Mercurial > dive4elements > framework
view artifact-database/src/main/java/de/intevation/artifactdatabase/Backend.java @ 257:8c2b6cdf22ad
Modified Transition.isValid() - added the artifact and the current state to the parameter list.
artifacts/trunk@1758 c6561f87-3c4e-4783-a992-168aeb5c3f6f
author | Ingo Weinzierl <ingo.weinzierl@intevation.de> |
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date | Thu, 28 Apr 2011 10:30:30 +0000 |
parents | a2df2b48d2aa |
children | 22a90706d32d |
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/* * Copyright (c) 2010, 2011 by Intevation GmbH * * This program is free software under the LGPL (>=v2.1) * Read the file LGPL.txt coming with the software for details * or visit http://www.gnu.org/licenses/ if it does not exist. */ package de.intevation.artifactdatabase; import de.intevation.artifacts.Artifact; import de.intevation.artifacts.ArtifactCollection; import de.intevation.artifacts.ArtifactCollectionFactory; import de.intevation.artifacts.ArtifactFactory; import de.intevation.artifacts.ArtifactSerializer; import de.intevation.artifacts.CollectionItem; import de.intevation.artifacts.User; import de.intevation.artifacts.UserFactory; import de.intevation.artifacts.common.utils.XMLUtils; import java.sql.SQLException; import java.sql.Timestamp; import java.sql.Types; import java.util.ArrayList; import java.util.Date; import java.util.HashMap; import org.apache.log4j.Logger; import org.w3c.dom.Document; /** * The backend implements the low level layer used to store artifacts * in a SQL database. * * @author <a href="mailto:sascha.teichmann@intevation.de">Sascha L. Teichmann</a> */ public class Backend implements DatabaseCleaner.ArtifactReviver { private static Logger logger = Logger.getLogger(Backend.class); /** * The SQL statement to create new artifact id inside the database. */ public static final String SQL_NEXT_ID = SQL.get("artifacts.id.nextval"); /** * The SQL statement to insert an artifact into the database. */ public static final String SQL_INSERT = SQL.get("artifacts.insert"); /** * The SQL statement to update some columns of an existing * artifact in the database. */ public static final String SQL_UPDATE = SQL.get("artifacts.update"); /** * The SQL statement to touch the access time of an * artifact inside the database. */ public static final String SQL_TOUCH = SQL.get("artifacts.touch"); /** * The SQL statement to load an artifact by a given * identifier from the database. */ public static final String SQL_LOAD_BY_GID = SQL.get("artifacts.select.gid"); /** * The SQL statement to get the database id of an artifact * identified by the identifier. */ public static final String SQL_GET_ID = SQL.get("artifacts.get.id"); /** * The SQL statement to replace the content of an * existing artifact inside the database. */ public static final String SQL_REPLACE = SQL.get("artifacts.replace"); // USER SQL public static final String SQL_USERS_NEXT_ID = SQL.get("users.id.nextval"); public static final String SQL_USERS_INSERT = SQL.get("users.insert"); public static final String SQL_USERS_SELECT_ID_BY_GID = SQL.get("users.select.id.by.gid"); public static final String SQL_USERS_SELECT_GID = SQL.get("users.select.gid"); public static final String SQL_USERS_DELETE_ID = SQL.get("users.delete.id"); public static final String SQL_USERS_DELETE_COLLECTIONS = SQL.get("users.delete.collections"); public static final String SQL_USERS_SELECT_ALL = SQL.get("users.select.all"); public static final String SQL_USERS_COLLECTIONS = SQL.get("users.collections"); public static final String SQL_USERS_COLLECTION_IDS = SQL.get("users.collection.ids"); public static final String SQL_USERS_DELETE_ALL_COLLECTIONS = SQL.get("users.delete.all.collections"); public static final String SQL_ARTIFACTS_IN_ONLY_COLLECTION_ONLY = SQL.get("artifacts.in.one.collection.only"); public static final String SQL_OUTDATE_ARTIFACTS_COLLECTION = SQL.get("outdate.artifacts.collection"); public static final String SQL_OUTDATE_ARTIFACTS_USER = SQL.get("outdate.artifacts.user"); public static final String SQL_DELETE_USER_COLLECTION_ITEMS = SQL.get("delete.user.collection.items"); public static final String SQL_COLLECTIONS_NEXT_ID = SQL.get("collections.id.nextval"); public static final String SQL_COLLECTIONS_INSERT = SQL.get("collections.insert"); public