com.datastax.driver.core.Session Maven / Gradle / Ivy
Show all versions of scylla-driver-core Show documentation
/*
* Copyright DataStax, Inc.
*
* 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 com.datastax.driver.core;
import com.datastax.driver.core.exceptions.AuthenticationException;
import com.datastax.driver.core.exceptions.NoHostAvailableException;
import com.datastax.driver.core.exceptions.QueryExecutionException;
import com.datastax.driver.core.exceptions.QueryValidationException;
import com.datastax.driver.core.exceptions.UnsupportedFeatureException;
import com.google.common.util.concurrent.ListenableFuture;
import java.io.Closeable;
import java.util.Collection;
import java.util.Map;
/**
* A session holds connections to a Cassandra cluster, allowing it to be queried.
*
* Each session maintains multiple connections to the cluster nodes, provides policies to choose
* which node to use for each query (round-robin on all nodes of the cluster by default), and
* handles retries for failed queries (when it makes sense), etc...
*
*
Session instances are thread-safe and usually a single instance is enough per application. As
* a given session can only be "logged" into one keyspace at a time (where the "logged" keyspace is
* the one used by queries that don't explicitly use a fully qualified table name), it can make
* sense to create one session per keyspace used. This is however not necessary when querying
* multiple keyspaces since it is always possible to use a single session with fully qualified table
* names in queries.
*/
public interface Session extends Closeable {
/**
* The keyspace to which this Session is currently logged in, if any.
*
*
This correspond to the name passed to {@link Cluster#connect(String)}, or to the last
* keyspace logged into through a "USE" CQL query if one was used.
*
* @return the name of the keyspace to which this Session is currently logged in, or {@code null}
* if the session is logged to no keyspace.
*/
String getLoggedKeyspace();
/**
* Force the initialization of this Session instance if it hasn't been initialized yet.
*
*
Please note first that most users won't need to call this method explicitly. If you use the
* {@link Cluster#connect} method to create your Session, the returned session will be already
* initialized. Even if you create a non-initialized session through {@link Cluster#newSession},
* that session will get automatically initialized the first time it is used for querying. This
* method is thus only useful if you use {@link Cluster#newSession} and want to explicitly force
* initialization without querying.
*
*
Session initialization consists in connecting the Session to the known Cassandra hosts (at
* least those that should not be ignored due to the {@link
* com.datastax.driver.core.policies.LoadBalancingPolicy LoadBalancingPolicy} in place).
*
*
If the Cluster instance this Session depends on is not itself initialized, it will be
* initialized by this method.
*
*
If the session is already initialized, this method is a no-op.
*
* @return this {@code Session} object.
* @throws NoHostAvailableException if this initialization triggers the {@link Cluster}
* initialization and no host amongst the contact points can be reached.
* @throws AuthenticationException if this initialization triggers the {@link Cluster}
* initialization and an authentication error occurs while contacting the initial contact
* points.
*/
Session init();
/**
* Initialize this session asynchronously.
*
* @return a future that will complete when the session is fully initialized.
* @see #init()
*/
ListenableFuture initAsync();
/**
* Executes the provided query.
*
* This is a convenience method for {@code execute(new SimpleStatement(query))}.
*
* @param query the CQL query to execute.
* @return the result of the query. That result will never be null but can be empty (and will be
* for any non SELECT query).
* @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, i.e. 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).
*/
ResultSet execute(String query);
/**
* Executes the provided query using the provided values.
*
*
This is a convenience method for {@code execute(new SimpleStatement(query, values))}.
*
* @param query the CQL query to execute.
* @param values values required for the execution of {@code query}. See {@link
* SimpleStatement#SimpleStatement(String, Object...)} for more details.
* @return the result of the query. That result will never be null but can be empty (and will be
* for any non SELECT query).
* @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, i.e. 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 UnsupportedFeatureException if version 1 of the protocol is in use (i.e. if you've
* forced version 1 through {@link Cluster.Builder#withProtocolVersion} or you use Cassandra
* 1.2).
