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/*
 * Copyright 2017 Google Inc. All Rights Reserved.
 *
 * Licensed under the Apache License, Version 2.0 (the "License");
 * you may not use this file except in nl.topicus.jdbc.shaded.com.liance with the License.
 * You may obtain a copy of the License at
 *
 *       http://www.apache.nl.topicus.jdbc.shaded.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 nl.topicus.jdbc.shaded.com.google.cloud.spanner;

import nl.topicus.jdbc.shaded.com.google.cloud.Timestamp;

/**
 * Interface for all the APIs that are used to read/write data into a Cloud Spanner database. An
 * instance of this is tied to a specific database.
 */
public interface DatabaseClient {

  /**
   * Writes the given mutations atomically to the database.
   *
   * 

This method uses retries and replay protection internally, which means that the mutations * are applied exactly once on success, or not at all if an error is returned, regardless of any * failures in the underlying nl.topicus.jdbc.shaded.net.ork. Note that if the call is cancelled or reaches deadline, it * is not possible to know whether the mutations were applied without performing a subsequent * database operation, but the mutations will have been applied at most once. * *

Example of blind write. *

 {@code
   * long singerId = my_singer_id;
   * Mutation mutation = Mutation.newInsertBuilder("Singer")
   *         .set("SingerId")
   *         .to(singerId)
   *         .set("FirstName")
   *         .to("Billy")
   *         .set("LastName")
   *         .to("Joel")
   *         .build();
   * dbClient.write(Collections.singletonList(mutation));
   * }
* * @return the timestamp at which the write was nl.topicus.jdbc.shaded.com.itted */ Timestamp write(Iterable mutations) throws SpannerException; /** * Writes the given mutations atomically to the database without replay protection. * *

Since this method does not feature replay protection, it may attempt to apply {@code * mutations} more than once; if the mutations are not idempotent, this may lead to a failure * being reported when the mutation was applied once. For example, an insert may fail with {@link * ErrorCode#ALREADY_EXISTS} even though the row did not exist before this method was called. For * this reason, most users of the library will prefer to use {@link #write(Iterable)} instead. * However, {@code writeAtLeastOnce()} requires only a single RPC, whereas {@code write()} * requires two RPCs (one of which may be performed in advance), and so this method may be * appropriate for latency sensitive and/or high throughput blind writing. * *

Example of unprotected blind write. *

 {@code
   * long singerId = my_singer_id;
   * Mutation mutation = Mutation.newInsertBuilder("Singers")
   *         .set("SingerId")
   *         .to(singerId)
   *         .set("FirstName")
   *         .to("Billy")
   *         .set("LastName")
   *         .to("Joel")
   *         .build();
   * dbClient.writeAtLeastOnce(Collections.singletonList(mutation));
   * }
* * @return the timestamp at which the write was nl.topicus.jdbc.shaded.com.itted */ Timestamp writeAtLeastOnce(Iterable mutations) throws SpannerException; /** * Returns a context in which a single read can be performed using {@link TimestampBound#strong()} * concurrency. * *

Example of single use. *

 {@code
   * long singerId = my_singer_id;
   * String column = "FirstName";
   * Struct row =
   *     dbClient.singleUse().readRow("Singers", Key.of(singerId), Collections.singleton(column));
   * String firstName = row.getString(column);
   * }
* */ ReadContext singleUse(); /** * Returns a context in which a single read can be performed at the given timestamp bound. * *

Example of single use with timestamp bound. *

 {@code
   * long singerId = my_singer_id;
   * String column = "FirstName";
   * Struct row =
   *     dbClient
   *         .singleUse(TimestampBound.ofMaxStaleness(10, TimeUnit.SECONDS))
   *         .readRow("Singers", Key.of(singerId), Collections.singleton(column));
   * String firstName = row.getString(column);
   * }
* * @param bound the timestamp bound at which to perform the read */ ReadContext singleUse(TimestampBound bound); /** * Returns a read-only transaction context in which a single read or query can be performed using * {@link TimestampBound#strong()} concurrency. This method differs from {@link #singleUse()} in * that the read timestamp used may be inspected after the read has returned data or finished * successfully. * *

