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org.apache.openjpa.jdbc.kernel.JDBCStoreManager Maven / Gradle / Ivy
/*
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF licenses this file
* to you 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 org.apache.openjpa.jdbc.kernel;
import java.sql.Connection;
import java.sql.PreparedStatement;
import java.sql.ResultSet;
import java.sql.SQLException;
import java.sql.Statement;
import java.util.ArrayList;
import java.util.BitSet;
import java.util.Collection;
import java.util.Collections;
import java.util.Iterator;
import java.util.List;
import java.util.Map;
import javax.sql.DataSource;
import org.apache.openjpa.datacache.QueryCache;
import org.apache.openjpa.datacache.QueryCacheStoreQuery;
import org.apache.openjpa.enhance.PersistenceCapable;
import org.apache.openjpa.event.OrphanedKeyAction;
import org.apache.openjpa.jdbc.conf.JDBCConfiguration;
import org.apache.openjpa.jdbc.meta.ClassMapping;
import org.apache.openjpa.jdbc.meta.Discriminator;
import org.apache.openjpa.jdbc.meta.FieldMapping;
import org.apache.openjpa.jdbc.meta.ValueMapping;
import org.apache.openjpa.jdbc.meta.strats.SuperclassDiscriminatorStrategy;
import org.apache.openjpa.jdbc.sql.DBDictionary;
import org.apache.openjpa.jdbc.sql.JoinSyntaxes;
import org.apache.openjpa.jdbc.sql.Joins;
import org.apache.openjpa.jdbc.sql.Result;
import org.apache.openjpa.jdbc.sql.SQLExceptions;
import org.apache.openjpa.jdbc.sql.SQLFactory;
import org.apache.openjpa.jdbc.sql.Select;
import org.apache.openjpa.jdbc.sql.SelectExecutor;
import org.apache.openjpa.jdbc.sql.Union;
import org.apache.openjpa.kernel.BrokerImpl;
import org.apache.openjpa.kernel.FetchConfiguration;
import org.apache.openjpa.kernel.FinderCache;
import org.apache.openjpa.kernel.LockManager;
import org.apache.openjpa.kernel.OpenJPAStateManager;
import org.apache.openjpa.kernel.PCState;
import org.apache.openjpa.kernel.QueryLanguages;
import org.apache.openjpa.kernel.Seq;
import org.apache.openjpa.kernel.StoreContext;
import org.apache.openjpa.kernel.StoreManager;
import org.apache.openjpa.kernel.StoreQuery;
import org.apache.openjpa.kernel.exps.ExpressionParser;
import org.apache.openjpa.lib.jdbc.DelegatingConnection;
import org.apache.openjpa.lib.jdbc.DelegatingPreparedStatement;
import org.apache.openjpa.lib.jdbc.DelegatingStatement;
import org.apache.openjpa.lib.log.Log;
import org.apache.openjpa.lib.rop.MergedResultObjectProvider;
import org.apache.openjpa.lib.rop.ResultObjectProvider;
import org.apache.openjpa.lib.util.Localizer;
import org.apache.openjpa.meta.ClassMetaData;
import org.apache.openjpa.meta.FieldMetaData;
import org.apache.openjpa.meta.JavaTypes;
import org.apache.openjpa.meta.ValueStrategies;
import org.apache.openjpa.util.ApplicationIds;
import org.apache.openjpa.util.Exceptions;
import org.apache.openjpa.util.Id;
import org.apache.openjpa.util.ImplHelper;
import org.apache.openjpa.util.InvalidStateException;
import org.apache.openjpa.util.OpenJPAId;
import org.apache.openjpa.util.StoreException;
import org.apache.openjpa.util.UserException;
/**
* StoreManager plugin that uses JDBC to store persistent data in a
* relational data store.
*
* @author Abe White
* @nojavadoc
*/
public class JDBCStoreManager implements StoreManager, JDBCStore {
private static final Localizer _loc = Localizer.forPackage
(JDBCStoreManager.class);
private StoreContext _ctx = null;
private JDBCConfiguration _conf = null;
private DBDictionary _dict = null;
private SQLFactory _sql = null;
private JDBCLockManager _lm = null;
private DataSource _ds = null;
private RefCountConnection _conn = null;
private boolean _active = false;
private Log _log = null;
// track the pending statements so we can cancel them
private List _stmnts = Collections.synchronizedList(new ArrayList());
// pool statements so that we can try to reuse rather than recreate
private List _cancelPreparedStatementsPool = new ArrayList();
private List _cancelStatementPool = new ArrayList();
public StoreContext getContext() {
return _ctx;
}
public void setContext(StoreContext ctx) {
setContext(ctx, (JDBCConfiguration) ctx.getConfiguration());
}
public void setContext(StoreContext ctx, JDBCConfiguration conf) {
_ctx = ctx;
_conf = conf;
_dict = _conf.getDBDictionaryInstance();
_sql = _conf.getSQLFactoryInstance();
_log = _conf.getLog(JDBCConfiguration.LOG_DIAG);
LockManager lm = ctx.getLockManager();
if (lm instanceof JDBCLockManager)
_lm = (JDBCLockManager) lm;
_ds = getDataSource(ctx);
if (_conf.getUpdateManagerInstance().orderDirty())
ctx.setOrderDirtyObjects(true);
}
private final boolean useConnectionFactory2(StoreContext ctx) {
return (!ctx.isManaged() && _conf.isConnectionFactoryModeManaged());
}
private final DataSource getDataSource(StoreContext ctx) {
DataSource ds;
if(useConnectionFactory2(ctx)) {
ds = _conf.getDataSource2(ctx);
}
else {
ds = _conf.getDataSource(ctx);
}
return ds;
}
public JDBCConfiguration getConfiguration() {
return _conf;
}
public DBDictionary getDBDictionary() {
return _dict;
}
public SQLFactory getSQLFactory() {
return _sql;
}
public JDBCLockManager getLockManager() {
return _lm;
}
public JDBCFetchConfiguration getFetchConfiguration() {
return (JDBCFetchConfiguration) _ctx.getFetchConfiguration();
}
public void beginOptimistic() {
}
public void rollbackOptimistic() {
}
public void begin() {
_active = true;
try {
if ((!_ctx.isManaged() || !_conf.isConnectionFactoryModeManaged())
&& _conn.getAutoCommit())
_conn.setAutoCommit(false);
} catch (SQLException se) {
_active = false;
throw SQLExceptions.getStore(se, _dict);
}
}
public void commit() {
try {
if (!_ctx.isManaged() || !_conf.isConnectionFactoryModeManaged())
_conn.commit();
} catch (SQLException se) {
try {
_conn.rollback();
} catch (SQLException se2) {
}
throw SQLExceptions.getStore(se, _dict);
} finally {
_active = false;
}
}
public void rollback() {
// already rolled back ourselves?
if (!_active)
return;
try {
if (_conn != null
&& (!_ctx.isManaged() || !_conf
.isConnectionFactoryModeManaged()))
_conn.rollback();
} catch (SQLException se) {
throw SQLExceptions.getStore(se, _dict);
} finally {
_active = false;
}
}
public void retainConnection() {
connect(false);
_conn.setRetain(true);
}
public void releaseConnection() {
if (_conn != null)
_conn.setRetain(false);
}
public Object getClientConnection() {
return new ClientConnection(getConnection());
}
public Connection getConnection() {
connect(true);
return _conn;
}
protected DataSource getDataSource() {
return _ds;
}
public boolean exists(OpenJPAStateManager sm, Object context) {
// add where conditions on base class to avoid joins if subclass
// doesn't use oid as identifier
ClassMapping mapping = (ClassMapping) sm.getMetaData();
return exists(mapping, sm.getObjectId(), context);
}
public boolean isCached(List oids, BitSet edata) {
// JDBCStoreManager doesn't store oids in memory.
