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com.avaje.ebeaninternal.server.query.CQuery Maven / Gradle / Ivy
package com.avaje.ebeaninternal.server.query;
import com.avaje.ebeaninternal.server.core.QueryIterator;
import com.avaje.ebean.Version;
import com.avaje.ebean.bean.BeanCollection;
import com.avaje.ebean.bean.EntityBean;
import com.avaje.ebean.bean.EntityBeanIntercept;
import com.avaje.ebean.bean.NodeUsageCollector;
import com.avaje.ebean.bean.NodeUsageListener;
import com.avaje.ebean.bean.ObjectGraphNode;
import com.avaje.ebean.bean.PersistenceContext;
import com.avaje.ebean.event.readaudit.ReadEvent;
import com.avaje.ebeaninternal.api.SpiQuery;
import com.avaje.ebeaninternal.api.SpiQuery.Mode;
import com.avaje.ebeaninternal.api.SpiTransaction;
import com.avaje.ebeaninternal.server.autotune.ProfilingListener;
import com.avaje.ebeaninternal.server.core.Message;
import com.avaje.ebeaninternal.server.core.OrmQueryRequest;
import com.avaje.ebeaninternal.server.core.SpiOrmQueryRequest;
import com.avaje.ebeaninternal.server.deploy.BeanCollectionHelp;
import com.avaje.ebeaninternal.server.deploy.BeanCollectionHelpFactory;
import com.avaje.ebeaninternal.server.deploy.BeanDescriptor;
import com.avaje.ebeaninternal.server.deploy.BeanPropertyAssocMany;
import com.avaje.ebeaninternal.server.deploy.DbReadContext;
import com.avaje.ebeaninternal.server.lib.util.StringHelper;
import com.avaje.ebeaninternal.server.type.DataBind;
import com.avaje.ebeaninternal.server.type.DataReader;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import javax.persistence.PersistenceException;
import java.lang.ref.WeakReference;
import java.sql.Connection;
import java.sql.PreparedStatement;
import java.sql.ResultSet;
import java.sql.SQLException;
import java.util.ArrayList;
import java.util.Collection;
import java.util.List;
import java.util.Map;
import java.util.concurrent.TimeUnit;
/**
* An object that represents a SqlSelect statement.
*
* The SqlSelect is based on a tree (Object Graph). The tree is traversed to see
* what parts are included in the tree according to the value of
* find.getInclude();
*
*
* The tree structure is flattened into a SqlSelectChain. The SqlSelectChain is
* the key object used in reading the flat resultSet back into Objects.
*
*/
public class CQuery implements DbReadContext, CancelableQuery {
private static final Logger logger = LoggerFactory.getLogger(CQuery.class);
private static final int GLOBAL_ROW_LIMIT = Integer.valueOf(System.getProperty("ebean.query.globallimit", "1000000"));
/**
* The resultSet rows read.
*/
private int rowCount;
/**
* The number of master EntityBeans loaded.
*/
private int loadedBeanCount;
/**
* Flag set when no more rows are in the resultSet.
*/
private boolean noMoreRows;
/**
* The 'master' bean just loaded.
*/
private EntityBean nextBean;
/**
* Holds the previous loaded bean.
*/
private EntityBean currentBean;
private final BeanPropertyAssocMany> lazyLoadManyProperty;
private Object lazyLoadParentId;
private EntityBean lazyLoadParentBean;
/**
* The 'master' collection being populated.
*/
private final BeanCollection collection;
/**
* The help for the 'master' collection.
*/
private final BeanCollectionHelp help;
/**
* The overall find request wrapper object.
*/
private final OrmQueryRequest request;
private final BeanDescriptor desc;
private final SpiQuery query;
private final boolean disableLazyLoading;
private Map currentPathMap;
private String currentPrefix;
/**
* Where clause predicates.
*/
private final CQueryPredicates predicates;
private final boolean rawSql;
/**
* The final sql that is generated.
*/
private final String sql;
/**
* Where clause to show in logs when using an existing query plan.
*/
private final String logWhereSql;
/**
* Set to true if the row number column is included in the sql.
