/* * Misc marshalling routines * * Copyright 2002 Ove Kaaven * Copyright 2003 Mike Hearn * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA */ #include #include #define COBJMACROS #define NONAMELESSUNION #include "windef.h" #include "winbase.h" #include "wingdi.h" #include "winuser.h" #include "winerror.h" #include "ole2.h" #include "oleauto.h" #include "typelib.h" #include "ocidl.h" #include "wine/debug.h" WINE_DEFAULT_DEBUG_CHANNEL(ole); #define ALIGNED_LENGTH(_Len, _Align) (((_Len)+(_Align))&~(_Align)) #define ALIGNED_POINTER(_Ptr, _Align) ((LPVOID)ALIGNED_LENGTH((ULONG_PTR)(_Ptr), _Align)) #define ALIGN_LENGTH(_Len, _Align) _Len = ALIGNED_LENGTH(_Len, _Align) #define ALIGN_POINTER(_Ptr, _Align) _Ptr = ALIGNED_POINTER(_Ptr, _Align) /* ole32 exports those, not defined in public headers */ ULONG __RPC_USER WdtpInterfacePointer_UserSize(ULONG*, ULONG, ULONG, IUnknown*, REFIID); unsigned char * __RPC_USER WdtpInterfacePointer_UserMarshal(ULONG*, ULONG, unsigned char*, IUnknown*, REFIID); unsigned char * __RPC_USER WdtpInterfacePointer_UserUnmarshal(ULONG*, unsigned char*, IUnknown**, REFIID); static void dump_user_flags(const ULONG *pFlags) { if (HIWORD(*pFlags) == NDR_LOCAL_DATA_REPRESENTATION) TRACE("MAKELONG(NDR_LOCAL_REPRESENTATION, "); else TRACE("MAKELONG(0x%04x, ", HIWORD(*pFlags)); switch (LOWORD(*pFlags)) { case MSHCTX_LOCAL: TRACE("MSHCTX_LOCAL)"); break; case MSHCTX_NOSHAREDMEM: TRACE("MSHCTX_NOSHAREDMEM)"); break; case MSHCTX_DIFFERENTMACHINE: TRACE("MSHCTX_DIFFERENTMACHINE)"); break; case MSHCTX_INPROC: TRACE("MSHCTX_INPROC)"); break; default: TRACE("%d)", LOWORD(*pFlags)); } } /* CLEANLOCALSTORAGE */ #define CLS_FUNCDESC 'f' #define CLS_LIBATTR 'l' #define CLS_TYPEATTR 't' #define CLS_VARDESC 'v' ULONG WINAPI CLEANLOCALSTORAGE_UserSize(ULONG *pFlags, ULONG Start, CLEANLOCALSTORAGE *pstg) { ALIGN_LENGTH(Start, 3); return Start + sizeof(DWORD); } unsigned char * WINAPI CLEANLOCALSTORAGE_UserMarshal(ULONG *pFlags, unsigned char *Buffer, CLEANLOCALSTORAGE *pstg) { ALIGN_POINTER(Buffer, 3); *(DWORD*)Buffer = pstg->flags; if (!pstg->pInterface) return Buffer + sizeof(DWORD); switch(pstg->flags) { case CLS_LIBATTR: ITypeLib_ReleaseTLibAttr((ITypeLib*)pstg->pInterface, *(TLIBATTR**)pstg->pStorage); break; case CLS_TYPEATTR: ITypeInfo_ReleaseTypeAttr((ITypeInfo*)pstg->pInterface, *(TYPEATTR**)pstg->pStorage); break; case CLS_FUNCDESC: ITypeInfo_ReleaseFuncDesc((ITypeInfo*)pstg->pInterface, *(FUNCDESC**)pstg->pStorage); break; case CLS_VARDESC: ITypeInfo_ReleaseVarDesc((ITypeInfo*)pstg->pInterface, *(VARDESC**)pstg->pStorage); break; default: ERR("Unknown type %x\n", pstg->flags); } *(VOID**)pstg->pStorage = NULL; IUnknown_Release(pstg->pInterface); pstg->pInterface = NULL; return Buffer + sizeof(DWORD); } unsigned char * WINAPI CLEANLOCALSTORAGE_UserUnmarshal(ULONG *pFlags, unsigned char *Buffer, CLEANLOCALSTORAGE *pstr) { ALIGN_POINTER(Buffer, 3); pstr->flags = *(DWORD*)Buffer; return Buffer + sizeof(DWORD); } void WINAPI CLEANLOCALSTORAGE_UserFree(ULONG *pFlags, CLEANLOCALSTORAGE *pstr) { /* Nothing to do */ } /* BSTR */ typedef struct { DWORD len; /* No. of chars not including trailing '\0' */ DWORD byte_len; /* len * 2 or 0xffffffff if len == 0 */ DWORD len2; /* == len */ } bstr_wire_t; ULONG WINAPI BSTR_UserSize(ULONG *pFlags, ULONG Start, BSTR *pstr) { TRACE("(%x,%d,%p) => %p\n", *pFlags, Start, pstr, *pstr); if (*pstr) TRACE("string=%s\n", debugstr_w(*pstr)); ALIGN_LENGTH(Start, 3); Start += sizeof(bstr_wire_t) + ((SysStringByteLen(*pstr) + 1) & ~1); TRACE("returning %d\n", Start); return Start; } unsigned char * WINAPI BSTR_UserMarshal(ULONG *pFlags, unsigned char *Buffer, BSTR *pstr) { bstr_wire_t *header; DWORD len = SysStringByteLen(*pstr); TRACE("(%x,%p,%p) => %p\n", *pFlags, Buffer, pstr, *pstr); if (*pstr) TRACE("string=%s\n", debugstr_w(*pstr)); ALIGN_POINTER(Buffer, 3); header = (bstr_wire_t*)Buffer; header->len = header->len2 = (len + 1) / 2; if (*pstr) { header->byte_len = len; memcpy(header + 1, *pstr, header->len * 2); } else header->byte_len = 0xffffffff; /* special case for a null bstr */ return Buffer + sizeof(*header) + sizeof(OLECHAR) * header->len; } unsigned char * WINAPI BSTR_UserUnmarshal(ULONG *pFlags, unsigned char *Buffer, BSTR *pstr) { bstr_wire_t *header; TRACE("(%x,%p,%p) => %p\n", *pFlags, Buffer, pstr, *pstr); ALIGN_POINTER(Buffer, 3); header = (bstr_wire_t*)Buffer; if(header->len != header->len2) FIXME("len %08x != len2 %08x\n", header->len, header->len2); if (header->byte_len == 0xffffffff) { SysFreeString(*pstr); *pstr = NULL; } else SysReAllocStringLen( pstr, (OLECHAR *)(header + 1), header->len ); if (*pstr) TRACE("string=%s\n", debugstr_w(*pstr)); return Buffer + sizeof(*header) + sizeof(OLECHAR) * header->len; } void WINAPI BSTR_UserFree(ULONG *pFlags, BSTR *pstr) { TRACE("(%x,%p) => %p\n", *pFlags, pstr, *pstr); SysFreeString(*pstr); *pstr = NULL; } /* VARIANT */ typedef struct { DWORD clSize; DWORD rpcReserved; USHORT vt; USHORT wReserved1; USHORT wReserved2; USHORT wReserved3; DWORD switch_is; } variant_wire_t; unsigned int get_type_size(ULONG *pFlags, VARTYPE vt) { if (vt & VT_ARRAY) return 4; switch (vt & ~VT_BYREF) { case VT_EMPTY: case VT_NULL: return 0; case VT_I1: case VT_UI1: return sizeof(CHAR); case VT_I2: case VT_UI2: return sizeof(SHORT); case VT_I4: case VT_UI4: case VT_HRESULT: return sizeof(LONG); case VT_INT: case VT_UINT: return sizeof(INT); case VT_I8: case VT_UI8: return sizeof(LONGLONG); case VT_R4: return sizeof(FLOAT); case VT_R8: return sizeof(DOUBLE); case VT_BOOL: return sizeof(VARIANT_BOOL); case VT_ERROR: return sizeof(SCODE); case VT_DATE: return sizeof(DATE); case VT_CY: return sizeof(CY); case VT_DECIMAL: return sizeof(DECIMAL); case VT_BSTR: return sizeof(ULONG); case VT_VARIANT: return sizeof(VARIANT); case VT_UNKNOWN: case VT_DISPATCH: case VT_RECORD: return 0; default: FIXME("unhandled VT %d\n", vt); return 0; } } static unsigned int get_type_alignment(ULONG *pFlags, VARTYPE vt) { unsigned int size = get_type_size(pFlags, vt); if(vt & VT_BYREF) return 3; if(size == 0) return 0; if(size <= 4) return size - 1; return 7; } /* WdtpInterfacePointer_UserSize takes care of 2 additional DWORDs to store marshalling buffer size */ static unsigned interface_variant_size(ULONG *pFlags, REFIID riid, IUnknown *punk) { ULONG size = 0; if (punk) { size = WdtpInterfacePointer_UserSize(pFlags, LOWORD(*pFlags), 0, punk, riid); if (!size) { ERR("interface variant buffer size calculation failed\n"); return 0; } } size += sizeof(ULONG); TRACE("wire-size extra of interface variant is %d\n", size); return size; } static ULONG wire_extra_user_size(ULONG *pFlags, ULONG Start, VARIANT *pvar) { if (V_ISARRAY(pvar)) { if (V_ISBYREF(pvar)) return LPSAFEARRAY_UserSize(pFlags, Start, V_ARRAYREF(pvar)); else