static final String SQL_COLLECTIONS_SELECT_USER = SQL.get("collections.select.user"); public static final String SQL_COLLECTIONS_SELECT_ALL = SQL.get("collections.select.all"); public static final String SQL_COLLECTIONS_SELECT_GID = SQL.get("collections.select.by.gid"); public static final String SQL_COLLECTIONS_CREATION_TIME = SQL.get("collection.creation.time"); public static final String SQL_COLLECTIONS_ID_BY_GID = SQL.get("collections.id.by.gid"); public static final String SQL_DELETE_COLLECTION_ITEMS = SQL.get("delete.collection.items"); public static final String SQL_DELETE_COLLECTION = SQL.get("delete.collection"); public static final String SQL_COLLECTION_CHECK_ARTIFACT = SQL.get("collection.check.artifact"); public static final String SQL_COLLECTION_ITEMS_ID_NEXTVAL = SQL.get("collection.items.id.nextval"); public static final String SQL_COLLECTION_ITEMS_INSERT = SQL.get("collection.items.insert"); public static final String SQL_COLLECTION_GET_ATTRIBUTE = SQL.get("collection.get.attribute"); public static final String SQL_COLLECTION_SET_ATTRIBUTE = SQL.get("collection.set.attribute"); public static final String SQL_COLLECTION_ITEM_GET_ATTRIBUTE = SQL.get("collection.item.get.attribute"); public static final String SQL_COLLECTION_ITEM_SET_ATTRIBUTE = SQL.get("collection.item.set.attribute"); public static final String SQL_COLLECTIONS_TOUCH_BY_GID = SQL.get("collections.touch.by.gid"); public static final String SQL_COLLECTION_ITEM_ID_CID_AID = SQL.get("collection.item.id.cid.aid"); public static final String SQL_COLLECTION_ITEM_OUTDATE_ARTIFACT = SQL.get("collection.item.outdate.artifact"); public static final String SQL_COLLECTION_ITEM_DELETE = SQL.get("collection.item.delete"); public static final String SQL_COLLECTIONS_TOUCH_BY_ID = SQL.get("collections.touch.by.id"); public static final String SQL_COLLECTION_ITEMS_LIST_GID = SQL.get("collection.items.list.gid"); /** The singleton.*/ protected static Backend instance; /** * The database cleaner. Reference is stored here because * the cleaner is woken up if the backend finds an outdated * artifact. This artifact should be removed as soon as * possible. */ protected DatabaseCleaner cleaner; /** * To revive an artifact from the bytes coming from the database * we need the artifact factory which references the artifact * serializer which is able to do the reviving job. */ protected FactoryLookup factoryLookup; /** * Little helper interface to decouple the ArtifactDatabase * from the Backend. A ArtifactDatabase should depend on a * Backend but a Backend not from an ArtifactDatabase. */ public interface FactoryLookup { /** * Returns an ArtifactFactory which is bound to a given name. * @param factoryName The name of the artifact factory. * @return The ArtifactFactory bound to the factory name or * null if not matching factory is found. */ ArtifactFactory getArtifactFactory(String factoryName); } // interface FactoryLookup /** * Inner class that brigdes between the persisten form of the * artifact and the living one inside the artifact database. * After the describe(), feed(), advance() and out() operations * of the artifact it must be possible to write to modified artifact * back into the database. */ public final class PersistentArtifact { private int id; private Artifact artifact; private ArtifactSerializer serializer; private Long ttl; /** * Cronstructor to create a persistent artifact. * @param artifact The living artifact. * @param serializer The serializer to store the artifact * after the operations. * @param ttl The time to life of the artifact. * @param id The database id of the artifact. */ public PersistentArtifact( Artifact artifact, ArtifactSerializer serializer, Long ttl, int id ) { this.id = id; this.artifact = artifact; this.serializer = serializer; this.ttl = ttl; } public int getId() { return id; } /** * Returns the wrapped living artifact. * @return the living artifact. */ public Artifact getArtifact() { return artifact; } /** * Returns the serialized which is able to write a * modified artifact back into the database. * @return The serializer. */ public ArtifactSerializer getSerializer() { return serializer; } /** * The time to life of the artifact. * @return The time to live. */ public Long getTTL() { return ttl; } /** * Stores the living artifact back into the