/////////////////////////////////////////////////////////////////////////////// // // Copyright (c) 1998, Microsoft Corp. All rights reserved. // // FILE // // iastlutl.h // // SYNOPSIS // // Declares various utility classes, functions, and macros that are // useful when implementating a request handler for the Internet // Authentication Service. // // MODIFICATION HISTORY // // 08/10/1998 Original version. // 10/27/1998 Added IASDictionaryView. // 01/25/1999 Removed IASDictionaryView. // 04/14/2000 Added IASDictionary. // /////////////////////////////////////////////////////////////////////////////// #ifndef _IASTLUTL_H_ #define _IASTLUTL_H_ #if _MSC_VER >= 1000 #pragma once #endif ////////// // 'C'-style API for manipulating IASATTRIBUTE struct's. ////////// #include ////////// // 'C'-style API for manipulating dictionary. ////////// #include ////////// // MIDL generated header files containing interfaces used by request handlers. ////////// #include #include ////////// // The entire library is contained within the IASTL namespace. ////////// namespace IASTL { ////////// // This function is called whenever an exception should be thrown. The // function is declared, but never defined. This allows the user to provide // their own implementation using an exception class of their choice. ////////// void __stdcall issue_error(HRESULT hr); /////////////////////////////////////////////////////////////////////////////// // // CLASS // // IASAttribute // // DESCRIPTION // // Wrapper around an IASATTRIBUTE struct. // /////////////////////////////////////////////////////////////////////////////// class IASAttribute { public: ////////// // Constructors. ////////// IASAttribute() throw () : p(NULL) { } explicit IASAttribute(bool alloc) { if (alloc) { _alloc(); } else { p = NULL; } } explicit IASAttribute(PIASATTRIBUTE attr, bool addRef = true) throw () : p(attr) { if (addRef) { _addref(); } } IASAttribute(const IASAttribute& attr) throw () : p(attr.p) { _addref(); } ////////// // Destructor. ////////// ~IASAttribute() throw () { _release(); } ////////// // Assignment operators. ////////// IASAttribute& operator=(PIASATTRIBUTE attr) throw (); const IASAttribute& operator=(const IASAttribute& attr) throw () { return operator=(attr.p); } // Allocate a new attribute. Any existing attribute is first released. void alloc() { _release(); _alloc(); } // Release the attribute (if any). void release() throw () { if (p) { IASAttributeRelease(p); p = NULL; } } // Attach a new attribute to the object. Any existing attribute is first // released. void attach(PIASATTRIBUTE attr, bool addRef = true) throw (); // Detach the attribute from the object. The caller is responsible for // releasing the returned attribute. PIASATTRIBUTE detach() throw () { PIASATTRIBUTE rv = p; p = NULL; return rv; } // Load an attribute with the given ID. Returns true if successful, false // if no such attribute exists. bool load(IAttributesRaw* request, DWORD dwId); // Load an attribute with the given ID and verify that it has an // appropriate value type. Returns true if successful, false if no such // attribute exists. bool load(IAttributesRaw* request, DWORD dwId, IASTYPE itType); // Store the attribute in a request. void store(IAttributesRaw* request) const; // Swap the contents of two objects. void swap(IASAttribute& attr) throw () { PIASATTRIBUTE tmp = p; p = attr.p; attr.p = tmp; } ////////// // Methods for setting the value of an attribute. The object must contain // a valid attribute before calling this method. The passed in data is // copied. ////////// void setOctetString(DWORD dwLength, const BYTE* lpValue); void setOctetString(PCSTR szAnsi); void setOctetString(PCWSTR szWide); void setString(DWORD dwLength, const BYTE* lpValue); void setString(PCSTR szAnsi); void setString(PCWSTR szWide); ////////// // Methods for manipulating the dwFlags field. ////////// void clearFlag(DWORD flag) throw () { p->dwFlags &= ~flag; } void setFlag(DWORD flag) throw () { p->dwFlags |= flag; } bool testFlag(DWORD flag) const throw () { return (p->dwFlags & flag) != 0; } // Address-of operator. Any existing attribute is first released. PIASATTRIBUTE* operator&() throw () { release(); return &p; } ////////// // Assorted useful operators that allow an IASAttribute object to mimic // an IASATTRIBUTE pointer. ////////// bool operator !