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/*
* Copyright 2018 The WebRTC project authors. All Rights Reserved.
*
* Use of this source code is governed by a BSD-style license
* that can be found in the LICENSE file in the root of the source
* tree. An additional intellectual property rights grant can be found
* in the file PATENTS. All contributing project authors may
* be found in the AUTHORS file in the root of the source tree.
*/
package org.webrtc.audio;
import android.content.Context;
import android.media.AudioAttributes;
import android.media.AudioDeviceInfo;
import android.media.AudioManager;
import android.os.Build;
import androidx.annotation.RequiresApi;
import java.util.concurrent.ScheduledExecutorService;
import org.webrtc.JniCommon;
import org.webrtc.Logging;
/**
* AudioDeviceModule implemented using android.media.AudioRecord as input and
* android.media.AudioTrack as output.
*/
public class JavaAudioDeviceModule implements AudioDeviceModule {
private static final String TAG = "JavaAudioDeviceModule";
public static Builder builder(Context context) {
return new Builder(context);
}
public static class Builder {
private final Context context;
private ScheduledExecutorService scheduler;
private final AudioManager audioManager;
private int inputSampleRate;
private int outputSampleRate;
private int audioSource = WebRtcAudioRecord.DEFAULT_AUDIO_SOURCE;
private int audioFormat = WebRtcAudioRecord.DEFAULT_AUDIO_FORMAT;
private AudioTrackErrorCallback audioTrackErrorCallback;
private AudioRecordErrorCallback audioRecordErrorCallback;
private SamplesReadyCallback samplesReadyCallback;
private AudioTrackStateCallback audioTrackStateCallback;
private AudioRecordStateCallback audioRecordStateCallback;
private boolean useHardwareAcousticEchoCanceler = isBuiltInAcousticEchoCancelerSupported();
private boolean useHardwareNoiseSuppressor = isBuiltInNoiseSuppressorSupported();
private boolean useStereoInput;
private boolean useStereoOutput;
private AudioAttributes audioAttributes;
private boolean useLowLatency;
private boolean enableVolumeLogger;
private Builder(Context context) {
this.context = context;
this.audioManager = (AudioManager) context.getSystemService(Context.AUDIO_SERVICE);
this.inputSampleRate = WebRtcAudioManager.getSampleRate(audioManager);
this.outputSampleRate = WebRtcAudioManager.getSampleRate(audioManager);
this.useLowLatency = false;
this.enableVolumeLogger = true;
}
public Builder setScheduler(ScheduledExecutorService scheduler) {
this.scheduler = scheduler;
return this;
}
/**
* Call this method if the default handling of querying the native sample rate shall be
* overridden. Can be useful on some devices where the available Android APIs are known to
* return invalid results.
*/
public Builder setSampleRate(int sampleRate) {
Logging.d(TAG, "Input/Output sample rate overridden to: " + sampleRate);
this.inputSampleRate = sampleRate;
this.outputSampleRate = sampleRate;
return this;
}
/**
* Call this method to specifically override input sample rate.
*/
public Builder setInputSampleRate(int inputSampleRate) {
Logging.d(TAG, "Input sample rate overridden to: " + inputSampleRate);
this.inputSampleRate = inputSampleRate;
return this;
}
/**
* Call this method to specifically override output sample rate.
*/
public Builder setOutputSampleRate(int outputSampleRate) {
Logging.d(TAG, "Output sample rate overridden to: " + outputSampleRate);
this.outputSampleRate = outputSampleRate;
return this;
}
/**
* Call this to change the audio source. The argument should be one of the values from
* android.media.MediaRecorder.AudioSource. The default is AudioSource.VOICE_COMMUNICATION.
*/
public Builder setAudioSource(int audioSource) {
this.audioSource = audioSource;
return this;
}
/**
* Call this to change the audio format. The argument should be one of the values from
* android.media.AudioFormat ENCODING_PCM_8BIT, ENCODING_PCM_16BIT or ENCODING_PCM_FLOAT.
