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|
/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4; fill-column: 100 -*- */
/*
* 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 <sal/config.h>
#include <cmath>
#include <string_view>
#include "Connection.hxx"
#include "PreparedStatement.hxx"
#include "ResultSet.hxx"
#include "ResultSetMetaData.hxx"
#include "Util.hxx"
#include <comphelper/sequence.hxx>
#include <connectivity/dbexception.hxx>
#include <propertyids.hxx>
#include <connectivity/dbtools.hxx>
#include <sal/log.hxx>
#include <com/sun/star/sdbc/DataType.hpp>
using namespace connectivity::firebird;
using namespace ::comphelper;
using namespace ::osl;
using namespace com::sun::star;
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::container;
using namespace com::sun::star::io;
using namespace com::sun::star::util;
IMPLEMENT_SERVICE_INFO(OPreparedStatement,"com.sun.star.sdbcx.firebird.PreparedStatement","com.sun.star.sdbc.PreparedStatement");
OPreparedStatement::OPreparedStatement( Connection* _pConnection,
const OUString& sql)
:OStatementCommonBase(_pConnection)
,m_sSqlStatement(sql)
,m_pOutSqlda(nullptr)
,m_pInSqlda(nullptr)
{
SAL_INFO("connectivity.firebird", "OPreparedStatement(). "
"sql: " << sql);
}
void OPreparedStatement::ensurePrepared()
{
MutexGuard aGuard(m_aMutex);
checkDisposed(OStatementCommonBase_Base::rBHelper.bDisposed);
if (m_aStatementHandle)
return;
ISC_STATUS aErr = 0;
if (!m_pInSqlda)
{
m_pInSqlda = static_cast<XSQLDA*>(calloc(1, XSQLDA_LENGTH(10)));
m_pInSqlda->version = SQLDA_VERSION1;
m_pInSqlda->sqln = 10;
}
prepareAndDescribeStatement(m_sSqlStatement,
m_pOutSqlda,
m_pInSqlda);
aErr = isc_dsql_describe_bind(m_statusVector,
&m_aStatementHandle,
1,
m_pInSqlda);
if (aErr)
{
SAL_WARN("connectivity.firebird", "isc_dsql_describe_bind failed");
}
else if (m_pInSqlda->sqld > m_pInSqlda->sqln) // Not large enough
{
short nItems = m_pInSqlda->sqld;
free(m_pInSqlda);
m_pInSqlda = static_cast<XSQLDA*>(calloc(1, XSQLDA_LENGTH(nItems)));
m_pInSqlda->version = SQLDA_VERSION1;
m_pInSqlda->sqln = nItems;
aErr = isc_dsql_describe_bind(m_statusVector,
&m_aStatementHandle,
1,
m_pInSqlda);
SAL_WARN_IF(aErr, "connectivity.firebird", "isc_dsql_describe_bind failed");
}
if (!aErr)
mallocSQLVAR(m_pInSqlda);
else
evaluateStatusVector(m_statusVector, m_sSqlStatement, *this);
}
OPreparedStatement::~OPreparedStatement()
{
}
void SAL_CALL OPreparedStatement::acquire() throw()
{
OStatementCommonBase::acquire();
}
void SAL_CALL OPreparedStatement::release() throw()
{
OStatementCommonBase::release();
}
Any SAL_CALL OPreparedStatement::queryInterface(const Type& rType)
{
Any aRet = OStatementCommonBase::queryInterface(rType);
if(!aRet.hasValue())
aRet = OPreparedStatement_Base::queryInterface(rType);
return aRet;
}
uno::Sequence< Type > SAL_CALL OPreparedStatement::getTypes()
{
return concatSequences(OPreparedStatement_Base::getTypes(),
OStatementCommonBase::getTypes());
}
Reference< XResultSetMetaData > SAL_CALL OPreparedStatement::getMetaData()
{
::osl::MutexGuard aGuard( m_aMutex );
checkDisposed(OStatementCommonBase_Base::rBHelper.bDisposed);
ensurePrepared();
if(!m_xMetaData.is())
m_xMetaData = new OResultSetMetaData(m_pConnection.get()
