/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */
/*************************************************************************
*
* Effective License of whole file:
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License version 2.1, as published by the Free Software Foundation.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston,
* MA 02111-1307 USA
*
* Parts "Copyright by Sun Microsystems, Inc" prior to August 2011:
*
* The Contents of this file are made available subject to the terms of
* the GNU Lesser General Public License Version 2.1
*
* Copyright: 2000 by Sun Microsystems, Inc.
*
* Contributor(s): Joerg Budischewski
*
* All parts contributed on or after August 2011:
*
* 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/.
*
************************************************************************/
#include <sal/log.hxx>
#include "pq_statement.hxx"
#include "pq_fakedupdateableresultset.hxx"
#include "pq_updateableresultset.hxx"
#include "pq_tools.hxx"
#include "pq_statics.hxx"
#include <osl/time.h>
#include <rtl/ustrbuf.hxx>
#include <comphelper/sequence.hxx>
#include <com/sun/star/sdbc/ResultSetConcurrency.hpp>
#include <com/sun/star/sdbc/ResultSetType.hpp>
#include <com/sun/star/sdbc/SQLException.hpp>
#include <com/sun/star/sdbc/XParameters.hpp>
#include <com/sun/star/sdbcx/XColumnsSupplier.hpp>
#include <com/sun/star/sdbcx/KeyType.hpp>
#include <com/sun/star/sdbcx/XKeysSupplier.hpp>
#include <com/sun/star/container/XIndexAccess.hpp>
#include <com/sun/star/container/XEnumerationAccess.hpp>
#include <cstddef>
#include <string.h>
#include <string_view>
using osl::MutexGuard;
using com::sun::star::uno::Any;
using com::sun::star::uno::Type;
using com::sun::star::uno::Sequence;
using com::sun::star::uno::Reference;
using com::sun::star::uno::XInterface;
using com::sun::star::uno::UNO_QUERY;
using com::sun::star::lang::IllegalArgumentException;
using com::sun::star::sdbc::XCloseable;
using com::sun::star::sdbc::XStatement;
using com::sun::star::sdbc::XPreparedStatement;
using com::sun::star::sdbc::XParameters;
using com::sun::star::sdbc::XRow;
using com::sun::star::sdbc::XResultSet;
using com::sun::star::sdbc::XConnection;
using com::sun::star::sdbc::SQLException;
using com::sun::star::sdbcx::XColumnsSupplier;
using com::sun::star::sdbcx::XKeysSupplier;
using com::sun::star::beans::Property;
using com::sun::star::beans::XPropertySetInfo;
using com::sun::star::beans::XPropertySet;
using com::sun::star::container::XNameAccess;
using com::sun::star::container::XEnumerationAccess;
using com::sun::star::container::XEnumeration;
using com::sun::star::container::XIndexAccess;
namespace pq_sdbc_driver
{
static ::cppu::IPropertyArrayHelper & getStatementPropertyArrayHelper()
{
static ::cppu::OPropertyArrayHelper arrayHelper(
Sequence<Property>{
Property(
u"CursorName"_ustr, 0,
::cppu::UnoType<OUString>::get() , 0 ),
Property(
u"EscapeProcessing"_ustr, 1,
cppu::UnoType<bool>::get() , 0 ),
Property(
u"FetchDirection"_ustr, 2,
::cppu::UnoType<sal_Int32>::get() , 0 ),
Property(
u"FetchSize"_ustr, 3,
::cppu::UnoType<sal_Int32>::get() , 0 ),
Property(
u"MaxFieldSize"_ustr, 4,
::cppu::UnoType<sal_Int32>::get() , 0 ),
Property(
u"MaxRows"_ustr, 5,
::cppu::UnoType<sal_Int32>::get() , 0 ),
Property(
u"QueryTimeOut"_ustr, 6,
::cppu::UnoType<sal_Int32>::get() , 0 ),
Property(
u"ResultSetConcurrency"_ustr, 7,
::cppu::UnoType<sal_Int32>::get() , 0 ),
Property(
u"ResultSetType"_ustr, 8,
::cppu::UnoType<sal_Int32>::get() , 0 )},
true );
return arrayHelper;
}
Statement::Statement( const ::rtl::Reference< comphelper::RefCountedMutex > & refMutex,