database. */ public void store() { if (logger.isDebugEnabled()) { logger.debug("storing artifact id = " + getId()); } Backend.this.store(this); } /** * Only touches the access time of the artifact. */ public void touch() { if (logger.isDebugEnabled()) { logger.debug("touching artifact id = " + getId()); } Backend.this.touch(this); } } // class ArtifactWithId /** * Default constructor */ public Backend() { } /** * Constructor to create a backend with a link to the database cleaner. * @param cleaner The clean which periodically removes outdated * artifacts from the database. */ public Backend(DatabaseCleaner cleaner) { this.cleaner = cleaner; } /** * Returns the singleton of this Backend. * * @return the backend. */ public static synchronized Backend getInstance() { if (instance == null) { instance = new Backend(); } return instance; } /** * Sets the factory lookup mechanism to decouple ArtifactDatabase * and Backend. * @param factoryLookup */ public void setFactoryLookup(FactoryLookup factoryLookup) { this.factoryLookup = factoryLookup; } /** * Sets the database cleaner explicitly. * @param cleaner The database cleaner */ public void setCleaner(DatabaseCleaner cleaner) { this.cleaner = cleaner; } /** * Returns a new unique identifier to external identify * the artifact across the system. This implementation * uses random UUIDs v4 to achieve this target. * @return the new identifier */ public String newIdentifier() { // TODO: check database for collisions. return StringUtils.newUUID(); } public boolean isValidIdentifier(String identifier) { return StringUtils.checkUUID(identifier); } /** * Stores a new artifact into the database. * @param artifact The artifact to be stored * @param factory The factory which build the artifact * @param ttl The initial time to life of the artifact. * @return A persistent wrapper around the living * artifact to be able to write modification later. * @throws Exception Thrown if something went wrong with the * storage process. */ public PersistentArtifact storeInitially( Artifact artifact, ArtifactFactory factory, Long ttl ) throws Exception { return new PersistentArtifact( artifact, factory.getSerializer(), ttl, insertDatabase(artifact, factory, ttl)); } /** * Stores an artifact into database if it does not exist there. * If it exists there it is only updated. * @param artifact The artifact to store/update. * @param factory The factory which created the artifact. * @param ttl The initial time to live of the artifact. * @return A persistent version of the artifact to be able * to store a modification later. * @throws Exception Thrown if something went wrong during * storing/updating. */ public PersistentArtifact storeOrReplace( Artifact artifact, ArtifactFactory factory, Long ttl ) throws Exception { return new PersistentArtifact( artifact, factory.getSerializer(), ttl, storeOrReplaceDatabase(artifact, factory, ttl)); } /** * Implementors of this interface are able to process the raw * artifact data from the database for loading. */ public interface ArtifactLoader { /** * Creates a custom object from the raw artifact database data. * @param factory The factory that created this artifact. * @param ttl The current time to life of the artifact. * @param bytes The raw artifact bytes from the database. * @param id The database id of the artifact. * @return The custom object created by the implementation. */ Object load(ArtifactFactory factory, Long ttl, byte [] bytes, int id); } // interface ArtifactLoader /** * Fetches an artifact from the database identified by the * given identifier. * @param identifer The identifier of the artifact. * @return A persistent wrapper around the found artifact * to be able to write back a modifaction later or null * if no artifact is found for this identifier. */ public PersistentArtifact getArtifact(String identifer) { return (PersistentArtifact)loadArtifact( identifer, new ArtifactLoader() { public Object load( ArtifactFactory factory, Long ttl, byte [] bytes, int id ) { ArtifactSerializer serializer = factory.getSerializer(); Artifact artifact = serializer.fromBytes(bytes); return artifact == null ? null : new PersistentArtifact(artifact, serializer, ttl, id); } }); } /** * More general loading mechanism for artifacts. The concrete * load processing is delegated to the given loader. * @param