, m_pOutSqlda);
return m_xMetaData;
}
void SAL_CALL OPreparedStatement::close()
{
MutexGuard aGuard( m_aMutex );
checkDisposed(OStatementCommonBase_Base::rBHelper.bDisposed);
OStatementCommonBase::close();
if (m_pInSqlda)
{
freeSQLVAR(m_pInSqlda);
free(m_pInSqlda);
m_pInSqlda = nullptr;
}
if (m_pOutSqlda)
{
freeSQLVAR(m_pOutSqlda);
free(m_pOutSqlda);
m_pOutSqlda = nullptr;
}
}
void SAL_CALL OPreparedStatement::disposing()
{
close();
}
void SAL_CALL OPreparedStatement::setString(sal_Int32 nParameterIndex,
const OUString& sInput)
{
SAL_INFO("connectivity.firebird",
"setString(" << nParameterIndex << " , " << sInput << ")");
MutexGuard aGuard( m_aMutex );
checkDisposed(OStatementCommonBase_Base::rBHelper.bDisposed);
ensurePrepared();
checkParameterIndex(nParameterIndex);
setParameterNull(nParameterIndex, false);
OString str = OUStringToOString(sInput , RTL_TEXTENCODING_UTF8 );
XSQLVAR* pVar = m_pInSqlda->sqlvar + (nParameterIndex - 1);
int dtype = (pVar->sqltype & ~1); // drop flag bit for now
if (str.getLength() > pVar->sqllen)
str = str.copy(0, pVar->sqllen);
switch (dtype) {
case SQL_VARYING:
{
const sal_Int32 max_varchar_len = 0xFFFF;
// First 2 bytes indicate string size
if (str.getLength() > max_varchar_len)
{
str = str.copy(0, max_varchar_len);
}
const auto nLength = str.getLength();
memcpy(pVar->sqldata, &nLength, 2);
// Actual data
memcpy(pVar->sqldata + 2, str.getStr(), str.getLength());
break;
}
case SQL_TEXT:
memcpy(pVar->sqldata, str.getStr(), str.getLength());
// Fill remainder with spaces
memset(pVar->sqldata + str.getLength(), ' ', pVar->sqllen - str.getLength());
break;
case SQL_BLOB: // Clob
assert( pVar->sqlsubtype == static_cast<short>(BlobSubtype::Clob) );
setClob(nParameterIndex, sInput );
break;
case SQL_SHORT:
{
sal_Int32 int32Value = sInput.toInt32();
if ( (int32Value < std::numeric_limits<sal_Int16>::min()) ||
(int32Value > std::numeric_limits<sal_Int16>::max()) )
{
::dbtools::throwSQLException(
"Value out of range for SQL_SHORT type",
::dbtools::StandardSQLState::INVALID_SQL_DATA_TYPE,
*this);
}
setShort(nParameterIndex, int32Value);
break;
}
case SQL_LONG:
{
sal_Int32 int32Value = sInput.toInt32();
setInt(nParameterIndex, int32Value);
break;
}
case SQL_INT64:
{
sal_Int64 int64Value = sInput.toInt64();
setLong(nParameterIndex, int64Value);
break;
}
case SQL_FLOAT:
{
float floatValue = sInput.toFloat();
setFloat(nParameterIndex, floatValue);
break;
}
case SQL_BOOLEAN:
{
bool boolValue = sInput.toBoolean();
setBoolean(nParameterIndex, boolValue);
break;
}
default:
::dbtools::throwSQLException(
"Incorrect type for setString",
::dbtools::StandardSQLState::INVALID_SQL_DATA_TYPE,
*this);
}
}
Reference< XConnection > SAL_CALL OPreparedStatement::getConnection()
{
MutexGuard aGuard( m_aMutex );
checkDisposed(OStatementCommonBase_Base::rBHelper.bDisposed);
return Reference<XConnection>(m_pConnection.get());
}
sal_Bool SAL_CALL OPreparedStatement::execute()
{
SAL_INFO("connectivity.firebird", "executeQuery(). "
"Got called with sql: " << m_sSqlStatement);
MutexGuard aGuard( m_aMutex );
checkDisposed(OStatementCommonBase_Base::rBHelper.bDisposed);
ensurePrepared();
ISC_STATUS aErr;
if (m_xResultSet.is()) // Checks whether we have already run the statement.
