCED_IN(26); /** * Set the intended use case for the output stream. * * The AAudio system will use this information to optimize the * behavior of the stream. * This could, for example, affect how volume and focus is handled for the stream. * * The default, if you do not call this function, is {@link #AAUDIO_USAGE_MEDIA}. * * If you set Usage then you will need to associate the volume keys with the resulting stream. * Otherwise the volume keys may not work correctly. * This is done in Java with the following code block. * *

if (Build.VERSION.SDK_INT >= Build.VERSION_CODES.O) {
 *     AudioAttributes attributes = new AudioAttributes.Builder().setUsage(usage)
 *             .setContentType(contentType).build();
 *     setVolumeControlStream(attributes.getVolumeControlStream());
 * }
 *

* * Available since API level 28. * * @param builder reference provided by AAudio_createStreamBuilder() * @param usage the desired usage, eg. {@link #AAUDIO_USAGE_GAME} */ AAUDIO_API void AAudioStreamBuilder_setUsage(AAudioStreamBuilder* _Nonnull builder, aaudio_usage_t usage) __INTRODUCED_IN(28); /** * Set the type of audio data that the output stream will carry. * * The AAudio system will use this information to optimize the * behavior of the stream. * This could, for example, affect whether a stream is paused when a notification occurs. * * The default, if you do not call this function, is {@link #AAUDIO_CONTENT_TYPE_MUSIC}. * * If you set ContentType then you will need to associate the volume keys with the resulting stream. * Otherwise the volume keys may not work correctly. * This is done in Java with the following code block. * *

if (Build.VERSION.SDK_INT >= Build.VERSION_CODES.O) {
 *     AudioAttributes attributes = new AudioAttributes.Builder().setUsage(usage)
 *             .setContentType(contentType).build();
 *     setVolumeControlStream(attributes.getVolumeControlStream());
 * }
 *

* * Available since API level 28. * * @param builder reference provided by AAudio_createStreamBuilder() * @param contentType the type of audio data, eg. {@link #AAUDIO_CONTENT_TYPE_SPEECH} */ AAUDIO_API void AAudioStreamBuilder_setContentType(AAudioStreamBuilder* _Nonnull builder, aaudio_content_type_t contentType) __INTRODUCED_IN(28); /** * Sets the behavior affecting whether spatialization will be used. * * The AAudio system will use this information to select whether the stream will go * through a spatializer effect or not when the effect is supported and enabled. * * Available since API level 32. * * @param builder reference provided by AAudio_createStreamBuilder() * @param spatializationBehavior the desired behavior with regards to spatialization, eg. * {@link #AAUDIO_SPATIALIZATION_BEHAVIOR_AUTO} */ AAUDIO_API void AAudioStreamBuilder_setSpatializationBehavior( AAudioStreamBuilder* _Nonnull builder, aaudio_spatialization_behavior_t spatializationBehavior) __INTRODUCED_IN(32); /** * Specifies whether the audio data of this output stream has already been processed for * spatialization. * * If the stream has been processed for spatialization, setting this to true will prevent * issues such as double-processing on platforms that will spatialize audio data. * * Available since API level 32. * * @param builder reference provided by AAudio_createStreamBuilder() * @param isSpatialized true if the content is already processed for binaural or transaural spatial * rendering, false otherwise. */ AAUDIO_API void AAudioStreamBuilder_setIsContentSpatialized(AAudioStreamBuilder* _Nonnull builder, bool isSpatialized) __INTRODUCED_IN(32); /** * Set the input (capture) preset for the stream. * * The AAudio system will use this information to optimize the * behavior of the stream. * This could, for example, affect which microphones are used and how the * recorded data is processed. * * The default, if you do not call this function, is {@link #AAUDIO_INPUT_PRESET_VOICE_RECOGNITION}. * That is because VOICE_RECOGNITION is the preset with the lowest latency * on many platforms. * * Available since API level 28. * * @param builder reference provided by AAudio_createStreamBuilder() * @param inputPreset the desired configuration for recording */ AAUDIO_API void AAudioStreamBuilder_setInputPreset(AAudioStreamBuilder* _Nonnull builder, aaudio_input_preset_t inputPreset) __INTRODUCED_IN(28); /** * Specify whether this stream audio may or may not be captured by other apps or the system. * * The default is {@link #AAUDIO_ALLOW_CAPTURE_BY_ALL}. * * Note that an application can also set its global policy, in which case the most restrictive * policy is always applied. See * * setAllowedCapturePolicy(int) * * Available since API level 29. * * @param builder reference provided by AAudio_createStreamBuilder() * @param capturePolicy the desired level of opt-out from being captured. */ AAUDIO_API void AAudioStreamBuilder_setAllowedCapturePolicy(AAudioStreamBuilder* _Nonnull builder, aaudio_allowed_capture_policy_t capturePolicy) __INTRODUCED_IN(29); /** Set