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752 lines
24 KiB
752 lines
24 KiB
/*+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
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Copyright (c) 1993-2000 Microsoft Corporation
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Module Name :
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srvcall.c
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Abstract :
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This file contains the single call Ndr64 routine for the server side.
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Author :
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David Kays dkays October 1993.
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Revision History :
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brucemc 11/15/93 Added struct by value support, corrected varargs
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use.
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brucemc 12/20/93 Binding handle support.
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brucemc 12/22/93 Reworked argument accessing method.
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ryszardk 3/12/94 Handle optimization and fixes.
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---------------------------------------------------------------------*/
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#include "precomp.hxx"
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#define CINTERFACE
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#define USE_STUBLESS_PROXY
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#include "ndrole.h"
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#include "rpcproxy.h"
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#include "hndl.h"
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#include "interp2.h"
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#include "pipendr.h"
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#include <stdarg.h>
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#pragma code_seg(".ndr64")
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long RPC_ENTRY
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Ndr64StubWorker(
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IRpcStubBuffer * pThis,
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IRpcChannelBuffer * pChannel,
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PRPC_MESSAGE pRpcMsg,
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MIDL_SERVER_INFO * pServerInfo,
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const SERVER_ROUTINE * DispatchTable,
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MIDL_SYNTAX_INFO * pSyntaxInfo,
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ulong * pdwStubPhase
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)
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/*++
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Routine Description :
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Server Interpreter entry point for object RPC procs. Also called by
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Ndr64ServerCall, the entry point for regular RPC procs.
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Arguments :
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pThis - Object proc's 'this' pointer, 0 for non-object procs.
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pChannel - Object proc's Channel Buffer, 0 for non-object procs.
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pRpcMsg - The RPC message.
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pdwStubPhase - Used to track the current interpreter's activity.
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Return :
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Status of S_OK.
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--*/
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{
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PMIDL_STUB_DESC pStubDesc;
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ushort ProcNum;
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long FormatOffset;
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PFORMAT_STRING pFormat;
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PFORMAT_STRING pFormatParam;
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ulong StackSize;
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MIDL_STUB_MESSAGE StubMsg;
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uchar * pArg;
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uchar ** ppArg;
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NDR64_PROC_FLAGS * pNdr64Flags;
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long NumberParams;
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BOOL HasExplicitHandle;
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BOOL fBadStubDataException = FALSE;
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long n;
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boolean NotifyAppInvoked = FALSE;
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long ret;
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NDR_PROC_CONTEXT ProcContext;
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NDR64_PROC_FORMAT * pHeader = NULL;
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NDR64_PARAM_FLAGS * pParamFlags;
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NDR64_BIND_AND_NOTIFY_EXTENSION * pHeaderExts = NULL;
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MIDL_STUB_MESSAGE * pStubMsg = &StubMsg;
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//
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// In the case of a context handle, the server side manager function has
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// to be called with NDRSContextValue(ctxthandle). But then we may need to
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// marshall the handle, so NDRSContextValue(ctxthandle) is put in the
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// argument buffer and the handle itself is stored in the following array.
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// When marshalling a context handle, we marshall from this array.
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//
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NDR_SCONTEXT CtxtHndl[MAX_CONTEXT_HNDL_NUMBER];
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ProcNum = (ushort) pRpcMsg->ProcNum;
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NDR_ASSERT( ! ((ULONG_PTR)pRpcMsg->Buffer & 0x7),
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"marshaling buffer misaligned at server" );
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// setup SyntaxInfo of selected transfer syntax.
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NdrServerSetupNDR64TransferSyntax( ProcNum, pSyntaxInfo, &ProcContext );
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StubMsg.pContext = &ProcContext;
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pStubDesc = pServerInfo->pStubDesc;
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pFormat = ProcContext.pProcFormat;
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pHeader = (NDR64_PROC_FORMAT *) pFormat;
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pNdr64Flags = (NDR64_PROC_FLAGS *) & (pHeader->Flags );
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HasExplicitHandle = !NDR64MAPHANDLETYPE( NDR64GETHANDLETYPE ( pNdr64Flags ) );
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StackSize = pHeader->StackSize;
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//
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// Yes, do this here outside of our RpcTryFinally block. If we
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// can't allocate the arg buffer there's nothing more to do, so
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// raise an exception and return control to the RPC runtime.
