/*- * See the file LICENSE for redistribution information. * * Copyright (c) 2002, 2010 Oracle and/or its affiliates. All rights reserved. * * $Id$ */ package com.sleepycat.db; import com.sleepycat.db.internal.Db; import com.sleepycat.db.internal.DbConstants; import com.sleepycat.db.internal.DbSequence; import com.sleepycat.db.internal.Dbc; /** A database handle.

Database attributes are specified in the {@link com.sleepycat.db.DatabaseConfig DatabaseConfig} class.

Database handles are free-threaded unless opened in an environment that is not free-threaded.

To open an existing database with default attributes:

    Environment env = new Environment(home, null);
    Database myDatabase = env.openDatabase(null, "mydatabase", null);
To create a transactional database that supports duplicates:
    DatabaseConfig dbConfig = new DatabaseConfig();
    dbConfig.setTransactional(true);
    dbConfig.setAllowCreate(true);
    dbConfig.setSortedDuplicates(true);
    Database newlyCreateDb = env.openDatabase(txn, "mydatabase", dbConfig);
*/ public class Database { Db db; private int autoCommitFlag; int rmwFlag; /* package */ Database(final Db db) throws DatabaseException { this.db = db; db.wrapper = this; this.autoCommitFlag = db.get_transactional() ? DbConstants.DB_AUTO_COMMIT : 0; rmwFlag = ((db.get_env().get_open_flags() & DbConstants.DB_INIT_LOCK) != 0) ? DbConstants.DB_RMW : 0; } /** Open a database.

The database is represented by the file and database parameters.

The currently supported database file formats (or access methods) are Btree, Hash, Queue, and Recno. The Btree format is a representation of a sorted, balanced tree structure. The Hash format is an extensible, dynamic hashing scheme. The Queue format supports fast access to fixed-length records accessed sequentially or by logical record number. The Recno format supports fixed- or variable-length records, accessed sequentially or by logical record number, and optionally backed by a flat text file.

Storage and retrieval are based on key/data pairs; see {@link com.sleepycat.db.DatabaseEntry DatabaseEntry} for more information.

Opening a database is a relatively expensive operation, and maintaining a set of open databases will normally be preferable to repeatedly opening and closing the database for each new query.

In-memory databases never intended to be preserved on disk may be created by setting both the fileName and databaseName parameters to null. Note that in-memory databases can only ever be shared by sharing the single database handle that created them, in circumstances where doing so is safe. The environment variable TMPDIR may be used as a directory in which to create temporary backing files.

@param filename The name of an underlying file that will be used to back the database. On Windows platforms, this argument will be interpreted as a UTF-8 string, which is equivalent to ASCII for Latin characters.

@param databaseName An optional parameter that allows applications to have multiple databases in a single file. Although no databaseName parameter needs to be specified, it is an error to attempt to open a second database in a physical file that was not initially created using a databaseName parameter. Further, the databaseName parameter is not supported by the Queue format.

@param config The database open attributes. If null, default attributes are used. */ public Database(final String filename, final String databaseName, final DatabaseConfig config) throws DatabaseException, java.io.FileNotFoundException { this(DatabaseConfig.checkNull(config).openDatabase(null, null, filename, databaseName)); // Set up dbenv.wrapper new Environment(db.get_env()); } /** Flush any cached database information to disk and discard the database handle.

The database handle should not be closed while any other handle that refers to it is not yet closed; for example, database handles should not be closed while cursor handles into the database remain open, or transactions that include operations on the database have not yet been committed or aborted. Specifically, this includes {@link com.sleepycat.db.Cursor Cursor} and {@link com.sleepycat.db.Transaction Transaction} handles.

Because key/data pairs are cached in memory, failing to sync the file with the {@link com.sleepycat.db.Database#close Database.close} or {@link com.sleepycat.db.Database#sync Database.sync} methods may result in inconsistent or lost information.

When multiple threads are using the {@link com.sleepycat.db.Database Database} handle concurrently, only a single thread may call this method.

The database handle may not be accessed again after this method is called, regardless of the method's success or failure.

When called on a database that is the primary database for a secondary index, the primary database should be closed only after all secondary indices which reference it have been closed. @param noSync Do not flush cached information to disk. The noSync parameter is a dangerous option. It should be set only if the application is doing logging (with transactions) so that the database is recoverable after a system or application crash, or if the database is always generated from scratch after any system or application crash. It is important to understand that flushing cached information to disk only minimizes the window of opportunity for corrupted data.

Although unlikely, it is possible for database corruption to happen if a system or application crash occurs while writing data to the database. To ensure that database corruption never occurs, applications must either: use transactions and logging with automatic recovery; use logging and application-specific recovery; or edit a copy of the database, and once all applications using the database have successfully called this method, atomically replace the original database with the updated copy.

@throws DatabaseException if a failure occurs. */ public void close(final boolean noSync) throws DatabaseException { db.close(noSync ? DbConstants.DB_NOSYNC : 0); } /** Flush any cached database information to disk and discard the database handle.

The database handle should not be closed unless all other handles that refer to it are closed; for example, do not close database handles while transactions that include operations on the database are not yet committed or aborted. This includes {@link com.sleepycat.db.Transaction Transaction} handles.