return false;
}
private boolean exists(ClassMapping mapping, Object oid, Object context) {
// add where conditions on base class to avoid joins if subclass
// doesn't use oid as identifier
Select sel = _sql.newSelect();
while (mapping.getJoinablePCSuperclassMapping() != null)
mapping = mapping.getJoinablePCSuperclassMapping();
sel.wherePrimaryKey(oid, mapping, this);
if (_log.isTraceEnabled()) {
_log.trace("exists: oid="+oid+" "+mapping.getDescribedType());
}
try {
return sel.getCount(this) != 0;
} catch (SQLException se) {
throw SQLExceptions.getStore(se, _dict);
}
}
public boolean syncVersion(OpenJPAStateManager sm, Object context) {
ClassMapping mapping = (ClassMapping) sm.getMetaData();
try {
return mapping.getVersion().checkVersion(sm, this, true);
} catch (SQLException se) {
throw SQLExceptions.getStore(se, _dict, getReadLockLevel());
}
}
private int getReadLockLevel() {
JDBCFetchConfiguration fetch = getFetchConfiguration();
if (fetch != null) {
return fetch.getReadLockLevel();
}
return -1;
}
public int compareVersion(OpenJPAStateManager state, Object v1, Object v2) {
ClassMapping mapping = (ClassMapping) state.getMetaData();
return mapping.getVersion().compareVersion(v1, v2);
}
public boolean initialize(OpenJPAStateManager sm, PCState state,
FetchConfiguration fetch, Object context) {
ConnectionInfo info = (ConnectionInfo) context;
try {
return initializeState(sm, state, (JDBCFetchConfiguration) fetch,
info);
} catch (ClassNotFoundException cnfe) {
throw new UserException(cnfe);
} catch (SQLException se) {
throw SQLExceptions.getStore(se, Exceptions.toString(sm.getPersistenceCapable()),
_dict, fetch.getReadLockLevel());
}
}
/**
* Initialize a newly-loaded instance.
*/
protected boolean initializeState(OpenJPAStateManager sm, PCState state,
JDBCFetchConfiguration fetch, ConnectionInfo info)
throws ClassNotFoundException, SQLException {
Object oid = sm.getObjectId();
ClassMapping mapping = (ClassMapping) sm.getMetaData();
Result res = null;
try {
if (info != null && info.result != null) {
res = info.result;
info.sm = sm;
if (info.mapping == null)
info.mapping = mapping;
mapping = info.mapping;
} else if (oid instanceof OpenJPAId
&& !((OpenJPAId) oid).hasSubclasses()) {
Boolean custom = customLoad(sm, mapping, state, fetch);
if (custom != null)
return custom.booleanValue();
res = getInitializeStateResult(sm, mapping, fetch,
Select.SUBS_EXACT);
if (res == null && !selectPrimaryKey(sm, mapping, fetch))
return false;
if (isEmptyResult(res))
return false;
} else {
ClassMapping[] mappings = mapping.
getIndependentAssignableMappings();
if (mappings.length == 1) {
mapping = mappings[0];
Boolean custom = customLoad(sm, mapping, state, fetch);
if (custom != null)
return custom.booleanValue();
res = getInitializeStateResult(sm, mapping, fetch,
Select.SUBS_ANY_JOINABLE);
if (res == null && !selectPrimaryKey(sm, mapping, fetch))
return false;
} else
res = getInitializeStateUnionResult(sm, mapping, mappings,
fetch);
if (isEmptyResult(res))
return false;
}
// figure out what type of object this is; the state manager
// only guarantees to provide a base class
Class> type;
if ((type = getType(res, mapping)) == null) {
if (res.getBaseMapping() != null)
mapping = res.getBaseMapping();
res.startDataRequest(mapping.getDiscriminator());
try {
type = mapping.getDiscriminator().getClass(this, mapping,
res);
} finally {
res.endDataRequest();
}
}
// initialize the state manager; this may change the mapping
// and the object id instance if the type as determined
// from the indicator is a subclass of expected type
sm.initialize(type, state);
if (info != null && info.result != null) {
FieldMapping mappedByFieldMapping = info.result.
getMappedByFieldMapping();
Object mappedByObject = info.result.getMappedByValue();
if (mappedByFieldMapping != null && mappedByObject != null)
if (mappedByObject instanceof OpenJPAId &&
mapping.getExtraFieldDataIndex(mappedByFieldMapping.getIndex()) != -1) {
// The inverse relation can not be set since
// we are eagerly loading this sm for
// a sm owner that is still in the process of
// initializing itself.
// Remember owner oid by setIntermediate().
// The inverse relation is set later by
// setInverseRelation() when the sm owner is fully
// initialized.
int index = mappedByFieldMapping.getIndex();
if (sm.getLoaded().get(index)) {
sm.setImplData(index, mappedByObject);
} else {
sm.setIntermediate(index, mappedByObject);
}
} else {
setMappedBy(sm, mappedByFieldMapping, mappedByObject);
}
}
// load the selected mappings into the given state manager
if (res != null) {
// re-get the mapping in case the instance was a subclass
mapping = (ClassMapping) sm.getMetaData();
load(mapping, sm, fetch, res);
getVersion(mapping, sm, res);
setInverseRelation(sm, mapping, res);
}
return true;
} finally {
if (res != null && (info == null || res != info.result))
res.close();
}
}
private void setInverseRelation(OpenJPAStateManager owner,
ClassMapping mapping, Result res) {
FieldMapping[] fms = mapping.getFieldMappings();
// At this point, the owner is fully initialized.
// Check if the owner has eagerly loaded ToMany relations.
for (int i = 0; i < fms.length; i++) {
if (res.getEager(fms[i]) != null) {
if (!fms[i].getElement().isTypePC()) {
continue;
}
Object coll = owner.fetchObject(fms[i].getIndex());
if (coll instanceof Map)
coll = ((Map,?>)coll).values();
if (coll instanceof Collection> &&
((Collection>) coll).size() > 0) {
// Found eagerly loaded collection.
// Publisher (1) <==> (M) Magazine
// publisher has a EAGER OneToMany relation
// magazine has a EAGER or LAZY ManyToOne publisher
// For each member (Magazine) in the collection,
// set its inverse relation (Publisher).
for (Iterator> itr = ((Collection>) coll).iterator();
itr.hasNext();) {
PersistenceCapable pc = (PersistenceCapable) itr.next();
if (pc == null) {
continue;
}
OpenJPAStateManager sm = (OpenJPAStateManager) pc.pcGetStateManager();
ClassMapping cm =
(ClassMapping) _conf.getMetaDataRepositoryInstance().getCachedMetaData(pc.getClass());
FieldMapping[] fmd = cm.getFieldMappings();
for (int j = 0; j < fmd.length; j++) {
// don't check the oids for basic fields.
if (fmd[j].isTypePC()) {
Object oid = sm.getIntermediate(fmd[j].getIndex());
// if oid was setIntermediate() previously and it is the same as the owner,generate
// then set the inverse relation
if (oid != null && oid.equals(owner.getObjectId())) {
sm.storeObject(fmd[j].getIndex(), owner.getPersistenceCapable());
break;
}
}
}
}
}
}
}
}
protected void setMappedBy(OpenJPAStateManager sm,
FieldMapping mappedByFieldMapping, Object mappedByObject) {
ClassMapping mapping = (ClassMapping) sm.getMetaData();
FieldMapping[] fms = mapping.getFieldMappings();
for (int i = 0; i < fms.length; i++) {
if (fms[i] == mappedByFieldMapping) {
sm.storeObject(fms[i].getIndex(), mappedByObject);
return;
}
}
}
/**
* This method is to provide override for non-JDBC or JDBC-like
* implementation of getting version from the result set.