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//
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// Alloca throws an exception on an error.
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uchar *pArgBuffer = (uchar*)NdrpAlloca(&ProcContext.AllocateContext, StackSize);
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ProcContext.StartofStack = pArgBuffer;
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//
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// Zero out the arg buffer. We must do this so that parameters
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// are properly zeroed before we start unmarshalling. If we catch
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// an exception before finishing the unmarshalling we can not leave
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// parameters in an unitialized state since we have to do a freeing
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// pass.
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//
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MIDL_memset( pArgBuffer,
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0,
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StackSize );
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if ( pNdr64Flags->HasOtherExtensions )
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pHeaderExts = (NDR64_BIND_AND_NOTIFY_EXTENSION *) (pFormat + sizeof( NDR64_PROC_FORMAT ) );
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if ( HasExplicitHandle )
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{
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//
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// For a handle_t parameter we must pass the handle field of
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// the RPC message to the server manager.
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//
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NDR_ASSERT( pHeaderExts, "NULL extension header" );
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if ( pHeaderExts->Binding.HandleType == FC64_BIND_PRIMITIVE )
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{
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pArg = pArgBuffer + pHeaderExts->Binding.StackOffset;
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if ( NDR64_IS_HANDLE_PTR( pHeaderExts->Binding.Flags ) )
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pArg = *((uchar **)pArg);
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*((handle_t *)pArg) = pRpcMsg->Handle;
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}
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}
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//
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// Get new interpreter info.
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//
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NumberParams = pHeader->NumberOfParams;
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NDR64_PARAM_FORMAT* Params =
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(NDR64_PARAM_FORMAT*)ProcContext.Params;
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//
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// Wrap the unmarshalling, mgr call and marshalling in the try block of
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// a try-finally. Put the free phase in the associated finally block.
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//
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RpcTryFinally
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{
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//
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// If OLE, put pThis in first dword of stack.
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//
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if ( pThis )
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{
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*((void **)pArgBuffer) =
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(void *)((CStdStubBuffer *)pThis)->pvServerObject;
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}
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//
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// Initialize the Stub message.
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//
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if ( ! pChannel )
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{
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if ( ! pNdr64Flags->UsesPipes )
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{
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Ndr64ServerInitialize( pRpcMsg,
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&StubMsg,
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pStubDesc );
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}
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else
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Ndr64ServerInitializePartial( pRpcMsg,
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&StubMsg,
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pStubDesc,
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pHeader->ConstantClientBufferSize );
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}
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else
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{
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NDR_ASSERT( ! pNdr64Flags->UsesPipes, "DCOM pipe is not supported" );
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NdrStubInitialize( pRpcMsg,
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&StubMsg,
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pStubDesc,
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pChannel );
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}
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//
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// Set up for context handle management.
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//
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StubMsg.SavedContextHandles = CtxtHndl;
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memset( CtxtHndl, 0, sizeof(CtxtHndl) );
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pStubMsg->pCorrMemory = pArgBuffer;
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if ( pNdr64Flags->UsesFullPtrPackage )
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StubMsg.FullPtrXlatTables = NdrFullPointerXlatInit( 0, XLAT_SERVER );
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//
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// Set StackTop AFTER the initialize call, since it zeros the field
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// out.
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//
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StubMsg.StackTop = pArgBuffer;
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if ( pNdr64Flags->UsesPipes )
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NdrpPipesInitialize64( & StubMsg,
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&ProcContext.AllocateContext,
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(PFORMAT_STRING) Params,
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(char*)pArgBuffer,
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NumberParams );
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//
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// We must make this check AFTER the call to ServerInitialize,
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// since that routine puts the stub descriptor alloc/dealloc routines
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// into the stub message.
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//
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if ( pNdr64Flags->UsesRpcSmPackage )
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NdrRpcSsEnableAllocate( &StubMsg );
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RpcTryExcept
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{
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// --------------------------------
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// Unmarshall all of our parameters.