() const throw () { return p == NULL; } operator bool() const throw () { return p != NULL; } operator PIASATTRIBUTE() const throw () { return p; } IASATTRIBUTE& operator*() const throw () { return *p; } PIASATTRIBUTE operator->() const throw () { return p; } protected: void _addref() throw () { if (p) { IASAttributeAddRef(p); } } void _release() throw () { if (p) { IASAttributeRelease(p); } } void _alloc() { if (IASAttributeAlloc(1, &p)) { issue_error(E_OUTOFMEMORY); } } void clearValue() throw (); PIASATTRIBUTE p; // The attribute being wrapped. }; /////////////////////////////////////////////////////////////////////////////// // // CLASS // // IASAttributeVector // // DESCRIPTION // // Implements an STL-style vector of ATTRIBUTEPOSITION structs. The user // may provide an empty C-style array that will be used for initial storage. // This array will not be freed by the IASAttributeVector object and must // remain valid for the lifetime of the object. The purpose of this feature // is to allow an initial stack-based allocation that will meet most // conditions while still allowing a dynamically-sized heap-based array // when necessary. // /////////////////////////////////////////////////////////////////////////////// class IASAttributeVector { public: ////////// // STL typedefs. ////////// typedef DWORD size_type; typedef ptrdiff_t difference_type; typedef ATTRIBUTEPOSITION& reference; typedef const ATTRIBUTEPOSITION& const_reference; typedef ATTRIBUTEPOSITION value_type; typedef PATTRIBUTEPOSITION iterator; typedef const ATTRIBUTEPOSITION* const_iterator; // Construct a vector with zero capacity. IASAttributeVector() throw (); // Construct a vector with heap-allocated capacity of 'N'. explicit IASAttributeVector(size_type N); // Construct a vector with initial capacity of 'initCap' using the // user-provided C-style array beginning at 'init'. IASAttributeVector(PATTRIBUTEPOSITION init, size_type initCap) throw (); // Copy-constructor. IASAttributeVector(const IASAttributeVector& v); // Assignment operator. IASAttributeVector& operator=(const IASAttributeVector& v); // Destructor. ~IASAttributeVector() throw (); // Similar to 'erase' except the attribute is not released. iterator discard(iterator p) throw (); // Similar to 'discard' except the order of the elements following 'p' is // not necessarily preserved. iterator fast_discard(iterator p) throw (); // Similar to 'erase' except the order of the elements following 'p' is // not necessarily preserved. iterator fast_erase(iterator p) throw () { IASAttributeRelease(p->pAttribute); return fast_discard(p); } // Load the requested attributes into the vector. DWORD load(IAttributesRaw* request, DWORD attrIDCount, LPDWORD attrIDs); // Load all attributes with a given ID into the vector. DWORD load(IAttributesRaw* request, DWORD attrID) { return load(request, 1, &attrID); } // Load all the attributes in the request into the vector. DWORD load(IAttributesRaw* request); // Adds an ATTRIBUTEPOSITION struct to the end of the vetor, resizing as // necessary. The 'addRef' flag indicates whether IASAttributeAddRef should // be called for the embedded attribute. void push_back(ATTRIBUTEPOSITION& p, bool addRef = true); // Adds an attribute to the end of the vetor, resizing as necessary. // The 'addRef' flag indicates whether IASAttributeAddRef should