const Reference< XConnection > & conn,
struct ConnectionSettings *pSettings )
: Statement_BASE( refMutex->GetMutex() )
, OPropertySetHelper( Statement_BASE::rBHelper )
, m_connection( conn )
, m_pSettings( pSettings )
, m_xMutex( refMutex )
, m_multipleResultAvailable(false)
, m_multipleResultUpdateCount(0)
, m_lastOidInserted(InvalidOid)
{
m_props[STATEMENT_QUERY_TIME_OUT] <<= sal_Int32(0);
m_props[STATEMENT_MAX_ROWS] <<= sal_Int32(0);
m_props[STATEMENT_RESULT_SET_CONCURRENCY] <<=
css::sdbc::ResultSetConcurrency::READ_ONLY;
m_props[STATEMENT_RESULT_SET_TYPE] <<=
css::sdbc::ResultSetType::SCROLL_INSENSITIVE;
}
Statement::~Statement()
{
}
void Statement::checkClosed()
{
if( ! m_pSettings || ! m_pSettings->pConnection )
throw SQLException(
u"pq_driver: Statement or connection has already been closed !"_ustr,
*this, OUString(),1,Any());
}
Any Statement::queryInterface( const Type & rType )
{
Any aRet = Statement_BASE::queryInterface(rType);
return aRet.hasValue() ? aRet : OPropertySetHelper::queryInterface(rType);
}
Sequence< Type > Statement::getTypes()
{
static Sequence< Type > collection(
::comphelper::concatSequences(
OPropertySetHelper::getTypes(),
Statement_BASE::getTypes()));
return collection;
}
Sequence< sal_Int8> Statement::getImplementationId()
{
return css::uno::Sequence<sal_Int8>();
}
void Statement::close( )
{
// let the connection die without acquired mutex !
Reference< XConnection > r;
Reference< XCloseable > resultSet;
{
MutexGuard guard( m_xMutex->GetMutex() );
m_pSettings = nullptr;
r = m_connection;
m_connection.clear();
resultSet = m_lastResultset;
m_lastResultset.clear();
}
if( resultSet.is() )
{
resultSet->close();
}
}
void Statement::raiseSQLException(
std::u16string_view sql, const char * errorMsg )
{
OUString error = "pq_driver: "
+ OUString( errorMsg, strlen(errorMsg), ConnectionSettings::encoding )
+ " (caused by statement '" + sql + "')";
SAL_WARN("connectivity.postgresql", error);
throw SQLException( error, *this, OUString(), 1, Any() );
}
Reference< XResultSet > Statement::executeQuery(const OUString& sql )
{
if( ! execute( sql ) )
{
raiseSQLException( sql, "not a query" );
}
return Reference< XResultSet > ( m_lastResultset, css::uno::UNO_QUERY );
}
sal_Int32 Statement::executeUpdate( const OUString& sql )
{
if( execute( sql ) )
{
raiseSQLException( sql, "not a command" );
}
return m_multipleResultUpdateCount;
}
/// @throws SQLException
static void raiseSQLException(
const Reference< XInterface> & owner,
std::string_view sql,
const char * errorMsg,
const char *errorType = nullptr )
{
OUStringBuffer buf(128);
buf.append( "pq_driver: ");
if( errorType )
{
buf.append( "[" );
buf.appendAscii( errorType );
buf.append( "]" );
}
buf.append(
OUString( errorMsg, strlen(errorMsg) , ConnectionSettings::encoding )
+ " (caused by statement '"
+ OStringToOUString( sql, ConnectionSettings::encoding )
+ "')" );
OUString error = buf.makeStringAndClear();
SAL_WARN("connectivity.postgresql", error);
throw SQLException( error, owner, OUString(), 1, Any() );
}
// returns the elements of the primary key of the given table
// static Sequence< Reference< css::beans::XPropertySet > > lookupKeys(
static std::vector< OUString > lookupKeys(
const Reference< css::container::XNameAccess > &tables,
const OUString & table,
OUString *pSchema,
OUString *pTable)
{
std::vector< OUString > ret;
Reference< XKeysSupplier > keySupplier;
Statics & st = getStatics();
if( tables->hasByName( table ) )
tables->getByName( table ) >>= keySupplier;
else if( -1 == table.indexOf( '.' ) )
{
// it wasn't a fully qualified name. Now need to skip through all tables.