*/
private final boolean rowNumberIncluded;
/**
* Tree that knows how to build the master and detail beans from the
* resultSet.
*/
private final SqlTreeNode rootNode;
/**
* For master detail query.
*/
private final BeanPropertyAssocMany> manyProperty;
private final int maxRowsLimit;
private DataReader dataReader;
/**
* The statement used to create the resultSet.
*/
private PreparedStatement pstmt;
private boolean cancelled;
private String bindLog;
private final CQueryPlan queryPlan;
private final Mode queryMode;
private final boolean autoTuneProfiling;
private final ObjectGraphNode objectGraphNode;
private final ProfilingListener profilingListener;
private final WeakReference profilingListenerRef;
private final Boolean readOnly;
private long startNano;
private long executionTimeMicros;
/**
* Flag set when findIterate is being read audited.
*/
private boolean auditFindIterate;
/**
* A buffer of Ids collected for findIterate auditing.
*/
private List auditFindIterateIds;
/**
* Create the Sql select based on the request.
*/
@SuppressWarnings("unchecked")
public CQuery(OrmQueryRequest request, CQueryPredicates predicates, CQueryPlan queryPlan) {
this.request = request;
this.queryPlan = queryPlan;
this.query = request.getQuery();
this.queryMode = query.getMode();
this.lazyLoadManyProperty = query.getLazyLoadMany();
this.readOnly = request.isReadOnly();
this.disableLazyLoading = query.isDisableLazyLoading();
this.objectGraphNode = query.getParentNode();
this.profilingListener = query.getProfilingListener();
this.autoTuneProfiling = profilingListener != null;
this.profilingListenerRef = autoTuneProfiling ? new WeakReference(profilingListener) : null;
// set the generated sql back to the query
// so its available to the user...
query.setGeneratedSql(queryPlan.getSql());
SqlTree sqlTree = queryPlan.getSqlTree();
this.rootNode = sqlTree.getRootNode();
this.manyProperty = sqlTree.getManyProperty();
this.sql = queryPlan.getSql();
this.rawSql = queryPlan.isRawSql();
this.rowNumberIncluded = queryPlan.isRowNumberIncluded();
this.logWhereSql = queryPlan.getLogWhereSql();
this.desc = request.getBeanDescriptor();
this.predicates = predicates;
this.maxRowsLimit = query.getMaxRows() > 0 ? query.getMaxRows() : GLOBAL_ROW_LIMIT;
this.help = createHelp(request);
this.collection = (help != null ? help.createEmptyNoParent() : null);
}
private BeanCollectionHelp createHelp(OrmQueryRequest request) {
if (request.isFindById()) {
return null;
} else {
SpiQuery.Type manyType = request.getQuery().getType();
if (manyType == null) {
// subQuery compiled for InQueryExpression
return null;
}
return BeanCollectionHelpFactory.create(request);
}
}
@Override
public boolean isDraftQuery() {
return query.isAsDraft();
}
@Override
public boolean isDisableLazyLoading() {
return disableLazyLoading;
}
public Boolean isReadOnly() {
return readOnly;
}
public void propagateState(Object e) {
if (Boolean.TRUE.equals(readOnly)) {
if (e instanceof EntityBean) {
((EntityBean) e)._ebean_getIntercept().setReadOnly(true);
}
}
}
public DataReader getDataReader() {
return dataReader;
}
public Mode getQueryMode() {
return queryMode;
}
public CQueryPredicates getPredicates() {
return predicates;
}
public SpiOrmQueryRequest> getQueryRequest() {
return request;
}
public void cancel() {
synchronized (this) {
this.cancelled = true;
if (pstmt != null) {
try {
pstmt.cancel();
} catch (SQLException e) {
String msg = "Error cancelling query";
throw new PersistenceException(msg, e);
}
}
}
}
/**
* Prepare bind and execute query with Forward only hints.
*/
public boolean prepareBindExecuteQueryForwardOnly(boolean dbPlatformForwardOnlyHint) throws SQLException {
return prepareBindExecuteQueryWithOption(dbPlatformForwardOnlyHint);
}
/**
* Prepare bind and execute the query normally.
