/* * Copyright 2006 Amazon Technologies, Inc. or its affiliates. * Amazon, Amazon.com and Carbonado are trademarks or registered trademarks * of Amazon Technologies, Inc. or its affiliates. All rights reserved. * * 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.amazon.carbonado; import com.amazon.carbonado.capability.Capability; /** * A Repository represents a database for {@link Storable} * instances. Some repositories do not have control over the schema (for example, a JDBC * Repository depends on the schema defined by the underlying relational database); such * repositories are called "dependent". Conversely, a repository which has complete control * over the schema is termed "independent". * *

A dependent repository requires and will verify that Storables * have a matching definition in the external storage layer. An independent * repository will automatically update type definitions in its database to * match changes to Storable definitions. * *

Repository instances should be thread-safe and immutable. Therefore, it * is safe for multiple threads to be interacting with a Repository. * * @author Brian S O'Neill * @see RepositoryBuilder */ public interface Repository { /** * Returns the name of this repository. */ String getName(); /** * Returns a Storage instance for the given user defined Storable class or * interface. * * @return specific type of Storage instance * @throws IllegalArgumentException if specified type is null * @throws MalformedTypeException if specified type is not suitable * @throws SupportException if specified type cannot be supported * @throws RepositoryException if storage layer throws any other kind of * exception */ Storage storageFor(Class type) throws SupportException, RepositoryException; /** * Causes the current thread to enter a transaction scope. Call commit * inside the transaction in order for any updates to the repository to be * applied. Be sure to call exit when leaving the scope. *

* To ensure exit is called, use transactions as follows: * 

     * Transaction txn = repository.enterTransaction();
     * try {
     *     // Make updates to storage layer
     *     ...
     *
     *     // Commit the changes up to this point
     *     txn.commit();
     *
     *     // Optionally make more updates
     *     ...
     *
     *     // Commit remaining changes
     *     txn.commit();
     * } finally {
     *     // Ensure transaction exits, aborting uncommitted changes if an exception was thrown
     *     txn.exit();
     * }
     *
*/ Transaction enterTransaction(); /** * Causes the current thread to enter a transaction scope with an explict * isolation level. The actual isolation level may be higher than * requested, if the repository does not support the exact level. If the * repository does not support a high enough level, it throws an * UnsupportedOperationException. * * @param level minimum desired transaction isolation level -- if null, a * suitable default is selected * @see #enterTransaction() * @throws UnsupportedOperationException if repository does not support * isolation as high as the desired level */ Transaction enterTransaction(IsolationLevel level); /** * Causes the current thread to enter a top-level transaction scope * with an explict isolation level. The actual isolation level may be * higher than requested, if the repository does not support the exact * level. If the repository does not support a high enough level, it throws * an UnsupportedOperationException. * *

This method requests a top-level transaction, which means it never * has a parent transaction, but it still can be a parent transaction * itself. This kind of transaction is useful when a commit must absolutely * succeed, even if the current thread is already in a transaction * scope. If there was a parent transaction, then a commit might still be * rolled back by the parent. * *

Requesting a top-level transaction can be deadlock prone if the * current thread is already in a transaction scope. The top-level * transaction may not be able to obtain locks held by the parent * transaction. An alternative to requesting top-level transactions is to * execute transactions in separate threads. * * @param level minimum desired transaction isolation level -- if null, a * suitable default is selected * @see #enterTransaction() * @throws UnsupportedOperationException if repository does not support * isolation as high as the desired level */ Transaction enterTopTransaction(IsolationLevel level); /** * Returns the isolation level of the current transaction, or null if there * is no transaction in the current thread. */ IsolationLevel getTransactionIsolationLevel(); /** * Requests a specific capability of this Repository. This allows * repositories to support extended features without having to clutter the * main repository interface. The list of supported capabilities is * documented with repository implementations. * * @param capabilityType type of capability requested * @return capability instance or null if not supported */ C getCapability(Class capabilityType); /** * Closes this repository reference, aborting any current * transactions. Operations on objects returned by this repository will * fail when accessing the storage layer. * * @throws SecurityException if caller does not have permission */ void close(); /** * Returns true if repository was explicitly closed or shutdown. */ //boolean isClosed(); }