//+------------------------------------------------------------------- // // File: serial.cxx // // Contents: serialization support // // Classes: Serializer // // Functions: Helper class for serialization which holds // serialization state like MES handles, position // in buffer, stream etc. Provides a virtual // buffer for operation but is created from and // commited back to an IStream object. // // History: 24-Jan-98 vinaykr Created // 17-Aug-98 vinaykr Made every method inline // and non-COM class. // //-------------------------------------------------------------------- #ifndef __SERIAL_HXX #define __SERIAL_HXX #include #include #include #include #include #include #ifdef _WIN64 // Flag used to signal the in-proc case for Serialization header marshalling #define INTERNAL_SERIALIZATION_FLAG 0x487fabc // Struct used to optimize calls to IStream::Write typedef struct _SSerializationHeader64 { DWORD dwSize; DWORD dwFlag; void *pvMarshalPtr; } SerializationHeader64; #endif typedef struct _SSerializationHeader { DWORD dwSize; void *pvMarshalPtr; } SerializationHeader; class Serializer { public: enum { DIRECTION_READ = 0x1, DIRECTION_WRITE = 0x2 }; inline ~Serializer() { // Free MES handle if (_handle!=0) MesHandleFree(_handle); // If we have a stream free it if (_pStream) { _pIBuff->Release(); _pStream->Release(); } // If original stream is different free it if ((_pOriginalStream) && (_pOriginalStream != _pStream)) _pOriginalStream->Release(); } inline Serializer() { _bufSize=0; _operationSize=0; _buffer = 0; _nWritten = 0; _position = 0; _start = 0; _pStream = NULL; _pOriginalStream = NULL; _pIBuff = NULL; _handle = 0; _clRefs = 1; } inline Serializer(DWORD dwMaxDestCtx, DWORD dwCurrCtx, DWORD dwMarshalFlags) { this->Serializer::Serializer(); _dwMaxDestCtx = dwMaxDestCtx; _dwCurrentDestCtx = dwCurrCtx; _dwMarshalFlags = dwMarshalFlags; } inline ULONG Serializer::Release(void) { Win4Assert((_clRefs != 0) && "Serializer::Release"); if (InterlockedDecrement(&_clRefs) == 0) { delete this; return 0; } return _clRefs; } /***************************************************************************/ /** Initializes state based on stream for serialization **/ /** Assumes that we know the limits of our operation before hand if we **/ /** writing out to the stream. **/ /** Note that it is the responsibility of the caller to ensure that the **/ /** variable pMarshalPtr is only passed during in process marshalling **/ /** otherwise undefined errors may result. **/ /** Note that when writing pMarshalPtr and dwSize are input parameters **/ /** and while reading they are output. /***************************************************************************/ inline HRESULT InitStream(IStream *pStream,DWORD &dwSize, DWORD direction, void* &pMarshalPtr) { HRESULT hr; DWORD nRead; _direction = direction; _pOriginalStream = pStream; _pOriginalStream->AddRef(); // Either read or write initial protocol header if (direction == DIRECTION_READ) { SerializationHeader hdr; #ifdef _WIN64 // To maintain compatibility with 32 bit DCOM, we need to maintain the // illusion that SerializationHeader's are 8 bytes in size // // For the in proc case, there will be a DWORD after the dwSize field // that tells us if we are in proc or out of proc. If the DWORD is our // special flag, then we are in-proc and there's an 8 byte pointer that // we need to read from the stream. // For the out of proc case, the DWORD will be zero and we can just ignore // it and set the pvMarshalPtr field to NULL // // -mfeingol, 10/15/1999 // Read eight bytes from the stream DWORD dwData[2]; if ((hr = _pOriginalStream->Read(dwData, 2 * sizeof (DWORD), &nRead)) != S_OK) return hr; // Assign the dwSize field hdr.dwSize = dwData[0]; // Determine if we're in proc or out of proc if (dwData[1] == INTERNAL_SERIALIZATION_FLAG) { // In proc case: there's a pointer in the stream if ((hr = _pOriginalStream->Read(&hdr.pvMarshalPtr, sizeof (void*), &nRead)) != S_OK) return hr; } else { // Out of proc case; the DWORD we read is just a NULL hdr.pvMarshalPtr = NULL; } #else if ((hr = _pOriginalStream->Read(&hdr, GetSize(), &nRead)) != S_OK) return hr; #endif pMarshalPtr = hdr.pvMarshalPtr; if (hdr.pvMarshalPtr) { _operationSize = hdr.dwSize; } else { BYTE *pSrc = (BYTE*) &hdr.dwSize; _operationSize = 0; for (int i = 0; i<(sizeof(DWORD)/sizeof(BYTE)); i++) { _operationSize |= ((((DWORD)(*pSrc++)) & 0xFF) << (i*8)); } } dwSize = _operationSize; } else { _operationSize = dwSize; SerializationHeader hdr; hdr.pvMarshalPtr = pMarshalPtr; if (pMarshalPtr) { hdr.dwSize = dwSize; } else { BYTE *pDst = (BYTE*) &hdr.dwSize; for (int i = 0; i<(sizeof(DWORD)/sizeof(BYTE)); i++) { *pDst++ = (BYTE)((dwSize>>(i*8)) & 0xFF); } } #ifdef _WIN64 // To maintain compatibility with 32 bit DCOM, we need to maintain the // illusion that SerializationHeader's are 8 bytes in size // // For the in proc case, we write a DWORD after the dwSize field // that tells the reader of the stream that we are in proc. Then we serialize // our 8 byte pointer into the stream. // For the out of proc case, we just write a zero'd DWORD after the dwSize field // // -mfeingol, 10/15/1999 if (pMarshalPtr) { // Inproc: write the DWORD, a flag, then the ptr SerializationHeader64 sh64Data = { hdr.dwSize, INTERNAL_SERIALIZATION_FLAG, pMarshalPtr }; if ((hr = _pOriginalStream->Write(&sh64Data, sizeof (SerializationHeader64), &_nWritten)) != S_OK) return hr; } else { DWORD dwData[2] = { hdr.dwSize, 0 }; // Out of proc: write the DWORD and blank DWORD if ((hr = _pOriginalStream->Write(&dwData, 2 * sizeof (DWORD), &_nWritten)) != S_OK) return hr; } #else if ((hr = _pOriginalStream->Write(&hdr, GetSize(), &_nWritten)) != S_OK) return hr; #endif } if (!_operationSize) { if (!pMarshalPtr) return E_UNEXPECTED; return S_OK; } // See if given stream supports IBuffer otherwise create one that does IBuffer *pibuff; if (_pOriginalStream->QueryInterface(IID_IBuffer, (void**)&pibuff)!=S_OK) { // allocate more in case alignment needed _bufSize = _operationSize + 8; _pStream = new ActivationStream(_bufSize); if (_pStream==NULL) return E_OUTOFMEMORY; hr = _pStream->QueryInterface(IID_IBuffer, (void**)&_pIBuff); ASSERT(hr==S_OK); pibuff = _pIBuff; } do // Loop until we get right buffer { // Invariant is that pibuff must exist by the time we get here ASSERT(pibuff != 0); // Set up our buffer appropriately if (direction == DIRECTION_READ) { if (pibuff->GetBuffer(&_bufSize, &_buffer)!=S_OK) return E_FAIL; if (_bufSize < _operationSize) return E_FAIL; } else if (direction == DIRECTION_WRITE) { if (pibuff->GetOrCreateBuffer(_operationSize+GetSize(), &_bufSize, &_buffer)!