*/
protected void getVersion(ClassMapping mapping, OpenJPAStateManager sm,
Result res) throws SQLException {
mapping.getVersion().afterLoad(sm, this);
}
/**
* This method is to provide override for non-JDBC or JDBC-like
* implementation of checking whether the result set is empty or not.
*/
protected boolean isEmptyResult(Result res) throws SQLException {
if (res != null && !res.next())
return true;
return false;
}
/**
* This method is to provide override for non-JDBC or JDBC-like
* implementation of getting type from the result set.
*/
protected Class> getType(Result res, ClassMapping mapping){
if (res == null)
return mapping.getDescribedType();
return null;
}
/**
* Allow the mapping to custom load data. Return null if the mapping
* does not use custom loading.
*/
private Boolean customLoad(OpenJPAStateManager sm, ClassMapping mapping,
PCState state, JDBCFetchConfiguration fetch)
throws ClassNotFoundException, SQLException {
// check to see if the mapping takes care of initialization
if (!mapping.customLoad(sm, this, state, fetch))
return null;
if (sm.getManagedInstance() != null) {
mapping.getVersion().afterLoad(sm, this);
return Boolean.TRUE;
}
return Boolean.FALSE;
}
/**
* Select the data for the given instance and return the result. Return
* null if there is no data in the current fetch groups to select.
*/
private Result getInitializeStateResult(OpenJPAStateManager sm,
ClassMapping mapping, JDBCFetchConfiguration fetch, int subs)
throws SQLException {
FinderQueryImpl fq = getFinder(mapping, fetch);
if (fq != null)
return fq.execute(sm, this, fetch);
Select sel = _sql.newSelect();
if (!select(sel, mapping, subs, sm, null, fetch,
JDBCFetchConfiguration.EAGER_JOIN, true, false))
return null;
sel.wherePrimaryKey(sm.getObjectId(), mapping, this);
sel.setExpectedResultCount(1, false);
if (_log.isTraceEnabled()) {
_log.trace("getInitializeStateResult: oid="+sm.getObjectId()+" "+mapping.getDescribedType());
}
Result result = sel.execute(this, fetch);
cacheFinder(mapping, sel, fetch);
return result;
}
/**
* Select a union of the data for the given instance from possible concrete
* mappings and return the result.
*/
private Result getInitializeStateUnionResult(final OpenJPAStateManager sm,
ClassMapping mapping, final ClassMapping[] mappings,
final JDBCFetchConfiguration fetch) throws SQLException {
FinderQueryImpl fq = getFinder(mapping, fetch);
if (fq != null)
return fq.execute(sm, this, fetch);
final JDBCStoreManager store = this;
final int eager = Math.min(fetch.getEagerFetchMode(),
JDBCFetchConfiguration.EAGER_JOIN);
Union union = _sql.newUnion(mappings.length);
union.setExpectedResultCount(1, false);
if (fetch.getSubclassFetchMode(mapping) != EagerFetchModes.EAGER_JOIN)
union.abortUnion();
union.select(new Union.Selector() {
public void select(Select sel, int i) {
sel.select(mappings[i], Select.SUBS_ANY_JOINABLE, store, fetch,
eager);
sel.wherePrimaryKey(sm.getObjectId(), mappings[i], store);
}
});
Result result = union.execute(this, fetch);
cacheFinder(mapping, union, fetch);
return result;
}
/**
* Select primary key data to make sure the given instance exists, locking
* if needed.
*/
private boolean selectPrimaryKey(OpenJPAStateManager sm,
ClassMapping mapping, JDBCFetchConfiguration fetch)
throws SQLException {
// select pks from base class record to ensure it exists and lock
// it if needed
ClassMapping base = mapping;
while (base.getJoinablePCSuperclassMapping() != null)
base = base.getJoinablePCSuperclassMapping();
Select sel = _sql.newSelect();
sel.select(base.getPrimaryKeyColumns());
sel.wherePrimaryKey(sm.getObjectId(), base, this);
if (_log.isTraceEnabled()) {
_log.trace("selectPrimaryKey: oid="+sm.getObjectId()+" "+mapping.getDescribedType());
}
Result exists = sel.execute(this, fetch);
try {
if (isEmptyResult(exists))
return false;
// record locked?
if (_active && _lm != null && exists.isLocking())
_lm.loadedForUpdate(sm);
return true;
} finally {
exists.close();
}
}
public boolean load(OpenJPAStateManager sm, BitSet fields,
FetchConfiguration fetch, int lockLevel, Object context) {
JDBCFetchConfiguration jfetch = (JDBCFetchConfiguration) fetch;
// get a connection, or reuse current one
ConnectionInfo info = (ConnectionInfo) context;
Result res = null;
if (info != null) {
// if initialize() fails to load required fields, then this method
// is called; make sure not to try to use the given result if it's
// the same one we just failed to completely initialize() with
if (info.sm != sm)
res = info.result;
info.sm = null;
}
try {
// if there's an existing result, load all we can from it
ClassMapping mapping = (ClassMapping) sm.getMetaData();
if (res != null) {
load(mapping, sm, jfetch, res);
removeLoadedFields(sm, fields);
}
// if the instance is hollow and there's a customized
// get by id method, use it
if (sm.getLoaded().length() == 0
&& mapping.customLoad(sm, this, null, jfetch))
removeLoadedFields(sm, fields);
//### select is kind of a big object, and in some cases we don't
//### use it... would it be worth it to have a small shell select
//### object that only creates a real select when actually used?
//### Delayed proxy specific optimization: If the only fields that
//### need to be loaded are delayed proxies, building the select is
//### not necessary.
if (!isDelayedLoadOnly(sm, fields, mapping)) {
Select sel = _sql.newSelect();
if (select(sel, mapping, Select.SUBS_EXACT, sm, fields, jfetch,
EagerFetchModes.EAGER_JOIN, true, false)) {
sel.wherePrimaryKey(sm.getObjectId(), mapping, this);
if (_log.isTraceEnabled()) {
_log.trace("load: "+mapping.getDescribedType()+" oid: "+sm.getObjectId());
}
res = sel.execute(this, jfetch, lockLevel);
try {
if (isEmptyResult(res))
return false;
load(mapping, sm, jfetch, res);
} finally {
res.close();
}
}
}
// now allow the fields to load themselves individually too
FieldMapping[] fms = mapping.getFieldMappings();
for (int i = 0; i < fms.length; i++)
if (fields.get(i) && (!sm.getLoaded().get(i) || sm.isDelayed(i))) {
if (_log.isTraceEnabled()) {
_log.trace("load field: '"+ fms[i].getName() + "' for oid="+sm.getObjectId()
+" "+mapping.getDescribedType());
}
fms[i].load(sm, this, jfetch.traverseJDBC(fms[i]));
}
mapping.getVersion().afterLoad(sm, this);
return true;
} catch (ClassNotFoundException cnfe) {
throw new StoreException(cnfe);
} catch (SQLException se) {
throw SQLExceptions.getStore(se, _dict, lockLevel);
}
}
private boolean isDelayedLoadOnly(OpenJPAStateManager sm, BitSet fields, ClassMapping mapping) {
if (!sm.getContext().getConfiguration().getProxyManagerInstance().getDelayCollectionLoading()
|| fields.isEmpty()) {
return false;
}
FieldMapping[] fms = mapping.getFieldMappings();
for (int i = 0; i < fms.length; i++) {
if (fields.get(i)) {
if (!(fms[i].isDelayCapable() && (!sm.getLoaded().get(i) || sm.isDelayed(i)))) {
return false;
}
}
}
return true;
}
/**
* Return a list formed by removing all loaded fields from the given one.
