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/*
* Copyright (c) 2015 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 static android.media.AudioManager.MODE_IN_CALL;
import static android.media.AudioManager.MODE_IN_COMMUNICATION;
import static android.media.AudioManager.MODE_NORMAL;
import static android.media.AudioManager.MODE_RINGTONE;
import android.annotation.TargetApi;
import android.content.Context;
import android.content.pm.PackageManager;
import android.media.AudioDeviceInfo;
import android.media.AudioFormat;
import android.media.AudioManager;
import android.media.MediaRecorder.AudioSource;
import android.os.Build;
import android.os.Build.VERSION_CODES;
import java.util.Arrays;
import org.webrtc.Logging;
/** Utilities for implementations of {@code AudioDeviceModule}, mostly for logging. */
public final class WebRtcAudioUtils {
private static final String TAG = "WebRtcAudioUtilsExternal";
/** Helper method for building a string of thread information. */
public static String getThreadInfo() {
Thread current = Thread.currentThread();
return "@[name=" + current.getName() + ", id=" + current.getId() + "]";
}
/** Returns true if we're running on emulator. */
public static boolean runningOnEmulator() {
// Hardware type of qemu1 is goldfish and qemu2 is ranchu.
return Build.HARDWARE.equals("goldfish") || Build.HARDWARE.equals("ranchu");
}
/** Information about the current build, taken from system properties. */
private static void logDeviceInfo(String tag) {
Logging.d(
tag,
("Android SDK: " + Build.VERSION.SDK_INT)
+ (", Release: " + Build.VERSION.RELEASE)
+ (", Brand: " + Build.BRAND)
+ (", Device: " + Build.DEVICE)
+ (", Id: " + Build.ID)
+ (", Hardware: " + Build.HARDWARE)
+ (", Manufacturer: " + Build.MANUFACTURER)
+ (", Model: " + Build.MODEL)
+ (", Product: " + Build.PRODUCT));
}
/**
* Logs information about the current audio state. The idea is to call this method when errors are
* detected to log under what conditions the error occurred. Hopefully it will provide clues to
* what might be the root cause.
*/
public static void logAudioState(String tag, Context context, AudioManager audioManager) {
logDeviceInfo(tag);
logAudioStateBasic(tag, context, audioManager);
logAudioStateVolume(tag, audioManager);
logAudioDeviceInfo(tag, audioManager);
}
/** Converts AudioDeviceInfo types to local string representation. */
public static String deviceTypeToString(int type) {
switch (type) {
case AudioDeviceInfo.TYPE_AUX_LINE:
return "TYPE_AUX_LINE";
case AudioDeviceInfo.TYPE_BLE_BROADCAST:
return "TYPE_BLE_BROADCAST";
case AudioDeviceInfo.TYPE_BLE_HEADSET:
return "TYPE_BLE_HEADSET";
case AudioDeviceInfo.TYPE_BLE_SPEAKER:
return "TYPE_BLE_SPEAKER";
case AudioDeviceInfo.TYPE_BLUETOOTH_A2DP:
return "TYPE_BLUETOOTH_A2DP";
case AudioDeviceInfo.TYPE_BLUETOOTH_SCO:
return "TYPE_BLUETOOTH_SCO";
case AudioDeviceInfo.TYPE_BUILTIN_EARPIECE:
return "TYPE_BUILTIN_EARPIECE";
case AudioDeviceInfo.TYPE_BUILTIN_MIC:
return "TYPE_BUILTIN_MIC";
case AudioDeviceInfo.TYPE_BUILTIN_SPEAKER:
return "TYPE_BUILTIN_SPEAKER";
case AudioDeviceInfo.TYPE_BUILTIN_SPEAKER_SAFE:
return "TYPE_BUILTIN_SPEAKER_SAFE";
case AudioDeviceInfo.TYPE_BUS:
return "TYPE_BUS";
case AudioDeviceInfo.TYPE_DOCK:
return "TYPE_DOCK";
case AudioDeviceInfo.TYPE_DOCK_ANALOG:
return "TYPE_DOCK_ANALOG";
case AudioDeviceInfo.TYPE_FM:
return "TYPE_FM";
case AudioDeviceInfo.TYPE_FM_TUNER:
return "TYPE_FM_TUNER";
case AudioDeviceInfo.TYPE_HDMI:
return "TYPE_HDMI";
case AudioDeviceInfo.TYPE_HDMI_ARC:
return "TYPE_HDMI_ARC";