If the {@link com.sleepycat.db.Cursor Cursor} handles to the database are open when you call this method, they are closed inside this method automatically. When the close operation fails, the method returns a non-zero error value for the first instance of such an error, and continues to close the rest of the objects.

Because key/data pairs are cached in memory, failing to sync the file with the {@link com.sleepycat.db.Database#close Database.close} or {@link com.sleepycat.db.Database#sync Database.sync} methods may result in inconsistent or lost information.

When multiple threads are using the {@link com.sleepycat.db.Database Database} handle concurrently, only a single thread may call this method.

The database handle may not be accessed again after this method is called, regardless of the method's success or failure.

When called on a database that is the primary database for a secondary index, the primary database should be closed only after all secondary indices which reference it have been closed.

@throws DatabaseException if a failure occurs. */ public void close() throws DatabaseException { close(false); } /** Compact a Btree or Recno database or returns unused Btree, Hash or Recno database pages to the underlying filesystem. @param txn If the operation is part of an application-specified transaction, the txnid parameter is a transaction handle returned from {@link Environment#beginTransaction}, otherwise null. If no transaction handle is specified, but the operation occurs in a transactional database, the operation will be implicitly transaction protected using multiple transactions. Transactions will be comitted at points to avoid holding much of the tree locked. Any deadlocks encountered will be cause the operation to retried from the point of the last commit. @param start If not null, the start parameter is the starting point for compaction in a Btree or Recno database. Compaction will start at the smallest key greater than or equal to the specified key. If null, compaction will start at the beginning of the database. @param stop If not null, the stop parameter is the stopping point for compaction in a Btree or Recno database. Compaction will stop at the page with the smallest key greater than the specified key. If null, compaction will stop at the end of the database. @param end If not null, the end parameter will be filled in with the key marking the end of the compaction operation in a Btree or Recno database. It is generally the first key of the page where processing stopped. @param config The compaction operation attributes. If null, default attributes are used. **/ public CompactStats compact(final Transaction txn, final DatabaseEntry start, final DatabaseEntry stop, final DatabaseEntry end, CompactConfig config) throws DatabaseException { config = CompactConfig.checkNull(config); CompactStats compact = new CompactStats(config.getFillPercent(), config.getTimeout(), config.getMaxPages()); db.compact((txn == null) ? null : txn.txn, start, stop, compact, config.getFlags(), end); return compact; } /** Return a cursor into the database.

@param txn To use a cursor for writing to a transactional database, an explicit transaction must be specified. For read-only access to a transactional database, the transaction may be null. For a non-transactional database, the transaction must be null.

To transaction-protect cursor operations, cursors must be opened and closed within the context of a transaction, and the txn parameter specifies the transaction context in which the cursor will be used.

@param config The cursor attributes. If null, default attributes are used.

@return A database cursor.

@throws DatabaseException if a failure occurs. */ public Cursor openCursor(final Transaction txn, CursorConfig config) throws DatabaseException { return new Cursor(this, CursorConfig.checkNull(config).openCursor( db, (txn == null) ? null : txn.txn), config); } /** Open a sequence in the database.

@param txn For a transactional database, an explicit transaction may be specified, or null may be specified to use auto-commit. For a non-transactional database, null must be specified.

@param key The key {@link com.sleepycat.db.DatabaseEntry DatabaseEntry} of the sequence.

@param config The sequence attributes. If null, default attributes are used.

@return A sequence handle.

@throws DatabaseException if a failure occurs. */ public Sequence openSequence(final Transaction txn, final DatabaseEntry key, final SequenceConfig config) throws DatabaseException { return new Sequence(SequenceConfig.checkNull(config).openSequence( db, (txn == null) ? null : txn.txn, key), config); } /** Remove the sequence from the database. This method should not be called if there are open handles on this sequence.

@param txn For a transactional database, an explicit transaction may be specified, or null may be specified to use auto-commit. For a non-transactional database, null must be specified.

@param key The key {@link com.sleepycat.db.DatabaseEntry DatabaseEntry} of the sequence.

@param config The sequence attributes. If null, default attributes are used. */ public void removeSequence(final Transaction txn, final DatabaseEntry key, SequenceConfig config) throws DatabaseException { config = SequenceConfig.checkNull(config); final DbSequence seq = config.openSequence( db, (txn == null) ? null : txn.txn, key); seq.remove((txn == null) ? null : txn.txn, (txn == null && db.get_transactional()) ? DbConstants.DB_AUTO_COMMIT | (config.getAutoCommitNoSync() ? DbConstants.DB_TXN_NOSYNC : 0) : 0); } /** Return the database's underlying file name.

This method may be called at any time during the life of the application.

@return The database's underlying file name. */ public String getDatabaseFile() throws DatabaseException { return db.get_filename(); } /** Return the database name.

This method may be called at any time during the life of the application.

@return The database name. */ public String getDatabaseName() throws DatabaseException { return db.get_dbname(); } /** Return this Database object's configuration.

This may differ from the configuration used to open this object if the database existed previously.

@return This Database object's configuration.

@throws DatabaseException if a failure occurs. */ public DatabaseConfig getConfig() throws DatabaseException { return new DatabaseConfig(db); } /** Change the settings in an existing database handle.

@param config The environment attributes. If null, default attributes are used.

@throws IllegalArgumentException if an invalid parameter was specified.

@throws DatabaseException if a failure occurs. */ public void setConfig(DatabaseConfig config) throws DatabaseException { config.configureDatabase(db, getConfig()); } /** Return the {@link com.sleepycat.db.Environment Environment} handle for the database environment underlying the {@link com.sleepycat.db.Database Database}.

This method may be called at any time during the life of the application.

@return The {@link com.sleepycat.db.Environment Environment} handle for the database environment underlying the {@link com.sleepycat.db.Database Database}.

@throws DatabaseException if a failure occurs. */ public Environment getEnvironment() throws DatabaseException { return db.get_env().wrapper; } /** Return the handle for the cache file underlying the database.

This method may be called at any time during the life of the application.

@return The handle for the cache file underlying the database.

@throws DatabaseException if a failure occurs. */ public CacheFile getCacheFile() throws DatabaseException { return new CacheFile(db.get_mpf()); } /**

Append the key/data pair to the end of the database.

The underlying database must be a Queue or Recno database. The record number allocated to the record is returned in the key parameter.

There is a minor behavioral difference between the Recno and Queue access methods this method. If a transaction enclosing this method aborts, the record number may be decremented (and later reallocated by a subsequent operation) in the Recno access method, but will not be decremented or reallocated in the Queue access method.

It may be useful to modify the stored data based on the generated key. If a callback function is specified using {@link com.sleepycat.db.DatabaseConfig#setRecordNumberAppender DatabaseConfig.setRecordNumberAppender}, it will be called after the record number has been selected, but before the data has been stored.

@param txn For a transactional database, an explicit transaction may be specified, or null may be specified to use auto-commit. For a non-transactional database, null must be specified.

@param key the key {@link com.sleepycat.db.DatabaseEntry DatabaseEntry} operated on.

@param data the data {@link com.sleepycat.db.DatabaseEntry DatabaseEntry} stored.

@throws DeadlockException if the operation was selected to resolve a deadlock.

@throws DatabaseException if a failure occurs. */ public OperationStatus append(final Transaction txn, final DatabaseEntry key, final DatabaseEntry data) throws DatabaseException { return OperationStatus.fromInt( db.put((txn == null) ? null : txn.txn, key, data, DbConstants.DB_APPEND | ((txn == null) ? autoCommitFlag : 0))); } /** Return the record number and data from the available record closest to the head of the queue, and delete the record. The record number will be returned in the key parameter, and the data will be returned in the data parameter. A record is available if it is not deleted and is not currently locked. The underlying database must be of type Queue for this method to be called.

@param txn For a transactional database, an explicit transaction may be specified to transaction-protect the operation, or null may be specified to perform the operation without transaction protection. For a non-transactional database, null must be specified. @param key the key returned as output. Its byte array does not need to be initialized by the caller. @param data the data returned as output. Its byte array does not need to be initialized by the caller. @param wait if there is no record available, this parameter determines whether the method waits for one to become available, or returns immediately with status NOTFOUND.

@return {@link com.sleepycat.db.OperationStatus#NOTFOUND OperationStatus.NOTFOUND} if no matching key/data pair is found; {@link com.sleepycat.db.OperationStatus#KEYEMPTY OperationStatus.KEYEMPTY} if the database is a Queue or Recno database and the specified key exists, but was never explicitly created by the application or was later deleted; otherwise, {@link com.sleepycat.db.OperationStatus#SUCCESS OperationStatus.SUCCESS}.

@throws DeadlockException if the operation was selected to resolve a deadlock.

@throws IllegalArgumentException if an invalid parameter was specified.

@throws DatabaseException if a failure occurs. */ public OperationStatus consume(final Transaction txn, final DatabaseEntry key, final DatabaseEntry data, final boolean wait) throws DatabaseException { return OperationStatus.fromInt( db.get((txn == null) ? null : txn.txn, key, data, (wait ? DbConstants.DB_CONSUME_WAIT : DbConstants.DB_CONSUME) | ((txn == null) ? autoCommitFlag : 0))); } /** Remove key/data pairs from the database.

The key/data pair associated with the specified key is discarded from the database. In the presence of duplicate key values, all records associated with the designated key will be discarded.

The key/data pair is also deleted from any associated secondary databases.

@param txn For a transactional database, an explicit transaction may be specified, or null may be specified to use auto-commit. For a non-transactional database, null must be specified.

@param key the key {@link com.sleepycat.db.DatabaseEntry DatabaseEntry} operated on.

@return The method will return {@link com.sleepycat.db.OperationStatus#NOTFOUND OperationStatus.NOTFOUND} if the specified key is not found in the database; The method will return {@link com.sleepycat.db.OperationStatus#KEYEMPTY OperationStatus.KEYEMPTY} if the database is a Queue or Recno database and the specified key exists, but was never explicitly created by the application or was later deleted; otherwise the method will return {@link com.sleepycat.db.OperationStatus#SUCCESS OperationStatus.SUCCESS}.

@throws DeadlockException if the operation was selected to resolve a deadlock.

@throws DatabaseException if a failure occurs. */ public OperationStatus delete(final Transaction txn, final DatabaseEntry key) throws DatabaseException { return OperationStatus.fromInt( db.del((txn == null) ? null : txn.txn, key, ((txn == null) ? autoCommitFlag : 0))); } /** Remove key/data pairs from the database.

