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265 lines
6.6 KiB
265 lines
6.6 KiB
//+-----------------------------------------------------------------------
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//
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// File: RPCIF.CXX
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//
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// Contents: RPC Interface specific functions
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//
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//
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// History: 23 Feb 92 RichardW Created
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//
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// BUG 453652: Socket errors are tranlated to STATUS_OBJECT_NAME_NOT_FOUND
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//
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//------------------------------------------------------------------------
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#include "kdcsvr.hxx"
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#include "rpcif.h"
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extern "C" {
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#include <kdcdbg.h>
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}
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#define MAX_EXPR_LEN 50
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////////////////////////////////////////////////////////////////////
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//
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// Name: RET_IF_ERROR
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//
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// Synopsis: Evaluates an expression, returns from the caller if error.
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//
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// Arguments: l - Error level to print error message at.
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// e - expression to evaluate
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//
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// NOTE: THIS MACRO WILL RETURN FROM THE CALLING FUNCTION ON ERROR!!!!
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//
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// This will execute the expression (e), and check the return code. If the
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// return code indicates a failure, it prints an error message and returns
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// from the calling function.
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//
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#define RET_IF_ERROR(l,e) \
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{ ULONG X_hr_XX__=(e) ; \
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if (X_hr_XX__ != ERROR_SUCCESS) { \
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DebugLog(( (l), (sizeof( #e ) > MAX_EXPR_LEN)? \
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"%s(%d):\n\t %.*s ... == %d\n" \
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: \
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"%s(%d):\n\t %.*s == %d\n" \
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, __FILE__, __LINE__, MAX_EXPR_LEN, #e, X_hr_XX__ )); \
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return(I_RpcMapWin32Status(X_hr_XX__)); \
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} \
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}
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////////////////////////////////////////////////////////////////////
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//
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// Name: WARN_IF_ERROR
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//
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// Synopsis: Evaluates an expression, prints warning if error.
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//
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// Arguments: l - Error level to print warning at.
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// e - expression to evaluate
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//
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// Notes: This calls DebugLog(()) to print. In retail, it just
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// evaluates the expression.
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//
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#if DBG
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#define WARN_IF_ERROR(l,e) \
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{ ULONG X_hr_XX__=(e) ; \
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if (X_hr_XX__ != ERROR_SUCCESS) { \
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DebugLog(( (l), (sizeof( #e ) > MAX_EXPR_LEN)? \
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"%s(%d):\n\t %.*s ... == %d\n" \
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: \
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"%s(%d):\n\t %.*s == %d\n" \
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, __FILE__, __LINE__, MAX_EXPR_LEN, #e, X_hr_XX__ )); \
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} \
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}
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#else
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#define WARN_IF_ERROR(l,e) (e)
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#endif
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//+-------------------------------------------------------------------------
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//
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// Function: StartAllProtSeqs
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//
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// Synopsis: Checks which protocols are running and then starts those
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// protocols for the three KDC interfaces: kdc, locator, privilege
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// server. It will, if USE_SECURE_RPC is defined, establish
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// credentials for the KDC.. Does not register interfaces.
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//
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// Effects:
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//
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// Arguments:
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//
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// Requires:
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//
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// Returns:
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//
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// Notes:
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//
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//
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//--------------------------------------------------------------------------
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HRESULT
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StartAllProtSeqs()
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{
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TRACE(KDC, StartAllProtSeqs, DEB_FUNCTION);
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// Use all but ncacn_np. We'd like not to use LRPC as well, but
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// first spmgr and the security packages would have to be
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// changed. So, we live with it.
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DWORD dwErr;
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dwErr = RpcServerUseProtseq(L"ncalrpc",
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MAX_CONCURRENT_CALLS,
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0);
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if(dwErr)
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{
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DebugLog((DEB_ERROR, "UseProtseq failed %ws %d\n",
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L"ncalrpc", dwErr));
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}
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dwErr = RpcServerUseProtseq(L"ncacn_ip_tcp",
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MAX_CONCURRENT_CALLS,
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0);
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if(dwErr)
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{
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DebugLog((DEB_ERROR, "UseProtseq failed %ws %d\n",
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L"ncalrpc", dwErr));
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}
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return(STATUS_SUCCESS);
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}
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//+-------------------------------------------------------------------------
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//
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// Function: RegsiterKdcEps
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//
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// Synopsis: Registers Eps for the KDC and locator interfaces
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//
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// Effects:
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//
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// Arguments:
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//
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// Requires:
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//
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// Returns:
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//
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// Notes:
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//
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//
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//--------------------------------------------------------------------------
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HRESULT
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RegisterKdcEps()
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{
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TRACE(KDC, RegisterKdcEps, DEB_FUNCTION);
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RPC_BINDING_VECTOR * ppvVector;
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RET_IF_ERROR(DEB_ERROR, RpcServerInqBindings(&ppvVector));
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RET_IF_ERROR(DEB_ERROR, RpcEpRegister(KdcDebug_ServerIfHandle, ppvVector, 0, L"")) ;
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RET_IF_ERROR(DEB_ERROR, RpcServerRegisterIf(KdcDebug_ServerIfHandle, 0, 0)) ;
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RpcBindingVectorFree(&ppvVector);
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return(STATUS_SUCCESS);
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}
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//+-------------------------------------------------------------------------
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//
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// Function: UnRegsiterKdcEps
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//
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// Synopsis: UnRegisters Eps for the KDC and locator interfaces
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//
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// Effects:
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//
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// Arguments:
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//
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// Requires:
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//
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// Returns:
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//
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// Notes:
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//
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//
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//--------------------------------------------------------------------------
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HRESULT
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UnRegisterKdcEps()
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{
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TRACE(KDC, RegisterKdcEps, DEB_FUNCTION);
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RPC_BINDING_VECTOR * ppvVector;
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RET_IF_ERROR(DEB_ERROR, RpcServerInqBindings(&ppvVector));
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WARN_IF_ERROR(DEB_ERROR, RpcServerUnregisterIf(KdcDebug_ServerIfHandle, 0, 0)) ;
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RpcBindingVectorFree(&ppvVector);
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return(STATUS_SUCCESS);
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}
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void *
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MIDL_user_allocate(size_t size)
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{
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// TRACE(KDC, MIDL_user_allocate, DEB_FUNCTION);
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PVOID pvMem;
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//
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// The ASN.1 marshalling code may allocate odd sizes that can't be
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// encrypted with a block cipher. By rounding up the size to 8 we can
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// handle block sizes up to 8 bytes.
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//
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pvMem = RtlAllocateHeap(
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RtlProcessHeap(),
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0,
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ROUND_UP_COUNT(size,8)
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);
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if ( pvMem == NULL )
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{
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DebugLog((DEB_ERROR, "MIDL allocate failed\n"));
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}
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else
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{
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RtlZeroMemory(pvMem, ROUND_UP_COUNT(size,8));
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}
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return(pvMem);
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}
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void
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MIDL_user_free(void * ptr)
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{
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// TRACE(KDC, MIDL_user_free, DEB_FUNCTION);
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RtlFreeHeap(RtlProcessHeap(),0, ptr);
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}
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extern "C"
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void
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KdcFreeMemory(void * ptr)
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{
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KdcFreeEncodedData(ptr);
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}
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