/* * Copyright (C) 2011 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; import android.os.SystemClock; import android.util.Slog; import android.util.SparseBooleanArray; import com.android.internal.annotations.VisibleForTesting; import com.android.internal.util.ArrayUtils; import libcore.util.EmptyArray; import java.io.CharArrayWriter; import java.io.PrintWriter; import java.util.Arrays; import java.util.HashSet; import java.util.Objects; /** * Collection of active network statistics. Can contain summary details across * all interfaces, or details with per-UID granularity. Internally stores data * as a large table, closely matching {@code /proc/} data format. This structure * optimizes for rapid in-memory comparison, but consider using * {@link NetworkStatsHistory} when persisting. * * @hide */ public class NetworkStats implements Parcelable { private static final String TAG = "NetworkStats"; /** {@link #iface} value when interface details unavailable. */ public static final String IFACE_ALL = null; /** {@link #uid} value when UID details unavailable. */ public static final int UID_ALL = -1; /** {@link #tag} value matching any tag. */ // TODO: Rename TAG_ALL to TAG_ANY. public static final int TAG_ALL = -1; /** {@link #set} value for all sets combined, not including debug sets. */ public static final int SET_ALL = -1; /** {@link #set} value where background data is accounted. */ public static final int SET_DEFAULT = 0; /** {@link #set} value where foreground data is accounted. */ public static final int SET_FOREGROUND = 1; /** All {@link #set} value greater than SET_DEBUG_START are debug {@link #set} values. */ public static final int SET_DEBUG_START = 1000; /** Debug {@link #set} value when the VPN stats are moved in. */ public static final int SET_DBG_VPN_IN = 1001; /** Debug {@link #set} value when the VPN stats are moved out of a vpn UID. */ public static final int SET_DBG_VPN_OUT = 1002; /** {@link #tag} value for total data across all tags. */ // TODO: Rename TAG_NONE to TAG_ALL. public static final int TAG_NONE = 0; /** {@link #set} value for all roaming values. */ public static final int ROAMING_ALL = -1; /** {@link #set} value where native, non-roaming data is accounted. */ public static final int ROAMING_NO = 0; /** {@link #set} value where roaming data is accounted. */ public static final int ROAMING_YES = 1; // TODO: move fields to "mVariable" notation /** * {@link SystemClock#elapsedRealtime()} timestamp when this data was * generated. */ private long elapsedRealtime; private int size; private int capacity; private String[] iface; private int[] uid; private int[] set; private int[] tag; private int[] roaming; private long[] rxBytes; private long[] rxPackets; private long[] txBytes; private long[] txPackets; private long[] operations; public static class Entry { public String iface; public int uid; public int set; public int tag; /** * Note that this is only populated w/ the default value when read from /proc or written * to disk. We merge in the correct value when reporting this value to clients of * getSummary(). */ public int roaming; public long rxBytes; public long rxPackets; public long txBytes; public long txPackets; public long operations; public Entry() { this(IFACE_ALL, UID_ALL, SET_DEFAULT, TAG_NONE, 0L, 0L, 0L, 0L, 0L); } public Entry(long rxBytes, long rxPackets, long txBytes, long txPackets, long operations) { this(IFACE_ALL, UID_ALL, SET_DEFAULT, TAG_NONE, rxBytes, rxPackets, txBytes, txPackets, operations); } public Entry(String iface, int uid, int set, int tag, long rxBytes, long rxPackets, long txBytes, long txPackets, long operations) { this(iface, uid, set, tag, ROAMING_NO, rxBytes, rxPackets, txBytes, txPackets, operations); } public