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/*
* Copyright 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.google.common.util.concurrent.ListenableFuture;
/**
* A session that has the ability to execute continuous paging queries.
*
* This interface exists solely for backward compatibility purposes, because adding the methods
* directly to {@code Session} would have broken clients that implemented it. In practice, any
* session returned by the driver is also a continuous paging session, and can be safely casted.
*
*
This will be merged in the parent interface in the next major version.
*/
public interface ContinuousPagingSession extends Session {
/**
* Executes the provided query with continuous paging.
*
*
The server will push all requested pages asynchronously, according to the options passed in
* as a parameter. The client should consume all pages as quickly as possible, to avoid blocking
* the server for too long. The server will adjust the rate according to the client speed, but it
* will give up if the client does not consume any pages in a period of time equal to the read
* request timeout.
*
*
This functionality is typically used by tools that want to retrieve the entire data set as
* quickly as possible, typically for analytics queries. Such tools should also make sure to
* contact a replica directly, by setting a routing key or token in the statement, so that the
* server can further optimize {@link ConsistencyLevel#ONE} queries by reading data from local
* disk and keeping iterators open across pages. This optimization is only available if the
* coordinator is a replica and the consistency level is {@code ONE}. If this is not the case, the
* coordinator will retrieve pages one by one from replicas. Note that when the optimization kicks
* in (range query at {@code ONE} performed directly on a replica), the snitch is bypassed and the
* coordinator will always chose itself as a replica. Therefore, other functionality such as
* probabilistic read repair and speculative retry is also not available when contacting a replica
* at {@code ONE}.
*
* @param statement the CQL query to execute (that can be any {@code Statement}).
* @param options the query options (this can't be null).
* @return a future to the first asynchronous result.
*/
ListenableFuture executeContinuouslyAsync(
final Statement statement, final ContinuousPagingOptions options);
/**
* Convenience method to execute a continuous query in a synchronous context.
*
* This method calls {@link #executeContinuouslyAsync(Statement, ContinuousPagingOptions)}
* internally, and takes care of chaining the successive results into a convenient iterable,
* provided that you always access the result from the same thread.
*
* @param statement the CQL query to execute (that can be any {@code Statement}).
* @param options the query options (this can't be null).
* @return a synchronous iterable on the results.
*/
ContinuousPagingResult executeContinuously(
final Statement statement, final ContinuousPagingOptions options);
}