case AudioDeviceInfo.TYPE_HDMI_EARC:
return "TYPE_HDMI_EARC";
case AudioDeviceInfo.TYPE_HEARING_AID:
return "TYPE_HEARING_AID";
case AudioDeviceInfo.TYPE_IP:
return "TYPE_IP";
case AudioDeviceInfo.TYPE_LINE_ANALOG:
return "TYPE_LINE_ANALOG";
case AudioDeviceInfo.TYPE_LINE_DIGITAL:
return "TYPE_LINE_DIGITAL";
case AudioDeviceInfo.TYPE_REMOTE_SUBMIX:
return "TYPE_REMOTE_SUBMIX";
case AudioDeviceInfo.TYPE_TELEPHONY:
return "TYPE_TELEPHONY";
case AudioDeviceInfo.TYPE_TV_TUNER:
return "TYPE_TV_TUNER";
case AudioDeviceInfo.TYPE_UNKNOWN:
return "TYPE_UNKNOWN";
case AudioDeviceInfo.TYPE_USB_ACCESSORY:
return "TYPE_USB_ACCESSORY";
case AudioDeviceInfo.TYPE_USB_DEVICE:
return "TYPE_USB_DEVICE";
case AudioDeviceInfo.TYPE_USB_HEADSET:
return "TYPE_USB_HEADSET";
case AudioDeviceInfo.TYPE_WIRED_HEADPHONES:
return "TYPE_WIRED_HEADPHONES";
case AudioDeviceInfo.TYPE_WIRED_HEADSET:
return "TYPE_WIRED_HEADSET";
default:
return "TYPE_UNKNOWN(" + type + ")";
}
}
public static String audioSourceToString(int source) {
switch (source) {
case AudioSource.DEFAULT:
return "DEFAULT";
case AudioSource.MIC:
return "MIC";
case AudioSource.VOICE_UPLINK:
return "VOICE_UPLINK";
case AudioSource.VOICE_DOWNLINK:
return "VOICE_DOWNLINK";
case AudioSource.VOICE_CALL:
return "VOICE_CALL";
case AudioSource.CAMCORDER:
return "CAMCORDER";
case AudioSource.VOICE_RECOGNITION:
return "VOICE_RECOGNITION";
case AudioSource.VOICE_COMMUNICATION:
return "VOICE_COMMUNICATION";
case AudioSource.UNPROCESSED:
return "UNPROCESSED";
case AudioSource.VOICE_PERFORMANCE:
return "VOICE_PERFORMANCE";
default:
return "INVALID";
}
}
public static String channelMaskToString(int mask) {
// For input or AudioRecord, the mask should be AudioFormat#CHANNEL_IN_MONO or
// AudioFormat#CHANNEL_IN_STEREO. AudioFormat#CHANNEL_IN_MONO is guaranteed to work on all
// devices.
switch (mask) {
case AudioFormat.CHANNEL_IN_STEREO:
return "IN_STEREO";
case AudioFormat.CHANNEL_IN_MONO:
return "IN_MONO";
default:
return "INVALID";
}
}
@TargetApi(VERSION_CODES.N)
public static String audioEncodingToString(int enc) {
switch (enc) {
case AudioFormat.ENCODING_INVALID:
return "INVALID";
case AudioFormat.ENCODING_PCM_16BIT:
return "PCM_16BIT";
case AudioFormat.ENCODING_PCM_8BIT:
return "PCM_8BIT";
case AudioFormat.ENCODING_PCM_FLOAT:
return "PCM_FLOAT";
case AudioFormat.ENCODING_AC3:
return "AC3";
case AudioFormat.ENCODING_E_AC3:
return "AC3";
case AudioFormat.ENCODING_DTS:
return "DTS";
case AudioFormat.ENCODING_DTS_HD:
return "DTS_HD";
case AudioFormat.ENCODING_MP3:
return "MP3";
default:
return "Invalid encoding: " + enc;
}
}
/** Reports basic audio statistics. */
private static void logAudioStateBasic(String tag, Context context, AudioManager audioManager) {
Logging.d(
tag,
"Audio State: "
+ ("audio mode: " + modeToString(audioManager.getMode()))
+ (", has mic: " + hasMicrophone(context))
+ (", mic muted: " + audioManager.isMicrophoneMute())
+ (", music active: " + audioManager.isMusicActive())
+ (", speakerphone: " + audioManager.isSpeakerphoneOn())
+ (", BT SCO: " + audioManager.isBluetoothScoOn()));
}
/** Adds volume information for all possible stream types. */
private static void logAudioStateVolume(String tag, AudioManager audioManager) {
final int[] streams = {
AudioManager.STREAM_VOICE_CALL,
AudioManager.STREAM_MUSIC,
AudioManager.STREAM_RING,
AudioManager.STREAM_ALARM,
AudioManager.STREAM_NOTIFICATION,
AudioManager.STREAM_SYSTEM
};
Logging.d(tag, "Audio State: ");
// Some devices may not have volume controls and might use a fixed volume.
