/* -*- 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 . */ // Documentation pointers for recent work: // // https://www.codeproject.com/Articles/9014/Understanding-COM-Event-Handling // https://blogs.msdn.microsoft.com/ericlippert/2005/02/15/why-does-wscript-connectobject-not-always-work/ #include "ole2uno.hxx" #include #include #include #include #include #if defined _MSC_VER && defined __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wall" #pragma clang diagnostic ignored "-Wattributes" #pragma clang diagnostic ignored "-Wdelete-incomplete" #pragma clang diagnostic ignored "-Wdynamic-class-memaccess" #pragma clang diagnostic ignored "-Wextra" #pragma clang diagnostic ignored "-Wint-to-pointer-cast" #pragma clang diagnostic ignored "-Winvalid-noreturn" #pragma clang diagnostic ignored "-Wmicrosoft" #pragma clang diagnostic ignored "-Wnon-pod-varargs" #pragma clang diagnostic ignored "-Wnon-virtual-dtor" #pragma clang diagnostic ignored "-Wnonportable-include-path" #pragma clang diagnostic ignored "-Wsequence-point" #pragma clang diagnostic ignored "-Wtypename-missing" #endif #include #include #if defined _MSC_VER && defined __clang__ #pragma clang diagnostic pop #endif #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "comifaces.hxx" #include "jscriptclasses.hxx" #include "unotypewrapper.hxx" #include "oleobjw.hxx" #include "unoobjw.hxx" #include "servprov.hxx" using namespace osl; using namespace cppu; using namespace com::sun::star::uno; using namespace com::sun::star::beans; using namespace com::sun::star::container; using namespace com::sun::star::script; using namespace com::sun::star::lang; using namespace com::sun::star::bridge::ModelDependent; using namespace com::sun::star::reflection; std::unordered_map > UnoObjToWrapperMap; static bool writeBackOutParameter(VARIANTARG* pDest, VARIANT* pSource); static bool writeBackOutParameter2( VARIANTARG* pDest, VARIANT* pSource); static HRESULT mapCannotConvertException(const CannotConvertException &e, unsigned int * puArgErr); /* Does not throw any exceptions. Param pInfo can be NULL. */ static void writeExcepinfo(EXCEPINFO * pInfo, const OUString& message) { if (pInfo != nullptr) { pInfo->wCode = UNO_2_OLE_EXCEPTIONCODE; pInfo->bstrSource = SysAllocString(L"[automation bridge] "); pInfo->bstrDescription = SysAllocString(o3tl::toW(message.getStr())); } } InterfaceOleWrapper::InterfaceOleWrapper( Reference const & xFactory, sal_uInt8 unoWrapperClass, sal_uInt8 comWrapperClass): UnoConversionUtilities( xFactory, unoWrapperClass, comWrapperClass), m_defaultValueType( 0) { } InterfaceOleWrapper::~InterfaceOleWrapper() { MutexGuard guard(getBridgeMutex()); // remove entries in global map auto it = UnoObjToWrapperMap.find( reinterpret_cast(m_xOrigin.get())); if(it != UnoObjToWrapperMap.end()) UnoObjToWrapperMap.erase(it); } COM_DECLSPEC_NOTHROW STDMETHODIMP InterfaceOleWrapper::QueryInterface(REFIID riid, void ** ppv) { comphelper::Automation::AutomationInvokedZone aAutomationActive; SAL_INFO("extensions.olebridge", this << "@InterfaceOleWrapper::QueryInterface(" << riid << ")"); HRESULT ret= S_OK; if( !ppv) return E_POINTER; if(IsEqualIID(riid, IID_IUnknown)) { AddRef(); *ppv = static_cast(static_cast(this)); SAL_INFO("extensions.olebridge", " " << *ppv); } else if (IsEqualIID(riid, IID_IDispatch)) { AddRef(); *ppv = static_cast(this); SAL_INFO("extensions.olebridge", " " << *ppv); } else if (IsEqualIID(riid, IID_IProvideClassInfo)) { Reference xConnectable(m_xOrigin, UNO_QUERY); if (!xConnectable.is()) return E_NOINTERFACE; AddRef(); *ppv = static_cast(this); SAL_INFO("extensions.olebridge", " " << *ppv); } else if (IsEqualIID(riid, IID_IConnectionPointContainer)) { Reference xConnectable(m_xOrigin, UNO_QUERY); if (!xConnectable.is()) return E_NOINTERFACE; AddRef(); *ppv = static_cast(this); SAL_INFO("extensions.olebridge", " " << *ppv); } else if( IsEqualIID( riid, __uuidof( IUnoObjectWrapper))) { AddRef(); *ppv= static_cast(this); SAL_INFO("extensions.olebridge", " " << *ppv); } else ret= E_NOINTERFACE; return ret; } COM_DECLSPEC_NOTHROW STDMETHODIMP_(ULONG) InterfaceOleWrapper::AddRef() { acquire(); // does not need to guard because one should not rely on the return value of // AddRef anyway return m_refCount; } COM_DECLSPEC_NOTHROW STDMETHODIMP_(ULONG) InterfaceOleWrapper::Release() { ULONG n= m_refCount; release(); return n - 1; } // IUnoObjectWrapper -------------------------------------------------------- COM_DECLSPEC_NOTHROW STDMETHODIMP InterfaceOleWrapper::getWrapperXInterface( Reference* pXInt) { pXInt->set( static_cast( this), UNO_QUERY); return pXInt->is() ? S_OK : E_FAIL; } COM_DECLSPEC_NOTHROW STDMETHODIMP InterfaceOleWrapper::getOriginalUnoObject( Reference* pXInt) { *pXInt= m_xOrigin; return m_xOrigin.is() ? S_OK : E_FAIL; } COM_DECLSPEC_NOTHROW STDMETHODIMP InterfaceOleWrapper::getOriginalUnoStruct( Any * pStruct) { comphelper::Automation::AutomationInvokedZone aAutomationActive; HRESULT ret= E_FAIL; if( !m_xOrigin.is()) { Reference xMatHolder( m_xInvocation, UNO_QUERY); if( xMatHolder.is()) { Any any = xMatHolder->getMaterial(); if( any.getValueTypeClass() == TypeClass_STRUCT) { *pStruct= any; ret= S_OK; } } } return ret; } COM_DECLSPEC_NOTHROW STDMETHODIMP InterfaceOleWrapper::GetTypeInfoCount( UINT *pctinfo ) { SAL_INFO("extensions.olebridge", this << "@InterfaceOleWrapper::GetTypeInfoCount"); if (!pctinfo) return E_POINTER; *pctinfo = 1; return S_OK; } namespace { class CXTypeInfo : public ITypeInfo, public CComObjectRoot { public: enum class Kind { COCLASS, MAIN, OUTGOING }; #if defined __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wunused-function" #endif BEGIN_COM_MAP(CXTypeInfo) #if defined __clang__ #pragma clang diagnostic pop #endif COM_INTERFACE_ENTRY(ITypeInfo) #if defined __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Winconsistent-missing-override" #pragma clang diagnostic ignored "-Wunused-function" #endif END_COM_MAP() #if defined __clang__ #pragma clang diagnostic pop #endif DECLARE_NOT_AGGREGATABLE(CXTypeInfo) virtual ~CXTypeInfo() {} void InitForCoclass(Reference xOrigin, const OUString& sImplementationName, const IID& rIID, Reference xMSF); void InitForClassItself(Reference xOrigin, const OUString& sImplementationName, const IID& rIID, Reference xMSF); void InitForOutgoing(Reference xOrigin, const OUString& sInterfaceName, const IID& rIID, Reference xMSF, Type aType); virtual HRESULT STDMETHODCALLTYPE GetTypeAttr(TYPEATTR **ppTypeAttr) override; virtual HRESULT STDMETHODCALLTYPE GetTypeComp(ITypeComp **ppTComp) override; virtual HRESULT STDMETHODCALLTYPE GetFuncDesc(UINT index, FUNCDESC **ppFuncDesc) override; virtual HRESULT STDMETHODCALLTYPE GetVarDesc(UINT index, VARDESC **ppVarDesc) override; virtual HRESULT STDMETHODCALLTYPE GetNames(MEMBERID memid, BSTR *rgBstrNames, UINT cMaxNames, UINT *pcNames) override; virtual HRESULT STDMETHODCALLTYPE GetRefTypeOfImplType(UINT index, HREFTYPE *pRefType) override; virtual HRESULT STDMETHODCALLTYPE GetImplTypeFlags(UINT index, INT *pImplTypeFlags) override; virtual HRESULT STDMETHODCALLTYPE GetIDsOfNames(LPOLESTR *rgszNames, UINT cNames, MEMBERID *pMemId) override; virtual HRESULT STDMETHODCALLTYPE Invoke(PVOID pvInstance, MEMBERID memid, WORD wFlags, DISPPARAMS *pDispParams, VARIANT *pVarResult, EXCEPINFO *pExcepInfo, UINT *puArgErr) override; virtual HRESULT STDMETHODCALLTYPE GetDocumentation(MEMBERID memid, BSTR *pBstrName, BSTR *pBstrDocString, DWORD *pdwHelpContext, BSTR *pBstrHelpFile) override; virtual HRESULT STDMETHODCALLTYPE GetDllEntry(MEMBERID memid, INVOKEKIND invKind, BSTR *pBstrDllName, BSTR *pBstrName, WORD *pwOrdinal) override; virtual HRESULT STDMETHODCALLTYPE GetRefTypeInfo(HREFTYPE hRefType, ITypeInfo **ppTInfo) override; virtual HRESULT STDMETHODCALLTYPE AddressOfMember(MEMBERID memid, INVOKEKIND invKind, PVOID *ppv) override; virtual HRESULT STDMETHODCALLTYPE CreateInstance(IUnknown *pUnkOuter, REFIID riid, PVOID *ppvObj) override; virtual HRESULT STDMETHODCALLTYPE GetMops(MEMBERID memid, BSTR *pBstrMops) override; virtual HRESULT STDMETHODCALLTYPE GetContainingTypeLib(ITypeLib **ppTLib, UINT *pIndex) override; virtual void STDMETHODCALLTYPE ReleaseTypeAttr(TYPEATTR *pTypeAttr) override; virtual void STDMETHODCALLTYPE ReleaseFuncDesc(FUNCDESC *pFuncDesc) override; virtual void STDMETHODCALLTYPE ReleaseVarDesc(VARDESC *pVarDesc) override; private: Kind meKind; Reference mxOrigin; OUString msImplementationName; OUString msInterfaceName; IID maIID; Reference mxMSF; Type maType; }; class CXTypeLib : public ITypeLib, public CComObjectRoot { public: #if defined __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wunused-function" #endif BEGIN_COM_MAP(CXTypeLib) #if defined __clang__ #pragma clang diagnostic pop #endif COM_INTERFACE_ENTRY(ITypeLib) #if defined __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Winconsistent-missing-override" #pragma clang diagnostic ignored "-Wunused-function" #endif END_COM_MAP() #if defined __clang__ #pragma clang diagnostic pop #endif DECLARE_NOT_AGGREGATABLE(CXTypeLib) virtual ~CXTypeLib() {} void Init(Reference xOrigin, const OUString& sImplementationName, Reference xMSF) { SAL_INFO("extensions.olebridge", this << "@CXTypeLib::Init for " << sImplementationName); mxOrigin = xOrigin; msImplementationName = sImplementationName; mxMSF = xMSF; } virtual UINT STDMETHODCALLTYPE GetTypeInfoCount() override { SAL_WARN("extensions.olebridge", this << "@CXTypeLib::GetTypeInfoCount"); return 1; } virtual HRESULT STDMETHODCALLTYPE GetTypeInfo(UINT, ITypeInfo **) override { SAL_WARN("extensions.olebridge", this << "@CXTypeLib::GetTypeInfo: E_NOTIMPL"); return E_NOTIMPL; } virtual HRESULT STDMETHODCALLTYPE GetTypeInfoType(UINT, TYPEKIND *) override { SAL_WARN("extensions.olebridge", this << "@CXTypeLib::GetTypeInfoType: E_NOTIMPL"); return E_NOTIMPL; } virtual HRESULT STDMETHODCALLTYPE GetTypeInfoOfGuid(REFGUID guid, ITypeInfo **ppTInfo) override { comphelper::Automation::AutomationInvokedZone aAutomationActive; SAL_INFO("extensions.olebridge", this << "@CXTypeLib::GetTypeInfoOfGuid(" << guid << ")"); if (!ppTInfo) return E_POINTER; Reference xConnectable(mxOrigin, UNO_QUERY); if (!xConnectable.is()) return TYPE_E_ELEMENTNOTFOUND; IID aIID; if (SUCCEEDED(IIDFromString(reinterpret_cast(xConnectable->getIID().pData->buffer), &aIID))) { if (IsEqualIID(guid, aIID)) { HRESULT ret; CComObject* pTypeInfo; ret = CComObject::CreateInstance(&pTypeInfo); if (FAILED(ret)) return ret; pTypeInfo->AddRef(); pTypeInfo->InitForCoclass(mxOrigin, msImplementationName, aIID, mxMSF); *ppTInfo = pTypeInfo; return S_OK; } } #if 0 ooo::vba::TypeAndIID aTypeAndIID = xConnectable->GetConnectionPoint(); IID aIID; if (SUCCEEDED(IIDFromString((LPOLESTR)aTypeAndIID.IID.pData->buffer, &aIID))) { HRESULT ret; CComObject* pTypeInfo; ret = CComObject::CreateInstance(&pTypeInfo); if (FAILED(ret)) return ret; pTypeInfo->AddRef(); pTypeInfo->InitForOutgoing(mxOrigin, msImplementationName, aIID, mxMSF); *ppTInfo = pTypeInfo; return S_OK; } #else SAL_WARN("extensions.olebridge", "Not implemented: GetTypeInfoOfGuid(" << guid << ")"); #endif return TYPE_E_ELEMENTNOTFOUND; } virtual HRESULT STDMETHODCALLTYPE GetLibAttr(TLIBATTR **) override { SAL_WARN("extensions.olebridge", this << "@CXTypeLib::GetLibAttr: E_NOTIMPL"); return E_NOTIMPL; } virtual HRESULT STDMETHODCALLTYPE GetTypeComp(ITypeComp **) override { SAL_WARN("extensions.olebridge", this << "@CXTypeLib::GetTypeComp: E_NOTIMPL"); return E_NOTIMPL; } virtual HRESULT STDMETHODCALLTYPE GetDocumentation(INT, BSTR *, BSTR *, DWORD *, BSTR *) override { SAL_WARN("extensions.olebridge", this << "@CXTypeLib::GetDocumentation: E_NOTIMPL"); return E_NOTIMPL; } virtual HRESULT STDMETHODCALLTYPE IsName(LPOLESTR, ULONG, BOOL *) override { SAL_WARN("extensions.olebridge", this << "@CXTypeLib:IsName: E_NOTIMPL"); return E_NOTIMPL; } virtual HRESULT STDMETHODCALLTYPE FindName(LPOLESTR, ULONG, ITypeInfo **, MEMBERID *, USHORT *) override { SAL_WARN("extensions.olebridge", this << "@CXTypeLib::FindName: E_NOTIMPL"); return E_NOTIMPL; } virtual void STDMETHODCALLTYPE ReleaseTLibAttr(TLIBATTR *) override { SAL_WARN("extensions.olebridge", this << "@CXTypeLib::ReleaseTLibAttr: E_NOTIMPL"); } private: Reference mxOrigin; OUString msImplementationName; Reference mxMSF; }; } void CXTypeInfo::InitForCoclass(Reference xOrigin, const OUString& sImplementationName, const IID& rIID, Reference xMSF) { SAL_INFO("extensions.olebridge", this << "@CXTypeInfo::InitForCoclass(" << sImplementationName << "," << rIID << ")"); meKind = Kind::COCLASS; mxOrigin = xOrigin; msImplementationName = sImplementationName; maIID = rIID; mxMSF = xMSF; } void CXTypeInfo::InitForClassItself(Reference xOrigin, const OUString& sImplementationName, const IID& rIID, Reference xMSF) { SAL_INFO("extensions.olebridge", this << "@CXTypeInfo::InitForClassItself(" << sImplementationName << "," << rIID << ")"); meKind = Kind::MAIN; mxOrigin = xOrigin; msImplementationName = sImplementationName; maIID = rIID; mxMSF = xMSF; } void CXTypeInfo::InitForOutgoing(Reference xOrigin, const OUString& sInterfaceName, const IID& rIID, Reference xMSF, Type aType) { SAL_INFO("extensions.olebridge", this << "@CXTypeInfo::InitForOutgoing(" << sInterfaceName << "," << rIID << ")"); meKind = Kind::OUTGOING; mxOrigin = xOrigin; msInterfaceName = sInterfaceName; maIID = rIID; mxMSF = xMSF; maType = aType; } HRESULT STDMETHODCALLTYPE CXTypeInfo::GetTypeAttr(TYPEATTR **ppTypeAttr) { comphelper::Automation::AutomationInvokedZone aAutomationActive; SAL_INFO("extensions.olebridge", this << "@CXTypeInfo::GetTypeAttr"); if (!ppTypeAttr) return E_POINTER; assert(!IsEqualIID(maIID, IID_NULL)); TYPEATTR *pTypeAttr = new TYPEATTR; memset(pTypeAttr, 0, sizeof(*pTypeAttr)); pTypeAttr->guid = maIID; if (meKind == Kind::COCLASS) { pTypeAttr->typekind = TKIND_COCLASS; pTypeAttr->cFuncs = 0; pTypeAttr->cVars = 0; pTypeAttr->cImplTypes = 3; pTypeAttr->cbSizeVft = 0; pTypeAttr->cbAlignment = 8; pTypeAttr->wTypeFlags = TYPEFLAG_FCANCREATE; } else if (meKind == Kind::MAIN) { pTypeAttr->typekind = TKIND_DISPATCH; pTypeAttr->cFuncs = 10; // FIXME, dummy pTypeAttr->cVars = 0; pTypeAttr->cImplTypes = 1; // FIXME: I think this is always supposed to be as if just for the seven methods in // IDIspatch? pTypeAttr->cbSizeVft = 7 * sizeof(void*); pTypeAttr->cbAlignment = 8; pTypeAttr->wTypeFlags = TYPEFLAG_FHIDDEN|TYPEFLAG_FDISPATCHABLE; } else if (meKind == Kind::OUTGOING) { pTypeAttr->typekind = TKIND_DISPATCH; Reference xRefl = theCoreReflection::get(comphelper::getComponentContext(mxMSF)); assert(xRefl.is()); Reference xClass = xRefl->forName(maType.getTypeName()); assert(xClass.is()); auto aMethods = xClass->getMethods(); assert(xClass->getTypeClass() == TypeClass_INTERFACE && aMethods.getLength() > 0); // Drop the three XInterface methods, add the three corresponding IUnknown ones plus the // four IDispatch ones on top of that. pTypeAttr->cFuncs = aMethods.getLength() - 3 + 3 + 4; pTypeAttr->cVars = 0; pTypeAttr->cImplTypes = 1; // FIXME: I think this, too, is always supposed to be as if just for the seven methods in // IDIspatch? pTypeAttr->cbSizeVft = 7 * sizeof(void*); pTypeAttr->cbAlignment = 8; pTypeAttr->wTypeFlags = TYPEFLAG_FHIDDEN|TYPEFLAG_FNONEXTENSIBLE|TYPEFLAG_FDISPATCHABLE; } else assert(false); pTypeAttr->lcid = LOCALE_USER_DEFAULT; pTypeAttr->memidConstructor = MEMBERID_NIL; pTypeAttr->memidDestructor = MEMBERID_NIL; // FIXME: Is this correct, just the vtable pointer, right? pTypeAttr->cbSizeInstance = sizeof(void*); pTypeAttr->wMajorVerNum = 0; pTypeAttr->wMinorVerNum = 0; pTypeAttr->idldescType.wIDLFlags = IDLFLAG_NONE; SAL_INFO("extensions.olebridge", this << "@CXTypeInfo::GetTypeAttr: " << pTypeAttr); *ppTypeAttr = pTypeAttr; return S_OK; } HRESULT STDMETHODCALLTYPE CXTypeInfo::GetTypeComp(ITypeComp **) { SAL_WARN("extensions.olebridge", this << "@CXTypeInfo::GetTypeComp: E_NOTIMPL"); return E_NOTIMPL; } HRESULT STDMETHODCALLTYPE CXTypeInfo::GetFuncDesc(UINT index, FUNCDESC **ppFuncDesc) { comphelper::Automation::AutomationInvokedZone aAutomationActive; if (!ppFuncDesc) return E_POINTER; if (meKind != Kind::OUTGOING) return E_NOTIMPL; if (index <= 6) { *ppFuncDesc = new FUNCDESC; (*ppFuncDesc)->memid = 0x60000000 + index; (*ppFuncDesc)->lprgscode = nullptr; (*ppFuncDesc)->lprgelemdescParam = nullptr; (*ppFuncDesc)->funckind = FUNC_DISPATCH; (*ppFuncDesc)->invkind = INVOKE_FUNC; (*ppFuncDesc)->callconv = CC_STDCALL; switch (index) { case 0: // QueryInterface (*ppFuncDesc)->cParams = 2; (*ppFuncDesc)->elemdescFunc.tdesc.lptdesc = nullptr; (*ppFuncDesc)->elemdescFunc.tdesc.vt = VT_VOID; break; case 1: // AddRef (*ppFuncDesc)->cParams = 0; (*ppFuncDesc)->elemdescFunc.tdesc.lptdesc = nullptr; (*ppFuncDesc)->elemdescFunc.tdesc.vt = VT_UI4; break; case 2: // Release (*ppFuncDesc)->cParams = 1; (*ppFuncDesc)->elemdescFunc.tdesc.lptdesc = nullptr; (*ppFuncDesc)->elemdescFunc.tdesc.vt = VT_UI4; break; case 3: // GetTypeInfoCount (*ppFuncDesc)->cParams = 1; (*ppFuncDesc)->elemdescFunc.tdesc.lptdesc = nullptr; (*ppFuncDesc)->elemdescFunc.tdesc.vt = VT_VOID; break; case 4: // GetTypeInfo (*ppFuncDesc)->cParams = 3; (*ppFuncDesc)->elemdescFunc.tdesc.lptdesc = nullptr; (*ppFuncDesc)->elemdescFunc.tdesc.vt = VT_VOID; break; case 5: // GetIDsOfNames (*ppFuncDesc)->cParams = 5; (*ppFuncDesc)->elemdescFunc.tdesc.lptdesc = nullptr; (*ppFuncDesc)->elemdescFunc.tdesc.vt = VT_VOID; break; case 6: // Invoke (*ppFuncDesc)->cParams = 8; (*ppFuncDesc)->elemdescFunc.tdesc.lptdesc = nullptr; (*ppFuncDesc)->elemdescFunc.tdesc.vt = VT_VOID; break; } (*ppFuncDesc)->cParamsOpt = 0; (*ppFuncDesc)->oVft = index * sizeof(void*); (*ppFuncDesc)->cScodes = 0; (*ppFuncDesc)->wFuncFlags = FUNCFLAG_FRESTRICTED; SAL_INFO("extensions.olebridge", this << "@CXTypeInfo::GetFuncDesc(" << index << "): S_OK: " << *ppFuncDesc); return S_OK; } Reference xRefl = theCoreReflection::get(comphelper::getComponentContext(mxMSF)); assert(xRefl.is()); Reference xClass = xRefl->forName(maType.getTypeName()); assert(xClass.is()); auto aMethods = xClass->getMethods(); assert(xClass->getTypeClass() == TypeClass_INTERFACE && aMethods.getLength() > 0); if (index > o3tl::make_unsigned(aMethods.getLength() - 3 + 3 + 4)) return E_INVALIDARG; *ppFuncDesc = new FUNCDESC; (*ppFuncDesc)->memid = index - 6; (*ppFuncDesc)->lprgscode = nullptr; (*ppFuncDesc)->lprgelemdescParam = nullptr; (*ppFuncDesc)->funckind = FUNC_DISPATCH; (*ppFuncDesc)->invkind = INVOKE_FUNC; (*ppFuncDesc)->callconv = CC_STDCALL; (*ppFuncDesc)->cParams = aMethods[index - 4]->getParameterInfos().getLength(); (*ppFuncDesc)->cParamsOpt = 0; (*ppFuncDesc)->oVft = index * sizeof(void*); (*ppFuncDesc)->cScodes = 0; (*ppFuncDesc)->elemdescFunc.tdesc.lptdesc = nullptr; // ??? (*ppFuncDesc)->elemdescFunc.tdesc.vt = VT_VOID; // ??? (*ppFuncDesc)->wFuncFlags = 0; SAL_INFO("extensions.olebridge", this << "@CXTypeInfo::GetFuncDesc(" << index << "): S_OK: " << *ppFuncDesc); return S_OK; } HRESULT STDMETHODCALLTYPE CXTypeInfo::GetVarDesc(UINT, VARDESC **) { SAL_WARN("extensions.olebridge", this << "@CXTypeInfo::GetVarDesc: E_NOTIMPL"); return E_NOTIMPL; } HRESULT STDMETHODCALLTYPE CXTypeInfo::GetNames(MEMBERID memid, BSTR *rgBstrNames, UINT cMaxNames, UINT *pcNames) { comphelper::Automation::AutomationInvokedZone aAutomationActive; SAL_INFO("extensions.olebridge", this << "@CXTypeInfo::GetNames(" << memid << ")"); assert(meKind != Kind::COCLASS); if (!rgBstrNames) return E_POINTER; if (!pcNames) return E_POINTER; if (memid < 1) return E_INVALIDARG; if (cMaxNames < 1) return E_INVALIDARG; if (meKind == Kind::MAIN) { SAL_WARN("extensions.olebridge", "GetNames() for MAIN not implemented"); return E_NOTIMPL; } Reference xRefl = theCoreReflection::get(comphelper::getComponentContext(mxMSF)); assert(xRefl.is()); Reference xClass = xRefl->forName(maType.getTypeName()); assert(xClass.is()); auto aMethods = xClass->getMethods(); assert(xClass->getTypeClass() == TypeClass_INTERFACE && aMethods.getLength() > 0); // Subtract the three XInterface methods. Memid for the first following method is 1. if (memid > aMethods.getLength() - 3) return E_INVALIDARG; SAL_INFO("extensions.olebridge", "..." << this << "@CXTypeInfo::GetNames(" << memid << "): " << aMethods[memid + 2]->getName()); rgBstrNames[0] = SysAllocString(reinterpret_cast(aMethods[memid + 2]->getName().pData->buffer)); *pcNames = 1; return S_OK; } HRESULT STDMETHODCALLTYPE CXTypeInfo::GetRefTypeOfImplType(UINT index, HREFTYPE *pRefType) { SAL_INFO("extensions.olebridge", this << "@CXTypeInfo::GetRefTypeOfImplType(" << index << ")"); if (!pRefType) return E_POINTER; assert(index == 0 || index == 1); *pRefType = 1000+index; return S_OK; } HRESULT STDMETHODCALLTYPE CXTypeInfo::GetImplTypeFlags(UINT index, INT *pImplTypeFlags) { comphelper::Automation::AutomationInvokedZone aAutomationActive; SAL_INFO("extensions.olebridge", this << "@CXTypeInfo::GetImplTypeFlags(" << index << ")"); if (!pImplTypeFlags) return E_POINTER; assert(meKind == Kind::COCLASS); assert(index == 0 || index == 1); if (index == 0) *pImplTypeFlags = IMPLTYPEFLAG_FDEFAULT; else if (index == 1) *pImplTypeFlags = IMPLTYPEFLAG_FDEFAULT|IMPLTYPEFLAG_FSOURCE; return S_OK; } HRESULT STDMETHODCALLTYPE CXTypeInfo::GetIDsOfNames(LPOLESTR *, UINT, MEMBERID *) { SAL_WARN("extensions.olebridge", this << "@CXTypeInfo::GetIDsOfNames: E_NOTIMPL"); return E_NOTIMPL; } HRESULT STDMETHODCALLTYPE CXTypeInfo::Invoke(PVOID, MEMBERID, WORD, DISPPARAMS *, VARIANT *, EXCEPINFO *, UINT *) { SAL_WARN("extensions.olebridge", this << "@CXTypeInfo::Invoke: E_NOTIMPL"); return E_NOTIMPL; } HRESULT STDMETHODCALLTYPE CXTypeInfo::GetDocumentation(MEMBERID memid, BSTR *pBstrName, BSTR *pBstrDocString, DWORD *pdwHelpContext, BSTR *pBstrHelpFile) { comphelper::Automation::AutomationInvokedZone aAutomationActive; SAL_INFO("extensions.olebridge", this << "@CXTypeInfo::GetDocumentation(" << memid << ")"); if (pBstrName) { if (memid == MEMBERID_NIL) { *pBstrName = SysAllocString(o3tl::toW(msImplementationName.getStr())); } else if (memid == DISPID_VALUE) { // MEMBERIDs are the same as DISPIDs, apparently? *pBstrName = SysAllocString(L"Value"); } else { // FIXME: Shouldn't we be able to know the names of the members of UNO interfaces? *pBstrName = SysAllocString(o3tl::toW(OUString("UnknownNameOfMember#" + OUString::number(memid)).getStr())); } } if (pBstrDocString) *pBstrDocString = SysAllocString(L""); if (pdwHelpContext) *pdwHelpContext = 0; if (pBstrHelpFile) *pBstrHelpFile = nullptr; return S_OK; } HRESULT STDMETHODCALLTYPE CXTypeInfo::GetDllEntry(MEMBERID, INVOKEKIND, BSTR *, BSTR *, WORD *) { SAL_WARN("extensions.olebridge", this << "@CXTypeInfo::GetDllEntry: E_NOTIMPL"); return E_NOTIMPL; } HRESULT STDMETHODCALLTYPE CXTypeInfo::GetRefTypeInfo(HREFTYPE hRefType, ITypeInfo **ppTInfo) { comphelper::Automation::AutomationInvokedZone aAutomationActive; SAL_INFO("extensions.olebridge", this << "@CXTypeInfo::GetRefTypeInfo(" << hRefType << ")"); if (!ppTInfo) return E_POINTER; // FIXME: Is it correct to assume that the only interfaces on which GetRefTypeInfo() would be // called are those that implement ooo::vba::XConnectable? Reference xConnectable(mxOrigin, UNO_QUERY); if (!xConnectable.is()) return E_NOTIMPL; ooo::vba::TypeAndIID aTypeAndIID = xConnectable->GetConnectionPoint(); IID aIID; if (!SUCCEEDED(IIDFromString(reinterpret_cast(aTypeAndIID.IID.pData->buffer), &aIID))) return E_NOTIMPL; HRESULT ret; CComObject* pTypeInfo; ret = CComObject::CreateInstance(&pTypeInfo); if (FAILED(ret)) return ret; pTypeInfo->AddRef(); pTypeInfo->InitForOutgoing(mxOrigin, aTypeAndIID.Type.getTypeName(), aIID, mxMSF, aTypeAndIID.Type); *ppTInfo = pTypeInfo; return S_OK; } HRESULT STDMETHODCALLTYPE CXTypeInfo::AddressOfMember(MEMBERID, INVOKEKIND, PVOID *) { SAL_WARN("extensions.olebridge", this << "@CXTypeInfo::AddressOfMember: E_NOTIMPL"); return E_NOTIMPL; } HRESULT STDMETHODCALLTYPE CXTypeInfo::CreateInstance(IUnknown *, REFIID, PVOID *) { SAL_WARN("extensions.olebridge", this << "@CXTypeInfo::CreateInstance: E_NOTIMPL"); return E_NOTIMPL; } HRESULT STDMETHODCALLTYPE CXTypeInfo::GetMops(MEMBERID, BSTR *) { SAL_WARN("extensions.olebridge", this << "@CXTypeInfo::GetMops: E_NOTIMPL"); return E_NOTIMPL; } // This is not actually called any more by my vbscript test after I added the IProvideClassInfo // thing... so all the CXTypeLib stuff is dead code at the moment. HRESULT STDMETHODCALLTYPE CXTypeInfo::GetContainingTypeLib(ITypeLib **ppTLib, UINT *pIndex) { comphelper::Automation::AutomationInvokedZone aAutomationActive; SAL_INFO("extensions.olebridge", this << "@CXTypeInfo::GetContainingTypeLib"); if (!ppTLib || !pIndex) return E_POINTER; HRESULT ret; CComObject* pTypeLib; ret = CComObject::CreateInstance(&pTypeLib); if (FAILED(ret)) return ret; pTypeLib->AddRef(); pTypeLib->Init(mxOrigin, msImplementationName, mxMSF); *ppTLib = pTypeLib; return S_OK; } void STDMETHODCALLTYPE CXTypeInfo::ReleaseTypeAttr(TYPEATTR *pTypeAttr) { SAL_INFO("extensions.olebridge", this << "@CXTypeInfo::ReleaseTypeAttr(" << pTypeAttr << ")"); delete pTypeAttr; } void STDMETHODCALLTYPE CXTypeInfo::ReleaseFuncDesc(FUNCDESC *pFuncDesc) { SAL_WARN("extensions.olebridge", this << "@CXTypeInfo::ReleaseFuncDesc(" << pFuncDesc << ")"); delete pFuncDesc; } void STDMETHODCALLTYPE CXTypeInfo::ReleaseVarDesc(VARDESC *) { SAL_WARN("extensions.olebridge", this << "@CXTypeInfo::ReleaseVarDesc: E_NOTIMPL"); } COM_DECLSPEC_NOTHROW STDMETHODIMP InterfaceOleWrapper::GetTypeInfo(UINT iTInfo, LCID, ITypeInfo ** ppTInfo) { comphelper::Automation::AutomationInvokedZone aAutomationActive; SAL_INFO("extensions.olebridge", this << "@InterfaceOleWrapper::GetTypeInfo(" << iTInfo << ")"); if (!ppTInfo) return E_POINTER; if (iTInfo != 0) return E_NOTIMPL; // FIXME: This is surely incorrect. Why is being able to handle GetTypeInfo() here coupled to // being a source for outgoing events, i.e. implementing XConnectable? What would break if we // would use XInterfaceWithIID and its getIID instead? Reference xConnectable(m_xOrigin, UNO_QUERY); if (!xConnectable.is()) return E_NOTIMPL; OUString sIID = xConnectable->GetIIDForClassItselfNotCoclass(); IID aIID; if (!SUCCEEDED(IIDFromString(reinterpret_cast(sIID.pData->buffer), &aIID))) return E_NOTIMPL; HRESULT ret; CComObject* pTypeInfo; ret = CComObject::CreateInstance(&pTypeInfo); if (FAILED(ret)) return ret; pTypeInfo->AddRef(); pTypeInfo->InitForClassItself(m_xOrigin, m_sImplementationName, aIID, m_smgr); *ppTInfo = pTypeInfo; return S_OK; } COM_DECLSPEC_NOTHROW STDMETHODIMP InterfaceOleWrapper::GetIDsOfNames(REFIID /*riid*/, LPOLESTR * rgszNames, UINT cNames, LCID /*lcid*/, DISPID * rgdispid ) { comphelper::Automation::AutomationInvokedZone aAutomationActive; if( ! rgdispid) return E_POINTER; SAL_INFO("extensions.olebridge", this << "@InterfaceOleWrapper::GetIDsOfNames:"); for (unsigned int i = 0; i < cNames; ++i) { // Initialise returned rgdispid values. rgdispid[i] = DISPID_UNKNOWN; SAL_INFO("extensions.olebridge", " " << OUString(o3tl::toU(rgszNames[i]))); } HRESULT ret = DISP_E_UNKNOWNNAME; try { MutexGuard guard( getBridgeMutex()); // FIXME: Handle the cNames > 1 case? Note that the rest of the names mean the names of *arguments*. if( ! _wcsicmp( *rgszNames, JSCRIPT_VALUE_FUNC) || ! _wcsicmp( *rgszNames, BRIDGE_VALUE_FUNC)) { *rgdispid= DISPID_JSCRIPT_VALUE_FUNC; return S_OK; } else if( ! _wcsicmp( *rgszNames, GET_STRUCT_FUNC) || ! _wcsicmp( *rgszNames, BRIDGE_GET_STRUCT_FUNC)) { *rgdispid= DISPID_GET_STRUCT_FUNC; return S_OK; } else if( ! _wcsicmp( *rgszNames, BRIDGE_CREATE_TYPE_FUNC)) { *rgdispid= DISPID_CREATE_TYPE_FUNC; return S_OK; } if (m_xInvocation.is() && (cNames > 0)) { OUString name(o3tl::toU(rgszNames[0])); NameToIdMap::iterator iter = m_nameToDispIdMap.find(name); bool bIsMethod = false; OUString exactName = name; if (iter == m_nameToDispIdMap.end()) { if (m_xExactName.is()) { exactName = m_xExactName->getExactName(name); if (exactName.isEmpty()) exactName = name; } MemberInfo d(0, exactName); if (m_xInvocation->hasProperty(exactName)) { d.flags |= DISPATCH_PROPERTYGET; d.flags |= DISPATCH_PROPERTYPUT; d.flags |= DISPATCH_PROPERTYPUTREF; } if (m_xInvocation->hasMethod(exactName)) { d.flags |= DISPATCH_METHOD; bIsMethod = true; } if (d.flags != 0) { m_MemberInfos.push_back(d); iter = m_nameToDispIdMap.emplace(exactName, static_cast(m_MemberInfos.size())).first; if (exactName != name) { iter = m_nameToDispIdMap.emplace(name, static_cast(m_MemberInfos.size())).first; } } } if (iter == m_nameToDispIdMap.end()) { ret = DISP_E_UNKNOWNNAME; SAL_INFO("extensions.olebridge", " " << name << ": UNKNOWN"); } else { rgdispid[0] = (*iter).second; SAL_INFO("extensions.olebridge", " " << name << ": " << rgdispid[0]); if (bIsMethod && cNames > 1) { Reference xIdlMethod; Reference xIntrospectionAccess = m_xInvocation->getIntrospection(); try { if (xIntrospectionAccess.is()) xIdlMethod = xIntrospectionAccess->getMethod(exactName, MethodConcept::ALL); } catch (const NoSuchMethodException&) { } if (xIdlMethod.is()) { auto aParamInfos = xIdlMethod->getParameterInfos(); for (unsigned int i = 1; i < cNames; ++i) { bool bFound = false; for (int j = 0; j < aParamInfos.getLength(); ++j) { if (aParamInfos[j].aName.equalsIgnoreAsciiCase(o3tl::toU(rgszNames[i]))) { rgdispid[i] = j; bFound = true; SAL_INFO("extensions.olebridge", " " << OUString(o3tl::toU(rgszNames[i])) << ": " << rgdispid[i]); break; } } if (!bFound) SAL_INFO("extensions.olebridge", " " << OUString(o3tl::toU(rgszNames[i])) << ": NOT FOUND"); } } } // Return value should be S_OK only if *all* the names were found. unsigned int i; for (i = 0; i < cNames; ++i) if (rgdispid[i] == DISPID_UNKNOWN) break; if (i == cNames) ret = S_OK; } } } catch(const BridgeRuntimeError&) { OSL_ASSERT(false); } catch(const Exception&) { OSL_ASSERT(false); } catch(...) { OSL_ASSERT(false); } return ret; } // Note: What the comments here say about JScript possibly holds for Automation clients in general, // like VBScript ones, too. Or not. Hard to say. What is the relevance of JScript nowadays anyway, // and can LO really be used from JScript code on web pages any longer? // "convertDispparamsArgs" converts VARIANTS to their respecting Any counterparts // The parameters "id", "wFlags" and "pdispparams" equal those as used in // IDispatch::Invoke. The function handles special JavaScript // cases where a VARIANT of type VT_DISPATCH is ambiguous and could represent // an object, array ( JavaScript Array object), out parameter and in/out ( JavaScript Array object) // parameter (JavaScript Array object) // Because all those VT_DISPATCH objects need a different conversion // we have to find out what the object is supposed to be. The function does this // by either using type information or by help of a specialized ValueObject object. // A. Type Information // With the help of type information the kind of parameter can be exactly determined // and an appropriate conversion can be chosen. A problem arises if a method expects // an Any. Then the type info does not tell what the type of the value, that is kept // by the any, should be. In this situation the decision whether the param is a // sequence or an object is made upon the fact if the object has a property "0" // ( see function "isJScriptArray"). Since this is unsafe it is recommended to use // the JScript value objects within a JScript script on such an occasion. // B. JavaScript Value Object ( class JScriptValue ) // A JScriptValue (ValueObject) object is a COM object in that it implements IDispatch and the // IJScriptValue object interface. Such objects are provided by all UNO wrapper // objects used within a JScript script. To obtain an instance one has to call // "_GetValueObject() or Bridge_GetValueObject()" on a UNO wrapper object (class InterfaceOleWrapper). // A value object is appropriately initialized within the script and passed as // parameter to a UNO object method or property. The convertDispparamsArgs function // can easily find out that a param is such an object by querying for the // IJScriptValue interface. By this interface one the type and kind ( out, in/out) // can be determined and the right conversion can be applied. // Using ValueObjects we spare us the effort of acquiring and examining type information // in order to figure out what the an IDispatch parameter is meant for. // Normal JScript object parameter can be mixed with JScriptValue object. If an // VARIANT contains a VT_DISPATCH that is no JScriptValue than the type information // is used to find out about the required type. void InterfaceOleWrapper::convertDispparamsArgs(DISPID id, unsigned short /*wFlags*/, DISPPARAMS* pdispparams, Sequence& rSeq) { // Parameters come in in reverse order in pdispparams. There might be less parameters than // expected. In that case, assume they are "optional" (but can't be marked as such in UNO IDL), // and fill in the rest with empty Anys. There might also be more than expected. In that case, // assume the oovbaapi UNO IDL hasn't kept up with added optional parameters in MSO, and just // ignore the extra ones, as long as they are empty. // An example: incoming parameters: <12, 13, "foo/bar.tem"> // // Expected parameters: (string filename, int something, int somethingElse, Any whatever, Any // whateverElse) // // Here the existing incoming parameters are placed in reverse order in the first three outgoing // parameters, and the rest of the outgoing parameters are kept as empty Anys. // // Another example: incoming parameters: // // Expected parameters: (bool flag) // // Here the TRUE is passed as the sole outgoing parameter, and the incoming EMPTY is ignored. // // Still an example: incoming parameters: <"foo.doc", TRUE> // // Expected parameters: (bool flag) // // This throws an error as the incoming string parameter presumably should do something important, // but there is no corresponding outgoing parameter. HRESULT hr = S_OK; const int countIncomingArgs = pdispparams->cArgs; //Get type information for the current call InvocationInfo info; if( ! getInvocationInfoForCall( id, info)) throw BridgeRuntimeError( "[automation bridge]InterfaceOleWrapper::convertDispparamsArgs \n" "Could not obtain type information for current call."); // Size rSeq according to the number of expected parameters. const int expectedArgs = info.aParamTypes.getLength() + (info.eMemberType == MemberType_PROPERTY ? 1 : 0); rSeq.realloc( expectedArgs ); Any* pParams = rSeq.getArray(); Any anyParam; int outgoingArgIndex = 0; // Go through incoming parameters in reverse order, i.e. in the order as declared in IDL for (int i = std::max(countIncomingArgs, expectedArgs) - 1; i >= 0; i--) { // Ignore too many parameters if they are VT_EMPTY anyway if ( outgoingArgIndex >= expectedArgs && pdispparams->rgvarg[i].vt == VT_EMPTY ) continue; // But otherwise too many parameters is an error if ( outgoingArgIndex >= expectedArgs ) throw BridgeRuntimeError( "[automation bridge] Too many parameters" ); if (info.eMemberType == MemberType_METHOD && info.aParamModes[ outgoingArgIndex ] == ParamMode_OUT) { outgoingArgIndex++; continue; } if (i < countIncomingArgs) { // A missing (and hopefully optional) arg (in the middle of the argument list) is passed // as an empty Any. if (pdispparams->rgvarg[i].vt == VT_ERROR && pdispparams->rgvarg[i].scode == DISP_E_PARAMNOTFOUND) { Any aEmpty; pParams[ outgoingArgIndex ] = aEmpty; outgoingArgIndex++; continue; } if(convertValueObject( & pdispparams->rgvarg[i], anyParam)) { //a param is a ValueObject and could be converted pParams[ outgoingArgIndex ] = anyParam; outgoingArgIndex++; continue; } } else { // A missing arg. Let's hope it is de facto optional (there is no way in UNO IDL to mark // a parameter as optional). The corresponding slot in pParams is already a void Any. // Here we don't increase outgoingArgIndex! continue; } // If the param is an out, in/out parameter in // JScript (Array object, with value at index 0) then we // extract Array[0] and put the value into varParam. At the end of the loop varParam // is converted if it contains a value otherwise the VARIANT from // DISPPARAMS is converted. CComVariant varParam; // Check for JScript out and in/out paramsobjects (VT_DISPATCH). // To find them out we use typeinformation of the function being called. // No idea how this stuff, originally written for JScript, works for other Automation // clients. if( pdispparams->rgvarg[i].vt == VT_DISPATCH ) { if( info.eMemberType == MemberType_METHOD && info.aParamModes[ outgoingArgIndex ] == ParamMode_INOUT) { // INOUT-param // Index ( property) "0" contains the actual IN-param. The object is a JScript // Array object. // Get the IN-param at index "0" IDispatch* pdisp= pdispparams->rgvarg[i].pdispVal; OLECHAR const * sindex= L"0"; DISPID id2; DISPPARAMS noParams= {nullptr,nullptr,0,0}; if(SUCCEEDED( hr= pdisp->GetIDsOfNames( IID_NULL, const_cast(&sindex), 1, LOCALE_USER_DEFAULT, &id2))) hr= pdisp->Invoke( id2, IID_NULL, LOCALE_USER_DEFAULT, DISPATCH_PROPERTYGET, & noParams, & varParam, nullptr, nullptr); if( FAILED( hr)) { throw BridgeRuntimeError( "[automation bridge] Could not determine " "if the object has a member \"0\". Error: " + OUString::number(hr)); } } } if( varParam.vt == VT_EMPTY) // then it was no in/out parameter varParam= pdispparams->rgvarg[i]; if(info.eMemberType == MemberType_METHOD) variantToAny( & varParam, anyParam, info.aParamTypes[ outgoingArgIndex ]); else if(info.eMemberType == MemberType_PROPERTY) variantToAny( & varParam, anyParam, info.aType); else OSL_ASSERT(false); if (outgoingArgIndex < expectedArgs) pParams[ outgoingArgIndex ]= anyParam; outgoingArgIndex++; }// end for / iterating over all parameters } bool InterfaceOleWrapper::getInvocationInfoForCall( DISPID id, InvocationInfo& info) { bool bTypesAvailable= false; if( !m_xInvocation.is() )return false; Reference inv2( m_xInvocation, UNO_QUERY); if( inv2.is()) { // We need the name of the property or method to get its type information. // The name can be identified through the param "id" // that is kept as value in the map m_nameToDispIdMap. // Problem: the Windows JScript engine sometimes changes small letters to capital // letters as happens in xidlclass_obj.createObject( var) // in JScript. // IDispatch::GetIdsOfNames is then called with "CreateObject" !!! // m_nameToDispIdMap can contain several names for one DISPID but only one is // the exact one. If there's no m_xExactName and therefore no exact name then // there's only one entry in the map. OUString sMemberName; auto ci1 = std::find_if(m_nameToDispIdMap.cbegin(), m_nameToDispIdMap.cend(), [&id](const NameToIdMap::value_type& nameToDispId) { return nameToDispId.second == id; }); // item is a pair if (ci1 != m_nameToDispIdMap.cend()) sMemberName= (*ci1).first; // Get information for the current call ( property or method). // There could be similar names which only differ in the cases // of letters. First we assume that the name which was passed into // GetIDsOfNames is correct. If we won't get information with that // name then we have the invocation service use the XExactName interface. bool validInfo= true; InvocationInfo invInfo; try{ invInfo= inv2->getInfoForName( sMemberName, false); } catch(const IllegalArgumentException&) { validInfo= false; } if( ! validInfo) { invInfo= inv2->getInfoForName( sMemberName, true); } if( invInfo.aName.pData) { bTypesAvailable= true; info= invInfo; } } return bTypesAvailable; } // XBridgeSupplier2 --------------------------------------------------- // only bridges itself ( this instance of InterfaceOleWrapper)from UNO to IDispatch // If sourceModelType is UNO than any UNO interface implemented by InterfaceOleWrapper // can bridged to IDispatch ( if destModelType == OLE). The IDispatch is // implemented by this class. Any SAL_CALL InterfaceOleWrapper::createBridge(const Any& modelDepObject, const Sequence& /*ProcessId*/, sal_Int16 sourceModelType, sal_Int16 destModelType) { Any retAny; if( sourceModelType == UNO && destModelType == OLE && modelDepObject.getValueTypeClass() == TypeClass_INTERFACE ) { Reference xInt; if( modelDepObject >>= xInt ) { if( xInt == Reference( static_cast( this), UNO_QUERY)) { VARIANT *pVar= static_cast(CoTaskMemAlloc( sizeof( VARIANT))); if( pVar) { pVar->vt= VT_DISPATCH; pVar->pdispVal= this; AddRef(); retAny<<= reinterpret_cast< sal_uIntPtr >( pVar); } } } } return retAny; } // XInitialization -------------------------------------------------- void SAL_CALL InterfaceOleWrapper::initialize( const Sequence< Any >& aArguments ) { switch( aArguments.getLength() ) { case 2: // the object wraps a UNO struct aArguments[0] >>= m_xInvocation; aArguments[1] >>= m_defaultValueType; break; case 3: // the object wraps a UNO interface aArguments[0] >>= m_xInvocation; aArguments[1] >>= m_xOrigin; aArguments[2] >>= m_defaultValueType; Reference xServiceInfo(m_xOrigin, UNO_QUERY); if (xServiceInfo.is()) m_sImplementationName = xServiceInfo->getImplementationName(); SAL_INFO("extensions.olebridge", this << "@InterfaceOleWrapper::initialize for " << (m_sImplementationName.isEmpty()?"an unknown implementation":m_sImplementationName)); break; } m_xExactName.set( m_xInvocation, UNO_QUERY); } Reference< XInterface > InterfaceOleWrapper::createUnoWrapperInstance() { Reference xWeak= static_cast( new InterfaceOleWrapper( m_smgr, m_nUnoWrapperClass, m_nComWrapperClass)); return Reference( xWeak, UNO_QUERY); } Reference InterfaceOleWrapper::createComWrapperInstance() { Reference xWeak= static_cast( new IUnknownWrapper( m_smgr, m_nUnoWrapperClass, m_nComWrapperClass)); return Reference( xWeak, UNO_QUERY); } // "getType" is used in convertValueObject to map the string denoting the type // to an actual Type object. bool getType( const BSTR name, Type & type) { bool ret = false; typelib_TypeDescription * pDesc= nullptr; OUString str(o3tl::toU(name)); typelib_typedescription_getByName( &pDesc, str.pData ); if( pDesc) { type = Type( pDesc->pWeakRef ); typelib_typedescription_release( pDesc); ret = true; } return ret; } static bool writeBackOutParameter2( VARIANTARG* pDest, VARIANT* pSource) { bool ret = false; HRESULT hr; // Handle JScriptValue objects and JScript out params ( Array object ) CComVariant varDest( *pDest); if( SUCCEEDED( varDest.ChangeType(VT_DISPATCH))) { CComPtr spDispDest(varDest.pdispVal); // special Handling for a JScriptValue object CComQIPtr spValueDest(spDispDest); if (spValueDest) { VARIANT_BOOL varBool= VARIANT_FALSE; if ((SUCCEEDED(hr = spValueDest->IsOutParam(&varBool)) && varBool == VARIANT_TRUE) || (SUCCEEDED(hr = spValueDest->IsInOutParam(&varBool)) && varBool == VARIANT_TRUE)) { if( SUCCEEDED( spValueDest->Set( CComVariant(), *pSource))) ret= true; } } else if (pDest->vt == VT_DISPATCH)// VT_DISPATCH -> JScript out param { // We use IDispatchEx because its GetDispID function causes the creation // of a property if it does not exist already. This is convenient for // out parameters in JScript. Then the user must not specify property "0" // explicitly CComQIPtr spDispEx( spDispDest); if( spDispEx) { CComBSTR nullProp(L"0"); DISPID dwDispID; if( SUCCEEDED( spDispEx->GetDispID( nullProp, fdexNameEnsure, &dwDispID))) { DISPPARAMS dispparams = {nullptr, nullptr, 1, 1}; dispparams.rgvarg = pSource; DISPID dispidPut = DISPID_PROPERTYPUT; dispparams.rgdispidNamedArgs = &dispidPut; if (pSource->vt == VT_UNKNOWN || pSource->vt == VT_DISPATCH || (pSource->vt & VT_ARRAY) || (pSource->vt & VT_BYREF)) hr = spDispEx->InvokeEx(dwDispID, LOCALE_USER_DEFAULT, DISPATCH_PROPERTYPUTREF, &dispparams, nullptr, nullptr, nullptr); else hr= spDispEx->InvokeEx(dwDispID, LOCALE_USER_DEFAULT, DISPATCH_PROPERTYPUT, &dispparams, nullptr, nullptr, nullptr); if( SUCCEEDED(hr)) ret= true; } } } else ret= writeBackOutParameter( pDest, pSource); } else // The param can't be a JScript out-parameter ( an Array object), it could be a VBScript { // param. The function checks itself for correct VBScript params ret= writeBackOutParameter( pDest, pSource); } return ret; } // VisualBasic Script passes arguments as VT_VARIANT | VT_BYREF be it in or out parameter. // Thus we are in charge of freeing an eventual value contained by the inner VARIANT // Please note: VariantCopy doesn't free a VT_BYREF value // The out parameters are expected to have always a valid type static bool writeBackOutParameter(VARIANTARG* pDest, VARIANT* pSource) { HRESULT hr; bool ret = false; // Out parameter must be VT_BYREF if ((V_VT(pDest) & VT_BYREF) != 0 ) { VARTYPE oleTypeFlags = V_VT(pSource); // if caller accept VARIANT as out parameter, any value must be converted if (V_VT(pDest) == (VT_VARIANT | VT_BYREF)) { // When the user provides a VARIANT rather than a concrete type // we just copy the source to the out, in/out parameter // VT_DISPATCH, VT_UNKNOWN, VT_ARRAY, VT_BSTR in the VARIANT that // is contained in pDest are released by VariantCopy VariantCopy(V_VARIANTREF(pDest), pSource); ret = true; } else { // variantarg and variant must have same type if ((V_VT(pDest) & oleTypeFlags) == oleTypeFlags) { if ((oleTypeFlags & VT_ARRAY) != 0) { // In / Out Param if( *V_ARRAYREF(pDest) != nullptr) hr= SafeArrayCopyData( V_ARRAY(pSource), *V_ARRAYREF(pDest)); else // Out Param hr= SafeArrayCopy(V_ARRAY(pSource), V_ARRAYREF(pDest)); if( SUCCEEDED( hr)) ret = true; } else { // copy base type switch (V_VT(pSource)) { case VT_I2: { *V_I2REF(pDest) = V_I2(pSource); ret = true; break; } case VT_I4: *V_I4REF(pDest) = V_I4(pSource); ret = true; break; case VT_R4: *V_R4REF(pDest) = V_R4(pSource); ret = true; break; case VT_R8: *V_R8REF(pDest) = V_R8(pSource); ret = true; break; case VT_CY: *V_CYREF(pDest) = V_CY(pSource); ret = true; break; case VT_DATE: *V_DATEREF(pDest) = V_DATE(pSource); ret = true; break; case VT_BSTR: SysFreeString( *pDest->pbstrVal); *V_BSTRREF(pDest) = SysAllocString(V_BSTR(pSource)); ret = true; break; case VT_DISPATCH: if (*V_DISPATCHREF(pDest) != nullptr) (*V_DISPATCHREF(pDest))->Release(); *V_DISPATCHREF(pDest) = V_DISPATCH(pSource); if (*V_DISPATCHREF(pDest) != nullptr) (*V_DISPATCHREF(pDest))->AddRef(); ret = true; break; case VT_ERROR: *V_ERRORREF(pDest) = V_ERROR(pSource); ret = true; break; case VT_BOOL: *V_BOOLREF(pDest) = V_BOOL(pSource); ret = true; break; case VT_UNKNOWN: if (*V_UNKNOWNREF(pDest) != nullptr) (*V_UNKNOWNREF(pDest))->Release(); *V_UNKNOWNREF(pDest) = V_UNKNOWN(pSource); if (*V_UNKNOWNREF(pDest) != nullptr) (*V_UNKNOWNREF(pDest))->AddRef(); ret = true; break; case VT_I1: *V_I1REF(pDest) = V_I1(pSource); ret = true; break; case VT_UI1: *V_UI1REF(pDest) = V_UI1(pSource); ret = true; break; case VT_UI2: *V_UI2REF(pDest) = V_UI2(pSource); ret = true; break; case VT_UI4: *V_UI4REF(pDest) = V_UI4(pSource); ret = true; break; case VT_INT: *V_INTREF(pDest) = V_INT(pSource); ret = true; break; case VT_UINT: *V_UINTREF(pDest) = V_UINT(pSource); ret = true; break; case VT_DECIMAL: memcpy(pDest->pdecVal, pSource, sizeof(DECIMAL)); ret = true; break; default: break; } } } else { // Handling of special cases // Destination and source types are different if( pDest->vt == (VT_BSTR | VT_BYREF) && pSource->vt == VT_I2) { // When the user provides a String as out our in/out parameter // and the type is char (TypeClass_CHAR) then we convert to a BSTR // instead of VT_I2 as is done otherwise OLECHAR buff[]= {0,0}; buff[0]= pSource->iVal; SysFreeString( *pDest->pbstrVal); *pDest->pbstrVal= SysAllocString( buff); ret = true; } } } } return ret; } COM_DECLSPEC_NOTHROW STDMETHODIMP InterfaceOleWrapper::Invoke(DISPID dispidMember, REFIID /*riid*/, LCID /*lcid*/, WORD wFlags, DISPPARAMS * pdispparams, VARIANT * pvarResult, EXCEPINFO * pexcepinfo, UINT * puArgErr ) { comphelper::Automation::AutomationInvokedZone aAutomationActive; OUString sParams; #if defined SAL_LOG_INFO sParams += "["; for (unsigned int i = 0; i < pdispparams->cArgs; ++i) { if (i > 0) sParams += ","; std::stringstream aStringStream; aStringStream << pdispparams->rgvarg[i]; sParams += OUString::createFromAscii(aStringStream.str().c_str()); } sParams += "]"; #endif SAL_INFO("extensions.olebridge", this << "@InterfaceOleWrapper::Invoke(" << dispidMember << "," << sParams << ")"); comphelper::ProfileZone aZone("COM Bridge"); HRESULT ret = S_OK; try { bool bHandled= false; ret= InvokeGeneral( dispidMember, wFlags, pdispparams, pvarResult, pexcepinfo, puArgErr, bHandled); if( bHandled) return ret; if ((dispidMember > 0) && (o3tl::make_unsigned(dispidMember) <= m_MemberInfos.size()) && m_xInvocation.is()) { MemberInfo d = m_MemberInfos[dispidMember - 1]; DWORD flags = wFlags & d.flags; if (flags != 0) { if ((flags & DISPATCH_METHOD) != 0) { std::unique_ptr pNewDispParams; std::vector vNewArgs; if (pdispparams->cNamedArgs > 0) { // Convert named arguments to positional ones. // An example: // // Function declaration (in pseudo-code): // int foo(int A, int B, optional int C, optional int D, optional int E, optional int F, optional int G) // // Corresponding parameter numbers (DISPIDs): // 0 1 2 3 4 5 6 // // Actual call: // foo(10, 20, E:=50, D:=40, F:=60) // // That is, A and B are passed positionally, D, E, and F as named arguments, // and the optional C and G parameters are left out. // // Incoming DISPPARAMS: // cArgs=5, cNamedArgs=3 // rgvarg: [60, 40, 50, 20, 10] // rgdispidNamedArgs: [5, 3, 4] // // We calculate nLowestNamedArgDispid = 3 and nHighestNamedArgDispid = 5. // // Result of conversion, no named args: // cArgs=6, cNamedArgs=0 // rgvarg: [60, 50, 40, DISP_E_PARAMNOTFOUND, 20, 10] // First find the lowest and highest DISPID of the named arguments. DISPID nLowestNamedArgDispid = 1000000; DISPID nHighestNamedArgDispid = -1; for (unsigned int i = 0; i < pdispparams->cNamedArgs; ++i) { if (pdispparams->rgdispidNamedArgs[i] < nLowestNamedArgDispid) nLowestNamedArgDispid = pdispparams->rgdispidNamedArgs[i]; if (pdispparams->rgdispidNamedArgs[i] > nHighestNamedArgDispid) nHighestNamedArgDispid = pdispparams->rgdispidNamedArgs[i]; } // Make sure named arguments don't overlap with positional ones. The lowest // DISPID of the named arguments should be >= the number of positional // arguments. if (nLowestNamedArgDispid < static_cast(pdispparams->cArgs - pdispparams->cNamedArgs)) return DISP_E_NONAMEDARGS; // Do the actual conversion. pNewDispParams.reset(new DISPPARAMS); vNewArgs.resize(nHighestNamedArgDispid + 1); pNewDispParams->rgvarg = vNewArgs.data(); pNewDispParams->rgdispidNamedArgs = nullptr; pNewDispParams->cArgs = nHighestNamedArgDispid + 1; pNewDispParams->cNamedArgs = 0; // Initialise all parameter slots as missing for (int i = 0; i < nHighestNamedArgDispid; ++i) { pNewDispParams->rgvarg[i].vt = VT_ERROR; pNewDispParams->rgvarg[i].scode = DISP_E_PARAMNOTFOUND; } // Then set the value of those actually present. for (unsigned int i = 0; i < pdispparams->cNamedArgs; ++i) pNewDispParams->rgvarg[nHighestNamedArgDispid - pdispparams->rgdispidNamedArgs[i]] = pdispparams->rgvarg[i]; const int nFirstUnnamedArg = pdispparams->cNamedArgs + (nLowestNamedArgDispid-(pdispparams->cArgs - pdispparams->cNamedArgs)); for (unsigned int i = pdispparams->cNamedArgs; i < pdispparams->cArgs; ++i) pNewDispParams->rgvarg[nFirstUnnamedArg + (i-pdispparams->cNamedArgs)] = pdispparams->rgvarg[i]; pdispparams = pNewDispParams.get(); } Sequence params; convertDispparamsArgs(dispidMember, wFlags, pdispparams , params ); ret= doInvoke(pdispparams, pvarResult, pexcepinfo, puArgErr, d.name, params); } else if ((flags & DISPATCH_PROPERTYGET) != 0) { ret= doGetProperty( pdispparams, pvarResult, pexcepinfo, d.name); } else if ((flags & DISPATCH_PROPERTYPUT) != 0 || (flags & DISPATCH_PROPERTYPUTREF) != 0) { if (pdispparams->cArgs != 1) ret = DISP_E_BADPARAMCOUNT; else { Sequence params; convertDispparamsArgs(dispidMember, wFlags, pdispparams, params ); if(params.getLength() > 0) ret= doSetProperty( pdispparams, pvarResult, pexcepinfo, puArgErr, d.name, params); else ret = DISP_E_BADVARTYPE; } } } else ret= DISP_E_MEMBERNOTFOUND; } else ret = DISP_E_MEMBERNOTFOUND; } catch(const BridgeRuntimeError& e) { writeExcepinfo(pexcepinfo, e.message); ret = DISP_E_EXCEPTION; } catch(const Exception& e) { OUString message= "InterfaceOleWrapper::Invoke : \n" + e.Message; writeExcepinfo(pexcepinfo, message); ret = DISP_E_EXCEPTION; } catch(...) { writeExcepinfo(pexcepinfo, "InterfaceOleWrapper::Invoke : \nUnexpected exception"); ret = DISP_E_EXCEPTION; } return ret; } HRESULT InterfaceOleWrapper::doInvoke( DISPPARAMS * pdispparams, VARIANT * pvarResult, EXCEPINFO * pexcepinfo, unsigned int * puArgErr, OUString& name, Sequence& params) { HRESULT ret= S_OK; try { Sequence outIndex; Sequence outParams; Any returnValue; if (pdispparams->cNamedArgs > 0) return DISP_E_NONAMEDARGS; // invoke method and take care of exceptions returnValue = m_xInvocation->invoke(name, params, outIndex, outParams); // try to write back out parameter if (outIndex.getLength() > 0) { const sal_Int16* pOutIndex = outIndex.getConstArray(); const Any* pOutParams = outParams.getConstArray(); for (sal_Int32 i = 0; i < outIndex.getLength(); i++) { CComVariant variant; // Currently a Sequence is converted to an SafeArray of VARIANTs. anyToVariant( &variant, pOutParams[i]); // out parameter need special handling if they are VT_DISPATCH // and used in JScript int outindex= pOutIndex[i]; writeBackOutParameter2(&(pdispparams->rgvarg[pdispparams->cArgs - 1 - outindex]), &variant ); } } // write back return value if (pvarResult != nullptr) anyToVariant(pvarResult, returnValue); } catch(const IllegalArgumentException & e) //XInvocation::invoke { writeExcepinfo(pexcepinfo, e.Message); ret = DISP_E_TYPEMISMATCH; } catch(const CannotConvertException & e) //XInvocation::invoke { writeExcepinfo(pexcepinfo, e.Message); ret = mapCannotConvertException( e, puArgErr); } catch(const InvocationTargetException & e) //XInvocation::invoke { const Any& org = e.TargetException; Exception excTarget; org >>= excTarget; OUString message= org.getValueType().getTypeName() + ": " + excTarget.Message; writeExcepinfo(pexcepinfo, message); ret = DISP_E_EXCEPTION; } catch(const NoSuchMethodException & e) //XInvocation::invoke { writeExcepinfo(pexcepinfo, e.Message); ret = DISP_E_MEMBERNOTFOUND; } catch(const BridgeRuntimeError & e) { writeExcepinfo(pexcepinfo, e.message); ret = DISP_E_EXCEPTION; } catch(const Exception & e) { OUString message= "InterfaceOleWrapper::doInvoke : \n" + e.Message; writeExcepinfo(pexcepinfo, message); ret = DISP_E_EXCEPTION; } catch( ... ) { writeExcepinfo(pexcepinfo, "InterfaceOleWrapper::doInvoke : \nUnexpected exception"); ret = DISP_E_EXCEPTION; } return ret; } HRESULT InterfaceOleWrapper::doGetProperty( DISPPARAMS * /*pdispparams*/, VARIANT * pvarResult, EXCEPINFO * pexcepinfo, OUString& name) { HRESULT ret= S_OK; try { Any returnValue = m_xInvocation->getValue( name); // write back return value if (pvarResult) anyToVariant(pvarResult, returnValue); } catch(const UnknownPropertyException& e) //XInvocation::getValue { writeExcepinfo(pexcepinfo, e.Message); ret = DISP_E_MEMBERNOTFOUND; } catch(const BridgeRuntimeError& e) { writeExcepinfo(pexcepinfo, e.message); ret = DISP_E_EXCEPTION; } catch(const Exception& e) { OUString message= "InterfaceOleWrapper::doGetProperty : \n" + e.Message; writeExcepinfo(pexcepinfo, message); } catch( ... ) { writeExcepinfo(pexcepinfo, "InterfaceOleWrapper::doInvoke : \nUnexpected exception"); ret = DISP_E_EXCEPTION; } return ret; } HRESULT InterfaceOleWrapper::doSetProperty( DISPPARAMS * /*pdispparams*/, VARIANT * /*pvarResult*/, EXCEPINFO * pexcepinfo, unsigned int * puArgErr, OUString& name, Sequence const & params) { HRESULT ret= S_OK; try { m_xInvocation->setValue( name, params.getConstArray()[0]); } catch(const UnknownPropertyException &) { ret = DISP_E_MEMBERNOTFOUND; } catch(const CannotConvertException &e) { ret= mapCannotConvertException( e, puArgErr); } catch(const InvocationTargetException &e) { if (pexcepinfo != nullptr) { Any org = e.TargetException; pexcepinfo->wCode = UNO_2_OLE_EXCEPTIONCODE; pexcepinfo->bstrSource = SysAllocString(L"any ONE component"); pexcepinfo->bstrDescription = SysAllocString( o3tl::toW(org.getValueType().getTypeName().getStr())); } ret = DISP_E_EXCEPTION; } catch( ... ) { ret= DISP_E_EXCEPTION; } return ret; } namespace { class CXEnumVariant : public IEnumVARIANT, public CComObjectRoot { public: CXEnumVariant() : mnIndex(1) // ooo::vba::XCollection index starts at one { } virtual ~CXEnumVariant() { } #if defined __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wunused-function" #endif BEGIN_COM_MAP(CXEnumVariant) #if defined __clang__ #pragma clang diagnostic pop #endif COM_INTERFACE_ENTRY(IEnumVARIANT) #if defined __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Winconsistent-missing-override" #pragma clang diagnostic ignored "-Wunused-function" #endif END_COM_MAP() #if defined __clang__ #pragma clang diagnostic pop #endif DECLARE_NOT_AGGREGATABLE(CXEnumVariant) // Creates and initializes the enumerator void Init(InterfaceOleWrapper* pInterfaceOleWrapper, const Reference xCollection) { mpInterfaceOleWrapper = pInterfaceOleWrapper; mxCollection = xCollection; } // IEnumVARIANT virtual HRESULT STDMETHODCALLTYPE Clone(IEnumVARIANT **) override { SAL_INFO("extensions.olebridge", this << "@CXEnumVariant::Clone: E_NOTIMPL"); return E_NOTIMPL; } virtual HRESULT STDMETHODCALLTYPE Next(ULONG const celt, VARIANT *rgVar, ULONG *pCeltFetched) override { comphelper::Automation::AutomationInvokedZone aAutomationActive; if (pCeltFetched) *pCeltFetched = 0; if (celt == 0) { SAL_INFO("extensions.olebridge", this << "@CXEnumVariant::Next(" << celt << "): E_INVALIDARG"); return E_INVALIDARG; } if (rgVar == nullptr || (celt != 1 && pCeltFetched == nullptr)) { SAL_INFO("extensions.olebridge", this << "@CXEnumVariant::Next(" << celt << "): E_FAIL"); return E_FAIL; } for (ULONG i = 0; i < celt; i++) VariantInit(&rgVar[i]); ULONG nLeft = celt; ULONG nReturned = 0; while (nLeft > 0) { if (mnIndex > mxCollection->getCount()) { SAL_INFO("extensions.olebridge", this << "@CXEnumVariant::Next(" << celt << "): got " << nReturned << ": S_FALSE"); return S_FALSE; } Any aIndex; aIndex <<= mnIndex; Any aElement = mxCollection->Item(aIndex, Any()); mpInterfaceOleWrapper->anyToVariant(rgVar, aElement); // rgVar->pdispVal->AddRef(); ?? if (pCeltFetched) (*pCeltFetched)++; rgVar++; nReturned++; mnIndex++; nLeft--; } SAL_INFO("extensions.olebridge", this << "@CXEnumVariant::Next(" << celt << "): S_OK"); return S_OK; } virtual HRESULT STDMETHODCALLTYPE Reset() override { SAL_INFO("extensions.olebridge", this << "@CXEnumVariant::Reset: S_OK"); mnIndex = 1; return S_OK; } virtual HRESULT STDMETHODCALLTYPE STDMETHODCALLTYPE Skip(ULONG const celt) override { comphelper::Automation::AutomationInvokedZone aAutomationActive; ULONG nLeft = celt; ULONG nSkipped = 0; while (nLeft > 0) { if (mnIndex > mxCollection->getCount()) { SAL_INFO("extensions.olebridge", this << "@CXEnumVariant::Skip(" << celt << "): skipped " << nSkipped << ": S_FALSE"); return S_FALSE; } mnIndex++; nLeft--; } SAL_INFO("extensions.olebridge", this << "@CXEnumVariant::Skip(" << celt << "): S_OK"); return S_OK; } private: InterfaceOleWrapper* mpInterfaceOleWrapper; Reference mxCollection; sal_Int32 mnIndex; }; class Sink : public cppu::WeakImplHelper { public: Sink(IUnknown* pUnkSink, Reference xMSF, ooo::vba::TypeAndIID aTypeAndIID, InterfaceOleWrapper* pInterfaceOleWrapper); // XSink void SAL_CALL Call( const OUString& Method, Sequence< Any >& Arguments ) override; private: IUnknown* mpUnkSink; Reference mxMSF; ooo::vba::TypeAndIID maTypeAndIID; InterfaceOleWrapper* mpInterfaceOleWrapper; }; } Sink::Sink(IUnknown* pUnkSink, Reference xMSF, ooo::vba::TypeAndIID aTypeAndIID, InterfaceOleWrapper* pInterfaceOleWrapper) : mpUnkSink(pUnkSink), mxMSF(xMSF), maTypeAndIID(aTypeAndIID), mpInterfaceOleWrapper(pInterfaceOleWrapper) { mpUnkSink->AddRef(); } void SAL_CALL Sink::Call( const OUString& Method, Sequence< Any >& Arguments ) { SAL_INFO("extensions.olebridge", "Sink::Call(" << Method << ", " << Arguments.getLength() << " arguments)"); IDispatch* pDispatch; HRESULT nResult = mpUnkSink->QueryInterface(IID_IDispatch, reinterpret_cast(&pDispatch)); if (!SUCCEEDED(nResult)) { SAL_WARN("extensions.olebridge", "Sink::Call: Not IDispatch: " << WindowsErrorStringFromHRESULT(nResult)); return; } Reference xRefl = theCoreReflection::get(comphelper::getComponentContext(mxMSF)); assert(xRefl.is()); Reference xClass = xRefl->forName(maTypeAndIID.Type.getTypeName()); assert(xClass.is()); auto aMethods = xClass->getMethods(); assert(xClass->getTypeClass() == TypeClass_INTERFACE && aMethods.getLength() > 0); int nMemId = 1; auto ArgumentsRange = asNonConstRange(Arguments); // Skip the three XInterface methods for (int i = 3; i < aMethods.getLength(); i++) { if (aMethods[i]->getName() == Method) { // FIXME: Handle mismatch in type of actual argument and parameter of the method. // FIXME: Handle mismatch in number of arguments passed and actual number of parameters // of the method. auto aParamInfos = aMethods[i]->getParameterInfos(); assert(Arguments.getLength() == aParamInfos.getLength()); DISPPARAMS aDispParams; aDispParams.rgdispidNamedArgs = nullptr; aDispParams.cArgs = Arguments.getLength(); aDispParams.cNamedArgs = 0; aDispParams.rgvarg = new VARIANT[aDispParams.cArgs]; for (unsigned j = 0; j < aDispParams.cArgs; j++) { VariantInit(aDispParams.rgvarg+j); // Note: Reverse order of arguments in Arguments and aDispParams.rgvarg! const unsigned nIncomingArgIndex = aDispParams.cArgs - j - 1; mpInterfaceOleWrapper->anyToVariant(aDispParams.rgvarg+j, Arguments[nIncomingArgIndex]); // Handle OUT and INOUT arguments. For instance, the second ('Cancel') parameter to // DocumentBeforeClose() should be a VT_BYREF|VT_BOOL parameter. Need to handle that // here. if (aParamInfos[nIncomingArgIndex].aMode == ParamMode_OUT || aParamInfos[nIncomingArgIndex].aMode == ParamMode_INOUT) { switch (aDispParams.rgvarg[j].vt) { case VT_I2: aDispParams.rgvarg[j].byref = new SHORT(aDispParams.rgvarg[j].iVal); aDispParams.rgvarg[j].vt |= VT_BYREF; break; case VT_I4: aDispParams.rgvarg[j].byref = new LONG(aDispParams.rgvarg[j].lVal); aDispParams.rgvarg[j].vt |= VT_BYREF; break; case VT_BSTR: aDispParams.rgvarg[j].byref = new BSTR(aDispParams.rgvarg[j].bstrVal); aDispParams.rgvarg[j].vt |= VT_BYREF; break; case VT_BOOL: aDispParams.rgvarg[j].byref = new VARIANT_BOOL(aDispParams.rgvarg[j].boolVal); aDispParams.rgvarg[j].vt |= VT_BYREF; break; default: assert(false && "Not handled yet"); break; } } } VARIANT aVarResult; VariantInit(&aVarResult); UINT uArgErr; // In the case of a VBScript client, which uses "late binding", calling Invoke on the // sink it provides will cause a callback to our CXTypeInfo::GetNames for the given // member id, and in that we will tell it the name of the corresponding method, and the // client will know what event handler to invoke based on that name. // // As the outgoing interfaces used (ooo::vba::word::XApplicationOutgoing and others) are // totally not stable and not published in any way, there can be no client that would // have done "compile-time binding" and where the sink would actually be an object with // a vtbl corresponding to the outgoing interface. Late binding clients that work like // VBScript is all we support. SAL_INFO("extensions.olebridge", "Sink::Call(" << Method << "): Calling Invoke(" << nMemId << ")"); nResult = pDispatch->Invoke(nMemId, IID_NULL, LOCALE_USER_DEFAULT, DISPATCH_METHOD, &aDispParams, &aVarResult, nullptr, &uArgErr); SAL_INFO("extensions.olebridge", "Sink::Call(" << Method << "): Invoke() returned"); SAL_WARN_IF(!SUCCEEDED(nResult), "extensions.olebridge", "Call to " << Method << " failed: " << WindowsErrorStringFromHRESULT(nResult)); // Undo VT_BYREF magic done above. Copy out parameters back to the Anys in Arguments for (unsigned j = 0; j < aDispParams.cArgs; j++) { const unsigned nIncomingArgIndex = aDispParams.cArgs - j - 1; if (aParamInfos[nIncomingArgIndex].aMode == ParamMode_OUT || aParamInfos[nIncomingArgIndex].aMode == ParamMode_INOUT) { switch (aDispParams.rgvarg[j].vt) { case VT_BYREF|VT_I2: { SHORT *pI = static_cast(aDispParams.rgvarg[j].byref); ArgumentsRange[nIncomingArgIndex] <<= static_cast(*pI); delete pI; } break; case VT_BYREF|VT_I4: { LONG *pL = static_cast(aDispParams.rgvarg[j].byref); ArgumentsRange[nIncomingArgIndex] <<= static_cast(*pL); delete pL; } break; case VT_BYREF|VT_BSTR: { BSTR *pBstr = static_cast(aDispParams.rgvarg[j].byref); ArgumentsRange[nIncomingArgIndex] <<= OUString(o3tl::toU(*pBstr)); // Undo SysAllocString() done in anyToVariant() SysFreeString(*pBstr); delete pBstr; } break; case VT_BYREF|VT_BOOL: { VARIANT_BOOL *pBool = static_cast(aDispParams.rgvarg[j].byref); ArgumentsRange[nIncomingArgIndex] <<= (*pBool != VARIANT_FALSE); delete pBool; } break; default: assert(false && "Not handled yet"); break; } } else { switch (aDispParams.rgvarg[j].vt) { case VT_BSTR: // Undo SysAllocString() done in anyToVariant() SysFreeString(aDispParams.rgvarg[j].bstrVal); break; } } } delete[] aDispParams.rgvarg; return; } nMemId++; } SAL_WARN("extensions.olebridge", "Sink::Call: Unknown method '" << Method << "'"); } namespace { class CXEnumConnections : public IEnumConnections, public CComObjectRoot { public: CXEnumConnections() { } virtual ~CXEnumConnections() { } #if defined __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wunused-function" #endif BEGIN_COM_MAP(CXEnumConnections) #if defined __clang__ #pragma clang diagnostic pop #endif COM_INTERFACE_ENTRY(IEnumConnections) #if defined __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Winconsistent-missing-override" #pragma clang diagnostic ignored "-Wunused-function" #endif END_COM_MAP() #if defined __clang__ #pragma clang diagnostic pop #endif DECLARE_NOT_AGGREGATABLE(CXEnumConnections) void Init(std::vector& rUnknowns, std::vector& rCookies) { SAL_INFO("extensions.olebridge", this << "@CXEnumConnections::Init"); SAL_WARN_IF(rUnknowns.size() != rCookies.size(), "extensions.olebridge", "Vectors of different size"); mvUnknowns = rUnknowns; mvCookies = rCookies; mnIndex = 0; } virtual HRESULT STDMETHODCALLTYPE Next(ULONG cConnections, LPCONNECTDATA rgcd, ULONG *pcFetched) override { comphelper::Automation::AutomationInvokedZone aAutomationActive; if (!rgcd) { SAL_INFO("extensions.olebridge", this << "@CXEnumConnections::Next(" << cConnections << "): E_POINTER"); return E_POINTER; } if (pcFetched && cConnections != 1) { SAL_INFO("extensions.olebridge", this << "@CXEnumConnections::Next(" << cConnections << "): E_INVALIDARG"); return E_INVALIDARG; } ULONG nFetched = 0; while (nFetched < cConnections && mnIndex < mvUnknowns.size()) { rgcd[nFetched].pUnk = mvUnknowns[mnIndex]; rgcd[nFetched].pUnk->AddRef(); rgcd[nFetched].dwCookie = mvCookies[mnIndex]; ++nFetched; ++mnIndex; } if (nFetched != cConnections) { SAL_INFO("extensions.olebridge", this << "@CXEnumConnections::Next(" << cConnections << "): S_FALSE"); if (pcFetched) *pcFetched = nFetched; return S_FALSE; } SAL_INFO("extensions.olebridge", this << "@CXEnumConnections::Next(" << cConnections << "): S_OK"); if (pcFetched) *pcFetched = nFetched; return S_OK; } virtual HRESULT STDMETHODCALLTYPE Skip(ULONG cConnections) override { SAL_INFO("extensions.olebridge", this << "@CXEnumConnections::Skip(" << cConnections << "): E_NOTIMPL"); return E_NOTIMPL; } virtual HRESULT STDMETHODCALLTYPE Reset() override { SAL_INFO("extensions.olebridge", this << "@CXEnumConnections::Reset: E_NOTIMPL"); return E_NOTIMPL; } virtual HRESULT STDMETHODCALLTYPE Clone(IEnumConnections** /* ppEnum */) override { SAL_INFO("extensions.olebridge", this << "@CXEnumConnections::Clone: E_NOTIMPL"); return E_NOTIMPL; } private: std::vector mvUnknowns; std::vector mvCookies; ULONG mnIndex; }; class CXConnectionPoint : public IConnectionPoint, public CComObjectRoot { public: #if defined __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wunused-function" #endif BEGIN_COM_MAP(CXConnectionPoint) #if defined __clang__ #pragma clang diagnostic pop #endif COM_INTERFACE_ENTRY(IConnectionPoint) #if defined __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Winconsistent-missing-override" #pragma clang diagnostic ignored "-Wunused-function" #endif END_COM_MAP() #if defined __clang__ #pragma clang diagnostic pop #endif DECLARE_NOT_AGGREGATABLE(CXConnectionPoint) virtual ~CXConnectionPoint() {} void Init(InterfaceOleWrapper* pInterfaceOleWrapper, Reference& xCP, Reference& xMSF, ooo::vba::TypeAndIID aTypeAndIID) { SAL_INFO("extensions.olebridge", this << "@CXConnectionPoint::Init for " << pInterfaceOleWrapper->getImplementationName()); IUnknown *pUnknown; if (SUCCEEDED(QueryInterface(IID_IUnknown, reinterpret_cast(&pUnknown)))) { // In case QI for IUnknown returns a different pointer, but nah, it doesn't SAL_INFO("extensions.olebridge", " (IUnknown@" << pUnknown << ")"); } mpInterfaceOleWrapper = pInterfaceOleWrapper; mxCP = xCP; mxMSF = xMSF; maTypeAndIID = aTypeAndIID; } virtual HRESULT STDMETHODCALLTYPE GetConnectionInterface(IID *pIID) override { SAL_WARN("extensions.olebridge", this << "@CXConnectionPoint::GetConnectionInterface(" << *pIID << "): E_NOTIMPL"); // FIXME: Needed? return E_NOTIMPL; } virtual HRESULT STDMETHODCALLTYPE GetConnectionPointContainer(IConnectionPointContainer **) override { SAL_WARN("extensions.olebridge", this << "@CXConnectionPoint::GetConnectionInterface: E_NOTIMPL"); // FIXME: Needed? return E_NOTIMPL; } virtual HRESULT STDMETHODCALLTYPE Advise(IUnknown *pUnkSink, DWORD *pdwCookie) override { comphelper::Automation::AutomationInvokedZone aAutomationActive; SAL_INFO("extensions.olebridge", this << "@CXConnectionPoint::Advise(" << pUnkSink << ")"); if (!pdwCookie) return E_POINTER; Reference xSink(new Sink(pUnkSink, mxMSF, maTypeAndIID, mpInterfaceOleWrapper)); mvISinks.push_back(pUnkSink); *pdwCookie = mvISinks.size(); mvCookies.push_back(mxCP->Advise(xSink)); mvXSinks.push_back(xSink); SAL_INFO("extensions.olebridge", " *pdwCookie: " << *pdwCookie); return S_OK; } virtual HRESULT STDMETHODCALLTYPE Unadvise(DWORD dwCookie) override { comphelper::Automation::AutomationInvokedZone aAutomationActive; SAL_INFO("extensions.olebridge", this << "@CXConnectionPoint::Unadvise(" << dwCookie << ")"); if (dwCookie == 0 || dwCookie > mvISinks.size()) return E_POINTER; mvISinks[dwCookie-1] = nullptr; mxCP->Unadvise(mvCookies[dwCookie-1]); mvXSinks[dwCookie-1] = Reference(); return S_OK; } virtual HRESULT STDMETHODCALLTYPE EnumConnections(IEnumConnections **ppEnum) override { comphelper::Automation::AutomationInvokedZone aAutomationActive; HRESULT nResult; SAL_INFO("extensions.olebridge", this << "@CXConnectionPoint::EnumConnections..."); if (!ppEnum) { SAL_INFO("extensions.olebridge", "..." << this << "@CXConnectionPoint::EnumConnections: E_POINTER"); return E_POINTER; } CComObject* pEnumConnections; nResult = CComObject::CreateInstance(&pEnumConnections); if (FAILED(nResult)) { SAL_INFO("extensions.olebridge", "..." << this << "@CXConnectionPoint::EnumConnections: " << WindowsErrorStringFromHRESULT(nResult)); return nResult; } pEnumConnections->AddRef(); pEnumConnections->Init(mvISinks, mvCookies); *ppEnum = pEnumConnections; SAL_INFO("extensions.olebridge", "..." << this << "@CXConnectionPoint::EnumConnections: S_OK"); return S_OK; } InterfaceOleWrapper* mpInterfaceOleWrapper; std::vector mvISinks; std::vector> mvXSinks; std::vector mvCookies; Reference mxMSF; Reference mxCP; ooo::vba::TypeAndIID maTypeAndIID; }; } HRESULT InterfaceOleWrapper::InvokeGeneral( DISPID dispidMember, unsigned short wFlags, DISPPARAMS * pdispparams, VARIANT * pvarResult, EXCEPINFO * pexcepinfo, unsigned int * /*puArgErr*/, bool& bHandled) { HRESULT ret= S_OK; try { // DISPID_VALUE | The DEFAULT Value is required in JScript when the situation // is that we put an object into an Array object ( out parameter). We have to return // IDispatch otherwise the object cannot be accessed from the Script. if( dispidMember == DISPID_VALUE && (wFlags & DISPATCH_PROPERTYGET) != 0 && m_defaultValueType != VT_EMPTY && pvarResult != nullptr) { // Special case hack: If it is a ScVbaCheckBox, return the boolean value Reference xCheckBox(m_xOrigin, UNO_QUERY); if (xCheckBox.is()) { bHandled = true; Any aValue = xCheckBox->getValue(); anyToVariant(pvarResult, aValue); return S_OK; } bHandled= true; if( m_defaultValueType == VT_DISPATCH) { pvarResult->vt= VT_DISPATCH; pvarResult->pdispVal= this; AddRef(); ret= S_OK; } } // function: _GetValueObject else if( dispidMember == DISPID_JSCRIPT_VALUE_FUNC) { bHandled= true; if( !pvarResult) return E_POINTER; CComObject< JScriptValue>* pValue; if( SUCCEEDED( CComObject::CreateInstance( &pValue))) { pValue->AddRef(); pvarResult->vt= VT_DISPATCH; pvarResult->pdispVal= CComQIPtr(pValue->GetUnknown()); ret= S_OK; } else ret= DISP_E_EXCEPTION; } else if( dispidMember == DISPID_GET_STRUCT_FUNC) { bHandled= true; bool bStruct= false; Reference xRefl = theCoreReflection::get(comphelper::getComponentContext(m_smgr)); // the first parameter is in DISPPARAMS rgvargs contains the name of the struct. CComVariant arg; if( pdispparams->cArgs == 1 && SUCCEEDED( arg.ChangeType( VT_BSTR, &pdispparams->rgvarg[0])) ) { Reference classStruct= xRefl->forName(OUString(o3tl::toU(arg.bstrVal))); if( classStruct.is()) { Any anyStruct; classStruct->createObject( anyStruct); CComVariant var; anyToVariant( &var, anyStruct ); if( var.vt == VT_DISPATCH) { VariantCopy( pvarResult, & var); bStruct= true; } } } ret= bStruct ? S_OK : DISP_E_EXCEPTION; } else if (dispidMember == DISPID_CREATE_TYPE_FUNC) { bHandled= true; if( !pvarResult) return E_POINTER; // the first parameter is in DISPPARAMS rgvargs contains the name of the struct. CComVariant arg; if( pdispparams->cArgs != 1) return DISP_E_BADPARAMCOUNT; if (FAILED( arg.ChangeType( VT_BSTR, &pdispparams->rgvarg[0]))) return DISP_E_BADVARTYPE; //check if the provided name represents a valid type Type type; if (!getType(arg.bstrVal, type)) { writeExcepinfo(pexcepinfo, OUString::Concat("[automation bridge] A UNO type with the name ") + o3tl::toU(arg.bstrVal) + " does not exist!"); return DISP_E_EXCEPTION; } if (!createUnoTypeWrapper(arg.bstrVal, pvarResult)) { writeExcepinfo(pexcepinfo, "[automation bridge] InterfaceOleWrapper::InvokeGeneral\n" "Could not initialize UnoTypeWrapper object!"); return DISP_E_EXCEPTION; } } else if (dispidMember == DISPID_NEWENUM) { bHandled = true; if( !pvarResult) return E_POINTER; Reference< ooo::vba::XCollection> xCollection(m_xOrigin, UNO_QUERY); if (!xCollection.is()) return DISP_E_MEMBERNOTFOUND; CComObject* pEnumVar; ret = CComObject::CreateInstance(&pEnumVar); if (FAILED(ret)) return ret; pEnumVar->AddRef(); pEnumVar->Init(this, xCollection); pvarResult->vt = VT_UNKNOWN; pvarResult->punkVal = nullptr; ret = pEnumVar->QueryInterface(IID_IUnknown, reinterpret_cast(&pvarResult->punkVal)); if (FAILED(ret)) { pEnumVar->Release(); return ret; } } } catch(const BridgeRuntimeError & e) { writeExcepinfo(pexcepinfo, e.message); ret = DISP_E_EXCEPTION; } catch(const Exception & e) { OUString message= "InterfaceOleWrapper::InvokeGeneral : \n" + e.Message; writeExcepinfo(pexcepinfo, message); ret = DISP_E_EXCEPTION; } catch( ... ) { writeExcepinfo(pexcepinfo, "InterfaceOleWrapper::InvokeGeneral : \nUnexpected exception"); ret = DISP_E_EXCEPTION; } return ret; } STDMETHODIMP InterfaceOleWrapper::GetDispID(BSTR /*bstrName*/, DWORD /*grfdex*/, DISPID __RPC_FAR* /*pid*/) { return ResultFromScode(E_NOTIMPL); } STDMETHODIMP InterfaceOleWrapper::InvokeEx( /* [in] */ DISPID /*id*/, /* [in] */ LCID /*lcid*/, /* [in] */ WORD /*wFlags*/, /* [in] */ DISPPARAMS __RPC_FAR* /*pdp*/, /* [out] */ VARIANT __RPC_FAR* /*pvarRes*/, /* [out] */ EXCEPINFO __RPC_FAR* /*pei*/, /* [unique][in] */ IServiceProvider __RPC_FAR* /*pspCaller*/) { return ResultFromScode(E_NOTIMPL); } STDMETHODIMP InterfaceOleWrapper::DeleteMemberByName( /* [in] */ BSTR /*bstr*/, /* [in] */ DWORD /*grfdex*/) { return ResultFromScode(E_NOTIMPL); } STDMETHODIMP InterfaceOleWrapper::DeleteMemberByDispID(DISPID /*id*/) { return ResultFromScode(E_NOTIMPL); } STDMETHODIMP InterfaceOleWrapper::GetMemberProperties( /* [in] */ DISPID /*id*/, /* [in] */ DWORD /*grfdexFetch*/, /* [out] */ DWORD __RPC_FAR* /*pgrfdex*/) { return ResultFromScode(E_NOTIMPL); } STDMETHODIMP InterfaceOleWrapper::GetMemberName( /* [in] */ DISPID /*id*/, /* [out] */ BSTR __RPC_FAR* /*pbstrName*/) { return ResultFromScode(E_NOTIMPL); } STDMETHODIMP InterfaceOleWrapper::GetNextDispID( /* [in] */ DWORD /*grfdex*/, /* [in] */ DISPID /*id*/, /* [out] */ DISPID __RPC_FAR* /*pid*/) { return ResultFromScode(E_NOTIMPL); } STDMETHODIMP InterfaceOleWrapper::GetNameSpaceParent( /* [out] */ IUnknown __RPC_FAR *__RPC_FAR* /*ppunk*/) { return ResultFromScode(E_NOTIMPL); } // IProvideClassInfo HRESULT STDMETHODCALLTYPE InterfaceOleWrapper::GetClassInfo ( /* [out] */ ITypeInfo **ppTI) { comphelper::Automation::AutomationInvokedZone aAutomationActive; SAL_INFO("extensions.olebridge", this << "@InterfaceOleWrapper::GetClassInfo"); if (!ppTI) return E_POINTER; Reference xIID(m_xOrigin, UNO_QUERY); if (!xIID.is()) return E_NOTIMPL; OUString sIID = xIID->getIID(); IID aIID; if (!SUCCEEDED(IIDFromString(reinterpret_cast(sIID.pData->buffer), &aIID))) return E_NOTIMPL; HRESULT ret; CComObject* pTypeInfo; ret = CComObject::CreateInstance(&pTypeInfo); if (FAILED(ret)) return ret; pTypeInfo->AddRef(); pTypeInfo->InitForCoclass(m_xOrigin, m_sImplementationName, aIID, m_smgr); *ppTI = pTypeInfo; return S_OK; } // IConnectionPointContainer HRESULT STDMETHODCALLTYPE InterfaceOleWrapper::EnumConnectionPoints( /* [out] */ IEnumConnectionPoints **) { SAL_INFO("extensions.olebridge", this << "@InterfaceOleWrapper::EnumConnectionPoints"); return