the requested session ID. * * The session ID can be used to associate a stream with effects processors. * The effects are controlled using the Android AudioEffect Java API. * * The default, if you do not call this function, is {@link #AAUDIO_SESSION_ID_NONE}. * * If set to {@link #AAUDIO_SESSION_ID_ALLOCATE} then a session ID will be allocated * when the stream is opened. * * The allocated session ID can be obtained by calling AAudioStream_getSessionId() * and then used with this function when opening another stream. * This allows effects to be shared between streams. * * Session IDs from AAudio can be used with the Android Java APIs and vice versa. * So a session ID from an AAudio stream can be passed to Java * and effects applied using the Java AudioEffect API. * * Note that allocating or setting a session ID may result in a stream with higher latency. * * Allocated session IDs will always be positive and nonzero. * * Available since API level 28. * * @param builder reference provided by AAudio_createStreamBuilder() * @param sessionId an allocated sessionID or {@link #AAUDIO_SESSION_ID_ALLOCATE} */ AAUDIO_API void AAudioStreamBuilder_setSessionId(AAudioStreamBuilder* _Nonnull builder, aaudio_session_id_t sessionId) __INTRODUCED_IN(28); /** Indicates whether this input stream must be marked as privacy sensitive or not. * * When true, this input stream is privacy sensitive and any concurrent capture * is not permitted. * * This is off (false) by default except when the input preset is {@link #AAUDIO_INPUT_PRESET_VOICE_COMMUNICATION} * or {@link #AAUDIO_INPUT_PRESET_CAMCORDER}. * * Always takes precedence over default from input preset when set explicitly. * * Only relevant if the stream direction is {@link #AAUDIO_DIRECTION_INPUT}. * * Added in API level 30. * * @param builder reference provided by AAudio_createStreamBuilder() * @param privacySensitive true if capture from this stream must be marked as privacy sensitive, * false otherwise. */ AAUDIO_API void AAudioStreamBuilder_setPrivacySensitive(AAudioStreamBuilder* _Nonnull builder, bool privacySensitive) __INTRODUCED_IN(30); /** * Return one of these values from the data callback function. */ enum { /** * Continue calling the callback. */ AAUDIO_CALLBACK_RESULT_CONTINUE = 0, /** * Stop calling the callback. * * The application will still need to call AAudioStream_requestPause() * or AAudioStream_requestStop(). */ AAUDIO_CALLBACK_RESULT_STOP, }; typedef int32_t aaudio_data_callback_result_t; /** * Prototype for the data function that is passed to AAudioStreamBuilder_setDataCallback(). * * For an output stream, this function should render and write numFrames of data * in the streams current data format to the audioData buffer. * * For an input stream, this function should read and process numFrames of data * from the audioData buffer. The data in the audioData buffer must not be modified * directly. Instead, it should be copied to another buffer before doing any modification. * In many cases, writing to the audioData buffer of an input stream will result in a * native exception. * * The audio data is passed through the buffer. So do NOT call AAudioStream_read() or * AAudioStream_write() on the stream that is making the callback. * * Note that numFrames can vary unless AAudioStreamBuilder_setFramesPerDataCallback() * is called. * * Also note that this callback function should be considered a "real-time" function. * It must not do anything that could cause an unbounded delay because that can cause the * audio to glitch or pop. * * These are things the function should NOT do: *

allocate memory using, for example, malloc() or new
any file operations such as opening, closing, reading or writing
any network operations such as streaming
use any mutexes or other synchronization primitives
sleep
stop or close the stream
AAudioStream_read()
AAudioStream_write()

* * The following are OK to call from the data callback: *

AAudioStream_get*()
AAudio_convertResultToText()

* * If you need to move data, eg. MIDI commands, in or out of the callback function then * we recommend the use of non-blocking techniques such as an atomic FIFO. * * @param stream reference provided by AAudioStreamBuilder_openStream() * @param userData the same address that was passed to AAudioStreamBuilder_setCallback() * @param audioData a pointer to the audio data * @param numFrames the number of frames to be processed, which can vary * @return AAUDIO_CALLBACK_RESULT_* */ typedef aaudio_data_callback_result_t (*AAudioStream_dataCallback)( AAudioStream* _Nonnull stream, void* _Nullable userData, void* _Nonnull audioData, int32_t numFrames); /** * Request that AAudio call this functions when the stream is running. * * Note that when using this callback, the audio data will be passed in or out * of the function as an argument. * So you cannot call AAudioStream_write() or AAudioStream_read() * on the same stream that has an active data callback. * * The callback function will start