*/
private void removeLoadedFields(OpenJPAStateManager sm, BitSet fields) {
for (int i = 0, len = fields.length(); i < len; i++)
if (fields.get(i) && sm.getLoaded().get(i))
fields.clear(i);
}
public Collection loadAll(Collection sms, PCState state, int load,
FetchConfiguration fetch, Object context) {
return ImplHelper.loadAll(sms, this, state, load, fetch, context);
}
public void beforeStateChange(OpenJPAStateManager sm, PCState fromState,
PCState toState) {
}
public Collection flush(Collection sms) {
try {
if (_conn != null && _conn.getInnermostDelegate().isReadOnly())
_conn.setReadOnly(false);
} catch (SQLException e) {
}
return _conf.getUpdateManagerInstance().flush(sms, this);
}
public boolean cancelAll() {
// note that this method does not lock the context, since
// we want to allow a different thread to be able to cancel the
// outstanding statement on a different context
List stmnts;
synchronized (_stmnts) {
if (_stmnts.isEmpty())
return false;
stmnts = new ArrayList(_stmnts);
}
try {
for (Iterator itr = stmnts.iterator(); itr.hasNext();)
((Statement) itr.next()).cancel();
return true;
} catch (SQLException se) {
throw SQLExceptions.getStore(se, _dict);
}
}
public boolean assignObjectId(OpenJPAStateManager sm, boolean preFlush) {
ClassMetaData meta = sm.getMetaData();
if (meta.getIdentityType() == ClassMetaData.ID_APPLICATION)
return ApplicationIds.assign(sm, this, preFlush);
// datastore identity
Object val = ImplHelper.generateIdentityValue(_ctx, meta,
JavaTypes.LONG);
if (val == null && meta.getIdentityStrategy() != ValueStrategies.NATIVE)
return false;
if (val == null)
val = getDataStoreIdSequence(meta).next(_ctx, meta);
sm.setObjectId(newDataStoreId(val, meta));
return true;
}
public boolean assignField(OpenJPAStateManager sm, int field,
boolean preFlush) {
FieldMetaData fmd = sm.getMetaData().getField(field);
Object val = ImplHelper.generateFieldValue(_ctx, fmd);
if (val == null)
return false;
sm.store(field, val);
return true;
}
public Class> getManagedType(Object oid) {
if (oid instanceof Id)
return ((Id) oid).getType();
return null;
}
public Class> getDataStoreIdType(ClassMetaData meta) {
return Id.class;
}
public Object copyDataStoreId(Object oid, ClassMetaData meta) {
Id id = (Id) oid;
return new Id(meta.getDescribedType(), id.getId(), id.hasSubclasses());
}
public Object newDataStoreId(Object val, ClassMetaData meta) {
return Id.newInstance(meta.getDescribedType(), val);
}
public Id newDataStoreId(long id, ClassMapping mapping, boolean subs) {
return new Id(mapping.getDescribedType(), id, subs);
}
public ResultObjectProvider executeExtent(ClassMetaData meta,
final boolean subclasses, FetchConfiguration fetch) {
ClassMapping mapping = (ClassMapping) meta;
final ClassMapping[] mappings;
if (subclasses)
mappings = mapping.getIndependentAssignableMappings();
else
mappings = new ClassMapping[] { mapping };
ResultObjectProvider[] rops = null;
final JDBCFetchConfiguration jfetch = (JDBCFetchConfiguration) fetch;
if (jfetch.getSubclassFetchMode(mapping) != EagerFetchModes.EAGER_JOIN)
rops = new ResultObjectProvider[mappings.length];
try {
// check for custom loads
ResultObjectProvider rop;
for (int i = 0; i < mappings.length; i++) {
rop = mappings[i].customLoad(this, subclasses, jfetch, 0,
Long.MAX_VALUE);
if (rop != null) {
if (rops == null)
rops = new ResultObjectProvider[mappings.length];
rops[i] = rop;
}
}
// if we're selecting independent mappings separately or have
// custom loads, do individual selects for each class
rop = null;
if (rops != null) {
for (int i = 0; i < mappings.length; i++) {
if (rops[i] != null)
continue;
Select sel = _sql.newSelect();
sel.setLRS(true);
if (_log.isTraceEnabled()) {
_log.trace("executeExtent: "+mappings[i].getDescribedType());
sel.logEagerRelations();
}
BitSet paged = selectExtent(sel, mappings[i], jfetch,
subclasses);
if (paged == null)
rops[i] = new InstanceResultObjectProvider(sel,
mappings[i], this, jfetch);
else
rops[i] = new PagingResultObjectProvider(sel,
mappings[i], this, jfetch, paged, Long.MAX_VALUE);
}
if (rops.length == 1)
return rops[0];
return new MergedResultObjectProvider(rops);
}
// perform a union on all independent classes
Union union = _sql.newUnion(mappings.length);
union.setLRS(true);
final BitSet[] paged = new BitSet[mappings.length];
union.select(new Union.Selector() {
public void select(Select sel, int idx) {
paged[idx] = selectExtent(sel, mappings[idx], jfetch,
subclasses);
}
});
// using paging rop if any union element has paged fields
for (int i = 0; i < paged.length; i++) {
if (paged[i] != null)
return new PagingResultObjectProvider(union, mappings,
JDBCStoreManager.this, jfetch, paged, Long.MAX_VALUE);
}
return new InstanceResultObjectProvider(union, mappings[0], this,
jfetch);
} catch (SQLException se) {
throw SQLExceptions.getStore(se, _dict);
}
}
/**
* Select the given mapping for use in an extent, returning paged fields.