*/
ResultSet execute(String query, Object... values);
/**
* Executes the provided query using the provided named values.
*
*
This is a convenience method for {@code execute(new SimpleStatement(query, values))}.
*
* @param query the CQL query to execute.
* @param values values required for the execution of {@code query}. See {@link
* SimpleStatement#SimpleStatement(String, Map)} for more details.
* @return the result of the query. That result will never be null but can be empty (and will be
* for any non SELECT query).
* @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, i.e. 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 UnsupportedFeatureException if version 1 or 2 of the protocol is in use (i.e. if you've
* forced it through {@link Cluster.Builder#withProtocolVersion} or you use Cassandra 1.2 or
* 2.0).
*/
ResultSet execute(String query, Map values);
/**
* Executes the provided query.
*
* This method blocks until at least some result has been received from the database. However,
* for SELECT queries, it does not guarantee that the result has been received in full. But it
* does guarantee that some response has been received from the database, and in particular
* guarantees that if the request is invalid, an exception will be thrown by this method.
*
* @param statement the CQL query to execute (that can be any {@link Statement}).
* @return the result of the query. That result will never be null but can be empty (and will be
* for any non SELECT query).
* @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, i.e. 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 UnsupportedFeatureException if the protocol version 1 is in use and a feature not
* supported has been used. Features that are not supported by the version protocol 1 include:
* BatchStatement, ResultSet paging and binary values in RegularStatement.
*/
ResultSet execute(Statement statement);
/**
* Executes the provided query asynchronously.
*
*
This is a convenience method for {@code executeAsync(new SimpleStatement(query))}.
*
* @param query the CQL query to execute.
* @return a future on the result of the query.
*/
ResultSetFuture executeAsync(String query);
/**
* Executes the provided query asynchronously using the provided values.
*
*
This is a convenience method for {@code executeAsync(new SimpleStatement(query, values))}.
*
* @param query the CQL query to execute.
* @param values values required for the execution of {@code query}. See {@link
* SimpleStatement#SimpleStatement(String, Object...)} for more details.
* @return a future on the result of the query.
* @throws UnsupportedFeatureException if version 1 of the protocol is in use (i.e. if you've
* forced version 1 through {@link Cluster.Builder#withProtocolVersion} or you use Cassandra
* 1.2).
*/
ResultSetFuture executeAsync(String query, Object... values);
/**
* Executes the provided query asynchronously using the provided values.
*
*
This is a convenience method for {@code executeAsync(new SimpleStatement(query, values))}.
*
* @param query the CQL query to execute.
* @param values values required for the execution of {@code query}. See {@link
* SimpleStatement#SimpleStatement(String, Map)} for more details.
* @return a future on the result of the query.
* @throws UnsupportedFeatureException if version 1 or 2 of the protocol is in use (i.e. if you've
* forced it through {@link Cluster.Builder#withProtocolVersion} or you use Cassandra 1.2 or
* 2.0).
*/
ResultSetFuture executeAsync(String query, Map values);
/**
* Executes the provided query asynchronously.
*
* This method does not block. It returns as soon as the query has been passed to the
* underlying network stack. In particular, returning from this method does not guarantee that the
* query is valid or has even been submitted to a live node. Any exception pertaining to the
* failure of the query will be thrown when accessing the {@link ResultSetFuture}.
*
*
Note that for queries that don't return a result (INSERT, UPDATE and DELETE), you will need
* to access the ResultSetFuture (that is, call one of its {@code get} methods to make sure the
* query was successful.
*
* @param statement the CQL query to execute (that can be any {@code Statement}).
* @return a future on the result of the query.
* @throws UnsupportedFeatureException if the protocol version 1 is in use and a feature not
* supported has been used. Features that are not supported by the version protocol 1 include:
* BatchStatement, ResultSet paging and binary values in RegularStatement.
*/
ResultSetFuture executeAsync(Statement statement);
/**
* Prepares the provided query string.