return LPSAFEARRAY_UserSize(pFlags, Start, &V_ARRAY(pvar)); } switch (V_VT(pvar)) { case VT_BSTR: return BSTR_UserSize(pFlags, Start, &V_BSTR(pvar)); case VT_BSTR | VT_BYREF: return BSTR_UserSize(pFlags, Start, V_BSTRREF(pvar)); case VT_VARIANT | VT_BYREF: return VARIANT_UserSize(pFlags, Start, V_VARIANTREF(pvar)); case VT_UNKNOWN: return Start + interface_variant_size(pFlags, &IID_IUnknown, V_UNKNOWN(pvar)); case VT_UNKNOWN | VT_BYREF: return Start + interface_variant_size(pFlags, &IID_IUnknown, *V_UNKNOWNREF(pvar)); case VT_DISPATCH: return Start + interface_variant_size(pFlags, &IID_IDispatch, (IUnknown*)V_DISPATCH(pvar)); case VT_DISPATCH | VT_BYREF: return Start + interface_variant_size(pFlags, &IID_IDispatch, (IUnknown*)*V_DISPATCHREF(pvar)); case VT_RECORD: FIXME("wire-size record\n"); return Start; case VT_SAFEARRAY: case VT_SAFEARRAY | VT_BYREF: FIXME("wire-size safearray: shouldn't be marshaling this\n"); return Start; default: return Start; } } /* helper: called for VT_DISPATCH variants to marshal the IDispatch* into the buffer */ static unsigned char* interface_variant_marshal(ULONG *pFlags, unsigned char *Buffer, REFIID riid, IUnknown *punk) { TRACE("pFlags=%d, Buffer=%p, pUnk=%p\n", *pFlags, Buffer, punk); /* first DWORD is used to store pointer itself, truncated on win64 */ if(!punk) { memset(Buffer, 0, sizeof(ULONG)); return Buffer + sizeof(ULONG); } else { *(DWORD*)Buffer = (DWORD_PTR)punk; Buffer += sizeof(DWORD); } return WdtpInterfacePointer_UserMarshal(pFlags, LOWORD(*pFlags), Buffer, punk, riid); } /* helper: called for VT_DISPATCH / VT_UNKNOWN variants to unmarshal the buffer */ static unsigned char *interface_variant_unmarshal(ULONG *pFlags, unsigned char *Buffer, REFIID riid, IUnknown **ppunk) { DWORD ptr; TRACE("pFlags=%d, Buffer=%p, ppUnk=%p\n", *pFlags, Buffer, ppunk); /* skip pointer part itself */ ptr = *(DWORD*)Buffer; Buffer += sizeof(DWORD); if(!ptr) return Buffer; return WdtpInterfacePointer_UserUnmarshal(pFlags, Buffer, ppunk, riid); } ULONG WINAPI VARIANT_UserSize(ULONG *pFlags, ULONG Start, VARIANT *pvar) { int align; TRACE("(%x,%d,%p)\n", *pFlags, Start, pvar); TRACE("vt=%04x\n", V_VT(pvar)); ALIGN_LENGTH(Start, 7); Start += sizeof(variant_wire_t); if(V_VT(pvar) & VT_BYREF) Start += 4; align = get_type_alignment(pFlags, V_VT(pvar)); ALIGN_LENGTH(Start, align); if(V_VT(pvar) == (VT_VARIANT | VT_BYREF)) Start += 4; else Start += get_type_size(pFlags, V_VT(pvar)); Start = wire_extra_user_size(pFlags, Start, pvar); TRACE("returning %d\n", Start); return Start; } unsigned char * WINAPI VARIANT_UserMarshal(ULONG *pFlags, unsigned char *Buffer, VARIANT *pvar) { variant_wire_t *header; ULONG type_size; int align; unsigned char *Pos; TRACE("(%x,%p,%p)\n", *pFlags, Buffer, pvar); TRACE("vt=%04x\n", V_VT(pvar)); ALIGN_POINTER(Buffer, 7); header = (variant_wire_t *)Buffer; header->clSize = 0; /* fixed up at the end */ header->rpcReserved = 0; header->vt = pvar->n1.n2.vt; header->wReserved1 = pvar->n1.n2.wReserved1; header->wReserved2 = pvar->n1.n2.wReserved2; header->wReserved3 = pvar->n1.n2.wReserved3; header->switch_is = pvar->n1.n2.vt; if(header->switch_is & VT_ARRAY) header->switch_is &= ~VT_TYPEMASK; Pos = (unsigned char*)(header + 1); type_size = get_type_size(pFlags, V_VT(pvar)); align = get_type_alignment(pFlags, V_VT(pvar)); ALIGN_POINTER(Pos, align); if(header->vt & VT_BYREF) { *(DWORD *)Pos = max(type_size, 4); Pos += 4; if((header->vt & VT_TYPEMASK) != VT_VARIANT) { memcpy(Pos, pvar->n1.n2.n3.byref, type_size); Pos += type_size; } else { *(DWORD*)Pos = 'U' | 's' << 8 | 'e' << 16 | 'r' << 24; Pos += 4; } } else { if((header->vt & VT_TYPEMASK) == VT_DECIMAL) memcpy(Pos, pvar, type_size); else memcpy(Pos, &pvar->n1.n2.n3, type_size); Pos += type_size; } if(header->vt & VT_ARRAY) { if(header->vt & VT_BYREF) Pos = LPSAFEARRAY_UserMarshal(pFlags, Pos, V_ARRAYREF(pvar)); else Pos = LPSAFEARRAY_UserMarshal(pFlags, Pos, &V_ARRAY(pvar)); } else { switch (header->vt) { case VT_BSTR: Pos = BSTR_UserMarshal(pFlags, Pos, &V_BSTR(pvar)); break; case VT_BSTR | VT_BYREF: Pos = BSTR_UserMarshal(pFlags, Pos, V_BSTRREF(pvar)); break; case VT_VARIANT | VT_BYREF: Pos = VARIANT_UserMarshal(pFlags, Pos, V_VARIANTREF(pvar)); break; case VT_UNKNOWN: Pos = interface_variant_marshal(pFlags, Pos, &IID_IUnknown, V_UNKNOWN(pvar)); break; case VT_UNKNOWN | VT_BYREF: Pos = interface_variant_marshal(pFlags, Pos, &IID_IUnknown, *V_UNKNOWNREF(pvar)); break; case VT_DISPATCH: Pos = interface_variant_marshal(pFlags, Pos, &IID_IDispatch, (IUnknown*)V_DISPATCH(pvar)); break; case VT_DISPATCH | VT_BYREF: Pos = interface_variant_marshal(pFlags, Pos, &IID_IDispatch, (IUnknown*)*V_DISPATCHREF(pvar)); break; case VT_RECORD: FIXME("handle BRECORD by val\n"); break; case VT_RECORD | VT_BYREF: FIXME("handle BRECORD by ref\n"); break; } } header->clSize = ((Pos - Buffer) + 7) >> 3; TRACE("marshalled size=%d\n", header->clSize); return Pos; } unsigned char * WINAPI VARIANT_UserUnmarshal(ULONG *pFlags, unsigned char *Buffer, VARIANT *pvar) { variant_wire_t *header; ULONG type_size; int align; unsigned char *Pos; TRACE("(%x,%p,%p)\n", *pFlags, Buffer, pvar); ALIGN_POINTER(Buffer, 7); header = (variant_wire_t *)Buffer; Pos = (unsigned char*)(header + 1); type_size = get_type_size(pFlags, header->vt); align = get_type_alignment(pFlags, header->vt); ALIGN_POINTER(Pos, align); if(header->vt & VT_BYREF) { ULONG mem_size; Pos += 4; switch (header->vt & ~VT_BYREF) { /* these types have a different memory size compared to wire size */ case VT_UNKNOWN: case VT_DISPATCH: case VT_BSTR: mem_size = sizeof(void *); break; default: mem_size = type_size; break; } if (V_VT(pvar) != header->vt) { VariantClear(pvar); V_BYREF(pvar) = CoTaskMemAlloc(mem_size); memset(V_BYREF(pvar), 0, mem_size); } else if (!V_BYREF(pvar)) { V_BYREF(pvar) = CoTaskMemAlloc(mem_size); memset(V_BYREF(pvar), 0, mem_size); } if(!