* Default audio data format is PCM 16 bit per sample.
* Guaranteed to be supported by all devices.
*/
public Builder setAudioFormat(int audioFormat) {
this.audioFormat = audioFormat;
return this;
}
/**
* Set a callback to retrieve errors from the AudioTrack.
*/
public Builder setAudioTrackErrorCallback(AudioTrackErrorCallback audioTrackErrorCallback) {
this.audioTrackErrorCallback = audioTrackErrorCallback;
return this;
}
/**
* Set a callback to retrieve errors from the AudioRecord.
*/
public Builder setAudioRecordErrorCallback(AudioRecordErrorCallback audioRecordErrorCallback) {
this.audioRecordErrorCallback = audioRecordErrorCallback;
return this;
}
/**
* Set a callback to listen to the raw audio input from the AudioRecord.
*/
public Builder setSamplesReadyCallback(SamplesReadyCallback samplesReadyCallback) {
this.samplesReadyCallback = samplesReadyCallback;
return this;
}
/**
* Set a callback to retrieve information from the AudioTrack on when audio starts and stop.
*/
public Builder setAudioTrackStateCallback(AudioTrackStateCallback audioTrackStateCallback) {
this.audioTrackStateCallback = audioTrackStateCallback;
return this;
}
/**
* Set a callback to retrieve information from the AudioRecord on when audio starts and stops.
*/
public Builder setAudioRecordStateCallback(AudioRecordStateCallback audioRecordStateCallback) {
this.audioRecordStateCallback = audioRecordStateCallback;
return this;
}
/**
* Control if the built-in HW noise suppressor should be used or not. The default is on if it is
* supported. It is possible to query support by calling isBuiltInNoiseSuppressorSupported().
*/
public Builder setUseHardwareNoiseSuppressor(boolean useHardwareNoiseSuppressor) {
if (useHardwareNoiseSuppressor && !isBuiltInNoiseSuppressorSupported()) {
Logging.e(TAG, "HW NS not supported");
useHardwareNoiseSuppressor = false;
}
this.useHardwareNoiseSuppressor = useHardwareNoiseSuppressor;
return this;
}
/**
* Control if the built-in HW acoustic echo canceler should be used or not. The default is on if
* it is supported. It is possible to query support by calling
* isBuiltInAcousticEchoCancelerSupported().
*/
public Builder setUseHardwareAcousticEchoCanceler(boolean useHardwareAcousticEchoCanceler) {
if (useHardwareAcousticEchoCanceler && !isBuiltInAcousticEchoCancelerSupported()) {
Logging.e(TAG, "HW AEC not supported");
useHardwareAcousticEchoCanceler = false;
}
this.useHardwareAcousticEchoCanceler = useHardwareAcousticEchoCanceler;
return this;
}
/**
* Control if stereo input should be used or not. The default is mono.
*/
public Builder setUseStereoInput(boolean useStereoInput) {
this.useStereoInput = useStereoInput;
return this;
}
/**
* Control if stereo output should be used or not. The default is mono.
*/
public Builder setUseStereoOutput(boolean useStereoOutput) {
this.useStereoOutput = useStereoOutput;
return this;
}
/**
* Control if the low-latency mode should be used. The default is disabled.
*/
public Builder setUseLowLatency(boolean useLowLatency) {
this.useLowLatency = useLowLatency;
return this;
}
/**
* Set custom {@link AudioAttributes} to use.
*/
public Builder setAudioAttributes(AudioAttributes audioAttributes) {
this.audioAttributes = audioAttributes;
return this;
}
/** Disables the volume logger on the audio output track. */
public Builder setEnableVolumeLogger(boolean enableVolumeLogger) {
this.enableVolumeLogger = enableVolumeLogger;
return this;
}
/**
* Construct an AudioDeviceModule based on the supplied arguments. The caller takes ownership
* and is responsible for calling release().