*/
private BitSet selectExtent(Select sel, ClassMapping mapping,
JDBCFetchConfiguration fetch, boolean subclasses) {
int subs = (subclasses) ? Select.SUBS_JOINABLE : Select.SUBS_NONE;
// decide between paging and standard iteration
BitSet paged = PagingResultObjectProvider.getPagedFields(sel, mapping,
this, fetch, JDBCFetchConfiguration.EAGER_PARALLEL,
Long.MAX_VALUE);
if (paged == null)
sel.selectIdentifier(mapping, subs, this, fetch,
JDBCFetchConfiguration.EAGER_PARALLEL);
else
sel.selectIdentifier(mapping, subs, this, fetch,
JDBCFetchConfiguration.EAGER_JOIN);
return paged;
}
private StoreQuery newStoreQuery(String language) {
ExpressionParser ep = QueryLanguages.parserForLanguage(language);
if (ep != null) {
return new JDBCStoreQuery(this, ep);
}
if (QueryLanguages.LANG_SQL.equals(language)) {
return new SQLStoreQuery(this);
}
if (QueryLanguages.LANG_PREPARED_SQL.equals(language)) {
return new PreparedSQLStoreQuery(this);
}
return null;
}
public StoreQuery newQuery(String language) {
StoreQuery sq = newStoreQuery(language);
if (sq == null || QueryLanguages.parserForLanguage(language) == null) {
return sq;
}
QueryCache queryCache = _ctx.getConfiguration().getDataCacheManagerInstance().getSystemQueryCache();
if (queryCache == null) {
return sq;
}
return new QueryCacheStoreQuery(sq, queryCache);
}
public FetchConfiguration newFetchConfiguration() {
return new JDBCFetchConfigurationImpl();
}
public Seq getDataStoreIdSequence(ClassMetaData meta) {
if (meta.getIdentityStrategy() == ValueStrategies.NATIVE
|| meta.getIdentityStrategy() == ValueStrategies.NONE)
return _conf.getSequenceInstance();
return null;
}
public Seq getValueSequence(FieldMetaData fmd) {
return null;
}
public void close() {
if (_conn != null)
_conn.free();
}
/////////////
// Utilities
/////////////
/**
* Connect to the db.
*/
private void connect(boolean ref) {
_ctx.lock();
try {
// connect if the connection is currently null, or if
// the connection has been closed out from under us
if (_conn == null)
_conn = connectInternal();
if (ref)
_conn.ref();
} catch (SQLException se) {
throw SQLExceptions.getStore(se, _dict);
} finally {
_ctx.unlock();
}
}
/**
* Connect to the database. This method is separated out so that it
* can be overridden.
*/
protected RefCountConnection connectInternal() throws SQLException {
return new RefCountConnection(_ds.getConnection());
}
public Connection getNewConnection() {
try {
return _ds.getConnection();
} catch (SQLException e) {
throw SQLExceptions.getStore(e, _dict);
}
}
/**
* Find the object with the given oid.
*/
public Object find(Object oid, ValueMapping vm,
JDBCFetchConfiguration fetch) {
if (oid == null)
return null;
if (_log.isTraceEnabled()) {
ClassMapping declaredTypeMapping = vm.getDeclaredTypeMapping();
Class> describedType = (declaredTypeMapping != null) ? declaredTypeMapping.getDescribedType() : null;
_log.trace("find: oid="+oid+", describedType="+describedType);
}
Object pc = _ctx.find(oid, fetch, null, null, 0);
if (pc == null && vm != null) {
OrphanedKeyAction action = _conf.getOrphanedKeyActionInstance();
pc = action.orphan(oid, null, vm);
}
return pc;
}
/**
* Load the object in the current row of the given result.
*/
public Object load(ClassMapping mapping, JDBCFetchConfiguration fetch,
BitSet exclude, Result result) throws SQLException {
if (!mapping.isMapped())
throw new InvalidStateException(_loc.get("virtual-mapping",
mapping));
// get the object id for the row; base class selects pk columns
ClassMapping base = mapping;
while (base.getJoinablePCSuperclassMapping() != null)
base = base.getJoinablePCSuperclassMapping();
Object oid = base.getObjectId(this, result, null, true, null);
if (oid == null)
return null;
ConnectionInfo info = new ConnectionInfo();
info.result = result;
info.mapping = mapping;
// if inverse relation is known, exclude loading during find
exclude = excludeInverseRelation(mapping, info, exclude);
return _ctx.find(oid, fetch, exclude, info, 0);
}
private BitSet excludeInverseRelation(ClassMapping mapping,
ConnectionInfo info, BitSet exclude) {
FieldMapping inverse = info.result.getMappedByFieldMapping();
if (inverse != null) {
FieldMapping[] fms = mapping.getDefinedFieldMappings();
if (exclude == null)
exclude = new BitSet(fms.length);
for (int i = 0; i < fms.length; i++) {
if (fms[i] == inverse) {
exclude.set(fms[i].getIndex());
break;
}
}
}
return exclude;
}
/**
* Load the given state manager with data from the result set. Only
* mappings originally selected will be loaded.
*/
private void load(ClassMapping mapping, OpenJPAStateManager sm,
JDBCFetchConfiguration fetch, Result res) throws SQLException {
FieldMapping eagerToMany = load(mapping, sm, fetch, res, null);
if (eagerToMany != null) {
if (_log.isTraceEnabled()) {
_log.trace("Loading eager toMany: "+eagerToMany.getName()+" for "+mapping);
}
eagerToMany.loadEagerJoin(sm, this, fetch.traverseJDBC(eagerToMany),
res);
}
if (_active && _lm != null && res.isLocking())
_lm.loadedForUpdate(sm);
}
/**
* Load the fields of the given mapping. Return any to-many eager field
* without loading it.
*/
private FieldMapping load(ClassMapping mapping, OpenJPAStateManager sm,
JDBCFetchConfiguration fetch, Result res, FieldMapping eagerToMany)
throws SQLException {
if (mapping.customLoad(sm, this, fetch, res))
return eagerToMany;
// load superclass data; base class loads version
ClassMapping parent = mapping.getJoinablePCSuperclassMapping();
if (parent != null)
eagerToMany = load(parent, sm, fetch, res, eagerToMany);
else if (sm.getVersion() == null)
mapping.getVersion().load(sm, this, res);
// load unloaded fields
FieldMapping[] fms = mapping.getDefinedFieldMappings();
Object eres, processed;
for (int i = 0; i < fms.length; i++) {
if (fms[i].isPrimaryKey() || sm.getLoaded().get(fms[i].getIndex()))
continue;
// check for eager result, and if not present do standard load
eres = res.getEager(fms[i]);
res.startDataRequest(fms[i]);
try {
if (eres == res) {
if (eagerToMany == null && fms[i].isEagerSelectToMany())
eagerToMany = fms[i];
else
fms[i].loadEagerJoin(sm, this,
fetch.traverseJDBC(fms[i]), res);
} else if (eres != null) {
processed = fms[i].loadEagerParallel(sm, this,
fetch.traverseJDBC(fms[i]), eres);
if (processed != eres)
res.putEager(fms[i], processed);
} else {
fms[i].load(sm, this, fetch.traverseJDBC(fms[i]), res);
}
} finally {
res.endDataRequest();
}
}
return eagerToMany;
}
/**
* For implementation use only.
* Return a select for the proper mappings. Return null if no select is
* needed. The method is designed to be complementary to the load methods.