(header->vt & VT_ARRAY) && (header->vt & VT_TYPEMASK) != VT_BSTR && (header->vt & VT_TYPEMASK) != VT_VARIANT && (header->vt & VT_TYPEMASK) != VT_UNKNOWN && (header->vt & VT_TYPEMASK) != VT_DISPATCH && (header->vt & VT_TYPEMASK) != VT_RECORD) memcpy(V_BYREF(pvar), Pos, type_size); if((header->vt & VT_TYPEMASK) != VT_VARIANT) Pos += type_size; else Pos += 4; } else { VariantClear(pvar); if(header->vt & VT_ARRAY) V_ARRAY(pvar) = NULL; else if((header->vt & VT_TYPEMASK) == VT_BSTR) V_BSTR(pvar) = NULL; else if((header->vt & VT_TYPEMASK) == VT_UNKNOWN) V_UNKNOWN(pvar) = NULL; else if((header->vt & VT_TYPEMASK) == VT_DISPATCH) V_DISPATCH(pvar) = NULL; else if((header->vt & VT_TYPEMASK) == VT_RECORD) V_RECORD(pvar) = NULL; else if((header->vt & VT_TYPEMASK) == VT_DECIMAL) memcpy(pvar, Pos, type_size); else memcpy(&pvar->n1.n2.n3, Pos, type_size); Pos += type_size; } pvar->n1.n2.vt = header->vt; pvar->n1.n2.wReserved1 = header->wReserved1; pvar->n1.n2.wReserved2 = header->wReserved2; pvar->n1.n2.wReserved3 = header->wReserved3; if(header->vt & VT_ARRAY) { if(header->vt & VT_BYREF) Pos = LPSAFEARRAY_UserUnmarshal(pFlags, Pos, V_ARRAYREF(pvar)); else Pos = LPSAFEARRAY_UserUnmarshal(pFlags, Pos, &V_ARRAY(pvar)); } else { switch (header->vt) { case VT_BSTR: Pos = BSTR_UserUnmarshal(pFlags, Pos, &V_BSTR(pvar)); break; case VT_BSTR | VT_BYREF: Pos = BSTR_UserUnmarshal(pFlags, Pos, V_BSTRREF(pvar)); break; case VT_VARIANT | VT_BYREF: Pos = VARIANT_UserUnmarshal(pFlags, Pos, V_VARIANTREF(pvar)); break; case VT_UNKNOWN: Pos = interface_variant_unmarshal(pFlags, Pos, &IID_IUnknown, &V_UNKNOWN(pvar)); break; case VT_UNKNOWN | VT_BYREF: Pos = interface_variant_unmarshal(pFlags, Pos, &IID_IUnknown, V_UNKNOWNREF(pvar)); break; case VT_DISPATCH: Pos = interface_variant_unmarshal(pFlags, Pos, &IID_IDispatch, (IUnknown**)&V_DISPATCH(pvar)); break; case VT_DISPATCH | VT_BYREF: Pos = interface_variant_unmarshal(pFlags, Pos, &IID_IDispatch, (IUnknown**)V_DISPATCHREF(pvar)); break; case VT_RECORD: FIXME("handle BRECORD by val\n"); break; case VT_RECORD | VT_BYREF: FIXME("handle BRECORD by ref\n"); break; } } return Pos; } void WINAPI VARIANT_UserFree(ULONG *pFlags, VARIANT *pvar) { VARTYPE vt = V_VT(pvar); PVOID ref = NULL; TRACE("(%x,%p)\n", *pFlags, pvar); TRACE("vt=%04x\n", V_VT(pvar)); if (vt & VT_BYREF) ref = pvar->n1.n2.n3.byref; VariantClear(pvar); if (!ref) return; if(vt & VT_ARRAY) { if (vt & VT_BYREF) LPSAFEARRAY_UserFree(pFlags, V_ARRAYREF(pvar)); else LPSAFEARRAY_UserFree(pFlags, &V_ARRAY(pvar)); } else { switch (vt) { case VT_BSTR | VT_BYREF: BSTR_UserFree(pFlags, V_BSTRREF(pvar)); break; case VT_VARIANT | VT_BYREF: VARIANT_UserFree(pFlags, V_VARIANTREF(pvar)); break; case VT_RECORD | VT_BYREF: FIXME("handle BRECORD by ref\n"); break; case VT_UNKNOWN | VT_BYREF: case VT_DISPATCH | VT_BYREF: if (*V_UNKNOWNREF(pvar)) IUnknown_Release(*V_UNKNOWNREF(pvar)); break; } } CoTaskMemFree(ref); } /* LPSAFEARRAY */ /* Get the number of cells in a SafeArray */ static ULONG SAFEARRAY_GetCellCount(const SAFEARRAY *psa) { const SAFEARRAYBOUND* psab = psa->rgsabound; USHORT cCount = psa->cDims; ULONG ulNumCells = 1; while (cCount--) { /* This is a valid bordercase. See testcases. -Marcus */ if (!psab->cElements) return 0; ulNumCells *= psab->cElements; psab++; } return ulNumCells; } static inline SF_TYPE SAFEARRAY_GetUnionType(SAFEARRAY *psa) { VARTYPE vt; HRESULT hr; hr = SafeArrayGetVartype(psa, &vt); if (FAILED(hr)) { if(psa->fFeatures & FADF_VARIANT) return SF_VARIANT; switch(psa->cbElements) { case 1: vt = VT_I1; break; case 2: vt = VT_I2; break; case 4: vt = VT_I4; break; case 8: vt = VT_I8; break; default: RpcRaiseException(hr); } } if (psa->fFeatures & FADF_HAVEIID) return SF_HAVEIID; switch (vt) { case VT_I1: case VT_UI1: return SF_I1; case VT_BOOL: case VT_I2: case VT_UI2: return SF_I2; case VT_INT: case VT_UINT: case VT_I4: case VT_UI4: case VT_R4: return SF_I4; case VT_DATE: case VT_CY: case VT_R8: case VT_I8: case VT_UI8: return SF_I8; case VT_INT_PTR: case VT_UINT_PTR: return (sizeof(UINT_PTR) == 4 ? SF_I4 : SF_I8); case VT_BSTR: return SF_BSTR; case VT_DISPATCH: return SF_DISPATCH; case VT_VARIANT: return SF_VARIANT; case VT_UNKNOWN: return SF_UNKNOWN; /* Note: Return a non-zero size to indicate vt is valid. The actual size * of a UDT is taken from the result of IRecordInfo_GetSize(). */ case VT_RECORD: return SF_RECORD; default: return SF_ERROR; } } static DWORD elem_wire_size(LPSAFEARRAY lpsa, SF_TYPE sftype) { if (sftype == SF_BSTR) return sizeof(DWORD); else if (sftype == SF_VARIANT) return sizeof(variant_wire_t) - sizeof(DWORD); else return lpsa->cbElements; } static DWORD elem_mem_size(wireSAFEARRAY wiresa, SF_TYPE sftype) { if (sftype == SF_BSTR) return sizeof(BSTR); else if (sftype == SF_VARIANT) return sizeof(VARIANT); else return wiresa->cbElements; } ULONG WINAPI LPSAFEARRAY_UserSize(ULONG *pFlags, ULONG StartingSize, LPSAFEARRAY *ppsa) { ULONG size = StartingSize; TRACE("("); dump_user_flags(pFlags); TRACE(", %d, %p\n", StartingSize, *ppsa); ALIGN_LENGTH(size, 3); size += sizeof(ULONG); if (*ppsa) { SAFEARRAY *psa = *ppsa; ULONG ulCellCount = SAFEARRAY_GetCellCount(psa); SF_TYPE sftype; HRESULT hr; size += sizeof(ULONG); size += 2 * sizeof(USHORT) + 2 * sizeof(ULONG); sftype = SAFEARRAY_GetUnionType(psa); size += sizeof(ULONG); size += sizeof(ULONG); size += sizeof(ULONG); if (sftype == SF_HAVEIID) size += sizeof(IID); size += sizeof(psa->rgsabound[0]) * psa->cDims; size += sizeof(ULONG); switch (sftype) { case SF_BSTR: { BSTR* lpBstr; for (lpBstr = psa->pvData; ulCellCount; ulCellCount--, lpBstr++) size = BSTR_UserSize(pFlags, size, lpBstr); break; } case SF_DISPATCH: case SF_UNKNOWN: case SF_HAVEIID: FIXME("size interfaces\n"); break; case SF_VARIANT: { VARIANT* lpVariant; for (lpVariant = psa->pvData; ulCellCount; ulCellCount--, lpVariant++) size = VARIANT_UserSize(pFlags, size, lpVariant); break; } case SF_RECORD: { IRecordInfo* pRecInfo = NULL; hr = SafeArrayGetRecordInfo(psa, &pRecInfo); if (FAILED(hr)) RpcRaiseException(hr); if (pRecInfo) { FIXME("size record info %p\n", pRecInfo); IRecordInfo_Release(pRecInfo); } break; } case SF_I8: ALIGN_LENGTH(size, 7); /* fallthrough */ case SF_I1: case SF_I2: case SF_I4: size += ulCellCount * psa->cbElements; break; default: break; } } return size; } unsigned char * WINAPI LPSAFEARRAY_UserMarshal(ULONG *pFlags, unsigned char *Buffer, LPSAFEARRAY *ppsa) { HRESULT hr; TRACE("("); dump_user_flags(pFlags); TRACE(", %p, &%p\n", Buffer, *ppsa); ALIGN_POINTER(Buffer, 3); *(ULONG *)Buffer = *ppsa ? 0x1 : 0x0; Buffer += sizeof(ULONG); if (*ppsa) { VARTYPE vt; SAFEARRAY *psa = *ppsa; ULONG ulCellCount = SAFEARRAY_GetCellCount(psa); SAFEARRAYBOUND *bound; SF_TYPE sftype; GUID guid; INT i; sftype = SAFEARRAY_GetUnionType(psa); *(ULONG *)Buffer = psa->cDims; Buffer += sizeof(ULONG); *(USHORT *)Buffer = psa->cDims; Buffer += sizeof(USHORT); *(USHORT *)Buffer = psa->fFeatures; Buffer += sizeof(USHORT); *(ULONG *)Buffer = elem_wire_size(psa, sftype); Buffer += sizeof(ULONG); hr = SafeArrayGetVartype(psa, &vt); if (FAILED(hr)) vt = 0; *(ULONG *)Buffer = (USHORT)psa->cLocks | (vt << 16); Buffer += sizeof(ULONG); *(ULONG *)Buffer = sftype; Buffer += sizeof(ULONG); *(ULONG *)Buffer = ulCellCount; Buffer += sizeof(ULONG); *(ULONG *)Buffer = psa->pvData ? 