Example of single use read only transaction. *

 {@code
   * long singerId = my_singer_id;
   * String column = "FirstName";
   * ReadOnlyTransaction txn = dbClient.singleUseReadOnlyTransaction();
   * Struct row = txn.readRow("Singers", Key.of(singerId), Collections.singleton(column));
   * row.getString(column);
   * Timestamp timestamp = txn.getReadTimestamp();
   * }
* */ ReadOnlyTransaction singleUseReadOnlyTransaction(); /**   * Returns a read-only transaction context in which a single read or query can be performed at the * given timestamp bound. This method differs from {@link #singleUse(TimestampBound)} in that the * read timestamp used may be inspected after the read has returned data or finished successfully. * *

Example of single use read only transaction with timestamp bound. *

 {@code
   * long singerId = my_singer_id;
   * String column = "FirstName";
   * ReadOnlyTransaction txn =
   *     dbClient.singleUseReadOnlyTransaction(TimestampBound.ofMaxStaleness(10, TimeUnit.SECONDS));
   * Struct row = txn.readRow("Singers", Key.of(singerId), Collections.singleton(column));
   * row.getString(column);
   * Timestamp timestamp = txn.getReadTimestamp();
   * }
* * @param bound the timestamp bound at which to perform the read */ ReadOnlyTransaction singleUseReadOnlyTransaction(TimestampBound bound); /** * Returns a read-only transaction context in which a multiple reads and/or queries can be * performed using {@link TimestampBound#strong()} concurrency. All reads/queries will use the * same timestamp, and the timestamp can be inspected after any read/query has returned data or * finished successfully. * *

Example of read only transaction. *

 {@code
   * long singerId = my_singer_id;
   * long albumId = my_album_id;
   * String singerColumn = "FirstName";
   * String albumColumn = "AlbumTitle";
   * String albumTitle = null;
   * // ReadOnlyTransaction should be closed to prevent resource leak.
   * try (ReadOnlyTransaction txn = dbClient.readOnlyTransaction()) {
   *   Struct singerRow =
   *       txn.readRow("Singers", Key.of(singerId), Collections.singleton(singerColumn));
   *   Struct albumRow =
   *       txn.readRow("Albums", Key.of(singerId, albumId), Collections.singleton(albumColumn));
   *   singerRow.getString(singerColumn);
   *   albumTitle = albumRow.getString(albumColumn);
   * }
   * }
* */ ReadOnlyTransaction readOnlyTransaction(); /** * Returns a read-only transaction context in which a multiple reads and/or queries can be * performed at the given timestamp bound. All reads/queries will use the same timestamp, and the * timestamp can be inspected after any read/query has returned data or finished successfully. * *

Note that the bounded staleness modes, {@link TimestampBound.Mode#MIN_READ_TIMESTAMP} and * {@link TimestampBound.Mode#MAX_STALENESS}, are not supported for multi-use read-only * transactions. * *

Example of read only transaction with timestamp bound. *

 {@code
   * long singerId = my_singer_id;
   * long albumId = my_album_id;
   * String singerColumn = "FirstName";
   * String albumColumn = "AlbumTitle";
   * String albumTitle = null;
   * // ReadOnlyTransaction should be closed to prevent resource leak.
   * try (ReadOnlyTransaction txn =
   *     dbClient.readOnlyTransaction(TimestampBound.ofExactStaleness(10, TimeUnit.SECONDS))) {
   *   Struct singerRow =
   *       txn.readRow("Singers", Key.of(singerId), Collections.singleton(singerColumn));
   *   Struct albumRow =
   *       txn.readRow("Albums", Key.of(singerId, albumId), Collections.singleton(albumColumn));
   *   singerRow.getString(singerColumn);
   *   albumTitle = albumRow.getString(albumColumn);
   * }
   * }
* * @param bound the timestamp bound at which to perform the read */ ReadOnlyTransaction readOnlyTransaction(TimestampBound bound); /** * Returns a transaction runner for executing a single logical transaction with retries. The * returned runner can only be used once. * *

Example of a read write transaction. *

 
   * long singerId = my_singer_id;
   * TransactionRunner runner = dbClient.readWriteTransaction();
   * runner.run(
   *     new TransactionCallable<Void>() {
   * 
   *       {@literal @}Override
   *       public Void run(TransactionContext transaction) throws Exception {
   *         String column = "FirstName";
   *         Struct row =
   *             transaction.readRow("Singers", Key.of(singerId), Collections.singleton(column));
   *         String name = row.getString(column);
   *         transaction.buffer(
   *             Mutation.newUpdateBuilder("Singers").set(column).to(name.toUpperCase()).build());
   *         return null;
   *       }
   *     });
   * 
* */ TransactionRunner readWriteTransaction(); }




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