*
* @param sel select to build on
* @param mapping the mapping for the base type to select for
* @param subs whether the select might include subclasses of the
* given mapping
* @param sm state manager if an instance is being loaded or
* initialized, else null
* @param fields if a state manager is being loaded, the set of
* fields that must be loaded in order, else null
* @param fetch the fetch configuration; used if no specific fields
* must be loaded, and used when selecting relations
* @param eager eager fetch mode to use
* @param ident whether to select primary key columns as distinct
* identifiers
* @param outer whether we're outer-joining to this type
* @return true if the select is required, false otherwise
*/
public boolean select(Select sel, ClassMapping mapping, int subs,
OpenJPAStateManager sm, BitSet fields, JDBCFetchConfiguration fetch,
int eager, boolean ident, boolean outer) {
// add class conditions so that they're cloned for any batched selects
boolean joinedSupers = false;
if(needClassCondition(mapping, subs, sm)) {
joinedSupers = getJoinedSupers(sel, mapping, subs, outer);
}
// create all our eager selects so that those fields are reserved
// and cannot be reused during the actual eager select process,
// preventing infinite recursion
eager = Math.min(eager, fetch.getEagerFetchMode());
FieldMapping eagerToMany = createEagerSelects(sel, mapping, sm, fields,
fetch, eager);
// select all base class mappings; do this after batching so that
// the joins needed by these selects don't get in the WHERE clause
// of the batched selects
int seld = selectBaseMappings(sel, mapping, mapping, sm, fields,
fetch, eager, eagerToMany, ident, joinedSupers);
// select eager to-many relations last because during load they
// advance the result set and could exhaust it, so no other mappings
// can load afterwords
if (eagerToMany != null)
eagerToMany.selectEagerJoin(sel, sm, this,
fetch.traverseJDBC(eagerToMany), eager);
// optionally select subclass mappings
if (subs == Select.SUBS_JOINABLE || subs == Select.SUBS_ANY_JOINABLE)
selectSubclassMappings(sel, mapping, sm, fetch);
if (sm != null)
sel.setDistinct(false);
return seld > 0;
}
private boolean getJoinedSupers(Select sel, ClassMapping mapping, int subs, boolean outer) {
loadSubclasses(mapping);
Joins joins = (outer) ? sel.newOuterJoins() : null;
boolean includeSubs = false;
if (subs == Select.SUBS_JOINABLE || subs == Select.SUBS_ANY_JOINABLE) {
includeSubs = true;
}
return mapping.getDiscriminator().addClassConditions(sel, includeSubs, joins);
}
private boolean needClassCondition(ClassMapping mapping, int subs,
OpenJPAStateManager sm) {
boolean retVal = false;
if(sm == null || sm.getPCState() == PCState.TRANSIENT) {
if(subs == Select.SUBS_JOINABLE || subs == Select.SUBS_NONE) {
retVal = true;
}
else {
if (mapping.getDiscriminator() != null
&& SuperclassDiscriminatorStrategy.class.isInstance(mapping.getDiscriminator().getStrategy())
&& mapping.getMappingRepository().getConfiguration().getCompatibilityInstance()
.getSuperclassDiscriminatorStrategyByDefault()) {
retVal = true;
}
}
}
return retVal;
}
/**
* Mark the fields of this mapping as reserved so that eager fetches can't
* get into infinite recursive situations.
*/
private FieldMapping createEagerSelects(Select sel, ClassMapping mapping,
OpenJPAStateManager sm, BitSet fields, JDBCFetchConfiguration fetch,
int eager) {
if (mapping == null || eager == JDBCFetchConfiguration.EAGER_NONE)
return null;
FieldMapping eagerToMany = createEagerSelects(sel,
mapping.getJoinablePCSuperclassMapping(), sm, fields, fetch, eager);
FieldMapping[] fms = mapping.getDefinedFieldMappings();
boolean inEagerJoin = sel.hasEagerJoin(false);
int sels;
int jtype;
int mode;
for (int i = 0; i < fms.length; i++) {
mode = fms[i].getEagerFetchMode();
if (mode == EagerFetchModes.EAGER_NONE)
continue;
if (!requiresSelect(fms[i], sm, fields, fetch))
continue;
// try to select with join first
jtype = (fms[i].getNullValue() == FieldMetaData.NULL_EXCEPTION)
? Select.EAGER_INNER : Select.EAGER_OUTER;
if (mode != EagerFetchModes.EAGER_PARALLEL && !fms[i].isEagerSelectToMany()
&& fms[i].supportsSelect(sel, jtype, sm, this, fetch) > 0
&& sel.eagerClone(fms[i], jtype, false, 1) != null)
continue;
boolean hasJoin = fetch.hasJoin(fms[i].getFullName(false));
// if the field declares a preferred select mode of join or does not
// have a preferred mode and we're doing a by-id lookup, try
// to use a to-many join also. currently we limit eager
// outer joins to non-LRS, non-ranged selects that don't already
// have an eager to-many join
if ((hasJoin || mode == EagerFetchModes.EAGER_JOIN
|| (mode == FetchConfiguration.DEFAULT && sm != null))
&& fms[i].isEagerSelectToMany()
&& !inEagerJoin
&& !sel.hasEagerJoin(true)
&& (!sel.getAutoDistinct() || (!sel.isLRS()
&& sel.getStartIndex() == 0
&& sel.getEndIndex() == Long.MAX_VALUE))
&& fms[i].supportsSelect(sel, jtype, sm, this, fetch) > 0) {
if (sel.eagerClone(fms[i], jtype, true, 1) != null)
eagerToMany = fms[i];
else
continue;
}
// finally, try parallel
if (eager == EagerFetchModes.EAGER_PARALLEL
&& (sels = fms[i].supportsSelect(sel, Select.EAGER_PARALLEL, sm,
this, fetch)) != 0)
sel.eagerClone(fms[i], Select.EAGER_PARALLEL,
fms[i].isEagerSelectToMany(), sels);
}
return eagerToMany;
}
/**
* Determine if the given field needs to be selected.
*/
private static boolean requiresSelect(FieldMapping fm,
OpenJPAStateManager sm, BitSet fields, JDBCFetchConfiguration fetch) {
if (fields != null)
return fields.get(fm.getIndex());
if (sm != null && sm.getPCState() != PCState.TRANSIENT
&& sm.getLoaded().get(fm.getIndex()))
return false;
return fetch.requiresFetch(fm) == FetchConfiguration.FETCH_LOAD;
}
/**
* Select the field mappings of the given class and all its superclasses.
*
* @param sel the select to use
* @param mapping the most-derived type to select for
* @param orig the original mapping type selected
* @param sm the instance being selected for, or null if none
* @param fields the fields to load
* @param fetch fetch configuration to use for loading relations
* @param eager the eager fetch mode to use
* @param joined whether the class has already been joined down to
* its base class
* @return > 0 if the select is required, 0 if data was
* selected but is not required, and < 0 if nothing was selected
*/
private int selectBaseMappings(Select sel, ClassMapping mapping,
ClassMapping orig, OpenJPAStateManager sm, BitSet fields,
JDBCFetchConfiguration fetch, int eager, FieldMapping eagerToMany,
boolean ident, boolean joined) {
ClassMapping parent = mapping.getJoinablePCSuperclassMapping();
if (parent == null && !mapping.isMapped())
throw new InvalidStateException(_loc.get("virtual-mapping", mapping.