The key/data pair associated with the specified key is discarded from the database. In the presence of duplicate key values, all records associated with the designated key will be discarded.

The key/data pair is also deleted from any associated secondary databases.

@param txn For a transactional database, an explicit transaction may be specified, or null may be specified to use auto-commit. For a non-transactional database, null must be specified.

@param keys the set of keys {@link com.sleepycat.db.DatabaseEntry DatabaseEntry} operated on.

@return The method will return {@link com.sleepycat.db.OperationStatus#NOTFOUND OperationStatus.NOTFOUND} if the specified key is not found in the database; The method will return {@link com.sleepycat.db.OperationStatus#KEYEMPTY OperationStatus.KEYEMPTY} if the database is a Queue or Recno database and the specified key exists, but was never explicitly created by the application or was later deleted; otherwise the method will return {@link com.sleepycat.db.OperationStatus#SUCCESS OperationStatus.SUCCESS}.

@throws DeadlockException if the operation was selected to resolve a deadlock.

@throws DatabaseException if a failure occurs. */ public OperationStatus deleteMultiple(final Transaction txn, final MultipleEntry keys) throws DatabaseException { return OperationStatus.fromInt( db.del((txn == null) ? null : txn.txn, keys, DbConstants.DB_MULTIPLE | ((txn == null) ? autoCommitFlag : 0))); } /** Checks if the specified key appears in the database.

@param txn For a transactional database, an explicit transaction may be specified to transaction-protect the operation, or null may be specified to perform the operation without transaction protection. For a non-transactional database, null must be specified.

@param key the key used as input. It must be initialized with a non-null byte array by the caller.

@return {@link com.sleepycat.db.OperationStatus#NOTFOUND OperationStatus.NOTFOUND} if no matching key/data pair is found; {@link com.sleepycat.db.OperationStatus#KEYEMPTY OperationStatus.KEYEMPTY} if the database is a Queue or Recno database and the specified key exists, but was never explicitly created by the application or was later deleted; otherwise, {@link com.sleepycat.db.OperationStatus#SUCCESS OperationStatus.SUCCESS}.

@throws DeadlockException if the operation was selected to resolve a deadlock.

@throws IllegalArgumentException if an invalid parameter was specified.

@throws DatabaseException if a failure occurs. */ public OperationStatus exists(final Transaction txn, final DatabaseEntry key) throws DatabaseException { return OperationStatus.fromInt( db.exists((txn == null) ? null : txn.txn, key, ((txn == null) ? autoCommitFlag : 0))); } /** Retrieves the key/data pair with the given key. If the matching key has duplicate values, the first data item in the set of duplicates is returned. Retrieval of duplicates requires the use of {@link Cursor} operations.

@param txn For a transactional database, an explicit transaction may be specified to transaction-protect the operation, or null may be specified to perform the operation without transaction protection. For a non-transactional database, null must be specified.

@param key the key used as input. It must be initialized with a non-null byte array by the caller.

@param data the data returned as output. Its byte array does not need to be initialized by the caller.

@param lockMode the locking attributes; if null, default attributes are used.

@return {@link com.sleepycat.db.OperationStatus#NOTFOUND OperationStatus.NOTFOUND} if no matching key/data pair is found; {@link com.sleepycat.db.OperationStatus#KEYEMPTY OperationStatus.KEYEMPTY} if the database is a Queue or Recno database and the specified key exists, but was never explicitly created by the application or was later deleted; otherwise, {@link com.sleepycat.db.OperationStatus#SUCCESS OperationStatus.SUCCESS}.

@throws DeadlockException if the operation was selected to resolve a deadlock.

@throws IllegalArgumentException if an invalid parameter was specified.

@throws DatabaseException if a failure occurs. */ public OperationStatus get(final Transaction txn, final DatabaseEntry key, final DatabaseEntry data, final LockMode lockMode) throws DatabaseException { return OperationStatus.fromInt( db.get((txn == null) ? null : txn.txn, key, data, LockMode.getFlag(lockMode) | ((data == null) ? 0 : data.getMultiFlag()))); } /** Return an estimate of the proportion of keys in the database less than, equal to, and greater than the specified key.

The underlying database must be of type Btree.

This method does not retain the locks it acquires for the life of the transaction, so estimates are not repeatable.

@param key The key {@link com.sleepycat.db.DatabaseEntry DatabaseEntry} being compared.

@param txn For a transactional database, an explicit transaction may be specified to transaction-protect the operation, or null may be specified to perform the operation without transaction protection. For a non-transactional database, null must be specified.

@return An estimate of the proportion of keys in the database less than, equal to, and greater than the specified key.

@throws DeadlockException if the operation was selected to resolve a deadlock.

@throws DatabaseException if a failure occurs. */ public KeyRange getKeyRange(final Transaction txn, final DatabaseEntry key) throws DatabaseException { final KeyRange range = new KeyRange(); db.key_range((txn == null) ? null : txn.txn, key, range, 0); return range; } /** Retrieves the key/data pair with the given key and data value, that is, both the key and data items must match.

@param txn For a transactional database, an explicit transaction may be specified to transaction-protect the operation, or null may be specified to perform the operation without transaction protection. For a non-transactional database, null must be specified. @param key the key used as input. It must be initialized with a non-null byte array by the caller. @param data the data used as input. It must be initialized with a non-null byte array by the caller.