=S_OK) return E_FAIL; } if(((LONG_PTR)_buffer)&0x7) { // If buffer is not 8 byte aligned, do it if (pibuff != _pIBuff) { // Only get here if we are still using original ASSERT(_pIBuff == 0); // So release it and create a new aligned one pibuff->Release(); _bufSize = _operationSize + 8; _pStream = new ActivationStream(_bufSize); if (_pStream==NULL) return E_OUTOFMEMORY; hr = _pStream->QueryInterface(IID_IBuffer, (void**)&_pIBuff); ASSERT(hr==S_OK); pibuff = _pIBuff; //Continue loop } else { // Got a buffer which we can align ASSERT(_pIBuff != 0); pibuff = 0; //Signal end of loop // Align buffer _start = (DWORD)(8-(((DWORD_PTR)_buffer)&7)); } } else { // We have an original good one _pIBuff = pibuff; pibuff = 0; } } while (pibuff); ASSERT(_pIBuff!=0); // Set position for next operations and set up // internal state correctly hr = _pIBuff->SetPosition(_bufSize, _start); ASSERT(hr == S_OK); _bufSize -= _start; _buffer += _start; _position = 0; if (direction==DIRECTION_READ) { if ((_pStream) && (_pOriginalStream != _pStream)) { //If what we have is not the original one then we //need to copy data into aligned address from original DWORD nOver=0; do { if ((hr=_pOriginalStream->Read(_buffer+nOver, _operationSize-nOver, &nRead))!= S_OK) return hr; nOver += nRead; } while (nOver<_operationSize); _pOriginalStream->Release(); _pOriginalStream = 0; // Don't need original any longer } else _pStream = _pOriginalStream; // Set operating to original ASSERT(_pStream!=0); // Create decoding handle for MES operations MesDecodeBufferHandleCreate((char*)_buffer, _bufSize, &_handle); if (_handle == NULL) return E_OUTOFMEMORY; } else { _nWritten = 0; // Check if we are still using the orignal stream if (_pStream == 0) _pStream = _pOriginalStream; // Create encoding handle for MES operations MesEncodeFixedBufferHandleCreate((char*)_buffer, _bufSize, &_nWritten, &_handle); if (_handle == NULL) return E_OUTOFMEMORY; } return S_OK; } /***************************************************************************/ /** Sets stream and state for further serialization operations **/ /** Assumes that a stream supporting IBuffer is provided. **/ /***************************************************************************/ inline HRESULT SetStream(IStream *pStream,DWORD dwOpSize, DWORD direction) { // Set up internal state _direction = direction; _pOriginalStream = 0; _pStream = pStream; _operationSize = dwOpSize; _pStream->AddRef(); // Assume IBuffer exists otherwise fail if (_pStream->QueryInterface(IID_IBuffer, (void**)&_pIBuff)!=S_OK) return E_FAIL; if (_pIBuff->GetBuffer(&_bufSize, &_buffer)!=S_OK) return E_FAIL; if (_bufSize < _operationSize) return E_FAIL; // Set up MES handles if (direction==DIRECTION_READ) MesDecodeBufferHandleCreate((char*)_buffer, _bufSize, &_handle); else MesEncodeFixedBufferHandleCreate((char*)_buffer, _bufSize, &_nWritten, &_handle); if (_handle == NULL) return E_OUTOFMEMORY; return S_OK; } // Gets MES handle inline HRESULT GetSerializationHandle(void *pHandle) { *((handle_t*) pHandle) = _handle; return S_OK; } // Gets MES handle for sizing operations inline HRESULT GetSizingHandle(void *pHandle) { char dummy[30], *dummybuff; unsigned long encodedSize; handle_t handle; dummybuff = (char*)(((LONG_PTR)(&dummy[7])) & ~7); MesEncodeFixedBufferHandleCreate(dummybuff, 100, &encodedSize, (handle_t*)pHandle); if ( (*(handle_t*)pHandle) == NULL) return E_OUTOFMEMORY; return S_OK; } //Signals end of operations on this object and commits //operations to stream inline HRESULT Commit() { // If we are not using original and we are writing, // then we need to copy if ((_pOriginalStream) && (_pOriginalStream != _pStream)) { ASSERT(_direction==DIRECTION_WRITE); HRESULT hr; do { _nWritten = 0; hr = _pOriginalStream->Write(_buffer, _operationSize, &_nWritten); if (hr != S_OK) break; _operationSize -= _nWritten; _buffer += _nWritten; } while (_operationSize); return hr; } else return _pIBuff->SetPosition(_bufSize, _operationSize); } inline HRESULT SetPosition(DWORD dwPos) { // Sets position in buffer and creates appropriate MES handle HRESULT hr = _pIBuff->SetPosition(_bufSize, dwPos); if (hr!