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// --------------------------------
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NDR_ASSERT( ProcContext.StartofStack == pArgBuffer, "startofstack is not set" );
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Ndr64pServerUnMarshal( &StubMsg );
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if ( pRpcMsg->BufferLength <
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(uint)(StubMsg.Buffer - (uchar *)pRpcMsg->Buffer) )
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{
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RpcRaiseException( RPC_X_BAD_STUB_DATA );
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}
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}
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RpcExcept( NdrServerUnmarshallExceptionFlag(GetExceptionInformation()) )
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{
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// Filter set in rpcndr.h to catch one of the following
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// STATUS_ACCESS_VIOLATION
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// STATUS_DATATYPE_MISALIGNMENT
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// RPC_X_BAD_STUB_DATA
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fBadStubDataException = TRUE;
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NdrpFreeMemoryList( &StubMsg );
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if ( RPC_BAD_STUB_DATA_EXCEPTION_FILTER )
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RpcRaiseException( RPC_X_BAD_STUB_DATA );
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else
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RpcRaiseException( RpcExceptionCode() );
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}
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RpcEndExcept
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//
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// Do [out] initialization.
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//
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Ndr64pServerOutInit( pStubMsg );
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//
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// Unblock the first pipe; this needs to be after unmarshalling
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// because the buffer may need to be changed to the secondary one.
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// In the out only pipes case this happens immediately.
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//
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if ( pNdr64Flags->UsesPipes )
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NdrMarkNextActivePipe( ProcContext.pPipeDesc );
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//
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// OLE interfaces use pdwStubPhase in the exception filter.
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// See CStdStubBuffer_Invoke in rpcproxy.c.
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//
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*pdwStubPhase = STUB_CALL_SERVER;
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NotifyAppInvoked = TRUE;
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//
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// Check for a thunk. Compiler does all the setup for us.
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//
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if ( pServerInfo->ThunkTable && pServerInfo->ThunkTable[ProcNum] )
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{
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pServerInfo->ThunkTable[ProcNum]( &StubMsg );
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}
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else
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{
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//
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// Note that this ArgNum is not the number of arguments declared
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// in the function we called, but really the number of
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// REGISTER_TYPEs occupied by the arguments to a function.
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//
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long ArgNum;
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MANAGER_FUNCTION pFunc;
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REGISTER_TYPE returnValue;
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if ( pRpcMsg->ManagerEpv )
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pFunc = ((MANAGER_FUNCTION *)pRpcMsg->ManagerEpv)[ProcNum];
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else
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pFunc = (MANAGER_FUNCTION) DispatchTable[ProcNum];
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ArgNum = (long) StackSize / sizeof(REGISTER_TYPE);
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//
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// The StackSize includes the size of the return. If we want
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// just the number of REGISTER_TYPES, then ArgNum must be reduced
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// by 1 when there is a return value AND the current ArgNum count
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// is greater than 0.
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//
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if ( ArgNum && pNdr64Flags->HasReturn && !pNdr64Flags->HasComplexReturn )
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ArgNum--;
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returnValue = Invoke( pFunc,
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(REGISTER_TYPE *)pArgBuffer,
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#if defined(_WIN64)
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pHeader->FloatDoubleMask,
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#endif
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ArgNum);
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if( pNdr64Flags->HasReturn && !pNdr64Flags->HasComplexReturn )
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{
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((REGISTER_TYPE *)pArgBuffer)[ArgNum] = returnValue;
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// Pass the app's return value to OLE channel
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if ( pThis )
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(*pfnDcomChannelSetHResult)( pRpcMsg,
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NULL, // reserved
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(HRESULT) returnValue );
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}
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}
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*pdwStubPhase = STUB_MARSHAL;
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if ( pNdr64Flags->UsesPipes )
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{
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NdrIsAppDoneWithPipes( ProcContext.pPipeDesc );
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StubMsg.BufferLength += pHeader->ConstantServerBufferSize;
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}
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else
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StubMsg.BufferLength = pHeader->ConstantServerBufferSize;
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if ( pNdr64Flags->ServerMustSize )
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{
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//
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// Buffer size pass.