be // called for the attribute. void push_back(PIASATTRIBUTE p, bool addRef = true) { ATTRIBUTEPOSITION pos = { 0, p }; push_back(pos, addRef); } // Remove the contents of the vector from the request. void remove(IAttributesRaw* request); // Store the contents of the vector in the request. void store(IAttributesRaw* request) const; ////////// // The remainder of the public interface follows the semantics of the // STL vector class (q.v.). ////////// const_reference at(size_type pos) const throw () { return *(begin_ + pos); } reference at(size_type pos) throw () { return *(begin_ + pos); } iterator begin() throw () { return begin_; } const_iterator begin() const throw () { return begin_; } size_type capacity() const throw () { return capacity_; } void clear() throw (); bool empty() const throw () { return begin_ == end_; } iterator end() throw () { return end_; } const_iterator end() const throw () { return end_; } iterator erase(iterator p) throw () { IASAttributeRelease(p->pAttribute); return discard(p); } reference back() throw () { return *(end_ - 1); } const_reference back() const throw () { return *(end_ - 1); } reference front() throw () { return *begin_; } const_reference front() const throw () { return *begin_; } void reserve(size_type N); size_type size() const throw () { return (size_type)(end_ - begin_); } const_reference operator[](size_type pos) const throw () { return at(pos); } reference operator[](size_type pos) throw () { return at(pos); } protected: PATTRIBUTEPOSITION begin_; // Beginning of the vector. PATTRIBUTEPOSITION end_; // Points one past the last element. size_type capacity_; // Capacity of the vector in elements. bool owner; // true if the memory should be freed. }; /////////////////////////////////////////////////////////////////////////////// // // CLASS // // IASAttributeVectorWithBuffer // // DESCRIPTION // // Extens IASAttributeVector to provide an initial non-heap allocation // of 'N' elements. The vector will still support heap-based resizing. // /////////////////////////////////////////////////////////////////////////////// template class IASAttributeVectorWithBuffer : public IASAttributeVector { public: IASAttributeVectorWithBuffer() : IASAttributeVector(buffer, N) { } IASAttributeVectorWithBuffer(const IASAttributeVectorWithBuffer& vec) : IASAttributeVector(vec) { } IASAttributeVectorWithBuffer& operator=(const IASAttributeVectorWithBuffer& vec) { IASAttributeVector::operator=(vec); return *this; } protected: ATTRIBUTEPOSITION buffer[N]; // Initial storage. }; /////////////////////////////////////////////////////////////////////////////// // // MACRO // // IASAttributeVectorOnStack(identifier, request, extra) // // DESCRIPTION // // Uses _alloca to create an IASAttributeVector on the stack that is // exactly the right size to hold all the attributes in 'request' plus // 'extra' additional attributes. The 'request' pointer may be null in // which case this will allocate space for exactly 'extra' attributes. // // CAVEAT // // This can only be used for temporary variables. // /////////////////////////////////////////////////////////////////////////////// // Must be included in an enclosing scope prior to IASAttributeVectorOnStack #define USES_IAS_STACK_VECTOR() \ ULONG IAS_VECCAP; #define IASAttributeVectorOnStack(identifier, request, extra) \ IAS_VECCAP = 0; \ if (static_cast(request) != NULL) \ static_cast(request)->GetAttributeCount(&IAS_VECCAP); \ IAS_VECCAP += (extra); \ IASAttributeVector identifier( \ (PATTRIBUTEPOSITION) \ _alloca(IAS_VECCAP * sizeof(ATTRIBUTEPOSITION)), \ IAS_VECCAP \ ) /////////////////////////////////////////////////////////////////////////////// // // CLASS // // IASOrderByID // // DESCRIPTION // // Functor class for sorting/searching an IASAttributeVector by ID. // /////////////////////////////////////////////////////////////////////////////// class