@param lockMode the locking attributes; if null, default attributes are used.

@return {@link com.sleepycat.db.OperationStatus#NOTFOUND OperationStatus.NOTFOUND} if no matching key/data pair is found; {@link com.sleepycat.db.OperationStatus#KEYEMPTY OperationStatus.KEYEMPTY} if the database is a Queue or Recno database and the specified key exists, but was never explicitly created by the application or was later deleted; otherwise, {@link com.sleepycat.db.OperationStatus#SUCCESS OperationStatus.SUCCESS}.

@throws DeadlockException if the operation was selected to resolve a deadlock.

@throws IllegalArgumentException if an invalid parameter was specified.

@throws DatabaseException if a failure occurs. */ public OperationStatus getSearchBoth(final Transaction txn, final DatabaseEntry key, final DatabaseEntry data, final LockMode lockMode) throws DatabaseException { return OperationStatus.fromInt( db.get((txn == null) ? null : txn.txn, key, data, DbConstants.DB_GET_BOTH | LockMode.getFlag(lockMode) | ((data == null) ? 0 : data.getMultiFlag()))); } /** Retrieves the key/data pair associated with the specific numbered record of the database.

The data field of the specified key must be a byte array containing a record number, as described in {@link com.sleepycat.db.DatabaseEntry DatabaseEntry}. This determines the record to be retrieved.

For this method to be called, the underlying database must be of type Btree, and it must have been configured to support record numbers.

If this method fails for any reason, the position of the cursor will be unchanged. @throws NullPointerException if a DatabaseEntry parameter is null or does not contain a required non-null byte array.

@throws DeadlockException if the operation was selected to resolve a deadlock.

@throws IllegalArgumentException if an invalid parameter was specified.

@throws DatabaseException if a failure occurs.

@param key the key returned as output. Its byte array does not need to be initialized by the caller. @param data the data returned as output. Multiple results can be retrieved by passing an object that is a subclass of {@link com.sleepycat.db.MultipleEntry MultipleEntry}, otherwise its byte array does not need to be initialized by the caller. @param lockMode the locking attributes; if null, default attributes are used. @return {@link com.sleepycat.db.OperationStatus#NOTFOUND OperationStatus.NOTFOUND} if no matching key/data pair is found; {@link com.sleepycat.db.OperationStatus#KEYEMPTY OperationStatus.KEYEMPTY} if the database is a Queue or Recno database and the specified key exists, but was never explicitly created by the application or was later deleted; otherwise, {@link com.sleepycat.db.OperationStatus#SUCCESS OperationStatus.SUCCESS}. */ public OperationStatus getSearchRecordNumber(final Transaction txn, final DatabaseEntry key, final DatabaseEntry data, final LockMode lockMode) throws DatabaseException { return OperationStatus.fromInt( db.get((txn == null) ? null : txn.txn, key, data, DbConstants.DB_SET_RECNO | LockMode.getFlag(lockMode) | ((data == null) ? 0 : data.getMultiFlag()))); } /**

Store the key/data pair into the database.

If the key already appears in the database and duplicates are not configured, the existing key/data pair will be replaced. If the key already appears in the database and sorted duplicates are configured, the new data value is inserted at the correct sorted location. If the key already appears in the database and unsorted duplicates are configured, the new data value is appended at the end of the duplicate set.

@param txn For a transactional database, an explicit transaction may be specified, or null may be specified to use auto-commit. For a non-transactional database, null must be specified.

@param key the key {@link com.sleepycat.db.DatabaseEntry DatabaseEntry} operated on.

@param data the data {@link com.sleepycat.db.DatabaseEntry DatabaseEntry} stored.

@throws DeadlockException if the operation was selected to resolve a deadlock.

@throws DatabaseException if a failure occurs. */ public OperationStatus put(final Transaction txn, final DatabaseEntry key, final DatabaseEntry data) throws DatabaseException { return OperationStatus.fromInt( db.put((txn == null) ? null : txn.txn, key, data, ((txn == null) ? autoCommitFlag : 0))); } /**

Store a set of key/data pairs into the database.

The key and data parameters must contain corresponding key/data pairs. That is the first entry in the multiple key is inserted with the first entry from the data parameter. Similarly for all remaining keys in the set.

This method may not be called on databases configured with unsorted duplicates.

@param txn For a transactional database, an explicit transaction may be specified, or null may be specified to use auto-commit. For a non-transactional database, null must be specified.

@param key the set of keys {@link com.sleepycat.db.MultipleEntry MultipleEntry} operated on.

@param data the set of data {@link com.sleepycat.db.MultipleEntry MultipleEntry} stored.

@param overwrite if this flag is true and any of the keys already exist in the database, they will be replaced. Otherwise a KEYEXIST error will be returned.

@return If any of the key/data pairs already appear in the database, this method will return {@link com.sleepycat.db.OperationStatus#KEYEXIST OperationStatus.KEYEXIST}.

@throws DeadlockException if the operation was selected to resolve a deadlock.