0x2 : 0x0; Buffer += sizeof(ULONG); if (sftype == SF_HAVEIID) { SafeArrayGetIID(psa, &guid); memcpy(Buffer, &guid, sizeof(guid)); Buffer += sizeof(guid); } /* bounds are marshaled in opposite order comparing to storage layout */ bound = (SAFEARRAYBOUND*)Buffer; for (i = 0; i < psa->cDims; i++) { memcpy(bound++, &psa->rgsabound[psa->cDims-i-1], sizeof(psa->rgsabound[0])); } Buffer += sizeof(psa->rgsabound[0]) * psa->cDims; *(ULONG *)Buffer = ulCellCount; Buffer += sizeof(ULONG); if (psa->pvData) { switch (sftype) { case SF_BSTR: { BSTR* lpBstr; for (lpBstr = psa->pvData; ulCellCount; ulCellCount--, lpBstr++) Buffer = BSTR_UserMarshal(pFlags, Buffer, lpBstr); break; } case SF_DISPATCH: case SF_UNKNOWN: case SF_HAVEIID: FIXME("marshal interfaces\n"); break; case SF_VARIANT: { VARIANT* lpVariant; for (lpVariant = psa->pvData; ulCellCount; ulCellCount--, lpVariant++) Buffer = VARIANT_UserMarshal(pFlags, Buffer, lpVariant); break; } case SF_RECORD: { IRecordInfo* pRecInfo = NULL; hr = SafeArrayGetRecordInfo(psa, &pRecInfo); if (FAILED(hr)) RpcRaiseException(hr); if (pRecInfo) { FIXME("write record info %p\n", pRecInfo); IRecordInfo_Release(pRecInfo); } break; } case SF_I8: ALIGN_POINTER(Buffer, 7); /* fallthrough */ case SF_I1: case SF_I2: case SF_I4: /* Just copy the data over */ memcpy(Buffer, psa->pvData, ulCellCount * psa->cbElements); Buffer += ulCellCount * psa->cbElements; break; default: break; } } } return Buffer; } #define FADF_AUTOSETFLAGS (FADF_HAVEIID | FADF_RECORD | FADF_HAVEVARTYPE | \ FADF_BSTR | FADF_UNKNOWN | FADF_DISPATCH | \ FADF_VARIANT | FADF_CREATEVECTOR) unsigned char * WINAPI LPSAFEARRAY_UserUnmarshal(ULONG *pFlags, unsigned char *Buffer, LPSAFEARRAY *ppsa) { ULONG ptr; wireSAFEARRAY wiresa; ULONG cDims; HRESULT hr; SF_TYPE sftype; ULONG cell_count; GUID guid; VARTYPE vt; SAFEARRAYBOUND *wiresab; TRACE("("); dump_user_flags(pFlags); TRACE(", %p, %p\n", Buffer, ppsa); ALIGN_POINTER(Buffer, 3); ptr = *(ULONG *)Buffer; Buffer += sizeof(ULONG); if (!ptr) { SafeArrayDestroy(*ppsa); *ppsa = NULL; TRACE("NULL safe array unmarshaled\n"); return Buffer; } cDims = *(ULONG *)Buffer; Buffer += sizeof(ULONG); wiresa = (wireSAFEARRAY)Buffer; Buffer += 2 * sizeof(USHORT) + 2 * sizeof(ULONG); if (cDims != wiresa->cDims) RpcRaiseException(RPC_S_INVALID_BOUND); /* FIXME: there should be a limit on how large cDims can be */ vt = HIWORD(wiresa->cLocks); sftype = *(ULONG *)Buffer; Buffer += sizeof(ULONG); cell_count = *(ULONG *)Buffer; Buffer += sizeof(ULONG); ptr = *(ULONG *)Buffer; Buffer += sizeof(ULONG); if (sftype == SF_HAVEIID) { memcpy(&guid, Buffer, sizeof(guid)); Buffer += sizeof(guid); } wiresab = (SAFEARRAYBOUND *)Buffer; Buffer += sizeof(wiresab[0]) * wiresa->cDims; if(*ppsa && (*ppsa)->cDims==wiresa->cDims) { if(((*ppsa)->fFeatures & ~FADF_AUTOSETFLAGS) != (wiresa->fFeatures & ~FADF_AUTOSETFLAGS)) RpcRaiseException(DISP_E_BADCALLEE); if(SAFEARRAY_GetCellCount(*ppsa)*(*ppsa)->cbElements != cell_count*elem_mem_size(wiresa, sftype)) { if((*ppsa)->fFeatures & (FADF_AUTO|FADF_STATIC|FADF_EMBEDDED|FADF_FIXEDSIZE)) RpcRaiseException(DISP_E_BADCALLEE); hr = SafeArrayDestroyData(*ppsa); if(FAILED(hr)) RpcRaiseException(hr); } memcpy((*ppsa)->rgsabound, wiresab, sizeof(*wiresab)*wiresa->cDims); if((*ppsa)->fFeatures & FADF_HAVEVARTYPE) ((DWORD*)(*ppsa))[-1] = vt; } else if(vt) { SafeArrayDestroy(*ppsa); *ppsa = SafeArrayCreateEx(vt, wiresa->cDims, wiresab, NULL); if (!*ppsa) RpcRaiseException(E_OUTOFMEMORY); } else { SafeArrayDestroy(*ppsa); if (FAILED(SafeArrayAllocDescriptor(wiresa->cDims, ppsa))) RpcRaiseException(E_OUTOFMEMORY); memcpy((*ppsa)->rgsabound, wiresab, sizeof(SAFEARRAYBOUND) * wiresa->cDims); } /* be careful about which flags we set since they could be a security * risk */ (*ppsa)->fFeatures &= FADF_AUTOSETFLAGS; (*ppsa)->fFeatures |= (wiresa->fFeatures & ~(FADF_AUTOSETFLAGS)); /* FIXME: there should be a limit on how large wiresa->cbElements can be */ (*ppsa)->cbElements = elem_mem_size(wiresa, sftype); /* SafeArrayCreateEx allocates the data for us, but * SafeArrayAllocDescriptor doesn't */ if(!(*ppsa)->pvData) { hr = SafeArrayAllocData(*ppsa); if (FAILED(hr)) RpcRaiseException(hr); } if ((*(ULONG *)Buffer != cell_count) || (SAFEARRAY_GetCellCount(*ppsa) != cell_count)) RpcRaiseException(RPC_S_INVALID_BOUND); Buffer += sizeof(ULONG); if (ptr) { switch (sftype) { case SF_BSTR: { BSTR* lpBstr; for (lpBstr = (*ppsa)->pvData; cell_count; cell_count--, lpBstr++) Buffer = BSTR_UserUnmarshal(pFlags, Buffer, lpBstr); break; } case SF_DISPATCH: case SF_UNKNOWN: case SF_HAVEIID: FIXME("marshal interfaces\n"); break; case SF_VARIANT: { VARIANT* lpVariant; for (lpVariant = (*ppsa)->pvData; cell_count; cell_count--, lpVariant++) Buffer = VARIANT_UserUnmarshal(pFlags, Buffer, lpVariant); break; } case SF_RECORD: { FIXME("set record info\n"); break; } case SF_I8: ALIGN_POINTER(Buffer, 7); /* fallthrough */ case SF_I1: case SF_I2: case SF_I4: /* Just copy the data over */ memcpy((*ppsa)->pvData, Buffer, cell_count * (*ppsa)->cbElements); Buffer += cell_count * (*ppsa)->cbElements; break; default: break; } } TRACE("safe array unmarshaled: %p\n", *ppsa); return Buffer; } void WINAPI LPSAFEARRAY_UserFree(ULONG *pFlags, LPSAFEARRAY *ppsa) { TRACE("("); dump_user_flags(pFlags); TRACE(", &%p\n", *ppsa); SafeArrayDestroy(*ppsa); *ppsa = NULL; } ULONG WINAPI HFONT_UserSize(ULONG *pFlags, ULONG Start, HFONT *phfont) { FIXME(":stub\n"); return 0; } unsigned char * WINAPI HFONT_UserMarshal(ULONG *pFlags, unsigned char *Buffer, HFONT *phfont) { FIXME(":stub\n"); return NULL; } unsigned char * WINAPI HFONT_UserUnmarshal(ULONG *pFlags, unsigned char *Buffer, HFONT *phfont) { FIXME(":stub\n"); return NULL; } void WINAPI HFONT_UserFree(ULONG *pFlags, HFONT *phfont) { FIXME(":stub\n"); return; } /* IDispatch */ /* exactly how Invoke is marshalled is not very clear to me yet, * but the way I've done it seems to work for me */ HRESULT CALLBACK IDispatch_Invoke_Proxy( IDispatch* This, DISPID dispIdMember, REFIID riid, LCID lcid, WORD wFlags, DISPPARAMS* pDispParams, VARIANT* pVarResult, EXCEPINFO* pExcepInfo, UINT* puArgErr) { HRESULT hr; VARIANT VarResult; UINT* rgVarRefIdx = NULL; VARIANTARG* rgVarRef = NULL; UINT u, cVarRef; UINT uArgErr; EXCEPINFO ExcepInfo; TRACE("(%p)->(%d,%s,%x,%x,%p,%p,%p,%p)\n", This, dispIdMember, debugstr_guid(riid), lcid, wFlags, pDispParams, pVarResult, pExcepInfo, puArgErr); /* [out] args can't be null, use dummy vars if needed */ if (!pVarResult) pVarResult = &VarResult; if (!puArgErr) puArgErr = &uArgErr; if (!pExcepInfo) pExcepInfo = &ExcepInfo; /* count by-ref args */ for (cVarRef=0,u=0; ucArgs; u++) { VARIANTARG* arg = &pDispParams->rgvarg[u]; if (V_ISBYREF(arg)) { cVarRef++; } } if (cVarRef) { rgVarRefIdx = CoTaskMemAlloc(sizeof(UINT)*cVarRef); rgVarRef = CoTaskMemAlloc(sizeof(VARIANTARG)*cVarRef); /* make list of by-ref args */ for (cVarRef=0,u=0; ucArgs; u++) { VARIANTARG* arg = &pDispParams->rgvarg[u]; if (V_ISBYREF(arg)) { rgVarRefIdx[cVarRef] = u; VariantInit(&rgVarRef[cVarRef]); VariantCopy(&rgVarRef[cVarRef], arg); VariantClear(arg); cVarRef++; } } } else { /* [out] args still can't be null, * but we can point these anywhere in this case, * since they won't be written to when cVarRef is 0 */ rgVarRefIdx = puArgErr; rgVarRef = pVarResult; } TRACE("passed by ref: %d args\n", cVarRef); hr = IDispatch_RemoteInvoke_Proxy(This, dispIdMember, riid, lcid, wFlags, pDispParams, pVarResult, pExcepInfo, puArgErr, cVarRef, rgVarRefIdx, rgVarRef); if (cVarRef) { for (u=0; urgvarg[i], &rgVarRef[u]); VariantClear(&rgVarRef[u]); } CoTaskMemFree(rgVarRef); CoTaskMemFree(rgVarRefIdx); } if(pExcepInfo == &ExcepInfo) { SysFreeString(pExcepInfo->bstrSource); SysFreeString(pExcepInfo->bstrDescription); SysFreeString(pExcepInfo->bstrHelpFile); } return hr; } HRESULT __RPC_STUB IDispatch_Invoke_Stub( IDispatch* This, DISPID dispIdMember, REFIID riid, LCID lcid, DWORD dwFlags, DISPPARAMS* pDispParams, VARIANT* pVarResult, EXCEPINFO* pExcepInfo, UINT* pArgErr, UINT cVarRef, UINT* rgVarRefIdx, VARIANTARG* rgVarRef) { HRESULT hr = S_OK; VARIANTARG *rgvarg, *arg; UINT u; /* initialize out parameters, so that they can be marshalled * in case the real Invoke doesn't initialize them */ VariantInit(pVarResult); memset(pExcepInfo, 0, sizeof(*pExcepInfo)); *pArgErr = 0; /* let the real Invoke operate on a copy of the in parameters, * so we don't risk losing pointers to allocated memory */ rgvarg = pDispParams->rgvarg; arg = CoTaskMemAlloc(sizeof(VARIANTARG)*pDispParams->cArgs); if (!arg) return E_OUTOFMEMORY; /* init all args so we can call VariantClear on all the args if the copy * below fails */ for (u = 0; u < pDispParams->cArgs; u++) VariantInit(&arg[u]); for (u = 0; u < pDispParams->cArgs; u++) { hr = VariantCopy(&arg[u], &rgvarg[u]); if (FAILED(hr)) break; } if (SUCCEEDED(hr)) { /* copy ref args to arg array */ for (u=0; urgvarg = arg; hr = IDispatch_Invoke(This, dispIdMember, riid, lcid, dwFlags, pDispParams, pVarResult, pExcepInfo, pArgErr); /* copy ref args from arg array */ for (u=0; ucArgs; u++) VariantClear(&arg[u]); pDispParams->rgvarg = rgvarg; CoTaskMemFree(arg); return hr; } /* IEnumVARIANT */ HRESULT CALLBACK IEnumVARIANT_Next_Proxy( IEnumVARIANT* This, ULONG celt, VARIANT* rgVar, ULONG* pCeltFetched) { ULONG fetched; if (!pCeltFetched) pCeltFetched = &fetched; return IEnumVARIANT_RemoteNext_Proxy(This, celt, rgVar, pCeltFetched); } HRESULT __RPC_STUB IEnumVARIANT_Next_Stub( IEnumVARIANT* This, ULONG celt, VARIANT* rgVar, ULONG* pCeltFetched) { HRESULT hr; *pCeltFetched = 0; hr = IEnumVARIANT_Next(This, celt, rgVar, pCeltFetched); if (hr == S_OK) *pCeltFetched = celt; return hr; } /* TypeInfo related freers */ static void free_embedded_typedesc(TYPEDESC *tdesc); static void free_embedded_arraydesc(ARRAYDESC *adesc) { switch(adesc->tdescElem.vt) { case VT_PTR: case VT_SAFEARRAY: free_embedded_typedesc(adesc->tdescElem.u.lptdesc); CoTaskMemFree(adesc->tdescElem.u.lptdesc); break; case VT_CARRAY: free_embedded_arraydesc(adesc->tdescElem.u.lpadesc); CoTaskMemFree(adesc->tdescElem.u.lpadesc); break; } } static void free_embedded_typedesc(TYPEDESC *tdesc) { switch(tdesc->vt) { case VT_PTR: case VT_SAFEARRAY: free_embedded_typedesc(tdesc->u.lptdesc); CoTaskMemFree(tdesc->u.lptdesc); break; case VT_CARRAY: free_embedded_arraydesc(tdesc->u.lpadesc); CoTaskMemFree(tdesc->u.lpadesc); break; } } static void free_embedded_elemdesc(ELEMDESC *edesc) { free_embedded_typedesc(&edesc->tdesc); if(edesc->u.paramdesc.wParamFlags & PARAMFLAG_FHASDEFAULT) CoTaskMemFree(edesc->u.paramdesc.pparamdescex); } /* ITypeComp */ HRESULT CALLBACK ITypeComp_Bind_Proxy( ITypeComp* This, LPOLESTR name, ULONG lHashVal, WORD flags, ITypeInfo **ti, DESCKIND *desckind, BINDPTR *bindptr) { CLEANLOCALSTORAGE stg = { 0 }; ITypeComp *typecomp; FUNCDESC *funcdesc; VARDESC *vardesc; HRESULT hr; TRACE("(%p, %s, %#x, %#x, %p, %p, %p)\n", This, debugstr_w(name), lHashVal, flags, ti, desckind, bindptr); *desckind = DESCKIND_NONE; memset(bindptr, 0, sizeof(*bindptr)); hr = ITypeComp_RemoteBind_Proxy(This, name, lHashVal, flags, ti, desckind, &funcdesc, &vardesc, &typecomp, &stg); if (hr == S_OK) { switch (*desckind) { case DESCKIND_FUNCDESC: bindptr->lpfuncdesc = funcdesc; break; case DESCKIND_VARDESC: case DESCKIND_IMPLICITAPPOBJ: bindptr->lpvardesc = vardesc; break; case DESCKIND_TYPECOMP: bindptr->lptcomp = typecomp; break; default: ; } } return hr; } HRESULT __RPC_STUB ITypeComp_Bind_Stub( ITypeComp* This, LPOLESTR name, ULONG lHashVal, WORD flags, ITypeInfo **ti, DESCKIND *desckind, FUNCDESC **funcdesc, VARDESC **vardesc, ITypeComp **typecomp, CLEANLOCALSTORAGE *stg) { BINDPTR bindptr; HRESULT hr; TRACE("(%p, %s, %#x, %#x, %p, %p, %p, %p, %p, %p)\n", This, debugstr_w(name), lHashVal, flags, ti, desckind, funcdesc, vardesc, typecomp, stg); memset(stg, 0, sizeof(*stg)); memset(&bindptr, 0, sizeof(bindptr)); *funcdesc = NULL; *vardesc = NULL; *typecomp = NULL; *ti = NULL; hr = ITypeComp_Bind(This, name, lHashVal, flags, ti, desckind, &bindptr); if(hr != S_OK) return hr; switch (*desckind) { case DESCKIND_FUNCDESC: *funcdesc = bindptr.lpfuncdesc; stg->pInterface = (IUnknown*)*ti; stg->pStorage = funcdesc; stg->flags = CLS_FUNCDESC; break; case DESCKIND_VARDESC: case DESCKIND_IMPLICITAPPOBJ: *vardesc = bindptr.lpvardesc; stg->pInterface = (IUnknown*)*ti; stg->pStorage = vardesc; stg->flags = CLS_VARDESC; break; case DESCKIND_TYPECOMP: *typecomp = bindptr.lptcomp; break; default: ; } if (stg->pInterface) IUnknown_AddRef(stg->pInterface); return hr; } HRESULT CALLBACK ITypeComp_BindType_Proxy( ITypeComp* This, LPOLESTR name, ULONG lHashVal, ITypeInfo **ti, ITypeComp **typecomp) { HRESULT hr; TRACE("(%p, %s, %#x, %p, %p)\n", This, debugstr_w(name), lHashVal, ti, typecomp); hr = ITypeComp_RemoteBindType_Proxy(This, name, lHashVal, ti); if (hr == S_OK) ITypeInfo_GetTypeComp(*ti, typecomp); else if (typecomp) *typecomp = NULL; return hr; } HRESULT __RPC_STUB ITypeComp_BindType_Stub( ITypeComp* This, LPOLESTR name, ULONG lHashVal, ITypeInfo **ti) { ITypeComp *typecomp = NULL; HRESULT hr; TRACE("(%p, %s, %#x, %p)\n", This, debugstr_w(name), lHashVal, ti); hr = ITypeComp_BindType(This, name, lHashVal, ti, &typecomp); if (typecomp) ITypeComp_Release(typecomp); return hr; } /* ITypeInfo */ HRESULT CALLBACK ITypeInfo_GetTypeAttr_Proxy( ITypeInfo* This, TYPEATTR** ppTypeAttr) { CLEANLOCALSTORAGE stg; TRACE("(%p, %p)\n", This, ppTypeAttr); stg.flags = 0; stg.pStorage = NULL; stg.pInterface = NULL; return ITypeInfo_RemoteGetTypeAttr_Proxy(This, ppTypeAttr, &stg); } HRESULT __RPC_STUB ITypeInfo_GetTypeAttr_Stub( ITypeInfo* This, LPTYPEATTR* ppTypeAttr, CLEANLOCALSTORAGE* pDummy) { HRESULT hr; TRACE("(%p, %p)\n", This, ppTypeAttr); hr = ITypeInfo_GetTypeAttr(This, ppTypeAttr); if(hr != S_OK) return hr; pDummy->flags = CLS_TYPEATTR; ITypeInfo_AddRef(This); pDummy->pInterface = (IUnknown*)This; pDummy->pStorage = ppTypeAttr; return hr; } HRESULT CALLBACK ITypeInfo_GetFuncDesc_Proxy( ITypeInfo* This, UINT index, FUNCDESC** ppFuncDesc) { CLEANLOCALSTORAGE stg; TRACE("(%p, %d, %p)\n", This, index, ppFuncDesc); stg.flags = 0; stg.pStorage = NULL; stg.pInterface = NULL; return ITypeInfo_RemoteGetFuncDesc_Proxy(This, index, ppFuncDesc, &stg); } HRESULT __RPC_STUB ITypeInfo_GetFuncDesc_Stub( ITypeInfo* This, UINT index, LPFUNCDESC* ppFuncDesc, CLEANLOCALSTORAGE* pDummy) { HRESULT hr; TRACE("(%p, %d, %p)\n", This, index, ppFuncDesc); hr = ITypeInfo_GetFuncDesc(This, index, ppFuncDesc); if(hr != S_OK) return hr; pDummy->flags = CLS_FUNCDESC; ITypeInfo_AddRef(This); pDummy->pInterface = (IUnknown*)This; pDummy->pStorage = ppFuncDesc; return hr; } HRESULT CALLBACK ITypeInfo_GetVarDesc_Proxy( ITypeInfo* This, UINT index, VARDESC** ppVarDesc) { CLEANLOCALSTORAGE stg; TRACE("(%p, %d, %p)\n", This, index, ppVarDesc); stg.flags = 0; stg.pStorage = NULL; stg.pInterface = NULL; return ITypeInfo_RemoteGetVarDesc_Proxy(This, index, ppVarDesc, &stg); } HRESULT __RPC_STUB ITypeInfo_GetVarDesc_Stub( ITypeInfo* This, UINT index, LPVARDESC* ppVarDesc, CLEANLOCALSTORAGE* pDummy) { HRESULT hr; TRACE("(%p, %d, %p)\n", This, index, ppVarDesc); hr = ITypeInfo_GetVarDesc(This, index, ppVarDesc); if(hr != S_OK) return hr; pDummy->flags = CLS_VARDESC; ITypeInfo_AddRef(This); pDummy->pInterface = (IUnknown*)This; pDummy->pStorage = ppVarDesc; return hr; } HRESULT CALLBACK ITypeInfo_GetNames_Proxy( ITypeInfo* This, MEMBERID memid, BSTR* rgBstrNames, UINT cMaxNames, UINT* pcNames) { TRACE("(%p, %08x, %p, %d, %p)\n", This, memid, rgBstrNames, cMaxNames, pcNames); return ITypeInfo_RemoteGetNames_Proxy(This, memid, rgBstrNames, cMaxNames, pcNames); } HRESULT __RPC_STUB ITypeInfo_GetNames_Stub( ITypeInfo* This, MEMBERID memid, BSTR* rgBstrNames, UINT cMaxNames, UINT* pcNames) { TRACE("(%p, %08x, %p, %d, %p)\n", This, memid, rgBstrNames, cMaxNames, pcNames); return ITypeInfo_GetNames(This, memid, rgBstrNames, cMaxNames, pcNames); } HRESULT CALLBACK ITypeInfo_GetIDsOfNames_Proxy( ITypeInfo* This, LPOLESTR* rgszNames, UINT cNames, MEMBERID* pMemId) { FIXME("not implemented\n"); return E_FAIL; } HRESULT __RPC_STUB ITypeInfo_GetIDsOfNames_Stub( ITypeInfo* This) { FIXME("not implemented\n"); return E_FAIL; } HRESULT CALLBACK ITypeInfo_Invoke_Proxy( ITypeInfo* This, PVOID pvInstance, MEMBERID memid, WORD wFlags, DISPPARAMS* pDispParams, VARIANT* pVarResult, EXCEPINFO* pExcepInfo, UINT* puArgErr) { FIXME("not implemented\n"); return E_FAIL; } HRESULT __RPC_STUB ITypeInfo_Invoke_Stub( ITypeInfo* This) { FIXME("not implemented\n"); return E_FAIL; } HRESULT CALLBACK ITypeInfo_GetDocumentation_Proxy(ITypeInfo *This, MEMBERID memid, BSTR *name, BSTR *doc_string, DWORD *help_context, BSTR *help_file) { DWORD dummy_help_context, flags = 0; BSTR dummy_name, dummy_doc_string, dummy_help_file; HRESULT hr; TRACE("(%p, %08x, %p, %p, %p, %p)\n", This, memid, name, doc_string, help_context, help_file); if(!name) name = &dummy_name; else flags = 1; if(!doc_string) doc_string = &dummy_doc_string; else flags |= 2; if(!help_context) help_context = &dummy_help_context; else flags |= 4; if(!help_file) help_file = &dummy_help_file; else flags |= 8; hr = ITypeInfo_RemoteGetDocumentation_Proxy(This, memid, flags, name, doc_string, help_context, help_file); /* We don't need to free the dummy BSTRs since the stub ensures that these will be NULLs. */ return hr; } HRESULT __RPC_STUB ITypeInfo_GetDocumentation_Stub(ITypeInfo *This, MEMBERID memid, DWORD flags, BSTR *name, BSTR *doc_string, DWORD *help_context, BSTR *help_file) { TRACE("(%p, %08x, %08x, %p, %p, %p, %p)\n", This, memid, flags, name, doc_string, help_context, help_file); *name = *doc_string = *help_file = NULL; *help_context = 0; if(!(flags & 1)) name = NULL; if(!(flags & 2)) doc_string = NULL; if(!(flags & 4)) help_context = NULL; if(!(flags & 8)) help_file = NULL; return ITypeInfo_GetDocumentation(This, memid, name, doc_string, help_context, help_file); } HRESULT CALLBACK ITypeInfo_GetDllEntry_Proxy(ITypeInfo *This, MEMBERID memid, INVOKEKIND invkind, BSTR *dll_name, BSTR* name, WORD *ordinal) { DWORD flags = 0; BSTR dummy_dll_name, dummy_name; WORD dummy_ordinal; HRESULT hr; TRACE("(%p, %08x, %x, %p, %p, %p)\n", This, memid, invkind, dll_name, name, ordinal); if(!dll_name) dll_name = &dummy_dll_name; else flags = 1; if(!name) name = &dummy_name; else flags |= 2; if(!ordinal) ordinal = &dummy_ordinal; else flags |= 4; hr = ITypeInfo_RemoteGetDllEntry_Proxy(This, memid, invkind, flags, dll_name, name, ordinal); /* We don't need to free the dummy BSTRs since the stub ensures that these will be NULLs. */ return hr; } HRESULT __RPC_STUB ITypeInfo_GetDllEntry_Stub(ITypeInfo *This, MEMBERID memid, INVOKEKIND invkind, DWORD flags, BSTR *dll_name, BSTR *name, WORD *ordinal) { TRACE("(%p, %08x, %x, %p, %p, %p)\n", This, memid, invkind, dll_name, name, ordinal); *dll_name = *name = NULL; *ordinal = 0; if(!(flags & 1)) dll_name = NULL; if(!(flags & 2)) name = NULL; if(!(flags & 4)) ordinal = NULL; return ITypeInfo_GetDllEntry(This, memid, invkind, dll_name, name, ordinal); } HRESULT CALLBACK ITypeInfo_AddressOfMember_Proxy( ITypeInfo* This, MEMBERID memid, INVOKEKIND invKind, PVOID* ppv) { FIXME("not implemented\n"); return E_FAIL; } HRESULT __RPC_STUB ITypeInfo_AddressOfMember_Stub( ITypeInfo* This) { FIXME("not implemented\n"); return E_FAIL; } HRESULT CALLBACK ITypeInfo_CreateInstance_Proxy( ITypeInfo* This, IUnknown* pUnkOuter, REFIID riid, PVOID* ppvObj) { FIXME("not implemented\n"); return E_FAIL; } HRESULT __RPC_STUB ITypeInfo_CreateInstance_Stub( ITypeInfo* This, REFIID riid, IUnknown** ppvObj) { FIXME("not implemented\n"); return E_FAIL; } HRESULT CALLBACK ITypeInfo_GetContainingTypeLib_Proxy( ITypeInfo* This, ITypeLib** ppTLib, UINT* pIndex) { ITypeLib *pTL; UINT index; HRESULT hr; TRACE("(%p, %p, %p)\n", This, ppTLib, pIndex ); hr = ITypeInfo_RemoteGetContainingTypeLib_Proxy(This, &pTL, &index); if(SUCCEEDED(hr)) { if(pIndex) *pIndex = index; if(ppTLib) *ppTLib = pTL; else ITypeLib_Release(pTL); } return hr; } HRESULT __RPC_STUB ITypeInfo_GetContainingTypeLib_Stub( ITypeInfo* This, ITypeLib** ppTLib, UINT* pIndex) { TRACE("(%p, %p, %p)\n", This, ppTLib, pIndex ); return ITypeInfo_GetContainingTypeLib(This, ppTLib, pIndex); } void CALLBACK ITypeInfo_ReleaseTypeAttr_Proxy( ITypeInfo* This, TYPEATTR* pTypeAttr) { TRACE("(%p, %p)\n", This, pTypeAttr); free_embedded_typedesc(&pTypeAttr->tdescAlias); CoTaskMemFree(pTypeAttr); } HRESULT __RPC_STUB ITypeInfo_ReleaseTypeAttr_Stub( ITypeInfo* This) { TRACE("nothing to do\n"); return S_OK; } void CALLBACK