{
disposeResultSet();
// Closes the cursor from the last run.
// This doesn't actually free the statement -- using DSQL_close closes
// the cursor and keeps the statement, using DSQL_drop frees the statement
// (and associated cursors).
aErr = isc_dsql_free_statement(m_statusVector,
&m_aStatementHandle,
DSQL_close);
if (aErr)
{
// Do not throw error. Trying to close a closed cursor is not a
// critical mistake.
OUString sErrMsg = StatusVectorToString(m_statusVector,
"isc_dsql_free_statement: close cursor");
SAL_WARN("connectivity.firebird", sErrMsg);
}
}
aErr = isc_dsql_execute(m_statusVector,
&m_pConnection->getTransaction(),
&m_aStatementHandle,
1,
m_pInSqlda);
if (aErr)
{
SAL_WARN("connectivity.firebird", "isc_dsql_execute failed" );
evaluateStatusVector(m_statusVector, "isc_dsql_execute", *this);
}
m_xResultSet = new OResultSet(m_pConnection.get(),
m_aMutex,
uno::Reference< XInterface >(*this),
m_aStatementHandle,
m_pOutSqlda);
if (getStatementChangeCount() > 0)
m_pConnection->notifyDatabaseModified();
return m_xResultSet.is();
// TODO: implement handling of multiple ResultSets.
}
sal_Int32 SAL_CALL OPreparedStatement::executeUpdate()
{
execute();
return getStatementChangeCount();
}
Reference< XResultSet > SAL_CALL OPreparedStatement::executeQuery()
{
execute();
return m_xResultSet;
}
namespace {
/**
* Take out the number part of a fix point decimal without
* the information of where is the fractional part from a
* string representation of a number. (e.g. 54.654 -> 54654)
*/
sal_Int64 toNumericWithoutDecimalPlace(const OUString& sSource)
{
OUString sNumber(sSource);
// cut off leading 0 eventually ( eg. 0.567 -> .567)
(void)sSource.startsWith("0", &sNumber);
sal_Int32 nDotIndex = sNumber.indexOf('.');
if( nDotIndex < 0)
{
return sNumber.toInt64(); // no dot -> it's an integer
}
else
{
// remove dot
OUStringBuffer sBuffer(15);
if(nDotIndex > 0)
{
sBuffer.append(std::u16string_view(sNumber).substr(0, nDotIndex));
}
sBuffer.append(std::u16string_view(sNumber).substr(nDotIndex + 1));
return sBuffer.makeStringAndClear().toInt64();
}
}
}
//----- XParameters -----------------------------------------------------------
void SAL_CALL OPreparedStatement::setNull(sal_Int32 nIndex, sal_Int32 /*nSqlType*/)
{
MutexGuard aGuard( m_aMutex );
checkDisposed(OStatementCommonBase_Base::rBHelper.bDisposed);
ensurePrepared();
checkParameterIndex(nIndex);
setParameterNull(nIndex);
}
void SAL_CALL OPreparedStatement::setBoolean(sal_Int32 nIndex, sal_Bool bValue)
{
setValue< sal_Bool >(nIndex, bValue, SQL_BOOLEAN);
}
template <typename T>
void OPreparedStatement::setValue(sal_Int32 nIndex, const T& nValue, ISC_SHORT nType)
{
MutexGuard aGuard( m_aMutex );
checkDisposed(OStatementCommonBase_Base::rBHelper.bDisposed);
ensurePrepared();
checkParameterIndex(nIndex);
setParameterNull(nIndex, false);
XSQLVAR* pVar = m_pInSqlda->sqlvar + (nIndex - 1);
if ((pVar->sqltype & ~1) != nType)
{
::dbtools::throwSQLException(
"Incorrect type for setValue",