being called after AAudioStream_requestStart() * is called. * It will stop being called after AAudioStream_requestPause() or * AAudioStream_requestStop() is called. * * This callback function will be called on a real-time thread owned by AAudio. * The low latency streams may have callback threads with higher priority than normal streams. * See {@link #AAudioStream_dataCallback} for more information. * * Note that the AAudio callbacks will never be called simultaneously from multiple threads. * * Available since API level 26. * * @param builder reference provided by AAudio_createStreamBuilder() * @param callback pointer to a function that will process audio data. * @param userData pointer to an application data structure that will be passed * to the callback functions. */ AAUDIO_API void AAudioStreamBuilder_setDataCallback(AAudioStreamBuilder* _Nonnull builder, AAudioStream_dataCallback _Nullable callback, void* _Nullable userData) __INTRODUCED_IN(26); /** * Set the requested data callback buffer size in frames. * See {@link #AAudioStream_dataCallback}. * * The default, if you do not call this function, is {@link #AAUDIO_UNSPECIFIED}. * * For the lowest possible latency, do not call this function. AAudio will then * call the dataProc callback function with whatever size is optimal. * That size may vary from one callback to another. * * Only use this function if the application requires a specific number of frames for processing. * The application might, for example, be using an FFT that requires * a specific power-of-two sized buffer. * * AAudio may need to add additional buffering in order to adapt between the internal * buffer size and the requested buffer size. * * If you do call this function then the requested size should be less than * half the buffer capacity, to allow double buffering. * * Available since API level 26. * * @param builder reference provided by AAudio_createStreamBuilder() * @param numFrames the desired buffer size in frames or {@link #AAUDIO_UNSPECIFIED} */ AAUDIO_API void AAudioStreamBuilder_setFramesPerDataCallback(AAudioStreamBuilder* _Nonnull builder, int32_t numFrames) __INTRODUCED_IN(26); /** * Prototype for the callback function that is passed to * AAudioStreamBuilder_setErrorCallback(). * * The following may NOT be called from the error callback: *

AAudioStream_requestStop()
AAudioStream_requestPause()
AAudioStream_close()
AAudioStream_waitForStateChange()
AAudioStream_read()
AAudioStream_write()

* * The following are OK to call from the error callback: *

AAudioStream_get*()
AAudio_convertResultToText()

* * @param stream reference provided by AAudioStreamBuilder_openStream() * @param userData the same address that was passed to AAudioStreamBuilder_setErrorCallback() * @param error an AAUDIO_ERROR_* value. */ typedef void (*AAudioStream_errorCallback)( AAudioStream* _Nonnull stream, void* _Nullable userData, aaudio_result_t error); /** * Request that AAudio call this function if any error occurs or the stream is disconnected. * * It will be called, for example, if a headset or a USB device is unplugged causing the stream's * device to be unavailable or "disconnected". * Another possible cause of error would be a timeout or an unanticipated internal error. * * In response, this function should signal or create another thread to stop * and close this stream. The other thread could then reopen a stream on another device. * Do not stop or close the stream, or reopen the new stream, directly from this callback. * * This callback will not be called because of actions by the application, such as stopping * or closing a stream. * * Note that the AAudio callbacks will never be called simultaneously from multiple threads. * * Available since API level 26. * * @param builder reference provided by AAudio_createStreamBuilder() * @param callback pointer to a function that will be called if an error occurs. * @param userData pointer to an application data structure that will be passed * to the callback functions. */ AAUDIO_API void AAudioStreamBuilder_setErrorCallback(AAudioStreamBuilder* _Nonnull builder, AAudioStream_errorCallback _Nullable callback, void* _Nullable userData) __INTRODUCED_IN(26); /** * Open a stream based on the options in the StreamBuilder. * * AAudioStream_close() must be called when finished with the stream to recover * the memory and to free the associated resources. * * Available since API level 26. * * @param builder reference provided by AAudio_createStreamBuilder() * @param stream pointer to a variable to receive the new stream reference * @return {@link #AAUDIO_OK} or a negative error. */ AAUDIO_API aaudio_result_t AAudioStreamBuilder_openStream(AAudioStreamBuilder* _Nonnull builder, AAudioStream* _Nullable* _Nonnull stream) __INTRODUCED_IN(26); /** * Delete the resources associated with the StreamBuilder. * * Available since API level 26. * * @param builder reference provided by AAudio_createStreamBuilder() * @return {@link #AAUDIO_OK} or a