/* * HGLOBAL Stream implementation * * This file contains the implementation of the stream interface * for streams contained suported by an HGLOBAL pointer. * * Copyright 1999 Francis Beaudet */ #include #include #include #include #include "winbase.h" #include "winerror.h" #include "debug.h" #include "objbase.h" DEFAULT_DEBUG_CHANNEL(ole) /**************************************************************************** * HGLOBALStreamImpl definition. * * This class imlements the IStream inteface and represents a stream * supported by an HGLOBAL pointer. */ struct HGLOBALStreamImpl { ICOM_VTABLE(IStream) *lpvtbl; /* Needs to be the first item in the stuct * since we want to cast this in a IStream pointer */ /* * Reference count */ ULONG ref; /* * Support for the stream */ HGLOBAL supportHandle; /* * This flag is TRUE if the HGLOBAL is destroyed when the stream * is finally released. */ BOOL deleteOnRelease; /* * Helper variable that contains the size of the stream */ ULARGE_INTEGER streamSize; /* * This is the current position of the cursor in the stream */ ULARGE_INTEGER currentPosition; }; typedef struct HGLOBALStreamImpl HGLOBALStreamImpl; /* * Method definition for the StgStreamImpl class. */ HGLOBALStreamImpl* HGLOBALStreamImpl_Construct( HGLOBAL hGlobal, BOOL fDeleteOnRelease); void HGLOBALStreamImpl_Destroy( HGLOBALStreamImpl* This); void HGLOBALStreamImpl_OpenBlockChain( HGLOBALStreamImpl* This); HRESULT WINAPI HGLOBALStreamImpl_QueryInterface( IStream* iface, REFIID riid, /* [in] */ void** ppvObject); /* [iid_is][out] */ ULONG WINAPI HGLOBALStreamImpl_AddRef( IStream* iface); ULONG WINAPI HGLOBALStreamImpl_Release( IStream* iface); HRESULT WINAPI HGLOBALStreamImpl_Read( IStream* iface, void* pv, /* [length_is][size_is][out] */ ULONG cb, /* [in] */ ULONG* pcbRead); /* [out] */ HRESULT WINAPI HGLOBALStreamImpl_Write( IStream* iface, const void* pv, /* [size_is][in] */ ULONG cb, /* [in] */ ULONG* pcbWritten); /* [out] */ HRESULT WINAPI HGLOBALStreamImpl_Seek( IStream* iface, LARGE_INTEGER dlibMove, /* [in] */ DWORD dwOrigin, /* [in] */ ULARGE_INTEGER* plibNewPosition); /* [out] */ HRESULT WINAPI HGLOBALStreamImpl_SetSize( IStream* iface, ULARGE_INTEGER libNewSize); /* [in] */ HRESULT WINAPI HGLOBALStreamImpl_CopyTo( IStream* iface, IStream* pstm, /* [unique][in] */ ULARGE_INTEGER cb, /* [in] */ ULARGE_INTEGER* pcbRead, /* [out] */ ULARGE_INTEGER* pcbWritten); /* [out] */ HRESULT WINAPI HGLOBALStreamImpl_Commit( IStream* iface, DWORD grfCommitFlags); /* [in] */ HRESULT WINAPI HGLOBALStreamImpl_Revert( IStream* iface); HRESULT WINAPI HGLOBALStreamImpl_LockRegion( IStream* iface, ULARGE_INTEGER libOffset, /* [in] */ ULARGE_INTEGER cb, /* [in] */ DWORD dwLockType); /* [in] */ HRESULT WINAPI HGLOBALStreamImpl_UnlockRegion( IStream* iface, ULARGE_INTEGER libOffset, /* [in] */ ULARGE_INTEGER cb, /* [in] */ DWORD dwLockType); /* [in] */ HRESULT WINAPI HGLOBALStreamImpl_Stat( IStream* iface, STATSTG* pstatstg, /* [out] */ DWORD grfStatFlag); /* [in] */ HRESULT WINAPI HGLOBALStreamImpl_Clone( IStream* iface, IStream** ppstm); /* [out] */ /* * Virtual function table for the HGLOBALStreamImpl class. */ static ICOM_VTABLE(IStream) HGLOBALStreamImpl_Vtbl = { HGLOBALStreamImpl_QueryInterface, HGLOBALStreamImpl_AddRef, HGLOBALStreamImpl_Release, HGLOBALStreamImpl_Read, HGLOBALStreamImpl_Write, HGLOBALStreamImpl_Seek, HGLOBALStreamImpl_SetSize, HGLOBALStreamImpl_CopyTo, HGLOBALStreamImpl_Commit, HGLOBALStreamImpl_Revert, HGLOBALStreamImpl_LockRegion, HGLOBALStreamImpl_UnlockRegion, HGLOBALStreamImpl_Stat, HGLOBALStreamImpl_Clone }; /*********************************************************************** * CreateStreamOnHGlobal [OLE32.61] */ HRESULT WINAPI CreateStreamOnHGlobal( HGLOBAL hGlobal, BOOL fDeleteOnRelease, LPSTREAM* ppstm) { HGLOBALStreamImpl* newStream; newStream = HGLOBALStreamImpl_Construct(hGlobal, fDeleteOnRelease); if (newStream!=NULL) { return IUnknown_QueryInterface((IUnknown*)newStream, &IID_IStream, (void**)ppstm); } return E_OUTOFMEMORY; } /****************************************************************************** ** HGLOBALStreamImpl implementation */ /*** * This is the constructor for the HGLOBALStreamImpl class. * * Params: * hGlobal - Handle that will support the stream. can be NULL. * fDeleteOnRelease - Flag set to TRUE if the HGLOBAL will be released * when the IStream object is destroyed. */ HGLOBALStreamImpl* HGLOBALStreamImpl_Construct( HGLOBAL hGlobal, BOOL fDeleteOnRelease) { HGLOBALStreamImpl* newStream; newStream = HeapAlloc(GetProcessHeap(), 0, sizeof(HGLOBALStreamImpl)); if (newStream!=0) { /* * Set-up the virtual function table and reference count. */ newStream->lpvtbl = &HGLOBALStreamImpl_Vtbl; newStream->ref = 0; /* * Initialize the support. */ newStream->supportHandle = hGlobal; newStream->deleteOnRelease = fDeleteOnRelease; /* * This method will allocate a handle if one is not supplied. */ if (newStream->supportHandle == NULL) { newStream->supportHandle = GlobalAlloc(GMEM_MOVEABLE | GMEM_NODISCARD, 0); } /* * Start the stream at the begining. */ newStream->currentPosition.HighPart = 0; newStream->currentPosition.LowPart = 0; /* * Initialize the size of the stream to the size of the handle. */ newStream->streamSize.HighPart = 0; newStream->streamSize.LowPart = GlobalSize(newStream->supportHandle); } return newStream; } /*** * This is the destructor of the HGLOBALStreamImpl class. * * This method will clean-up all the resources used-up by the given HGLOBALStreamImpl * class. The pointer passed-in to this function will be freed and will not * be valid anymore. */ void HGLOBALStreamImpl_Destroy(HGLOBALStreamImpl* This) { /* * Release the HGlobal if the constructor asked for that. */ if (This->deleteOnRelease) { GlobalFree(This->supportHandle); This->supportHandle=0; } /* * Finally, free the memory used-up by the class. */ HeapFree(GetProcessHeap(), 0, This); } /*** * This implements the IUnknown method QueryInterface for this * class */ HRESULT WINAPI HGLOBALStreamImpl_QueryInterface( IStream* iface, REFIID riid, /* [in] */ void** ppvObject) /* [iid_is][out] */ { HGLOBALStreamImpl* const This=(HGLOBALStreamImpl*)iface; /* * Perform a sanity check on the parameters. */ if (ppvObject==0) return E_INVALIDARG; /* * Initialize the return parameter. */ *ppvObject = 0; /* * Compare the riid with the interface IDs implemented by this object. */ if (memcmp(&IID_IUnknown, riid, sizeof(IID_IUnknown)) == 0) { *ppvObject = (IStream*)This; } else if (memcmp(&IID_IStream, riid, sizeof(IID_IStream)) == 0) { *ppvObject = (IStream*)This; } /* * Check