/* * Copyright (C) 2014 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package android.media; /** * An audio port is a node of the audio framework or hardware that can be connected to or * disconnect from another audio node to create a specific audio routing configuration. * Examples of audio ports are an output device (speaker) or an output mix (see AudioMixPort). * All attributes that are relevant for applications to make routing selection are decribed * in an AudioPort, in particular: * - possible channel mask configurations. * - audio format (PCM 16bit, PCM 24bit...) * - gain: a port can be associated with one or more gain controllers (see AudioGain). * * This object is always created by the framework and read only by applications. * A list of all audio port descriptors currently available for applications to control * is obtained by AudioManager.listAudioPorts(). * An application can obtain an AudioPortConfig for a valid configuration of this port * by calling AudioPort.buildConfig() and use this configuration * to create a connection between audio sinks and sources with AudioManager.connectAudioPatch() * * @hide */ public class AudioPort { private static final String TAG = "AudioPort"; /** * For use by the audio framework. */ public static final int ROLE_NONE = 0; /** * The audio port is a source (produces audio) */ public static final int ROLE_SOURCE = 1; /** * The audio port is a sink (consumes audio) */ public static final int ROLE_SINK = 2; /** * audio port type for use by audio framework implementation */ public static final int TYPE_NONE = 0; /** */ public static final int TYPE_DEVICE = 1; /** */ public static final int TYPE_SUBMIX = 2; /** */ public static final int TYPE_SESSION = 3; AudioHandle mHandle; protected final int mRole; private final String mName; private final int[] mSamplingRates; private final int[] mChannelMasks; private final int[] mChannelIndexMasks; private final int[] mFormats; private final AudioGain[] mGains; private AudioPortConfig mActiveConfig; AudioPort(AudioHandle handle, int role, String name, int[] samplingRates, int[] channelMasks, int[] channelIndexMasks, int[] formats, AudioGain[] gains) { mHandle = handle; mRole = role; mName = name; mSamplingRates = samplingRates; mChannelMasks = channelMasks; mChannelIndexMasks = channelIndexMasks; mFormats = formats; mGains = gains; } AudioHandle handle() { return mHandle; } /** * Get the system unique device ID. */ public int id() { return mHandle.id(); } /** * Get the audio port role */ public int role() { return mRole; } /** * Get the human-readable name of this port. Perhaps an internal * designation or an physical device. */ public String name() { return mName; } /** * Get the list of supported sampling rates * Empty array if sampling rate is not relevant for this audio port */ public int[] samplingRates() { return mSamplingRates; } /** * Get the list of supported channel mask configurations * (e.g AudioFormat.CHANNEL_OUT_STEREO) * Empty array if channel mask is not relevant for this audio port */ public int[] channelMasks() { return mChannelMasks; } /** * Get the list of supported channel index mask configurations * (e.g 0x0003 means 2 channel, 0x000F means 4 channel....) * Empty array if channel index mask is not relevant for this audio port */ public int[] channelIndexMasks() { return mChannelIndexMasks; } /** * Get the list of supported audio format configurations * (e.g AudioFormat.ENCODING_PCM_16BIT) * Empty array if format is not relevant for this audio port */ public int[] formats() { return mFormats; } /** * Get the list of gain descriptors * Empty array if this port does not have gain control */ public AudioGain[] gains() { return mGains; } /** * Get the gain descriptor at a given index */ AudioGain gain(int index) { if (index < 0 || index >= mGains.length) { return null; } return mGains[index]; } /** * Build a specific configuration of this audio port for use by methods * like AudioManager.connectAudioPatch(). * @param channelMask The desired channel mask. AudioFormat.CHANNEL_OUT_DEFAULT if no change * from active configuration requested. * @param format The desired audio format. AudioFormat.ENCODING_DEFAULT if no change * from active configuration requested. * @param gain The desired gain. null if no gain changed requested. */ public AudioPortConfig buildConfig(int samplingRate, int channelMask, int format, AudioGainConfig gain) { return new AudioPortConfig(this, samplingRate, channelMask, format, gain); } /** * Get currently active configuration of this audio port. */ public AudioPortConfig activeConfig() { return mActiveConfig; } @Override public boolean equals(Object o) { if (o == null || !(o instanceof AudioPort)) { return false; } AudioPort ap = (AudioPort)o; return mHandle.equals(ap.handle()); } @Override public int hashCode() { return mHandle.hashCode(); } @Override public String toString() { String role = Integer.toString(mRole); switch (mRole) { case ROLE_NONE: role = "NONE"; break; case ROLE_SOURCE: role = "SOURCE"; break; case ROLE_SINK: role = "SINK"; break; } return "{mHandle: " + mHandle + ", mRole: " + role + "}"; } }