@throws DatabaseException if a failure occurs. */ public OperationStatus putMultiple(final Transaction txn, final MultipleEntry key, final MultipleEntry data, final boolean overwrite) throws DatabaseException { return OperationStatus.fromInt( db.put((txn == null) ? null : txn.txn, key, data, DbConstants.DB_MULTIPLE | (overwrite ? DbConstants.DB_OVERWRITE : 0) | ((txn == null) ? autoCommitFlag : 0))); } /**

Store a set of key/data pairs into the database.

This method may not be called on databases configured with unsorted duplicates.

@param txn For a transactional database, an explicit transaction may be specified, or null may be specified to use auto-commit. For a non-transactional database, null must be specified.

@param key the key and data sets {@link com.sleepycat.db.MultipleEntry MultipleEntry} operated on.

@param overwrite if this flag is true and any of the keys already exist in the database, they will be replaced. Otherwise a KEYEXIST error will be returned.

@return If any of the key/data pairs already appear in the database, this method will return {@link com.sleepycat.db.OperationStatus#KEYEXIST OperationStatus.KEYEXIST}.

@throws DeadlockException if the operation was selected to resolve a deadlock.

@throws DatabaseException if a failure occurs. */ public OperationStatus putMultipleKey(final Transaction txn, final MultipleEntry key, final boolean overwrite) throws DatabaseException { return OperationStatus.fromInt( db.put((txn == null) ? null : txn.txn, key, null, DbConstants.DB_MULTIPLE_KEY | (overwrite ? DbConstants.DB_OVERWRITE : 0) | ((txn == null) ? autoCommitFlag : 0))); } /**

Store the key/data pair into the database if it does not already appear in the database.

This method may only be called if the underlying database has been configured to support sorted duplicates. (This method may not be specified to the Queue or Recno access methods.)

@param txn For a transactional database, an explicit transaction may be specified, or null may be specified to use auto-commit. For a non-transactional database, null must be specified.

@param key the key {@link com.sleepycat.db.DatabaseEntry DatabaseEntry} operated on.

@param data the data {@link com.sleepycat.db.DatabaseEntry DatabaseEntry} stored.

@return If the key/data pair already appears in the database, this method will return {@link com.sleepycat.db.OperationStatus#KEYEXIST OperationStatus.KEYEXIST}.

@throws DeadlockException if the operation was selected to resolve a deadlock.

@throws DatabaseException if a failure occurs. */ public OperationStatus putNoDupData(final Transaction txn, final DatabaseEntry key, final DatabaseEntry data) throws DatabaseException { return OperationStatus.fromInt( db.put((txn == null) ? null : txn.txn, key, data, DbConstants.DB_NODUPDATA | ((txn == null) ? autoCommitFlag : 0))); } /**

Store the key/data pair into the database if the key does not already appear in the database.

This method will fail if the key already exists in the database, even if the database supports duplicates.

@param txn For a transactional database, an explicit transaction may be specified, or null may be specified to use auto-commit. For a non-transactional database, null must be specified.

@param key the key {@link com.sleepycat.db.DatabaseEntry DatabaseEntry} operated on.

@param data the data {@link com.sleepycat.db.DatabaseEntry DatabaseEntry} stored.

@return If the key already appears in the database, this method will return {@link com.sleepycat.db.OperationStatus#KEYEXIST OperationStatus.KEYEXIST}.

@throws DeadlockException if the operation was selected to resolve a deadlock.

@throws DatabaseException if a failure occurs. */ public OperationStatus putNoOverwrite(final Transaction txn, final DatabaseEntry key, final DatabaseEntry data) throws DatabaseException { return OperationStatus.fromInt( db.put((txn == null) ? null : txn.txn, key, data, DbConstants.DB_NOOVERWRITE | ((txn == null) ? autoCommitFlag : 0))); } /** Creates a specialized join cursor for use in performing equality or natural joins on secondary indices.

Each cursor in the cursors array must have been initialized to refer to the key on which the underlying database should be joined. Typically, this initialization is done by calling {@link Cursor#getSearchKey Cursor.getSearchKey}.

Once the cursors have been passed to this method, they should not be accessed or modified until the newly created join cursor has been closed, or else inconsistent results may be returned. However, the position of the cursors will not be changed by this method or by the methods of the join cursor.

@param cursors an array of cursors associated with this primary database.

@param config The join attributes. If null, default attributes are used.

@return a specialized cursor that returns the results of the equality join operation.

@throws DatabaseException if a failure occurs.

@see JoinCursor */ public JoinCursor join(final Cursor[] cursors, JoinConfig config) throws DatabaseException { config = JoinConfig.checkNull(config); final Dbc[] dbcList = new Dbc[cursors.length]; for (int i = 0; i < cursors.length; i++) dbcList[i] = (cursors[i] == null) ? null : cursors[i].dbc; return new JoinCursor(this, db.join(dbcList, config.getFlags()), config); } /** Empty the database, discarding all records it contains.

When called on a database configured with secondary indices, this method truncates the primary database and all secondary indices. If configured to return a count of the records discarded, the returned count is the count of records discarded from the primary database.

It is an error to call this method on a database with open cursors.

@param txn For a transactional database, an explicit transaction may be specified, or null may be specified to use auto-commit. For a non-transactional database, null must be specified.

@param countRecords If true, count and return the number of records discarded.

@return The number of records discarded, or -1 if returnCount is false.

@throws DeadlockException if the operation was selected to resolve a deadlock.