ITypeInfo_ReleaseFuncDesc_Proxy( ITypeInfo* This, FUNCDESC* pFuncDesc) { SHORT param; TRACE("(%p, %p)\n", This, pFuncDesc); for(param = 0; param < pFuncDesc->cParams; param++) free_embedded_elemdesc(pFuncDesc->lprgelemdescParam + param); if(param) CoTaskMemFree(pFuncDesc->lprgelemdescParam); free_embedded_elemdesc(&pFuncDesc->elemdescFunc); if(pFuncDesc->cScodes != 0 && pFuncDesc->cScodes != -1) CoTaskMemFree(pFuncDesc->lprgscode); CoTaskMemFree(pFuncDesc); } HRESULT __RPC_STUB ITypeInfo_ReleaseFuncDesc_Stub( ITypeInfo* This) { TRACE("nothing to do\n"); return S_OK; } void CALLBACK ITypeInfo_ReleaseVarDesc_Proxy( ITypeInfo* This, VARDESC* pVarDesc) { TRACE("(%p, %p)\n", This, pVarDesc); CoTaskMemFree(pVarDesc->lpstrSchema); if(pVarDesc->varkind == VAR_CONST) CoTaskMemFree(pVarDesc->u.lpvarValue); free_embedded_elemdesc(&pVarDesc->elemdescVar); CoTaskMemFree(pVarDesc); } HRESULT __RPC_STUB ITypeInfo_ReleaseVarDesc_Stub( ITypeInfo* This) { TRACE("nothing to do\n"); return S_OK; } /* ITypeInfo2 */ HRESULT CALLBACK ITypeInfo2_GetDocumentation2_Proxy(ITypeInfo2 *This, MEMBERID memid, LCID lcid, BSTR *help_string, DWORD *help_context, BSTR *help_dll) { DWORD dummy_help_context, flags = 0; BSTR dummy_help_string, dummy_help_dll; HRESULT hr; TRACE("(%p, %08x, %08x, %p, %p, %p)\n", This, memid, lcid, help_string, help_context, help_dll); if(!help_string) help_string = &dummy_help_string; else flags = 1; if(!help_context) help_context = &dummy_help_context; else flags |= 2; if(!help_dll) help_dll = &dummy_help_dll; else flags |= 4; hr = ITypeInfo2_RemoteGetDocumentation2_Proxy(This, memid, lcid, flags, help_string, help_context, help_dll); /* We don't need to free the dummy BSTRs since the stub ensures that these will be NULLs. */ return hr; } HRESULT __RPC_STUB ITypeInfo2_GetDocumentation2_Stub(ITypeInfo2 *This, MEMBERID memid, LCID lcid, DWORD flags, BSTR *help_string, DWORD *help_context, BSTR *help_dll) { TRACE("(%p, %08x, %08x, %08x, %p, %p, %p)\n", This, memid, lcid, flags, help_string, help_context, help_dll); *help_string = *help_dll = NULL; *help_context = 0; if(!(flags & 1)) help_string = NULL; if(!(flags & 2)) help_context = NULL; if(!(flags & 4)) help_dll = NULL; return ITypeInfo2_GetDocumentation2(This, memid, lcid, help_string, help_context, help_dll); } /* ITypeLib */ UINT CALLBACK ITypeLib_GetTypeInfoCount_Proxy( ITypeLib* This) { UINT count = 0; TRACE("(%p)\n", This); ITypeLib_RemoteGetTypeInfoCount_Proxy(This, &count); return count; } HRESULT __RPC_STUB ITypeLib_GetTypeInfoCount_Stub( ITypeLib* This, UINT* pcTInfo) { TRACE("(%p, %p)\n", This, pcTInfo); *pcTInfo = ITypeLib_GetTypeInfoCount(This); return S_OK; } HRESULT CALLBACK ITypeLib_GetLibAttr_Proxy( ITypeLib* This, TLIBATTR** ppTLibAttr) { CLEANLOCALSTORAGE stg; TRACE("(%p, %p)\n", This, ppTLibAttr); stg.flags = 0; stg.pStorage = NULL; stg.pInterface = NULL; return ITypeLib_RemoteGetLibAttr_Proxy(This, ppTLibAttr, &stg); } HRESULT __RPC_STUB ITypeLib_GetLibAttr_Stub( ITypeLib* This, LPTLIBATTR* ppTLibAttr, CLEANLOCALSTORAGE* pDummy) { HRESULT hr; TRACE("(%p, %p)\n", This, ppTLibAttr); hr = ITypeLib_GetLibAttr(This, ppTLibAttr); if(hr != S_OK) return hr; pDummy->flags = CLS_LIBATTR; ITypeLib_AddRef(This); pDummy->pInterface = (IUnknown*)This; pDummy->pStorage = ppTLibAttr; return hr; } HRESULT CALLBACK ITypeLib_GetDocumentation_Proxy(ITypeLib *This, INT index, BSTR *name, BSTR *doc_string, DWORD *help_context, BSTR *help_file) { DWORD dummy_help_context, flags = 0; BSTR dummy_name, dummy_doc_string, dummy_help_file; HRESULT hr; TRACE("(%p, %d, %p, %p, %p, %p)\n", This, index, name, doc_string, help_context, help_file); if(!name) name = &dummy_name; else flags = 1; if(!doc_string) doc_string = &dummy_doc_string; else flags |= 2; if(!help_context) help_context = &dummy_help_context; else flags |= 4; if(!help_file) help_file = &dummy_help_file; else flags |= 8; hr = ITypeLib_RemoteGetDocumentation_Proxy(This, index, flags, name, doc_string, help_context, help_file); /* We don't need to free the dummy BSTRs since the stub ensures that these will be NULLs. */ return hr; } HRESULT __RPC_STUB ITypeLib_GetDocumentation_Stub(ITypeLib *This, INT index, DWORD flags, BSTR *name, BSTR *doc_string, DWORD *help_context, BSTR *help_file) { TRACE("(%p, %d, %08x, %p, %p, %p, %p)\n", This, index, flags, name, doc_string, help_context, help_file); *name = *doc_string = *help_file = NULL; *help_context = 0; if(!(flags & 1)) name = NULL; if(!(flags & 2)) doc_string = NULL; if(!(flags & 4)) help_context = NULL; if(!(flags & 8)) help_file = NULL; return ITypeLib_GetDocumentation(This, index, name, doc_string, help_context, help_file); } HRESULT CALLBACK ITypeLib_IsName_Proxy( ITypeLib* This, LPOLESTR szNameBuf, ULONG lHashVal, BOOL* pfName) { FIXME("not implemented\n"); return E_FAIL; } HRESULT __RPC_STUB ITypeLib_IsName_Stub( ITypeLib* This, LPOLESTR szNameBuf, ULONG lHashVal, BOOL* pfName, BSTR* pBstrLibName) { FIXME("not implemented\n"); return E_FAIL; } HRESULT CALLBACK ITypeLib_FindName_Proxy( ITypeLib* This, LPOLESTR szNameBuf, ULONG lHashVal, ITypeInfo** ppTInfo, MEMBERID* rgMemId, USHORT* pcFound) { FIXME("not implemented\n"); return E_FAIL; } HRESULT __RPC_STUB ITypeLib_FindName_Stub( ITypeLib* This, LPOLESTR szNameBuf, ULONG lHashVal, ITypeInfo** ppTInfo, MEMBERID* rgMemId, USHORT* pcFound, BSTR* pBstrLibName) { FIXME("not implemented\n"); return E_FAIL; } void CALLBACK ITypeLib_ReleaseTLibAttr_Proxy( ITypeLib* This, TLIBATTR* pTLibAttr) { TRACE("(%p, %p)\n", This, pTLibAttr); CoTaskMemFree(pTLibAttr); } HRESULT __RPC_STUB ITypeLib_ReleaseTLibAttr_Stub( ITypeLib* This) { TRACE("nothing to do\n"); return S_OK; } /* ITypeLib2 */ HRESULT CALLBACK ITypeLib2_GetLibStatistics_Proxy( ITypeLib2* This, ULONG* pcUniqueNames, ULONG* pcchUniqueNames) { FIXME("not implemented\n"); return E_FAIL; } HRESULT __RPC_STUB ITypeLib2_GetLibStatistics_Stub( ITypeLib2* This, ULONG* pcUniqueNames, ULONG* pcchUniqueNames) { FIXME("not implemented\n"); return E_FAIL; } HRESULT CALLBACK ITypeLib2_GetDocumentation2_Proxy(ITypeLib2 *This, INT index, LCID lcid, BSTR *help_string, DWORD *help_context, BSTR *help_dll) { DWORD dummy_help_context, flags = 0; BSTR dummy_help_string, dummy_help_dll; HRESULT hr; TRACE("(%p, %d, %08x, %p, %p, %p)\n", This, index, lcid, help_string, help_context, help_dll); if(!help_string) help_string = &dummy_help_string; else flags = 1; if(!help_context) help_context = &dummy_help_context; else flags |= 2; if(!help_dll) help_dll = &dummy_help_dll; else flags |= 4; hr = ITypeLib2_RemoteGetDocumentation2_Proxy(This, index, lcid, flags, help_string, help_context, help_dll); /* We don't need to free the dummy BSTRs since the stub ensures that these will be NULLs. */ return hr; } HRESULT __RPC_STUB ITypeLib2_GetDocumentation2_Stub(ITypeLib2 *This, INT index, LCID lcid, DWORD flags, BSTR *help_string, DWORD *help_context, BSTR *help_dll) { TRACE("(%p, %d, %08x, %08x, %p, %p, %p)\n", This, index, lcid, flags, help_string, help_context, help_dll); *help_string = *help_dll = NULL; *help_context = 0; if(!