*/
public boolean prepareBindExecuteQuery() throws SQLException {
return prepareBindExecuteQueryWithOption(false);
}
private boolean prepareBindExecuteQueryWithOption(boolean forwardOnlyHint) throws SQLException {
synchronized (this) {
if (cancelled || query.isCancelled()) {
// cancelled before we started
cancelled = true;
return false;
}
startNano = System.nanoTime();
// prepare
SpiTransaction t = request.getTransaction();
Connection conn = t.getInternalConnection();
if (query.isRawSql()) {
ResultSet suppliedResultSet = query.getRawSql().getResultSet();
if (suppliedResultSet != null) {
// this is a user supplied ResultSet so use that
dataReader = queryPlan.createDataReader(suppliedResultSet);
bindLog = "";
return true;
}
}
if (forwardOnlyHint) {
// Use forward only hints for large resultSet processing (Issue 56, MySql specific)
pstmt = conn.prepareStatement(sql, ResultSet.TYPE_FORWARD_ONLY, ResultSet.CONCUR_READ_ONLY);
pstmt.setFetchSize(Integer.MIN_VALUE);
} else {
pstmt = conn.prepareStatement(sql);
}
if (query.getTimeout() > 0) {
pstmt.setQueryTimeout(query.getTimeout());
}
if (query.getBufferFetchSizeHint() > 0) {
pstmt.setFetchSize(query.getBufferFetchSizeHint());
}
DataBind dataBind = queryPlan.bindEncryptedProperties(pstmt, conn);
bindLog = predicates.bind(dataBind);
// executeQuery
ResultSet rset = pstmt.executeQuery();
dataReader = queryPlan.createDataReader(rset);
return true;
}
}
/**
* Close the resources.
*
* The JDBC resultSet and statement need to be closed. Its important that this method is called.
*
*/
public void close() {
try {
if (auditFindIterateIds != null && !auditFindIterateIds.isEmpty()) {
auditIterateLogMessage();
}
} catch (Throwable e) {
logger.error("Error logging read audit logs", e);
}
try {
if (dataReader != null) {
dataReader.close();
dataReader = null;
}
} catch (SQLException e) {
logger.error("Error closing dataReader", e);
}
try {
if (pstmt != null) {
pstmt.close();
pstmt = null;
}
} catch (SQLException e) {
logger.error("Error closing preparedStatement", e);
}
}
/**
* Return the persistence context.
*/
public PersistenceContext getPersistenceContext() {
return request.getPersistenceContext();
}
public void setLazyLoadedChildBean(EntityBean bean, Object lazyLoadParentId) {
if (lazyLoadParentId != null) {
if (!lazyLoadParentId.equals(this.lazyLoadParentId)) {
// get the appropriate parent bean from the persistence context
this.lazyLoadParentBean = (EntityBean) lazyLoadManyProperty.getBeanDescriptor().contextGet(getPersistenceContext(), lazyLoadParentId);
this.lazyLoadParentId = lazyLoadParentId;
}
// add the loadedBean to the appropriate collection of lazyLoadParentBean
lazyLoadManyProperty.addBeanToCollectionWithCreate(lazyLoadParentBean, bean, true);
}
}
/**
* Read a row from the result set returning a bean.
*
* If the query includes a many then the first object in the returned array is
* the one/master and the second the many/detail.
*
*/
private boolean readNextBean() throws SQLException {
if (!moveToNextRow()) {
if (currentBean == null) {
return false;
} else {
// the last bean
nextBean = currentBean;
loadedBeanCount++;
return true;
}
}
loadedBeanCount++;
if (manyProperty == null) {
// only single resultSet row required to build object so we are done
// read a single resultSet row into single bean
nextBean = rootNode.load(this, null, null);
return true;
}
if (nextBean == null) {
// very first read
nextBean = rootNode.load(this, null, null);
} else {
// nextBean set to previously read currentBean
nextBean = currentBean;
request.persistenceContextAdd(nextBean);
// check the current row we have just moved to
if (checkForDifferentBean()) {
return true;
}
}
readUntilDifferentBeanStarted();
return true;
}
/**
* Read resultSet rows until we hit the end or get a different bean.
*/
private void readUntilDifferentBeanStarted() throws SQLException {
while (moveToNextRow()) {
if (checkForDifferentBean()) return;
}
}
/**
* Read the currentBean from the row data returning true if the bean
* is different to the nextBean (false if we need to read more rows).
*/
private boolean checkForDifferentBean() throws SQLException {
currentBean = rootNode.load(this, null, null);
return currentBean != nextBean;
}
/**
* Return true if we can move to the next resultSet row.
*/
private boolean moveToNextRow() throws SQLException {
if (!dataReader.next()) {
noMoreRows = true;
return false;
}
rowCount++;
dataReader.resetColumnPosition();
if (rowNumberIncluded) {
// row_number() column used for limit features
dataReader.incrementPos(1);
}
return true;
}
public long getQueryExecutionTimeMicros() {
return executionTimeMicros;
}
public boolean readBean() throws SQLException {
boolean result = hasNext();
updateExecutionStatistics();
return result;
}
protected EntityBean next() {
if (auditFindIterate) {
auditIterateNextBean();
}
return nextBean;
}
protected boolean hasNext() throws SQLException {
synchronized (this) {
if (noMoreRows || cancelled || loadedBeanCount >= maxRowsLimit) {
return false;
}
return readNextBean();
}
}
/**
* Read version beans and their effective dates.
*/
@SuppressWarnings("unchecked")
public List> readVersions() throws SQLException {
List> versionList = new ArrayList>();
Version version;
while ((version = readNextVersion()) != null) {
versionList.add(version);
}
updateExecutionStatistics();
return versionList;
}
private Version readNextVersion() throws SQLException {
if (moveToNextRow()) {
return rootNode.loadVersion(this);
}
return null;
}
public BeanCollection readCollection() throws SQLException {
while (hasNext()) {
EntityBean bean = next();
help.add(collection, bean, false);
}
updateExecutionStatistics();
return collection;
}
protected void updateExecutionStatistics() {
try {
long exeNano = System.nanoTime() - startNano;
executionTimeMicros = TimeUnit.NANOSECONDS.toMicros(exeNano);
if (autoTuneProfiling) {
profilingListener.collectQueryInfo(objectGraphNode, loadedBeanCount, executionTimeMicros);
}
queryPlan.executionTime(loadedBeanCount, executionTimeMicros, objectGraphNode);
} catch (Exception e) {
logger.error("Error updating execution statistics", e);
}
}
public QueryIterator readIterate(int bufferSize, OrmQueryRequest request) {
if (bufferSize > 0) {
return new CQueryIteratorWithBuffer(this, request, bufferSize);
} else {
return new CQueryIteratorSimple(this, request);
}
}
public String getLoadedRowDetail() {
if (manyProperty == null) {
return String.valueOf(rowCount);
} else {
return loadedBeanCount + ":" + rowCount;
}
}
public void register(String path, EntityBeanIntercept ebi) {
path = getPath(path);
request.getGraphContext().register(path, ebi);
}
public void register(String path, BeanCollection> bc) {
path = getPath(path);
request.getGraphContext().register(path, bc);
}
/**
* Return true if this is a raw sql query as opposed to Ebean generated sql.
*/
public boolean isRawSql() {
return rawSql;
}
/**
* Return the where predicate for display in the transaction log.
*/
public String getLogWhereSql() {
return logWhereSql;
}
/**
* Return the property that is associated with the many. There can only be one
* per SqlSelect. This can be null.
*/
public BeanPropertyAssocMany> getManyProperty() {
return manyProperty;
}
public String getBindLog() {
return bindLog;
}
public SpiTransaction getTransaction() {
return request.getTransaction();
}
/**
* Return the short bean name.
*/
public String getBeanName() {
return desc.getName();
}
/**
* Return the generated sql.
*/
public String getGeneratedSql() {
return sql;
}
/**
* Create a PersistenceException including interesting information like the bindLog and sql used.