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//
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Ndr64pSizing( pStubMsg,
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FALSE ); // IsClient
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}
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if ( pNdr64Flags->UsesPipes && ProcContext.pPipeDesc->OutPipes )
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{
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NdrGetPartialBuffer( & StubMsg );
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StubMsg.RpcMsg->RpcFlags &= ~RPC_BUFFER_PARTIAL;
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}
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else
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{
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if ( ! pChannel )
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{
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Ndr64GetBuffer( &StubMsg,
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StubMsg.BufferLength );
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}
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else
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NdrStubGetBuffer( pThis,
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pChannel,
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&StubMsg );
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}
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//
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// Marshall pass.
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//
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Ndr64pServerMarshal ( &StubMsg );
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if ( pRpcMsg->BufferLength <
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(ulong)(StubMsg.Buffer - (uchar *)pRpcMsg->Buffer) )
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{
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NDR_ASSERT( 0, "Ndr64StubWrok marshal: buffer overflow!" );
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RpcRaiseException( RPC_X_BAD_STUB_DATA );
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}
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pRpcMsg->BufferLength = (ulong) ( StubMsg.Buffer - (uchar *) pRpcMsg->Buffer );
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#if defined(DEBUG_WALKIP)
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if ( pChannel )
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{
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Ndr64pReleaseMarshalBuffer(
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StubMsg.RpcMsg,
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ProcContext.pSyntaxInfo,
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StubMsg.RpcMsg->ProcNum,
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StubMsg.StubDesc,
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1, //BUFFER_OUT
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true );
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}
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#endif
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}
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RpcFinally
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{
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// clean up context handles if exception is thrown in either marshalling or
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// manager routine.
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if ( RpcAbnormalTermination() && ! pChannel )
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{
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Ndr64pCleanupServerContextHandles( &StubMsg,
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NumberParams,
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Params,
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pArgBuffer,
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STUB_MARSHAL != *pdwStubPhase);
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}
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// If we died because of bad stub data, don't free the params here since they
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// were freed using a linked list of memory in the exception handler above.
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if ( ! fBadStubDataException )
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{
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Ndr64pFreeParams( &StubMsg,
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NumberParams,
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Params,
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pArgBuffer );
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}
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NdrpAllocaDestroy( &ProcContext.AllocateContext );
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//
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// Deferred frees. Actually, this should only be necessary if you
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// had a pointer to enum16 in a *_is expression.
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//
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//
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// Free any full pointer resources.
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//
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NdrFullPointerXlatFree( StubMsg.FullPtrXlatTables );
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//
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// Disable rpcss allocate package if needed.
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//
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if ( pNdr64Flags->UsesRpcSmPackage )
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NdrRpcSsDisableAllocate( &StubMsg );
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if ( pNdr64Flags->HasNotify )
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{
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NDR_NOTIFY_ROUTINE pfnNotify;
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// BUGBUG: tests need to be recompiled.
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pfnNotify = StubMsg.StubDesc->NotifyRoutineTable[ pHeaderExts->NotifyIndex ];
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((NDR_NOTIFY2_ROUTINE)pfnNotify)(NotifyAppInvoked);
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}
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}
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RpcEndFinally
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return S_OK;
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}
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void
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Ndr64pFreeParams(
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MIDL_STUB_MESSAGE * pStubMsg,
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long NumberParams,
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NDR64_PARAM_FORMAT * Params,
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uchar * pArgBuffer
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)
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/*++
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|
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Routine Description :
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Frees the memory associated with function parameters as required.
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Arguments :
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pStubMsg - Supplies a pointer to the stub message.
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NumberParams - Supplies the number of parameters for this procedure.
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Params - Supplies a pointer to the parameter list for this function.
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pArgBuffer - Supplies a pointer to the virtual stack.
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pParamFilter - Supplies a filter that is used to determine which functions
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are to be considered. This function should return TRUE if
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the parameter should be considered. If pParamFilter is NULL,
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the default filter is used which is all parameters that have
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MustFree set.
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Return :
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None.
