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|
/* -*- 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 <string.h>
#include <osl/diagnose.h>
#include "odbc/OPreparedStatement.hxx"
#include "odbc/OBoundParam.hxx"
#include <com/sun/star/sdbc/DataType.hpp>
#include "odbc/OTools.hxx"
#include "odbc/ODriver.hxx"
#include "odbc/OResultSet.hxx"
#include "odbc/OResultSetMetaData.hxx"
#include <cppuhelper/typeprovider.hxx>
#include <comphelper/processfactory.hxx>
#include <comphelper/sequence.hxx>
#include <com/sun/star/lang/DisposedException.hpp>
#include <connectivity/dbtools.hxx>
#include <comphelper/types.hxx>
#include <connectivity/FValue.hxx>
#include "resource/common_res.hrc"
#include <connectivity/sqlparse.hxx>
#include <memory>
#include <boost/type_traits/remove_reference.hpp>
#include <boost/type_traits/is_same.hpp>
using namespace ::comphelper;
using namespace connectivity;
using namespace connectivity::odbc;
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;
IMPLEMENT_SERVICE_INFO(OPreparedStatement,"com.sun.star.sdbcx.OPreparedStatement","com.sun.star.sdbc.PreparedStatement");
namespace
{
// for now, never use wchar,
// but most of code is prepared to handle it
// in case we make this configurable
const bool useWChar = false;
}
OPreparedStatement::OPreparedStatement( OConnection* _pConnection,const OUString& sql)
:OStatement_BASE2(_pConnection)
,numParams(0)
,boundParams(NULL)
,m_bPrepared(false)
{
m_sSqlStatement = sql;
try
{
if(_pConnection->isParameterSubstitutionEnabled())
{
OSQLParser aParser( comphelper::getComponentContext(_pConnection->getDriver()->getORB()) );
OUString sErrorMessage;
OUString sNewSql;
std::unique_ptr<OSQLParseNode> pNode( aParser.parseTree(sErrorMessage,sql) );
if ( pNode.get() )
{ // special handling for parameters
OSQLParseNode::substituteParameterNames(pNode.get());
pNode->parseNodeToStr( sNewSql, _pConnection );
m_sSqlStatement = sNewSql;
}
}
}
catch(Exception&)
{
}
}
void SAL_CALL OPreparedStatement::acquire() throw()
{
OStatement_BASE2::acquire();
}
void SAL_CALL OPreparedStatement::release() throw()
{
OStatement_BASE2::release();
}
Any SAL_CALL OPreparedStatement::queryInterface( const Type & rType ) throw(RuntimeException, std::exception)
{
Any aRet = OStatement_BASE2::queryInterface(rType);
return aRet.hasValue() ? aRet : OPreparedStatement_BASE::queryInterface(rType);
}
::com::sun::star::uno::Sequence< ::com::sun::star::uno::Type > SAL_CALL OPreparedStatement::getTypes( ) throw(::com::sun::star::uno::RuntimeException, std::exception)
{
return ::comphelper::concatSequences(OPreparedStatement_BASE::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);
prepareStatement();
OSL_ENSURE(m_aStatementHandle,"StatementHandle is null!");
if(!m_xMetaData.is())
m_xMetaData = new OResultSetMetaData(getOwnConnection(),m_aStatementHandle);
return m_xMetaData;
}
void SAL_CALL OPreparedStatement::close( ) throw(SQLException, RuntimeException, std::exception)
{
::osl::MutexGuard aGuard( m_aMutex );
checkDisposed(OStatement_BASE::rBHelper.bDisposed);
// Close/clear our result set
clearMyResultSet ();
// Reset last warning message
try {
clearWarnings ();
OStatement_BASE2::close();
FreeParams();
}
catch (SQLException &) {
// If we get an error, ignore
}
// Remove this Statement object from the Connection object's
// list
}
sal_Bool SAL_CALL OPreparedStatement::execute( ) throw(SQLException, RuntimeException, std::exception)
{
::osl::MutexGuard aGuard( m_aMutex );
checkDisposed(OStatement_BASE::rBHelper.bDisposed);
// Reset warnings
clearWarnings ();
// Reset the statement handle, warning and saved Resultset
reset();
// Call SQLExecute
prepareStatement();
OSL_ENSURE(m_aStatementHandle,"StatementHandle is null!");
try
{
SQLRETURN nReturn = N3SQLExecute(m_aStatementHandle);
OTools::ThrowException(m_pConnection,nReturn,m_aStatementHandle,SQL_HANDLE_STMT,*this);
bool needData = nReturn == SQL_NEED_DATA;
// Now loop while more data is needed (i.e. a data-at-
// execution parameter was given). For each parameter
// that needs data, put the data from the input stream.