*/
public JavaAudioDeviceModule createAudioDeviceModule() {
Logging.d(TAG, "createAudioDeviceModule");
if (useHardwareNoiseSuppressor) {
Logging.d(TAG, "HW NS will be used.");
} else {
if (isBuiltInNoiseSuppressorSupported()) {
Logging.d(TAG, "Overriding default behavior; now using WebRTC NS!");
}
Logging.d(TAG, "HW NS will not be used.");
}
if (useHardwareAcousticEchoCanceler) {
Logging.d(TAG, "HW AEC will be used.");
} else {
if (isBuiltInAcousticEchoCancelerSupported()) {
Logging.d(TAG, "Overriding default behavior; now using WebRTC AEC!");
}
Logging.d(TAG, "HW AEC will not be used.");
}
// Low-latency mode was introduced in API version 26, see
// https://developer.android.com/reference/android/media/AudioTrack#PERFORMANCE_MODE_LOW_LATENCY
final int MIN_LOW_LATENCY_SDK_VERSION = 26;
if (useLowLatency && Build.VERSION.SDK_INT >= MIN_LOW_LATENCY_SDK_VERSION) {
Logging.d(TAG, "Low latency mode will be used.");
}
ScheduledExecutorService executor = this.scheduler;
if (executor == null) {
executor = WebRtcAudioRecord.newDefaultScheduler();
}
final WebRtcAudioRecord audioInput = new WebRtcAudioRecord(context, executor, audioManager,
audioSource, audioFormat, audioRecordErrorCallback, audioRecordStateCallback,
samplesReadyCallback, useHardwareAcousticEchoCanceler, useHardwareNoiseSuppressor);
final WebRtcAudioTrack audioOutput =
new WebRtcAudioTrack(context, audioManager, audioAttributes, audioTrackErrorCallback,
audioTrackStateCallback, useLowLatency, enableVolumeLogger);
return new JavaAudioDeviceModule(context, audioManager, audioInput, audioOutput,
inputSampleRate, outputSampleRate, useStereoInput, useStereoOutput);
}
}
/* AudioRecord */
// Audio recording error handler functions.
public enum AudioRecordStartErrorCode {
AUDIO_RECORD_START_EXCEPTION,
AUDIO_RECORD_START_STATE_MISMATCH,
}
public static interface AudioRecordErrorCallback {
void onWebRtcAudioRecordInitError(String errorMessage);
void onWebRtcAudioRecordStartError(AudioRecordStartErrorCode errorCode, String errorMessage);
void onWebRtcAudioRecordError(String errorMessage);
}
/** Called when audio recording starts and stops. */
public static interface AudioRecordStateCallback {
void onWebRtcAudioRecordStart();
void onWebRtcAudioRecordStop();
}
/**
* Contains audio sample information.
*/
public static class AudioSamples {
/** See {@link AudioRecord#getAudioFormat()} */
private final int audioFormat;
/** See {@link AudioRecord#getChannelCount()} */
private final int channelCount;
/** See {@link AudioRecord#getSampleRate()} */
private final int sampleRate;
private final byte[] data;
public AudioSamples(int audioFormat, int channelCount, int sampleRate, byte[] data) {
this.audioFormat = audioFormat;
this.channelCount = channelCount;
this.sampleRate = sampleRate;
this.data = data;
}
public int getAudioFormat() {
return audioFormat;
}
public int getChannelCount() {
return channelCount;
}
public int getSampleRate() {
return sampleRate;
}
public byte[] getData() {
return data;
}
}
/** Called when new audio samples are ready. This should only be set for debug purposes */
public static interface SamplesReadyCallback {
void onWebRtcAudioRecordSamplesReady(AudioSamples samples);
}
/* AudioTrack */
// Audio playout/track error handler functions.