::dbtools::StandardSQLState::INVALID_SQL_DATA_TYPE,
*this);
}
memcpy(pVar->sqldata, &nValue, sizeof(nValue));
}
void SAL_CALL OPreparedStatement::setByte(sal_Int32 nIndex, sal_Int8 nValue)
{
// there's no TINYINT or equivalent on Firebird,
// so do the same as setShort
setValue< sal_Int16 >(nIndex, nValue, SQL_SHORT);
}
void SAL_CALL OPreparedStatement::setShort(sal_Int32 nIndex, sal_Int16 nValue)
{
setValue< sal_Int16 >(nIndex, nValue, SQL_SHORT);
}
void SAL_CALL OPreparedStatement::setInt(sal_Int32 nIndex, sal_Int32 nValue)
{
setValue< sal_Int32 >(nIndex, nValue, SQL_LONG);
}
void SAL_CALL OPreparedStatement::setLong(sal_Int32 nIndex, sal_Int64 nValue)
{
setValue< sal_Int64 >(nIndex, nValue, SQL_INT64);
}
void SAL_CALL OPreparedStatement::setFloat(sal_Int32 nIndex, float nValue)
{
setValue< float >(nIndex, nValue, SQL_FLOAT);
}
void SAL_CALL OPreparedStatement::setDouble(sal_Int32 nIndex, double nValue)
{
MutexGuard aGuard( m_aMutex );
checkDisposed(OStatementCommonBase_Base::rBHelper.bDisposed);
ensurePrepared();
XSQLVAR* pVar = m_pInSqlda->sqlvar + (nIndex - 1);
short dType = (pVar->sqltype & ~1); // drop flag bit for now
short dSubType = pVar->sqlsubtype;
// Assume it is a sub type of a number.
if(dSubType < 0 || dSubType > 2)
{
::dbtools::throwSQLException(
"Incorrect number sub type",
::dbtools::StandardSQLState::INVALID_SQL_DATA_TYPE,
*this);
}
// firebird stores scale as a negative number
ColumnTypeInfo columnType{ dType, dSubType,
static_cast<short>(-pVar->sqlscale) };
// Caller might try to set an integer type here. It makes sense to convert
// it instead of throwing an error.
switch(columnType.getSdbcType())
{
case DataType::SMALLINT:
setValue< sal_Int16 >(nIndex,
static_cast<sal_Int16>(nValue),
dType);
break;
case DataType::INTEGER:
setValue< sal_Int32 >(nIndex,
static_cast<sal_Int32>(nValue),
dType);
break;
case DataType::BIGINT:
setValue< sal_Int64 >(nIndex,
static_cast<sal_Int64>(nValue),
dType);
break;
case DataType::NUMERIC:
case DataType::DECIMAL:
// take decimal places into account, later on they are removed in makeNumericString
setObjectWithInfo(nIndex,Any{nValue}, columnType.getSdbcType(), columnType.getScale());
break;
default:
setValue< double >(nIndex, nValue, SQL_DOUBLE); // TODO: SQL_D_FLOAT?
}
}
void SAL_CALL OPreparedStatement::setDate(sal_Int32 nIndex, const Date& rDate)
{
struct tm aCTime;
aCTime.tm_mday = rDate.Day;
aCTime.tm_mon = rDate.Month -1;
aCTime.tm_year = rDate.Year -1900;
ISC_DATE aISCDate;
isc_encode_sql_date(&aCTime, &aISCDate);
setValue< ISC_DATE >(nIndex, aISCDate, SQL_TYPE_DATE);
}
void SAL_CALL OPreparedStatement::setTime( sal_Int32 nIndex, const css::util::Time& rTime)
{
struct tm aCTime;
aCTime.tm_sec = rTime.Seconds;
aCTime.tm_min = rTime.Minutes;
aCTime.tm_hour = rTime.Hours;
ISC_TIME aISCTime;
isc_encode_sql_time(&aCTime, &aISCTime);
// Here we "know" that ISC_TIME is simply in units of seconds/ISC_TIME_SECONDS_PRECISION with no
// other funkiness, so we can simply add the fraction of a second.