negative error. */ AAUDIO_API aaudio_result_t AAudioStreamBuilder_delete(AAudioStreamBuilder* _Nonnull builder) __INTRODUCED_IN(26); /** * Set audio channel mask for the stream. * * The default, if you do not call this function, is {@link #AAUDIO_UNSPECIFIED}. * If both channel mask and count are not set, then stereo will then be chosen when the * stream is opened. * After opening a stream with an unspecified value, the application must query for the * actual value, which may vary by device. * * If an exact value is specified then an opened stream will use that value. * If a stream cannot be opened with the specified value then the open will fail. * * As the corresponding channel count of provided channel mask here may be different * from the channel count used in {@link AAudioStreamBuilder_setChannelCount} or * {@link AAudioStreamBuilder_setSamplesPerFrame}, the last called function will be * respected if this function and {@link AAudioStreamBuilder_setChannelCount} or * {@link AAudioStreamBuilder_setSamplesPerFrame} are called. * * Available since API level 32. * * @param builder reference provided by AAudio_createStreamBuilder() * @param channelMask Audio channel mask desired. */ AAUDIO_API void AAudioStreamBuilder_setChannelMask(AAudioStreamBuilder* _Nonnull builder, aaudio_channel_mask_t channelMask) __INTRODUCED_IN(32); // ============================================================ // Stream Control // ============================================================ /** * Free the audio resources associated with a stream created by * AAudioStreamBuilder_openStream(). * AAudioStream_close() should be called at some point after calling * this function. * * After this call, the stream will be in {@link #AAUDIO_STREAM_STATE_CLOSING} * * This function is useful if you want to release the audio resources immediately, * but still allow queries to the stream to occur from other threads. This often * happens if you are monitoring stream progress from a UI thread. * * NOTE: This function is only fully implemented for MMAP streams, * which are low latency streams supported by some devices. * On other "Legacy" streams some audio resources will still be in use * and some callbacks may still be in process after this call. * * Available since API level 30. * * @param stream reference provided by AAudioStreamBuilder_openStream() * @return {@link #AAUDIO_OK} or a negative error. */ AAUDIO_API aaudio_result_t AAudioStream_release(AAudioStream* _Nonnull stream) __INTRODUCED_IN(30); /** * Delete the internal data structures associated with the stream created * by AAudioStreamBuilder_openStream(). * * If AAudioStream_release() has not been called then it will be called automatically. * * Available since API level 26. * * @param stream reference provided by AAudioStreamBuilder_openStream() * @return {@link #AAUDIO_OK} or a negative error. */ AAUDIO_API aaudio_result_t AAudioStream_close(AAudioStream* _Nonnull stream) __INTRODUCED_IN(26); /** * Asynchronously request to start playing the stream. For output streams, one should * write to the stream to fill the buffer before starting. * Otherwise it will underflow. * After this call the state will be in {@link #AAUDIO_STREAM_STATE_STARTING} or * {@link #AAUDIO_STREAM_STATE_STARTED}. * * Available since API level 26. * * @param stream reference provided by AAudioStreamBuilder_openStream() * @return {@link #AAUDIO_OK} or a negative error. */ AAUDIO_API aaudio_result_t AAudioStream_requestStart(AAudioStream* _Nonnull stream) __INTRODUCED_IN(26); /** * Asynchronous request for the stream to pause. * Pausing a stream will freeze the data flow but not flush any buffers. * Use AAudioStream_requestStart() to resume playback after a pause. * After this call the state will be in {@link #AAUDIO_STREAM_STATE_PAUSING} or * {@link #AAUDIO_STREAM_STATE_PAUSED}. * * This will return {@link #AAUDIO_ERROR_UNIMPLEMENTED} for input streams. * For input streams use AAudioStream_requestStop(). * * Available since API level 26. * * @param stream reference provided by AAudioStreamBuilder_openStream() * @return {@link #AAUDIO_OK} or a negative error. */ AAUDIO_API aaudio_result_t AAudioStream_requestPause(AAudioStream* _Nonnull stream) __INTRODUCED_IN(26); /** * Asynchronous request for the stream to flush. * Flushing will discard any pending data. * This call only works if the stream is OPEN, PAUSED, STOPPED, or FLUSHED. * Calling this function when in other states, * or calling from an AAudio callback function, * will have no effect and an error will be returned. * Frame counters are not reset by a flush. They may be advanced. * After this call the state will be in {@link #AAUDIO_STREAM_STATE_FLUSHING} or * {@link #AAUDIO_STREAM_STATE_FLUSHED}. * * This will return {@link #AAUDIO_ERROR_UNIMPLEMENTED} for input streams. * * Available since API level 26. * * @param stream reference provided by AAudioStreamBuilder_openStream() * @return {@link #AAUDIO_OK} or a negative error. */ AAUDIO_API