* Each bucket is defined by a {@link #bucketStart} timestamp, and lasts for * {@link #bucketDuration}. Internally assumes that {@link #bucketStart} is * sorted at all times. * * @hide */ public class NetworkStatsHistory implements Parcelable { private static final int VERSION_INIT = 1; private static final int VERSION_ADD_PACKETS = 2; private static final int VERSION_ADD_ACTIVE = 3; public static final int FIELD_ACTIVE_TIME = 0x01; public static final int FIELD_RX_BYTES = 0x02; public static final int FIELD_RX_PACKETS = 0x04; public static final int FIELD_TX_BYTES = 0x08; public static final int FIELD_TX_PACKETS = 0x10; public static final int FIELD_OPERATIONS = 0x20; public static final int FIELD_ALL = 0xFFFFFFFF; private long bucketDuration; private int bucketCount; private long[] bucketStart; private long[] activeTime; private long[] rxBytes; private long[] rxPackets; private long[] txBytes; private long[] txPackets; private long[] operations; private long totalBytes; public static class Entry { public static final long UNKNOWN = -1; @UnsupportedAppUsage(maxTargetSdk = Build.VERSION_CODES.R, trackingBug = 170729553) public long bucketDuration; @UnsupportedAppUsage(maxTargetSdk = Build.VERSION_CODES.R, trackingBug = 170729553) public long bucketStart; public long activeTime; @UnsupportedAppUsage public long rxBytes; @UnsupportedAppUsage(maxTargetSdk = Build.VERSION_CODES.R, trackingBug = 170729553) public long rxPackets; @UnsupportedAppUsage public long txBytes; @UnsupportedAppUsage(maxTargetSdk = Build.VERSION_CODES.R, trackingBug = 170729553) public long txPackets; public long operations; } @UnsupportedAppUsage public NetworkStatsHistory(long bucketDuration) { this(bucketDuration, 10, FIELD_ALL); } public NetworkStatsHistory(long bucketDuration, int initialSize) { this(bucketDuration, initialSize, FIELD_ALL); } public NetworkStatsHistory(long bucketDuration, int initialSize, int fields) { this.bucketDuration = bucketDuration; bucketStart = new long[initialSize]; if ((fields & FIELD_ACTIVE_TIME) != 0) activeTime = new long[initialSize]; if ((fields & FIELD_RX_BYTES) != 0) rxBytes = new long[initialSize]; if ((fields & FIELD_RX_PACKETS) != 0) rxPackets = new long[initialSize]; if ((fields & FIELD_TX_BYTES) != 0) txBytes = new long[initialSize]; if ((fields & FIELD_TX_PACKETS) != 0) txPackets = new long[initialSize]; if ((fields & FIELD_OPERATIONS) != 0) operations = new long[initialSize]; bucketCount = 0; totalBytes = 0; } public NetworkStatsHistory(NetworkStatsHistory existing, long bucketDuration) { this(bucketDuration, existing.estimateResizeBuckets(bucketDuration)); recordEntireHistory(existing); } @UnsupportedAppUsage(maxTargetSdk = Build.VERSION_CODES.R, trackingBug = 170729553) public NetworkStatsHistory(Parcel in) { bucketDuration = in.readLong(); bucketStart = readLongArray(in); activeTime = readLongArray(in); rxBytes = readLongArray(in); rxPackets = readLongArray(in); txBytes = readLongArray(in); txPackets = readLongArray(in); operations = readLongArray(in); bucketCount = bucketStart.length; totalBytes = in.readLong(); } @Override public void writeToParcel(Parcel out, int flags) { out.writeLong(bucketDuration); writeLongArray(out, bucketStart, bucketCount); writeLongArray(out, activeTime, bucketCount); writeLongArray(out, rxBytes, bucketCount); writeLongArray(out, rxPackets, bucketCount); writeLongArray(out, txBytes, bucketCount); writeLongArray(out, txPackets, bucketCount); writeLongArray(out, operations, bucketCount); out.writeLong(totalBytes); } public NetworkStatsHistory(DataInput in) throws IOException { final int version = in.readInt(); switch (version) { case VERSION_INIT: { bucketDuration = in.readLong(); bucketStart = readFullLongArray(in); rxBytes = readFullLongArray(in); rxPackets = new long[bucketStart.length]; txBytes = readFullLongArray(in); txPackets = new long[bucketStart.length]; operations = new long[bucketStart.length]; bucketCount = bucketStart.length; totalBytes = total(rxBytes) + total(txBytes); break; } case VERSION_ADD_PACKETS: case VERSION_ADD_ACTIVE: { bucketDuration = in.readLong(); bucketStart = readVarLongArray(in); activeTime = (version >= VERSION_ADD_ACTIVE) ? readVarLongArray(in) : new long[bucketStart.length]; rxBytes = readVarLongArray(in); rxPackets = readVarLongArray(in); txBytes = readVarLongArray(in); txPackets = readVarLongArray(in); operations = readVarLongArray(in); bucketCount = bucketStart.length; totalBytes = total(rxBytes) + total(txBytes); break; } default: { throw new ProtocolException("unexpected version: " + version); } } if (bucketStart.length != bucketCount || rxBytes.length != bucketCount || rxPackets.length != bucketCount || txBytes.length != bucketCount || txPackets.length != bucketCount || operations.length != bucketCount) { throw new ProtocolException("Mismatched history lengths"); } } public void writeToStream(DataOutput out) throws IOException { out.writeInt(VERSION_ADD_ACTIVE); out.writeLong(bucketDuration); writeVarLongArray(out, bucketStart, bucketCount); writeVarLongArray(out, activeTime, bucketCount); writeVarLongArray(out, rxBytes, bucketCount); writeVarLongArray(out, rxPackets, bucketCount); writeVarLongArray(out, txBytes, bucketCount); writeVarLongArray(out, txPackets, bucketCount); writeVarLongArray(out, operations, bucketCount); } @Override public int describeContents() { return 0; } @UnsupportedAppUsage(maxTargetSdk = Build.VERSION_CODES.R, trackingBug = 170729553) public int size() { return bucketCount; } public long getBucketDuration() { return bucketDuration; } @UnsupportedAppUsage public long getStart() { if (bucketCount > 0) { return bucketStart[0]; } else { return Long.MAX_VALUE; } } @UnsupportedAppUsage public long getEnd() { if (bucketCount > 0) { return bucketStart[bucketCount - 1] + bucketDuration; } else { return Long.MIN_VALUE; } } /** * Return total bytes represented by this history. */ public long getTotalBytes() { return totalBytes; } /** * Return index of bucket that contains or is immediately before the * requested time. */ @UnsupportedAppUsage(maxTargetSdk = Build.VERSION_CODES.R, trackingBug = 170729553) public int getIndexBefore(long time) { int index = Arrays.binarySearch(bucketStart, 0, bucketCount, time); if (index < 0) { index = (~index) - 1; } else { index -= 1; } return MathUtils.constrain(index, 0, bucketCount - 1); } /** * Return index of bucket that contains or is immediately after the * requested time. */ public int getIndexAfter(long time) { int index = Arrays.binarySearch(bucketStart, 0, bucketCount, time); if (index < 0) { index = ~index; } else { index += 1; } return MathUtils.constrain(index, 0, bucketCount - 1); } /** * Return specific stats entry. */ @UnsupportedAppUsage(maxTargetSdk = Build.VERSION_CODES.R, trackingBug = 170729553) public Entry getValues(int i, Entry recycle) { final Entry entry = recycle != null ? recycle : new Entry(); entry.bucketStart = bucketStart[i]; entry.bucketDuration = bucketDuration; entry.activeTime = getLong(activeTime, i, UNKNOWN); entry.rxBytes = getLong(rxBytes, i, UNKNOWN); entry.rxPackets = getLong(rxPackets, i, UNKNOWN); entry.txBytes = getLong(txBytes, i, UNKNOWN); entry.txPackets = getLong(txPackets, i, UNKNOWN); entry.operations = getLong(operations, i, UNKNOWN); return entry; } public void setValues(int i, Entry entry) { // Unwind old values if (rxBytes != null) totalBytes -= rxBytes[i]; if (txBytes != null) totalBytes -= txBytes[i]; bucketStart[i] = entry.bucketStart; setLong(activeTime, i, entry.activeTime); setLong(rxBytes, i, entry.rxBytes); setLong(rxPackets, i, entry.rxPackets); setLong(txBytes, i, entry.txBytes); setLong(txPackets, i, entry.txPackets); setLong(operations, i, entry.operations); // Apply new values if (rxBytes != null) totalBytes += rxBytes[i]; if (txBytes != null) totalBytes += txBytes[i]; } /** * Record that data traffic occurred in the given time range. Will * distribute across internal buckets, creating new buckets as needed. */ @Deprecated public void recordData(long start, long end, long rxBytes, long txBytes) { recordData(start, end, new NetworkStats.Entry( IFACE_ALL, UID_ALL, SET_DEFAULT, TAG_NONE, rxBytes, 0L, txBytes, 0L, 0L)); } /** * Record that data traffic occurred in the given time range. Will * distribute across internal buckets, creating new buckets as needed. */ public void recordData(long start, long end, NetworkStats.Entry entry) { long rxBytes = entry.rxBytes; long rxPackets = entry.rxPackets; long txBytes = entry.txBytes; long txPackets = entry.txPackets; long operations = entry.operations; if (entry.isNegative()) { throw new IllegalArgumentException("tried recording negative data"); } if (entry.isEmpty()) { return; } // create any buckets needed by this range ensureBuckets(start, end); // distribute data usage into buckets long duration = end - start; final int startIndex = getIndexAfter(end); for (int i = startIndex; i >= 0; i--) { final long curStart = bucketStart[i]; final long curEnd = curStart + bucketDuration; // bucket is older than record; we're finished if (curEnd < start) break; // bucket is newer than record; keep looking if (curStart > end) continue; final long overlap = Math.min(curEnd, end) - Math.max(curStart, start); if (overlap <= 0) continue; // integer math each time is faster than floating point final long fracRxBytes = multiplySafeByRational(rxBytes, overlap, duration); final long fracRxPackets = multiplySafeByRational(rxPackets, overlap, duration); final long fracTxBytes = multiplySafeByRational(txBytes, overlap, duration); final long fracTxPackets = multiplySafeByRational(txPackets, overlap, duration); final long fracOperations = multiplySafeByRational(operations, overlap, duration); addLong(activeTime, i, overlap); addLong(this.rxBytes, i, fracRxBytes); rxBytes -= fracRxBytes; addLong(this.rxPackets, i, fracRxPackets); rxPackets -= fracRxPackets; addLong(this.txBytes, i, fracTxBytes); txBytes -= fracTxBytes; addLong(this.txPackets, i, fracTxPackets); txPackets -= fracTxPackets; addLong(this.operations, i, fracOperations); operations -= fracOperations; duration -= overlap; } totalBytes += entry.rxBytes + entry.txBytes; } /** * Record an entire {@link NetworkStatsHistory} into this history. Usually * for combining together stats for external reporting. */ @UnsupportedAppUsage public void recordEntireHistory(NetworkStatsHistory input) { recordHistory(input, Long.MIN_VALUE, Long.MAX_VALUE); } /** * Record given {@link NetworkStatsHistory} into this history, copying only * buckets that atomically occur in the inclusive time range. Doesn't * interpolate across partial buckets. */ public void recordHistory(NetworkStatsHistory input, long start, long end) { final NetworkStats.Entry entry = new NetworkStats.Entry( IFACE_ALL, UID_ALL, SET_DEFAULT, TAG_NONE, 0L, 0L, 0L, 0L, 0L); for (int i = 0; i < input.bucketCount; i++) { final long bucketStart = input.bucketStart[i]; final long bucketEnd = bucketStart + input.bucketDuration; // skip when bucket is outside requested range if (bucketStart < start || bucketEnd > end) continue; entry.rxBytes = getLong(input.rxBytes, i, 0L); entry.rxPackets = getLong(input.rxPackets, i, 0L); entry.txBytes = getLong(input.txBytes, i, 0L); entry.txPackets = getLong(input.txPackets, i, 0L); entry.operations = getLong(input.operations, i, 0L); recordData(bucketStart, bucketEnd, entry); } } /** * Ensure that buckets exist for given time range, creating as needed. */ private void ensureBuckets(long start, long end) { // normalize incoming range to bucket boundaries start -= start % bucketDuration; end += (bucketDuration - (end % bucketDuration)) % bucketDuration; for (long now = start; now < end; now += bucketDuration) { // try finding existing bucket final int index = Arrays.binarySearch(bucketStart, 0, bucketCount, now); if (index < 0) { // bucket missing, create and insert insertBucket(~index, now); } } } /** * Insert new bucket at requested index and starting time. */ private void insertBucket(int index, long start) { // create more buckets when needed if (bucketCount >= bucketStart.length) { final int newLength = Math.max(bucketStart.length, 10) * 3 / 2; bucketStart = Arrays.copyOf(bucketStart, newLength); if (activeTime != null) activeTime = Arrays.copyOf(activeTime, newLength); if (rxBytes != null) rxBytes = Arrays.copyOf(rxBytes, newLength); if (rxPackets != null) rxPackets = Arrays.copyOf(rxPackets, newLength); if (txBytes != null) txBytes = Arrays.copyOf(txBytes, newLength); if (txPackets != null) txPackets = Arrays.copyOf(txPackets, newLength); if (operations != null) operations = Arrays.copyOf(operations, newLength); } // create gap when inserting bucket in middle if (index < bucketCount) { final int dstPos = index + 1; final int length = bucketCount - index; System.arraycopy(bucketStart, index, bucketStart, dstPos, length); if (activeTime != null) System.arraycopy(activeTime, index, activeTime, dstPos, length); if (rxBytes != null) System.arraycopy(rxBytes, index, rxBytes, dstPos, length); if (rxPackets != null) System.arraycopy(rxPackets, index, rxPackets, dstPos, length); if (txBytes != null) System.arraycopy(txBytes, index, txBytes, dstPos, length); if (txPackets != null) System.arraycopy(txPackets, index, txPackets, dstPos, length); if (operations != null) System.arraycopy(operations, index, operations, dstPos, length); } bucketStart[index] = start; setLong(activeTime, index, 0L); setLong(rxBytes, index, 0L); setLong(rxPackets, index, 0L); setLong(txBytes, index, 0L); setLong(txPackets, index, 0L); setLong(operations, index, 0L); bucketCount++; } /** * Clear all data stored in this object. */ public void clear() { bucketStart = EmptyArray.LONG; if (activeTime != null) activeTime = EmptyArray.LONG; if (rxBytes != null) rxBytes = EmptyArray.LONG; if (rxPackets != null) rxPackets = EmptyArray.LONG; if (txBytes != null) txBytes = EmptyArray.LONG; if (txPackets != null) txPackets = EmptyArray.LONG; if (operations != null) operations = EmptyArray.LONG; bucketCount = 0; totalBytes = 0; } /** * Remove buckets older than requested cutoff. */ @Deprecated public void removeBucketsBefore(long cutoff) { int i; for (i = 0; i < bucketCount; i++) { final long curStart = bucketStart[i]; final long curEnd = curStart + bucketDuration; // cutoff happens before or during this bucket; everything before // this bucket should be removed. if (curEnd > cutoff) break; } if (i > 0) { final int length = bucketStart.length; bucketStart = Arrays.copyOfRange(bucketStart, i, length); if (activeTime != null) activeTime = Arrays.copyOfRange(activeTime, i, length); if (rxBytes != null) rxBytes = Arrays.copyOfRange(rxBytes, i, length); if (rxPackets != null) rxPackets = Arrays.copyOfRange(rxPackets, i, length); if (txBytes != null) txBytes = Arrays.copyOfRange(txBytes, i, length); if (txPackets != null) txPackets = Arrays.copyOfRange(txPackets, i, length); if (operations != null) operations = Arrays.copyOfRange(operations, i, length); bucketCount -= i; // TODO: subtract removed values from totalBytes } } /** * Return interpolated data usage across the requested range. Interpolates * across buckets, so values may be rounded slightly. * *
If the active bucket is not completed yet, it returns the proportional value of it
* based on its duration and the {@code end} param.
*
* @param start - start of the range, timestamp in milliseconds since the epoch.
* @param end - end of the range, timestamp in milliseconds since the epoch.
* @param recycle - entry instance for performance, could be null.