that we obtained an interface. */ if ((*ppvObject)==0) return E_NOINTERFACE; /* * Query Interface always increases the reference count by one when it is * successful */ HGLOBALStreamImpl_AddRef(iface); return S_OK;; } /*** * This implements the IUnknown method AddRef for this * class */ ULONG WINAPI HGLOBALStreamImpl_AddRef( IStream* iface) { HGLOBALStreamImpl* const This=(HGLOBALStreamImpl*)iface; This->ref++; return This->ref; } /*** * This implements the IUnknown method Release for this * class */ ULONG WINAPI HGLOBALStreamImpl_Release( IStream* iface) { HGLOBALStreamImpl* const This=(HGLOBALStreamImpl*)iface; ULONG newRef; This->ref--; newRef = This->ref; /* * If the reference count goes down to 0, perform suicide. */ if (newRef==0) { HGLOBALStreamImpl_Destroy(This); } return newRef; } /*** * This method is part of the ISequentialStream interface. * * If reads a block of information from the stream at the current * position. It then moves the current position at the end of the * read block * * See the documentation of ISequentialStream for more info. */ HRESULT WINAPI HGLOBALStreamImpl_Read( IStream* iface, void* pv, /* [length_is][size_is][out] */ ULONG cb, /* [in] */ ULONG* pcbRead) /* [out] */ { HGLOBALStreamImpl* const This=(HGLOBALStreamImpl*)iface; void* supportBuffer; ULONG bytesReadBuffer; ULONG bytesToReadFromBuffer; /* * If the caller is not interested in the nubmer of bytes read, * we use another buffer to avoid "if" statements in the code. */ if (pcbRead==0) pcbRead = &bytesReadBuffer; /* * Using the known size of the stream, calculate the number of bytes * to read from the block chain */ bytesToReadFromBuffer = MIN( This->streamSize.LowPart - This->currentPosition.LowPart, cb); /* * Lock the buffer in position and copy the data. */ supportBuffer = GlobalLock(This->supportHandle); memcpy(pv, supportBuffer+This->currentPosition.LowPart, bytesToReadFromBuffer); /* * Move the current position to the new position */ This->currentPosition.LowPart+=bytesToReadFromBuffer; /* * Return the number of bytes read. */ *pcbRead = bytesToReadFromBuffer; /* * Cleanup */ GlobalUnlock(This->supportHandle); /* * The function returns S_OK if the buffer was filled completely * it returns S_FALSE if the end of the stream is reached before the * buffer is filled */ if(*pcbRead == cb) return S_OK; return S_FALSE; } /*** * This method is part of the ISequentialStream interface. * * It writes a block of information to the stream at the current * position. It then moves the current position at the end of the * written block. If the stream is too small to fit the block, * the stream is grown to fit. * * See the documentation of ISequentialStream for more info. */ HRESULT WINAPI HGLOBALStreamImpl_Write( IStream* iface, const void* pv, /* [size_is][in] */ ULONG cb, /* [in] */ ULONG* pcbWritten) /* [out] */ { HGLOBALStreamImpl* const This=(HGLOBALStreamImpl*)iface; void* supportBuffer; ULARGE_INTEGER newSize; ULONG bytesWritten = 0; /* * If the caller is not interested in the number of bytes written, * we use another buffer to avoid "if" statements in the code. */ if (pcbWritten == 0) pcbWritten = &bytesWritten; if (cb == 0) { return S_OK; } else { newSize.HighPart = 0; newSize.LowPart = This->currentPosition.LowPart + cb; } /* * Verify