*
* @param query the CQL query string to prepare
* @return the prepared statement corresponding to {@code query}.
* @throws NoHostAvailableException if no host in the cluster can be contacted successfully to
* prepare this query.
*/
PreparedStatement prepare(String query);
/**
* Prepares the provided query.
*
*
This method behaves like {@link #prepare(String)}, but the resulting {@code
* PreparedStatement} will inherit some of the properties set on {@code statement}: {@linkplain
* Statement#getRoutingKey(ProtocolVersion, CodecRegistry) routing key}, {@linkplain
* Statement#getConsistencyLevel() consistency level}, {@linkplain
* Statement#getSerialConsistencyLevel() serial consistency level}, {@linkplain
* Statement#isTracing() tracing flag}, {@linkplain Statement#getRetryPolicy() retry policy},
* {@linkplain Statement#getOutgoingPayload() outgoing payload}, and {@linkplain
* Statement#isIdempotent() idempotence}. Concretely, this means that in the following code:
*
*
* RegularStatement toPrepare = new SimpleStatement("SELECT * FROM test WHERE k=?").setConsistencyLevel(ConsistencyLevel.QUORUM);
* PreparedStatement prepared = session.prepare(toPrepare);
* session.execute(prepared.bind("someValue"));
*
*
* the final execution will be performed with Quorum consistency.
*
* Please note that if the same CQL statement is prepared more than once, all calls to this
* method will return the same {@code PreparedStatement} object but the method will still apply
* the properties of the prepared {@code Statement} to this object.
*
* @param statement the statement to prepare
* @return the prepared statement corresponding to {@code statement}.
* @throws NoHostAvailableException if no host in the cluster can be contacted successfully to
* prepare this statement.
* @throws IllegalArgumentException if {@code statement.getValues() != null} (values for executing
* a prepared statement should be provided after preparation though the {@link
* PreparedStatement#bind} method or through a corresponding {@link BoundStatement}).
*/
PreparedStatement prepare(RegularStatement statement);
/**
* Prepares the provided query string asynchronously.
*
*
This method is equivalent to {@link #prepare(String)} except that it does not block but
* return a future instead. Any error during preparation will be thrown when accessing the future,
* not by this method itself.
*
* @param query the CQL query string to prepare
* @return a future on the prepared statement corresponding to {@code query}.
*/
ListenableFuture prepareAsync(String query);
/**
* Prepares the provided query asynchronously. This method behaves like {@link
* #prepareAsync(String)}, but note that the resulting {@code PreparedStatement} will inherit the
* query properties set on {@code statement}. Concretely, this means that in the following code:
*
*
* RegularStatement toPrepare = new SimpleStatement("SELECT * FROM test WHERE k=?").setConsistencyLevel(ConsistencyLevel.QUORUM);
* PreparedStatement prepared = session.prepare(toPrepare);
* session.execute(prepared.bind("someValue"));
*
*
* the final execution will be performed with Quorum consistency.
*
* Please note that if the same CQL statement is prepared more than once, all calls to this
* method will return the same {@code PreparedStatement} object but the method will still apply
* the properties of the prepared {@code Statement} to this object.
*
* @param statement the statement to prepare
* @return a future on the prepared statement corresponding to {@code statement}.
* @throws IllegalArgumentException if {@code statement.getValues() != null} (values for executing
* a prepared statement should be provided after preparation though the {@link
* PreparedStatement#bind} method or through a corresponding {@link BoundStatement}).
* @see Session#prepare(RegularStatement)
*/
ListenableFuture prepareAsync(RegularStatement statement);
/**
* Initiates a shutdown of this session instance.
*
* This method is asynchronous and return a future on the completion of the shutdown process.
* As soon as the session is shutdown, no new request will be accepted, but already submitted
* queries are allowed to complete. This method closes all connections of this session and
* reclaims all resources used by it.
*
*
If for some reason you wish to expedite this process, the {@link CloseFuture#force} can be
* called on the result future.
