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A driver for DataStax Enterprise (DSE)
and Apache Cassandra 1.2+ clusters that works exclusively with the
Cassandra Query Language version 3 (CQL3) and Cassandra's binary protocol,
supporting DSE-specific features such as geospatial types, DSE Graph and DSE authentication.
/*
* Copyright (C) 2012-2017 DataStax Inc.
*
* This software can be used solely with DataStax Enterprise. Please consult the license at
* http://www.datastax.com/terms/datastax-dse-driver-license-terms
*/
package com.datastax.driver.core;
import com.datastax.driver.core.exceptions.*;
import com.google.common.util.concurrent.AbstractFuture;
import com.google.common.util.concurrent.Uninterruptibles;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import java.util.concurrent.ExecutionException;
import java.util.concurrent.TimeUnit;
import java.util.concurrent.TimeoutException;
import static com.datastax.driver.core.SchemaElement.KEYSPACE;
/**
* Internal implementation of ResultSetFuture.
*/
class DefaultResultSetFuture extends AbstractFuture implements ResultSetFuture, RequestHandler.Callback {
private static final Logger logger = LoggerFactory.getLogger(ResultSetFuture.class);
private final SessionManager session;
private final ProtocolVersion protocolVersion;
private final Message.Request request;
private volatile RequestHandler handler;
DefaultResultSetFuture(SessionManager session, ProtocolVersion protocolVersion, Message.Request request) {
this.session = session;
this.protocolVersion = protocolVersion;
this.request = request;
}
@Override
public void register(RequestHandler handler) {
this.handler = handler;
}
@Override
public Message.Request request() {
return request;
}
@Override
public void onSet(Connection connection, Message.Response response, ExecutionInfo info, Statement statement, long latency) {
try {
switch (response.type) {
case RESULT:
Responses.Result rm = (Responses.Result) response;
switch (rm.kind) {
case SET_KEYSPACE:
// propagate the keyspace change to other connections
session.poolsState.setKeyspace(((Responses.Result.SetKeyspace) rm).keyspace);
set(ArrayBackedResultSet.fromMessage(rm, session, protocolVersion, info, statement));
break;
case SCHEMA_CHANGE:
ResultSet rs = ArrayBackedResultSet.fromMessage(rm, session, protocolVersion, info, statement);
final Cluster.Manager cluster = session.cluster.manager;
if (!cluster.configuration.getQueryOptions().isMetadataEnabled()) {
cluster.waitForSchemaAgreementAndSignal(connection, this, rs);
} else {
Responses.Result.SchemaChange scc = (Responses.Result.SchemaChange) rm;
switch (scc.change) {
case CREATED:
case UPDATED:
cluster.refreshSchemaAndSignal(connection, this, rs, scc.targetType, scc.targetKeyspace, scc.targetName, scc.targetSignature);
break;
case DROPPED:
if (scc.targetType == KEYSPACE) {
// If that the one keyspace we are logged in, reset to null (it shouldn't really happen but ...)
// Note: Actually, Cassandra doesn't do that so we don't either as this could confuse prepared statements.
// We'll add it back if CASSANDRA-5358 changes that behavior
//if (scc.keyspace.equals(session.poolsState.keyspace))
// session.poolsState.setKeyspace(null);
final KeyspaceMetadata removedKeyspace = cluster.metadata.removeKeyspace(scc.targetKeyspace);
if (removedKeyspace != null) {
cluster.executor.submit(new Runnable() {
@Override
public void run() {
cluster.metadata.triggerOnKeyspaceRemoved(removedKeyspace);
}
});
}
} else {
KeyspaceMetadata keyspace = session.cluster.manager.metadata.keyspaces.get(scc.targetKeyspace);
if (keyspace == null) {
logger.warn("Received a DROPPED notification for {} {}.{}, but this keyspace is unknown in our metadata",
scc.targetType, scc.targetKeyspace, scc.targetName);
} else {
switch (scc.targetType) {
case TABLE:
// we can't tell whether it's a table or a view,
// but since two objects cannot have the same name,
// try removing both
final TableMetadata removedTable = keyspace.removeTable(scc.targetName);
if (removedTable != null) {
cluster.executor.submit(new Runnable() {
@Override
public void run() {
cluster.metadata.triggerOnTableRemoved(removedTable);
}
});
} else {
final MaterializedViewMetadata removedView = keyspace.removeMaterializedView(scc.targetName);
if (removedView != null) {
cluster.executor.submit(new Runnable() {
@Override
public void run() {
cluster.metadata.triggerOnMaterializedViewRemoved(removedView);
}
});
}
}
break;
case TYPE:
final UserType removedType = keyspace.removeUserType(scc.targetName);
if (removedType != null) {
cluster.executor.submit(new Runnable() {
@Override
public void run() {
cluster.metadata.triggerOnUserTypeRemoved(removedType);
}
});
}
break;
case FUNCTION:
final FunctionMetadata removedFunction = keyspace.removeFunction(Metadata.fullFunctionName(scc.targetName, scc.targetSignature));
if (removedFunction != null) {
cluster.executor.submit(new Runnable() {
@Override
public void run() {
cluster.metadata.triggerOnFunctionRemoved(removedFunction);
}
});
}
break;
case AGGREGATE:
final AggregateMetadata removedAggregate = keyspace.removeAggregate(Metadata.fullFunctionName(scc.targetName, scc.targetSignature));
if (removedAggregate != null) {
cluster.executor.submit(new Runnable() {
@Override
public void run() {
cluster.metadata.triggerOnAggregateRemoved(removedAggregate);
}
});
}
break;
}
}
}
session.cluster.manager.waitForSchemaAgreementAndSignal(connection, this, rs);
break;
default:
logger.info("Ignoring unknown schema change result");
break;
}
}
break;
default:
set(ArrayBackedResultSet.fromMessage(rm, session, protocolVersion, info, statement));
break;
}
break;
case ERROR:
setException(((Responses.Error) response).asException(connection.address));
break;
default:
// This mean we have probably have a bad node, so defunct the connection
connection.defunct(new ConnectionException(connection.address, String.format("Got unexpected %s response", response.type)));
setException(new DriverInternalError(String.format("Got unexpected %s response from %s", response.type, connection.address)));
break;
}
} catch (Throwable e) {
// If we get a bug here, the client will not get it, so better forwarding the error
setException(new DriverInternalError("Unexpected error while processing response from " + connection.address, e));
}
}
@Override
public void onSet(Connection connection, Message.Response response, long latency, int retryCount) {
// This is only called for internal calls (i.e, when the callback is not wrapped in ResponseHandler),
// so don't bother with ExecutionInfo.