=S_OK) return hr; MesHandleFree(_handle); if (_direction == DIRECTION_READ) MesDecodeBufferHandleCreate((char*)(_buffer+dwPos), _bufSize, &_handle); else { _nWritten = 0; MesEncodeFixedBufferHandleCreate((char*)(_buffer+dwPos), _bufSize, &_nWritten, &_handle); } if (_handle == NULL) return E_OUTOFMEMORY; _position = dwPos; return S_OK; } // Gets current position in buffer inline HRESULT GetPosition(DWORD *pdwPos) { *pdwPos = _position; return S_OK; } // Increment current position by specified amount in buffer inline HRESULT IncrementPosition(DWORD dwInc) { return SetPosition(_position+dwInc); } // Get buffers underlying stream object inline HRESULT GetStream(IStream **ppStream) { _pStream->AddRef(); *ppStream = _pStream; return S_OK; } // Get a copy of this object inline HRESULT GetCopy(Serializer **ppSer) { HRESULT hr=E_FAIL; IStream *pNewStream; if (_pStream) { ASSERT(_direction==DIRECTION_READ); //No need for any other case right now hr = _pIBuff->SetPosition(_bufSize, 0); ASSERT(hr==S_OK); if (_pOriginalStream) // Still using original so clone { ASSERT(_start==0); ASSERT(_pStream==_pOriginalStream); hr = _pIBuff->SetCopyAlignment(8); ASSERT(hr==S_OK); hr = _pStream->Clone(&pNewStream); if (hr != S_OK) return hr; } else { pNewStream = _pStream; } Serializer *ser = new Serializer(_dwMaxDestCtx, _dwCurrentDestCtx, _dwMarshalFlags); if (ser==NULL) return E_OUTOFMEMORY; hr = ser->SetStream(pNewStream, _operationSize, _direction); if (FAILED(hr)) goto exit_point; hr = ser->SetPosition(_position); if (FAILED(hr)) goto exit_point; hr = _pIBuff->SetPosition(_bufSize, _position); if (FAILED(hr)) goto exit_point; *ppSer = ser; exit_point: if (pNewStream != _pStream) pNewStream->Release(); if (FAILED(hr)) { ser->Release(); *ppSer = NULL; } } return hr; } // Write provided buffer into our buffer at current position // and advance position inline HRESULT Write(BYTE *buff, DWORD nBytes) { ASSERT(nBytes<=(_bufSize-_position)); memcpy(_buffer+_position,buff, (size_t) nBytes); IncrementPosition(nBytes); return S_OK; } // Copy into provided Serializer our data at given position and length inline HRESULT CopyTo(Serializer *pSer, DWORD dwPos, DWORD nBytes) { ASSERT(nBytes<=(_bufSize-dwPos)); return pSer->Write(_buffer+dwPos, nBytes); } // return buffer starting at current position inline HRESULT GetBufferAtCurrent(BYTE **ppBuff) { *ppBuff = _buffer+_position; return S_OK; } inline void GetMaxDestCtx(OUT DWORD *pdwDestCtx) { *pdwDestCtx = _dwMaxDestCtx; } inline void GetCurrDestCtx(OUT DWORD *pdwDestCtx) { *pdwDestCtx = _dwCurrentDestCtx; } inline void GetMarshalFlags(OUT DWORD *pdwMarshalFlags) { *pdwMarshalFlags = _dwMarshalFlags; } static inline DWORD GetSize() { // fixed initialization length return sizeof(SerializationHeader); } private: IStream *_pStream; IStream *_pOriginalStream; IBuffer *_pIBuff; BYTE *_buffer; DWORD _nWritten; DWORD _bufSize; DWORD _operationSize; handle_t _handle; LONG _clRefs; DWORD _direction; DWORD _position; DWORD _start; DWORD _dwMaxDestCtx; DWORD _dwCurrentDestCtx; DWORD _dwMarshalFlags; }; #endif //__SERIAL_HXX__