identifer The identifier of the artifact. * @param loader The loader which processes the raw database data. * @return The object created by the loader. */ public Object loadArtifact( final String identifer, final ArtifactLoader loader ) { if (!isValidIdentifier(identifer)) { return null; } final Object [] loaded = new Object[1]; SQLExecutor exec = new SQLExecutor() { public boolean doIt() throws SQLException { prepareStatement(SQL_LOAD_BY_GID); stmnt.setString(1, identifer); result = stmnt.executeQuery(); if (!result.next()) { return false; } int id = result.getInt(1); long ttlX = result.getLong(2); Long ttl = result.wasNull() ? null : ttlX; String factoryName = result.getString(3); if (factoryLookup == null) { logger.error("factory lookup == null"); return false; } ArtifactFactory factory = factoryLookup .getArtifactFactory(factoryName); if (factory == null) { logger.error("factory '" + factoryName + "' not found"); return false; } byte [] bytes = result.getBytes(4); loaded[0] = loader.load(factory, ttl, bytes, id); return true; } }; return exec.runRead() ? loaded[0] : null; } /** * Called if the load mechanism found an outdated artifact. * It wakes up the database cleaner. * @param id The id of the outdated artifact. */ protected void artifactOutdated(int id) { if (logger.isDebugEnabled()) { logger.info("artifactOutdated: id = " + id); } if (cleaner != null) { cleaner.wakeup(); } } public Artifact reviveArtifact(String factoryName, byte [] bytes) { if (factoryLookup == null) { logger.error("reviveArtifact: factory lookup == null"); return null; } ArtifactFactory factory = factoryLookup .getArtifactFactory(factoryName); if (factory == null) { logger.error( "reviveArtifact: no factory '" + factoryName + "' found"); return null; } ArtifactSerializer serializer = factory.getSerializer(); return serializer.fromBytes(bytes); } /** * Internal method to store/replace an artifact inside the database. * If an artifact with the given identifier does not exists it is * created else only the content data is updated. * @param artifact The artifact to be store/update inside the database. * @param factory The factory that created the artifact. * @param ttl The initial time to life of the artifact. * @return The database id of the stored/updated artifact. */ protected int storeOrReplaceDatabase( final Artifact artifact, final ArtifactFactory factory, final Long ttl ) { final String uuid = artifact.identifier(); if (!isValidIdentifier(uuid)) { throw new RuntimeException("No valid UUID"); } final int [] id = new int[1]; SQLExecutor exec = new SQLExecutor() { public boolean doIt() throws SQLException { prepareStatement(SQL_GET_ID); stmnt.setString(1, uuid); result = stmnt.executeQuery(); Integer ID = result.next() ? Integer.valueOf(result.getInt(1)) : null; reset(); if (ID != null) { // already in database prepareStatement(SQL_REPLACE); if (ttl == null) { stmnt.setNull(1, Types.BIGINT); } else { stmnt.setLong(1, ttl.longValue()); } stmnt.setString(2, factory.getName()); stmnt.setBytes( 3, factory.getSerializer().toBytes(artifact)); id[0] = ID.intValue(); stmnt.setInt(4, id[0]); } else { // new artifact prepareStatement(SQL_NEXT_ID); result = stmnt.executeQuery(); if (!result.next()) { logger.error("No id generated"); return false; } reset(); prepareStatement(SQL_INSERT); id[0] = result.getInt(1); stmnt.setInt(1, id[0]); stmnt.setString(2, uuid); if (ttl == null) { stmnt.setNull(3, Types.BIGINT); } else { stmnt.setLong(3, ttl.longValue()); } stmnt.setString(4, factory.getName()); stmnt.setBytes( 5, factory.getSerializer().toBytes(artifact)); } stmnt.execute(); conn.commit(); return true; } }; if (!exec.runWrite()) { throw new RuntimeException("failed insert artifact into database"); } return id[0]; } /** * Internal method to store an artifact inside the database. * @param artifact The artifact to be stored. * @param factory The factory which created the artifact. * @param ttl The initial time to live of the artifact. * @return The database id of the stored artifact. */ protected int insertDatabase( final Artifact artifact, final ArtifactFactory factory, final Long ttl ) { final int [] id = new int[1]; SQLExecutor exec = new SQLExecutor() { public boolean doIt() throws SQLException { prepareStatement(SQL_NEXT_ID); result = stmnt.executeQuery(); if (!result.next()) { logger.error("No id generated"); return false; } id[0] = result.getInt(1); reset(); prepareStatement(SQL_INSERT); String uuid = artifact.identifier(); stmnt.setInt(1, id[0]); stmnt.setString(2, uuid); if (ttl == null) { stmnt.setNull(3, Types.BIGINT); } else { stmnt.setLong(3, ttl.longValue()); } stmnt.setString(4, factory.getName()); stmnt.setBytes( 5, factory.getSerializer().toBytes(artifact)); stmnt.execute(); conn.commit(); return true; } }; if (!exec.runWrite()) { throw new RuntimeException("failed insert artifact into database"); } return id[0]; } /** * Touches the access timestamp of a given artifact to prevent * that it will be removed from the database by the database cleaner. * @param artifact The persistent wrapper around the living artifact. */ public void touch(final PersistentArtifact artifact) { new SQLExecutor() { public boolean doIt() throws SQLException { prepareStatement(SQL_TOUCH); stmnt.setInt(1, artifact.getId()); stmnt.execute(); conn.commit(); return true; } }.runWrite(); } /** * Writes modification of an artifact back to the database. * @param artifact The persistent wrapper around a living * artifact. */ public void store(final PersistentArtifact artifact) { new SQLExecutor() { public boolean doIt() throws SQLException { prepareStatement(SQL_UPDATE); stmnt.setInt(2, artifact.getId()); byte [] bytes = artifact .getSerializer() .toBytes(artifact.getArtifact()); stmnt.setBytes(1, bytes); stmnt.execute(); conn.commit(); return true; } }.runWrite(); } public User createUser( final String name, final Document role, final UserFactory factory, final Object context ) { final User [] user = new User[1]; final byte [] roleData = XMLUtils.toByteArray(role, true); SQLExecutor exec = new SQLExecutor() { public boolean doIt() throws SQLException { prepareStatement(SQL_USERS_NEXT_ID); result = stmnt.executeQuery(); if (!result.next()) { return false; } int id = result.getInt(1); reset(); String identifier = newIdentifier(); prepareStatement(SQL_USERS_INSERT); stmnt.setInt(1, id); stmnt.setString(2, identifier); stmnt.setString(3, name); if (roleData == null) { stmnt.setNull(4, Types.BIGINT); } else { stmnt.setBytes(4, roleData); } stmnt.execute(); conn.commit(); user[0] = factory.createUser( identifier, name, role, context); return true; } }; return exec.runWrite() ? user[0] : null; } public boolean deleteUser(final String identifier) { if (!isValidIdentifier(identifier)) { return false; } SQLExecutor exec = new SQLExecutor() { public boolean doIt() throws SQLException { prepareStatement(SQL_USERS_SELECT_ID_BY_GID); stmnt.setString(1, identifier); result = stmnt.executeQuery(); if (!result.next()) { // No such user return false; } int id = result.getInt(1); reset(); // outdate the artifacts exclusively used by the user prepareStatement(SQL_OUTDATE_ARTIFACTS_USER); stmnt.setInt(1, id); stmnt.setInt(2, id); stmnt.execute(); reset(); // delete the collection items of the user prepareStatement(SQL_DELETE_USER_COLLECTION_ITEMS); stmnt.setInt(1, id); stmnt.execute(); reset(); // delete the collections of the user prepareStatement(SQL_USERS_DELETE_COLLECTIONS); stmnt.setInt(1, id); stmnt.execute(); reset(); // delete the user prepareStatement(SQL_USERS_DELETE_ID); stmnt.setInt(1, id); stmnt.execute(); conn.commit(); return true; } }; return exec.runWrite(); } public User getUser( final String identifier, final UserFactory factory, final Object context ) { if (!isValidIdentifier(identifier)) { logger.debug("Invalid UUID: '" + identifier + "'"); return null; } final User [] user = new User[1]; SQLExecutor exec = new SQLExecutor() { public boolean doIt() throws SQLException { prepareStatement(SQL_USERS_SELECT_GID); stmnt.setString(1, identifier); result = stmnt.executeQuery(); if (!result.next()) { // no such user return false; } // omit id String name = result.getString(2); byte [] roleData = result.getBytes(3); Document role = XMLUtils.fromByteArray(roleData, true); user[0] = factory.createUser( identifier, name, role, context); return true; } }; return exec.runRead() ? user[0] : null; } public User [] getUsers( final UserFactory factory, final Object context ) { final ArrayList<User> users = new ArrayList<User>(); SQLExecutor exec = new SQLExecutor() { public boolean doIt() throws SQLException { prepareStatement(SQL_USERS_SELECT_ALL); result = stmnt.executeQuery(); while (result.next()) { // omit id String identifier = result.getString(2); String name = result.getString(3); byte [] roleData = result.getBytes(4); Document role = XMLUtils.fromByteArray(roleData, true); User user = factory.createUser( identifier, name, role, context); users.add(user); } return true; } }; return exec.runRead() ? users.toArray(new User[users.size()]) : null; } public ArtifactCollection createCollection( final String ownerIdentifier, final String name, final ArtifactCollectionFactory factory, final Document attribute, final Object context ) { if (name == null) { logger.debug("Name is null"); return null; } if (!isValidIdentifier(ownerIdentifier)) { logger.debug("Invalid owner id: '" + ownerIdentifier + "'"); return null; } final ArtifactCollection [] collection = new ArtifactCollection[1]; final byte [] data = XMLUtils.toByteArray(attribute, true); SQLExecutor exec = new SQLExecutor() { public boolean doIt() throws SQLException { // fetch owner id prepareStatement(SQL_USERS_SELECT_ID_BY_GID); stmnt.setString(1, ownerIdentifier); result = stmnt.executeQuery(); if (!result.next()) { // no such user return false; } int ownerId = result.getInt(1); reset(); // fetch new collection seq number. prepareStatement(SQL_COLLECTIONS_NEXT_ID); result = stmnt.executeQuery(); if (!result.next()) { // no identifier generated return false; } int id = result.getInt(1); reset(); String identifier = newIdentifier(); prepareStatement(SQL_COLLECTIONS_INSERT); stmnt.setInt(1, id); stmnt.setString(2, identifier); stmnt.setString(3, name); stmnt.setInt(4, ownerId); // XXX: A bit odd: we don't have a collection, yet. Long ttl = factory.timeToLiveUntouched(null, context); if (ttl == null) { stmnt.setNull(5, Types.BIGINT); } else { stmnt.setLong(5, ttl); } if (data == null) { stmnt.setNull(6, Types.BINARY); } else { stmnt.setBytes(6, data); } stmnt.execute(); conn.commit(); reset(); // fetch creation time from database // done this way to use the time system // of the database. prepareStatement(SQL_COLLECTIONS_CREATION_TIME); stmnt.setInt(1, id); result = stmnt.executeQuery(); Date creationTime = null; if (result.next()) { Timestamp timestamp = result.getTimestamp(1); creationTime = new Date(timestamp.getTime()); } collection[0] = factory.createCollection( identifier, name, creationTime, attribute, context); return true; } }; return exec.runWrite() ? collection[0]: null; } public ArtifactCollection getCollection( final String collectionId, final ArtifactCollectionFactory collectionFactory, final UserFactory userFactory, final Object context ) { if (!isValidIdentifier(collectionId)) { logger.debug("collection id is not valid: " + collectionId); return null; } final ArtifactCollection[] ac = new ArtifactCollection[1]; SQLExecutor exec = new SQLExecutor() { public boolean doIt() throws SQLException { prepareStatement(SQL_COLLECTIONS_SELECT_GID); stmnt.setString(1, collectionId); result = stmnt.executeQuery(); if (!result.next()) { logger.debug("No such collection"); return false; } String collectionName = result.getString(2); String ownerId = result.getString(3); Date creationTime = new Date(result.getTimestamp(4).getTime()); Date lastAccess = new Date(result.getTimestamp(5).getTime()); Document attr = XMLUtils.fromByteArray(result.getBytes(6), true); ArtifactCollection collection = collectionFactory.createCollection( collectionId, collectionName, creationTime, attr, context); if (ownerId != null) { collection.setUser(new LazyBackendUser( ownerId, userFactory, Backend.this, context)); } ac[0] = collection; return true; } }; return exec.runRead() ? ac[0] : null; } public ArtifactCollection [] listCollections( final String ownerIdentifier, final Document data, final ArtifactCollectionFactory collectionFactory, final UserFactory userFactory, final Object context ) { if (ownerIdentifier != null && !isValidIdentifier(ownerIdentifier)) { logger.debug("Invalid owner id: '" + ownerIdentifier + "'"); return null; } final ArrayList<ArtifactCollection> collections = new ArrayList<ArtifactCollection>(); SQLExecutor exec = new SQLExecutor() { public boolean doIt() throws SQLException { if (ownerIdentifier != null) { prepareStatement(SQL_COLLECTIONS_SELECT_USER); stmnt.setString(1, ownerIdentifier); } else { prepareStatement(SQL_COLLECTIONS_SELECT_ALL); } result = stmnt.executeQuery(); HashMap<String, LazyBackendUser> users = new HashMap<String, LazyBackendUser>(); while (result.next()) { String collectionIdentifier = result.getString(1); String collectionName = result.getString(2); Date creationTime = new Date(result.getTimestamp(3).getTime()); String userIdentifier = result.getString(4); ArtifactCollection collection = collectionFactory.createCollection( collectionIdentifier, collectionName, creationTime, data, context); if (userIdentifier != null) { LazyBackendUser user = users.get(userIdentifier); if (user == null) { user = new LazyBackendUser( userIdentifier, userFactory, Backend.this, context); users.put(userIdentifier, user); } collection.setUser(user); } collections.add(collection); } return true; } }; return exec.runRead() ? collections.toArray(new ArtifactCollection[collections.size()]) : null; } public boolean deleteCollection(final String collectionId) { if (!isValidIdentifier(collectionId)) { logger.debug("Invalid collection id: '" + collectionId + "'"); return false; } SQLExecutor exec = new SQLExecutor() { public boolean doIt() throws SQLException { // fetch collection id prepareStatement(SQL_COLLECTIONS_ID_BY_GID); stmnt.setString(1, collectionId); result = stmnt.executeQuery(); if (!result.next()) { logger.debug("No such collection: " + collectionId); return false; } int id = result.getInt(1); reset(); // outdate artifacts that are only in this collection prepareStatement(SQL_OUTDATE_ARTIFACTS_COLLECTION); stmnt.setInt(1, id); stmnt.setInt(2, id); stmnt.execute(); reset(); // delete the collection items prepareStatement(SQL_DELETE_COLLECTION_ITEMS); stmnt.setInt(1, id); stmnt.execute(); reset(); // delete the collection prepareStatement(SQL_DELETE_COLLECTION); stmnt.setInt(1, id); stmnt.execute(); conn.commit(); return true; } }; return exec.runWrite(); } public Document getCollectionAttribute(final String collectionId) { if (!isValidIdentifier(collectionId)) { logger.debug("collection id is not valid: " + collectionId); } final byte[][] data = new byte[1][1]; SQLExecutor exec = new SQLExecutor() { public boolean doIt() throws SQLException { prepareStatement(SQL_COLLECTION_GET_ATTRIBUTE); stmnt.setString(1, collectionId); result = stmnt.executeQuery(); if (!result.next()) { logger.debug("No such collection."); return false; } data[0] = result.getBytes(1); return true; } }; return exec.runRead() ? XMLUtils.fromByteArray(data[0], true) : null; } public boolean setCollectionAttribute( final String collectionId, Document attribute ) { if (!isValidIdentifier(collectionId)) { logger.debug("collection id is not valid: " + collectionId); return false; } final byte [] data = XMLUtils.toByteArray(attribute, true); return new SQLExecutor() { public boolean doIt() throws SQLException { // set the column in collection items prepareStatement(SQL_COLLECTION_SET_ATTRIBUTE); if (data == null) { stmnt.setNull(1, Types.BINARY); } else { stmnt.setBytes(1, data); } stmnt.setString(2, collectionId); stmnt.execute(); reset(); // touch the collection prepareStatement(SQL_COLLECTIONS_TOUCH_BY_GID); stmnt.setString(1, collectionId); stmnt.execute(); conn.commit(); return true; } }.runWrite(); } public Document getCollectionItemAttribute( final String collectionId, final String artifactId ) { if (!isValidIdentifier(collectionId)) { logger.debug("collection id is not valid: " + collectionId); return null; } if (!isValidIdentifier(artifactId)) { logger.debug("artifact id is not valid: " + artifactId); return null; } final byte [][] data = new byte[1][1]; SQLExecutor exec = new SQLExecutor() { public boolean doIt() throws SQLException { prepareStatement(SQL_COLLECTION_ITEM_GET_ATTRIBUTE); stmnt.setString(1, collectionId); stmnt.setString(2, artifactId); result = stmnt.executeQuery(); if (!result.next()) { logger.debug("No such collection item"); return false; } data[0] = result.getBytes(1); return true; } }; return exec.runRead() ? XMLUtils.fromByteArray(data[0], true) : null; } public boolean setCollectionItemAttribute( final String collectionId, final String artifactId, Document attribute ) { if (!isValidIdentifier(collectionId)) { logger.debug("collection id is not valid: " + collectionId); return false; } if (!isValidIdentifier(artifactId)) { logger.debug("artifact id is not valid: " + artifactId); return false; } final byte [] data = XMLUtils.toByteArray(attribute, true); return new SQLExecutor() { public boolean doIt() throws SQLException { // set the column in collection items prepareStatement(SQL_COLLECTION_ITEM_SET_ATTRIBUTE); if (data == null) { stmnt.setNull(1, Types.BINARY); } else { stmnt.setBytes(1, data); } stmnt.setString(2, collectionId); stmnt.setString(3, artifactId); stmnt.execute(); reset(); // touch the collection prepareStatement(SQL_COLLECTIONS_TOUCH_BY_GID); stmnt.setString(1, collectionId); stmnt.execute(); conn.commit(); return true; } }.runWrite(); } public boolean addCollectionArtifact( final String collectionId, final String artifactId, final Document attribute ) { if (!isValidIdentifier(collectionId)) { logger.debug("Invalid collection id: '" + collectionId + "'"); return false; } if (!isValidIdentifier(artifactId)) { logger.debug("Invalid artifact id: '" + artifactId + "'"); return false; } final byte [] data = XMLUtils.toByteArray(attribute, true); SQLExecutor exec = new SQLExecutor() { public boolean doIt() throws SQLException { // fetch artifact id prepareStatement(SQL_GET_ID); stmnt.setString(1, artifactId); result = stmnt.executeQuery(); if (!result.next()) { logger.debug("No such artifact: " + artifactId); return false; } int aid = result.getInt(1); reset(); // fetch collection id prepareStatement(SQL_COLLECTIONS_ID_BY_GID); stmnt.setString(1, collectionId); result = stmnt.executeQuery(); if (!result.next()) { logger.debug("No such collection: " + collectionId); } int cid = result.getInt(1); reset(); // check if artifact is already in collection prepareStatement(SQL_COLLECTION_CHECK_ARTIFACT); stmnt.setInt(1, aid); stmnt.setInt(2, cid); result = stmnt.executeQuery(); if (result.next()) { logger.debug("artifact already in collection"); return false; } reset(); // fetch fresh id for new collection item prepareStatement(SQL_COLLECTION_ITEMS_ID_NEXTVAL); result = stmnt.executeQuery(); if (!result.next()) { logger.debug("no collection item id generated"); return false; } int ci_id = result.getInt(1); reset(); // insert new collection item prepareStatement(SQL_COLLECTION_ITEMS_INSERT); stmnt.setInt(1, ci_id); stmnt.setInt(2, cid); stmnt.setInt(3, aid); if (data == null) { stmnt.setNull(4, Types.BINARY); } else { stmnt.setBytes(4, data); } stmnt.execute(); conn.commit(); return true; } }; return exec.runWrite(); } public boolean removeCollectionArtifact( final String collectionId, final String artifactId ) { if (!isValidIdentifier(collectionId)) { logger.debug("Invalid collection id: '" + collectionId + "'"); return false; } return new SQLExecutor() { public boolean doIt() throws SQLException { // fetch id, collection id and artitfact id prepareStatement(SQL_COLLECTION_ITEM_ID_CID_AID); stmnt.setString(1, collectionId); stmnt.setString(2, artifactId); result = stmnt.executeQuery(); if (!result.next()) { logger.debug("No such collection item"); return false; } int id = result.getInt(1); int cid = result.getInt(2); int aid = result.getInt(3); reset(); // outdate artifact iff it is only in this collection prepareStatement(SQL_COLLECTION_ITEM_OUTDATE_ARTIFACT); stmnt.setInt(1, aid); stmnt.setInt(2, cid); stmnt.setInt(3, aid); stmnt.execute(); reset(); // delete collection item prepareStatement(SQL_COLLECTION_ITEM_DELETE); stmnt.setInt(1, id); stmnt.execute(); reset(); // touch collection prepareStatement(SQL_COLLECTIONS_TOUCH_BY_ID); stmnt.setInt(1, cid); stmnt.execute(); conn.commit(); return true; } }.runWrite(); } public CollectionItem [] listCollectionArtifacts( final String collectionId ) { if (!isValidIdentifier(collectionId)) { logger.debug("Invalid collection id: '" + collectionId + "'"); return null; } final ArrayList<CollectionItem> collectionItems = new ArrayList<CollectionItem>(); SQLExecutor exec = new SQLExecutor() { public boolean doIt() throws SQLException { prepareStatement(SQL_COLLECTION_ITEMS_LIST_GID); stmnt.setString(1, collectionId); result = stmnt.executeQuery(); while (result.next()) { CollectionItem item = new DefaultCollectionItem( result.getString(1), result.getBytes(2)); collectionItems.add(item); } return true; } }; return exec.runRead() ? collectionItems.toArray( new CollectionItem[collectionItems.size()]) : null; } } // vim:set ts=4 sw=4 si et sta sts=4 fenc=utf8 :