while (needData) {
// Get the parameter number that requires data
sal_Int32* paramIndex = 0;
N3SQLParamData(m_aStatementHandle, reinterpret_cast<SQLPOINTER*>(¶mIndex));
// If the parameter index is -1, there is no
// more data required
if ( !paramIndex || ( *paramIndex == -1 ) )
needData = false;
else
{
// Now we have the proper parameter
// index, get the data from the input
// stream and do a SQLPutData
putParamData (*paramIndex);
}
}
}
catch (const SQLWarning&)
{
}
// Now determine if there is a result set associated with
// the SQL statement that was executed. Get the column
// count, and if it is not zero, there is a result set.
return getColumnCount() > 0;
}
sal_Int32 SAL_CALL OPreparedStatement::executeUpdate( ) throw(SQLException, RuntimeException, std::exception)
{
::osl::MutexGuard aGuard( m_aMutex );
checkDisposed(OStatement_BASE::rBHelper.bDisposed);
sal_Int32 numRows = -1;
prepareStatement();
// Execute the statement. If execute returns sal_False, a
// row count exists.
if (!execute())
numRows = getUpdateCount ();
else
{
// No update count was produced (a ResultSet was). Raise
// an exception
m_pConnection->throwGenericSQLException(STR_NO_ROWCOUNT,*this);
}
return numRows;
}
void SAL_CALL OPreparedStatement::setString( sal_Int32 parameterIndex, const OUString& x ) throw(SQLException, RuntimeException, std::exception)
{
setParameter(parameterIndex, DataType::CHAR, invalid_scale, 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);
Reference< XResultSet > rs = NULL;
prepareStatement();
if (execute())
rs = getResultSet(false);
else
{
// No ResultSet was produced. Raise an exception
m_pConnection->throwGenericSQLException(STR_NO_RESULTSET,*this);
}
return rs;
}
void SAL_CALL OPreparedStatement::setBoolean( sal_Int32 parameterIndex, sal_Bool x ) throw(SQLException, RuntimeException, std::exception)
{
// Set the parameter as if it were an integer
setInt (parameterIndex, x ? 1 : 0 );
}
// The MutexGuard must _already_ be taken!
void OPreparedStatement::setParameterPre(sal_Int32 parameterIndex)
{
checkDisposed(OStatement_BASE::rBHelper.bDisposed);
prepareStatement();
checkParameterIndex(parameterIndex);
OSL_ENSURE(m_aStatementHandle,"StatementHandle is null!");
}
template <typename T> void OPreparedStatement::setScalarParameter(const sal_Int32 parameterIndex, const sal_Int32 i_nType, const SQLULEN i_nColSize, const T i_Value)
{
::osl::MutexGuard aGuard( m_aMutex );
setParameterPre(parameterIndex);
typedef typename boost::remove_reference< T >::type TnoRef;
TnoRef *bindBuf = static_cast< TnoRef* >( allocBindBuf(parameterIndex, sizeof(i_Value)) );
*bindBuf = i_Value;
setParameter(parameterIndex, i_nType, i_nColSize, invalid_scale, bindBuf, sizeof(i_Value), sizeof(i_Value));
}
void OPreparedStatement::setParameter(const sal_Int32 parameterIndex, const sal_Int32 _nType, const sal_Int16 _nScale, const OUString &_sData)
{
::osl::MutexGuard aGuard( m_aMutex );
setParameterPre(parameterIndex);
assert (_nType == DataType::VARCHAR || _nType == DataType::CHAR || _nType == DataType::DECIMAL || _nType == DataType::NUMERIC);
sal_Int32 nCharLen;
sal_Int32 nByteLen;
void *pData;
if (useWChar)
{
/*
* On Windows, wchar is 16 bits (UTF-16 encoding), the ODBC "W" variants functions take UTF-16 encoded strings
* and character lengths are number of UTF-16 codepoints.
