OResultSet.cxx

/* -*- 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 <odbc/OResultSet.hxx> #include <odbc/OTools.hxx> #include <odbc/OResultSetMetaData.hxx> #include <com/sun/star/sdbc/DataType.hpp> #include <com/sun/star/beans/PropertyAttribute.hpp> #include <com/sun/star/beans/PropertyVetoException.hpp> #include <com/sun/star/sdbcx/CompareBookmark.hpp> #include <com/sun/star/sdbc/ResultSetConcurrency.hpp> #include <com/sun/star/sdbc/ResultSetType.hpp> #include <comphelper/property.hxx> #include <comphelper/sequence.hxx> #include <cppuhelper/typeprovider.hxx> #include <cppuhelper/supportsservice.hxx> #include <comphelper/types.hxx> #include <connectivity/dbtools.hxx> #include <connectivity/dbexception.hxx> #include <o3tl/safeint.hxx> #include <sal/log.hxx> using namespace ::comphelper; using namespace connectivity; using namespace connectivity::odbc; using namespace cppu; 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::io; using namespace com::sun::star::util; #define ODBC_SQL_NOT_DEFINED 99UL static_assert(ODBC_SQL_NOT_DEFINED != SQL_UB_OFF, "ODBC_SQL_NOT_DEFINED must be unique"); static_assert(ODBC_SQL_NOT_DEFINED != SQL_UB_ON, "ODBC_SQL_NOT_DEFINED must be unique"); static_assert(ODBC_SQL_NOT_DEFINED != SQL_UB_FIXED, "ODBC_SQL_NOT_DEFINED must be unique"); static_assert(ODBC_SQL_NOT_DEFINED != SQL_UB_VARIABLE, "ODBC_SQL_NOT_DEFINED must be unique"); class connectivity::odbc::BindData { public: virtual void* data() = 0; virtual SQLLEN len() const = 0; virtual ~BindData() {} }; namespace { const SQLLEN nMaxBookmarkLen = 20; template <typename T> class SimpleBindData : public connectivity::odbc::BindData { public: SimpleBindData(const void* p) : value(*static_cast<const T*>(p)) { } void* data() override { return &value; } SQLLEN len() const override { return sizeof(T); } private: T value; }; template <class CHARS_t> class CharsBindData : public connectivity::odbc::BindData { public: template <typename... Args> CharsBindData(const void* p, Args... args) : value(*static_cast<const OUString*>(p), args...) { } template <class S> requires std::is_class_v<S> CharsBindData(const S& val) : value(val) { } void* data() override { return value.get(); } SQLLEN len() const override { return SQL_NTS; } // input data needs to tell it's null-terminated private: CHARS_t value; }; class NullBindData : public connectivity::odbc::BindData { public: void* data() override { return &value; } SQLLEN len() const override { return SQL_NULL_DATA; } private: char value[2] = {}; }; class BinaryBindData : public connectivity::odbc::BindData { public: BinaryBindData(const void* p) : value(*static_cast<const css::uno::Sequence<sal_Int8>*>(p)) { } void* data() override { return const_cast<sal_Int8*>(value.getConstArray()); } SQLLEN len() const override { return value.getLength(); } private: css::uno::Sequence<sal_Int8> value; // ref-counted CoW }; } // IMPLEMENT_SERVICE_INFO(OResultSet,"com.sun.star.sdbcx.OResultSet","com.sun.star.sdbc.ResultSet"); OUString SAL_CALL OResultSet::getImplementationName( ) { return u"com.sun.star.sdbcx.odbc.ResultSet"_ustr; } Sequence< OUString > SAL_CALL OResultSet::getSupportedServiceNames( ) { return { u"com.sun.star.sdbc.ResultSet"_ustr, u"com.sun.star.sdbcx.ResultSet"_ustr }; } sal_Bool SAL_CALL OResultSet::supportsService( const OUString& _rServiceName ) { return cppu::supportsService(this, _rServiceName); } OResultSet::OResultSet(SQLHANDLE _pStatementHandle ,OStatement_Base* pStmt) : OResultSet_BASE(m_aMutex) ,OPropertySetHelper(OResultSet_BASE::rBHelper) ,m_bFetchDataInOrder(true) ,m_aStatementHandle(_pStatementHandle) ,m_aConnectionHandle(pStmt->getConnectionHandle()) ,m_pStatement(pStmt) ,m_xStatement(*pStmt) ,m_nTextEncoding(pStmt->getOwnConnection()->getTextEncoding()) ,m_nRowPos(0) ,m_nUseBookmarks(ODBC_SQL_NOT_DEFINED) ,m_nCurrentFetchState(0) ,m_bWasNull(true) ,m_bEOF(true) ,m_bRowInserted(false) ,m_bRowDeleted(false) ,m_bUseFetchScroll(false) { osl_atomic_increment( &m_refCount ); try { m_pRowStatusArray.reset( new SQLUSMALLINT[1] ); // the default value setStmtOption<SQLUSMALLINT*, SQL_IS_POINTER>(SQL_ATTR_ROW_STATUS_PTR, m_pRowStatusArray.get()); } catch(const Exception&) { // we don't want our result destroy here } try { SQLULEN nCurType = getStmtOption<SQLULEN, SQL_IS_UINTEGER>(SQL_ATTR_CURSOR_TYPE); SQLUINTEGER nValueLen = m_pStatement->getCursorProperties(nCurType,false); if( (nValueLen & SQL_CA2_SENSITIVITY_DELETIONS) != SQL_CA2_SENSITIVITY_DELETIONS || (nValueLen & SQL_CA2_CRC_EXACT) != SQL_CA2_CRC_EXACT) m_pSkipDeletedSet.reset( new OSkipDeletedSet(this) ); } catch(const Exception&) { // we don't want our result destroy here } try { SQLUINTEGER nValueLen = 0; // Reference: http://msdn.microsoft.com/en-us/library/windows/desktop/ms715441%28v=vs.85%29.aspx // LibreOffice ODBC binds columns only on update, so we don't care about SQL_GD_ANY_COLUMN / SQL_GD_BOUND // TODO: maybe a problem if a column is updated, then an earlier column fetched? // an updated column is bound... // TODO: aren't we assuming SQL_GD_OUTPUT_PARAMS? // If yes, we should at least OSL_ENSURE it, // even better throw an exception any OUT parameter registration if !SQL_GD_OUTPUT_PARAMS. // If !SQL_GD_ANY_ORDER, cache the whole row so that callers can access columns in any order. // In other words, isolate them from ODBC restrictions. // TODO: we assume SQL_GD_BLOCK, unless fetchSize is 1 OTools::GetInfo(m_pStatement->getOwnConnection(),m_aConnectionHandle,SQL_GETDATA_EXTENSIONS,nValueLen,nullptr); m_bFetchDataInOrder = ((SQL_GD_ANY_ORDER & nValueLen) != SQL_GD_ANY_ORDER); } catch(const Exception&) { m_bFetchDataInOrder = true; } try { // TODO: this does *not* do what it appears. // We use SQLFetchScroll unconditionally in several places // the *only* difference this makes is whether ::next() uses SQLFetchScroll or SQLFetch // so this test seems pointless if (functions().has(ODBC3SQLFunctionId::GetFunctions)) { SQLUSMALLINT nSupported = 0; m_bUseFetchScroll = ( functions().GetFunctions(m_aConnectionHandle,SQL_API_SQLFETCHSCROLL,&nSupported) == SQL_SUCCESS && nSupported == 1 ); } } catch(const Exception&) { m_bUseFetchScroll = false; } osl_atomic_decrement( &m_refCount ); } OResultSet::~OResultSet() { } void OResultSet::construct() { osl_atomic_increment( &m_refCount ); allocBuffer(); osl_atomic_decrement( &m_refCount ); } void OResultSet::disposing() { functions().CloseCursor(m_aStatementHandle); OPropertySetHelper::disposing(); ::osl::MutexGuard aGuard(m_aMutex); releaseBuffer(); setStmtOption<SQLUSMALLINT*, SQL_IS_POINTER>(SQL_ATTR_ROW_STATUS_PTR, nullptr); m_xStatement.clear(); m_xMetaData.clear(); } // See OResultSet::updateValue SQLRETURN OResultSet::unbind(bool _bUnbindHandle) { SQLRETURN nRet = 0; if ( _bUnbindHandle ) nRet = functions().FreeStmt(m_aStatementHandle,SQL_UNBIND); m_aBindVector.clear(); return nRet; } void OResultSet::allocBuffer() { Reference< XResultSetMetaData > xMeta = getMetaData(); sal_Int32 nLen = xMeta->getColumnCount(); m_aBindVector.reserve(nLen); m_aRow.resize(nLen+1); m_aRow[0].setTypeKind(DataType::VARBINARY); m_aRow[0].setBound( false ); for(sal_Int32 i = 1;i<=nLen;++i) { sal_Int32 nType = xMeta->getColumnType(i); m_aRow[i].setTypeKind( nType ); m_aRow[i].setBound( false ); } m_aLengthVector.resize(nLen + 1); } void OResultSet::releaseBuffer() { unbind(false); m_aLengthVector.clear(); } Any SAL_CALL OResultSet::queryInterface( const Type & rType ) { Any aRet = OPropertySetHelper::queryInterface(rType); return aRet.hasValue() ? aRet : OResultSet_BASE::queryInterface(rType); } Sequence< Type > SAL_CALL OResultSet::getTypes( ) { OTypeCollection aTypes( cppu::UnoType<css::beans::XMultiPropertySet>::get(), cppu::UnoType<css::beans::XFastPropertySet>::get(), cppu::UnoType<css::beans::XPropertySet>::get()); return ::comphelper::concatSequences(aTypes.getTypes(),OResultSet_BASE::getTypes()); } sal_Int32 SAL_CALL OResultSet::findColumn( const OUString& columnName ) { checkDisposed(OResultSet_BASE::rBHelper.bDisposed); ::osl::MutexGuard aGuard( m_aMutex ); Reference< XResultSetMetaData > xMeta = getMetaData(); sal_Int32 nLen = xMeta->getColumnCount(); sal_Int32 i = 1; for(;i<=nLen;++i) { if(xMeta->isCaseSensitive(i) ? columnName == xMeta->getColumnName(i) : columnName.equalsIgnoreAsciiCase(xMeta->getColumnName(i))) return i; } ::dbtools::throwInvalidColumnException( columnName, *this ); } void OResultSet::ensureCacheForColumn(sal_Int32 columnIndex) { SAL_INFO( "connectivity.odbc", "odbc lionel@mamane.lu OResultSet::ensureCacheForColumn" ); assert(columnIndex >= 0); const TDataRow::size_type oldCacheSize = m_aRow.size(); const TDataRow::size_type uColumnIndex = static_cast<TDataRow::size_type>(columnIndex); if (oldCacheSize > uColumnIndex) // nothing to do return; m_aRow.resize(columnIndex + 1); TDataRow::iterator i (m_aRow.begin() + oldCacheSize); const TDataRow::const_iterator end(m_aRow.end()); for (; i != end; ++i) { i->setBound(false); } } void OResultSet::invalidateCache() { for(auto& rItem : m_aRow) { rItem.setBound(false); } } Reference< XInputStream > SAL_CALL OResultSet::getBinaryStream( sal_Int32 /*columnIndex*/ ) { ::osl::MutexGuard aGuard( m_aMutex ); checkDisposed(OResultSet_BASE::rBHelper.bDisposed); ::dbtools::throwFunctionNotSupportedSQLException( u"XRow::getBinaryStream"_ustr, *this ); } Reference< XInputStream > SAL_CALL OResultSet::getCharacterStream( sal_Int32 /*columnIndex*/ ) { ::osl::MutexGuard aGuard( m_aMutex ); checkDisposed(OResultSet_BASE::rBHelper.bDisposed); ::dbtools::throwFunctionNotSupportedSQLException( u"XRow::getBinaryStream"_ustr, *this ); } template < typename T > T OResultSet::impl_getValue( const sal_Int32 _nColumnIndex, SQLSMALLINT nType ) { T val; OTools::getValue(m_pStatement->getOwnConnection(), m_aStatementHandle, _nColumnIndex, nType, m_bWasNull, **this, &val, sizeof(val)); return val; } // this function exists for the implicit conversion to sal_Bool (compared to a direct call to impl_getValue) bool OResultSet::impl_getBoolean( sal_Int32 columnIndex ) { return impl_getValue<sal_Int8>(columnIndex, SQL_C_BIT); } template < typename T > T OResultSet::getValue( sal_Int32 columnIndex ) { ::osl::MutexGuard aGuard( m_aMutex ); checkDisposed(OResultSet_BASE::rBHelper.bDisposed); fillColumn(columnIndex); m_bWasNull = m_aRow[columnIndex].isNull(); auto const & row = m_aRow[columnIndex]; if constexpr ( std::is_same_v<css::util::Time, T> ) return row.getTime(); else if constexpr ( std::is_same_v<css::util::DateTime, T> ) return row.getDateTime(); else if constexpr ( std::is_same_v<css::util::Date, T> ) return row.getDate(); else if constexpr ( std::is_same_v<OUString, T> ) return row.getString(); else if constexpr ( std::is_same_v<sal_Int64, T> ) return row.getLong(); else if constexpr ( std::is_same_v<sal_Int32, T> ) return row.getInt32(); else if constexpr ( std::is_same_v<sal_Int16, T> ) return row.getInt16(); else if constexpr ( std::is_same_v<sal_Int8, T> ) return row.getInt8(); else if constexpr ( std::is_same_v<float, T> ) return row.getFloat(); else if constexpr ( std::is_same_v<double, T> ) return row.getDouble(); else if constexpr ( std::is_same_v<bool, T> ) return row.getBool(); else return row; } sal_Bool SAL_CALL OResultSet::getBoolean( sal_Int32 columnIndex ) { return getValue<bool>( columnIndex ); } sal_Int8 SAL_CALL OResultSet::getByte( sal_Int32 columnIndex ) { return getValue<sal_Int8>( columnIndex ); } Sequence< sal_Int8 > SAL_CALL OResultSet::getBytes( sal_Int32 columnIndex ) { ::osl::MutexGuard aGuard( m_aMutex ); checkDisposed(OResultSet_BASE::rBHelper.bDisposed); fillColumn(columnIndex); m_bWasNull = m_aRow[columnIndex].isNull(); Sequence< sal_Int8 > nRet; switch(m_aRow[columnIndex].getTypeKind()) { case DataType::BINARY: case DataType::VARBINARY: case DataType::LONGVARBINARY: nRet = m_aRow[columnIndex].getSequence(); break; default: { OUString const sRet = m_aRow[columnIndex].getString(); nRet = Sequence<sal_Int8>(reinterpret_cast<const sal_Int8*>(sRet.getStr()),sizeof(sal_Unicode)*sRet.getLength()); } } return nRet; } Sequence< sal_Int8 > OResultSet::impl_getBytes( sal_Int32 columnIndex ) { const SWORD nColumnType = impl_getColumnType_nothrow(columnIndex); switch(nColumnType) { case SQL_WVARCHAR: case SQL_WCHAR: case SQL_WLONGVARCHAR: case SQL_VARCHAR: case SQL_CHAR: case SQL_LONGVARCHAR: { OUString const aRet = OTools::getStringValue(m_pStatement->getOwnConnection(),m_aStatementHandle,columnIndex,nColumnType,m_bWasNull,**this,m_nTextEncoding); return Sequence<sal_Int8>(reinterpret_cast<const sal_Int8*>(aRet.getStr()),sizeof(sal_Unicode)*aRet.getLength()); } default: return OTools::getBytesValue(m_pStatement->getOwnConnection(),m_aStatementHandle,columnIndex,SQL_C_BINARY,m_bWasNull,**this); } } Date OResultSet::impl_getDate( sal_Int32 columnIndex ) { DATE_STRUCT aDate = impl_getValue< DATE_STRUCT> ( columnIndex, m_pStatement->getOwnConnection()->useOldDateFormat() ? SQL_C_DATE : SQL_C_TYPE_DATE ); return Date(aDate.day, aDate.month, aDate.year); } Date SAL_CALL OResultSet::getDate( sal_Int32 columnIndex ) { return getValue<Date>( columnIndex ); } double SAL_CALL OResultSet::getDouble( sal_Int32 columnIndex ) { return getValue<double>( columnIndex ); } float SAL_CALL OResultSet::getFloat( sal_Int32 columnIndex ) { return getValue<float>( columnIndex ); } sal_Int16 SAL_CALL OResultSet::getShort( sal_Int32 columnIndex ) { return getValue<sal_Int16>( columnIndex ); } sal_Int32 SAL_CALL OResultSet::getInt( sal_Int32 columnIndex ) { return getValue<sal_Int32>( columnIndex ); } sal_Int64 SAL_CALL OResultSet::getLong( sal_Int32 columnIndex ) { return getValue<sal_Int64>( columnIndex ); } sal_Int64 OResultSet::impl_getLong( sal_Int32 columnIndex ) { try { return impl_getValue<sal_Int64>(columnIndex, SQL_C_SBIGINT); } catch(const SQLException&) { return getString(columnIndex).toInt64(); } } sal_Int32 SAL_CALL OResultSet::getRow( ) { ::osl::MutexGuard aGuard( m_aMutex ); checkDisposed(OResultSet_BASE::rBHelper.bDisposed); return m_pSkipDeletedSet ? m_pSkipDeletedSet->getMappedPosition(getDriverPos()) : getDriverPos(); } Reference< XResultSetMetaData > SAL_CALL OResultSet::getMetaData( ) { ::osl::MutexGuard aGuard( m_aMutex ); checkDisposed(OResultSet_BASE::rBHelper.bDisposed); if(!m_xMetaData.is()) m_xMetaData = new OResultSetMetaData(m_pStatement->getOwnConnection(),m_aStatementHandle); return m_xMetaData; } Reference< XArray > SAL_CALL OResultSet::getArray( sal_Int32 /*columnIndex*/ ) { ::dbtools::throwFunctionNotSupportedSQLException( u"XRow::getArray"_ustr, *this ); } Reference< XClob > SAL_CALL OResultSet::getClob( sal_Int32 /*columnIndex*/ ) { ::dbtools::throwFunctionNotSupportedSQLException( u"XRow::getClob"_ustr, *this ); } Reference< XBlob > SAL_CALL OResultSet::getBlob( sal_Int32 /*columnIndex*/ ) { ::dbtools::throwFunctionNotSupportedSQLException( u"XRow::getBlob"_ustr, *this ); } Reference< XRef > SAL_CALL OResultSet::getRef( sal_Int32 /*columnIndex*/ ) { ::dbtools::throwFunctionNotSupportedSQLException( u"XRow::getRef"_ustr, *this ); } Any SAL_CALL OResultSet::getObject( sal_Int32 columnIndex, const Reference< css::container::XNameAccess >& /*typeMap*/ ) { return getValue<ORowSetValue>( columnIndex ).makeAny(); } OUString OResultSet::impl_getString( sal_Int32 columnIndex ) { checkDisposed(OResultSet_BASE::rBHelper.bDisposed); const SWORD nColumnType = impl_getColumnType_nothrow(columnIndex); return OTools::getStringValue(m_pStatement->getOwnConnection(),m_aStatementHandle,columnIndex,nColumnType,m_bWasNull,**this,m_nTextEncoding); } OUString OResultSet::getString( sal_Int32 columnIndex ) { return getValue<OUString>( columnIndex ); } Time OResultSet::impl_getTime( sal_Int32 columnIndex ) { TIME_STRUCT aTime = impl_getValue< TIME_STRUCT > ( columnIndex, m_pStatement->getOwnConnection()->useOldDateFormat() ? SQL_C_TIME : SQL_C_TYPE_TIME ); return Time(0, aTime.second,aTime.minute,aTime.hour, false); } Time SAL_CALL OResultSet::getTime( sal_Int32 columnIndex ) { return getValue<Time>( columnIndex ); } DateTime OResultSet::impl_getTimestamp( sal_Int32 columnIndex ) { TIMESTAMP_STRUCT aTime = impl_getValue< TIMESTAMP_STRUCT > ( columnIndex, m_pStatement->getOwnConnection()->useOldDateFormat() ? SQL_C_TIMESTAMP : SQL_C_TYPE_TIMESTAMP ); return DateTime(aTime.fraction, aTime.second, aTime.minute, aTime.hour, aTime.day, aTime.month, aTime.year, false); } DateTime SAL_CALL OResultSet::getTimestamp( sal_Int32 columnIndex ) { return getValue<DateTime>( columnIndex ); } sal_Bool SAL_CALL OResultSet::isBeforeFirst( ) { ::osl::MutexGuard aGuard( m_aMutex ); checkDisposed(OResultSet_BASE::rBHelper.bDisposed); return m_nRowPos == 0; } sal_Bool SAL_CALL OResultSet::isAfterLast( ) { ::osl::MutexGuard aGuard( m_aMutex ); checkDisposed(OResultSet_BASE::rBHelper.bDisposed); return m_nRowPos != 0 && m_nCurrentFetchState == SQL_NO_DATA; } sal_Bool SAL_CALL OResultSet::isFirst( ) { ::osl::MutexGuard aGuard( m_aMutex ); checkDisposed(OResultSet_BASE::rBHelper.bDisposed); return m_nRowPos == 1; } sal_Bool SAL_CALL OResultSet::isLast( ) { ::osl::MutexGuard aGuard( m_aMutex ); checkDisposed(OResultSet_BASE::rBHelper.bDisposed); return m_bEOF && m_nCurrentFetchState != SQL_NO_DATA; } void SAL_CALL OResultSet::beforeFirst( ) { ::osl::MutexGuard aGuard( m_aMutex ); checkDisposed(OResultSet_BASE::rBHelper.bDisposed); if(first()) previous(); m_nCurrentFetchState = SQL_SUCCESS; } void SAL_CALL OResultSet::afterLast( ) { ::osl::MutexGuard aGuard( m_aMutex ); checkDisposed(OResultSet_BASE::rBHelper.bDisposed); if(last()) next(); m_bEOF = true; } void SAL_CALL OResultSet::close( ) { { ::osl::MutexGuard aGuard( m_aMutex ); checkDisposed(OResultSet_BASE::rBHelper.bDisposed); } dispose(); } sal_Bool SAL_CALL OResultSet::first( ) { return moveImpl(IResultSetHelper::FIRST,0); } sal_Bool SAL_CALL OResultSet::last( ) { return moveImpl(IResultSetHelper::LAST,0); } sal_Bool SAL_CALL OResultSet::absolute( sal_Int32 row ) { return moveImpl(IResultSetHelper::ABSOLUTE1,row); } sal_Bool SAL_CALL OResultSet::relative( sal_Int32 row ) { return moveImpl(IResultSetHelper::RELATIVE1,row); } sal_Bool SAL_CALL OResultSet::previous( ) { return moveImpl(IResultSetHelper::PRIOR,0); } Reference< XInterface > SAL_CALL OResultSet::getStatement( ) { ::osl::MutexGuard aGuard( m_aMutex ); checkDisposed(OResultSet_BASE::rBHelper.bDisposed); return m_xStatement; } sal_Bool SAL_CALL OResultSet::rowDeleted() { ::osl::MutexGuard aGuard( m_aMutex ); checkDisposed(OResultSet_BASE::rBHelper.bDisposed); bool bRet = m_bRowDeleted; m_bRowDeleted = false; return bRet; } sal_Bool SAL_CALL OResultSet::rowInserted( ) { ::osl::MutexGuard aGuard( m_aMutex ); checkDisposed(OResultSet_BASE::rBHelper.bDisposed); bool bInserted = m_bRowInserted; m_bRowInserted = false; return bInserted; } sal_Bool SAL_CALL OResultSet::rowUpdated( ) { ::osl::MutexGuard aGuard( m_aMutex ); checkDisposed(OResultSet_BASE::rBHelper.bDisposed); return m_pRowStatusArray[0] == SQL_ROW_UPDATED; } sal_Bool SAL_CALL OResultSet::next( ) { return moveImpl(IResultSetHelper::NEXT,1); } sal_Bool SAL_CALL OResultSet::wasNull( ) { ::osl::MutexGuard aGuard( m_aMutex ); checkDisposed(OResultSet_BASE::rBHelper.bDisposed); return m_bWasNull; } void SAL_CALL OResultSet::cancel( ) { ::osl::MutexGuard aGuard( m_aMutex ); checkDisposed(OResultSet_BASE::rBHelper.bDisposed); functions().Cancel(m_aStatementHandle); } void SAL_CALL OResultSet::clearWarnings( ) { } Any SAL_CALL OResultSet::getWarnings( ) { return Any(); } void SAL_CALL OResultSet::insertRow( ) { ::osl::MutexGuard aGuard( m_aMutex ); checkDisposed(OResultSet_BASE::rBHelper.bDisposed); SQLLEN nRealLen = 0; Sequence<sal_Int8> aBookmark(nMaxBookmarkLen); static_assert(o3tl::make_unsigned(nMaxBookmarkLen) >= sizeof(SQLLEN), "must be larger"); SQLRETURN nRet = functions().BindCol(m_aStatementHandle, 0, SQL_C_VARBOOKMARK, aBookmark.getArray(), nMaxBookmarkLen, &nRealLen ); bool bPositionByBookmark = functions().has(ODBC3SQLFunctionId::BulkOperations); if ( bPositionByBookmark ) { nRet = functions().BulkOperations( m_aStatementHandle, SQL_ADD ); fillNeededData( nRet ); } else { if(isBeforeFirst()) next(); // must be done nRet = functions().SetPos( m_aStatementHandle, 1, SQL_ADD, SQL_LOCK_NO_CHANGE ); fillNeededData( nRet ); } aBookmark.realloc(nRealLen); SQLRETURN nRet2 = unbind(); OTools::ThrowException(m_pStatement->getOwnConnection(),nRet,m_aStatementHandle,SQL_HANDLE_STMT,*this); OTools::ThrowException(m_pStatement->getOwnConnection(),nRet2,m_aStatementHandle,SQL_HANDLE_STMT,*this); if ( bPositionByBookmark ) { setStmtOption<SQLLEN*, SQL_IS_POINTER>(SQL_ATTR_FETCH_BOOKMARK_PTR, reinterpret_cast<SQLLEN*>(aBookmark.getArray())); nRet = functions().FetchScroll(m_aStatementHandle,SQL_FETCH_BOOKMARK,0); } else nRet = functions().FetchScroll(m_aStatementHandle,SQL_FETCH_RELATIVE,0); // OJ 06.03.2004 // sometimes we got an error but we are not interested in anymore #106047# OJ // OTools::ThrowException(m_pStatement->getOwnConnection(),nRet,m_aStatementHandle,SQL_HANDLE_STMT,*this); if(m_pSkipDeletedSet) { if(moveToBookmark(Any(aBookmark))) { sal_Int32 nRowPos = getDriverPos(); if ( -1 == m_nRowPos ) { nRowPos = m_aPosToBookmarks.size() + 1; } if ( nRowPos == m_nRowPos ) ++nRowPos; m_nRowPos = nRowPos; m_pSkipDeletedSet->insertNewPosition(nRowPos); m_aPosToBookmarks[aBookmark] = nRowPos; } } m_bRowInserted = true; } void SAL_CALL OResultSet::updateRow( ) { ::osl::MutexGuard aGuard( m_aMutex ); checkDisposed(OResultSet_BASE::rBHelper.bDisposed); SQLRETURN nRet; try { /* tdf#148367 this block is commented out, because SQLBulkOperations fails with Access ODBC 64-bit drivers on Windows bool bPositionByBookmark = functions().has(ODBC3SQLFunctionId::BulkOperations); if ( bPositionByBookmark ) { getBookmark(); assert(m_aRow[0].isBound()); Sequence<sal_Int8> aBookmark(m_aRow[0].getSequence()); SQLLEN nRealLen = aBookmark.getLength(); nRet = functions().BindCol(m_aStatementHandle, 0, SQL_C_VARBOOKMARK, aBookmark.getArray(), aBookmark.getLength(), &nRealLen ); OTools::ThrowException(m_pStatement->getOwnConnection(),nRet,m_aStatementHandle,SQL_HANDLE_STMT,*this); nRet = functions().BulkOperations(m_aStatementHandle, SQL_UPDATE_BY_BOOKMARK); fillNeededData(nRet); // the driver should not have touched this // (neither the contents of aBookmark FWIW) assert(nRealLen == aBookmark.getLength()); } else */ { nRet = functions().SetPos(m_aStatementHandle,1,SQL_UPDATE,SQL_LOCK_NO_CHANGE); fillNeededData(nRet); } OTools::ThrowException(m_pStatement->getOwnConnection(),nRet,m_aStatementHandle,SQL_HANDLE_STMT,*this); // unbind all columns so we can fetch all columns again with SQLGetData // (and also so that our buffers don't clobber anything, and // so that a subsequent fetch does not overwrite m_aRow[0]) invalidateCache(); nRet = unbind(); OSL_ENSURE(nRet == SQL_SUCCESS,"ODBC insert could not unbind the columns after success"); } catch(...) { // unbind all columns so that a subsequent fetch does not overwrite m_aRow[0] nRet = unbind(); OSL_ENSURE(nRet == SQL_SUCCESS,"ODBC insert could not unbind the columns after failure"); throw; } } void SAL_CALL OResultSet::deleteRow( ) { SQLRETURN nRet = SQL_SUCCESS; sal_Int32 nPos = getDriverPos(); nRet = functions().SetPos(m_aStatementHandle,1,SQL_DELETE,SQL_LOCK_NO_CHANGE); OTools::ThrowException(m_pStatement->getOwnConnection(),nRet,m_aStatementHandle,SQL_HANDLE_STMT,*this); m_bRowDeleted = ( m_pRowStatusArray[0] == SQL_ROW_DELETED ); if ( m_bRowDeleted ) { TBookmarkPosMap::iterator aIter = std::find_if(m_aPosToBookmarks.begin(), m_aPosToBookmarks.end(), [&nPos](const TBookmarkPosMap::value_type& rEntry) { return rEntry.second == nPos; }); if (aIter != m_aPosToBookmarks.end()) m_aPosToBookmarks.erase(aIter); } if ( m_pSkipDeletedSet ) m_pSkipDeletedSet->deletePosition(nPos); } void SAL_CALL OResultSet::cancelRowUpdates( ) { } void SAL_CALL OResultSet::moveToInsertRow( ) { ::osl::MutexGuard aGuard( m_aMutex ); checkDisposed(OResultSet_BASE::rBHelper.bDisposed); invalidateCache(); // first unbound all columns OSL_VERIFY( unbind() == SQL_SUCCESS ); // SQLRETURN nRet = functions().SetStmtAttr(m_aStatementHandle,SQL_ATTR_ROW_ARRAY_SIZE ,(SQLPOINTER)1,SQL_IS_INTEGER); } void SAL_CALL OResultSet::moveToCurrentRow( ) { invalidateCache(); } void OResultSet::updateValue(sal_Int32 columnIndex, SQLSMALLINT _nType, void const * _pValue) { ::osl::MutexGuard aGuard( m_aMutex ); checkDisposed(OResultSet_BASE::rBHelper.bDisposed); SQLSMALLINT fCType, dummy; OTools::getBindTypes(m_pStatement->getOwnConnection()->useOldDateFormat(), _nType, fCType, dummy); SQLLEN* const pLen = &m_aLengthVector[columnIndex]; *pLen = 0; std::unique_ptr<BindData> bindData; void* pData = nullptr; if (columnIndex != 0 && !