Reference< XEnumerationAccess > enumerationAccess( tables, UNO_QUERY );
Reference< css::container::XEnumeration > enumeration =
enumerationAccess->createEnumeration();
while( enumeration->hasMoreElements() )
{
Reference< XPropertySet > set;
enumeration->nextElement() >>= set;
OUString name;
// OUString schema;
if( set->getPropertyValue( st.NAME ) >>= name )
{
// printf( "searching %s %s\n",
// OUStringToOString( schema, RTL_TEXTENCODING_ASCII_US ).getStr(),
// OUStringToOString( name, RTL_TEXTENCODING_ASCII_US ).getStr() );
if( name == table )
{
if( keySupplier.is() )
{
// is ambiguous, as I don't know postgresql searchpath,
// I can't continue here, as I may write to a different table
keySupplier.clear();
SAL_INFO("connectivity.postgresql", "Can't offer updateable result set because table " << name << " is duplicated, add schema to resolve ambiguity");
break;
}
keySupplier.set( set, UNO_QUERY );
}
}
}
}
else
{
SAL_INFO("connectivity.postgresql", "Can't offer updateable result set ( table " << table << " is unknown)");
}
if( keySupplier.is() )
{
Reference< XPropertySet > set( keySupplier, UNO_QUERY );
set->getPropertyValue( getStatics().NAME ) >>= *pTable;
set->getPropertyValue( getStatics().SCHEMA_NAME ) >>= *pSchema;
set.clear();
Reference< XEnumerationAccess > keys ( keySupplier->getKeys(), UNO_QUERY );
Reference< XEnumeration > enumeration = keys->createEnumeration();
while( enumeration->hasMoreElements() )
{
enumeration->nextElement() >>= set;
sal_Int32 keyType = 0;
if( (set->getPropertyValue( st.TYPE ) >>= keyType ) &&
keyType == css::sdbcx::KeyType::PRIMARY )
{
Reference< XColumnsSupplier > columns( set, UNO_QUERY );
Reference< XIndexAccess > indexAccess( columns->getColumns(), UNO_QUERY );
int length = indexAccess->getCount();
ret.resize( length );
// printf( "primary key for Table %s is ",
// OUStringToOString( table, RTL_TEXTENCODING_ASCII_US ).getStr() );
for( int i = 0 ; i < length ; i ++ )
{
indexAccess->getByIndex( i ) >>= set;
OUString name;
set->getPropertyValue( st.NAME ) >>= name;
ret[i] = name;
// printf( "%s," , OUStringToOString( name, RTL_TEXTENCODING_ASCII_US ).getStr() );
}
// printf( "\n" );
}
}
if( ret.empty() )
{
SAL_INFO("connectivity.postgresql", "Can't offer updateable result set ( table " << table << " does not have a primary key)");
}
}
return ret;
}
bool executePostgresCommand( const OString & cmd, struct CommandData *data )
{
ConnectionSettings *pSettings = *(data->ppSettings);
sal_Int32 duration = osl_getGlobalTimer();
PGresult *result = PQexec( pSettings->pConnection, cmd.getStr() );
duration = osl_getGlobalTimer() - duration;
if( ! result )
raiseSQLException(
data->owner, cmd, PQerrorMessage( pSettings->pConnection ) );
ExecStatusType state = PQresultStatus( result );
*(data->pLastOidInserted) = 0;
data->pLastTableInserted->clear();
*(data->pLastQuery) = cmd;
bool ret = false;
switch( state )
{
case PGRES_COMMAND_OK:
{
*(data->pMultipleResultUpdateCount) = atoi( PQcmdTuples( result ) );
*(data->pMultipleResultAvailable) = false;
// in case an oid value is available, we retrieve it
*(data->pLastOidInserted) = PQoidValue( result );
// in case it was a single insert, extract the name of the table,
// otherwise the table name is empty
*(data->pLastTableInserted) =
extractTableFromInsert( OStringToOUString( cmd, ConnectionSettings::encoding ) );
OString strMain = "executed command '" + cmd + "' successfully ('" + OString::number(*( data->pMultipleResultUpdateCount ))
+ "), duration=" + OString::number(duration) + "ms";
OString strOption;
if( *(data->pLastOidInserted) )
{
strOption += ", usedOid=" + OString::number( *(data->pLastOidInserted) ) + ", diagnosedTable="
+ OUStringToOString(*data->pLastTableInserted, ConnectionSettings::encoding);