if we need to grow the stream */ if (newSize.LowPart > This->streamSize.LowPart) { /* grow stream */ HGLOBALStreamImpl_SetSize(iface, newSize); } /* * Lock the buffer in position and copy the data. */ supportBuffer = GlobalLock(This->supportHandle); memcpy(supportBuffer+This->currentPosition.LowPart, pv, cb); /* * Move the current position to the new position */ This->currentPosition.LowPart+=cb; /* * Return the number of bytes read. */ *pcbWritten = cb; /* * Cleanup */ GlobalUnlock(This->supportHandle); return S_OK; } /*** * This method is part of the IStream interface. * * It will move the current stream pointer according to the parameters * given. * * See the documentation of IStream for more info. */ HRESULT WINAPI HGLOBALStreamImpl_Seek( IStream* iface, LARGE_INTEGER dlibMove, /* [in] */ DWORD dwOrigin, /* [in] */ ULARGE_INTEGER* plibNewPosition) /* [out] */ { HGLOBALStreamImpl* const This=(HGLOBALStreamImpl*)iface; ULARGE_INTEGER newPosition; /* * The caller is allowed to pass in NULL as the new position return value. * If it happens, we assign it to a dynamic variable to avoid special cases * in the code below. */ if (plibNewPosition == 0) { plibNewPosition = &newPosition; } /* * The file pointer is moved depending on the given "function" * parameter. */ switch (dwOrigin) { case STREAM_SEEK_SET: plibNewPosition->HighPart = 0; plibNewPosition->LowPart = 0; break; case STREAM_SEEK_CUR: *plibNewPosition = This->currentPosition; break; case STREAM_SEEK_END: *plibNewPosition = This->streamSize; break; default: return STG_E_INVALIDFUNCTION; } /* * We don't support files with offsets of 64 bits. */ assert(dlibMove.HighPart == 0); /* * Check if we end-up before the beginning of the file. That should trigger an * error. */ if ( (dlibMove.LowPart<0) && (plibNewPosition->LowPart < (ULONG)(-dlibMove.LowPart)) ) { /* * I don't know what error to send there. */ return E_FAIL; } /* * Move the actual file pointer * If the file pointer ends-up after the end of the stream, the next Write operation will * make the file larger. This is how it is documented. */ plibNewPosition->LowPart += dlibMove.LowPart; This->currentPosition = *plibNewPosition; return S_OK; } /*** * This method is part of the IStream interface. * * It will change the size of a stream. * * TODO: Switch from small blocks to big blocks and vice versa. * * See the documentation of IStream for more info. */ HRESULT WINAPI HGLOBALStreamImpl_SetSize( IStream* iface, ULARGE_INTEGER libNewSize) /* [in] */ { HGLOBALStreamImpl* const This=(HGLOBALStreamImpl*)iface; /* * As documented. */ if (libNewSize.HighPart != 0) return STG_E_INVALIDFUNCTION; if (This->streamSize.LowPart == libNewSize.LowPart) return S_OK; /* * Re allocate the HGlobal to fit the new size of the stream. */ This->supportHandle = GlobalReAlloc(This->supportHandle, libNewSize.LowPart, 0); This->streamSize.LowPart = libNewSize.LowPart; return S_OK; } /*** * This method is part of the IStream interface. * * It will copy the 'cb' Bytes to 'pstm' IStream. * * See the documentation of IStream for more info. */ HRESULT WINAPI HGLOBALStreamImpl_CopyTo( IStream* iface, IStream* pstm, /* [unique][in] */ ULARGE_INTEGER cb, /* [in] */ ULARGE_INTEGER* pcbRead, /* [out] */ ULARGE_INTEGER* pcbWritten) /* [out] */ { HRESULT