aISCTime += rTime.NanoSeconds / (1000000000 / ISC_TIME_SECONDS_PRECISION);
setValue< ISC_TIME >(nIndex, aISCTime, SQL_TYPE_TIME);
}
void SAL_CALL OPreparedStatement::setTimestamp(sal_Int32 nIndex, const DateTime& rTimestamp)
{
struct tm aCTime;
aCTime.tm_sec = rTimestamp.Seconds;
aCTime.tm_min = rTimestamp.Minutes;
aCTime.tm_hour = rTimestamp.Hours;
aCTime.tm_mday = rTimestamp.Day;
aCTime.tm_mon = rTimestamp.Month - 1;
aCTime.tm_year = rTimestamp.Year - 1900;
ISC_TIMESTAMP aISCTimestamp;
isc_encode_timestamp(&aCTime, &aISCTimestamp);
// As in previous function
aISCTimestamp.timestamp_time += rTimestamp.NanoSeconds / (1000000000 / ISC_TIME_SECONDS_PRECISION);
setValue< ISC_TIMESTAMP >(nIndex, aISCTimestamp, SQL_TIMESTAMP);
}
// void OPreparedStatement::set
void OPreparedStatement::openBlobForWriting(isc_blob_handle& rBlobHandle, ISC_QUAD& rBlobId)
{
ISC_STATUS aErr;
aErr = isc_create_blob2(m_statusVector,
&m_pConnection->getDBHandle(),
&m_pConnection->getTransaction(),
&rBlobHandle,
&rBlobId,
0, // Blob parameter buffer length
nullptr); // Blob parameter buffer handle
if (aErr)
{
evaluateStatusVector(m_statusVector,
"setBlob failed on " + m_sSqlStatement,
*this);
assert(false);
}
}
void OPreparedStatement::closeBlobAfterWriting(isc_blob_handle& rBlobHandle)
{
ISC_STATUS aErr;
aErr = isc_close_blob(m_statusVector,
&rBlobHandle);
if (aErr)
{
evaluateStatusVector(m_statusVector,
"isc_close_blob failed",
*this);
assert(false);
}
}
void SAL_CALL OPreparedStatement::setClob(sal_Int32 nParameterIndex, const Reference< XClob >& xClob )
{
::osl::MutexGuard aGuard( m_aMutex );
checkDisposed(OStatementCommonBase_Base::rBHelper.bDisposed);
#if SAL_TYPES_SIZEOFPOINTER == 8
isc_blob_handle aBlobHandle = 0;
#else
isc_blob_handle aBlobHandle = nullptr;
#endif
ISC_QUAD aBlobId;
openBlobForWriting(aBlobHandle, aBlobId);
// Max segment size is 2^16 == SAL_MAX_UINT16
// SAL_MAX_UINT16 / 4 is surely enough for UTF-8
// TODO apply max segment size to character encoding
sal_Int64 nCharWritten = 1; // XClob is indexed from 1
ISC_STATUS aErr = 0;
sal_Int64 nLen = xClob->length();
while ( nLen > nCharWritten )
{
sal_Int64 nCharRemain = nLen - nCharWritten;
constexpr sal_uInt16 MAX_SIZE = SAL_MAX_UINT16 / 4;
sal_uInt16 nWriteSize = std::min<sal_Int64>(nCharRemain, MAX_SIZE);
OString sData = OUStringToOString(
xClob->getSubString(nCharWritten, nWriteSize),
RTL_TEXTENCODING_UTF8);
aErr = isc_put_segment( m_statusVector,
&aBlobHandle,
sData.getLength(),
sData.getStr() );
nCharWritten += nWriteSize;
if (aErr)
break;
}
// We need to make sure we close the Blob even if there are errors, hence evaluate
// errors after closing.