* Reference: http://msdn.microsoft.com/en-us/library/windows/desktop/ms716246%28v=vs.85%29.aspx
* ODBC Programmer's reference > Developing Applications > Programming Considerations > Unicode > Unicode Function Arguments
* http://support.microsoft.com/kb/294169
*
* UnixODBC can be configured at compile-time so that the "W" variants expect
* UTF-16 or UTF-32 encoded strings, and character lengths are number of codepoints.
* However, UTF-16 is the default, what all/most distributions do
* and the established API that most drivers implement.
* As wchar is often 32 bits, this differs from C-style strings of wchar!
*
* On MacOS X, the "W" variants use wchar_t, which is UCS4
*
* Our internal OUString storage is always UTF-16, so no conversion to do here.
*/
static_assert(sizeof (SQLWCHAR) == 2 || sizeof (SQLWCHAR) == 4, "must be 2 or 4");
if (sizeof (SQLWCHAR) == 2)
{
nCharLen = _sData.getLength();
nByteLen = 2 * nCharLen;
pData = allocBindBuf(parameterIndex, nByteLen);
memcpy(pData, _sData.getStr(), nByteLen);
}
else
{
pData = allocBindBuf(parameterIndex, _sData.getLength() * 4);
sal_uInt32* pCursor = static_cast<sal_uInt32*>(pData);
nCharLen = 0;
for (sal_Int32 i = 0; i != _sData.getLength();)
{
*pCursor++ = _sData.iterateCodePoints(&i);
nCharLen += 1;
}
nByteLen = 4 * nCharLen;
}
}
else
{
assert(getOwnConnection()->getTextEncoding() != RTL_TEXTENCODING_UCS2 &&
getOwnConnection()->getTextEncoding() != RTL_TEXTENCODING_UCS4);
OString sOData(
OUStringToOString(_sData, getOwnConnection()->getTextEncoding()));
nCharLen = nByteLen = sOData.getLength();
pData = allocBindBuf(parameterIndex, nByteLen);
memcpy(pData, sOData.getStr(), nByteLen);
}
setParameter( parameterIndex, _nType, nCharLen, _nScale, pData, nByteLen, nByteLen );
}
void OPreparedStatement::setParameter(const sal_Int32 parameterIndex, const sal_Int32 _nType, const Sequence< sal_Int8 > &x)
{
::osl::MutexGuard aGuard( m_aMutex );
setParameterPre(parameterIndex);
assert(_nType == DataType::BINARY || _nType == DataType::VARBINARY);
// don't copy the sequence, just point the ODBC directly at the sequence's storage array
// Why BINARY/Sequence is treated differently than strings (which are copied), I'm not sure
OSL_VERIFY(allocBindBuf(parameterIndex, 0) == NULL);
boundParams[parameterIndex-1].setSequence(x); // this ensures that the sequence stays alive
setParameter( parameterIndex, _nType, x.getLength(), invalid_scale, x.getConstArray(), x.getLength(), x.getLength() );
}
void OPreparedStatement::setParameter(const sal_Int32 parameterIndex, const sal_Int32 _nType, const SQLULEN _nColumnSize, const sal_Int32 _nScale, const void* const _pData, const SQLULEN _nDataLen, const SQLLEN _nDataAllocLen)
{
SQLSMALLINT fCType, fSqlType;
OTools::getBindTypes(useWChar, m_pConnection->useOldDateFormat(), OTools::jdbcTypeToOdbc(_nType), fCType, fSqlType);
SQLLEN& rDataLen = boundParams[parameterIndex-1].getBindLengthBuffer();
rDataLen = _nDataLen;
SQLRETURN nRetcode;
nRetcode = (*reinterpret_cast<T3SQLBindParameter>(m_pConnection->getOdbcFunction(ODBC3SQLFunctionId::BindParameter)))(
m_aStatementHandle,
// checkParameterIndex guarantees this is safe
static_cast<SQLUSMALLINT>(parameterIndex),
SQL_PARAM_INPUT,
fCType,
fSqlType,
_nColumnSize,
_nScale,