hr = S_OK; BYTE tmpBuffer[128]; ULONG bytesRead, bytesWritten, copySize; ULARGE_INTEGER totalBytesRead; ULARGE_INTEGER totalBytesWritten; /* * Sanity check */ if ( pstm == 0 ) return STG_E_INVALIDPOINTER; totalBytesRead.LowPart = totalBytesRead.HighPart = 0; totalBytesWritten.LowPart = totalBytesWritten.HighPart = 0; /* * use stack to store data temporarly * there is surely more performant way of doing it, for now this basic * implementation will do the job */ while ( cb.LowPart > 0 ) { if ( cb.LowPart >= 128 ) copySize = 128; else copySize = cb.LowPart; HGLOBALStreamImpl_Read(iface, tmpBuffer, 128, &bytesRead); totalBytesRead.LowPart += bytesRead; HGLOBALStreamImpl_Write(pstm, tmpBuffer, bytesRead, &bytesWritten); totalBytesWritten.LowPart += bytesWritten; /* * Check that read & write operations were succesfull */ if ( (bytesRead != copySize) && (bytesWritten != copySize) ) { hr = STG_E_MEDIUMFULL; break; } cb.LowPart = cb.LowPart - copySize; } /* * Update number of bytes read and written */ if (pcbRead) { pcbRead->LowPart = totalBytesRead.LowPart; pcbRead->HighPart = totalBytesRead.HighPart; } if (pcbWritten) { pcbWritten->LowPart = totalBytesWritten.LowPart; pcbWritten->HighPart = totalBytesWritten.HighPart; } return hr; } /*** * This method is part of the IStream interface. * * For streams supported by HGLOBALS, this function does nothing. * This is what the documentation tells us. * * See the documentation of IStream for more info. */ HRESULT WINAPI HGLOBALStreamImpl_Commit( IStream* iface, DWORD grfCommitFlags) /* [in] */ { return S_OK; } /*** * This method is part of the IStream interface. * * For streams supported by HGLOBALS, this function does nothing. * This is what the documentation tells us. * * See the documentation of IStream for more info. */ HRESULT WINAPI HGLOBALStreamImpl_Revert( IStream* iface) { return S_OK; } /*** * This method is part of the IStream interface. * * For streams supported by HGLOBALS, this function does nothing. * This is what the documentation tells us. * * See the documentation of IStream for more info. */ HRESULT WINAPI HGLOBALStreamImpl_LockRegion( IStream* iface, ULARGE_INTEGER libOffset, /* [in] */ ULARGE_INTEGER cb, /* [in] */ DWORD dwLockType) /* [in] */ { return S_OK; } /* * This method is part of the IStream interface. * * For streams supported by HGLOBALS, this function does nothing. * This is what the documentation tells us. * * See the documentation of IStream for more info. */ HRESULT WINAPI HGLOBALStreamImpl_UnlockRegion( IStream* iface, ULARGE_INTEGER libOffset, /* [in] */ ULARGE_INTEGER cb, /* [in] */ DWORD dwLockType) /* [in] */ { return S_OK; } /*** * This method is part of the IStream interface. * * This method returns information about the current * stream. * * See the documentation of IStream for more info. */ HRESULT WINAPI HGLOBALStreamImpl_Stat( IStream* iface, STATSTG* pstatstg, /* [out] */ DWORD grfStatFlag) /* [in] */ { HGLOBALStreamImpl* const This=(HGLOBALStreamImpl*)iface; memset(pstatstg, 0, sizeof(STATSTG)); pstatstg->pwcsName = NULL; pstatstg->type = STGTY_STREAM; pstatstg->cbSize = This->streamSize; return S_OK; } HRESULT WINAPI HGLOBALStreamImpl_Clone( IStream* iface, IStream** ppstm) /* [out] */ { FIXME(ole, "not implemented!\n"); return E_NOTIMPL; }