_pValue) { bindData = std::make_unique<NullBindData>(); } else { assert(_pValue); switch (_nType) { case SQL_CHAR: case SQL_VARCHAR: case SQL_WCHAR: case SQL_WVARCHAR: if (fCType == SQL_C_CHAR) bindData = std::make_unique<CharsBindData<SQLChars>>(_pValue, m_nTextEncoding); else bindData = std::make_unique<CharsBindData<SQLWChars>>(_pValue); break; case SQL_DECIMAL: case SQL_NUMERIC: if (fCType == SQL_C_CHAR) bindData = std::make_unique<CharsBindData<SQLChars>>( OString::number(*static_cast<const double*>(_pValue))); else bindData = std::make_unique<CharsBindData<SQLWChars>>( OUString::number(*static_cast<const double*>(_pValue))); break; case SQL_BIT: case SQL_TINYINT: bindData = std::make_unique<SimpleBindData<sal_Int8>>(_pValue); break; case SQL_SMALLINT: bindData = std::make_unique<SimpleBindData<sal_Int16>>(_pValue); break; case SQL_INTEGER: bindData = std::make_unique<SimpleBindData<sal_Int32>>(_pValue); break; case SQL_BIGINT: bindData = std::make_unique<SimpleBindData<sal_Int64>>(_pValue); break; case SQL_FLOAT: bindData = std::make_unique<SimpleBindData<float>>(_pValue); break; case SQL_REAL: case SQL_DOUBLE: bindData = std::make_unique<SimpleBindData<double>>(_pValue); break; case SQL_BINARY: case SQL_VARBINARY: bindData = std::make_unique<BinaryBindData>(_pValue); break; case SQL_LONGVARBINARY: { /* see https://msdn.microsoft.com/en-us/library/ms716238%28v=vs.85%29.aspx * for an explanation of that apparently weird cast */ pData = reinterpret_cast<void*>(static_cast<sal_uIntPtr>(columnIndex)); sal_Int32 nLen = static_cast<const css::uno::Sequence<sal_Int8>*>(_pValue)->getLength(); *pLen = SQL_LEN_DATA_AT_EXEC(nLen); } break; case SQL_LONGVARCHAR: case SQL_WLONGVARCHAR: { /* see https://msdn.microsoft.com/en-us/library/ms716238%28v=vs.85%29.aspx * for an explanation of that apparently weird cast */ pData = reinterpret_cast<void*>(static_cast<sal_uIntPtr>(columnIndex)); sal_Int32 nLen = static_cast<const OUString*>(_pValue)->getLength(); *pLen = SQL_LEN_DATA_AT_EXEC(nLen); } break; case SQL_DATE: bindData = std::make_unique<SimpleBindData<DATE_STRUCT>>(_pValue); break; case SQL_TIME: bindData = std::make_unique<SimpleBindData<TIME_STRUCT>>(_pValue); break; case SQL_TIMESTAMP: bindData = std::make_unique<SimpleBindData<TIMESTAMP_STRUCT>>(_pValue); break; } } if (bindData) { pData = bindData->data(); *pLen = bindData->len(); m_aBindVector.push_back(std::move(bindData)); } SQLRETURN nRetcode = functions().BindCol(m_aStatementHandle, columnIndex, fCType, pData, 0, pLen); OTools::ThrowException(m_pStatement->getOwnConnection(), nRetcode, m_aStatementHandle, SQL_HANDLE_STMT, **this); } void SAL_CALL OResultSet::updateNull( sal_Int32 columnIndex ) { updateValue(columnIndex, SQL_CHAR, nullptr); } void SAL_CALL OResultSet::updateBoolean( sal_Int32 columnIndex, sal_Bool x ) { updateValue(columnIndex,SQL_BIT,&x); } void SAL_CALL OResultSet::updateByte( sal_Int32 columnIndex, sal_Int8 x ) { updateValue(columnIndex,SQL_CHAR,&x); } void SAL_CALL OResultSet::updateShort( sal_Int32 columnIndex, sal_Int16 x ) { updateValue(columnIndex,SQL_TINYINT,&x); } void SAL_CALL OResultSet::updateInt( sal_Int32 columnIndex, sal_Int32 x ) { updateValue(columnIndex,SQL_INTEGER,&x); } void SAL_CALL OResultSet::updateLong( sal_Int32 /*columnIndex*/, sal_Int64 /*x*/ ) { ::dbtools::throwFunctionNotSupportedSQLException( u"XRowUpdate::updateLong"_ustr, *this ); } void SAL_CALL OResultSet::updateFloat( sal_Int32 columnIndex, float x ) { updateValue(columnIndex,SQL_REAL,&x); } void SAL_CALL OResultSet::updateDouble( sal_Int32 columnIndex, double x ) { updateValue(columnIndex,SQL_DOUBLE,&x); } void SAL_CALL OResultSet::updateString( sal_Int32 columnIndex, const OUString& x ) { sal_Int32 nType = m_aRow[columnIndex].getTypeKind(); SQLSMALLINT nOdbcType = OTools::jdbcTypeToOdbc(nType); m_aRow[columnIndex] = x; m_aRow[columnIndex].setTypeKind(nType); // OJ: otherwise longvarchar will be recognized by fillNeededData m_aRow[columnIndex].setBound(true); updateValue(columnIndex,nOdbcType, &x); } void SAL_CALL OResultSet::updateBytes( sal_Int32 columnIndex, const Sequence< sal_Int8 >& x ) { sal_Int32 nType = m_aRow[columnIndex].getTypeKind(); SQLSMALLINT nOdbcType = OTools::jdbcTypeToOdbc(nType); m_aRow[columnIndex] = x; m_aRow[columnIndex].setTypeKind(nType); // OJ: otherwise longvarbinary will be recognized by fillNeededData m_aRow[columnIndex].setBound(true); updateValue(columnIndex,nOdbcType, &x); } void SAL_CALL OResultSet::updateDate( sal_Int32 columnIndex, const Date& x ) { DATE_STRUCT aVal = OTools::DateToOdbcDate(x); updateValue(columnIndex,SQL_DATE,&aVal); } void SAL_CALL OResultSet::updateTime( sal_Int32 columnIndex, const css::util::Time& x ) { TIME_STRUCT aVal = OTools::TimeToOdbcTime(x); updateValue(columnIndex,SQL_TIME,&aVal); } void SAL_CALL OResultSet::updateTimestamp( sal_Int32 columnIndex, const DateTime& x ) { TIMESTAMP_STRUCT aVal = OTools::DateTimeToTimestamp(x); updateValue(columnIndex,SQL_TIMESTAMP,&aVal); } void SAL_CALL OResultSet::updateBinaryStream( sal_Int32 columnIndex, const Reference< XInputStream >& x, sal_Int32 length ) { if(!x.is()) ::dbtools::throwFunctionSequenceException(*this); Sequence<sal_Int8> aSeq; x->readBytes(aSeq,length); updateBytes(columnIndex,aSeq); } void SAL_CALL OResultSet::updateCharacterStream( sal_Int32 columnIndex, const Reference< XInputStream >& x, sal_Int32 length ) { updateBinaryStream(columnIndex,x,length); } void SAL_CALL OResultSet::refreshRow( ) { ::osl::MutexGuard aGuard( m_aMutex ); checkDisposed(OResultSet_BASE::rBHelper.bDisposed); // SQLRETURN nRet = functions().SetPos(m_aStatementHandle,1,SQL_REFRESH,SQL_LOCK_NO_CHANGE); m_nCurrentFetchState = functions().FetchScroll(m_aStatementHandle,SQL_FETCH_RELATIVE,0); OTools::ThrowException(m_pStatement->getOwnConnection(),m_nCurrentFetchState,m_aStatementHandle,SQL_HANDLE_STMT,*this); } void SAL_CALL OResultSet::updateObject( sal_Int32 columnIndex, const Any& x ) { if (!::dbtools::implUpdateObject(this, columnIndex, x)) throw SQLException(); } void SAL_CALL OResultSet::updateNumericObject( sal_Int32 columnIndex, const Any& x, sal_Int32 /*scale*/ ) { if (!::dbtools::implUpdateObject(this, columnIndex, x)) throw SQLException(); } // XRowLocate Any SAL_CALL OResultSet::getBookmark( ) { fillColumn(0); if(m_aRow[0].isNull()) throw SQLException(); return m_aRow[0].makeAny(); } Sequence<sal_Int8> OResultSet::impl_getBookmark( ) { checkDisposed(OResultSet_BASE::rBHelper.bDisposed); TBookmarkPosMap::const_iterator aFind = std::find_if(m_aPosToBookmarks.begin(),m_aPosToBookmarks.end(), [this] (const TBookmarkPosMap::value_type& bookmarkPos) { return bookmarkPos.second == m_nRowPos; }); if ( aFind == m_aPosToBookmarks.end() ) { if ( m_nUseBookmarks == ODBC_SQL_NOT_DEFINED ) { m_nUseBookmarks = getStmtOption<SQLULEN, SQL_IS_UINTEGER>(SQL_ATTR_USE_BOOKMARKS); } if(m_nUseBookmarks == SQL_UB_OFF) throw SQLException(); Sequence<sal_Int8> bookmark = OTools::getBytesValue(m_pStatement->getOwnConnection(),m_aStatementHandle,0,SQL_C_VARBOOKMARK,m_bWasNull,**this); m_aPosToBookmarks[bookmark] = m_nRowPos; OSL_ENSURE(bookmark.hasElements(),"Invalid bookmark from length 0!"); return bookmark; } else { return aFind->first; } } sal_Bool SAL_CALL OResultSet::moveToBookmark( const Any& bookmark ) { ::osl::MutexGuard aGuard( m_aMutex ); checkDisposed(OResultSet_BASE::rBHelper.bDisposed); invalidateCache(); Sequence<sal_Int8> aBookmark; bookmark >>= aBookmark; OSL_ENSURE(aBookmark.hasElements(),"Invalid bookmark from length 0!"); if(aBookmark.hasElements()) { SQLRETURN nReturn = setStmtOption<SQLLEN*, SQL_IS_POINTER>(SQL_ATTR_FETCH_BOOKMARK_PTR, reinterpret_cast<SQLLEN*>(aBookmark.getArray())); if ( SQL_INVALID_HANDLE != nReturn && SQL_ERROR != nReturn ) { m_nCurrentFetchState = functions().FetchScroll(m_aStatementHandle,SQL_FETCH_BOOKMARK,0); OTools::ThrowException(m_pStatement->getOwnConnection(),m_nCurrentFetchState,m_aStatementHandle,SQL_HANDLE_STMT,*this); TBookmarkPosMap::const_iterator aFind = m_aPosToBookmarks.find(aBookmark); if(aFind != m_aPosToBookmarks.end()) m_nRowPos = aFind->second; else m_nRowPos = -1; return m_nCurrentFetchState == SQL_SUCCESS || m_nCurrentFetchState == SQL_SUCCESS_WITH_INFO; } } return false; } sal_Bool SAL_CALL OResultSet::moveRelativeToBookmark( const Any& bookmark, sal_Int32 rows ) { ::osl::MutexGuard aGuard( m_aMutex ); checkDisposed(OResultSet_BASE::rBHelper.bDisposed); invalidateCache(); Sequence<sal_Int8> aBookmark; bookmark >>= aBookmark; setStmtOption<SQLLEN*, SQL_IS_POINTER>(SQL_ATTR_FETCH_BOOKMARK_PTR, reinterpret_cast<SQLLEN*>(aBookmark.getArray())); m_nCurrentFetchState = functions().FetchScroll(m_aStatementHandle,SQL_FETCH_BOOKMARK,rows); OTools::ThrowException(m_pStatement->getOwnConnection(),m_nCurrentFetchState,m_aStatementHandle,SQL_HANDLE_STMT,*this); return m_nCurrentFetchState == SQL_SUCCESS || m_nCurrentFetchState == SQL_SUCCESS_WITH_INFO; } sal_Int32 SAL_CALL OResultSet::compareBookmarks( const Any& lhs, const Any& rhs ) { ::osl::MutexGuard aGuard( m_aMutex ); checkDisposed(OResultSet_BASE::rBHelper.bDisposed); return (lhs == rhs) ? CompareBookmark::EQUAL : CompareBookmark::NOT_EQUAL; } sal_Bool SAL_CALL OResultSet::hasOrderedBookmarks( ) { return false; } sal_Int32 SAL_CALL OResultSet::hashBookmark( const Any& /*bookmark*/ ) { ::dbtools::throwFunctionNotSupportedSQLException( u"XRowLocate::hashBookmark"_ustr, *this ); } // XDeleteRows Sequence< sal_Int32 > SAL_CALL OResultSet::deleteRows( const Sequence< Any >& rows ) { Sequence< sal_Int32 > aRet(rows.getLength()); std::transform(rows.begin(), rows.end(), aRet.getArray(), [this](const Any& row) { try { if (moveToBookmark(row)) { deleteRow(); return 1; } } catch (const SQLException&) { } return 0; }); return aRet; } template < typename T, SQLINTEGER BufferLength > T OResultSet::getStmtOption (SQLINTEGER fOption) const { T result (0); OSL_ENSURE(m_aStatementHandle,"StatementHandle is null!"); functions().GetStmtAttr(m_aStatementHandle, fOption, &result, BufferLength, nullptr); return result; } template < typename T, SQLINTEGER BufferLength > SQLRETURN OResultSet::setStmtOption (SQLINTEGER fOption, T value) const { OSL_ENSURE(m_aStatementHandle,"StatementHandle is null!"); SQLPOINTER sv = reinterpret_cast<SQLPOINTER>(value); return functions().SetStmtAttr(m_aStatementHandle, fOption, sv, BufferLength); } sal_Int32 OResultSet::getResultSetConcurrency() const { sal_uInt32 nValue = getStmtOption<SQLULEN, SQL_IS_UINTEGER>(SQL_ATTR_CONCURRENCY); if(SQL_CONCUR_READ_ONLY == nValue) nValue = ResultSetConcurrency::READ_ONLY; else nValue = ResultSetConcurrency::UPDATABLE; return nValue; } sal_Int32 OResultSet::getResultSetType() const { sal_uInt32 nValue = getStmtOption<SQLULEN, SQL_IS_UINTEGER>(SQL_ATTR_CURSOR_SENSITIVITY); if(SQL_SENSITIVE == nValue) nValue = ResultSetType::SCROLL_SENSITIVE; else if(SQL_INSENSITIVE == nValue) nValue = ResultSetType::SCROLL_INSENSITIVE; else { SQLULEN nCurType = getStmtOption<SQLULEN, SQL_IS_UINTEGER>(SQL_ATTR_CURSOR_TYPE); if(SQL_CURSOR_KEYSET_DRIVEN == nCurType) nValue = ResultSetType::SCROLL_SENSITIVE; else if(SQL_CURSOR_STATIC == nCurType) nValue = ResultSetType::SCROLL_INSENSITIVE; else if(SQL_CURSOR_FORWARD_ONLY == nCurType) nValue = ResultSetType::FORWARD_ONLY; else if(SQL_CURSOR_DYNAMIC == nCurType) nValue = ResultSetType::SCROLL_SENSITIVE; } return nValue; } sal_Int32 OResultSet::getFetchSize() const { return getStmtOption<SQLULEN, SQL_IS_UINTEGER>(SQL_ATTR_ROW_ARRAY_SIZE); } OUString OResultSet::getCursorName() const { SQLSMALLINT nRealLen = 0; if (bUseWChar && functions().has(ODBC3SQLFunctionId::GetCursorNameW)) { SQLWCHAR pName[258]{}; functions().GetCursorNameW(m_aStatementHandle, pName, 256, &nRealLen); return toUString(pName, nRealLen); } else { SQLCHAR pName[258]{}; functions().GetCursorName(m_aStatementHandle, pName, 256, &nRealLen); return toUString(pName); } } bool OResultSet::isBookmarkable() const { if(!m_aConnectionHandle) return false; const SQLULEN nCursorType = getStmtOption<SQLULEN, SQL_IS_UINTEGER>(SQL_ATTR_CURSOR_TYPE); sal_Int32 nAttr = 0; try { switch(nCursorType) { case SQL_CURSOR_FORWARD_ONLY: return false; case SQL_CURSOR_STATIC: OTools::GetInfo(m_pStatement->getOwnConnection(),m_aConnectionHandle,SQL_STATIC_CURSOR_ATTRIBUTES1,nAttr,nullptr); break; case SQL_CURSOR_KEYSET_DRIVEN: OTools::GetInfo(m_pStatement->getOwnConnection(),m_aConnectionHandle,SQL_KEYSET_CURSOR_ATTRIBUTES1,nAttr,nullptr); break; case SQL_CURSOR_DYNAMIC: OTools::GetInfo(m_pStatement->getOwnConnection(),m_aConnectionHandle,SQL_DYNAMIC_CURSOR_ATTRIBUTES1,nAttr,nullptr); break; } } catch(const Exception&) { return false; } if ( m_nUseBookmarks == ODBC_SQL_NOT_DEFINED ) { m_nUseBookmarks = getStmtOption<SQLULEN, SQL_IS_UINTEGER>(SQL_ATTR_USE_BOOKMARKS); } return (m_nUseBookmarks != SQL_UB_OFF) && (nAttr & SQL_CA1_BOOKMARK) == SQL_CA1_BOOKMARK; } void OResultSet::setFetchDirection(sal_Int32 /*_par0*/) { ::dbtools::throwFunctionNotSupportedSQLException( u"setFetchDirection"_ustr, *this ); } void OResultSet::setFetchSize(sal_Int32 _par0) { OSL_ENSURE(_par0>0,"Illegal fetch size!"); if ( _par0 != 1 ) { throw css::beans::PropertyVetoException(u"SDBC/ODBC layer not prepared for fetchSize > 1"_ustr, *this); } setStmtOption<SQLULEN, SQL_IS_UINTEGER>(SQL_ATTR_ROW_ARRAY_SIZE, _par0); m_pRowStatusArray.reset( new SQLUSMALLINT[_par0] ); setStmtOption<SQLUSMALLINT*, SQL_IS_POINTER>(SQL_ATTR_ROW_STATUS_PTR, m_pRowStatusArray.get()); } IPropertyArrayHelper* OResultSet::createArrayHelper( ) const { return new OPropertyArrayHelper { { { ::connectivity::OMetaConnection::getPropMap().getNameByIndex(PROPERTY_ID_CURSORNAME), PROPERTY_ID_CURSORNAME, cppu::UnoType<OUString>::get(), PropertyAttribute::READONLY }, { ::connectivity::OMetaConnection::getPropMap().getNameByIndex(PROPERTY_ID_FETCHDIRECTION), PROPERTY_ID_FETCHDIRECTION, cppu::UnoType<sal_Int32>::get(), 0 }, { ::connectivity::OMetaConnection::getPropMap().getNameByIndex(PROPERTY_ID_FETCHSIZE), PROPERTY_ID_FETCHSIZE, cppu::UnoType<sal_Int32>::get(), 0 }, { ::connectivity::OMetaConnection::getPropMap().getNameByIndex(PROPERTY_ID_ISBOOKMARKABLE), PROPERTY_ID_ISBOOKMARKABLE, cppu::UnoType<bool>::get(), PropertyAttribute::READONLY }, { ::connectivity::OMetaConnection::getPropMap().getNameByIndex(PROPERTY_ID_RESULTSETCONCURRENCY), PROPERTY_ID_RESULTSETCONCURRENCY, cppu::UnoType<sal_Int32>::get(), PropertyAttribute::READONLY }, { ::connectivity::OMetaConnection::getPropMap().getNameByIndex(PROPERTY_ID_RESULTSETTYPE), PROPERTY_ID_RESULTSETTYPE, cppu::UnoType<sal_Int32>::get(), PropertyAttribute::READONLY } } }; } IPropertyArrayHelper & OResultSet::getInfoHelper() { return *getArrayHelper(); } sal_Bool OResultSet::convertFastPropertyValue( Any & rConvertedValue, Any & rOldValue, sal_Int32 nHandle, const Any& rValue ) { switch(nHandle) { case PROPERTY_ID_ISBOOKMARKABLE: case PROPERTY_ID_CURSORNAME: case PROPERTY_ID_RESULTSETCONCURRENCY: case PROPERTY_ID_RESULTSETTYPE: throw css::lang::IllegalArgumentException(); case PROPERTY_ID_FETCHDIRECTION: return ::comphelper::tryPropertyValue(rConvertedValue, rOldValue, rValue, getFetchDirection()); case PROPERTY_ID_FETCHSIZE: return ::comphelper::tryPropertyValue(rConvertedValue, rOldValue, rValue, getFetchSize()); default: ; } return false; } void OResultSet::setFastPropertyValue_NoBroadcast( sal_Int32 nHandle, const Any& rValue ) { switch(nHandle) { case PROPERTY_ID_ISBOOKMARKABLE: case PROPERTY_ID_CURSORNAME: case PROPERTY_ID_RESULTSETCONCURRENCY: case PROPERTY_ID_RESULTSETTYPE: throw Exception("cannot set prop " + OUString::number(nHandle), nullptr); case PROPERTY_ID_FETCHDIRECTION: setFetchDirection(getINT32(rValue)); break; case PROPERTY_ID_FETCHSIZE: setFetchSize(getINT32(rValue)); break; default: ; } } void OResultSet::getFastPropertyValue( Any& rValue, sal_Int32 nHandle ) const { switch(nHandle) { case PROPERTY_ID_ISBOOKMARKABLE: rValue <<= isBookmarkable(); break; case PROPERTY_ID_CURSORNAME: rValue <<= getCursorName(); break; case PROPERTY_ID_RESULTSETCONCURRENCY: rValue <<= getResultSetConcurrency(); break; case PROPERTY_ID_RESULTSETTYPE: rValue <<= getResultSetType(); break; case PROPERTY_ID_FETCHDIRECTION: rValue <<= getFetchDirection(); break; case PROPERTY_ID_FETCHSIZE: rValue <<= getFetchSize(); break; } } void OResultSet::fillColumn(const sal_Int32 _nColumn) { ensureCacheForColumn(_nColumn); if (m_aRow[_nColumn].isBound()) return; sal_Int32 curCol; if(m_bFetchDataInOrder) { // m_aRow necessarily has a prefix of bound values, then all unbound values // EXCEPT for column 0 // so use binary search to find the earliest unbound value before or at _nColumn sal_Int32 lower=0; sal_Int32 upper=_nColumn; while (lower < upper) { const sal_Int32 middle=(upper-lower)/2 + lower; if(m_aRow[middle].isBound()) { lower=middle+1; } else { upper=middle; } } curCol = upper; } else { curCol = _nColumn; } TDataRow::iterator pColumn = m_aRow.begin() + curCol; const TDataRow::const_iterator pColumnEnd = m_aRow.begin() + _nColumn + 1; if(curCol==0) { try { *pColumn=impl_getBookmark(); } catch (SQLException &) { pColumn->setNull(); } pColumn->setBound(true); ++curCol; ++pColumn; } for (; pColumn != pColumnEnd; ++curCol, ++pColumn) { const sal_Int32 nType = pColumn->getTypeKind(); switch (nType) { case DataType::CHAR: case DataType::VARCHAR: case DataType::DECIMAL: case DataType::NUMERIC: case DataType::LONGVARCHAR: case DataType::CLOB: *pColumn=impl_getString(curCol); break; case DataType::FLOAT: *pColumn = impl_getValue<float>(curCol, SQL_C_FLOAT); break; case DataType::REAL: case DataType::DOUBLE: *pColumn = impl_getValue<double>(curCol, SQL_C_DOUBLE); break; case DataType::BINARY: case DataType::VARBINARY: case DataType::LONGVARBINARY: case DataType::BLOB: *pColumn = impl_getBytes(curCol); break; case DataType::DATE: *pColumn = impl_getDate(curCol); break; case DataType::TIME: *pColumn = impl_getTime(curCol); break; case DataType::TIMESTAMP: *pColumn = impl_getTimestamp(curCol); break; case DataType::BIT: *pColumn = impl_getBoolean(curCol); break; case DataType::TINYINT: *pColumn = impl_getValue<sal_Int8>(curCol, SQL_C_TINYINT); break; case DataType::SMALLINT: *pColumn = impl_getValue<sal_Int16>(curCol, SQL_C_SHORT); break; case DataType::INTEGER: *pColumn = impl_getValue<sal_Int32>(curCol, SQL_C_LONG); break; case DataType::BIGINT: *pColumn = impl_getLong(curCol); break; default: SAL_WARN( "connectivity.odbc","Unknown DataType"); } if ( m_bWasNull ) pColumn->setNull(); pColumn->setBound(true); if(nType != pColumn->getTypeKind()) { pColumn->setTypeKind(nType); } } } void SAL_CALL OResultSet::acquire() noexcept { OResultSet_BASE::acquire(); } void SAL_CALL OResultSet::release() noexcept { OResultSet_BASE::release(); } css::uno::Reference< css::beans::XPropertySetInfo > SAL_CALL OResultSet::getPropertySetInfo( ) { return ::cppu::OPropertySetHelper::createPropertySetInfo(getInfoHelper()); } bool OResultSet::move(IResultSetHelper::Movement _eCursorPosition, sal_Int32 _nOffset, bool /*_bRetrieveData*/) { SQLSMALLINT nFetchOrientation = SQL_FETCH_NEXT; switch(_eCursorPosition) { case IResultSetHelper::NEXT: nFetchOrientation = SQL_FETCH_NEXT; break; case IResultSetHelper::PRIOR: nFetchOrientation = SQL_FETCH_PRIOR; break; case IResultSetHelper::FIRST: nFetchOrientation = SQL_FETCH_FIRST; break; case IResultSetHelper::LAST: nFetchOrientation = SQL_FETCH_LAST; break; case IResultSetHelper::RELATIVE1: nFetchOrientation = SQL_FETCH_RELATIVE; break; case IResultSetHelper::ABSOLUTE1: nFetchOrientation = SQL_FETCH_ABSOLUTE; break; case IResultSetHelper::BOOKMARK: // special case here because we are only called with position numbers { TBookmarkPosMap::const_iterator aIter = std::find_if(m_aPosToBookmarks.begin(), m_aPosToBookmarks.end(), [&_nOffset](const TBookmarkPosMap::value_type& rEntry) { return rEntry.second == _nOffset; }); if (aIter != m_aPosToBookmarks.end()) return moveToBookmark(Any(aIter->first)); SAL_WARN( "connectivity.odbc", "Bookmark not found!"); } return false; } m_bEOF = false; invalidateCache(); SQLRETURN nOldFetchStatus = m_nCurrentFetchState; // TODO FIXME: both of these will misbehave for // _eCursorPosition == IResultSetHelper::NEXT/PREVIOUS // when fetchSize > 1 if ( !m_bUseFetchScroll && _eCursorPosition == IResultSetHelper::NEXT ) m_nCurrentFetchState = functions().Fetch(m_aStatementHandle); else m_nCurrentFetchState = functions().FetchScroll(m_aStatementHandle,nFetchOrientation,_nOffset); SAL_INFO( "connectivity.odbc", "move(" << nFetchOrientation << "," << _nOffset << "), FetchState = " << m_nCurrentFetchState); OTools::ThrowException(m_pStatement->getOwnConnection(),m_nCurrentFetchState,m_aStatementHandle,SQL_HANDLE_STMT,*this); const bool bSuccess = m_nCurrentFetchState == SQL_SUCCESS || m_nCurrentFetchState == SQL_SUCCESS_WITH_INFO; if ( bSuccess ) { switch(_eCursorPosition) { case IResultSetHelper::NEXT: ++m_nRowPos; break; case IResultSetHelper::PRIOR: --m_nRowPos; break; case IResultSetHelper::FIRST: m_nRowPos = 1; break; case IResultSetHelper::LAST: m_bEOF = true; break; case IResultSetHelper::RELATIVE1: m_nRowPos += _nOffset; break; case IResultSetHelper::ABSOLUTE1: case IResultSetHelper::BOOKMARK: // special case here because we are only called with position numbers m_nRowPos = _nOffset; break; } // switch(_eCursorPosition) if ( m_nUseBookmarks == ODBC_SQL_NOT_DEFINED ) { m_nUseBookmarks = getStmtOption<SQLULEN, SQL_IS_UINTEGER>(SQL_ATTR_USE_BOOKMARKS); } if ( m_nUseBookmarks == SQL_UB_OFF ) { m_aRow[0].setNull(); } else { ensureCacheForColumn(0); Sequence<sal_Int8> bookmark = OTools::getBytesValue(m_pStatement->getOwnConnection(),m_aStatementHandle,0,SQL_C_VARBOOKMARK,m_bWasNull,**this); m_aPosToBookmarks[bookmark] = m_nRowPos; OSL_ENSURE(bookmark.hasElements(),"Invalid bookmark from length 0!"); m_aRow[0] = bookmark; } m_aRow[0].setBound(true); } else if ( IResultSetHelper::PRIOR == _eCursorPosition && m_nCurrentFetchState == SQL_NO_DATA ) // we went beforeFirst m_nRowPos = 0; else if(IResultSetHelper::NEXT == _eCursorPosition && m_nCurrentFetchState == SQL_NO_DATA && nOldFetchStatus != SQL_NO_DATA) // we went afterLast ++m_nRowPos; return bSuccess; } sal_Int32 OResultSet::getDriverPos() const { sal_Int32 nValue = getStmtOption<SQLULEN, SQL_IS_UINTEGER>(SQL_ATTR_ROW_NUMBER); SAL_INFO( "connectivity.odbc", "RowNum = " << nValue << ", RowPos = " << m_nRowPos); return nValue ? nValue : m_nRowPos; } bool OResultSet::isRowDeleted() const { return m_pRowStatusArray[0] == SQL_ROW_DELETED; } bool OResultSet::moveImpl(IResultSetHelper::Movement _eCursorPosition, sal_Int32 _nOffset) { ::osl::MutexGuard aGuard( m_aMutex ); checkDisposed(OResultSet_BASE::rBHelper.bDisposed); return (m_pSkipDeletedSet != nullptr) ? m_pSkipDeletedSet->skipDeleted(_eCursorPosition,_nOffset,true/*_bRetrieveData*/) : move(_eCursorPosition,_nOffset,true/*_bRetrieveData*/); } void OResultSet::fillNeededData(SQLRETURN _nRet) { SQLRETURN nRet = _nRet; if( nRet != SQL_NEED_DATA) return; void* pColumnIndex = nullptr; nRet = functions().ParamData(m_aStatementHandle,&pColumnIndex); do { if (nRet != SQL_SUCCESS && nRet != SQL_SUCCESS_WITH_INFO && nRet != SQL_NEED_DATA) break; sal_IntPtr nColumnIndex ( reinterpret_cast<sal_IntPtr>(pColumnIndex)); Sequence< sal_Int8 > aSeq; switch(m_aRow[nColumnIndex].getTypeKind()) { case DataType::BINARY: case DataType::VARBINARY: case DataType::LONGVARBINARY: case DataType::BLOB: aSeq = m_aRow[nColumnIndex].getSequence(); functions().PutData (m_aStatementHandle, aSeq.getArray(), aSeq.getLength()); break; case SQL_WLONGVARCHAR: { SQLWChars data(m_aRow[nColumnIndex].getString()); functions().PutData(m_aStatementHandle, data.get(), data.cb()); break; } case DataType::LONGVARCHAR: case DataType::CLOB: { SQLChars data(m_aRow[nColumnIndex].getString(), m_nTextEncoding); functions().PutData(m_aStatementHandle, data.get(), data.cb()); break; } default: SAL_WARN( "connectivity.odbc", "Not supported at the moment!"); } nRet = functions().ParamData(m_aStatementHandle,&pColumnIndex); } while (nRet == SQL_NEED_DATA); } SWORD OResultSet::impl_getColumnType_nothrow(sal_Int32 columnIndex) { std::map<sal_Int32,SWORD>::const_iterator aFind = m_aODBCColumnTypes.find(columnIndex); if ( aFind == m_aODBCColumnTypes.end() ) aFind = m_aODBCColumnTypes.emplace( columnIndex, OResultSetMetaData::getColumnODBCType(m_pStatement->getOwnConnection(),m_aStatementHandle,*this,columnIndex) ).first; return aFind->second; } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */

↑ V522 Dereferencing of the null pointer 'static_cast< const double * > (_pValue)' might take place. The null pointer is passed into 'updateValue' function. Inspect the third argument. Check lines: 972, 1048.