*/
public PersistenceException createPersistenceException(SQLException e) {
return createPersistenceException(e, getTransaction(), bindLog, sql);
}
/**
* Create a PersistenceException including interesting information like the bindLog and sql used.
*/
public static PersistenceException createPersistenceException(SQLException e, SpiTransaction t, String bindLog, String sql) {
if (t.isLogSummary()) {
// log the error to the transaction log
String errMsg = StringHelper.replaceStringMulti(e.getMessage(), new String[]{"\r", "\n"}, "\\n ");
String msg = "ERROR executing query: bindLog[" + bindLog + "] error[" + errMsg + "]";
t.logSummary(msg);
}
// ensure 'rollback' is logged if queryOnly transaction
t.getConnection();
// build a decent error message for the exception
String m = Message.msg("fetch.sqlerror", e.getMessage(), bindLog, sql);
return new PersistenceException(m, e);
}
/**
* Should we create profileNodes for beans created in this query.
*
* This is true for all queries except lazy load bean queries.
*
*/
public boolean isAutoTuneProfiling() {
// need query.isProfiling() because we just take the data
// from the lazy loaded or refreshed beans and put it into the already
// existing beans which are already collecting usage information
return autoTuneProfiling && query.isUsageProfiling();
}
private String getPath(String propertyName) {
if (currentPrefix == null) {
return propertyName;
} else if (propertyName == null) {
return currentPrefix;
}
String path = currentPathMap.get(propertyName);
if (path != null) {
return path;
} else {
return currentPrefix + "." + propertyName;
}
}
public void profileBean(EntityBeanIntercept ebi, String prefix) {
ObjectGraphNode node = request.getGraphContext().getObjectGraphNode(prefix);
ebi.setNodeUsageCollector(new NodeUsageCollector(node, profilingListenerRef));
}
public void setCurrentPrefix(String currentPrefix, Map currentPathMap) {
this.currentPrefix = currentPrefix;
this.currentPathMap = currentPathMap;
}
/**
* A find bean query with read auditing so build and log the ReadEvent.
*/
public void auditFind(EntityBean bean) {
if (bean != null) {
// only audit when a bean was actually found
desc.readAuditBean(queryPlan.getAuditQueryKey(), bindLog, bean);
}
}
/**
* a find many query with read auditing so build the ReadEvent and log it.
*/
public void auditFindMany() {
if (!collection.isEmpty()) {
// get the id values of the underlying collection
List ids = new ArrayList(collection.size());
Collection underlyingBeans = collection.getActualDetails();
for (T underlyingBean : underlyingBeans) {
ids.add(desc.getIdForJson(underlyingBean));
}
ReadEvent futureReadEvent = query.getFutureFetchAudit();
if (futureReadEvent == null) {
// normal query execution
desc.readAuditMany(queryPlan.getAuditQueryKey(), bindLog, ids);
} else {
// this query was executed via findFutureList() and the prepare()
// has already been called so set the details and log
futureReadEvent.setQueryKey(queryPlan.getAuditQueryKey());
futureReadEvent.setBindLog(bindLog);
futureReadEvent.setIds(ids);
desc.readAuditFutureMany(futureReadEvent);
}
}
}
/**
* Indicate that read auditing is occurring on a this findIterate query.
*/
public void auditFindIterate() {
auditFindIterate = true;
}
/**
* Send the current buffer of findIterate collected ids to the audit log.
*/
private void auditIterateLogMessage() {
desc.readAuditMany(queryPlan.getAuditQueryKey(), bindLog, auditFindIterateIds);
// create a new list on demand with the next bean/id
auditFindIterateIds = null;
}
/**
* Add the id to the audit id buffer and flush if needed in batches of 100.
*/
private void auditIterateNextBean() {
if (auditFindIterateIds == null) {
auditFindIterateIds = new ArrayList(100);
}
auditFindIterateIds.add(desc.getIdForJson(nextBean));
if (auditFindIterateIds.size() >= 100) {
auditIterateLogMessage();
}
}
}