aaudio_result_t AAudioStream_requestFlush(AAudioStream* _Nonnull stream) __INTRODUCED_IN(26); /** * Asynchronous request for the stream to stop. * The stream will stop after all of the data currently buffered has been played. * After this call the state will be in {@link #AAUDIO_STREAM_STATE_STOPPING} or * {@link #AAUDIO_STREAM_STATE_STOPPED}. * * Available since API level 26. * * @param stream reference provided by AAudioStreamBuilder_openStream() * @return {@link #AAUDIO_OK} or a negative error. */ AAUDIO_API aaudio_result_t AAudioStream_requestStop(AAudioStream* _Nonnull stream) __INTRODUCED_IN(26); /** * Query the current state of the client, eg. {@link #AAUDIO_STREAM_STATE_PAUSING} * * This function will immediately return the state without updating the state. * If you want to update the client state based on the server state then * call AAudioStream_waitForStateChange() with currentState * set to {@link #AAUDIO_STREAM_STATE_UNKNOWN} and a zero timeout. * * Available since API level 26. * * @param stream reference provided by AAudioStreamBuilder_openStream() */ AAUDIO_API aaudio_stream_state_t AAudioStream_getState(AAudioStream* _Nonnull stream) __INTRODUCED_IN(26); /** * Wait until the current state no longer matches the input state. * * This will update the current client state. * *


 * aaudio_result_t result = AAUDIO_OK;
 * aaudio_stream_state_t currentState = AAudioStream_getState(stream);
 * aaudio_stream_state_t inputState = currentState;
 * while (result == AAUDIO_OK && currentState != AAUDIO_STREAM_STATE_PAUSED) {
 *     result = AAudioStream_waitForStateChange(
 *                                   stream, inputState, ¤tState, MY_TIMEOUT_NANOS);
 *     inputState = currentState;
 * }
 *

* * Available since API level 26. * * @param stream A reference provided by AAudioStreamBuilder_openStream() * @param inputState The state we want to avoid. * @param nextState Pointer to a variable that will be set to the new state. * @param timeoutNanoseconds Maximum number of nanoseconds to wait for completion. * @return {@link #AAUDIO_OK} or a negative error. */ AAUDIO_API aaudio_result_t AAudioStream_waitForStateChange(AAudioStream* _Nonnull stream, aaudio_stream_state_t inputState, aaudio_stream_state_t* _Nullable nextState, int64_t timeoutNanoseconds) __INTRODUCED_IN(26); // ============================================================ // Stream I/O // ============================================================ /** * Read data from the stream. * * The call will wait until the read is complete or until it runs out of time. * If timeoutNanos is zero then this call will not wait. * * Note that timeoutNanoseconds is a relative duration in wall clock time. * Time will not stop if the thread is asleep. * So it will be implemented using CLOCK_BOOTTIME. * * This call is "strong non-blocking" unless it has to wait for data. * * If the call times out then zero or a partial frame count will be returned. * * Available since API level 26. * * @param stream A stream created using AAudioStreamBuilder_openStream(). * @param buffer The address of the first sample. * @param numFrames Number of frames to read. Only complete frames will be written. * @param timeoutNanoseconds Maximum number of nanoseconds to wait for completion. * @return The number of frames actually read or a negative error. */ AAUDIO_API aaudio_result_t AAudioStream_read(AAudioStream* _Nonnull stream, void* _Nonnull buffer, int32_t numFrames, int64_t timeoutNanoseconds) __INTRODUCED_IN(26); /** * Write data to the stream. * * The call will wait until the write is complete or until it runs out of time. * If timeoutNanos is zero then this call will not wait. * * Note that timeoutNanoseconds is a relative duration in wall clock time. * Time will not stop if the thread is asleep. * So it will be implemented using CLOCK_BOOTTIME. * * This call is "strong non-blocking" unless it has to wait for room in the buffer. * * If the call times out then zero or a partial frame count will be returned. * * Available since API level 26. * * @param stream A stream created using AAudioStreamBuilder_openStream(). * @param buffer The address of the first sample. * @param numFrames Number of frames to write. Only complete frames will be written. * @param timeoutNanoseconds Maximum number of nanoseconds to wait for completion. * @return The number of frames actually written or a negative error. */ AAUDIO_API aaudio_result_t AAudioStream_write(AAudioStream* _Nonnull stream, const void* _Nonnull buffer, int32_t numFrames, int64_t timeoutNanoseconds) __INTRODUCED_IN(26); // ============================================================ // Stream - queries // ============================================================ /** * This can be used to adjust the latency of the buffer by changing * the threshold where blocking will occur. * By combining this with AAudioStream_getXRunCount(), the latency can be tuned * at run-time for each device. * * This cannot be set higher than