getDescribedType()));
int seld = -1;
int pseld = -1;
// base class selects pks, etc
if (parent == null) {
// if no instance, select pks
if (sm == null) {
if (ident)
sel.selectIdentifier(mapping.getPrimaryKeyColumns());
else
sel.select(mapping.getPrimaryKeyColumns());
seld = 1;
}
// if no instance or not initialized and not exact oid, select type
if ((sm == null || (sm.getPCState() == PCState.TRANSIENT
&& (!(sm.getObjectId() instanceof OpenJPAId)
|| ((OpenJPAId) sm.getObjectId()).hasSubclasses())))
&& mapping.getDiscriminator().select(sel, orig))
seld = 1;
// if no instance or no version, select version
if ((sm == null || sm.getVersion() == null)
&& mapping.getVersion().select(sel, orig))
seld = 1;
} else {
// recurse on parent
pseld = selectBaseMappings(sel, parent, orig, sm, fields,
fetch, eager, eagerToMany, ident, joined);
}
// select the mappings in the given fields set, or based on fetch
// configuration if no fields given
FieldMapping[] fms = mapping.getDefinedFieldMappings();
SelectExecutor esel;
int fseld;
for (int i = 0; i < fms.length; i++) {
// skip eager to-many select; we do that separately in calling
// method
if (fms[i] == eagerToMany)
continue;
// check for eager select
esel = sel.getEager(fms[i]);
if (esel != null) {
if (esel == sel)
fms[i].selectEagerJoin(sel, sm, this,
fetch.traverseJDBC(fms[i]), eager);
else
fms[i].selectEagerParallel(esel, sm, this,
fetch.traverseJDBC(fms[i]), eager);
seld = Math.max(0, seld);
} else if (requiresSelect(fms[i], sm, fields, fetch)) {
fseld = fms[i].select(sel, sm, this,
fetch.traverseJDBC(fms[i]), eager);
seld = Math.max(fseld, seld);
} else if (optSelect(fms[i], sel, sm, fetch)) {
fseld = fms[i].select(sel, sm, this,
fetch.traverseJDBC(fms[i]), EagerFetchModes.EAGER_NONE);
// don't upgrade seld to > 0 based on these fields, since
// they're not in the calculated field set
if (fseld >= 0 && seld < 0)
seld = 0;
}
}
// in certain circumstances force join to superclass table to avoid
// SQL generation error.
if ( eagerToMany != null && pseld < 0 && !joined
&& parent != null ) {
FieldMapping[] pfms = parent.getDefinedFieldMappings();
for (int i = 0; i < pfms.length; i++) {
if (pfms[i] == eagerToMany ) {
pseld = 0;
break;
}
}
}
// join to parent table if the parent / any ancestors have selected
// anything
if (!joined && pseld >= 0 && parent.getTable() != mapping.getTable())
sel.where(mapping.joinSuperclass(sel.newJoins(), false));
// return the highest value
return Math.max(pseld, seld);
}
/**
* When selecting fields, a special case is made for mappings that use 2-part selects that aren't explicitly *not*
* in the dfg so that they can get their primary table data. This method tests for that special case as an
* optimization.
*/
private boolean optSelect(FieldMapping fm, Select sel, OpenJPAStateManager sm, JDBCFetchConfiguration fetch) {
boolean dfg =
fetch.getIgnoreDfgForFkSelect() ||
!fm.isInDefaultFetchGroup() && !fm.isDefaultFetchGroupExplicit();
return dfg && (sm == null || sm.getPCState() == PCState.TRANSIENT || !sm.getLoaded().get(fm.getIndex()))
&& fm.supportsSelect(sel, Select.TYPE_TWO_PART, sm, this, fetch) > 0;
}
/**
* Select field mappings that match the given fetch configuration for
* subclasses of the given type.
*
* @param sel the select to use
* @param mapping the type whose subclasses to select
* @param sm the instance being selected for, or null if none
* @param fetch the fetch configuration
*/
private void selectSubclassMappings(Select sel, ClassMapping mapping,
OpenJPAStateManager sm, JDBCFetchConfiguration fetch) {
loadSubclasses(mapping);
ClassMapping[] subMappings = mapping.getJoinablePCSubclassMappings();
if (subMappings.length == 0)
return;
// select all subclass mappings that match the fetch configuration
// and whose table is in the list of those selected so far; this
// way we select the max possible without selecting any tables that
// aren't present in all possible query matches; a special case
// is made for mappings that use 2-part selects that aren't
// explicitly *not* in the default so that they can get their
// primary table data
FieldMapping[] fms;
boolean joined;
boolean canJoin = _dict.joinSyntax != JoinSyntaxes.SYNTAX_TRADITIONAL
&& fetch.getSubclassFetchMode(mapping) != fetch.EAGER_NONE;
for (int i = 0; i < subMappings.length; i++) {
if (!subMappings[i].supportsEagerSelect(sel, sm, this, mapping,
fetch))
continue;
// initialize so that if we can't join, we pretend we already have
joined = !canJoin;
fms = subMappings[i].getDefinedFieldMappings();
for (int j = 0; j < fms.length; j++) {
// make sure in one of configured fetch groups
if (fetch.requiresFetch(fms[j]) != FetchConfiguration.FETCH_LOAD
&& ((!fms[j].isInDefaultFetchGroup()
&& fms[j].isDefaultFetchGroupExplicit())
|| fms[j].supportsSelect(sel, Select.TYPE_TWO_PART, sm, this,
fetch) <= 0))
continue;
// if we can join to the subclass, do so; much better chance
// that the field will be able to select itself without joins
if (!joined) {
// mark joined whether or not we join, so we don't have to
// test conditions again for this subclass
joined = true;
sel.where(joinSubclass(sel, mapping, subMappings[i], null));
}
// if can select with tables already selected, do it
if (fms[j].supportsSelect(sel, Select.TYPE_JOINLESS, sm, this, fetch) > 0)
fms[j].select(sel, null, this, fetch.traverseJDBC(fms[j]), EagerFetchModes.EAGER_NONE);
}
}
}
/**
* Helper method to join from class to its subclass. Recursive to allow
* for multiple hops, starting from the base class.
*/
private static Joins joinSubclass(Select sel, ClassMapping base,
ClassMapping sub, Joins joins) {
if (sub == base || sub.getTable() == base.getTable()
|| sel.isSelected(sub.getTable()))
return null;
// recurse first so we go least->most derived
ClassMapping sup = sub.getJoinablePCSuperclassMapping();
joins = joinSubclass(sel, base, sup, joins);
if (joins == null)
joins = sel.newJoins();
return sub.joinSuperclass(joins, true);
}
/**
* Makes sure all subclasses of the given type are loaded in the JVM.
* This is usually done automatically.
*/
public void loadSubclasses(ClassMapping mapping) {
Discriminator dsc = mapping.getDiscriminator();
if (dsc.getSubclassesLoaded())
return;
// if the subclass list is set, no need to load subs
if (mapping.getRepository().getPersistentTypeNames(false,
_ctx.getClassLoader()) != null) {
dsc.setSubclassesLoaded(true);
return;
}
try {
dsc.loadSubclasses(this);
} catch (ClassNotFoundException cnfe) {
throw new StoreException(cnfe);
} catch (SQLException se) {
throw SQLExceptions.getStore(se, _dict);
}
}
/**
* Make the statement a candidate for cancellation.
*/
private void beforeExecuteStatement(Statement stmnt) {
_stmnts.add(stmnt);
}
/**
* Remove the statement from the cancellable set.
*/
private void afterExecuteStatement(Statement stmnt) {
_stmnts.remove(stmnt);
}
FinderQueryImpl getFinder(ClassMapping mapping, FetchConfiguration fetch) {
FinderCache cache = getFinderCache();
return cache == null
? null : (FinderQueryImpl)cache.get(mapping, fetch);
}
boolean cacheFinder(ClassMapping mapping, SelectExecutor select,
FetchConfiguration fetch) {
FinderCache cache = getFinderCache();
return cache != null && cache.cache(mapping, select, fetch) != null;
}
FinderCache getFinderCache() {
return (((BrokerImpl)getContext()).getCacheFinderQuery())
? getConfiguration().getFinderCacheInstance() : null;
}
/**
* Connection returned to client code. Makes sure its wrapped connection ref count is decremented on finalize.
*/
public static class ClientConnection extends
DelegatingConnection {
private boolean _closed = false;
public ClientConnection(Connection conn) {
super(conn);
}
public void close() throws SQLException {
_closed = true;
super.close();
}
protected void finalize() throws SQLException {
if (!_closed)
close();
}
}
/**
* Connection wrapper that keeps an internal ref count so that it knows
* when to really close.