@throws DatabaseException if a failure occurs. */ public int truncate(final Transaction txn, boolean countRecords) throws DatabaseException { // XXX: implement countRecords in C int count = db.truncate((txn == null) ? null : txn.txn, ((txn == null) ? autoCommitFlag : 0)); return countRecords ? count : -1; } /** Return database statistics.

If this method has not been configured to avoid expensive operations (using the {@link com.sleepycat.db.StatsConfig#setFast StatsConfig.setFast} method), it will access some of or all the pages in the database, incurring a severe performance penalty as well as possibly flushing the underlying buffer pool.

In the presence of multiple threads or processes accessing an active database, the information returned by this method may be out-of-date.

If the database was not opened read-only and this method was not configured using the {@link com.sleepycat.db.StatsConfig#setFast StatsConfig.setFast} method, cached key and record numbers will be updated after the statistical information has been gathered.

@param txn For a transactional database, an explicit transaction may be specified to transaction-protect the operation, or null may be specified to perform the operation without transaction protection. For a non-transactional database, null must be specified.

@param config The statistics returned; if null, default statistics are returned.

@return Database statistics.

@throws DeadlockException if the operation was selected to resolve a deadlock.

@throws DatabaseException if a failure occurs. */ public DatabaseStats getStats(final Transaction txn, StatsConfig config) throws DatabaseException { return (DatabaseStats)db.stat((txn == null) ? null : txn.txn, StatsConfig.checkNull(config).getFlags()); } /**

Remove a database.

If no database is specified, the underlying file specified is removed.

Applications should never remove databases with open {@link com.sleepycat.db.Database Database} handles, or in the case of removing a file, when any database in the file has an open handle. For example, some architectures do not permit the removal of files with open system handles. On these architectures, attempts to remove databases currently in use by any thread of control in the system may fail.

If the database was opened within a database environment, the environment variable DB_HOME may be used as the path of the database environment home.

This method is affected by any database directory specified with {@link com.sleepycat.db.EnvironmentConfig#addDataDir EnvironmentConfig.addDataDir}, or by setting the "set_data_dir" string in the database environment's DB_CONFIG file.

The {@link com.sleepycat.db.Database Database} handle may not be accessed again after this method is called, regardless of this method's success or failure.

@param fileName The physical file which contains the database to be removed. On Windows platforms, this argument will be interpreted as a UTF-8 string, which is equivalent to ASCII for Latin characters.

@param databaseName The database to be removed.

@param config The database remove attributes. If null, default attributes are used.

@throws DatabaseException if a failure occurs. */ public static void remove(final String fileName, final String databaseName, DatabaseConfig config) throws DatabaseException, java.io.FileNotFoundException { final Db db = DatabaseConfig.checkNull(config).createDatabase(null); db.remove(fileName, databaseName, 0); } /**

Rename a database.

If no database name is specified, the underlying file specified is renamed, incidentally renaming all of the databases it contains.

Applications should never rename databases that are currently in use. If an underlying file is being renamed and logging is currently enabled in the database environment, no database in the file may be open when this method is called. In particular, some architectures do not permit renaming files with open handles. On these architectures, attempts to rename databases that are currently in use by any thread of control in the system may fail.

If the database was opened within a database environment, the environment variable DB_HOME may be used as the path of the database environment home.

This method is affected by any database directory specified with {@link com.sleepycat.db.EnvironmentConfig#addDataDir EnvironmentConfig.addDataDir}, or by setting the "set_data_dir" string in the database environment's DB_CONFIG file.

The {@link com.sleepycat.db.Database Database} handle may not be accessed again after this method is called, regardless of this method's success or failure.

@param fileName The physical file which contains the database to be renamed. On Windows platforms, this argument will be interpreted as a UTF-8 string, which is equivalent to ASCII for Latin characters.

@param oldDatabaseName The database to be renamed.

@param newDatabaseName The new name of the database or file.

@param config The database rename attributes. If null, default attributes are used.

@throws DatabaseException if a failure occurs. */ public static void rename(final String fileName, final String oldDatabaseName, final String newDatabaseName, DatabaseConfig config) throws DatabaseException, java.io.FileNotFoundException { final Db db = DatabaseConfig.checkNull(config).createDatabase(null); db.rename(fileName, oldDatabaseName, newDatabaseName, 0); } /** Sorts a DatabaseEntry with multiple matching key/data pairs.

If specified, the application specific btree comparison and duplicate comparison functions will be used.

@param entries A MultipleKeyDataEntry that contains matching pairs of key/data items, the sorted entries will be returned in the original entries object. */ public static void sortMultipleKeyData(MultipleKeyDataEntry entries) throws DatabaseException { Database.sortMultiple(entries, null); } /** Sorts a DatabaseEntry with multiple key or data pairs.

If specified, the application specific btree comparison function will be used.

@param entries A MultipleDataEntry that contains multiple key or data items, the sorted entries will be returned in the original entries object. */ public static void sortMultipleKeyOrData(MultipleDataEntry entries) throws DatabaseException { Database.sortMultiple(entries, null); } /** Sorts two DatabaseEntry objects with multiple key and data pairs.

If specified, the application specific btree comparison and duplicate comparison functions will be used.

