/************************************************************** * * 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 * * Unless required by applicable law or agreed to in writing, * software distributed under the License is distributed on an * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY * KIND, either express or implied. See the License for the * specific language governing permissions and limitations * under the License. * *************************************************************/ // MARKER(update_precomp.py): autogen include statement, do not remove #include "precompiled_cli_ure.hxx" #include #include "rtl/ustrbuf.hxx" #include "cli_base.h" #include "cli_bridge.h" namespace sr=System::Reflection; namespace css=com::sun::star; using namespace rtl; namespace cli_uno { union largest { sal_Int64 n; double d; void * p; uno_Any a; }; System::Object* Bridge::call_uno(uno_Interface * pUnoI, typelib_TypeDescription* member_td, typelib_TypeDescriptionReference * return_type, sal_Int32 nParams, typelib_MethodParameter const * pParams, System::Object * args[], System::Type* argTypes[], System::Object** ppExc) const { // return mem sal_Int32 return_size = sizeof (largest); if ((0 != return_type) && (typelib_TypeClass_STRUCT == return_type->eTypeClass || typelib_TypeClass_EXCEPTION == return_type->eTypeClass)) { TypeDescr return_td( return_type ); if (return_td.get()->nSize > sizeof (largest)) return_size = return_td.get()->nSize; } //Prepare memory that contains all converted arguments and return valuse //The memory block contains first pointers to the arguments which are in the same block // For example, 2 arguments, 1 ret. // // | Pointer // | Pointer // | Return value // | Arg 1 // | Arg 2 // // If an argument is larger then union largest, such as some structures, then the pointer // points to an extra block of memory. The same goes for a big return value. char * mem = (char *)alloca( (nParams * sizeof (void *)) + return_size + (nParams * sizeof (largest)) ); //array of pointers to args void ** uno_args = (void **)mem; //If an attribute is set, then uno_ret must be null, e.g void setAttribute(int ) void * uno_ret= NULL; if ( !(member_td->eTypeClass == typelib_TypeClass_INTERFACE_ATTRIBUTE && nParams == 1)) uno_ret = (mem + (nParams * sizeof (void *))); largest * uno_args_mem = (largest *)(mem + (nParams * sizeof (void *)) + return_size); OSL_ASSERT( (0 == nParams) || (nParams == args->get_Length()) ); for ( sal_Int32 nPos = 0; nPos < nParams; ++nPos ) { typelib_MethodParameter const & param = pParams[ nPos ]; typelib_TypeDescriptionReference * type = param.pTypeRef; uno_args[ nPos ] = &uno_args_mem[ nPos ]; if (typelib_TypeClass_STRUCT == type->eTypeClass || typelib_TypeClass_EXCEPTION == type->eTypeClass) { TypeDescr td( type ); if (td.get()->nSize > sizeof (largest)) uno_args[ nPos ] = alloca( td.get()->nSize ); } if (param.bIn) { try { // in, in/out params map_to_uno( uno_args[ nPos ],args[nPos] , type, false /* no assign */); } catch (...) { // cleanup uno in args for (sal_Int32 n = 0; n < nPos; ++n) { typelib_MethodParameter const & param = pParams[n]; if (param.bIn) { uno_type_destructData(uno_args[n], param.pTypeRef, 0); } } throw; } } } uno_Any uno_exc_holder; uno_Any * uno_exc = &uno_exc_holder; // call binary uno (*pUnoI->pDispatcher)( pUnoI, member_td, uno_ret, uno_args, &uno_exc ); if (0 == uno_exc) { // convert out args; destruct uno args for ( sal_Int32 nPos = 0; nPos < nParams; ++nPos ) { typelib_MethodParameter const & param = pParams[ nPos ]; typelib_TypeDescriptionReference * type = param.pTypeRef; if (param.bOut) { try { map_to_cli( &args[nPos], uno_args[nPos], param.pTypeRef, argTypes != NULL ? argTypes[nPos] : NULL, false ); } catch (...) { // cleanup further uno args for ( sal_Int32 n = nPos; n < nParams; ++n ) { uno_type_destructData( uno_args[n], pParams[n].pTypeRef, 0 ); } // cleanup uno return value uno_type_destructData( uno_ret, return_type, 0 ); throw; } } //cleanup args if (typelib_TypeClass_DOUBLE < type->eTypeClass && typelib_TypeClass_ENUM != type->eTypeClass) // opt { uno_type_destructData(uno_args[nPos], type, 0); } } if ((0 != return_type) && (typelib_TypeClass_VOID != return_type->eTypeClass)) { // convert uno return value try { System::Object* cli_ret; map_to_cli( &cli_ret, uno_ret, return_type, 0, false); uno_type_destructData(uno_ret, return_type, 0); return cli_ret; } catch (...) { uno_type_destructData(uno_ret, return_type, 0); throw; } } return 0; // void return } else // exception occurred { // destruct uno in args for ( sal_Int32 nPos = 0; nPos < nParams; ++nPos ) { typelib_MethodParameter const & param = pParams[ nPos ]; if (param.bIn) { uno_type_destructData( uno_args[ nPos ], param.pTypeRef, 0 ); } } map_to_cli(ppExc, uno_exc_holder.pData, uno_exc_holder.pType, NULL, false); return 0; } } void Bridge::call_cli( System::Object* cliI, sr::MethodInfo* method, typelib_TypeDescriptionReference * return_type, typelib_MethodParameter * params, int nParams, void * uno_ret, void * uno_args [], uno_Any ** uno_exc ) const { System::Object *args[]= new System::Object*[nParams]; for (int nPos= 0; nPos < nParams; nPos++) { typelib_MethodParameter const & param= params[nPos]; if (param.bIn) { map_to_cli( &args[nPos], uno_args[nPos], param.pTypeRef, 0, false); } } System::Object* retInvoke= NULL; try { retInvoke= method->Invoke(cliI, args); } catch (sr::TargetInvocationException* e) { System::Exception* exc= e->get_InnerException(); css::uno::TypeDescription td(mapCliType(exc->GetType())); // memory for exception std::auto_ptr< rtl_mem > memExc(rtl_mem::allocate(td.get()->nSize)); map_to_uno(memExc.get(), exc, td.get()->pWeakRef, false); (*uno_exc)->pType= td.get()->pWeakRef; (*uno_exc)->pData= memExc.release(); return; } catch (System::Exception* e) { OUStringBuffer buf( 128 ); buf.appendAscii( RTL_CONSTASCII_STRINGPARAM( "Unexspected exception during invocation of cli object. " "Original message is: \n") ); buf.append(mapCliString(e->get_Message())); throw BridgeRuntimeError( buf.makeStringAndClear() ); } //convert out, in/out params for (int nPos = 0; nPos < nParams; ++nPos ) { typelib_MethodParameter const & param = params[ nPos ]; if (param.bOut) { try { map_to_uno( uno_args[ nPos ], args[ nPos ], param.pTypeRef, sal_True == param.bIn /* assign if inout */); // out array } catch (...) { // cleanup uno pure out for ( sal_Int32 n = 0; n < nPos; ++n ) { typelib_MethodParameter const & param = params[ n ]; if (! param.bIn) uno_type_destructData( uno_args[ n ], param.pTypeRef, 0 ); } throw; } } } // return value if (0 != return_type) { map_to_uno( uno_ret, retInvoke, return_type, false /* no assign */); } // no exception occurred *uno_exc = 0; } }