}
SAL_INFO("connectivity.postgresql", strMain + strOption);
PQclear( result );
break;
}
case PGRES_TUPLES_OK: // success
{
// In case it is a single table, it has a primary key and all columns
// belonging to the primary key are in the result set, allow updateable result sets
// otherwise, don't
OUString table, schema;
std::vector< OString > vec;
tokenizeSQL( cmd, vec );
OUString sourceTable =
OStringToOUString(
extractSingleTableFromSelect( vec ), ConnectionSettings::encoding );
if( data->concurrency ==
css::sdbc::ResultSetConcurrency::UPDATABLE )
{
OString aReason;
if( sourceTable.getLength() )
{
std::vector< OUString > sourceTableKeys = lookupKeys(
pSettings->tables.is() ?
pSettings->tables : data->tableSupplier->getTables() ,
sourceTable,
&schema,
&table);
// check, whether the columns are in the result set (required !)
std::size_t i;
for( i = 0 ; i < sourceTableKeys.size() ; i ++ )
{
if( -1 == PQfnumber(
result,
OUStringToOString( sourceTableKeys[i] ,
ConnectionSettings::encoding ).getStr()) )
{
break;
}
}
if( !sourceTableKeys.empty() && i == sourceTableKeys.size() )
{
*(data->pLastResultset) =
UpdateableResultSet::createFromPGResultSet(
data->refMutex, data->owner, data->ppSettings, result,
schema, table, std::move(sourceTableKeys) );
}
else if( ! table.getLength() )
{
aReason = "can't support updateable resultset, because a single table in the "
"WHERE part of the statement could not be identified (" + cmd + ".";
}
else if( !sourceTableKeys.empty() )
{
aReason = "can't support updateable resultset for table "
+ OUStringToOString( schema, ConnectionSettings::encoding ) + "."
+ OUStringToOString( table, ConnectionSettings::encoding )
+ ", because resultset does not contain a part of the primary key ( column "
+ OUStringToOString( sourceTableKeys[i], ConnectionSettings::encoding )
+ " is missing )";
}
else
{
aReason = "can't support updateable resultset for table "
+ OUStringToOString( schema, ConnectionSettings::encoding ) + "."
+ OUStringToOString( table, ConnectionSettings::encoding )
+ ", because resultset table does not have a primary key ";
}
}
else
{
SAL_WARN("connectivity.postgresql", "can't support updateable result for selects with multiple tables (" << cmd << ")");
}
if( ! (*(data->pLastResultset)).is() )
{
SAL_WARN("connectivity.postgresql", aReason);
// TODO: How to react here correctly ?
// remove this piece of code
*(data->pLastResultset) =
new FakedUpdateableResultSet(
data->refMutex, data->owner,
data->ppSettings,result, schema, table,
OStringToOUString( aReason, ConnectionSettings::encoding) );
}
}
else if( sourceTable.getLength() > 0)
{
splitConcatenatedIdentifier( sourceTable, &schema, &table );
}
sal_Int32 returnedRows = PQntuples( result );
if( ! data->pLastResultset->is() )
*(data->pLastResultset) =
Reference< XCloseable > (
new ResultSet(
data->refMutex, data->owner,
data->ppSettings,result, schema, table ) );
*(data->pMultipleResultAvailable) = true;
ret = true;
SAL_INFO("connectivity.postgresql", "executed query '" << cmd << "' successfully, duration=" << duration << "ms, returnedRows=" << returnedRows << ".");
break;
}
case PGRES_EMPTY_QUERY:
case PGRES_COPY_OUT:
case PGRES_COPY_IN:
case PGRES_BAD_RESPONSE:
case PGRES_NONFATAL_ERROR:
case PGRES_FATAL_ERROR:
default:
raiseSQLException(
data->owner, cmd, PQresultErrorMessage( result ) , PQresStatus( state ) );
}
return ret;
}
static Sequence< OUString > getPrimaryKeyColumnNames(
const Reference< XConnection > & connection, const OUString &schemaName, const OUString &tableName )
{
Sequence< OUString > ret;
Int2StringMap mapIndex2Name;
fillAttnum2attnameMap( mapIndex2Name, connection, schemaName, tableName );
// retrieve the primary key ...