// we trust the ODBC driver not to touch it because SQL_PARAM_INPUT
const_cast<void*>(_pData),
_nDataAllocLen,
&rDataLen);
OTools::ThrowException(m_pConnection, nRetcode, m_aStatementHandle, SQL_HANDLE_STMT, *this);
}
void SAL_CALL OPreparedStatement::setByte( const sal_Int32 parameterIndex, const sal_Int8 x ) throw(SQLException, RuntimeException, std::exception)
{
setScalarParameter(parameterIndex, DataType::TINYINT, 3, x);
}
void SAL_CALL OPreparedStatement::setDate( sal_Int32 parameterIndex, const Date& aData ) throw(SQLException, RuntimeException, std::exception)
{
DATE_STRUCT x(OTools::DateToOdbcDate(aData));
setScalarParameter<DATE_STRUCT&>(parameterIndex, DataType::DATE, 10, x);
}
void SAL_CALL OPreparedStatement::setTime( sal_Int32 parameterIndex, const css::util::Time& aVal ) throw(SQLException, RuntimeException, std::exception)
{
SQLULEN nColSize;
if(aVal.NanoSeconds == 0)
nColSize = 8;
else if(aVal.NanoSeconds % 100000000 == 0)
nColSize = 10;
else if(aVal.NanoSeconds % 10000000 == 0)
nColSize = 11;
else if(aVal.NanoSeconds % 1000000 == 0)
nColSize = 12;
else if(aVal.NanoSeconds % 100000 == 0)
nColSize = 13;
else if(aVal.NanoSeconds % 10000 == 0)
nColSize = 14;
else if(aVal.NanoSeconds % 1000 == 0)
nColSize = 15;
else if(aVal.NanoSeconds % 100 == 0)
nColSize = 16;
else if(aVal.NanoSeconds % 10 == 0)
nColSize = 17;
else
nColSize = 18;
TIME_STRUCT x(OTools::TimeToOdbcTime(aVal));
setScalarParameter<TIME_STRUCT&>(parameterIndex, DataType::TIME, nColSize, x);
}
void SAL_CALL OPreparedStatement::setTimestamp( sal_Int32 parameterIndex, const DateTime& aVal ) throw(SQLException, RuntimeException, std::exception)
{
SQLULEN nColSize;
if(aVal.NanoSeconds == 0)
{
if (aVal.Seconds == 0)
nColSize=16;
else
nColSize=19;
}
else if(aVal.NanoSeconds % 100000000 == 0)
nColSize = 21;
else if(aVal.NanoSeconds % 10000000 == 0)
nColSize = 22;
else if(aVal.NanoSeconds % 1000000 == 0)
nColSize = 23;
else if(aVal.NanoSeconds % 100000 == 0)
nColSize = 24;
else if(aVal.NanoSeconds % 10000 == 0)
nColSize = 25;
else if(aVal.NanoSeconds % 1000 == 0)
nColSize = 26;
else if(aVal.NanoSeconds % 100 == 0)
nColSize = 27;
else if(aVal.NanoSeconds % 10 == 0)
nColSize = 28;
else
nColSize = 29;
TIMESTAMP_STRUCT x(OTools::DateTimeToTimestamp(aVal));
setScalarParameter<TIMESTAMP_STRUCT&>(parameterIndex, DataType::TIMESTAMP, nColSize, x);
}
void SAL_CALL OPreparedStatement::setDouble( sal_Int32 parameterIndex, double x ) throw(SQLException, RuntimeException, std::exception)
{
setScalarParameter(parameterIndex, DataType::DOUBLE, 15, x);
}
void SAL_CALL OPreparedStatement::setFloat( sal_Int32 parameterIndex, float x ) throw(SQLException, RuntimeException, std::exception)
{
setScalarParameter(parameterIndex, DataType::FLOAT, 15, x);
}
void SAL_CALL OPreparedStatement::setInt( sal_Int32 parameterIndex, sal_Int32 x ) throw(SQLException, RuntimeException, std::exception)
{
setScalarParameter(parameterIndex, DataType::INTEGER, 10, x);
}
void SAL_CALL OPreparedStatement::setLong( sal_Int32 parameterIndex, sal_Int64 x ) throw(SQLException, RuntimeException, std::exception)
{
try
{
setScalarParameter(parameterIndex, DataType::BIGINT, 19, x);
}
catch(SQLException&)
{
setString(parameterIndex, ORowSetValue(x));
}
}