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--*/
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{
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for ( long n = 0; n < NumberParams; n++ )
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{
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NDR64_PARAM_FLAGS *pParamFlags =
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( NDR64_PARAM_FLAGS * ) & ( Params[n].Attributes );
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if ( ! pParamFlags->MustFree )
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continue;
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uchar *pArg = pArgBuffer + Params[n].StackOffset;
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if ( ! pParamFlags->IsByValue )
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pArg = *((uchar **)pArg);
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if ( pArg )
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{
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pStubMsg->fDontCallFreeInst =
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pParamFlags->IsDontCallFreeInst;
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Ndr64ToplevelTypeFree( pStubMsg,
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pArg,
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Params[n].Type );
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}
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//
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// We have to check if we need to free any simple ref pointer,
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// since we skipped it's Ndr64PointerFree call. We also have
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// to explicitly free arrays and strings. But make sure it's
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// non-null and not sitting in the buffer.
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//
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if ( pParamFlags->IsSimpleRef ||
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NDR64_IS_ARRAY_OR_STRING(*(PFORMAT_STRING)Params[n].Type) )
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{
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//
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// Don't free [out] params that we're allocated on the
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// interpreter's stack.
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//
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if ( pParamFlags->UseCache )
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continue;
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//
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// We have to make sure the array/string is non-null in case we
|
|
// get an exception before finishing our unmarshalling.
|
|
//
|
|
if ( pArg &&
|
|
( (pArg < pStubMsg->BufferStart) ||
|
|
(pArg > pStubMsg->BufferEnd) ) )
|
|
(*pStubMsg->pfnFree)( pArg );
|
|
}
|
|
} // for
|
|
}
|
|
|
|
|
|
|
|
void
|
|
Ndr64pCleanupServerContextHandles(
|
|
MIDL_STUB_MESSAGE * pStubMsg,
|
|
long NumberParams,
|
|
NDR64_PARAM_FORMAT* Params,
|
|
uchar * pArgBuffer,
|
|
BOOL fManagerRoutineException
|
|
)
|
|
/*++
|
|
|
|
Routine Description :
|
|
|
|
Cleans up context handles that might have been dropped by the NDR engine between
|
|
the return from the manager routine and the end of marshaling.
|
|
|
|
Arguments :
|
|
|
|
pStubMsg - Supplies a pointer to the stub message.
|
|
NumberParams - Supplies the number of parameters for this procedure.
|
|
Params - Supplies a pointer to the parameter list for this function.
|
|
pArgBuffer - Supplies a pointer to the virtual stack.
|
|
|
|
Return :
|
|
|
|
None.
|
|
|
|
--*/
|
|
{
|
|
for ( long n = 0; n < NumberParams; n++ )
|
|
{
|
|
NDR64_PARAM_FLAGS *pParamFlags =
|
|
(NDR64_PARAM_FLAGS *) &( Params[n].Attributes );
|
|
|
|
if ( ! pParamFlags->IsOut || pParamFlags->IsPipe )
|
|
continue;
|
|
|
|
uchar *pArg = pArgBuffer + Params[n].StackOffset;
|
|
|
|
if ( ! pParamFlags->IsByValue )
|
|
pArg = *((uchar * UNALIGNED *)pArg);
|
|
|
|
NDR64_FORMAT_CHAR FcType = *(PFORMAT_STRING)Params[n].Type;
|
|
|
|
if ( FcType == FC64_BIND_CONTEXT )
|
|
{
|
|
// NDR64_CONTEXT_HANDLE_FORMAT is the same as PNDR_CONTEXT_HANDLE_ARG_DESC.
|
|
|
|
NdrpEmergencyContextCleanup( pStubMsg,
|
|
(PNDR_CONTEXT_HANDLE_ARG_DESC ) Params[n].Type,
|
|
pArg,
|
|
fManagerRoutineException );
|
|
}
|
|
|
|
} // for
|
|
}
|
|
|
|
|
|
|
|
void RPC_ENTRY
|
|
Ndr64pServerUnMarshal ( MIDL_STUB_MESSAGE * pStubMsg )
|
|
{
|
|
NDR_PROC_CONTEXT * pContext = ( NDR_PROC_CONTEXT * )pStubMsg->pContext;
|
|
|
|
// if ( (ULONG_PTR)pStubMsg->Buffer & 15 )
|
|
// RpcRaiseException( RPC_X_INVALID_BUFFER );
|
|
|
|
NDR64_PARAM_FORMAT *Params = (NDR64_PARAM_FORMAT *)pContext->Params;
|
|
|
|
CORRELATION_CONTEXT CorrCtxt( pStubMsg, pContext->StartofStack );
|
|
|
|
//
|
|
// ----------------------------------------------------------
|
|
// Unmarshall Pass.