Reference< XPreparedStatement > stmt = connection->prepareStatement(
u"SELECT conkey " // 7
"FROM pg_constraint INNER JOIN pg_class ON conrelid = pg_class.oid "
"INNER JOIN pg_namespace ON pg_class.relnamespace = pg_namespace.oid "
"LEFT JOIN pg_class AS class2 ON confrelid = class2.oid "
"LEFT JOIN pg_namespace AS nmsp2 ON class2.relnamespace=nmsp2.oid "
"WHERE pg_class.relname = ? AND pg_namespace.nspname = ? AND pg_constraint.contype='p'"_ustr );
DisposeGuard guard( stmt );
Reference< XParameters > paras( stmt, UNO_QUERY );
paras->setString( 1 , tableName );
paras->setString( 2 , schemaName );
Reference< XResultSet > rs = stmt->executeQuery();
Reference< XRow > xRow( rs , UNO_QUERY );
if( rs->next() )
{
ret = convertMappedIntArray2StringArray( mapIndex2Name, string2intarray(xRow->getString( 1 ) ) );
}
return ret;
}
static void getAutoValues(
String2StringMap & result,
const Reference< XConnection > & connection,
const OUString &schemaName,
const OUString & tableName,
const ConnectionSettings *pConnectionSettings )
{
OUString strDefaultValue = getColExprForDefaultSettingVal(pConnectionSettings);
Reference< XPreparedStatement > stmt = connection->prepareStatement(
"SELECT pg_attribute.attname, " + strDefaultValue +
"FROM pg_class, pg_namespace, pg_attribute "
"LEFT JOIN pg_attrdef ON pg_attribute.attrelid = pg_attrdef.adrelid AND "
"pg_attribute.attnum = pg_attrdef.adnum "
"WHERE pg_attribute.attrelid = pg_class.oid AND "
"pg_class.relnamespace = pg_namespace.oid AND "
"pg_namespace.nspname = ? AND "
// LEM TODO: this is weird; why "LIKE" and not "="?
// Most probably gives problems if tableName contains '%'
"pg_class.relname LIKE ? AND "
+ strDefaultValue + " != ''"
);
DisposeGuard guard( stmt );
Reference< XParameters > paras( stmt, UNO_QUERY );
paras->setString( 1 , schemaName );
paras->setString( 2 , tableName );
Reference< XResultSet > rs = stmt->executeQuery();
Reference< XRow > xRow( rs , UNO_QUERY );
while( rs->next() )
{
result[ OUStringToOString( xRow->getString( 1 ), RTL_TEXTENCODING_ASCII_US) ] =
OUStringToOString( xRow->getString(2), RTL_TEXTENCODING_ASCII_US );
}
}
Reference< XResultSet > getGeneratedValuesFromLastInsert(
ConnectionSettings *pConnectionSettings,
const Reference< XConnection > &connection,
sal_Int32 nLastOid,
std::u16string_view lastTableInserted,
const OString & lastQuery )
{
Reference< XResultSet > ret;
OUString query;
OUString schemaName, tableName;
splitConcatenatedIdentifier(
lastTableInserted, &schemaName, &tableName );
if( nLastOid && lastTableInserted.size() )
{
OUStringBuffer buf( 128 );
buf.append( "SELECT * FROM " );
if( schemaName.getLength() )
bufferQuoteQualifiedIdentifier(buf, schemaName, tableName, pConnectionSettings );
else
bufferQuoteIdentifier( buf, lastTableInserted, pConnectionSettings );
buf.append( " WHERE oid = " + OUString::number(nLastOid) );
query = buf.makeStringAndClear();
}
else if ( lastTableInserted.size() && lastQuery.getLength() )
{
// extract nameValue Pairs
String2StringMap namedValues;
extractNameValuePairsFromInsert( namedValues, lastQuery );
// debug ...
// OStringBuffer buf( 128);
// buf.append( "extracting name/value from '" );
// buf.append( lastQuery.getStr() );
// buf.append( "' to [" );
// for( String2StringMap::iterator ii = namedValues.begin() ; ii != namedValues.end() ; ++ii )
// {
// buf.append( ii->first.getStr() );
// buf.append( "=" );
// buf.append( ii->second.getStr() );
// buf.append( "," );
// }
// buf.append( "]\n" );
// printf( "%s", buf.makeStringAndClear() );
// TODO: make also unqualified tables names work here. Have a look at 2.8.3. The Schema Search Path
// in postgresql doc
const Sequence< OUString > keyColumnNames = getPrimaryKeyColumnNames( connection, schemaName, tableName );
if( keyColumnNames.hasElements() )
{
OUStringBuffer buf( 128 );
buf.append( "SELECT * FROM " );
bufferQuoteQualifiedIdentifier(buf, schemaName, tableName, pConnectionSettings );
buf.append( " WHERE " );
bool bAdditionalCondition = false;
String2StringMap autoValues;
for( OUString const & columnNameUnicode : keyColumnNames )
{
OUString value;
OString columnName = OUStringToOString( columnNameUnicode, ConnectionSettings::encoding );
bool bColumnMatchNamedValue = false;
for (auto const& namedValue : namedValues)
{
if( columnName.equalsIgnoreAsciiCase( namedValue.first ) )
{
value = OStringToOUString( namedValue.second , ConnectionSettings::encoding );
bColumnMatchNamedValue = true;
break;
}
}
// check, if a column of the primary key was not inserted explicitly,
if( !bColumnMatchNamedValue )
{
if( autoValues.empty() )
{
getAutoValues( autoValues, connection, schemaName, tableName, pConnectionSettings );
}
// this could mean, that the column is a default or auto value, check this ...
bool bColumnMatchAutoValue = false;
for (auto const& autoValue : autoValues)
{
if( columnName.equalsIgnoreAsciiCase( autoValue.first ) )
{
// it is indeed an auto value.
value = OStringToOUString(autoValue.second, RTL_TEXTENCODING_ASCII_US );
// check, whether it is a sequence
if( autoValue.second.startsWith("nextval(") )
{
// retrieve current sequence value:
OUStringBuffer myBuf(128 );
myBuf.append( "SELECT currval(" );
myBuf.appendAscii( &(autoValue.second.getStr()[8]));
value = querySingleValue( connection, myBuf.makeStringAndClear() );
}
bColumnMatchAutoValue = true;
break;
}
}
if( !bColumnMatchAutoValue )
{
// it even was no autovalue, no sense to continue as we can't query the
// inserted row
buf.truncate();
break;
}
}
if( bAdditionalCondition )
buf.append( " AND " );
bufferQuoteIdentifier( buf, columnNameUnicode, pConnectionSettings );
buf.append( " = " + value );
bAdditionalCondition = true;
}
query = buf.makeStringAndClear();
}
}
if( query.getLength() )
{
Reference< css::sdbc::XStatement > stmt = connection->createStatement();
ret = stmt->executeQuery( query );
}
return ret;
}
sal_Bool Statement::execute( const OUString& sql )
{
osl::MutexGuard guard( m_xMutex->GetMutex() );
checkClosed();
OString cmd = OUStringToOString( sql, m_pSettings );
Reference< XCloseable > lastResultSetHolder = m_lastResultset;
if( lastResultSetHolder.is() )
lastResultSetHolder->close();
m_lastResultset.clear();
m_lastTableInserted.clear();
struct CommandData data;
data.refMutex = m_xMutex;
data.ppSettings = &m_pSettings;
data.pLastOidInserted = &m_lastOidInserted;
data.pLastQuery = &m_lastQuery;
data.pMultipleResultUpdateCount = &m_multipleResultUpdateCount;
data.pMultipleResultAvailable = &m_multipleResultAvailable;
