//+--------------------------------------------------------------------------- // // Microsoft Windows // Copyright (C) Microsoft Corporation, 1992 - 1997. // // File: cdispmgr.cxx // // Contents: The dispatch manager -- a class to manage // multiple IDispatch-callable interfaces. // // History: ??-???-?? KrishnaG created // 07-Sep-97 t-blakej Commented, cleaned up, made // independent of ADSI. // //---------------------------------------------------------------------------- // // Dispatch manager description: // // // The dispatch manager is a way to invoke methods on an object that has // more than one COM interface. The regular GetIDsOfNames and Invoke // methods assume only a single ITypeInfo to look up and call names from; // if an object has more than one interface, it has multiple ITypeInfo's, // and it has to explicitly check each one. The dispatch manager implements // the IDispatch methods, and keeps track of as many ITypeInfos as necessary. // // To use the dispatch manager, an object should store a pointer to a // CAggregatorDispMgr object and delegate all IDispatch calls to it, or perhaps // inherit from it directly. The method // // HRESULT CAggregatorDispMgr::LoadTypeInfoEntry( // REFIID libid, REFIID iid, void *pIntf, DISPID SpecialId) // // is used to load the type information for the object into the dispatch // manager. The arguments to this method are: // // REFIID libid - IID of the type library to load from // REFIID iid - IID of the interface to load // void *pIntf - pointer to the interface on the containing // object // DISPID SpecialId - DISPID_REGULAR for most things (see below); // DISPID_VALUE for interfaces which implement // the containing object's "value" property; // DISPID_NEWENUM for interfaces which implement // the containing object's "NewEnum" method // // DISPID_REGULAR is defined to be 1 by all ADSI providers, but not in // any top-level include file. So non-ADSI users of the dispatch manager // will probably have to define it explicitly. // // The LoadTypeInfoEntry method should be called at constructor time of // the containing object. After all the type information is loaded, the // dispatch manager can start servicing GetIDsOfNames and Invoke calls. // // // For ADSI, there are two other calls to load information into the dispatch // manager: // // void CAggregatorDispMgr::RegisterPropertyCache(IPropertyCache *pPropertyCache); // void CAggregatorDispMgr::RegisterBaseDispatchPtr(IDispatch *pDispatch); // // The first method registers a property cache of the containing object; // this is used in the ADSI providers to cache attributes of a directory // server object. See iprops.hxx for more information. // // The second method is a hack used to get around a lack of inheritance. // If an object A implements IDispatch and some other dual interfaces, // and an object B derives from A and also implements IDispatch and some // other dual interfaces, this method can be used in object B to use A's // dispatch manager as a "backup" to its own. This way B doesn't have to // load the type information about the interfaces it inherits from A. // (Also, if A has an ADSI property cache, then callers of B's IDispatch // methods can get at the underlying property cache.) // // The function // // void AggregatorFreeTypeInfoTable(); // // should be called at global destructor or library-unload time. Currently, // all the ADSI libraries do it separately // // // The DISPIDs returned by GetIDsOfNames are 32 bit values laid out // as follows: // // 3 3 2 2 2 2 2 2 2 2 2 2 1 1 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 0 0 // 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0 // +-+-------------+---------------+-------------------------------+ // |X| DispMgrId | TypeInfoId | DispId | // +-+-------------+---------------+-------------------------------+ // // where // // X - is reserved and never set. This would turn the value negative // (which would overlap with some Automation-reserved DISPIDs.) // // DispMgrId - identifies the dispatch manager (used when stringing // dispatch managers together via RegisterBaseDispatchPtr). // // TypeInfoId - uniquely identifies the interface within this // dispatch manager. // // DispId - uniquely identifies the name within the interface. // // So if an object uses the dispatch manager, it shouldn't try to only use // it for just GetIDsOfNames or just Invoke, since the DISPIDs returned are // not necessarily the ones in the type library. // ////////////////////////////////////////////////////////////////////////////// // Forward declarations: struct IPropertyCache; /* typedef struct _typeinfoentry { LONG TypeInfoId; void *ptypeinfo; void *pInterfacePointer; struct _typeinfoentry *pNext; } TYPEINFOENTRY, *PTYPEINFOENTRY;*/ class CAggregatorDispMgr { public: CAggregatorDispMgr::CAggregatorDispMgr(CCredentials &Credentials); CAggregatorDispMgr::CAggregatorDispMgr(); CAggregatorDispMgr::~CAggregatorDispMgr(); // // The IDispatch methods are the main interface of the Dispatch Manager. // STDMETHOD(GetTypeInfoCount)(THIS_ UINT FAR* pctinfo); STDMETHOD(GetTypeInfo)(THIS_ UINT itinfo, LCID lcid, ITypeInfo **pptinfo); STDMETHOD(GetIDsOfNames)(THIS_ REFIID riid, LPWSTR *rgszNames, UINT cNames, LCID lcid, DISPID *rgdispid); STDMETHOD(Invoke)(THIS_ DISPID dispidMember, REFIID riid, LCID lcid, WORD wFlags, DISPPARAMS *pdispparams, VARIANT *pvarResult, EXCEPINFO *pexcepinfo, UINT *puArgErr); // // Methods for initializing the dispatch manager. // void CAggregatorDispMgr::RegisterPropertyCache(IPropertyCache* pPropertyCache); void CAggregatorDispMgr::RegisterBaseDispatchPtr(IDispatch *pDispatch); HRESULT CAggregatorDispMgr::LoadTypeInfoEntry( REFIID libid, REFIID iid, void * pIntf, DISPID SpecialId ); private: void * CAggregatorDispMgr::getInterfacePtr(LONG TypeInfoId); ITypeInfo * CAggregatorDispMgr::getTypeInfo(LONG TypeInfoId); PTYPEINFOENTRY CAggregatorDispMgr::FindTypeInfoEntry(LONG TypeInfoId); HRESULT CAggregatorDispMgr::AddTypeInfo(void FAR *ptypeinfo, void * pIntfptr); STDMETHODIMP CAggregatorDispMgr::TypeInfoInvoke(DISPID dispidMember, REFIID iid, LCID lcid, unsigned short wFlags, DISPPARAMS FAR* pdispparams, VARIANT FAR* pvarResult, EXCEPINFO FAR* pexcepinfo, unsigned int FAR* puArgErr); HRESULT CAggregatorDispMgr::MarkAsNewEnum(void *pTypeInfo); HRESULT CAggregatorDispMgr::MarkAsItem(void *pTypeInfo); PTYPEINFOENTRY CAggregatorDispMgr::FindTypeInfo(void *pTypeInfo); LONG CAggregatorDispMgr::gentypeinfoid(); protected: LONG _dwTypeInfoId; PTYPEINFOENTRY _pTypeInfoEntry; PTYPEINFOENTRY _pDispidNewEnum; PTYPEINFOENTRY _pDispidValue; IPropertyCache *_pPropertyCache; LONG _dwPropCacheID; CCredentials _Credentials; }; #define BAIL_IF_ERROR(hr) if (FAILED(hr)) { goto cleanup; } // deprecated HRESULT LoadTypeInfoEntry( CAggregatorDispMgr * pDispMgr, REFIID libid, REFIID iid, void * pIntf, DISPID SpecialId ); void AggregatorFreeTypeInfoTable(); HRESULT AggregatorDynamicDispidInvoke( IPropertyCache * pPropertyCache, CCredentials &Credentials, DISPID dispid, unsigned short wFlags, DISPPARAMS *pdispparams, VARIANT * pvarResult ); BOOL AggregatorDllCanUnload();