AAudioStream_getBufferCapacityInFrames(). * * Note that you will probably not get the exact size you request. * You can check the return value or call AAudioStream_getBufferSizeInFrames() * to see what the actual final size is. * * Available since API level 26. * * @param stream reference provided by AAudioStreamBuilder_openStream() * @param numFrames requested number of frames that can be filled without blocking * @return actual buffer size in frames or a negative error */ AAUDIO_API aaudio_result_t AAudioStream_setBufferSizeInFrames(AAudioStream* _Nonnull stream, int32_t numFrames) __INTRODUCED_IN(26); /** * Query the maximum number of frames that can be filled without blocking. * * Available since API level 26. * * @param stream reference provided by AAudioStreamBuilder_openStream() * @return buffer size in frames. */ AAUDIO_API int32_t AAudioStream_getBufferSizeInFrames(AAudioStream* _Nonnull stream) __INTRODUCED_IN(26); /** * Query the number of frames that the application should read or write at * one time for optimal performance. It is OK if an application writes * a different number of frames. But the buffer size may need to be larger * in order to avoid underruns or overruns. * * Note that this may or may not match the actual device burst size. * For some endpoints, the burst size can vary dynamically. * But these tend to be devices with high latency. * * Available since API level 26. * * @param stream reference provided by AAudioStreamBuilder_openStream() * @return burst size */ AAUDIO_API int32_t AAudioStream_getFramesPerBurst(AAudioStream* _Nonnull stream) __INTRODUCED_IN(26); /** * Query maximum buffer capacity in frames. * * Available since API level 26. * * @param stream reference provided by AAudioStreamBuilder_openStream() * @return buffer capacity in frames */ AAUDIO_API int32_t AAudioStream_getBufferCapacityInFrames(AAudioStream* _Nonnull stream) __INTRODUCED_IN(26); /** * Query the size of the buffer that will be passed to the dataProc callback * in the numFrames parameter. * * This call can be used if the application needs to know the value of numFrames before * the stream is started. This is not normally necessary. * * If a specific size was requested by calling * AAudioStreamBuilder_setFramesPerDataCallback() then this will be the same size. * * If AAudioStreamBuilder_setFramesPerDataCallback() was not called then this will * return the size chosen by AAudio, or {@link #AAUDIO_UNSPECIFIED}. * * {@link #AAUDIO_UNSPECIFIED} indicates that the callback buffer size for this stream * may vary from one dataProc callback to the next. * * Available since API level 26. * * @param stream reference provided by AAudioStreamBuilder_openStream() * @return callback buffer size in frames or {@link #AAUDIO_UNSPECIFIED} */ AAUDIO_API int32_t AAudioStream_getFramesPerDataCallback(AAudioStream* _Nonnull stream) __INTRODUCED_IN(26); /** * An XRun is an Underrun or an Overrun. * During playing, an underrun will occur if the stream is not written in time * and the system runs out of valid data. * During recording, an overrun will occur if the stream is not read in time * and there is no place to put the incoming data so it is discarded. * * An underrun or overrun can cause an audible "pop" or "glitch". * * Note that some INPUT devices may not support this function. * In that case a 0 will always be returned. * * Available since API level 26. * * @param stream reference provided by AAudioStreamBuilder_openStream() * @return the underrun or overrun count */ AAUDIO_API int32_t AAudioStream_getXRunCount(AAudioStream* _Nonnull stream) __INTRODUCED_IN(26); /** * Available since API level 26. * * @param stream reference provided by AAudioStreamBuilder_openStream() * @return actual sample rate of the stream */ AAUDIO_API int32_t AAudioStream_getSampleRate(AAudioStream* _Nonnull stream) __INTRODUCED_IN(26); /** * There may be sample rate conversions in the Audio framework. * The sample rate set in the stream builder may not be actual sample rate used in the hardware. * * This returns the sample rate used by the hardware in Hertz. * * If AAudioStreamBuilder_openStream() returned AAUDIO_OK, the result should always be valid. * * Available since API level 34. * * @param stream reference provided by AAudioStreamBuilder_openStream() * @return actual sample rate of the underlying hardware */ AAUDIO_API int32_t AAudioStream_getHardwareSampleRate(AAudioStream* _Nonnull stream) __INTRODUCED_IN(__ANDROID_API_U__); /** * A stream has one or more channels of data. * A frame will contain one sample for each channel. * * Available since API level 26. * * @param stream reference provided by AAudioStreamBuilder_openStream() * @return actual number of channels of the stream */ AAUDIO_API int32_t AAudioStream_getChannelCount(AAudioStream* _Nonnull stream) __INTRODUCED_IN(26); /** * There may be channel conversions in the Audio framework. * The channel count or channel mask set in the stream builder may not be actual number