data.pLastTableInserted = &m_lastTableInserted;
data.pLastResultset = &m_lastResultset;
data.owner = *this;
data.tableSupplier.set( m_connection, UNO_QUERY );
data.concurrency =
extractIntProperty( this, getStatics().RESULT_SET_CONCURRENCY );
return executePostgresCommand( cmd , &data );
}
Reference< XConnection > Statement::getConnection( )
{
Reference< XConnection > ret;
{
MutexGuard guard( m_xMutex->GetMutex() );
checkClosed();
ret = m_connection;
}
return ret;
}
Any Statement::getWarnings( )
{
return Any();
}
void Statement::clearWarnings( )
{
}
Reference< css::sdbc::XResultSetMetaData > Statement::getMetaData()
{
Reference< css::sdbc::XResultSetMetaData > ret;
Reference< css::sdbc::XResultSetMetaDataSupplier > supplier( m_lastResultset, UNO_QUERY );
if( supplier.is() )
ret = supplier->getMetaData();
return ret;
}
::cppu::IPropertyArrayHelper & Statement::getInfoHelper()
{
return getStatementPropertyArrayHelper();
}
sal_Bool Statement::convertFastPropertyValue(
Any & rConvertedValue, Any & rOldValue, sal_Int32 nHandle, const Any& rValue )
{
rOldValue = m_props[nHandle];
bool bRet;
switch( nHandle )
{
case STATEMENT_CURSOR_NAME:
{
OUString val;
bRet = ( rValue >>= val );
rConvertedValue <<= val;
break;
}
case STATEMENT_ESCAPE_PROCESSING:
{
bool val(false);
bRet = ( rValue >>= val );
rConvertedValue <<= val;
break;
}
case STATEMENT_FETCH_DIRECTION:
case STATEMENT_FETCH_SIZE:
case STATEMENT_MAX_FIELD_SIZE:
case STATEMENT_MAX_ROWS:
case STATEMENT_QUERY_TIME_OUT:
case STATEMENT_RESULT_SET_CONCURRENCY:
case STATEMENT_RESULT_SET_TYPE:
{
sal_Int32 val;
bRet = ( rValue >>= val );
rConvertedValue <<= val;
break;
}
default:
{
throw IllegalArgumentException(
"pq_statement: Invalid property handle ("
+ OUString::number( nHandle ) + ")",
*this, 2 );
}
}
return bRet;
}
void Statement::setFastPropertyValue_NoBroadcast(
sal_Int32 nHandle,const Any& rValue )
{
m_props[nHandle] = rValue;
}
void Statement::getFastPropertyValue( Any& rValue, sal_Int32 nHandle ) const
{
rValue = m_props[nHandle];
}
Reference < XPropertySetInfo > Statement::getPropertySetInfo()
{
return OPropertySetHelper::createPropertySetInfo( getStatementPropertyArrayHelper() );
}
Reference< XResultSet > Statement::getResultSet( )
{
return Reference< XResultSet > ( m_lastResultset, css::uno::UNO_QUERY );
}
sal_Int32 Statement::getUpdateCount( )
{
return m_multipleResultUpdateCount;
}
sal_Bool Statement::getMoreResults( )
{
// The PostgreSQL C interface always returns a single result,
// so we will never have multiple ones.
// Implicitly close the open resultset (if any) as per spec,
// and setup to signal "no more result, neither as resultset,
// nor as update count".
Reference< XCloseable > lastResultSetHolder = m_lastResultset;
if( lastResultSetHolder.is() )
lastResultSetHolder->close();
m_multipleResultUpdateCount = -1;
return false;
}
void Statement::disposing()
{
close();
}
Reference< XResultSet > Statement::getGeneratedValues( )
{
osl::MutexGuard guard( m_xMutex->GetMutex() );
return getGeneratedValuesFromLastInsert(
m_pSettings, m_connection, m_lastOidInserted, m_lastTableInserted, m_lastQuery );
}
}
/* vim:set shiftwidth=4 softtabstop=4 expandtab: */
↑ V530 The return value of function 'appendAscii' is required to be utilized.
↑ V530 The return value of function 'appendAscii' is required to be utilized.
↑ V530 The return value of function 'truncate' is required to be utilized.