use of com.eightkdata.mongowp.exceptions.OplogOperationUnsupported in project torodb by torodb.
the class AbstractMongoOplogReader method getFirstOrLastOp.
private OplogOperation getFirstOrLastOp(boolean first) throws OplogStartMissingException, OplogOperationUnsupported, MongoException {
Preconditions.checkState(!isClosed(), "You have to connect this client before");
BsonDocument query = DefaultBsonValues.EMPTY_DOC;
BsonDocument orderBy = first ? NATURAL_ORDER_SORT : INVERSE_ORDER_SORT;
EnumSet<QueryOption> flags = EnumSet.of(QueryOption.SLAVE_OK);
BsonDocument doc;
MongoConnection connection = consumeConnection();
try {
MongoCursor<BsonDocument> cursor = connection.query(DATABASE, COLLECTION, query, 0, 1, new QueryOptions(flags), orderBy, null);
try {
Batch<BsonDocument> batch = cursor.fetchBatch();
try {
if (!batch.hasNext()) {
throw new OplogStartMissingException(getSyncSource());
}
doc = batch.next();
} finally {
batch.close();
}
} finally {
cursor.close();
}
try {
return OplogOperationParser.fromBson(doc);
} catch (BadValueException | TypesMismatchException | NoSuchKeyException ex) {
throw new OplogOperationUnsupported(doc, ex);
}
} finally {
releaseConnection(connection);
}
}
use of com.eightkdata.mongowp.exceptions.OplogOperationUnsupported in project torodb by torodb.
the class RecoveryService method initialSync.
private boolean initialSync() throws TryAgainException, FatalErrorException {
/*
* 1. store that data is inconsistent 2. decide a sync source 3. lastRemoteOptime1 = get the
* last optime of the sync source 4. clone all databases except local 5. lastRemoteOptime2 = get
* the last optime of the sync source 6. apply remote oplog from lastRemoteOptime1 to
* lastRemoteOptime2 7. lastRemoteOptime3 = get the last optime of the sync source 8. apply
* remote oplog from lastRemoteOptime2 to lastRemoteOptime3 9. rebuild indexes 10. store
* lastRemoteOptime3 as the last applied operation optime 11. store that data is consistent 12.
* change replication state to SECONDARY
*/
//TODO: Support fastsync (used to restore a node by copying the data from other up-to-date node)
LOGGER.info("Starting initial sync");
callback.setConsistentState(false);
HostAndPort syncSource;
try {
syncSource = syncSourceProvider.newSyncSource();
LOGGER.info("Using node " + syncSource + " to replicate from");
} catch (NoSyncSourceFoundException ex) {
throw new TryAgainException("No sync source");
}
MongoClient remoteClient;
try {
remoteClient = remoteClientFactory.createClient(syncSource);
} catch (UnreachableMongoServerException ex) {
throw new TryAgainException(ex);
}
try {
LOGGER.debug("Remote client obtained");
MongoConnection remoteConnection = remoteClient.openConnection();
try (OplogReader reader = oplogReaderProvider.newReader(remoteConnection)) {
OplogOperation lastClonedOp = reader.getLastOp();
OpTime lastRemoteOptime1 = lastClonedOp.getOpTime();
try (WriteOplogTransaction oplogTransaction = oplogManager.createWriteTransaction()) {
LOGGER.info("Remote database cloning started");
oplogTransaction.truncate();
LOGGER.info("Local databases dropping started");
Status<?> status = dropDatabases();
if (!status.isOk()) {
throw new TryAgainException("Error while trying to drop collections: " + status);
}
LOGGER.info("Local databases dropping finished");
if (!isRunning()) {
LOGGER.warn("Recovery stopped before it can finish");
return false;
}
LOGGER.info("Remote database cloning started");
cloneDatabases(remoteClient);
LOGGER.info("Remote database cloning finished");
oplogTransaction.forceNewValue(lastClonedOp.getHash(), lastClonedOp.getOpTime());
}
if (!isRunning()) {
LOGGER.warn("Recovery stopped before it can finish");
return false;
}
TorodServer torodServer = server.getTorodServer();
try (TorodConnection connection = torodServer.openConnection();
SharedWriteTorodTransaction trans = connection.openWriteTransaction(false)) {
OpTime lastRemoteOptime2 = reader.getLastOp().getOpTime();
LOGGER.info("First oplog application started");
applyOplog(reader, lastRemoteOptime1, lastRemoteOptime2);
trans.commit();
LOGGER.info("First oplog application finished");
if (!isRunning()) {
LOGGER.warn("Recovery stopped before it can finish");
return false;
}
OplogOperation lastOperation = reader.getLastOp();
OpTime lastRemoteOptime3 = lastOperation.getOpTime();
LOGGER.info("Second oplog application started");
applyOplog(reader, lastRemoteOptime2, lastRemoteOptime3);
trans.commit();
LOGGER.info("Second oplog application finished");
if (!isRunning()) {
LOGGER.warn("Recovery stopped before it can finish");
return false;
}
LOGGER.info("Index rebuild started");
rebuildIndexes();
trans.commit();
LOGGER.info("Index rebuild finished");
if (!isRunning()) {
LOGGER.warn("Recovery stopped before it can finish");
return false;
}
trans.commit();
}
} catch (OplogStartMissingException ex) {
throw new TryAgainException(ex);
} catch (OplogOperationUnsupported ex) {
throw new TryAgainException(ex);
} catch (MongoException | RollbackException ex) {
throw new TryAgainException(ex);
} catch (OplogManagerPersistException ex) {
throw new FatalErrorException();
} catch (UserException ex) {
throw new FatalErrorException(ex);
}
callback.setConsistentState(true);
LOGGER.info("Initial sync finished");
} finally {
remoteClient.close();
}
return true;
}
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