*/
protected class RefCountConnection extends DelegatingConnection {
private boolean _retain = false;
private int _refs = 0;
private boolean _freed = false;
public RefCountConnection(Connection conn) {
super(conn);
}
public boolean getRetain() {
return _retain;
}
public void setRetain(boolean retain) {
if (_retain && !retain && _refs <= 0)
free();
_retain = retain;
}
public void ref() {
// don't have to lock; called from connect(), which is locked
_refs++;
}
public void close() throws SQLException {
// lock at broker level to avoid deadlocks
_ctx.lock();
try {
_refs--;
if (_refs <= 0 && !_retain)
free();
} finally {
_ctx.unlock();
}
}
/*
* Non-thread-safe method. Ensure protection in the call path...
*/
public void free() {
// ensure that we do not close the underlying connection
// multiple times; this could happen if someone (e.g., an
// Extent) holds a RefConnection, and then closes it (e.g., in
// the finalizer) after the StoreManager has already been closed.
if (_freed)
return;
try {
getDelegate().close();
} catch (SQLException se) {
}
_freed = true;
_conn = null;
}
protected Statement createStatement(boolean wrap) throws SQLException {
return getCancelStatement(super.createStatement(false),
RefCountConnection.this);
}
protected Statement createStatement(int rsType, int rsConcur,
boolean wrap) throws SQLException {
return getCancelStatement(super.createStatement(rsType, rsConcur,
false), RefCountConnection.this);
}
protected PreparedStatement prepareStatement(String sql, boolean wrap)
throws SQLException {
return getCancelPreparedStatement(super.prepareStatement(sql,
false), RefCountConnection.this);
}
protected PreparedStatement prepareStatement(String sql, int rsType,
int rsConcur, boolean wrap) throws SQLException {
return getCancelPreparedStatement(super.prepareStatement(sql,
rsType, rsConcur, false), RefCountConnection.this);
}
}
private PreparedStatement getCancelPreparedStatement(PreparedStatement stmnt, Connection conn) {
synchronized (_cancelPreparedStatementsPool) {
if (!_cancelPreparedStatementsPool.isEmpty()) {
CancelPreparedStatement res = _cancelPreparedStatementsPool.remove(0);
res.initialize(stmnt, conn);
return res;
}
}
return new CancelPreparedStatement(stmnt, conn);
}
private Statement getCancelStatement(Statement stmnt, Connection conn) {
synchronized (_cancelStatementPool) {
if (!_cancelStatementPool.isEmpty()) {
CancelStatement res = _cancelStatementPool.remove(0);
res.initialize(stmnt, conn);
return res;
}
}
return new CancelStatement(stmnt, conn);
}
/**
* Statement type that adds and removes itself from the set of active
* statements so that it can be canceled.
*/
private class CancelStatement extends DelegatingStatement {
public CancelStatement(Statement stmnt, Connection conn) {
super(stmnt, conn);
}
public int executeUpdate(String sql) throws SQLException {
beforeExecuteStatement(this);
try {
return super.executeUpdate(sql);
} finally {
afterExecuteStatement(this);
}
}
protected ResultSet executeQuery(String sql, boolean wrap)
throws SQLException {
beforeExecuteStatement(this);
try {
return super.executeQuery(sql, wrap);
} finally {
afterExecuteStatement(this);
}
}
public boolean execute(String sql) throws SQLException {
beforeExecuteStatement(this);
try {
return super.execute(sql);
} finally {
afterExecuteStatement(this);
}
}
public int executeUpdate(String sql, int i) throws SQLException {
beforeExecuteStatement(this);
try {
return super.executeUpdate(sql, i);
} finally {
afterExecuteStatement(this);
}
}
public int executeUpdate(String sql, int[] ia) throws SQLException {
beforeExecuteStatement(this);
try {
return super.executeUpdate(sql, ia);
} finally {
afterExecuteStatement(this);
}
}
public int executeUpdate(String sql, String[] sa) throws SQLException {
beforeExecuteStatement(this);
try {
return super.executeUpdate(sql, sa);
} finally {
afterExecuteStatement(this);
}
}
public boolean execute(String sql, int i) throws SQLException {
beforeExecuteStatement(this);
try {
return super.execute(sql, i);
} finally {
afterExecuteStatement(this);
}
}
public boolean execute(String sql, int[] ia) throws SQLException {
beforeExecuteStatement(this);
try {
return super.execute(sql, ia);
} finally {
afterExecuteStatement(this);
}
}
public boolean execute(String sql, String[] sa) throws SQLException {
beforeExecuteStatement(this);
try {
return super.execute(sql, sa);
} finally {
afterExecuteStatement(this);
}
}
public void close() throws SQLException {
super.close();
synchronized (_cancelStatementPool) {
_cancelStatementPool.add(this);
}
}
}
/**
* Statement type that adds and removes itself from the set of active
* statements so that it can be canceled.
*/
private class CancelPreparedStatement extends
DelegatingPreparedStatement {
public CancelPreparedStatement(PreparedStatement stmnt,
Connection conn) {
super(stmnt, conn);
}
public int executeUpdate() throws SQLException {
beforeExecuteStatement(this);
try {
return super.executeUpdate();
} finally {
afterExecuteStatement(this);
}
}
protected ResultSet executeQuery(boolean wrap) throws SQLException {
beforeExecuteStatement(this);
try {
return super.executeQuery(wrap);
} finally {
afterExecuteStatement(this);
}
}
public int[] executeBatch() throws SQLException {
beforeExecuteStatement(this);
try {
return super.executeBatch();
} finally {
afterExecuteStatement(this);
}
}
public boolean execute() throws SQLException {
beforeExecuteStatement(this);
try {
return super.execute();
} finally {
afterExecuteStatement(this);
}
}
public boolean execute(String s) throws SQLException {
beforeExecuteStatement(this);
try {
return super.execute(s);
} finally {
afterExecuteStatement(this);
}
}
public int executeUpdate(String s) throws SQLException {
beforeExecuteStatement(this);
try {
return super.executeUpdate(s);
} finally {
afterExecuteStatement(this);
}
}
public int executeUpdate(String s, int i) throws SQLException {
beforeExecuteStatement(this);
try {
return super.executeUpdate(s, i);
} finally {
afterExecuteStatement(this);
}
}
public int executeUpdate(String s, int[] ia) throws SQLException {
beforeExecuteStatement(this);
try {
return super.executeUpdate(s, ia);
} finally {
afterExecuteStatement(this);
}
}
public int executeUpdate(String s, String[] sa) throws SQLException {
beforeExecuteStatement(this);
try {
return super.executeUpdate(s, sa);
} finally {
afterExecuteStatement(this);
}
}
public boolean execute(String s, int i) throws SQLException {
beforeExecuteStatement(this);
try {
return super.execute(s, i);
} finally {
afterExecuteStatement(this);
}
}
public boolean execute(String s, int[] ia) throws SQLException {
beforeExecuteStatement(this);
try {
return super.execute(s, ia);
} finally {
afterExecuteStatement(this);
}
}
public boolean execute(String s, String[] sa) throws SQLException {
beforeExecuteStatement(this);
try {
return super.execute(s, sa);
} finally {
afterExecuteStatement(this);
}
}
public void close() throws SQLException {
super.close();
synchronized (_cancelPreparedStatementsPool) {
_cancelPreparedStatementsPool.add(this);
}
}
}
}