void SAL_CALL OPreparedStatement::setNull( sal_Int32 parameterIndex, const sal_Int32 _nType ) throw(SQLException, RuntimeException, std::exception)
{
::osl::MutexGuard aGuard( m_aMutex );
setParameterPre(parameterIndex);
OSL_VERIFY(allocBindBuf(parameterIndex, 0) == NULL);
SQLLEN * const lenBuf = getLengthBuf (parameterIndex);
*lenBuf = SQL_NULL_DATA;
SQLSMALLINT fCType;
SQLSMALLINT fSqlType;
OTools::getBindTypes( useWChar,
m_pConnection->useOldDateFormat(),
OTools::jdbcTypeToOdbc(_nType),
fCType,
fSqlType);
SQLRETURN nReturn = N3SQLBindParameter( m_aStatementHandle,
static_cast<SQLUSMALLINT>(parameterIndex),
SQL_PARAM_INPUT,
fCType,
fSqlType,
0,
0,
NULL,
0,
lenBuf
);
OTools::ThrowException(m_pConnection,nReturn,m_aStatementHandle,SQL_HANDLE_STMT,*this);
}
void SAL_CALL OPreparedStatement::setClob( sal_Int32 parameterIndex, const Reference< XClob >& x ) throw(SQLException, RuntimeException, std::exception)
{
if ( x.is() )
setStream(parameterIndex, x->getCharacterStream(), x->length(), DataType::LONGVARCHAR);
}
void SAL_CALL OPreparedStatement::setBlob( sal_Int32 parameterIndex, const Reference< XBlob >& x ) throw(SQLException, RuntimeException, std::exception)
{
if ( x.is() )
setStream(parameterIndex, x->getBinaryStream(), x->length(), DataType::LONGVARBINARY);
}
void SAL_CALL OPreparedStatement::setArray( sal_Int32 /*parameterIndex*/, const Reference< XArray >& /*x*/ ) throw(SQLException, RuntimeException, std::exception)
{
::dbtools::throwFunctionNotSupportedSQLException( "XParameters::setArray", *this );
}
void SAL_CALL OPreparedStatement::setRef( sal_Int32 /*parameterIndex*/, const Reference< XRef >& /*x*/ ) throw(SQLException, RuntimeException, std::exception)
{
::dbtools::throwFunctionNotSupportedSQLException( "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)
{
checkDisposed(OStatement_BASE::rBHelper.bDisposed);
::osl::MutexGuard aGuard( m_aMutex );
prepareStatement();
// For each known SQL Type, call the appropriate
// set routine
switch (sqlType)
{
case DataType::CHAR:
case DataType::VARCHAR:
case DataType::LONGVARCHAR:
if(x.hasValue())
{
OUString sStr;
x >>= sStr;
setParameter(parameterIndex, sqlType, scale, sStr);
}
else
setNull(parameterIndex,sqlType);
break;
case DataType::DECIMAL:
case DataType::NUMERIC:
if(x.hasValue())
{
ORowSetValue aValue;
aValue.fill(x);
// TODO: make sure that this calls the string overload
setParameter(parameterIndex, sqlType, scale, aValue);
}
else
setNull(parameterIndex,sqlType);
break;
default:
::dbtools::setObjectWithInfo(this,parameterIndex,x,sqlType,scale);
}
}
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))
{ // there is no other setXXX call which can handle the value in x
throw SQLException();
}
}
void SAL_CALL OPreparedStatement::setShort( sal_Int32 parameterIndex, sal_Int16 x ) throw(SQLException, RuntimeException, std::exception)
{
setScalarParameter(parameterIndex, DataType::SMALLINT, 5, x);
}
void SAL_CALL OPreparedStatement::setBytes( sal_Int32 parameterIndex, const Sequence< sal_Int8 >& x ) throw(SQLException, RuntimeException, std::exception)
{
setParameter(parameterIndex, DataType::BINARY, 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)
{
// LEM: It is quite unclear to me what the interface here is.
// The XInputStream provides *bytes*, not characters.