onSet(connection, response, null, null, latency);
}
@Override
public void onException(Connection connection, Exception exception, long latency, int retryCount) {
setException(exception);
}
@Override
public boolean onTimeout(Connection connection, long latency, int retryCount) {
// This is only called for internal calls (i.e, when the future is not wrapped in RequestHandler).
// So just set an exception for the final result, which should be handled correctly by said internal call.
setException(new OperationTimedOutException(connection.address));
return true;
}
// We sometimes need (in the driver) to set the future from outside this class,
// but AbstractFuture#set is protected so this method. We don't want it public
// however, no particular reason to give users rope to hang themselves.
void setResult(ResultSet rs) {
set(rs);
}
/**
* Waits for the query to return and return its result.
*
* This method is usually more convenient than {@link #get} because it:
*
* - Waits for the result uninterruptibly, and so doesn't throw
* {@link InterruptedException}.
* - Returns meaningful exceptions, instead of having to deal
* with ExecutionException.
*
* As such, it is the preferred way to get the future result.
*
* @throws NoHostAvailableException if no host in the cluster can be
* contacted successfully to execute this query.
* @throws QueryExecutionException if the query triggered an execution
* exception, that is an exception thrown by Cassandra when it cannot execute
* the query with the requested consistency level successfully.
* @throws QueryValidationException if the query is invalid (syntax error,
* unauthorized or any other validation problem).
*/
@Override
public ResultSet getUninterruptibly() {
try {
return Uninterruptibles.getUninterruptibly(this);
} catch (ExecutionException e) {
throw DriverThrowables.propagateCause(e);
}
}
/**
* Waits for the provided time for the query to return and return its
* result if available.
*
* This method is usually more convenient than {@link #get} because it:
*
* - Waits for the result uninterruptibly, and so doesn't throw
* {@link InterruptedException}.
* - Returns meaningful exceptions, instead of having to deal
* with ExecutionException.
*
* As such, it is the preferred way to get the future result.
*
* @throws NoHostAvailableException if no host in the cluster can be
* contacted successfully to execute this query.
* @throws QueryExecutionException if the query triggered an execution
* exception, that is an exception thrown by Cassandra when it cannot execute
* the query with the requested consistency level successfully.
* @throws QueryValidationException if the query if invalid (syntax error,
* unauthorized or any other validation problem).
* @throws TimeoutException if the wait timed out (Note that this is
* different from a Cassandra timeout, which is a {@code
* QueryExecutionException}).
*/
@Override
public ResultSet getUninterruptibly(long timeout, TimeUnit unit) throws TimeoutException {
try {
return Uninterruptibles.getUninterruptibly(this, timeout, unit);
} catch (ExecutionException e) {
throw DriverThrowables.propagateCause(e);
}
}
/**
* Attempts to cancel the execution of the request corresponding to this
* future. This attempt will fail if the request has already returned.
*
* Please note that this only cancels the request driver side, but nothing
* is done to interrupt the execution of the request Cassandra side (and that even
* if {@code mayInterruptIfRunning} is true) since Cassandra does not
* support such interruption.
*
* This method can be used to ensure no more work is performed driver side
* (which, while it doesn't include stopping a request already submitted
* to a Cassandra node, may include not retrying another Cassandra host on
* failure/timeout) if the ResultSet is not going to be retried. Typically,
* the code to wait for a request result for a maximum of 1 second could
* look like:
*
* ResultSetFuture future = session.executeAsync(...some query...);
* try {
* ResultSet result = future.get(1, TimeUnit.SECONDS);
* ... process result ...
* } catch (TimeoutException e) {
* future.cancel(true); // Ensure any resource used by this query driver
* // side is released immediately
* ... handle timeout ...
* }
*
*
* @param mayInterruptIfRunning the value of this parameter is currently
* ignored.
* @return {@code false} if the future could not be cancelled (it has already
* completed normally); {@code true} otherwise.
*/
@Override
public boolean cancel(boolean mayInterruptIfRunning) {
if (!super.cancel(mayInterruptIfRunning))
return false;
if (handler != null) {
handler.cancel();
}
return true;
}
@Override
public int retryCount() {
// This is only called for internal calls (i.e, when the future is not wrapped in RequestHandler).
// There is no retry logic in that case, so the value does not really matter.
return 0;
}
}