*
*
This method has no particular effect if the session was already closed (in which case the
* returned future will return immediately).
*
*
Note that this method does not close the corresponding {@code Cluster} instance (which holds
* additional resources, in particular internal executors that must be shut down in order for the
* client program to terminate). If you want to do so, use {@link Cluster#close}, but note that it
* will close all sessions created from that cluster.
*
* @return a future on the completion of the shutdown process.
*/
CloseFuture closeAsync();
/**
* Initiates a shutdown of this session instance and blocks until that shutdown completes.
*
*
This method is a shortcut for {@code closeAsync().get()}.
*
*
Note that this method does not close the corresponding {@code Cluster} instance (which holds
* additional resources, in particular internal executors that must be shut down in order for the
* client program to terminate). If you want to do so, use {@link Cluster#close}, but note that it
* will close all sessions created from that cluster.
*/
@Override
void close();
/**
* Whether this Session instance has been closed.
*
*
Note that this method returns true as soon as the closing of this Session has started but it
* does not guarantee that the closing is done. If you want to guarantee that the closing is done,
* you can call {@code close()} and wait until it returns (or call the get method on {@code
* closeAsync()} with a very short timeout and check this doesn't timeout).
*
* @return {@code true} if this Session instance has been closed, {@code false} otherwise.
*/
boolean isClosed();
/**
* Returns the {@code Cluster} object this session is part of.
*
* @return the {@code Cluster} object this session is part of.
*/
Cluster getCluster();
/**
* Return a snapshot of the state of this Session.
*
*
The returned object provides information on which hosts the session is connected to, how
* many connections are opened to each host, etc... The returned object is immutable, it is a
* snapshot of the Session State taken when this method is called.
*
* @return a snapshot of the state of this Session.
*/
State getState();
/**
* The state of a Session.
*
*
This mostly exposes information on the connections maintained by a Session: which host it is
* connected to, how many connections it has for each host, etc...
*/
interface State {
/**
* The Session to which this State corresponds to.
*
* @return the Session to which this State corresponds to.
*/
Session getSession();
/**
* The hosts to which the session is currently connected (more precisely, at the time this State
* has been grabbed).
*
*
Please note that this method really returns the hosts for which the session currently
* holds a connection pool. As such, it's unlikely but not impossible for a host to be listed in
* the output of this method but to have {@code getOpenConnections} return 0, if the pool itself
* is created but no connections have been successfully opened yet.
*
* @return an immutable collection of the hosts to which the session is connected.
*/
Collection getConnectedHosts();
/**
* The number of open connections to a given host.
*
* Note that this refers to active connections. The actual number of connections
* also includes {@link #getTrashedConnections(Host)}.
*
* @param host the host to get open connections for.
* @return The number of open connections to {@code host}. If the session is not connected to
* that host, 0 is returned.
*/
int getOpenConnections(Host host);
/**
* The number of "trashed" connections to a given host.
*
*
When the load to a host decreases, the driver will reclaim some connections in order to
* save resources. No requests are sent to these connections anymore, but they are kept open for
* an additional amount of time ({@link PoolingOptions#getIdleTimeoutSeconds()}), in case the
* load goes up again. This method counts connections in that state.
*
* @param host the host to get trashed connections for.
* @return The number of trashed connections to {@code host}. If the session is not connected to
* that host, 0 is returned.
*/
int getTrashedConnections(Host host);
/**
* The number of queries that are currently being executed through a given host.
*
*
This corresponds to the number of queries that have been sent (by the session this is a
* State of) to the Cassandra Host on one of its connections but haven't yet returned. In that
* sense this provides a sort of measure of how busy the connections to that node are (at the
* time the {@code State} was grabbed at least).
*
* @param host the host to get in-flight queries for.
* @return the number of currently (as in 'at the time the state was grabbed') executing queries
* to {@code host}.
*/
int getInFlightQueries(Host host);
}
}