|
|
// ----------------------------------------------------------
|
|
//
|
|
|
|
for ( ulong n = 0; n < pContext->NumberParams; n++ )
|
|
{
|
|
NDR64_PARAM_FLAGS *pParamFlags =
|
|
( NDR64_PARAM_FLAGS * ) & ( Params[n].Attributes );
|
|
|
|
|
|
if ( ! pParamFlags->IsIn ||
|
|
pParamFlags->IsPipe )
|
|
continue;
|
|
|
|
if ( pParamFlags->IsPartialIgnore )
|
|
{
|
|
uchar *pArg = pContext->StartofStack + Params[n].StackOffset;
|
|
ALIGN( pStubMsg->Buffer, NDR64_PTR_WIRE_ALIGN );
|
|
*(void**)pArg = *(NDR64_PTR_WIRE_TYPE*)pStubMsg->Buffer ? (void*)1 : (void*)0;
|
|
pStubMsg->Buffer += sizeof(NDR64_PTR_WIRE_TYPE);
|
|
continue;
|
|
}
|
|
|
|
uchar *pArg = pContext->StartofStack + Params[n].StackOffset;
|
|
|
|
//
|
|
// This is for returned basetypes and for pointers to
|
|
// basetypes.
|
|
//
|
|
if ( pParamFlags->IsBasetype )
|
|
{
|
|
NDR64_FORMAT_CHAR type = *(PFORMAT_STRING)Params[n].Type;
|
|
|
|
//
|
|
// Check for a pointer to a basetype. Set the arg pointer
|
|
// at the correct buffer location and you're done.
|
|
// Except darn int3264.
|
|
//
|
|
if ( pParamFlags->IsSimpleRef )
|
|
{
|
|
ALIGN( pStubMsg->Buffer, NDR64_SIMPLE_TYPE_BUFALIGN( type ) );
|
|
|
|
*((uchar **)pArg) = pStubMsg->Buffer;
|
|
|
|
pStubMsg->Buffer += NDR64_SIMPLE_TYPE_BUFSIZE( type );
|
|
}
|
|
else
|
|
{
|
|
Ndr64SimpleTypeUnmarshall(
|
|
pStubMsg,
|
|
pArg,
|
|
type );
|
|
}
|
|
|
|
continue;
|
|
} // IsBasetype
|
|
|
|
//
|
|
// This is an initialization of [in] and [in,out] ref pointers
|
|
// to pointers. These can not be initialized to point into the
|
|
// rpc buffer and we want to avoid doing a malloc of 4 bytes!
|
|
// 32b: a ref pointer to any pointer, we allocate the pointee pointer.
|
|
//
|
|
if ( pParamFlags->UseCache )
|
|
{
|
|
*((void **)pArg) = NdrpAlloca( &pContext->AllocateContext, 8);
|
|
|
|
// Triple indirection - cool!
|
|
**((void ***)pArg) = 0;
|
|
}
|
|
uchar **ppArg = pParamFlags->IsByValue ? &pArg : (uchar **)pArg;
|
|
|
|
|
|
pStubMsg->ReuseBuffer = pParamFlags->IsForceAllocate;
|
|
|
|
Ndr64TopLevelTypeUnmarshall(pStubMsg,
|
|
ppArg,
|
|
Params[n].Type,
|
|
pParamFlags->IsForceAllocate &&
|
|
!pParamFlags->IsByValue );
|
|
|
|
// force allocate is param attr: reset the flag after each parameter.
|
|
pStubMsg->ReuseBuffer = FALSE;
|
|
|
|
}
|
|
|
|
if ( pStubMsg->pCorrInfo )
|
|
Ndr64CorrelationPass( pStubMsg );
|
|
|
|
if (CheckVerificationTrailer(pStubMsg->Buffer, pStubMsg->BufferEnd, pStubMsg->RpcMsg) == FALSE)
|
|
RpcRaiseException( RPC_S_ACCESS_DENIED );
|
|
|
|
}
|
|
|
|
|
|
#pragma code_seg()
|
|
|