of * channels used in the hardware. * * This returns the channel count used by the hardware. * * If AAudioStreamBuilder_openStream() returned AAUDIO_OK, the result should always be valid. * * Available since API level 34. * * @param stream reference provided by AAudioStreamBuilder_openStream() * @return actual number of channels of the underlying hardware */ AAUDIO_API int32_t AAudioStream_getHardwareChannelCount(AAudioStream* _Nonnull stream) __INTRODUCED_IN(__ANDROID_API_U__); /** * Identical to AAudioStream_getChannelCount(). * * Available since API level 26. * * @param stream reference provided by AAudioStreamBuilder_openStream() * @return actual number of samples frame */ AAUDIO_API int32_t AAudioStream_getSamplesPerFrame(AAudioStream* _Nonnull stream) __INTRODUCED_IN(26); /** * Available since API level 26. * * @param stream reference provided by AAudioStreamBuilder_openStream() * @return actual device ID */ AAUDIO_API int32_t AAudioStream_getDeviceId(AAudioStream* _Nonnull stream) __INTRODUCED_IN(26); /** * Available since API level 26. * * @param stream reference provided by AAudioStreamBuilder_openStream() * @return actual data format of the stream */ AAUDIO_API aaudio_format_t AAudioStream_getFormat(AAudioStream* _Nonnull stream) __INTRODUCED_IN(26); /** * There may be data format conversions in the Audio framework. * The data format set in the stream builder may not be actual format used in the hardware. * * This returns the audio format used by the hardware. * * If AAudioStreamBuilder_openStream() returned AAUDIO_OK, this should always return an * aaudio_format_t. * * AUDIO_FORMAT_PCM_8_24_BIT is currently not supported in AAudio, but the hardware may use it. * If AUDIO_FORMAT_PCM_8_24_BIT is used by the hardware, return AAUDIO_FORMAT_PCM_I24_PACKED. * * If any other format used by the hardware is not supported by AAudio, this will return * AAUDIO_FORMAT_INVALID. * * Available since API level 34. * * @param stream reference provided by AAudioStreamBuilder_openStream() * @return actual data format of the underlying hardware. */ AAUDIO_API aaudio_format_t AAudioStream_getHardwareFormat(AAudioStream* _Nonnull stream) __INTRODUCED_IN(__ANDROID_API_U__); /** * Provide actual sharing mode. * * Available since API level 26. * * @param stream reference provided by AAudioStreamBuilder_openStream() * @return actual sharing mode */ AAUDIO_API aaudio_sharing_mode_t AAudioStream_getSharingMode(AAudioStream* _Nonnull stream) __INTRODUCED_IN(26); /** * Get the performance mode used by the stream. * * Available since API level 26. * * @param stream reference provided by AAudioStreamBuilder_openStream() */ AAUDIO_API aaudio_performance_mode_t AAudioStream_getPerformanceMode(AAudioStream* _Nonnull stream) __INTRODUCED_IN(26); /** * Available since API level 26. * * @param stream reference provided by AAudioStreamBuilder_openStream() * @return direction */ AAUDIO_API aaudio_direction_t AAudioStream_getDirection(AAudioStream* _Nonnull stream) __INTRODUCED_IN(26); /** * Passes back the number of frames that have been written since the stream was created. * For an output stream, this will be advanced by the application calling write() * or by a data callback. * For an input stream, this will be advanced by the endpoint. * * The frame position is monotonically increasing. * * Available since API level 26. * * @param stream reference provided by AAudioStreamBuilder_openStream() * @return frames written */ AAUDIO_API int64_t AAudioStream_getFramesWritten(AAudioStream* _Nonnull stream) __INTRODUCED_IN(26); /** * Passes back the number of frames that have been read since the stream was created. * For an output stream, this will be advanced by the endpoint. * For an input stream, this will be advanced by the application calling read() * or by a data callback. * * The frame position is monotonically increasing. * * Available since API level 26. * * @param stream reference provided by AAudioStreamBuilder_openStream() * @return frames read */ AAUDIO_API int64_t AAudioStream_getFramesRead(AAudioStream* _Nonnull stream) __INTRODUCED_IN(26); /** * Passes back the session ID associated with this stream. * * The session ID can be used to associate a stream with effects processors. * The effects are controlled using the Android AudioEffect Java API. * * If AAudioStreamBuilder_setSessionId() was * called with {@link #AAUDIO_SESSION_ID_ALLOCATE} * then a new session ID should be allocated once when the stream is opened. * * If AAudioStreamBuilder_setSessionId() was called with a previously allocated * session ID then that value should be returned. * * If AAudioStreamBuilder_setSessionId() was not called then this function should * return {@link #AAUDIO_SESSION_ID_NONE}. * * The sessionID for a stream should not change once the stream has been opened. * * Available since API level 28. * * @param stream reference provided by AAudioStreamBuilder_openStream() * @return session ID or {@link #AAUDIO_SESSION_ID_NONE} */ AAUDIO_API aaudio_session_id_t AAudioStream_getSessionId(AAudioStream* _Nonnull stream) __INTRODUCED_IN(28); /** * Returns the time at which a particular frame was played on a speaker or headset, * or was recorded on a microphone. * * This can be used to synchronize audio with video or MIDI. * It can also be used to align a recorded stream with a playback stream. * * The framePosition is an index into the stream of audio data. * The first frame played or recorded is at framePosition 0. * * These framePositions are the same units that you get from AAudioStream_getFramesRead() * or AAudioStream_getFramesWritten(). * A "frame" is a set of audio sample values that are played simultaneously. * For example, a stereo stream has two samples in a frame, left and right. * * Timestamps are only valid when the stream is in {@link #AAUDIO_STREAM_STATE_STARTED}. * {@link #AAUDIO_ERROR_INVALID_STATE} will be returned if the stream is not started. * Note that because requestStart() is asynchronous, timestamps will not be valid until * a short time after calling requestStart(). * So {@link #AAUDIO_ERROR_INVALID_STATE} should not be considered a fatal error. * Just try calling again later. * * If an error occurs, then the position and time will not be modified. * * The position and time passed back are monotonically increasing. * * Available since API level 26. * * @param stream reference provided by AAudioStreamBuilder_openStream() * @param clockid CLOCK_MONOTONIC or CLOCK_BOOTTIME * @param[out] framePosition pointer to a variable to receive the position * @param[out] timeNanoseconds pointer to a variable to receive the time * @return {@link #AAUDIO_OK} or a negative error */ AAUDIO_API aaudio_result_t AAudioStream_getTimestamp(AAudioStream* _Nonnull stream, clockid_t clockid, int64_t* _Nonnull framePosition, int64_t* _Nonnull timeNanoseconds) __INTRODUCED_IN(26); /** * Return the use case for the stream. * * Available since API level 28. * * @param stream reference provided by AAudioStreamBuilder_openStream() * @return frames read */ AAUDIO_API aaudio_usage_t AAudioStream_getUsage(AAudioStream* _Nonnull stream) __INTRODUCED_IN(28); /** * Return the content type for the stream. * * Available since API level 28. * * @param stream reference provided by AAudioStreamBuilder_openStream() * @return content type, for example {@link #AAUDIO_CONTENT_TYPE_MUSIC} */ AAUDIO_API aaudio_content_type_t AAudioStream_getContentType(AAudioStream* _Nonnull stream) __INTRODUCED_IN(28); /** * Return the spatialization behavior for the stream. * * If none was explicitly set, it will return the default * {@link #AAUDIO_SPATIALIZATION_BEHAVIOR_AUTO} behavior. * * Available since API level 32. * * @param stream reference provided by AAudioStreamBuilder_openStream() * @return spatialization behavior, for example {@link #AAUDIO_SPATIALIZATION_BEHAVIOR_AUTO} */ AAUDIO_API aaudio_spatialization_behavior_t AAudioStream_getSpatializationBehavior( AAudioStream* _Nonnull stream) __INTRODUCED_IN(32); /** * Return whether the content of the stream is spatialized. * * Available since API level 32. * * @param stream reference provided by AAudioStreamBuilder_openStream() * @return true if the content is spatialized */ AAUDIO_API bool AAudioStream_isContentSpatialized(AAudioStream* _Nonnull stream) __INTRODUCED_IN(32); /** * Return the input preset for the stream. * * Available since API level 28. * * @param stream reference provided by AAudioStreamBuilder_openStream() * @return input preset, for example {@link #AAUDIO_INPUT_PRESET_CAMCORDER} */ AAUDIO_API aaudio_input_preset_t AAudioStream_getInputPreset(AAudioStream* _Nonnull stream) __INTRODUCED_IN(28); /** * Return the policy that determines whether the audio may or may not be captured * by other apps or the system. * * Available since API level 29. * * @param stream reference provided by AAudioStreamBuilder_openStream() * @return the allowed capture policy, for example {@link #AAUDIO_ALLOW_CAPTURE_BY_ALL} */ AAUDIO_API aaudio_allowed_capture_policy_t AAudioStream_getAllowedCapturePolicy( AAudioStream* _Nonnull stream) __INTRODUCED_IN(29); /** * Return whether this input stream is marked as privacy sensitive or not. * * See {@link #AAudioStreamBuilder_setPrivacySensitive()}. * * Added in API level 30. * * @param stream reference provided by AAudioStreamBuilder_openStream() * @return true if privacy sensitive, false otherwise */ AAUDIO_API bool AAudioStream_isPrivacySensitive(AAudioStream* _Nonnull stream) __INTRODUCED_IN(30); /** * Return the channel mask for the stream. This will be the mask set using * {@link #AAudioStreamBuilder_setChannelMask}, or {@link #AAUDIO_UNSPECIFIED} otherwise. * * Available since API level 32. * * @param stream reference provided by AAudioStreamBuilder_openStream() * @return actual channel mask */ AAUDIO_API aaudio_channel_mask_t AAudioStream_getChannelMask(AAudioStream* _Nonnull stream) __INTRODUCED_IN(32); #ifdef __cplusplus } #endif #endif //AAUDIO_AAUDIO_H /** @} */