/* * Copyright (C) 2013 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.net; import android.os.Parcel; import android.os.Parcelable; /** * Class that represents useful attributes of generic network links * such as the upload/download throughput or packet error rate. * Generally speaking, you should be dealing with instances of * LinkQualityInfo subclasses, such as {@link android.net.#WifiLinkQualityInfo} * or {@link android.net.#MobileLinkQualityInfo} which provide additional * information. * @hide */ public class LinkQualityInfo implements Parcelable { /** * Represents a value that you can use to test if an integer field is set to a good value */ public static final int UNKNOWN_INT = Integer.MAX_VALUE; /** * Represents a value that you can use to test if a long field is set to a good value */ public static final long UNKNOWN_LONG = Long.MAX_VALUE; public static final int NORMALIZED_MIN_SIGNAL_STRENGTH = 0; public static final int NORMALIZED_MAX_SIGNAL_STRENGTH = 99; public static final int NORMALIZED_SIGNAL_STRENGTH_RANGE = NORMALIZED_MAX_SIGNAL_STRENGTH - NORMALIZED_MIN_SIGNAL_STRENGTH + 1; /* Network type as defined by ConnectivityManager */ private int mNetworkType = ConnectivityManager.TYPE_NONE; private int mNormalizedSignalStrength = UNKNOWN_INT; private long mPacketCount = UNKNOWN_LONG; private long mPacketErrorCount = UNKNOWN_LONG; private int mTheoreticalTxBandwidth = UNKNOWN_INT; private int mTheoreticalRxBandwidth = UNKNOWN_INT; private int mTheoreticalLatency = UNKNOWN_INT; /* Timestamp when last sample was made available */ private long mLastDataSampleTime = UNKNOWN_LONG; /* Sample duration in millisecond */ private int mDataSampleDuration = UNKNOWN_INT; public LinkQualityInfo() { } /** * Implement the Parcelable interface * @hide */ public int describeContents() { return 0; } /** * Implement the Parcelable interface. */ protected static final int OBJECT_TYPE_LINK_QUALITY_INFO = 1; protected static final int OBJECT_TYPE_WIFI_LINK_QUALITY_INFO = 2; protected static final int OBJECT_TYPE_MOBILE_LINK_QUALITY_INFO = 3; /** * @hide */ public void writeToParcel(Parcel dest, int flags) { writeToParcel(dest, flags, OBJECT_TYPE_LINK_QUALITY_INFO); } /** * @hide */ public void writeToParcel(Parcel dest, int flags, int objectType) { dest.writeInt(objectType); dest.writeInt(mNetworkType); dest.writeInt(mNormalizedSignalStrength); dest.writeLong(mPacketCount); dest.writeLong(mPacketErrorCount); dest.writeInt(mTheoreticalTxBandwidth); dest.writeInt(mTheoreticalRxBandwidth); dest.writeInt(mTheoreticalLatency); dest.writeLong(mLastDataSampleTime); dest.writeInt(mDataSampleDuration); } /** * @hide */ public static final Creator CREATOR = new Creator() { public LinkQualityInfo createFromParcel(Parcel in) { int objectType = in.readInt(); if (objectType == OBJECT_TYPE_LINK_QUALITY_INFO) { LinkQualityInfo li = new LinkQualityInfo(); li.initializeFromParcel(in); return li; } else if (objectType == OBJECT_TYPE_WIFI_LINK_QUALITY_INFO) { return WifiLinkQualityInfo.createFromParcelBody(in); } else if (objectType == OBJECT_TYPE_MOBILE_LINK_QUALITY_INFO) { return MobileLinkQualityInfo.createFromParcelBody(in); } else { return null; } } public LinkQualityInfo[] newArray(int size) { return new LinkQualityInfo[size]; } }; /** * @hide */ protected void initializeFromParcel(Parcel in) { mNetworkType = in.readInt(); mNormalizedSignalStrength = in.readInt(); mPacketCount = in.readLong(); mPacketErrorCount = in.readLong(); mTheoreticalTxBandwidth = in.readInt(); mTheoreticalRxBandwidth = in.readInt(); mTheoreticalLatency = in.readInt(); mLastDataSampleTime = in.readLong(); mDataSampleDuration = in.readInt(); } /** * returns the type of network this link is connected to * @return network type as defined by {@link android.net.ConnectivityManager} or * {@link android.net.LinkQualityInfo#UNKNOWN_INT} */ public int getNetworkType() { return mNetworkType; } /** * @hide */ public void setNetworkType(int networkType) { mNetworkType = networkType; } /** * returns the signal strength normalized across multiple types of networks * @return an integer value from 0 - 99 or {@link android.net.LinkQualityInfo#UNKNOWN_INT} */ public int getNormalizedSignalStrength() { return mNormalizedSignalStrength; } /** * @hide */ public void setNormalizedSignalStrength(int normalizedSignalStrength) { mNormalizedSignalStrength = normalizedSignalStrength; } /** * returns the total number of packets sent or received in sample duration * @return number of packets or {@link android.net.LinkQualityInfo#UNKNOWN_LONG} */ public long getPacketCount() { return mPacketCount; } /** * @hide */ public void setPacketCount(long packetCount) { mPacketCount = packetCount; } /** * returns the total number of packets errors encountered in sample duration * @return number of errors or {@link android.net.LinkQualityInfo#UNKNOWN_LONG} */ public long getPacketErrorCount() { return mPacketErrorCount; } /** * @hide */ public void setPacketErrorCount(long packetErrorCount) { mPacketErrorCount = packetErrorCount; } /** * returns the theoretical upload bandwidth of this network * @return bandwidth in Kbps or {@link android.net.LinkQualityInfo#UNKNOWN_INT} */ public int getTheoreticalTxBandwidth() { return mTheoreticalTxBandwidth; } /** * @hide */ public void setTheoreticalTxBandwidth(int theoreticalTxBandwidth) { mTheoreticalTxBandwidth = theoreticalTxBandwidth; } /** * returns the theoretical download bandwidth of this network * @return bandwidth in Kbps or {@link android.net.LinkQualityInfo#UNKNOWN_INT} */ public int getTheoreticalRxBandwidth() { return mTheoreticalRxBandwidth; } /** * @hide */ public void setTheoreticalRxBandwidth(int theoreticalRxBandwidth) { mTheoreticalRxBandwidth = theoreticalRxBandwidth; } /** * returns the theoretical latency of this network * @return latency in milliseconds or {@link android.net.LinkQualityInfo#UNKNOWN_INT} */ public int getTheoreticalLatency() { return mTheoreticalLatency; } /** * @hide */ public void setTheoreticalLatency(int theoreticalLatency) { mTheoreticalLatency = theoreticalLatency; } /** * returns the time stamp of the last sample * @return milliseconds elapsed since start and sample time or * {@link android.net.LinkQualityInfo#UNKNOWN_LONG} */ public long getLastDataSampleTime() { return mLastDataSampleTime; } /** * @hide */ public void setLastDataSampleTime(long lastDataSampleTime) { mLastDataSampleTime = lastDataSampleTime; } /** * returns the sample duration used * @return duration in milliseconds or {@link android.net.LinkQualityInfo#UNKNOWN_INT} */ public int getDataSampleDuration() { return mDataSampleDuration; } /** * @hide */ public void setDataSampleDuration(int dataSampleDuration) { mDataSampleDuration = dataSampleDuration; } }