IASOrderByID { public: bool operator()(const ATTRIBUTEPOSITION& lhs, const ATTRIBUTEPOSITION& rhs) throw () { return lhs.pAttribute->dwId < rhs.pAttribute->dwId; } }; /////////////////////////////////////////////////////////////////////////////// // // CLASS // // IASSelectByID // // DESCRIPTION // // Functor class for selecting elements from an IASAttributeVector based // on the attribute ID. // /////////////////////////////////////////////////////////////////////////////// template class IASSelectByID { public: bool operator()(const ATTRIBUTEPOSITION& pos) throw () { return (pos.pAttribute->dwId == ID); } }; /////////////////////////////////////////////////////////////////////////////// // // CLASS // // IASSelectByFlag // // DESCRIPTION // // Functor class for selecting elements from an IASAttributeVector based // on the attribute flags. // /////////////////////////////////////////////////////////////////////////////// template class IASSelectByFlag { public: bool operator()(const ATTRIBUTEPOSITION& pos) throw () { return Set ? (pos.pAttribute->dwFlags & Flag) != 0 : (pos.pAttribute->dwFlags & Flag) == 0; } }; /////////////////////////////////////////////////////////////////////////////// // // CLASS // // IASRequest // // DESCRIPTION // // Wrapper around a COM-based request object. Note that this is *not* a // smart pointer class. There are several important differences: // // 1) An IASRequest object is guaranteed to contain a valid request; // there is no concept of a NULL IASRequest. // 2) The IASRequest object does not take ownership of the IRequest // interface. In particular, it does not call AddRef or Release. // 3) Methods are invoked directly on the IASRequest object rather than // through the -> operator. // /////////////////////////////////////////////////////////////////////////////// class IASRequest { public: explicit IASRequest(IRequest* request); IASRequest(const IASRequest& request) throw () : req(request.req), raw(request.raw) { _addref(); } IASRequest& operator=(const IASRequest& request) throw (); ~IASRequest() throw () { _release(); } IASREQUEST get_Request() const { LONG val; checkError(req->get_Request(&val)); return (IASREQUEST)val; } void put_Request(IASREQUEST newVal) { checkError(req->put_Request(newVal)); } IASRESPONSE get_Response() const { LONG val; checkError(req->get_Response(&val)); return (IASRESPONSE)val; } DWORD get_Reason() const { LONG val; checkError(req->get_Reason(&val)); return val; } IASPROTOCOL get_Protocol() const { IASPROTOCOL val; checkError(req->get_Protocol(&val)); return val; } void put_Protocol(IASPROTOCOL newVal) { checkError(req->put_Protocol(newVal)); } IRequestSource* get_Source() const { IRequestSource* val; checkError(req->get_Source(&val)); return val; } void put_Source(IRequestSource* newVal) { checkError(req->put_Source(newVal)); } void SetResponse(IASRESPONSE eResponse, DWORD dwReason = S_OK) { checkError(req->SetResponse(eResponse, (LONG)dwReason)); } void ReturnToSource(IASREQUESTSTATUS eStatus) { checkError(req->ReturnToSource(eStatus)); } void AddAttributes(DWORD dwPosCount, PATTRIBUTEPOSITION pPositions) { checkError(raw->AddAttributes(dwPosCount, pPositions)); } void RemoveAttributes(DWORD dwPosCount, PATTRIBUTEPOSITION pPositions) { checkError(raw->RemoveAttributes(dwPosCount, pPositions)); } void RemoveAttributesByType(DWORD dwAttrIDCount, LPDWORD lpdwAttrIDs) { checkError(raw->RemoveAttributesByType(dwAttrIDCount, lpdwAttrIDs)); } DWORD GetAttributeCount() const { DWORD count; checkError(raw->GetAttributeCount(&count)); return count; } // Returns the number of attributes retrieved. DWORD GetAttributes(DWORD dwPosCount, PATTRIBUTEPOSITION pPositions, DWORD dwAttrIDCount, LPDWORD lpdwAttrIDs); ////////// // Cast operators to extract the embedded interfaces. ////////// operator