/* * Copyright (C) 2007 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.content; import android.os.Parcelable; import android.os.Parcel; /** * Used to record various statistics about the result of a sync operation. The SyncManager * gets access to these via a {@link SyncResult} and uses some of them to determine the * disposition of the sync. See {@link SyncResult} for further dicussion on how the * SyncManager uses these values. */ public class SyncStats implements Parcelable { /** * The SyncAdapter was unable to authenticate the {@link android.accounts.Account} * that was specified in the request. The user needs to take some action to resolve * before a future request can expect to succeed. This is considered a hard error. */ public long numAuthExceptions; /** * The SyncAdapter had a problem, most likely with the network connectivity or a timeout * while waiting for a network response. The request may succeed if it is tried again * later. This is considered a soft error. */ public long numIoExceptions; /** * The SyncAdapter had a problem with the data it received from the server or the storage * later. This problem will likely repeat if the request is tried again. The problem * will need to be cleared up by either the server or the storage layer (likely with help * from the user). If the SyncAdapter cleans up the data itself then it typically won't * increment this value although it may still do so in order to record that it had to * perform some cleanup. E.g., if the SyncAdapter received a bad entry from the server * when processing a feed of entries, it may choose to drop the entry and thus make * progress and still increment this value just so the SyncAdapter can record that an * error occurred. This is considered a hard error. */ public long numParseExceptions; /** * The SyncAdapter detected that there was an unrecoverable version conflict when it * attempted to update or delete a version of a resource on the server. This is expected * to clear itself automatically once the new state is retrieved from the server, * though it may remain until the user intervenes manually, perhaps by clearing the * local storage and starting over frmo scratch. This is considered a hard error. */ public long numConflictDetectedExceptions; /** * Counter for tracking how many inserts were performed by the sync operation, as defined * by the SyncAdapter. */ public long numInserts; /** * Counter for tracking how many updates were performed by the sync operation, as defined * by the SyncAdapter. */ public long numUpdates; /** * Counter for tracking how many deletes were performed by the sync operation, as defined * by the SyncAdapter. */ public long numDeletes; /** * Counter for tracking how many entries were affected by the sync operation, as defined * by the SyncAdapter. */ public long numEntries; /** * Counter for tracking how many entries, either from the server or the local store, were * ignored during the sync operation. This could happen if the SyncAdapter detected some * unparsable data but decided to skip it and move on rather than failing immediately. */ public long numSkippedEntries; public SyncStats() { numAuthExceptions = 0; numIoExceptions = 0; numParseExceptions = 0; numConflictDetectedExceptions = 0; numInserts = 0; numUpdates = 0; numDeletes = 0; numEntries = 0; numSkippedEntries = 0; } public SyncStats(Parcel in) { numAuthExceptions = in.readLong(); numIoExceptions = in.readLong(); numParseExceptions = in.readLong(); numConflictDetectedExceptions = in.readLong(); numInserts = in.readLong(); numUpdates = in.readLong(); numDeletes = in.readLong(); numEntries = in.readLong(); numSkippedEntries = in.readLong(); } @Override public String toString() { StringBuilder sb = new StringBuilder(); sb.append(" stats ["); if (numAuthExceptions > 0) sb.append(" numAuthExceptions: ").append(numAuthExceptions); if (numIoExceptions > 0) sb.append(" numIoExceptions: ").append(numIoExceptions); if (numParseExceptions > 0) sb.append(" numParseExceptions: ").append(numParseExceptions); if (numConflictDetectedExceptions > 0) sb.append(" numConflictDetectedExceptions: ").append(numConflictDetectedExceptions); if (numInserts > 0) sb.append(" numInserts: ").append(numInserts); if (numUpdates > 0) sb.append(" numUpdates: ").append(numUpdates); if (numDeletes > 0) sb.append(" numDeletes: ").append(numDeletes); if (numEntries > 0) sb.append(" numEntries: ").append(numEntries); if (numSkippedEntries > 0) sb.append(" numSkippedEntries: ").append(numSkippedEntries); sb.append("]"); return sb.toString(); } /** * Reset all the counters to 0. */ public void clear() { numAuthExceptions = 0; numIoExceptions = 0; numParseExceptions = 0; numConflictDetectedExceptions = 0; numInserts = 0; numUpdates = 0; numDeletes = 0; numEntries = 0; numSkippedEntries = 0; } public int describeContents() { return 0; } public void writeToParcel(Parcel dest, int flags) { dest.writeLong(numAuthExceptions); dest.writeLong(numIoExceptions); dest.writeLong(numParseExceptions); dest.writeLong(numConflictDetectedExceptions); dest.writeLong(numInserts); dest.writeLong(numUpdates); dest.writeLong(numDeletes); dest.writeLong(numEntries); dest.writeLong(numSkippedEntries); } public static final Creator CREATOR = new Creator() { public SyncStats createFromParcel(Parcel in) { return new SyncStats(in); } public SyncStats[] newArray(int size) { return new SyncStats[size]; } }; }