boolean fixedVolume = audioManager.isVolumeFixed();
Logging.d(tag, " fixed volume=" + fixedVolume);
if (!fixedVolume) {
for (int stream : streams) {
StringBuilder info = new StringBuilder();
info.append(" " + streamTypeToString(stream) + ": ");
info.append("volume=").append(audioManager.getStreamVolume(stream));
info.append(", max=").append(audioManager.getStreamMaxVolume(stream));
if (Build.VERSION.SDK_INT >= VERSION_CODES.M) {
info.append(", muted=").append(audioManager.isStreamMute(stream));
}
Logging.d(tag, info.toString());
}
}
}
private static void logAudioDeviceInfo(String tag, AudioManager audioManager) {
if (Build.VERSION.SDK_INT < VERSION_CODES.M) {
return;
}
final AudioDeviceInfo[] devices = audioManager.getDevices(AudioManager.GET_DEVICES_ALL);
if (devices.length == 0) {
return;
}
Logging.d(tag, "Audio Devices: ");
for (AudioDeviceInfo device : devices) {
StringBuilder info = new StringBuilder();
info.append(" ").append(deviceTypeToString(device.getType()));
info.append(device.isSource() ? "(in): " : "(out): ");
// An empty array indicates that the device supports arbitrary channel counts.
if (device.getChannelCounts().length > 0) {
info.append("channels=").append(Arrays.toString(device.getChannelCounts()));
info.append(", ");
}
if (device.getEncodings().length > 0) {
// Examples: ENCODING_PCM_16BIT = 2, ENCODING_PCM_FLOAT = 4.
info.append("encodings=").append(Arrays.toString(device.getEncodings()));
info.append(", ");
}
if (device.getSampleRates().length > 0) {
info.append("sample rates=").append(Arrays.toString(device.getSampleRates()));
info.append(", ");
}
info.append("id=").append(device.getId());
Logging.d(tag, info.toString());
}
}
/** Converts media.AudioManager modes into local string representation. */
static String modeToString(int mode) {
switch (mode) {
case MODE_IN_CALL:
return "MODE_IN_CALL";
case MODE_IN_COMMUNICATION:
return "MODE_IN_COMMUNICATION";
case MODE_NORMAL:
return "MODE_NORMAL";
case MODE_RINGTONE:
return "MODE_RINGTONE";
default:
return "MODE_INVALID";
}
}
private static String streamTypeToString(int stream) {
switch (stream) {
case AudioManager.STREAM_VOICE_CALL:
return "STREAM_VOICE_CALL";
case AudioManager.STREAM_MUSIC:
return "STREAM_MUSIC";
case AudioManager.STREAM_RING:
return "STREAM_RING";
case AudioManager.STREAM_ALARM:
return "STREAM_ALARM";
case AudioManager.STREAM_NOTIFICATION:
return "STREAM_NOTIFICATION";
case AudioManager.STREAM_SYSTEM:
return "STREAM_SYSTEM";
default:
return "STREAM_INVALID";
}
}
/** Returns true if the device can record audio via a microphone. */
private static boolean hasMicrophone(Context context) {
return context.getPackageManager().hasSystemFeature(PackageManager.FEATURE_MICROPHONE);
}
}