The key and data parameters must contain "pairs" of items. That is the n-th entry in keys corresponds to the n-th entry in datas. @param keys A MultipleDataEntry that contains multiple key items, the sorted entries will be returned in the original entries object. @param datas A MultipleDataEntry that contains multiple data items, the sorted entries will be returned in the original entries object. */ public static void sortMultipleKeyAndData( MultipleDataEntry keys, MultipleDataEntry datas) throws DatabaseException { Database.sortMultiple(keys, datas); } private static void sortMultiple(MultipleEntry keys, MultipleEntry datas) throws DatabaseException { final Db db = DatabaseConfig.DEFAULT.createDatabase(null); db.sort_multiple(keys, datas); db.close(0); } /** Flush any cached information to disk.

If the database is in memory only, this method has no effect and will always succeed.

It is important to understand that flushing cached information to disk only minimizes the window of opportunity for corrupted data.

Although unlikely, it is possible for database corruption to happen if a system or application crash occurs while writing data to the database. To ensure that database corruption never occurs, applications must either: use transactions and logging with automatic recovery; use logging and application-specific recovery; or edit a copy of the database, and once all applications using the database have successfully closed the copy of the database, atomically replace the original database with the updated copy.

@throws DatabaseException if a failure occurs. */ public void sync() throws DatabaseException { db.sync(0); } /** Upgrade all of the databases included in the specified file.

If no upgrade is necessary, always returns success.

Database upgrades are done in place and are destructive. For example, if pages need to be allocated and no disk space is available, the database may be left corrupted. Backups should be made before databases are upgraded.

The following information is only meaningful when upgrading databases from releases before the Berkeley DB 3.1 release:

As part of the upgrade from the Berkeley DB 3.0 release to the 3.1 release, the on-disk format of duplicate data items changed. To correctly upgrade the format requires applications to specify whether duplicate data items in the database are sorted or not. Configuring the database object to support sorted duplicates by the {@link com.sleepycat.db.DatabaseConfig#setSortedDuplicates DatabaseConfig.setSortedDuplicates} method informs this method that the duplicates are sorted; otherwise they are assumed to be unsorted. Incorrectly specifying this configuration information may lead to database corruption.

Further, because this method upgrades a physical file (including all the databases it contains), it is not possible to use this method to upgrade files in which some of the databases it includes have sorted duplicate data items, and some of the databases it includes have unsorted duplicate data items. If the file does not have more than a single database, if the databases do not support duplicate data items, or if all of the databases that support duplicate data items support the same style of duplicates (either sorted or unsorted), this method will work correctly as long as the duplicate configuration is correctly specified. Otherwise, the file cannot be upgraded using this method; it must be upgraded manually by dumping and reloading the databases.

Unlike all other database operations, upgrades may only be done on a system with the same byte-order as the database.

@param fileName The physical file containing the databases to be upgraded.

@throws DatabaseException if a failure occurs. */ public static void upgrade(final String fileName, DatabaseConfig config) throws DatabaseException, java.io.FileNotFoundException { final Db db = DatabaseConfig.checkNull(config).createDatabase(null); db.upgrade(fileName, config.getSortedDuplicates() ? DbConstants.DB_DUPSORT : 0); db.close(0); } /** Return if all of the databases in a file are uncorrupted.

This method optionally outputs the databases' key/data pairs to a file stream.

This method does not perform any locking, even in database environments are configured with a locking subsystem. As such, it should only be used on files that are not being modified by another thread of control.

This method may not be called after the database is opened.

If the database was opened within a database environment, the environment variable DB_HOME may be used as the path of the database environment home.

This method is affected by any database directory specified with {@link com.sleepycat.db.EnvironmentConfig#addDataDir EnvironmentConfig.addDataDir}, or by setting the "set_data_dir" string in the database environment's DB_CONFIG file.

The {@link com.sleepycat.db.Database Database} handle may not be accessed again after this method is called, regardless of this method's success or failure.

@param fileName The physical file in which the databases to be verified are found.

@param databaseName The database in the file on which the database checks for btree and duplicate sort order and for hashing are to be performed. This parameter should be set to null except when the operation has been been configured by {@link com.sleepycat.db.VerifyConfig#setOrderCheckOnly VerifyConfig.setOrderCheckOnly}.

@param dumpStream An optional file stream to which the databases' key/data pairs are written. This parameter should be set to null except when the operation has been been configured by {@link com.sleepycat.db.VerifyConfig#setSalvage VerifyConfig.setSalvage}.

@param verifyConfig The verify operation attributes. If null, default attributes are used.

@param dbConfig The database attributes. If null, default attributes are used.

@return True, if all of the databases in the file are uncorrupted. If this method returns false, and the operation was configured by {@link com.sleepycat.db.VerifyConfig#setSalvage VerifyConfig.setSalvage}, all of the key/data pairs in the file may not have been successfully output.

@throws DatabaseException if a failure occurs. */ public static boolean verify(final String fileName, final String databaseName, final java.io.PrintStream dumpStream, VerifyConfig verifyConfig, DatabaseConfig dbConfig) throws DatabaseException, java.io.FileNotFoundException { final Db db = DatabaseConfig.checkNull(dbConfig).createDatabase(null); return db.verify(fileName, databaseName, dumpStream, VerifyConfig.checkNull(verifyConfig).getFlags()); } }