*/
@UnsupportedAppUsage
public Entry getValues(long start, long end, Entry recycle) {
return getValues(start, end, Long.MAX_VALUE, recycle);
}
/**
* Return interpolated data usage across the requested range. Interpolates
* across buckets, so values may be rounded slightly.
*
* @param start - start of the range, timestamp in milliseconds since the epoch.
* @param end - end of the range, timestamp in milliseconds since the epoch.
* @param now - current timestamp in milliseconds since the epoch (wall clock).
* @param recycle - entry instance for performance, could be null.
*/
@UnsupportedAppUsage
public Entry getValues(long start, long end, long now, Entry recycle) {
final Entry entry = recycle != null ? recycle : new Entry();
entry.bucketDuration = end - start;
entry.bucketStart = start;
entry.activeTime = activeTime != null ? 0 : UNKNOWN;
entry.rxBytes = rxBytes != null ? 0 : UNKNOWN;
entry.rxPackets = rxPackets != null ? 0 : UNKNOWN;
entry.txBytes = txBytes != null ? 0 : UNKNOWN;
entry.txPackets = txPackets != null ? 0 : UNKNOWN;
entry.operations = operations != null ? 0 : UNKNOWN;
final int startIndex = getIndexAfter(end);
for (int i = startIndex; i >= 0; i--) {
final long curStart = bucketStart[i];
long curEnd = curStart + bucketDuration;
// bucket is older than request; we're finished
if (curEnd <= start) break;
// bucket is newer than request; keep looking
if (curStart >= end) continue;
// the active bucket is shorter then a normal completed bucket
if (curEnd > now) curEnd = now;
// usually this is simply bucketDuration
final long bucketSpan = curEnd - curStart;
// prevent division by zero
if (bucketSpan <= 0) continue;
final long overlapEnd = curEnd < end ? curEnd : end;
final long overlapStart = curStart > start ? curStart : start;
final long overlap = overlapEnd - overlapStart;
if (overlap <= 0) continue;
// integer math each time is faster than floating point
if (activeTime != null) {
entry.activeTime += multiplySafeByRational(activeTime[i], overlap, bucketSpan);
}
if (rxBytes != null) {
entry.rxBytes += multiplySafeByRational(rxBytes[i], overlap, bucketSpan);
}
if (rxPackets != null) {
entry.rxPackets += multiplySafeByRational(rxPackets[i], overlap, bucketSpan);
}
if (txBytes != null) {
entry.txBytes += multiplySafeByRational(txBytes[i], overlap, bucketSpan);
}
if (txPackets != null) {
entry.txPackets += multiplySafeByRational(txPackets[i], overlap, bucketSpan);
}
if (operations != null) {
entry.operations += multiplySafeByRational(operations[i], overlap, bucketSpan);
}
}
return entry;
}
/**
* @deprecated only for temporary testing
*/
@Deprecated
public void generateRandom(long start, long end, long bytes) {
final Random r = new Random();
final float fractionRx = r.nextFloat();
final long rxBytes = (long) (bytes * fractionRx);
final long txBytes = (long) (bytes * (1 - fractionRx));
final long rxPackets = rxBytes / 1024;
final long txPackets = txBytes / 1024;
final long operations = rxBytes / 2048;
generateRandom(start, end, rxBytes, rxPackets, txBytes, txPackets, operations, r);
}
/**
* @deprecated only for temporary testing
*/
@Deprecated
public void generateRandom(long start, long end, long rxBytes, long rxPackets, long txBytes,
long txPackets, long operations, Random r) {
ensureBuckets(start, end);
final NetworkStats.Entry entry = new NetworkStats.Entry(
IFACE_ALL, UID_ALL, SET_DEFAULT, TAG_NONE, 0L, 0L, 0L, 0L, 0L);
while (rxBytes > 1024 || rxPackets > 128 || txBytes > 1024 || txPackets > 128
|| operations > 32) {
final long curStart = randomLong(r, start, end);
final long curEnd = curStart + randomLong(r, 0, (end - curStart) / 2);
entry.rxBytes = randomLong(r, 0, rxBytes);
entry.rxPackets = randomLong(r, 0, rxPackets);
entry.txBytes = randomLong(r, 0, txBytes);
entry.txPackets = randomLong(r, 0, txPackets);
entry.operations = randomLong(r, 0, operations);
rxBytes -= entry.rxBytes;
rxPackets -= entry.rxPackets;
txBytes -= entry.txBytes;
txPackets -= entry.txPackets;
operations -= entry.operations;
recordData(curStart, curEnd, entry);
}
}
public static long randomLong(Random r, long start, long end) {
return (long) (start + (r.nextFloat() * (end - start)));
}
/**
* Quickly determine if this history intersects with given window.
*/
public boolean intersects(long start, long end) {
final long dataStart = getStart();
final long dataEnd = getEnd();
if (start >= dataStart && start <= dataEnd) return true;
if (end >= dataStart && end <= dataEnd) return true;
if (dataStart >= start && dataStart <= end) return true;
if (dataEnd >= start && dataEnd <= end) return true;
return false;
}
public void dump(IndentingPrintWriter pw, boolean fullHistory) {
pw.print("NetworkStatsHistory: bucketDuration=");
pw.println(bucketDuration / SECOND_IN_MILLIS);
pw.increaseIndent();
final int start = fullHistory ? 0 : Math.max(0, bucketCount - 32);
if (start > 0) {
pw.print("(omitting "); pw.print(start); pw.println(" buckets)");
}
for (int i = start; i < bucketCount; i++) {
pw.print("st="); pw.print(bucketStart[i] / SECOND_IN_MILLIS);
if (rxBytes != null) { pw.print(" rb="); pw.print(rxBytes[i]); }
if (rxPackets != null) { pw.print(" rp="); pw.print(rxPackets[i]); }
if (txBytes != null) { pw.print(" tb="); pw.print(txBytes[i]); }
if (txPackets != null) { pw.print(" tp="); pw.print(txPackets[i]); }
if (operations != null) { pw.print(" op="); pw.print(operations[i]); }
pw.println();
}
pw.decreaseIndent();
}
public void dumpCheckin(PrintWriter pw) {
pw.print("d,");
pw.print(bucketDuration / SECOND_IN_MILLIS);
pw.println();
for (int i = 0; i < bucketCount; i++) {
pw.print("b,");
pw.print(bucketStart[i] / SECOND_IN_MILLIS); pw.print(',');
if (rxBytes != null) { pw.print(rxBytes[i]); } else { pw.print("*"); } pw.print(',');
if (rxPackets != null) { pw.print(rxPackets[i]); } else { pw.print("*"); } pw.print(',');
if (txBytes != null) { pw.print(txBytes[i]); } else { pw.print("*"); } pw.print(',');
if (txPackets != null) { pw.print(txPackets[i]); } else { pw.print("*"); } pw.print(',');
if (operations != null) { pw.print(operations[i]); } else { pw.print("*"); }
pw.println();
}
}
public void dumpDebug(ProtoOutputStream proto, long tag) {
final long start = proto.start(tag);
proto.write(NetworkStatsHistoryProto.BUCKET_DURATION_MS, bucketDuration);
for (int i = 0; i < bucketCount; i++) {
final long startBucket = proto.start(NetworkStatsHistoryProto.BUCKETS);
proto.write(NetworkStatsHistoryBucketProto.BUCKET_START_MS, bucketStart[i]);
dumpDebug(proto, NetworkStatsHistoryBucketProto.RX_BYTES, rxBytes, i);
dumpDebug(proto, NetworkStatsHistoryBucketProto.RX_PACKETS, rxPackets, i);
dumpDebug(proto, NetworkStatsHistoryBucketProto.TX_BYTES, txBytes, i);
dumpDebug(proto, NetworkStatsHistoryBucketProto.TX_PACKETS, txPackets, i);
dumpDebug(proto, NetworkStatsHistoryBucketProto.OPERATIONS, operations, i);
proto.end(startBucket);
}
proto.end(start);
}
private static void dumpDebug(ProtoOutputStream proto, long tag, long[] array, int index) {
if (array != null) {
proto.write(tag, array[index]);
}
}
@Override
public String toString() {
final CharArrayWriter writer = new CharArrayWriter();
dump(new IndentingPrintWriter(writer, " "), false);
return writer.toString();
}
@UnsupportedAppUsage
public static final @android.annotation.NonNull Creator