IRequest*() { return req; } operator IAttributesRaw*() { return raw; } protected: // Throws an exception if a COM method fails. static void checkError(HRESULT hr) { if (FAILED(hr)) { issue_error(hr); } } void _addref() { raw->AddRef(); } void _release() { raw->Release(); } IRequest* req; // Underlying interfaces. IAttributesRaw* raw; // Underlying interfaces. }; /////////////////////////////////////////////////////////////////////////////// // // CLASS // // IASDictionary // // DESCRIPTION // // Provides access to the attribute dictionary. // /////////////////////////////////////////////////////////////////////////////// class IASDictionary { public: // selectNames: null terminated array of strings containing the columns to // be selected // path: full path to the dictionary database or NULL to use the // local dictionary IASDictionary( const WCHAR* const* selectNames, PCWSTR path = NULL ); ~IASDictionary() throw (); ULONG getNumRows() const throw () { return table->numRows; } // Advance to the next row. This must be called on a newly constructed // dictionary to advance to the first row. bool next() throw (); // Reset the dictionary to its initial state. void reset() throw (); // Returns true if the specified column is empty in the current row. bool isEmpty(ULONG ordinal) const; // Retrieve column values from the current row. VARIANT_BOOL getBool(ULONG ordinal) const; BSTR getBSTR(ULONG ordinal) const; LONG getLong(ULONG ordinal) const; const VARIANT* getVariant(ULONG ordinal) const; private: const IASTable* table; // The table data. ULONG mapSize; // Number of columns selected. PULONG selectMap; // Maps select ordinals to table ordinals. ULONG nextRowNumber; // Next row. VARIANT* currentRow; // Current row -- may be NULL. IASTable data; // Local storage for non-local dictionaries. CComVariant storage; // Storage associated with the dictionary. // Not implemented. IASDictionary(const IASDictionary&); IASDictionary& operator=(const IASDictionary&); }; ////////// // End of the IASTL namespace. ////////// } /////////////////////////////////////////////////////////////////////////////// // // OctetString conversion macros and functions. // /////////////////////////////////////////////////////////////////////////////// // Compute the size of the buffer required by IASOctetStringToAnsi #define IAS_OCT2ANSI_LEN(oct) \ (((oct).dwLength + 1) * sizeof(CHAR)) // Compute the size of the buffer required by IASOctetStringToWide #define IAS_OCT2WIDE_LEN(oct) \ (((oct).dwLength + 1) * sizeof(WCHAR)) // Coerce an OctetString to a null-terminated ANSI string. There is no check // for overflow. The dst buffer must be at least IAS_OCT2ANSI_LEN bytes. PSTR IASOctetStringToAnsi(const IAS_OCTET_STRING& src, PSTR dst) throw (); // Coerce an OctetString to a null-terminated Unicode string. There is no // check for overflow. The dst buffer must be at least IAS_OCT2UNI_LEN bytes. PWSTR IASOctetStringToWide(const IAS_OCTET_STRING& src, PWSTR dst) throw (); // Convert an OctetString to ANSI on the stack. #define IAS_OCT2ANSI(oct) \ (IASOctetStringToAnsi((oct), (PSTR)_alloca(IAS_OCT2ANSI_LEN(oct)))) // Convert an OctetString to Unicode on the stack. #define IAS_OCT2WIDE(oct) \ (IASOctetStringToWide((oct), (PWSTR)_alloca(IAS_OCT2WIDE_LEN(oct)))) /////////////////////////////////////////////////////////////////////////////// // // Miscellaneous utility functions. // /////////////////////////////////////////////////////////////////////////////// // Retrieves and returns a single attribute with the given ID and type. The // attribute should *not* be released and is only valid while the caller holds // a reference to 'request'. On error or if the attribute is not found, the // function returns NULL. PIASATTRIBUTE IASPeekAttribute( IAttributesRaw* request, DWORD dwId, IASTYPE itType ) throw (); #endif // _IASTLUTL_H_