Entry(String iface, int uid, int set, int tag, int roaming, long rxBytes, long rxPackets, long txBytes, long txPackets, long operations) { this.iface = iface; this.uid = uid; this.set = set; this.tag = tag; this.roaming = roaming; this.rxBytes = rxBytes; this.rxPackets = rxPackets; this.txBytes = txBytes; this.txPackets = txPackets; this.operations = operations; } public boolean isNegative() { return rxBytes < 0 || rxPackets < 0 || txBytes < 0 || txPackets < 0 || operations < 0; } public boolean isEmpty() { return rxBytes == 0 && rxPackets == 0 && txBytes == 0 && txPackets == 0 && operations == 0; } public void add(Entry another) { this.rxBytes += another.rxBytes; this.rxPackets += another.rxPackets; this.txBytes += another.txBytes; this.txPackets += another.txPackets; this.operations += another.operations; } @Override public String toString() { final StringBuilder builder = new StringBuilder(); builder.append("iface=").append(iface); builder.append(" uid=").append(uid); builder.append(" set=").append(setToString(set)); builder.append(" tag=").append(tagToString(tag)); builder.append(" roaming=").append(roamingToString(roaming)); builder.append(" rxBytes=").append(rxBytes); builder.append(" rxPackets=").append(rxPackets); builder.append(" txBytes=").append(txBytes); builder.append(" txPackets=").append(txPackets); builder.append(" operations=").append(operations); return builder.toString(); } @Override public boolean equals(Object o) { if (o instanceof Entry) { final Entry e = (Entry) o; return uid == e.uid && set == e.set && tag == e.tag && roaming == e.roaming && rxBytes == e.rxBytes && rxPackets == e.rxPackets && txBytes == e.txBytes && txPackets == e.txPackets && operations == e.operations && iface.equals(e.iface); } return false; } } public NetworkStats(long elapsedRealtime, int initialSize) { this.elapsedRealtime = elapsedRealtime; this.size = 0; if (initialSize >= 0) { this.capacity = initialSize; this.iface = new String[initialSize]; this.uid = new int[initialSize]; this.set = new int[initialSize]; this.tag = new int[initialSize]; this.roaming = new int[initialSize]; this.rxBytes = new long[initialSize]; this.rxPackets = new long[initialSize]; this.txBytes = new long[initialSize]; this.txPackets = new long[initialSize]; this.operations = new long[initialSize]; } else { // Special case for use by NetworkStatsFactory to start out *really* empty. this.capacity = 0; this.iface = EmptyArray.STRING; this.uid = EmptyArray.INT; this.set = EmptyArray.INT; this.tag = EmptyArray.INT; this.roaming = EmptyArray.INT; this.rxBytes = EmptyArray.LONG; this.rxPackets = EmptyArray.LONG; this.txBytes = EmptyArray.LONG; this.txPackets = EmptyArray.LONG; this.operations = EmptyArray.LONG; } } public NetworkStats(Parcel parcel) { elapsedRealtime = parcel.readLong(); size = parcel.readInt(); capacity = parcel.readInt(); iface = parcel.createStringArray(); uid = parcel.createIntArray(); set = parcel.createIntArray(); tag = parcel.createIntArray(); roaming = parcel.createIntArray(); rxBytes = parcel.createLongArray(); rxPackets = parcel.createLongArray(); txBytes = parcel.createLongArray(); txPackets = parcel.createLongArray(); operations = parcel.createLongArray(); } @Override public void writeToParcel(Parcel dest, int flags) { dest.writeLong(elapsedRealtime); dest.writeInt(size); dest.writeInt(capacity); dest.writeStringArray(iface); dest.writeIntArray(uid); dest.writeIntArray(set); dest.writeIntArray(tag); dest.writeIntArray(roaming); dest.writeLongArray(rxBytes); dest.writeLongArray(rxPackets); dest.writeLongArray(txBytes); dest.writeLongArray(txPackets); dest.writeLongArray(operations); } @Override public NetworkStats clone() { final NetworkStats clone = new