setStream(parameterIndex, x, length, DataType::LONGVARCHAR);
}
void SAL_CALL OPreparedStatement::setBinaryStream( sal_Int32 parameterIndex, const Reference< ::com::sun::star::io::XInputStream >& x, sal_Int32 length ) throw(SQLException, RuntimeException, std::exception)
{
setStream(parameterIndex, x, length, DataType::LONGVARBINARY);
}
void SAL_CALL OPreparedStatement::clearParameters( ) throw(SQLException, RuntimeException, std::exception)
{
::osl::MutexGuard aGuard( m_aMutex );
prepareStatement();
OSL_ENSURE(m_aStatementHandle,"StatementHandle is null!");
N3SQLFreeStmt (m_aStatementHandle, SQL_RESET_PARAMS);
N3SQLFreeStmt (m_aStatementHandle, SQL_UNBIND);
}
void SAL_CALL OPreparedStatement::clearBatch( ) throw(SQLException, RuntimeException, std::exception)
{
::dbtools::throwFunctionNotSupportedSQLException( "XPreparedBatchExecution::clearBatch", *this );
// clearParameters( );
// m_aBatchList.erase();
}
void SAL_CALL OPreparedStatement::addBatch( ) throw(SQLException, RuntimeException, std::exception)
{
::dbtools::throwFunctionNotSupportedSQLException( "XPreparedBatchExecution::addBatch", *this );
}
Sequence< sal_Int32 > SAL_CALL OPreparedStatement::executeBatch( ) throw(SQLException, RuntimeException, std::exception)
{
::dbtools::throwFunctionNotSupportedSQLException( "XPreparedBatchExecution::executeBatch", *this );
// not reached, but keep -Werror happy
return Sequence< sal_Int32 > ();
}
// methods
// initBoundParam
// Initialize the bound parameter objects
void OPreparedStatement::initBoundParam () throw(SQLException)
{
OSL_ENSURE(m_aStatementHandle,"StatementHandle is null!");
// Get the number of parameters
numParams = 0;
N3SQLNumParams (m_aStatementHandle,&numParams);
// There are parameter markers, allocate the bound
// parameter objects
if (numParams > 0)
{
// Allocate an array of bound parameter objects
boundParams = new OBoundParam[numParams];
}
}
// allocBindBuf
// Allocate storage for the permanent data buffer for the bound
// parameter.
void* OPreparedStatement::allocBindBuf( sal_Int32 index,sal_Int32 bufLen)
{
void* b = NULL;
// Sanity check the parameter number
if ((index >= 1) && (index <= numParams))
{
b = boundParams[index - 1].allocBindDataBuffer(bufLen);
}
return b;
}
// getLengthBuf
// Gets the length buffer for the given parameter index
SQLLEN* OPreparedStatement::getLengthBuf (sal_Int32 index)
{
SQLLEN* b = NULL;
// Sanity check the parameter number
if ((index >= 1) &&
(index <= numParams))
{
b = &boundParams[index - 1].getBindLengthBuffer ();
}
return b;
}
// putParamData
// Puts parameter data from a previously bound input stream. The
// input stream was bound using SQL_LEN_DATA_AT_EXEC.
void OPreparedStatement::putParamData (sal_Int32 index)
throw (SQLException, RuntimeException)
{
// Sanity check the parameter index
if ((index < 1) ||
(index > numParams))
{
return;
}
// We'll transfer up to MAX_PUT_DATA_LENGTH at a time
Sequence< sal_Int8 > buf( MAX_PUT_DATA_LENGTH );
// Get the information about the input stream
Reference< XInputStream> inputStream = boundParams[index - 1].getInputStream ();
if ( !inputStream.is() )
{
::connectivity::SharedResources aResources;
const OUString sError( aResources.getResourceString(STR_NO_INPUTSTREAM));
throw SQLException (sError, *this,OUString(),0,Any());
}
sal_Int32 maxBytesLeft = boundParams[index - 1].getInputStreamLen ();
// Loop while more data from the input stream
sal_Int32 haveRead = 0;
try
{
do
{
sal_Int32 toReadThisRound = ::std::min( MAX_PUT_DATA_LENGTH, maxBytesLeft );
// Read some data from the input stream
haveRead = inputStream->readBytes( buf, toReadThisRound );
OSL_ENSURE( haveRead == buf.getLength(), "OPreparedStatement::putParamData: inconsistency!" );
if ( !haveRead )
// no more data in the stream - the given stream length was a maximum which could not be
// fulfilled by the stream
break;
// Put the data
OSL_ENSURE( m_aStatementHandle, "OPreparedStatement::putParamData: StatementHandle is null!" );
N3SQLPutData ( m_aStatementHandle, buf.getArray(), buf.getLength() );
// decrement the number of bytes still needed
maxBytesLeft -= haveRead;
}
while ( maxBytesLeft > 0 );
}
catch (const IOException& ex)
{
// If an I/O exception was generated, turn
// it into a SQLException
throw SQLException(ex.Message,*this,OUString(),0,Any());
}
}
// setStream
// Sets an input stream as a parameter, using the given SQL type
void OPreparedStatement::setStream(
sal_Int32 ParameterIndex,
const Reference< XInputStream>& x,
SQLLEN length,
sal_Int32 _nType)
throw (SQLException, RuntimeException)
{
::osl::MutexGuard aGuard( m_aMutex );
checkDisposed(OStatement_BASE::rBHelper.bDisposed);
prepareStatement();
checkParameterIndex(ParameterIndex);
// Get the buffer needed for the length
SQLLEN * const lenBuf = getLengthBuf(ParameterIndex);
// Allocate a new buffer for the parameter data. This buffer
// will be returned by SQLParamData (it is set to the parameter
// number, a sal_Int32)
sal_Int32* dataBuf = static_cast<sal_Int32*>( allocBindBuf(ParameterIndex, sizeof(ParameterIndex)) );
*dataBuf = ParameterIndex;
// Bind the parameter with SQL_LEN_DATA_AT_EXEC
*lenBuf = SQL_LEN_DATA_AT_EXEC (length);
SQLSMALLINT fCType, fSqlType;
OTools::getBindTypes(useWChar, m_pConnection->useOldDateFormat(), OTools::jdbcTypeToOdbc(_nType), fCType, fSqlType);
OSL_ENSURE(m_aStatementHandle,"StatementHandle is null!");
N3SQLBindParameter(m_aStatementHandle,
static_cast<SQLUSMALLINT>(ParameterIndex),
SQL_PARAM_INPUT,
fCType,
fSqlType,
length,
invalid_scale,
dataBuf,
sizeof(ParameterIndex),
lenBuf);
// Save the input stream
boundParams[ParameterIndex - 1].setInputStream (x, length);
}
void OPreparedStatement::FreeParams()
{
numParams = 0;
delete [] boundParams;
boundParams = NULL;
}
void OPreparedStatement::setFastPropertyValue_NoBroadcast(sal_Int32 nHandle,const Any& rValue) throw (Exception, std::exception)
{
try
{
switch(nHandle)
{
case PROPERTY_ID_RESULTSETCONCURRENCY:
if(!isPrepared())
setResultSetConcurrency(comphelper::getINT32(rValue));
break;
case PROPERTY_ID_RESULTSETTYPE:
if(!isPrepared())
setResultSetType(comphelper::getINT32(rValue));
break;
case PROPERTY_ID_FETCHDIRECTION:
if(!isPrepared())
setFetchDirection(comphelper::getINT32(rValue));
break;
case PROPERTY_ID_USEBOOKMARKS:
if(!isPrepared())
setUsingBookmarks(comphelper::getBOOL(rValue));
break;
default:
OStatement_Base::setFastPropertyValue_NoBroadcast(nHandle,rValue);
}
}
catch(const SQLException&)
{
// throw Exception(e.Message,*this);
}
}
void OPreparedStatement::prepareStatement()
{
if(!isPrepared())
{
OSL_ENSURE(m_aStatementHandle,"StatementHandle is null!");
OString aSql(OUStringToOString(m_sSqlStatement,getOwnConnection()->getTextEncoding()));
SQLRETURN nReturn = N3SQLPrepare(m_aStatementHandle, reinterpret_cast<SDB_ODBC_CHAR *>(const_cast<char *>(aSql.getStr())), aSql.getLength());
OTools::ThrowException(m_pConnection,nReturn,m_aStatementHandle,SQL_HANDLE_STMT,*this);
m_bPrepared = true;
initBoundParam();
}
}
void OPreparedStatement::checkParameterIndex(sal_Int32 _parameterIndex)
{
if( _parameterIndex > numParams ||
_parameterIndex < 1 ||
_parameterIndex > std::numeric_limits<SQLUSMALLINT>::max() )
{
::connectivity::SharedResources aResources;
const OUString sError( aResources.getResourceStringWithSubstitution(STR_WRONG_PARAM_INDEX,
"$pos$", OUString::number(_parameterIndex),
"$count$", OUString::number(numParams)
));
SQLException aNext(sError,*this, OUString(),0,Any());
::dbtools::throwInvalidIndexException(*this,makeAny(aNext));
}
}
OResultSet* OPreparedStatement::createResulSet()
{
OResultSet* pReturn = new OResultSet(m_aStatementHandle,this);
pReturn->setMetaData(getMetaData());
return pReturn;
}
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