public enum AudioTrackStartErrorCode {
AUDIO_TRACK_START_EXCEPTION,
AUDIO_TRACK_START_STATE_MISMATCH,
}
public static interface AudioTrackErrorCallback {
void onWebRtcAudioTrackInitError(String errorMessage);
void onWebRtcAudioTrackStartError(AudioTrackStartErrorCode errorCode, String errorMessage);
void onWebRtcAudioTrackError(String errorMessage);
}
/** Called when audio playout starts and stops. */
public static interface AudioTrackStateCallback {
void onWebRtcAudioTrackStart();
void onWebRtcAudioTrackStop();
}
/**
* Returns true if the device supports built-in HW AEC, and the UUID is approved (some UUIDs can
* be excluded).
*/
public static boolean isBuiltInAcousticEchoCancelerSupported() {
return WebRtcAudioEffects.isAcousticEchoCancelerSupported();
}
/**
* Returns true if the device supports built-in HW NS, and the UUID is approved (some UUIDs can be
* excluded).
*/
public static boolean isBuiltInNoiseSuppressorSupported() {
return WebRtcAudioEffects.isNoiseSuppressorSupported();
}
private final Context context;
private final AudioManager audioManager;
private final WebRtcAudioRecord audioInput;
private final WebRtcAudioTrack audioOutput;
private final int inputSampleRate;
private final int outputSampleRate;
private final boolean useStereoInput;
private final boolean useStereoOutput;
private final Object nativeLock = new Object();
private long nativeAudioDeviceModule;
private JavaAudioDeviceModule(Context context, AudioManager audioManager,
WebRtcAudioRecord audioInput, WebRtcAudioTrack audioOutput, int inputSampleRate,
int outputSampleRate, boolean useStereoInput, boolean useStereoOutput) {
this.context = context;
this.audioManager = audioManager;
this.audioInput = audioInput;
this.audioOutput = audioOutput;
this.inputSampleRate = inputSampleRate;
this.outputSampleRate = outputSampleRate;
this.useStereoInput = useStereoInput;
this.useStereoOutput = useStereoOutput;
}
@Override
public long getNativeAudioDeviceModulePointer() {
synchronized (nativeLock) {
if (nativeAudioDeviceModule == 0) {
nativeAudioDeviceModule = nativeCreateAudioDeviceModule(context, audioManager, audioInput,
audioOutput, inputSampleRate, outputSampleRate, useStereoInput, useStereoOutput);
}
return nativeAudioDeviceModule;
}
}
@Override
public void release() {
synchronized (nativeLock) {
if (nativeAudioDeviceModule != 0) {
JniCommon.nativeReleaseRef(nativeAudioDeviceModule);
nativeAudioDeviceModule = 0;
}
}
}
@Override
public void setSpeakerMute(boolean mute) {
Logging.d(TAG, "setSpeakerMute: " + mute);
audioOutput.setSpeakerMute(mute);
}
@Override
public void setMicrophoneMute(boolean mute) {
Logging.d(TAG, "setMicrophoneMute: " + mute);
audioInput.setMicrophoneMute(mute);
}
/**
* Start to prefer a specific {@link AudioDeviceInfo} device for recording. Typically this should
* only be used if a client gives an explicit option for choosing a physical device to record
* from. Otherwise the best-matching device for other parameters will be used. Calling after
* recording is started may cause a temporary interruption if the audio routing changes.
*/
@RequiresApi(Build.VERSION_CODES.M)
public void setPreferredInputDevice(AudioDeviceInfo preferredInputDevice) {
Logging.d(TAG, "setPreferredInputDevice: " + preferredInputDevice);
audioInput.setPreferredDevice(preferredInputDevice);
}
private static native long nativeCreateAudioDeviceModule(Context context,
AudioManager audioManager, WebRtcAudioRecord audioInput, WebRtcAudioTrack audioOutput,
int inputSampleRate, int outputSampleRate, boolean useStereoInput, boolean useStereoOutput);
}