NetworkStats(elapsedRealtime, size); NetworkStats.Entry entry = null; for (int i = 0; i < size; i++) { entry = getValues(i, entry); clone.addValues(entry); } return clone; } @VisibleForTesting public NetworkStats addIfaceValues( String iface, long rxBytes, long rxPackets, long txBytes, long txPackets) { return addValues( iface, UID_ALL, SET_DEFAULT, TAG_NONE, rxBytes, rxPackets, txBytes, txPackets, 0L); } @VisibleForTesting public NetworkStats addValues(String iface, int uid, int set, int tag, long rxBytes, long rxPackets, long txBytes, long txPackets, long operations) { return addValues(new Entry( iface, uid, set, tag, rxBytes, rxPackets, txBytes, txPackets, operations)); } @VisibleForTesting public NetworkStats addValues(String iface, int uid, int set, int tag, int roaming, long rxBytes, long rxPackets, long txBytes, long txPackets, long operations) { return addValues(new Entry( iface, uid, set, tag, roaming, rxBytes, rxPackets, txBytes, txPackets, operations)); } /** * Add new stats entry, copying from given {@link Entry}. The {@link Entry} * object can be recycled across multiple calls. */ public NetworkStats addValues(Entry entry) { if (size >= capacity) { final int newLength = Math.max(size, 10) * 3 / 2; iface = Arrays.copyOf(iface, newLength); uid = Arrays.copyOf(uid, newLength); set = Arrays.copyOf(set, newLength); tag = Arrays.copyOf(tag, newLength); roaming = Arrays.copyOf(roaming, newLength); rxBytes = Arrays.copyOf(rxBytes, newLength); rxPackets = Arrays.copyOf(rxPackets, newLength); txBytes = Arrays.copyOf(txBytes, newLength); txPackets = Arrays.copyOf(txPackets, newLength); operations = Arrays.copyOf(operations, newLength); capacity = newLength; } iface[size] = entry.iface; uid[size] = entry.uid; set[size] = entry.set; tag[size] = entry.tag; roaming[size] = entry.roaming; rxBytes[size] = entry.rxBytes; rxPackets[size] = entry.rxPackets; txBytes[size] = entry.txBytes; txPackets[size] = entry.txPackets; operations[size] = entry.operations; size++; return this; } /** * Return specific stats entry. */ public Entry getValues(int i, Entry recycle) { final Entry entry = recycle != null ? recycle : new Entry(); entry.iface = iface[i]; entry.uid = uid[i]; entry.set = set[i]; entry.tag = tag[i]; entry.roaming = roaming[i]; entry.rxBytes = rxBytes[i]; entry.rxPackets = rxPackets[i]; entry.txBytes = txBytes[i]; entry.txPackets = txPackets[i]; entry.operations = operations[i]; return entry; } public long getElapsedRealtime() { return elapsedRealtime; } public void setElapsedRealtime(long time) { elapsedRealtime = time; } /** * Return age of this {@link NetworkStats} object with respect to * {@link SystemClock#elapsedRealtime()}. */ public long getElapsedRealtimeAge() { return SystemClock.elapsedRealtime() - elapsedRealtime; } public int size() { return size; } @VisibleForTesting public int internalSize() { return capacity; } @Deprecated public NetworkStats combineValues(String iface, int uid, int tag, long rxBytes, long rxPackets, long txBytes, long txPackets, long operations) { return combineValues( iface, uid, SET_DEFAULT, tag, rxBytes, rxPackets, txBytes, txPackets, operations); } public NetworkStats combineValues(String iface, int uid, int set, int tag, long rxBytes, long rxPackets, long txBytes, long txPackets, long operations) { return combineValues(new Entry( iface, uid, set, tag, rxBytes, rxPackets, txBytes, txPackets, operations)); } /** * Combine given values with an existing row, or create a new row if * {@link #findIndex(String, int, int, int, int)} is unable to find match. Can * also be used to subtract values from existing rows. */ public NetworkStats combineValues(Entry entry) { final int i = findIndex(entry.iface, entry.uid, entry.set, entry.tag, entry.roaming); if (i == -1) { // only create new entry when positive contribution addValues(entry); } else { rxBytes[i] += entry.rxBytes; rxPackets[i] += entry.rxPackets; txBytes[i] += entry.txBytes; txPackets[i] += entry.txPackets; operations[i] += entry.operations; } return this; } /** * Combine all values from another {@link NetworkStats} into this object. */ public void combineAllValues(NetworkStats another) { NetworkStats.Entry entry = null; for (int i = 0; i < another.size; i++) { entry = another.getValues(i, entry); combineValues(entry); } } /** * Find first stats index that matches the requested parameters. */ public int findIndex(String iface, int uid, int set, int tag, int roaming) { for (int i = 0; i < size; i++) { if (uid == this.uid[i] && set == this.set[i] && tag == this.tag[i] && roaming == this.roaming[i] && Objects.equals(iface, this.iface[i])) { return i; } } return -1; } /** * Find first stats index that matches the requested parameters, starting * search around the hinted index as an optimization. */ @VisibleForTesting public int findIndexHinted(String iface, int uid, int set, int tag, int roaming, int hintIndex) { for (int offset = 0; offset < size; offset++) { final int halfOffset = offset / 2; // search outwards from hint index, alternating forward and backward final int i; if (offset % 2 == 0) { i = (hintIndex + halfOffset) % size; } else { i = (size + hintIndex - halfOffset - 1) % size; } if (uid == this.uid[i] && set == this.set[i] && tag == this.tag[i] && roaming == this.roaming[i] && Objects.equals(iface, this.iface[i])) { return i; } } return -1; } /** * Splice in {@link #operations} from the given {@link NetworkStats} based * on matching {@link #uid} and {@link #tag} rows. Ignores {@link #iface}, * since operation counts are at data layer. */ public void spliceOperationsFrom(NetworkStats stats) { for (int i = 0; i < size; i++) { final int j = stats.findIndex(iface[i], uid[i], set[i], tag[i], roaming[i]); if (j == -1) { operations[i] = 0; } else { operations[i] = stats.operations[j]; } } } /** * Return list of unique interfaces known by this data structure. */ public String[] getUniqueIfaces() { final HashSet ifaces = new HashSet(); for (String iface : this.iface) { if (iface != IFACE_ALL) { ifaces.add(iface); } } return ifaces.toArray(new String[ifaces.size()]); } /** * Return list of unique UIDs known by this data structure. */ public int[] getUniqueUids() { final SparseBooleanArray uids = new SparseBooleanArray(); for (int uid : this.uid) { uids.put(uid, true); } final int size = uids.size(); final int[] result = new int[size]; for (int i = 0; i < size; i++) { result[i] = uids.keyAt(i); } return result; } /** * Return total bytes represented by this snapshot object, usually used when * checking if a {@link #subtract(NetworkStats)} delta passes a threshold. */ public long getTotalBytes() { final Entry entry = getTotal(null); return entry.rxBytes + entry.txBytes; } /** * Return total of all fields represented by this snapshot object. */ public Entry getTotal(Entry recycle) { return getTotal(recycle, null, UID_ALL, false); } /** * Return total of all fields represented by this snapshot object matching * the requested {@link #uid}. */ public Entry getTotal(Entry recycle, int limitUid) { return getTotal(recycle, null, limitUid, false); } /** * Return total of all fields represented by this snapshot object matching * the requested {@link #iface}. */ public Entry getTotal(Entry recycle, HashSet limitIface) { return getTotal(recycle, limitIface, UID_ALL, false); } public Entry getTotalIncludingTags(Entry recycle) { return getTotal(recycle, null, UID_ALL, true); } /** * Return total of all fields represented by this snapshot object matching * the requested {@link #iface} and {@link #uid}. * * @param limitIface Set of {@link #iface} to include in total; or {@code * null} to include all ifaces. */ private Entry getTotal( Entry recycle, HashSet limitIface, int limitUid, boolean includeTags) { final Entry entry = recycle != null ? recycle : new Entry(); entry.iface = IFACE_ALL; entry.uid = limitUid; entry.set = SET_ALL; entry.tag = TAG_NONE; entry.roaming = ROAMING_ALL; entry.rxBytes = 0; entry.rxPackets = 0; entry.txBytes = 0; entry.txPackets = 0; entry.operations = 0; for (int i = 0; i < size; i++) { final boolean matchesUid = (limitUid == UID_ALL) || (limitUid == uid[i]); final boolean matchesIface = (limitIface == null) || (limitIface.contains(iface[i])); if (matchesUid && matchesIface) { // skip specific tags, since already counted in TAG_NONE if (tag[i] != TAG_NONE && !includeTags) continue; entry.rxBytes += rxBytes[i]; entry.rxPackets += rxPackets[i]; entry.txBytes += txBytes[i]; entry.txPackets += txPackets[i]; entry.operations += operations[i]; } } return entry; } /** * Fast path for battery stats. */ public long getTotalPackets() { long total = 0; for (int i = size-1; i >= 0; i--) { total += rxPackets[i] + txPackets[i]; } return total; } /** * Subtract the given {@link NetworkStats}, effectively leaving the delta * between two snapshots in time. Assumes that statistics rows collect over * time, and that none of them have disappeared. */ public NetworkStats subtract(NetworkStats right) { return subtract(this, right, null, null); } /** * Subtract the two given {@link NetworkStats} objects, returning the delta * between two snapshots in time. Assumes that statistics rows collect over * time, and that none of them have disappeared. *

* If counters have rolled backwards, they are clamped to {@code 0} and * reported to the given {@link NonMonotonicObserver}. */ public static NetworkStats subtract(NetworkStats left, NetworkStats right, NonMonotonicObserver observer, C cookie) { return subtract(left, right, observer, cookie, null); } /** * Subtract the two given {@link NetworkStats} objects, returning the delta * between two snapshots in time. Assumes that statistics rows collect over * time, and that none of them have disappeared. *

* If counters have rolled backwards, they are clamped to {@code 0} and * reported to the given {@link NonMonotonicObserver}. *

* If recycle is supplied, this NetworkStats object will be * reused (and returned) as the result if it is large enough to contain * the data. */ public static NetworkStats subtract(NetworkStats left, NetworkStats right, NonMonotonicObserver observer, C cookie, NetworkStats recycle) { long deltaRealtime = left.elapsedRealtime - right.elapsedRealtime; if (deltaRealtime < 0) { if (observer != null) { observer.foundNonMonotonic(left, -1, right, -1, cookie); } deltaRealtime = 0; } // result will have our rows, and elapsed time between snapshots final Entry entry = new Entry(); final NetworkStats result; if (recycle != null && recycle.capacity >= left.size) { result = recycle; result.size = 0; result.elapsedRealtime = deltaRealtime; } else { result = new NetworkStats(deltaRealtime, left.size); } for (int i = 0; i < left.size; i++) { entry.iface = left.iface[i]; entry.uid = left.uid[i]; entry.set = left.set[i]; entry.tag = left.tag[i]; entry.roaming = left.roaming[i]; // find remote row that matches, and subtract final int j = right.findIndexHinted(entry.iface, entry.uid, entry.set, entry.tag, entry.roaming, i); if (j == -1) { // newly appearing row, return entire value entry.rxBytes = left.rxBytes[i]; entry.rxPackets = left.rxPackets[i]; entry.txBytes = left.txBytes[i]; entry.txPackets = left.txPackets[i]; entry.operations = left.operations[i]; } else { // existing row, subtract remote value entry.rxBytes = left.rxBytes[i] - right.rxBytes[j]; entry.rxPackets = left.rxPackets[i] - right.rxPackets[j]; entry.txBytes = left.txBytes[i] - right.txBytes[j]; entry.txPackets = left.txPackets[i] - right.txPackets[j]; entry.operations = left.operations[i] - right.operations[j]; if (entry.rxBytes < 0 || entry.rxPackets < 0 || entry.txBytes < 0 || entry.txPackets < 0 || entry.operations < 0) { if (observer != null) { observer.foundNonMonotonic(left, i, right, j, cookie); } entry.rxBytes = Math.max(entry.rxBytes, 0); entry.rxPackets = Math.max(entry.rxPackets, 0); entry.txBytes = Math.max(entry.txBytes, 0); entry.txPackets = Math.max(entry.txPackets, 0); entry.operations = Math.max(entry.operations, 0); } } result.addValues(entry); } return result; } /** * Return total statistics grouped by {@link #iface}; doesn't mutate the * original structure. */ public NetworkStats groupedByIface() { final NetworkStats stats = new NetworkStats(elapsedRealtime, 10); final Entry entry = new Entry(); entry.uid = UID_ALL; entry.set = SET_ALL; entry.tag = TAG_NONE; entry.roaming = ROAMING_ALL; entry.operations = 0L; for (int i = 0; i < size; i++) { // skip specific tags, since already counted in TAG_NONE if (tag[i] != TAG_NONE) continue; entry.iface = iface[i]; entry.rxBytes = rxBytes[i]; entry.rxPackets = rxPackets[i]; entry.txBytes = txBytes[i]; entry.txPackets = txPackets[i]; stats.combineValues(entry); } return stats; } /** * Return total statistics grouped by {@link #uid}; doesn't mutate the * original structure. */ public NetworkStats groupedByUid() { final NetworkStats stats = new NetworkStats(elapsedRealtime, 10); final Entry entry = new Entry(); entry.iface = IFACE_ALL; entry.set = SET_ALL; entry.tag = TAG_NONE; entry.roaming = ROAMING_ALL; for (int i = 0; i < size; i++) { // skip specific tags, since already counted in TAG_NONE if (tag[i] != TAG_NONE) continue; entry.uid = uid[i]; entry.rxBytes = rxBytes[i]; entry.rxPackets = rxPackets[i]; entry.txBytes = txBytes[i]; entry.txPackets = txPackets[i]; entry.operations = operations[i]; stats.combineValues(entry); } return stats; } /** * Return all rows except those attributed to the requested UID; doesn't * mutate the original structure. */ public NetworkStats withoutUids(int[] uids) { final NetworkStats stats = new NetworkStats(elapsedRealtime, 10); Entry entry = new Entry(); for (int i = 0; i < size; i++) { entry = getValues(i, entry); if (!ArrayUtils.contains(uids, entry.uid)) { stats.addValues(entry); } } return stats; } public void dump(String prefix, PrintWriter pw) { pw.print(prefix); pw.print("NetworkStats: elapsedRealtime="); pw.println(elapsedRealtime); for (int i = 0; i < size; i++) { pw.print(prefix); pw.print(" ["); pw.print(i); pw.print("]"); pw.print(" iface="); pw.print(iface[i]); pw.print(" uid="); pw.print(uid[i]); pw.print(" set="); pw.print(setToString(set[i])); pw.print(" tag="); pw.print(tagToString(tag[i])); pw.print(" roaming="); pw.print(roamingToString(roaming[i])); pw.print(" rxBytes="); pw.print(rxBytes[i]); pw.print(" rxPackets="); pw.print(rxPackets[i]); pw.print(" txBytes="); pw.print(txBytes[i]); pw.print(" txPackets="); pw.print(txPackets[i]); pw.print(" operations="); pw.println(operations[i]); } } /** * Return text description of {@link #set} value. */ public static String setToString(int set) { switch (set) { case SET_ALL: return "ALL"; case SET_DEFAULT: return "DEFAULT"; case SET_FOREGROUND: return "FOREGROUND"; case SET_DBG_VPN_IN: return "DBG_VPN_IN"; case SET_DBG_VPN_OUT: return "DBG_VPN_OUT"; default: return "UNKNOWN"; } } /** * Return text description of {@link #set} value. */ public static String setToCheckinString(int set) { switch (set) { case SET_ALL: return "all"; case SET_DEFAULT: return "def"; case SET_FOREGROUND: return "fg"; case SET_DBG_VPN_IN: return "vpnin"; case SET_DBG_VPN_OUT: return "vpnout"; default: return "unk"; } } /** * @return true if the querySet matches the dataSet. */ public static boolean setMatches(int querySet, int dataSet) { if (querySet == dataSet) { return true; } // SET_ALL matches all non-debugging sets. return querySet == SET_ALL && dataSet < SET_DEBUG_START; } /** * Return text description of {@link #tag} value. */ public static String tagToString(int tag) { return "0x" + Integer.toHexString(tag); } /** * Return text description of {@link #roaming} value. */ public static String roamingToString(int roaming) { switch (roaming) { case ROAMING_ALL: return "ALL"; case ROAMING_NO: return "NO"; case ROAMING_YES: return "YES"; default: return "UNKNOWN"; } } @Override public String toString() { final CharArrayWriter writer = new CharArrayWriter(); dump("", new PrintWriter(writer)); return writer.toString(); } @Override public int describeContents() { return 0; } public static final Creator CREATOR = new Creator() { @Override public NetworkStats createFromParcel(Parcel in) { return new NetworkStats(in); } @Override public NetworkStats[] newArray(int size) { return new NetworkStats[size]; } }; public interface NonMonotonicObserver { public void foundNonMonotonic( NetworkStats left, int leftIndex, NetworkStats right, int rightIndex, C cookie); } /** * VPN accounting. Move some VPN's underlying traffic to other UIDs that use tun0 iface. * * This method should only be called on delta NetworkStats. Do not call this method on a * snapshot {@link NetworkStats} object because the tunUid and/or the underlyingIface may * change over time. * * This method performs adjustments for one active VPN package and one VPN iface at a time. * * It is possible for the VPN software to use multiple underlying networks. This method * only migrates traffic for the primary underlying network. * * @param tunUid uid of the VPN application * @param tunIface iface of the vpn tunnel * @param underlyingIface the primary underlying network iface used by the VPN application * @return true if it successfully adjusts the accounting for VPN, false otherwise */ public boolean migrateTun(int tunUid, String tunIface, String underlyingIface) { Entry tunIfaceTotal = new Entry(); Entry underlyingIfaceTotal = new Entry(); tunAdjustmentInit(tunUid, tunIface, underlyingIface, tunIfaceTotal, underlyingIfaceTotal); // If tunIface < underlyingIface, it leaves the overhead traffic in the VPN app. // If tunIface > underlyingIface, the VPN app doesn't get credit for data compression. // Negative stats should be avoided. Entry pool = tunGetPool(tunIfaceTotal, underlyingIfaceTotal); if (pool.isEmpty()) { return true; } Entry moved = addTrafficToApplications(tunIface, underlyingIface, tunIfaceTotal, pool); deductTrafficFromVpnApp(tunUid, underlyingIface, moved); if (!moved.isEmpty()) { Slog.wtf(TAG, "Failed to deduct underlying network traffic from VPN package. Moved=" + moved); return false; } return true; } /** * Initializes the data used by the migrateTun() method. * * This is the first pass iteration which does the following work: * (1) Adds up all the traffic through tun0. * (2) Adds up all the traffic through the tunUid's underlyingIface * (both foreground and background). */ private void tunAdjustmentInit(int tunUid, String tunIface, String underlyingIface, Entry tunIfaceTotal, Entry underlyingIfaceTotal) { Entry recycle = new Entry(); for (int i = 0; i < size; i++) { getValues(i, recycle); if (recycle.uid == UID_ALL) { throw new IllegalStateException( "Cannot adjust VPN accounting on an iface aggregated NetworkStats."); } if (recycle.set == SET_DBG_VPN_IN || recycle.set == SET_DBG_VPN_OUT) { throw new IllegalStateException( "Cannot adjust VPN accounting on a NetworkStats containing SET_DBG_VPN_*"); } if (recycle.uid == tunUid && recycle.tag == TAG_NONE && Objects.equals(underlyingIface, recycle.iface)) { underlyingIfaceTotal.add(recycle); } if (recycle.tag == TAG_NONE && Objects.equals(tunIface, recycle.iface)) { // Add up all tunIface traffic. tunIfaceTotal.add(recycle); } } } private static Entry tunGetPool(Entry tunIfaceTotal, Entry underlyingIfaceTotal) { Entry pool = new Entry(); pool.rxBytes = Math.min(tunIfaceTotal.rxBytes, underlyingIfaceTotal.rxBytes); pool.rxPackets = Math.min(tunIfaceTotal.rxPackets, underlyingIfaceTotal.rxPackets); pool.txBytes = Math.min(tunIfaceTotal.txBytes, underlyingIfaceTotal.txBytes); pool.txPackets = Math.min(tunIfaceTotal.txPackets, underlyingIfaceTotal.txPackets); pool.operations = Math.min(tunIfaceTotal.operations, underlyingIfaceTotal.operations); return pool; } private Entry addTrafficToApplications(String tunIface, String underlyingIface, Entry tunIfaceTotal, Entry pool) { Entry moved = new Entry(); Entry tmpEntry = new Entry(); tmpEntry.iface = underlyingIface; for (int i = 0; i < size; i++) { if (Objects.equals(iface[i], tunIface)) { if (tunIfaceTotal.rxBytes > 0) { tmpEntry.rxBytes = pool.rxBytes * rxBytes[i] / tunIfaceTotal.rxBytes; } else { tmpEntry.rxBytes = 0; } if (tunIfaceTotal.rxPackets > 0) { tmpEntry.rxPackets = pool.rxPackets * rxPackets[i] / tunIfaceTotal.rxPackets; } else { tmpEntry.rxPackets = 0; } if (tunIfaceTotal.txBytes > 0) { tmpEntry.txBytes = pool.txBytes * txBytes[i] / tunIfaceTotal.txBytes; } else { tmpEntry.txBytes = 0; } if (tunIfaceTotal.txPackets > 0) { tmpEntry.txPackets = pool.txPackets * txPackets[i] / tunIfaceTotal.txPackets; } else { tmpEntry.txPackets = 0; } if (tunIfaceTotal.operations > 0) { tmpEntry.operations = pool.operations * operations[i] / tunIfaceTotal.operations; } else { tmpEntry.operations = 0; } tmpEntry.uid = uid[i]; tmpEntry.tag = tag[i]; tmpEntry.set = set[i]; tmpEntry.roaming = roaming[i]; combineValues(tmpEntry); if (tag[i] == TAG_NONE) { moved.add(tmpEntry); // Add debug info tmpEntry.set = SET_DBG_VPN_IN; combineValues(tmpEntry); } } } return moved; } private void deductTrafficFromVpnApp(int tunUid, String underlyingIface, Entry moved) { // Add debug info moved.uid = tunUid; moved.set = SET_DBG_VPN_OUT; moved.tag = TAG_NONE; moved.iface = underlyingIface; moved.roaming = ROAMING_ALL; combineValues(moved); // Caveat: if the vpn software uses tag, the total tagged traffic may be greater than // the TAG_NONE traffic. // // Relies on the fact that the underlying traffic only has state ROAMING_NO, which // should be the case as it comes directly from the /proc file. We only blend in the // roaming data after applying these adjustments, by checking the NetworkIdentity of the // underlying iface. int idxVpnBackground = findIndex(underlyingIface, tunUid, SET_DEFAULT, TAG_NONE, ROAMING_NO); if (idxVpnBackground != -1) { tunSubtract(idxVpnBackground, this, moved); } int idxVpnForeground = findIndex(underlyingIface, tunUid, SET_FOREGROUND, TAG_NONE, ROAMING_NO); if (idxVpnForeground != -1) { tunSubtract(idxVpnForeground, this, moved); } } private static void tunSubtract(int i, NetworkStats left, Entry right) { long rxBytes = Math.min(left.rxBytes[i], right.rxBytes); left.rxBytes[i] -= rxBytes; right.rxBytes -= rxBytes; long rxPackets = Math.min(left.rxPackets[i], right.rxPackets); left.rxPackets[i] -= rxPackets; right.rxPackets -= rxPackets; long txBytes = Math.min(left.txBytes[i], right.txBytes); left.txBytes[i] -= txBytes; right.txBytes -= txBytes; long txPackets = Math.min(left.txPackets[i], right.txPackets); left.txPackets[i] -= txPackets; right.txPackets -= txPackets; } }