ResultFromScode(E_NOTIMPL); } HRESULT STDMETHODCALLTYPE InterfaceOleWrapper::FindConnectionPoint( /* [in] */ REFIID riid, /* [out] */ IConnectionPoint **ppCP) { comphelper::Automation::AutomationInvokedZone aAutomationActive; SAL_INFO("extensions.olebridge", this << "@InterfaceOleWrapper::FindConnectionPoint(" << riid << ")"); if (!ppCP) return E_POINTER; Reference xConnectable(m_xOrigin, UNO_QUERY); // We checked already assert(xConnectable.is()); if (!xConnectable.is()) return E_NOTIMPL; ooo::vba::TypeAndIID aTypeAndIID = xConnectable->GetConnectionPoint(); IID aIID; if (!SUCCEEDED(IIDFromString(reinterpret_cast(aTypeAndIID.IID.pData->buffer), &aIID))) return E_INVALIDARG; if (!IsEqualIID(riid, aIID)) return E_INVALIDARG; Reference xCP = xConnectable->FindConnectionPoint(); if (!xCP.is()) return E_INVALIDARG; HRESULT ret; CComObject* pConnectionPoint; ret = CComObject::CreateInstance(&pConnectionPoint); if (FAILED(ret)) return ret; pConnectionPoint->AddRef(); pConnectionPoint->Init(this, xCP, m_smgr, aTypeAndIID); *ppCP = pConnectionPoint; return S_OK; } // UnoObjectWrapperRemoteOpt --------------------------------------------------- UnoObjectWrapperRemoteOpt::UnoObjectWrapperRemoteOpt( Reference const & aFactory, sal_uInt8 unoWrapperClass, sal_uInt8 comWrapperClass): InterfaceOleWrapper( aFactory, unoWrapperClass, comWrapperClass), m_currentId(1) { } UnoObjectWrapperRemoteOpt::~UnoObjectWrapperRemoteOpt() { } // UnoConversionUtilities Reference< XInterface > UnoObjectWrapperRemoteOpt::createUnoWrapperInstance() { Reference xWeak= static_cast( new UnoObjectWrapperRemoteOpt( m_smgr, m_nUnoWrapperClass, m_nComWrapperClass)); return Reference( xWeak, UNO_QUERY); } COM_DECLSPEC_NOTHROW STDMETHODIMP UnoObjectWrapperRemoteOpt::GetIDsOfNames ( REFIID /*riid*/, LPOLESTR * rgszNames, UINT cNames, LCID /*lcid*/, DISPID * rgdispid ) { MutexGuard guard( getBridgeMutex()); if( ! rgdispid) return E_POINTER; HRESULT ret = E_UNEXPECTED; // _GetValueObject if( ! wcscmp( *rgszNames, JSCRIPT_VALUE_FUNC)) { *rgdispid= DISPID_JSCRIPT_VALUE_FUNC; return S_OK; } else if( ! wcscmp( *rgszNames, GET_STRUCT_FUNC)) { *rgdispid= DISPID_GET_STRUCT_FUNC; return S_OK; } if (m_xInvocation.is() && (cNames > 0)) { OUString name(o3tl::toU(rgszNames[0])); // has this name been determined as "bad" BadNameMap::iterator badIter= m_badNameMap.find( name); if( badIter == m_badNameMap.end() ) { // name has not been bad before( member exists typedef NameToIdMap::iterator ITnames; std::pair< ITnames, bool > pair_id= m_nameToDispIdMap.emplace(name, m_currentId++); // new ID inserted ? if( pair_id.second ) {// yes, now create MemberInfo and ad to IdToMemberInfoMap MemberInfo d(0, name); m_idToMemberInfoMap.emplace(m_currentId - 1, d); } *rgdispid = pair_id.first->second; ret = S_OK; } else ret= DISP_E_UNKNOWNNAME; } return ret; } COM_DECLSPEC_NOTHROW STDMETHODIMP UnoObjectWrapperRemoteOpt::Invoke ( DISPID dispidMember, REFIID /*riid*/, LCID /*lcid*/, WORD wFlags, DISPPARAMS * pdispparams, VARIANT * pvarResult, EXCEPINFO * pexcepinfo, UINT * puArgErr ) { comphelper::Automation::AutomationInvokedZone aAutomationActive; HRESULT ret = S_OK; try { bool bHandled= false; ret= InvokeGeneral( dispidMember, wFlags, pdispparams, pvarResult, pexcepinfo, puArgErr, bHandled); if( bHandled) return ret; if ( dispidMember > 0 && m_xInvocation.is()) { IdToMemberInfoMap::iterator it_MemberInfo= m_idToMemberInfoMap.find( dispidMember); if( it_MemberInfo != m_idToMemberInfoMap.end() ) { MemberInfo& info= it_MemberInfo->second; Sequence params; // holds converted any s if( ! info.flags ) { // DISPID called for the first time if( wFlags == DISPATCH_METHOD ) { convertDispparamsArgs(dispidMember, wFlags, pdispparams, params ); if( FAILED( ret= doInvoke( pdispparams, pvarResult, pexcepinfo, puArgErr, info.name, params)) && ret == DISP_E_MEMBERNOTFOUND) { // try to get the exact name OUString exactName; if (m_xExactName.is()) { exactName = m_xExactName->getExactName( info.name); // invoke again if( !exactName.isEmpty() ) { if( SUCCEEDED( ret= doInvoke( pdispparams, pvarResult, pexcepinfo, puArgErr, exactName, params))) info.name= exactName; } } } if( SUCCEEDED( ret ) ) info.flags= DISPATCH_METHOD; } else if( wFlags == DISPATCH_PROPERTYPUT || wFlags == DISPATCH_PROPERTYPUTREF) { convertDispparamsArgs(dispidMember, wFlags, pdispparams, params ); if( FAILED( ret= doSetProperty( pdispparams, pvarResult, pexcepinfo, puArgErr, info.name, params)) && ret == DISP_E_MEMBERNOTFOUND) { // try to get the exact name OUString exactName; if (m_xExactName.is()) { exactName = m_xExactName->getExactName( info.name); // invoke again if( !exactName.isEmpty() ) { if( SUCCEEDED( ret= doSetProperty( pdispparams, pvarResult, pexcepinfo, puArgErr, exactName, params))) info.name= exactName; } } } if( SUCCEEDED( ret ) ) info.flags= DISPATCH_PROPERTYPUT | DISPATCH_PROPERTYGET; } else if( wFlags == DISPATCH_PROPERTYGET) { if( FAILED( ret= doGetProperty( pdispparams, pvarResult, pexcepinfo, info.name)) && ret == DISP_E_MEMBERNOTFOUND) { // try to get the exact name OUString exactName; if (m_xExactName.is()) { exactName = m_xExactName->getExactName( info.name); // invoke again if( !exactName.isEmpty() ) { if( SUCCEEDED( ret= doGetProperty( pdispparams, pvarResult, pexcepinfo, exactName))) info.name= exactName; } } } if( SUCCEEDED( ret ) ) info.flags= DISPATCH_PROPERTYGET | DISPATCH_PROPERTYPUT; } else if( wFlags & DISPATCH_METHOD && (wFlags & DISPATCH_PROPERTYPUT || wFlags & DISPATCH_PROPERTYPUTREF)) { OUString exactName; // convert params for DISPATCH_METHOD or DISPATCH_PROPERTYPUT convertDispparamsArgs(dispidMember, wFlags, pdispparams, params ); // try first as method if( FAILED( ret= doInvoke( pdispparams, pvarResult, pexcepinfo, puArgErr, info.name, params)) && ret == DISP_E_MEMBERNOTFOUND) { // try to get the exact name if (m_xExactName.is()) { exactName = m_xExactName->getExactName( info.name); // invoke again if( !exactName.isEmpty() ) { if( SUCCEEDED( ret= doInvoke( pdispparams, pvarResult, pexcepinfo, puArgErr, exactName, params))) info.name= exactName; } } } if( SUCCEEDED( ret ) ) info.flags= DISPATCH_METHOD; // try as property if( FAILED( ret) && pdispparams->cArgs == 1) { if( FAILED( ret= doSetProperty( pdispparams, pvarResult, pexcepinfo, puArgErr, info.name, params)) && ret == DISP_E_MEMBERNOTFOUND) { // try to get the exact name if( !exactName.isEmpty() ) { if( SUCCEEDED( ret= doSetProperty( pdispparams, pvarResult, pexcepinfo, puArgErr, exactName, params))) info.name= exactName; } } if( SUCCEEDED( ret ) ) info.flags= DISPATCH_PROPERTYPUT | DISPATCH_PROPERTYGET; } } else if( wFlags & DISPATCH_METHOD && wFlags & DISPATCH_PROPERTYGET) { OUString exactName; convertDispparamsArgs(dispidMember, wFlags, pdispparams, params ); if( FAILED( ret= doInvoke( pdispparams, pvarResult, pexcepinfo, puArgErr, info.name, params)) && ret == DISP_E_MEMBERNOTFOUND) { // try to get the exact name if (m_xExactName.is()) { exactName = m_xExactName->getExactName( info.name); // invoke again if( !exactName.isEmpty() ) { if( SUCCEEDED( ret= doInvoke( pdispparams, pvarResult, pexcepinfo, puArgErr, exactName, params))) info.name= exactName; } } } if( SUCCEEDED( ret ) ) info.flags= DISPATCH_METHOD; // try as property if( FAILED( ret) && pdispparams->cArgs == 1) { if( FAILED( ret= doGetProperty( pdispparams, pvarResult, pexcepinfo, info.name)) && ret == DISP_E_MEMBERNOTFOUND) { if( !exactName.isEmpty() ) { if( SUCCEEDED( ret= doSetProperty( pdispparams, pvarResult, pexcepinfo, puArgErr, exactName, params))) info.name= exactName; } } if( SUCCEEDED( ret ) ) info.flags= DISPATCH_PROPERTYGET; } } // update information about this member if( ret == DISP_E_MEMBERNOTFOUND) { // Remember the name as not existing // and remove the MemberInfo m_badNameMap[info.name]= false; m_idToMemberInfoMap.erase( it_MemberInfo); } } // if( ! info.flags ) else // IdToMemberInfoMap contains a MemberInfo { if( wFlags & DISPATCH_METHOD && info.flags == DISPATCH_METHOD) { convertDispparamsArgs(dispidMember, wFlags, pdispparams, params ); ret= doInvoke( pdispparams, pvarResult, pexcepinfo, puArgErr, info.name, params); } else if( (wFlags & DISPATCH_PROPERTYPUT || wFlags & DISPATCH_PROPERTYPUTREF ) && info.flags & DISPATCH_PROPERTYPUT) { convertDispparamsArgs(dispidMember, wFlags, pdispparams, params ); ret= doSetProperty( pdispparams, pvarResult, pexcepinfo, puArgErr, info.name, params); } else if( (wFlags & DISPATCH_PROPERTYGET) && ( info.flags & DISPATCH_PROPERTYGET)) { ret= doGetProperty( pdispparams, pvarResult, pexcepinfo, info.name); } else { ret= DISP_E_MEMBERNOTFOUND; } } }// if( it_MemberInfo != m_idToMemberInfoMap.end() ) else ret= DISP_E_MEMBERNOTFOUND; } } catch(const BridgeRuntimeError& e) { writeExcepinfo(pexcepinfo, e.message); ret = DISP_E_EXCEPTION; } catch(const Exception& e) { OUString message= "UnoObjectWrapperRemoteOpt::Invoke : \n" + e.Message; writeExcepinfo(pexcepinfo, message); ret = DISP_E_EXCEPTION; } catch(...) { writeExcepinfo(pexcepinfo, "UnoObjectWrapperRemoteOpt::Invoke : \nUnexpected exception"); ret = DISP_E_EXCEPTION; } return ret; } HRESULT UnoObjectWrapperRemoteOpt::methodInvoke( DISPID /*dispidMember*/, DISPPARAMS * /*pdispparams*/, VARIANT * /*pvarResult*/, EXCEPINFO * /*pexcepinfo*/, unsigned int * /*puArgErr*/, Sequence const &) { return S_OK; } // The returned HRESULT is only appropriate for IDispatch::Invoke static HRESULT mapCannotConvertException(const CannotConvertException &e, unsigned int * puArgErr) { HRESULT ret; bool bWriteIndex= true; switch ( e.Reason) { case FailReason::OUT_OF_RANGE: ret = DISP_E_OVERFLOW; break; case FailReason::IS_NOT_NUMBER: ret = DISP_E_TYPEMISMATCH; break; case FailReason::IS_NOT_ENUM: ret = DISP_E_TYPEMISMATCH; break; case FailReason::IS_NOT_BOOL: ret = DISP_E_TYPEMISMATCH; break; case FailReason::NO_SUCH_INTERFACE: ret = DISP_E_TYPEMISMATCH; break; case FailReason::SOURCE_IS_NO_DERIVED_TYPE: ret = DISP_E_TYPEMISMATCH; break; case FailReason::TYPE_NOT_SUPPORTED: ret = DISP_E_TYPEMISMATCH; break; case FailReason::INVALID: ret = DISP_E_TYPEMISMATCH; break; case FailReason::NO_DEFAULT_AVAILABLE: ret = DISP_E_BADPARAMCOUNT; break; case FailReason::UNKNOWN: ret = E_UNEXPECTED; break; default: ret = E_UNEXPECTED; bWriteIndex= false; break; } if( bWriteIndex && puArgErr != nullptr) *puArgErr = e.ArgumentIndex; return ret; } // The function maps the TypeClass of the any to VARTYPE: If // the Any contains STRUCT or INTERFACE then the return value // is VT_DISPATCH. The function is used from o2u_createUnoObjectWrapper // and the result is put into the constructor of the uno - wrapper // object. If a client asks the object for DISPID_VALUE and this // function returned VT_DISPATCH then the IDispatch of the same // object is being returned. // See InterfaceOleWrapper::Invoke, InterfaceOleWrapper::m_defaultValueType VARTYPE getVarType( const Any& value) { VARTYPE ret= VT_EMPTY; switch ( value.getValueTypeClass()) { case TypeClass_STRUCT: ret= VT_DISPATCH; break; case TypeClass_INTERFACE: ret= VT_DISPATCH; break; default: break; } return ret; } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */