windows-nt/Source/XPSP1/NT/com/ole32/olethunk/ole16/compobj/cpkt.cxx

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//+-------------------------------------------------------------------------
//
// Microsoft Windows
// Copyright (C) Microsoft Corporation, 1992 - 1993.
//
// File: CPKT.CXX
//
// Contents: CPkt implementation for RPC/LRPC
//
// Functions:
//
// History: 30-Mar-94 BobDay Adapted from 16-bit OLE2.0, CPKT.CPP
//
//--------------------------------------------------------------------------
#include <headers.cxx>
#pragma hdrstop
#include <ole2ver.h>
#include <ole2sp.h>
#include "rpc16.hxx"
#include "comlocal.hxx"
//
// Standard IUnknown method. Not used but need to be supported to comply
// with the IUnknown.
//
STDMETHODIMP CPkt::QueryInterface(
REFIID iidInterface,
void FAR* FAR* ppvObj )
{
HRESULT hresult;
// Three interfaces supported (each, and extension of the previous):
// IUnknown, IStream, ICPkt
if ( (iidInterface == IID_CPkt ||
iidInterface == IID_IStream ||
iidInterface == IID_IUnknown )) {
m_refs++; // A pointer to this object is returned
*ppvObj = this;
hresult = NOERROR;
}
else { // Not accessible or unsupported interface
*ppvObj = NULL;
hresult = ResultFromScode(E_NOINTERFACE);
}
return hresult;
}
//
// Called when CPkt is referenced by an additional pointer.
//
STDMETHODIMP_(ULONG) CPkt::AddRef(void)
{
return ++m_refs;
}
//
// Called when a pointer to this CPkt is discarded
//
STDMETHODIMP_(ULONG) CPkt::Release(void)
{
if (--m_refs != 0) // Still used by others
return m_refs;
if (m_rom16.Buffer != NULL)
{
TaskFree(m_rom16.Buffer);
}
delete this; // Free storage
return 0;
}
STDMETHODIMP CPkt::Read(void HUGEP* pb, ULONG cb, ULONG FAR* pcbRead)
{
HRESULT hresult = NOERROR;
ULONG cbRead = cb;
if (pcbRead != NULL)
{
*pcbRead = 0;
}
if (cbRead + m_pos > m_rom16.cbBuffer) {
if (m_pos < m_rom16.cbBuffer)
{
cbRead = m_rom16.cbBuffer - m_pos;
}
else
{
cbRead = 0;
}
hresult = ResultFromScode(E_UNSPEC); // PKT (tried to read passed EOS)
}
if ( cbRead != 0 )
{
hmemcpy(pb,(LPSTR)m_rom16.Buffer + m_pos, cbRead);
m_pos += cbRead;
}
if (pcbRead != NULL)
{
*pcbRead = cbRead;
}
return hresult;
}
STDMETHODIMP CPkt::Write(void const HUGEP* pb, ULONG cb, ULONG FAR* pcbWritten)
{
HRESULT hresult = NOERROR;
ULONG cbWritten = cb;
if (pcbWritten != NULL)
{
*pcbWritten = 0;
}
if (cbWritten + m_pos > m_rom16.cbBuffer)
{
ULARGE_INTEGER ularge_integer;
ULISet32(ularge_integer,m_pos+cbWritten);
hresult = SetSize(ularge_integer);
if (hresult != NOERROR)
{
return hresult;
}
}
if ( cbWritten != 0 )
{
hmemcpy((LPSTR)m_rom16.Buffer + m_pos,pb, cbWritten);
m_pos += cbWritten;
}
if (pcbWritten != NULL)
{
*pcbWritten = cbWritten;
}
return hresult;
}
STDMETHODIMP CPkt::Seek(LARGE_INTEGER dlibMoveIn, DWORD dwOrigin, ULARGE_INTEGER FAR* plibNewPosition)
{
HRESULT hresult = NOERROR;
LONG dlibMove = dlibMoveIn.LowPart;
ULONG cbNewPos = dlibMove;
if (plibNewPosition != NULL)
{
ULISet32(*plibNewPosition, m_pos);
}
switch(dwOrigin)
{
case STREAM_SEEK_SET:
if (dlibMove >= 0)
{
m_pos = dlibMove;
}
else
{
hresult = ResultFromScode(E_UNSPEC); // PKT (Invalid seek)
}
break;
case STREAM_SEEK_CUR:
if (!(dlibMove < 0 && ((ULONG) -dlibMove) > m_pos))
{
m_pos += dlibMove;
}
else
{
hresult = ResultFromScode(E_UNSPEC); // PKT (Invalid seek)
}
break;
case STREAM_SEEK_END:
if (!(dlibMove < 0 && ((ULONG) -dlibMove) > m_rom16.cbBuffer))
{
m_pos = m_rom16.cbBuffer + dlibMove;
}
else
{
hresult = ResultFromScode(E_UNSPEC); // PKT (Invalid seek)
}
break;
default:
hresult = ResultFromScode(E_UNSPEC); // PKT (Invalid seek mode)
}
if (plibNewPosition != NULL)
{
ULISet32(*plibNewPosition,m_pos);
}
return hresult;
}
//
// Note: if the cpkt data needs to be reallocate extra space
//
#define CBEXTRABYTES 128
STDMETHODIMP CPkt::SetSize(ULARGE_INTEGER cb)
{
HRESULT hresult = NOERROR;
ULONG ulNewSize;
if (m_opd.cbSize && m_opd.cbSize > cb.LowPart) {
m_rom16.cbBuffer = cb.LowPart;
goto Exit;
}
if (m_rom16.cbBuffer == cb.LowPart)
goto Exit;
ulNewSize = cb.LowPart + CBEXTRABYTES;
TaskFree(m_rom16.Buffer);
m_rom16.Buffer = TaskAlloc(ulNewSize);
if ( m_rom16.Buffer == NULL )
{
m_rom16.cbBuffer = 0;
m_opd.cbSize = 0;
hresult = ResultFromScode(S_OOM);
goto Exit;
}
m_rom16.cbBuffer = cb.LowPart;
m_opd.cbSize = ulNewSize;
Exit:
return hresult;
}
STDMETHODIMP CPkt::CopyTo(IStream FAR *pstm, ULARGE_INTEGER cb,
ULARGE_INTEGER FAR * pcbRead, ULARGE_INTEGER FAR * pcbWritten)
{
return ResultFromScode(E_NOTIMPL);
}
STDMETHODIMP CPkt::Commit(DWORD grfCommitFlags)
{
return ResultFromScode(E_NOTIMPL);
}
STDMETHODIMP CPkt::Revert(void)
{
return ResultFromScode(E_NOTIMPL);
}
STDMETHODIMP CPkt::LockRegion(ULARGE_INTEGER libOffset, ULARGE_INTEGER, DWORD dwLockType)
{
return ResultFromScode(E_NOTIMPL);
}
STDMETHODIMP CPkt::UnlockRegion(ULARGE_INTEGER libOffset, ULARGE_INTEGER cb, DWORD dwLockType)
{
return ResultFromScode(E_NOTIMPL);
}
STDMETHODIMP CPkt::Stat(STATSTG FAR *pstatstg, DWORD statflag)
{
return ResultFromScode(E_NOTIMPL);
}
STDMETHODIMP CPkt::Clone(THIS_ IStream FAR * FAR *ppstm)
{
return ResultFromScode(E_NOTIMPL);
}
//
// Create untyped CPkt. Used by other create functions (is private)
//
CPkt FAR* CPkt::Create(IUnknown FAR *pUnk, DWORD cbExt)
{
CPkt FAR* pCPkt;
pCPkt = new CPkt;
if (pCPkt == NULL)
return NULL;
pCPkt->m_rom16.Buffer = TaskAlloc( cbExt );
if ( pCPkt->m_rom16.Buffer == NULL )
{
delete pCPkt;
return NULL;
}
pCPkt->m_rom16.cbBuffer = cbExt;
pCPkt->m_opd.cbSize = cbExt;
return pCPkt;
}
//
// CPkt used to make a call
//
CPkt FAR* CPkt::CreateForCall(
IUnknown FAR *pUnk,
REFIID iid,
int iMethod,
BOOL fSend,
BOOL fAsync,
DWORD size )
{
CPkt FAR * pCPkt;
if (fAsync && fSend) {
fSend = FALSE;
//Assert(0,"Async CPkt with fSend == TRUE not implemented");
//return NULL;
}
pCPkt = CPkt::Create(pUnk, size);
if (pCPkt == NULL)
{
return NULL;
}
pCPkt->m_opd.iid = iid;
pCPkt->m_rom16.iMethod = iMethod;
pCPkt->m_rom16.rpcFlags = 0;
if ( fSend )
{
pCPkt->m_rom16.rpcFlags |= RPCFLG_INPUT_SYNCHRONOUS;
}
if ( fAsync )
{
pCPkt->m_rom16.rpcFlags |= RPCFLG_ASYNCHRONOUS;
}
return pCPkt;
}
//+---------------------------------------------------------------------------
//
// Function: SetRpcChannelBuffer, public
//
// Synopsis: Sets the RpcChannelBuffer to call when CallRpcChannelBuffer
// is called.
//
// Arguments: [prcb] - IRpcChannelBuffer interface
//
// Returns: NOERROR always
//
// History: 30-Mar-94 BobDay Created
//
//----------------------------------------------------------------------------
STDMETHODIMP CPkt::SetRpcChannelBuffer(
CRpcChannelBuffer FAR * prcb )
{
m_prcb = prcb;
return NOERROR;
}
//+---------------------------------------------------------------------------
//
// Function: CallRpcChannelBuffer, public
//
// Synopsis: Calls the RpcChannelBuffer with the parameters accumulated in
// the CPkt buffer.
//
// Arguments: none
//
// Returns: HRESULT for success/failure of call or procedure
//
// History: 30-Mar-94 BobDay Created
//
//----------------------------------------------------------------------------
STDMETHODIMP CPkt::CallRpcChannelBuffer( void )
{
HRESULT hresult;
RPCOLEMESSAGE16 rom16;
ULONG ulStatus;
//
// Allocate a buffer from the Channel
//
memset(&rom16, 0, sizeof(rom16)); // Zero out everything
rom16.cbBuffer = m_rom16.cbBuffer; // Tell it how big we want it!
rom16.rpcFlags = m_rom16.rpcFlags;
rom16.iMethod = m_rom16.iMethod;
hresult = m_prcb->GetBuffer( &rom16, m_opd.iid );
if ( FAILED(hresult) )
{
return hresult;
}
//
// For speed, we could get away without doing the copy here
// by passing the buffer to the 32-bit world in the GetBuffer
// call above.
//
hmemcpy( rom16.Buffer, m_rom16.Buffer, m_rom16.cbBuffer );
//
// Call the channel
//
ulStatus = 0;
hresult = m_prcb->SendReceive( &rom16, &ulStatus );
if ( SUCCEEDED(hresult) )
{
ULARGE_INTEGER ularge_integer;
hresult = (HRESULT)ulStatus;
//
// Copy the buffer back!
//
ULISet32(ularge_integer,rom16.cbBuffer);
SetSize( ularge_integer ); // Make it big enough!
hmemcpy( m_rom16.Buffer, rom16.Buffer, rom16.cbBuffer );
}
//
// Free up the buffer
//
m_prcb->FreeBuffer( &rom16 );
return hresult;
}