(flags & 1)) help_string = NULL; if(!(flags & 2)) help_context = NULL; if(!(flags & 4)) help_dll = NULL; return ITypeLib2_GetDocumentation2(This, index, lcid, help_string, help_context, help_dll); } HRESULT CALLBACK IPropertyBag_Read_Proxy( IPropertyBag* This, LPCOLESTR pszPropName, VARIANT *pVar, IErrorLog *pErrorLog) { IUnknown *pUnk = NULL; TRACE("(%p, %s, %p, %p)\n", This, debugstr_w(pszPropName), pVar, pErrorLog); if(!pVar) return E_POINTER; if(V_VT(pVar) & (VT_BYREF | VT_ARRAY | VT_VECTOR)) { FIXME("Variant type %x is byref, array or vector. Not implemented.\n", V_VT(pVar)); return E_NOTIMPL; } switch(V_VT(pVar)) { case VT_DISPATCH: pUnk = (IUnknown*)V_DISPATCH(pVar); break; case VT_UNKNOWN: pUnk = V_UNKNOWN(pVar); break; case VT_SAFEARRAY: FIXME("Safearray support not yet implemented.\n"); return E_NOTIMPL; default: FIXME("Unknown V_VT %d - support not yet implemented.\n", V_VT(pVar)); return E_NOTIMPL; } return IPropertyBag_RemoteRead_Proxy(This, pszPropName, pVar, pErrorLog, V_VT(pVar), pUnk); } HRESULT __RPC_STUB IPropertyBag_Read_Stub( IPropertyBag* This, LPCOLESTR pszPropName, VARIANT *pVar, IErrorLog *pErrorLog, DWORD varType, IUnknown *pUnkObj) { static const WCHAR emptyWstr[] = {0}; IDispatch *disp; HRESULT hr; TRACE("(%p, %s, %p, %p, %x, %p)\n", This, debugstr_w(pszPropName), pVar, pErrorLog, varType, pUnkObj); if(varType & (VT_BYREF | VT_ARRAY | VT_VECTOR)) { FIXME("Variant type %x is byref, array or vector. Not implemented.\n", V_VT(pVar)); return E_NOTIMPL; } V_VT(pVar) = varType; switch(varType) { case VT_DISPATCH: hr = IUnknown_QueryInterface(pUnkObj, &IID_IDispatch, (LPVOID*)&disp); if(FAILED(hr)) return hr; IUnknown_Release(pUnkObj); V_DISPATCH(pVar) = disp; break; case VT_UNKNOWN: V_UNKNOWN(pVar) = pUnkObj; break; case VT_BSTR: V_BSTR(pVar) = SysAllocString(emptyWstr); break; case VT_SAFEARRAY: FIXME("Safearray support not yet implemented.\n"); return E_NOTIMPL; default: break; } hr = IPropertyBag_Read(This, pszPropName, pVar, pErrorLog); if(FAILED(hr)) VariantClear(pVar); return hr; } /* call_as/local stubs for ocidl.idl */ HRESULT CALLBACK IClassFactory2_CreateInstanceLic_Proxy( IClassFactory2* This, IUnknown *pUnkOuter, IUnknown *pUnkReserved, REFIID riid, BSTR bstrKey, PVOID *ppvObj) { TRACE("(%p, %s, %p)\n", pUnkOuter, debugstr_guid(riid), ppvObj); *ppvObj = NULL; if (pUnkOuter) { ERR("aggregation is not allowed on remote objects\n"); return CLASS_E_NOAGGREGATION; } return IClassFactory2_RemoteCreateInstanceLic_Proxy(This, riid, bstrKey, (IUnknown**)ppvObj); } HRESULT __RPC_STUB IClassFactory2_CreateInstanceLic_Stub( IClassFactory2* This, REFIID riid, BSTR bstrKey, IUnknown **ppvObj) { TRACE("(%s, %p)\n", debugstr_guid(riid), ppvObj); return IClassFactory2_CreateInstanceLic(This, NULL, NULL, riid, bstrKey, (void**)ppvObj); } HRESULT CALLBACK IEnumConnections_Next_Proxy( IEnumConnections* This, ULONG cConnections, LPCONNECTDATA rgcd, ULONG *pcFetched) { ULONG fetched; TRACE("(%u, %p %p)\n", cConnections, rgcd, pcFetched); if (!pcFetched) pcFetched = &fetched; return IEnumConnections_RemoteNext_Proxy(This, cConnections, rgcd, pcFetched); } HRESULT __RPC_STUB IEnumConnections_Next_Stub( IEnumConnections* This, ULONG cConnections, LPCONNECTDATA rgcd, ULONG *pcFetched) { HRESULT hr; TRACE("(%u, %p, %p)\n", cConnections, rgcd, pcFetched); *pcFetched = 0; hr = IEnumConnections_Next(This, cConnections, rgcd, pcFetched); if (hr == S_OK) *pcFetched = cConnections; return hr; } HRESULT CALLBACK IEnumConnectionPoints_Next_Proxy( IEnumConnectionPoints* This, ULONG cConnections, IConnectionPoint **ppCP, ULONG *pcFetched) { ULONG fetched; TRACE("(%u, %p %p)\n", cConnections, ppCP, pcFetched); if (!pcFetched) pcFetched = &fetched; return IEnumConnectionPoints_RemoteNext_Proxy(This, cConnections, ppCP, pcFetched); } HRESULT __RPC_STUB IEnumConnectionPoints_Next_Stub( IEnumConnectionPoints* This, ULONG cConnections, IConnectionPoint **ppCP, ULONG *pcFetched) { HRESULT hr; TRACE("(%u, %p, %p)\n", cConnections, ppCP, pcFetched); *pcFetched = 0; hr = IEnumConnectionPoints_Next(This, cConnections, ppCP, pcFetched); if (hr == S_OK) *pcFetched = cConnections; return hr; } HRESULT CALLBACK IPersistMemory_Load_Proxy( IPersistMemory* This, LPVOID pMem, ULONG cbSize) { TRACE("(%p, %u)\n", pMem, cbSize); if (!pMem) return E_POINTER; return IPersistMemory_RemoteLoad_Proxy(This, pMem, cbSize); } HRESULT __RPC_STUB IPersistMemory_Load_Stub( IPersistMemory* This, BYTE *pMem, ULONG cbSize) { TRACE("(%p, %u)\n", pMem, cbSize); return IPersistMemory_Load(This, pMem, cbSize); } HRESULT CALLBACK IPersistMemory_Save_Proxy( IPersistMemory* This, LPVOID pMem, BOOL fClearDirty, ULONG cbSize) { TRACE("(%p, %d, %u)\n", pMem, fClearDirty, cbSize); if (!pMem) return E_POINTER; return IPersistMemory_RemoteSave_Proxy(This, pMem, fClearDirty, cbSize); } HRESULT __RPC_STUB IPersistMemory_Save_Stub( IPersistMemory* This, BYTE *pMem, BOOL fClearDirty, ULONG cbSize) { TRACE("(%p, %d, %u)\n", pMem, fClearDirty, cbSize); return IPersistMemory_Save(This, pMem, fClearDirty, cbSize); } void CALLBACK IAdviseSinkEx_OnViewStatusChange_Proxy( IAdviseSinkEx* This, DWORD dwViewStatus) { TRACE("(%p, 0x%08x)\n", This, dwViewStatus); IAdviseSinkEx_RemoteOnViewStatusChange_Proxy(This, dwViewStatus); } HRESULT __RPC_STUB IAdviseSinkEx_OnViewStatusChange_Stub( IAdviseSinkEx* This, DWORD dwViewStatus) { TRACE("(%p, 0x%08x)\n", This, dwViewStatus); IAdviseSinkEx_OnViewStatusChange(This, dwViewStatus); return S_OK; } HRESULT CALLBACK IEnumOleUndoUnits_Next_Proxy( IEnumOleUndoUnits* This, ULONG cElt, IOleUndoUnit **rgElt, ULONG *pcEltFetched) { ULONG fetched; TRACE("(%u, %p %p)\n", cElt, rgElt, pcEltFetched); if (!pcEltFetched) pcEltFetched = &fetched; return IEnumOleUndoUnits_RemoteNext_Proxy(This, cElt, rgElt, pcEltFetched); } HRESULT __RPC_STUB IEnumOleUndoUnits_Next_Stub( IEnumOleUndoUnits* This, ULONG cElt, IOleUndoUnit **rgElt, ULONG *pcEltFetched) { HRESULT hr; TRACE("(%u, %p, %p)\n", cElt, rgElt, pcEltFetched); *pcEltFetched = 0; hr = IEnumOleUndoUnits_Next(This, cElt, rgElt, pcEltFetched); if (hr == S_OK) *pcEltFetched = cElt; return hr; } HRESULT CALLBACK IQuickActivate_QuickActivate_Proxy( IQuickActivate* This, QACONTAINER *pQaContainer, QACONTROL *pQaControl) { FIXME("not implemented\n"); return E_NOTIMPL; } HRESULT __RPC_STUB IQuickActivate_QuickActivate_Stub( IQuickActivate* This, QACONTAINER *pQaContainer, QACONTROL *pQaControl) { FIXME("not implemented\n"); return E_NOTIMPL; }