closeBlobAfterWriting(aBlobHandle);
if (aErr)
{
evaluateStatusVector(m_statusVector,
"isc_put_segment failed",
*this);
assert(false);
}
setValue< ISC_QUAD >(nParameterIndex, aBlobId, SQL_BLOB);
}
void OPreparedStatement::setClob( sal_Int32 nParameterIndex, const OUString& rStr )
{
::osl::MutexGuard aGuard( m_aMutex );
checkDisposed(OStatementCommonBase_Base::rBHelper.bDisposed);
checkParameterIndex(nParameterIndex);
#if SAL_TYPES_SIZEOFPOINTER == 8
isc_blob_handle aBlobHandle = 0;
#else
isc_blob_handle aBlobHandle = nullptr;
#endif
ISC_QUAD aBlobId;
openBlobForWriting(aBlobHandle, aBlobId);
OString sData = OUStringToOString(
rStr,
RTL_TEXTENCODING_UTF8);
ISC_STATUS aErr = isc_put_segment( m_statusVector,
&aBlobHandle,
sData.getLength(),
sData.getStr() );
// We need to make sure we close the Blob even if there are errors, hence evaluate
// errors after closing.
closeBlobAfterWriting(aBlobHandle);
if (aErr)
{
evaluateStatusVector(m_statusVector,
"isc_put_segment failed",
*this);
assert(false);
}
setValue< ISC_QUAD >(nParameterIndex, aBlobId, SQL_BLOB);
}
void SAL_CALL OPreparedStatement::setBlob(sal_Int32 nParameterIndex,
const Reference< XBlob >& xBlob)
{
::osl::MutexGuard aGuard(m_aMutex);
checkDisposed(OStatementCommonBase_Base::rBHelper.bDisposed);
checkParameterIndex(nParameterIndex);
#if SAL_TYPES_SIZEOFPOINTER == 8
isc_blob_handle aBlobHandle = 0;
#else
isc_blob_handle aBlobHandle = nullptr;
#endif
ISC_QUAD aBlobId;
openBlobForWriting(aBlobHandle, aBlobId);
ISC_STATUS aErr = 0;
const sal_Int64 nBlobLen = xBlob->length();
if (nBlobLen > 0)
{
// Max write size is 0xFFFF == SAL_MAX_UINT16
sal_uInt64 nDataWritten = 0;
while (sal::static_int_cast<sal_uInt64>(nBlobLen) > nDataWritten)
{
sal_uInt64 nDataRemaining = nBlobLen - nDataWritten;
sal_uInt16 nWriteSize = std::min(nDataRemaining, sal_uInt64(SAL_MAX_UINT16));
aErr = isc_put_segment(m_statusVector,
&aBlobHandle,
nWriteSize,
reinterpret_cast<const char*>(xBlob->getBytes(nDataWritten, nWriteSize).getConstArray()));
nDataWritten += nWriteSize;
if (aErr)
break;
}
}
// We need to make sure we close the Blob even if there are errors, hence evaluate
// errors after closing.
closeBlobAfterWriting(aBlobHandle);
if (aErr)
{
evaluateStatusVector(m_statusVector,
"isc_put_segment failed",
*this);
assert(false);
}
setValue< ISC_QUAD >(nParameterIndex, aBlobId, SQL_BLOB);
}
void SAL_CALL OPreparedStatement::setArray( sal_Int32 nIndex, const Reference< XArray >& )
{
::osl::MutexGuard aGuard( m_aMutex );
checkDisposed(OStatementCommonBase_Base::rBHelper.bDisposed);
checkParameterIndex(nIndex);
}
void SAL_CALL OPreparedStatement::setRef( sal_Int32 nIndex, const Reference< XRef >& )
{
::osl::MutexGuard aGuard( m_aMutex );
checkDisposed(OStatementCommonBase_Base::rBHelper.bDisposed);
checkParameterIndex(nIndex);
}
void SAL_CALL OPreparedStatement::setObjectWithInfo( sal_Int32 parameterIndex, const Any& x, sal_Int32 sqlType, sal_Int32 scale )
{
checkDisposed(OStatementCommonBase_Base::rBHelper.bDisposed);
::osl::MutexGuard aGuard( m_aMutex );
ensurePrepared();
checkParameterIndex(parameterIndex);
setParameterNull(parameterIndex, false);
XSQLVAR* pVar = m_pInSqlda->sqlvar + (parameterIndex - 1);
int dType = (pVar->sqltype & ~1); // drop null flag
if(sqlType == DataType::DECIMAL || sqlType == DataType::NUMERIC)
{
double dbValue =0.0;
OUString sValue;
if( x >>= dbValue )
{
// truncate and round to 'scale' number of decimal places
sValue = OUString::number( std::floor((dbValue * pow10Integer(scale)) + .5) / pow10Integer(scale) );
}
else
{
x >>= sValue;
}
// fill in the number with nulls in fractional part.
// We need this because e.g. 0.450 != 0.045 despite
// their scale is equal
OUStringBuffer sBuffer(15);
sBuffer.append(sValue);
if(sValue.indexOf('.') != -1) // there is a dot
{
for(sal_Int32 i=sValue.copy(sValue.indexOf('.')+1).getLength(); i<scale;i++)
{
sBuffer.append('0');
}
}
else
{
for (sal_Int32 i=0; i<scale; i++)
{
sBuffer.append('0');
}
}
sValue = sBuffer.makeStringAndClear();
switch(dType)
{
case SQL_SHORT:
setValue< sal_Int16 >(parameterIndex,
static_cast<sal_Int16>( toNumericWithoutDecimalPlace(sValue) ),
dType);
break;
case SQL_LONG:
case SQL_DOUBLE:
setValue< sal_Int32 >(parameterIndex,
static_cast<sal_Int32>( toNumericWithoutDecimalPlace(sValue) ),
dType);
break;
case SQL_INT64:
setValue< sal_Int64 >(parameterIndex,
toNumericWithoutDecimalPlace(sValue),
dType);
break;
default:
SAL_WARN("connectivity.firebird",
"No Firebird sql type found for numeric or decimal types");
::dbtools::setObjectWithInfo(this,parameterIndex,x,sqlType,scale);
}
}
else
{
::dbtools::setObjectWithInfo(this,parameterIndex,x,sqlType,scale);
}
}
void SAL_CALL OPreparedStatement::setObjectNull( sal_Int32 nIndex, sal_Int32, const OUString& )
{
::osl::MutexGuard aGuard( m_aMutex );
checkDisposed(OStatementCommonBase_Base::rBHelper.bDisposed);
checkParameterIndex(nIndex);
}
void SAL_CALL OPreparedStatement::setObject( sal_Int32 nIndex, const Any& )
{
::osl::MutexGuard aGuard( m_aMutex );
checkDisposed(OStatementCommonBase_Base::rBHelper.bDisposed);
checkParameterIndex(nIndex);
}
void SAL_CALL OPreparedStatement::setBytes(sal_Int32 nParameterIndex,
const Sequence< sal_Int8 >& xBytes)
{
::osl::MutexGuard aGuard(m_aMutex);
checkDisposed(OStatementCommonBase_Base::rBHelper.bDisposed);
checkParameterIndex(nParameterIndex);
XSQLVAR* pVar = m_pInSqlda->sqlvar + (nParameterIndex - 1);
int dType = (pVar->sqltype & ~1); // drop flag bit for now
if( dType == SQL_BLOB )
{
#if SAL_TYPES_SIZEOFPOINTER == 8
isc_blob_handle aBlobHandle = 0;
#else
isc_blob_handle aBlobHandle = nullptr;
#endif
ISC_QUAD aBlobId;
openBlobForWriting(aBlobHandle, aBlobId);
ISC_STATUS aErr = 0;
const sal_Int32 nBytesLen = xBytes.getLength();
if (nBytesLen > 0)
{
// Max write size is 0xFFFF == SAL_MAX_UINT16
sal_uInt32 nDataWritten = 0;
while (sal::static_int_cast<sal_uInt32>(nBytesLen) > nDataWritten)
{
sal_uInt32 nDataRemaining = nBytesLen - nDataWritten;
sal_uInt16 nWriteSize = std::min(nDataRemaining, sal_uInt32(SAL_MAX_UINT16));
aErr = isc_put_segment(m_statusVector,
&aBlobHandle,
nWriteSize,
reinterpret_cast<const char*>(xBytes.getConstArray()) + nDataWritten);
nDataWritten += nWriteSize;
if (aErr)
break;
}
}
// We need to make sure we close the Blob even if there are errors, hence evaluate
// errors after closing.
closeBlobAfterWriting(aBlobHandle);
if (aErr)
{
evaluateStatusVector(m_statusVector,
"isc_put_segment failed",
*this);
assert(false);
}
setValue< ISC_QUAD >(nParameterIndex, aBlobId, SQL_BLOB);
}
else if( dType == SQL_VARYING )
{
setParameterNull(nParameterIndex, false);
const sal_Int32 nMaxSize = 0xFFFF;
Sequence<sal_Int8> xBytesCopy(xBytes);
if (xBytesCopy.getLength() > nMaxSize)
{
xBytesCopy.realloc( nMaxSize );
}
const auto nSize = xBytesCopy.getLength();
// 8000 corresponds to value from lcl_addDefaultParameters
// in dbaccess/source/filter/hsqldb/createparser.cxx
if (nSize > 8000)
{
free(pVar->sqldata);
pVar->sqldata = static_cast<char *>(malloc(sizeof(char) * nSize + 2));
}
// First 2 bytes indicate string size
memcpy(pVar->sqldata, &nSize, 2);
// Actual data
memcpy(pVar->sqldata + 2, xBytesCopy.getConstArray(), nSize);
}
else if( dType == SQL_TEXT )
{
setParameterNull(nParameterIndex, false);
memcpy(pVar->sqldata, xBytes.getConstArray(), xBytes.getLength() );
// Fill remainder with spaces
memset(pVar->sqldata + xBytes.getLength(), 0, pVar->sqllen - xBytes.getLength());
}
else
{
::dbtools::throwSQLException(
"Incorrect type for setBytes",
::dbtools::StandardSQLState::INVALID_SQL_DATA_TYPE,
*this);
}
}
void SAL_CALL OPreparedStatement::setCharacterStream( sal_Int32 nIndex, const Reference< css::io::XInputStream >&, sal_Int32 )
{
::osl::MutexGuard aGuard( m_aMutex );
checkDisposed(OStatementCommonBase_Base::rBHelper.bDisposed);
checkParameterIndex(nIndex);
}
void SAL_CALL OPreparedStatement::setBinaryStream( sal_Int32 nIndex, const Reference< css::io::XInputStream >&, sal_Int32 )
{
::osl::MutexGuard aGuard( m_aMutex );
checkDisposed(OStatementCommonBase_Base::rBHelper.bDisposed);
checkParameterIndex(nIndex);
}
void SAL_CALL OPreparedStatement::clearParameters( )
{
}
// ---- Batch methods -- unsupported -----------------------------------------
void SAL_CALL OPreparedStatement::clearBatch()
{
// Unsupported
}
void SAL_CALL OPreparedStatement::addBatch()
{
// Unsupported by firebird
}
Sequence< sal_Int32 > SAL_CALL OPreparedStatement::executeBatch()
{
// Unsupported by firebird
return Sequence< sal_Int32 >();
}
void OPreparedStatement::setFastPropertyValue_NoBroadcast(sal_Int32 nHandle,const Any& rValue)
{
switch(nHandle)
{
case PROPERTY_ID_RESULTSETCONCURRENCY:
break;
case PROPERTY_ID_RESULTSETTYPE:
break;
case PROPERTY_ID_FETCHDIRECTION:
break;
case PROPERTY_ID_USEBOOKMARKS:
break;
default:
OStatementCommonBase::setFastPropertyValue_NoBroadcast(nHandle,rValue);
}
}
void OPreparedStatement::checkParameterIndex(sal_Int32 nParameterIndex)
{
ensurePrepared();
if ((nParameterIndex == 0) || (nParameterIndex > m_pInSqlda->sqld))
{
::dbtools::throwSQLException(
"No column " + OUString::number(nParameterIndex),
::dbtools::StandardSQLState::COLUMN_NOT_FOUND,
*this);
}
}
void OPreparedStatement::setParameterNull(sal_Int32 nParameterIndex,
bool bSetNull)
{
XSQLVAR* pVar = m_pInSqlda->sqlvar + (nParameterIndex - 1);
if (bSetNull)
{
pVar->sqltype |= 1;
*pVar->sqlind = -1;
}
else
*pVar->sqlind = 0;
}
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