/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* * This file is part of the LibreOffice project. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. * * This file incorporates work covered by the following license notice: * * 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 . */ #include #include #include #include "file/FPreparedStatement.hxx" #include #include "file/FResultSetMetaData.hxx" #include #include #include #include #include #include #include #include #include "diagnose_ex.h" #include #include #include "resource/file_res.hrc" using namespace connectivity; using namespace comphelper; using namespace ::dbtools; using namespace connectivity::file; using namespace com::sun::star::uno; using namespace com::sun::star::lang; using namespace com::sun::star::beans; using namespace com::sun::star::sdbc; using namespace com::sun::star::sdbcx; using namespace com::sun::star::container; using namespace com::sun::star; IMPLEMENT_SERVICE_INFO(OPreparedStatement,"com.sun.star.sdbc.driver.file.PreparedStatement","com.sun.star.sdbc.PreparedStatement"); OPreparedStatement::OPreparedStatement( OConnection* _pConnection) : OStatement_BASE2( _pConnection ) { } OPreparedStatement::~OPreparedStatement() { } void OPreparedStatement::disposing() { ::osl::MutexGuard aGuard(m_aMutex); OStatement_BASE2::disposing(); m_xParamColumns = NULL; m_xMetaData.clear(); if(m_aParameterRow.is()) { m_aParameterRow->get().clear(); m_aParameterRow = NULL; } } void OPreparedStatement::construct(const OUString& sql) throw(SQLException, RuntimeException) { OStatement_Base::construct(sql); m_aParameterRow = new OValueRefVector(); m_aParameterRow->get().push_back(new ORowSetValueDecorator(sal_Int32(0)) ); Reference xNames(m_xColNames,UNO_QUERY); if ( m_aSQLIterator.getStatementType() == SQL_STATEMENT_SELECT ) m_xParamColumns = m_aSQLIterator.getParameters(); else { m_xParamColumns = new OSQLColumns(); // describe all parameters need for the resultset describeParameter(); } OValueRefRow aTemp; OResultSet::setBoundedColumns(m_aEvaluateRow,aTemp,m_xParamColumns,xNames,false,m_xDBMetaData,m_aColMapping); } rtl::Reference OPreparedStatement::makeResultSet() { closeResultSet(); rtl::Reference xResultSet(createResultSet()); m_xResultSet = xResultSet.get(); initializeResultSet(xResultSet.get()); initResultSet(xResultSet.get()); return xResultSet; } Any SAL_CALL OPreparedStatement::queryInterface( const Type & rType ) throw(RuntimeException, std::exception) { Any aRet = OStatement_BASE2::queryInterface(rType); return aRet.hasValue() ? aRet : ::cppu::queryInterface( rType, static_cast< XPreparedStatement*>(this), static_cast< XParameters*>(this), static_cast< XResultSetMetaDataSupplier*>(this)); } ::com::sun::star::uno::Sequence< ::com::sun::star::uno::Type > SAL_CALL OPreparedStatement::getTypes( ) throw(::com::sun::star::uno::RuntimeException, std::exception) { ::cppu::OTypeCollection aTypes( cppu::UnoType::get(), cppu::UnoType::get(), cppu::UnoType::get()); return ::comphelper::concatSequences(aTypes.getTypes(),OStatement_BASE2::getTypes()); } Reference< XResultSetMetaData > SAL_CALL OPreparedStatement::getMetaData( ) throw(SQLException, RuntimeException, std::exception) { ::osl::MutexGuard aGuard( m_aMutex ); checkDisposed(OStatement_BASE::rBHelper.bDisposed); if(!m_xMetaData.is()) m_xMetaData = new OResultSetMetaData(m_aSQLIterator.getSelectColumns(),m_aSQLIterator.getTables().begin()->first,m_pTable); return m_xMetaData; } void SAL_CALL OPreparedStatement::close( ) throw(SQLException, RuntimeException, std::exception) { ::osl::MutexGuard aGuard( m_aMutex ); checkDisposed(OStatement_BASE::rBHelper.bDisposed); closeResultSet(); } sal_Bool SAL_CALL OPreparedStatement::execute( ) throw(SQLException, RuntimeException, std::exception) { ::osl::MutexGuard aGuard( m_aMutex ); checkDisposed(OStatement_BASE::rBHelper.bDisposed); rtl::Reference xRS(makeResultSet()); // since we don't support the XMultipleResults interface, nobody will ever get that ResultSet... if(xRS.is()) xRS->dispose(); return m_aSQLIterator.getStatementType() == SQL_STATEMENT_SELECT; } sal_Int32 SAL_CALL OPreparedStatement::executeUpdate( ) throw(SQLException, RuntimeException, std::exception) { ::osl::MutexGuard aGuard( m_aMutex ); checkDisposed(OStatement_BASE::rBHelper.bDisposed); rtl::Reference xRS(makeResultSet()); if(xRS.is()) { const sal_Int32 res(xRS->getRowCountResult()); // nobody will ever get that ResultSet... xRS->dispose(); return res; } else return 0; } void SAL_CALL OPreparedStatement::setString( sal_Int32 parameterIndex, const OUString& x ) throw(SQLException, RuntimeException, std::exception) { setParameter(parameterIndex,x); } Reference< XConnection > SAL_CALL OPreparedStatement::getConnection( ) throw(SQLException, RuntimeException, std::exception) { ::osl::MutexGuard aGuard( m_aMutex ); checkDisposed(OStatement_BASE::rBHelper.bDisposed); return Reference< XConnection >(m_pConnection); } Reference< XResultSet > SAL_CALL OPreparedStatement::executeQuery( ) throw(SQLException, RuntimeException, std::exception) { ::osl::MutexGuard aGuard( m_aMutex ); checkDisposed(OStatement_BASE::rBHelper.bDisposed); return makeResultSet().get(); } void SAL_CALL OPreparedStatement::setBoolean( sal_Int32 parameterIndex, sal_Bool x ) throw(SQLException, RuntimeException, std::exception) { setParameter(parameterIndex,static_cast(x)); } void SAL_CALL OPreparedStatement::setByte( sal_Int32 parameterIndex, sal_Int8 x ) throw(SQLException, RuntimeException, std::exception) { setParameter(parameterIndex,x); } void SAL_CALL OPreparedStatement::setDate( sal_Int32 parameterIndex, const util::Date& aData ) throw(SQLException, RuntimeException, std::exception) { setParameter(parameterIndex,DBTypeConversion::toDouble(aData)); } void SAL_CALL OPreparedStatement::setTime( sal_Int32 parameterIndex, const util::Time& aVal ) throw(SQLException, RuntimeException, std::exception) { setParameter(parameterIndex,DBTypeConversion::toDouble(aVal)); } void SAL_CALL OPreparedStatement::setTimestamp( sal_Int32 parameterIndex, const util::DateTime& aVal ) throw(SQLException, RuntimeException, std::exception) { setParameter(parameterIndex,DBTypeConversion::toDouble(aVal)); } void SAL_CALL OPreparedStatement::setDouble( sal_Int32 parameterIndex, double x ) throw(SQLException, RuntimeException, std::exception) { setParameter(parameterIndex,x); } void SAL_CALL OPreparedStatement::setFloat( sal_Int32 parameterIndex, float x ) throw(SQLException, RuntimeException, std::exception) { setParameter(parameterIndex,x); } void SAL_CALL OPreparedStatement::setInt( sal_Int32 parameterIndex, sal_Int32 x ) throw(SQLException, RuntimeException, std::exception) { setParameter(parameterIndex,x); } void SAL_CALL OPreparedStatement::setLong( sal_Int32 /*parameterIndex*/, sal_Int64 /*aVal*/ ) throw(SQLException, RuntimeException, std::exception) { throwFeatureNotImplementedSQLException( "XParameters::setLong", *this ); } void SAL_CALL OPreparedStatement::setNull( sal_Int32 parameterIndex, sal_Int32 /*sqlType*/ ) throw(SQLException, RuntimeException, std::exception) { ::osl::MutexGuard aGuard( m_aMutex ); checkAndResizeParameters(parameterIndex); if ( m_aAssignValues.is() ) (m_aAssignValues->get())[m_aParameterIndexes[parameterIndex]]->setNull(); else (m_aParameterRow->get())[parameterIndex]->setNull(); } void SAL_CALL OPreparedStatement::setClob( sal_Int32 /*parameterIndex*/, const Reference< XClob >& /*x*/ ) throw(SQLException, RuntimeException, std::exception) { throwFeatureNotImplementedSQLException( "XParameters::setClob", *this ); } void SAL_CALL OPreparedStatement::setBlob( sal_Int32 /*parameterIndex*/, const Reference< XBlob >& /*x*/ ) throw(SQLException, RuntimeException, std::exception) { throwFeatureNotImplementedSQLException( "XParameters::setBlob", *this ); } void SAL_CALL OPreparedStatement::setArray( sal_Int32 /*parameterIndex*/, const Reference< XArray >& /*x*/ ) throw(SQLException, RuntimeException, std::exception) { throwFeatureNotImplementedSQLException( "XParameters::setArray", *this ); } void SAL_CALL OPreparedStatement::setRef( sal_Int32 /*parameterIndex*/, const Reference< XRef >& /*x*/ ) throw(SQLException, RuntimeException, std::exception) { throwFeatureNotImplementedSQLException( "XParameters::setRef", *this ); } void SAL_CALL OPreparedStatement::setObjectWithInfo( sal_Int32 parameterIndex, const Any& x, sal_Int32 sqlType, sal_Int32 scale ) throw(SQLException, RuntimeException, std::exception) { switch(sqlType) { case DataType::DECIMAL: case DataType::NUMERIC: setString(parameterIndex,::comphelper::getString(x)); break; default: ::dbtools::setObjectWithInfo(this,parameterIndex,x,sqlType,scale); break; } } void SAL_CALL OPreparedStatement::setObjectNull( sal_Int32 parameterIndex, sal_Int32 sqlType, const OUString& /*typeName*/ ) throw(SQLException, RuntimeException, std::exception) { setNull(parameterIndex,sqlType); } void SAL_CALL OPreparedStatement::setObject( sal_Int32 parameterIndex, const Any& x ) throw(SQLException, RuntimeException, std::exception) { if(!::dbtools::implSetObject(this,parameterIndex,x)) { const OUString sError( m_pConnection->getResources().getResourceStringWithSubstitution( STR_UNKNOWN_PARA_TYPE, "$position$", OUString::number(parameterIndex) ) ); ::dbtools::throwGenericSQLException(sError,*this); } // setObject (parameterIndex, x, sqlType, 0); } void SAL_CALL OPreparedStatement::setShort( sal_Int32 parameterIndex, sal_Int16 x ) throw(SQLException, RuntimeException, std::exception) { setParameter(parameterIndex,x); } void SAL_CALL OPreparedStatement::setBytes( sal_Int32 parameterIndex, const Sequence< sal_Int8 >& x ) throw(SQLException, RuntimeException, std::exception) { setParameter(parameterIndex,x); } void SAL_CALL OPreparedStatement::setCharacterStream( sal_Int32 parameterIndex, const Reference< ::com::sun::star::io::XInputStream >& x, sal_Int32 length ) throw(SQLException, RuntimeException, std::exception) { setBinaryStream(parameterIndex,x,length ); } void SAL_CALL OPreparedStatement::setBinaryStream( sal_Int32 parameterIndex, const Reference< ::com::sun::star::io::XInputStream >& x, sal_Int32 length ) throw(SQLException, RuntimeException, std::exception) { if(!x.is()) ::dbtools::throwFunctionSequenceException(*this); Sequence aSeq; x->readBytes(aSeq,length); setParameter(parameterIndex,aSeq); } void SAL_CALL OPreparedStatement::clearParameters( ) throw(SQLException, RuntimeException, std::exception) { ::osl::MutexGuard aGuard( m_aMutex ); checkDisposed(OStatement_BASE::rBHelper.bDisposed); m_aParameterRow->get().clear(); m_aParameterRow->get().push_back(new ORowSetValueDecorator(sal_Int32(0)) ); } OResultSet* OPreparedStatement::createResultSet() { return new OResultSet(this,m_aSQLIterator); } void OPreparedStatement::initResultSet(OResultSet *pResultSet) { // check if we got enough parameters if ( (m_aParameterRow.is() && ( m_aParameterRow->get().size() -1 ) < m_xParamColumns->get().size()) || (m_xParamColumns.is() && !m_aParameterRow.is() && !m_aParameterRow->get().empty()) ) m_pConnection->throwGenericSQLException(STR_INVALID_PARA_COUNT,*this); pResultSet->OpenImpl(); pResultSet->setMetaData(getMetaData()); } void SAL_CALL OPreparedStatement::acquire() throw() { OStatement_BASE2::acquire(); } void SAL_CALL OPreparedStatement::release() throw() { OStatement_BASE2::release(); } void OPreparedStatement::checkAndResizeParameters(sal_Int32 parameterIndex) { ::connectivity::checkDisposed(OStatement_BASE::rBHelper.bDisposed); if ( m_aAssignValues.is() && (parameterIndex < 1 || parameterIndex >= static_cast(m_aParameterIndexes.size())) ) throwInvalidIndexException(*this); else if ( static_cast((m_aParameterRow->get()).size()) <= parameterIndex ) { sal_Int32 i = m_aParameterRow->get().size(); (m_aParameterRow->get()).resize(parameterIndex+1); for ( ; i <= parameterIndex; ++i) { if ( !(m_aParameterRow->get())[i].is() ) (m_aParameterRow->get())[i] = new ORowSetValueDecorator; } } } void OPreparedStatement::setParameter(sal_Int32 parameterIndex, const ORowSetValue& x) { ::osl::MutexGuard aGuard( m_aMutex ); checkAndResizeParameters(parameterIndex); if(m_aAssignValues.is()) *(m_aAssignValues->get())[m_aParameterIndexes[parameterIndex]] = x; else *((m_aParameterRow->get())[parameterIndex]) = x; } sal_uInt32 OPreparedStatement::AddParameter(OSQLParseNode * pParameter, const Reference& _xCol) { OSL_UNUSED( pParameter ); OSL_ENSURE(SQL_ISRULE(pParameter,parameter),"OResultSet::AddParameter: Argument ist kein Parameter"); OSL_ENSURE(pParameter->count() > 0,"OResultSet: Fehler im Parse Tree"); #if OSL_DEBUG_LEVEL > 0 OSQLParseNode * pMark = pParameter->getChild(0); OSL_UNUSED( pMark ); #endif OUString sParameterName; // set up Parameter-Column: sal_Int32 eType = DataType::VARCHAR; sal_uInt32 nPrecision = 255; sal_Int32 nScale = 0; sal_Int32 nNullable = ColumnValue::NULLABLE; if (_xCol.is()) { // Use type, precision, scale ... from the given column, // because this Column will get a value assigned or // with this Column the value will be compared. _xCol->getPropertyValue(OMetaConnection::getPropMap().getNameByIndex(PROPERTY_ID_TYPE)) >>= eType; _xCol->getPropertyValue(OMetaConnection::getPropMap().getNameByIndex(PROPERTY_ID_PRECISION)) >>= nPrecision; _xCol->getPropertyValue(OMetaConnection::getPropMap().getNameByIndex(PROPERTY_ID_SCALE)) >>= nScale; _xCol->getPropertyValue(OMetaConnection::getPropMap().getNameByIndex(PROPERTY_ID_ISNULLABLE)) >>= nNullable; _xCol->getPropertyValue(OMetaConnection::getPropMap().getNameByIndex(PROPERTY_ID_NAME)) >>= sParameterName; } Reference xParaColumn = new connectivity::parse::OParseColumn(sParameterName ,OUString() ,OUString() ,OUString() ,nNullable ,nPrecision ,nScale ,eType ,false ,false ,m_aSQLIterator.isCaseSensitive() ,OUString() ,OUString() ,OUString()); m_xParamColumns->get().push_back(xParaColumn); return m_xParamColumns->get().size(); } void OPreparedStatement::describeColumn(OSQLParseNode* _pParameter,OSQLParseNode* _pNode,const OSQLTable& _xTable) { Reference xProp; if(SQL_ISRULE(_pNode,column_ref)) { OUString sColumnName,sTableRange; m_aSQLIterator.getColumnRange(_pNode,sColumnName,sTableRange); if ( !sColumnName.isEmpty() ) { Reference xNameAccess = _xTable->getColumns(); if(xNameAccess->hasByName(sColumnName)) xNameAccess->getByName(sColumnName) >>= xProp; AddParameter(_pParameter,xProp); } } // else // AddParameter(_pParameter,xProp); } void OPreparedStatement::describeParameter() { ::std::vector< OSQLParseNode*> aParseNodes; scanParameter(m_pParseTree,aParseNodes); if ( !aParseNodes.empty() ) { // m_xParamColumns = new OSQLColumns(); const OSQLTables& xTabs = m_aSQLIterator.getTables(); if( !xTabs.empty() ) { OSQLTable xTable = xTabs.begin()->second; ::std::vector< OSQLParseNode*>::const_iterator aIter = aParseNodes.begin(); for (;aIter != aParseNodes.end();++aIter ) { describeColumn(*aIter,(*aIter)->getParent()->getChild(0),xTable); } } } } void OPreparedStatement::initializeResultSet(OResultSet* pRS) { OStatement_Base::initializeResultSet(pRS); pRS->setParameterColumns(m_xParamColumns); pRS->setParameterRow(m_aParameterRow); // Substitute parameter (AssignValues and criteria): if (!m_xParamColumns->get().empty()) { // begin with AssignValues sal_uInt16 nParaCount=0; // gives the current number of previously set Parameters // search for parameters to be substituted: size_t nCount = m_aAssignValues.is() ? m_aAssignValues->get().size() : 1; // 1 is important for the Criteria for (size_t j = 1; j < nCount; j++) { sal_uInt32 nParameter = (*m_aAssignValues).getParameterIndex(j); if (nParameter == SQL_NO_PARAMETER) continue; // this AssignValue is no Parameter ++nParaCount; // now the Parameter is valid } if (m_aParameterRow.is() && (m_xParamColumns->get().size()+1) != m_aParameterRow->get().size() ) { sal_Int32 i = m_aParameterRow->get().size(); sal_Int32 nParamColumns = m_xParamColumns->get().size()+1; m_aParameterRow->get().resize(nParamColumns); for ( ;i < nParamColumns; ++i ) { if ( !(m_aParameterRow->get())[i].is() ) (m_aParameterRow->get())[i] = new ORowSetValueDecorator; } } if (m_aParameterRow.is() && nParaCount < m_aParameterRow->get().size() ) m_pSQLAnalyzer->bindParameterRow(m_aParameterRow); } } void OPreparedStatement::parseParamterElem(const OUString& _sColumnName, OSQLParseNode* pRow_Value_Constructor_Elem) { Reference xCol; m_xColNames->getByName(_sColumnName) >>= xCol; sal_Int32 nParameter = -1; if(m_xParamColumns.is()) { OSQLColumns::Vector::const_iterator aIter = find(m_xParamColumns->get().begin(),m_xParamColumns->get().end(),_sColumnName,::comphelper::UStringMixEqual(m_pTable->isCaseSensitive())); if(aIter != m_xParamColumns->get().end()) nParameter = m_xParamColumns->get().size() - (m_xParamColumns->get().end() - aIter) + 1;// +1 because the rows start at 1 } if(nParameter == -1) nParameter = AddParameter(pRow_Value_Constructor_Elem,xCol); // Save number of parameter in the variable: SetAssignValue(_sColumnName, OUString(), true, nParameter); } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */