Leaked source code of windows server 2003
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/*+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
Copyright (c) 2000 Microsoft Corporation
Module Name :
expr.cxx
Abstract :
This file contains the ndr expression evaluation and correlation
check routines.
Author :
Yong Qu (yongqu) Jan 2000
Mike Zoran (mzoran) Jan 2000
Revision History :
---------------------------------------------------------------------*/
#include "precomp.hxx"
#include "..\..\ndr20\ndrole.h"
#include "asyncu.h"
extern "C" {
extern const GUID CLSID_RpcHelper;
}
typedef void ( * PFNNDR64CHECKCORRELATION )(
PMIDL_STUB_MESSAGE pStubMsg,
EXPR_VALUE Value,
PNDR64_FORMAT pFormat,
NDR64_EXPRESSION_TYPE ExpressionType );
static const PFNNDR64CHECKCORRELATION pfnCorrCheck[] =
{
Ndr64pLateCheckCorrelation,
Ndr64pEarlyCheckCorrelation,
Ndr64pNoCheckCorrelation,
Ndr64pNoCheckCorrelation
};
EXPR_VALUE
Ndr64pExprGetVar( PMIDL_STUB_MESSAGE pStubMsg,
PNDR64_FORMAT pFormat,
PNDR64_FORMAT * pNext )
{
NDR64_EXPR_VAR * pExpr = (NDR64_EXPR_VAR *)pFormat;
NDR_ASSERT( pExpr->ExprType == FC_EXPR_VAR, "must be a variable!");
uchar *pCount = pStubMsg->pCorrMemory + (long)pExpr->Offset;
EXPR_VALUE Value =
Ndr64pSimpleTypeToExprValue( pExpr->VarType,
pCount );
*pNext =
(PNDR64_FORMAT)((PFORMAT_STRING)pFormat + sizeof( NDR64_EXPR_VAR ));
return Value;
}
EXPR_VALUE EvaluateExpr( PMIDL_STUB_MESSAGE pStubMsg,
PNDR64_FORMAT pFormat,
PNDR64_FORMAT * pNext );
EXPR_VALUE
Ndr64CalculateExpr( PMIDL_STUB_MESSAGE pStubMsg,
NDR64_EXPR_OPERATOR * pExpr,
PNDR64_FORMAT *pNext )
{
EXPR_VALUE Value, LeftValue, RightValue ;
PNDR64_FORMAT pTempNext;
BOOL fRational;
switch ( pExpr->Operator )
{
case OP_UNARY_PLUS:
Value = EvaluateExpr(pStubMsg, (PFORMAT_STRING )pExpr + sizeof( NDR64_EXPR_OPERATOR ), pNext );
Value = +Value;
break;
case OP_UNARY_MINUS:
Value = EvaluateExpr(pStubMsg, (PFORMAT_STRING )pExpr + sizeof( NDR64_EXPR_OPERATOR ), pNext );
Value = -Value;
break;
case OP_UNARY_NOT:
Value = EvaluateExpr(pStubMsg, (PFORMAT_STRING )pExpr + sizeof( NDR64_EXPR_OPERATOR ), pNext );
Value = !Value;
break;
case OP_UNARY_COMPLEMENT:
Value = EvaluateExpr(pStubMsg, (PFORMAT_STRING )pExpr + sizeof( NDR64_EXPR_OPERATOR ), pNext );
Value = ~Value;
break;
case OP_UNARY_CAST:
Value = EvaluateExpr(pStubMsg, (PFORMAT_STRING )pExpr + sizeof( NDR64_EXPR_OPERATOR ), pNext );
Value = Ndr64pCastExprValueToExprValue( pExpr->CastType, Value );
break;
case OP_UNARY_AND:
Value = EvaluateExpr(pStubMsg, (PFORMAT_STRING )pExpr + sizeof( NDR64_EXPR_OPERATOR ), pNext );
Value = ~Value;
break;
case OP_UNARY_SIZEOF:
NDR_ASSERT(0 , "Ndr64CalculateExpr : OP_UNARY_SIZEOF is invalid\n");
return 0;
break;
case OP_UNARY_INDIRECTION:
Value = Ndr64pExprGetVar( pStubMsg, (PFORMAT_STRING )pExpr + sizeof( NDR64_EXPR_OPERATOR ), pNext );
Value = Ndr64pSimpleTypeToExprValue( pExpr->CastType,
(uchar*)Value );
break;
case OP_PRE_INCR:
Value = EvaluateExpr(pStubMsg, (PFORMAT_STRING )pExpr + sizeof( NDR64_EXPR_OPERATOR ), pNext );
Value = ++Value;
break;
case OP_PRE_DECR:
Value = EvaluateExpr(pStubMsg, (PFORMAT_STRING )pExpr + sizeof( NDR64_EXPR_OPERATOR ), pNext );
Value = --Value;
break;
case OP_POST_INCR:
Value = EvaluateExpr(pStubMsg, (PFORMAT_STRING )pExpr + sizeof( NDR64_EXPR_OPERATOR ), pNext );
Value = Value++;
break;
case OP_POST_DECR:
Value = EvaluateExpr(pStubMsg, (PFORMAT_STRING )pExpr + sizeof( NDR64_EXPR_OPERATOR ), pNext );
Value = Value--;
break;
case OP_PLUS:
LeftValue = EvaluateExpr(pStubMsg, (PFORMAT_STRING )pExpr + sizeof( NDR64_EXPR_OPERATOR ), &pTempNext );
RightValue = EvaluateExpr(pStubMsg, (PFORMAT_STRING )pTempNext , pNext );
Value = LeftValue + RightValue;
break;
case OP_MINUS:
LeftValue = EvaluateExpr(pStubMsg, (PFORMAT_STRING )pExpr + sizeof( NDR64_EXPR_OPERATOR ), &pTempNext );
RightValue = EvaluateExpr(pStubMsg, (PFORMAT_STRING )pTempNext , pNext );
Value = LeftValue - RightValue;
break;
case OP_STAR:
LeftValue = EvaluateExpr(pStubMsg, (PFORMAT_STRING )pExpr + sizeof( NDR64_EXPR_OPERATOR ), &pTempNext );
RightValue = EvaluateExpr(pStubMsg, (PFORMAT_STRING )pTempNext , pNext );
Value = LeftValue * RightValue;
break;
case OP_SLASH:
LeftValue = EvaluateExpr(pStubMsg, (PFORMAT_STRING )pExpr + sizeof( NDR64_EXPR_OPERATOR ), &pTempNext );
RightValue = EvaluateExpr(pStubMsg, (PFORMAT_STRING )pTempNext , pNext );
Value = (EXPR_VALUE) (LeftValue / RightValue);
break;
case OP_MOD:
LeftValue = EvaluateExpr(pStubMsg, (PFORMAT_STRING )pExpr + sizeof( NDR64_EXPR_OPERATOR ), &pTempNext );
RightValue = EvaluateExpr(pStubMsg, (PFORMAT_STRING )pTempNext , pNext );
Value = LeftValue % RightValue;
break;
case OP_LEFT_SHIFT:
LeftValue = EvaluateExpr(pStubMsg, (PFORMAT_STRING )pExpr + sizeof( NDR64_EXPR_OPERATOR ), &pTempNext );
RightValue = EvaluateExpr(pStubMsg, (PFORMAT_STRING )pTempNext , pNext );
Value = LeftValue << RightValue;
break;
case OP_RIGHT_SHIFT:
LeftValue = EvaluateExpr(pStubMsg, (PFORMAT_STRING )pExpr + sizeof( NDR64_EXPR_OPERATOR ), &pTempNext );
RightValue = EvaluateExpr(pStubMsg, (PFORMAT_STRING )pTempNext , pNext );
Value = LeftValue >> RightValue;
break;
case OP_LESS:
LeftValue = EvaluateExpr(pStubMsg, (PFORMAT_STRING )pExpr + sizeof( NDR64_EXPR_OPERATOR ), &pTempNext );
RightValue = EvaluateExpr(pStubMsg, (PFORMAT_STRING )pTempNext , pNext );
Value = LeftValue < RightValue;
break;
case OP_LESS_EQUAL:
LeftValue = EvaluateExpr(pStubMsg, (PFORMAT_STRING )pExpr + sizeof( NDR64_EXPR_OPERATOR ), &pTempNext );
RightValue = EvaluateExpr(pStubMsg, (PFORMAT_STRING )pTempNext , pNext );
Value = LeftValue <= RightValue;
break;
case OP_GREATER_EQUAL:
LeftValue = EvaluateExpr(pStubMsg, (PFORMAT_STRING )pExpr + sizeof( NDR64_EXPR_OPERATOR ), &pTempNext );
RightValue = EvaluateExpr(pStubMsg, (PFORMAT_STRING )pTempNext , pNext );
Value = LeftValue >= RightValue;
break;
case OP_GREATER:
LeftValue = EvaluateExpr(pStubMsg, (PFORMAT_STRING )pExpr + sizeof( NDR64_EXPR_OPERATOR ), &pTempNext );
RightValue = EvaluateExpr(pStubMsg, (PFORMAT_STRING )pTempNext , pNext );
Value = LeftValue > RightValue;
break;
case OP_EQUAL:
LeftValue = EvaluateExpr(pStubMsg, (PFORMAT_STRING )pExpr + sizeof( NDR64_EXPR_OPERATOR ), &pTempNext );
RightValue = EvaluateExpr(pStubMsg, (PFORMAT_STRING )pTempNext , pNext );
Value = LeftValue == RightValue;
break;
case OP_NOT_EQUAL:
LeftValue = EvaluateExpr(pStubMsg, (PFORMAT_STRING )pExpr + sizeof( NDR64_EXPR_OPERATOR ), &pTempNext );
RightValue = EvaluateExpr(pStubMsg, (PFORMAT_STRING )pTempNext , pNext );
Value = LeftValue != RightValue;
break;
case OP_AND:
LeftValue = EvaluateExpr(pStubMsg, (PFORMAT_STRING )pExpr + sizeof( NDR64_EXPR_OPERATOR ), &pTempNext );
RightValue = EvaluateExpr(pStubMsg, (PFORMAT_STRING )pTempNext , pNext );
Value = LeftValue & RightValue;
break;
case OP_OR:
LeftValue = EvaluateExpr(pStubMsg, (PFORMAT_STRING )pExpr + sizeof( NDR64_EXPR_OPERATOR ), &pTempNext );
RightValue = EvaluateExpr(pStubMsg, (PFORMAT_STRING )pTempNext , pNext );
Value = LeftValue | RightValue;
break;
case OP_XOR:
LeftValue = EvaluateExpr(pStubMsg, (PFORMAT_STRING )pExpr + sizeof( NDR64_EXPR_OPERATOR ), &pTempNext );
RightValue = EvaluateExpr(pStubMsg, (PFORMAT_STRING )pTempNext , pNext );
Value = LeftValue ^ RightValue;
break;
case OP_LOGICAL_AND:
LeftValue = EvaluateExpr(pStubMsg, (PFORMAT_STRING )pExpr + sizeof( NDR64_EXPR_OPERATOR ), &pTempNext );
RightValue = EvaluateExpr(pStubMsg, (PFORMAT_STRING )pTempNext , pNext );
Value = LeftValue && RightValue;
break;
case OP_LOGICAL_OR:
LeftValue = EvaluateExpr(pStubMsg, (PFORMAT_STRING )pExpr + sizeof( NDR64_EXPR_OPERATOR ), &pTempNext );
RightValue = EvaluateExpr(pStubMsg, (PFORMAT_STRING )pTempNext , pNext );
Value = LeftValue || RightValue;
break;
case OP_QM:
LeftValue = EvaluateExpr(pStubMsg, (PFORMAT_STRING )pExpr + sizeof( NDR64_EXPR_OPERATOR ), &pTempNext );
RightValue = EvaluateExpr(pStubMsg, (PFORMAT_STRING )pTempNext , &pTempNext );
fRational = ( BOOL ) EvaluateExpr(pStubMsg, (PFORMAT_STRING )pTempNext , pNext );
Value = fRational ? LeftValue : RightValue;
break;
case OP_ASYNCSPLIT:
{
PNDR_DCOM_ASYNC_MESSAGE pAsyncMsg =
(PNDR_DCOM_ASYNC_MESSAGE) pStubMsg->pAsyncMsg;
CORRELATION_CONTEXT CorrCtxt( pStubMsg, pAsyncMsg->BeginStack );
Value = EvaluateExpr(pStubMsg, (PFORMAT_STRING )pExpr + sizeof( NDR64_EXPR_OPERATOR ), pNext );
break;
}
case OP_CORR_POINTER:
pStubMsg->pCorrMemory = pStubMsg->Memory;
break;
case OP_CORR_TOP_LEVEL:
pStubMsg->pCorrMemory = pStubMsg->StackTop;
break;
default:
NDR_ASSERT(0 ,
"Ndr64CalculateExpr : invalid operator");
RpcRaiseException( RPC_S_INTERNAL_ERROR );
break;
}
return Value;
}
EXPR_VALUE
EvaluateExpr( PMIDL_STUB_MESSAGE pStubMsg,
PNDR64_FORMAT pFormat,
PNDR64_FORMAT * pNext )
{
EXPR_VALUE Value;
switch ( *(PFORMAT_STRING)pFormat )
{
case FC_EXPR_NOOP:
{
PFORMAT_STRING pContinueFormat =
((PFORMAT_STRING)pFormat) + (( NDR64_EXPR_NOOP *)pFormat )->Size;
Value = EvaluateExpr( pStubMsg, (PNDR64_FORMAT)pContinueFormat, pNext );
break;
}
case FC_EXPR_CONST32:
{
NDR64_EXPR_CONST32 *pExpr = ( NDR64_EXPR_CONST32 *) pFormat;
Value = (EXPR_VALUE) pExpr->ConstValue;
*pNext = (PNDR64_FORMAT)(pExpr + 1);
break;
}
case FC_EXPR_CONST64:
{
NDR64_EXPR_CONST64 *pExpr;
pExpr = ( NDR64_EXPR_CONST64 * )pFormat;
Value = (EXPR_VALUE) pExpr->ConstValue;
*pNext = (PNDR64_FORMAT)(pExpr + 1);
break;
}
case FC_EXPR_VAR:
{
NDR64_EXPR_VAR * pExpr = ( NDR64_EXPR_VAR * )pFormat;
Value = Ndr64pExprGetVar( pStubMsg, pFormat, pNext ); // indirection.
break;
}
case FC_EXPR_OPER:
{
Value = Ndr64CalculateExpr( pStubMsg, ( NDR64_EXPR_OPERATOR * )pFormat, pNext );
break;
}
default:
NDR_ASSERT(0 ,
"Ndr64pComputeConformance : no expr eval routines");
RpcRaiseException( RPC_S_INTERNAL_ERROR );
break;
}
return Value;
}
EXPR_VALUE
Ndr64EvaluateExpr(
PMIDL_STUB_MESSAGE pStubMsg,
// uchar * pMemory,
PNDR64_FORMAT pFormat,
NDR64_EXPRESSION_TYPE ExpressionType )
{
PNDR64_FORMAT pNext;
EXPR_VALUE Value;
NDR_ASSERT( pStubMsg->pCorrMemory, "Ndr64EvaluateExpr: pCorrMemory not initialized." );
// we don't need to care about correlation flag in evaluation
PFORMAT_STRING pActualFormat =
((PFORMAT_STRING)pFormat) + sizeof( NDR64_UINT32 );
Value = EvaluateExpr( pStubMsg, (PNDR64_FORMAT)pActualFormat, &pNext );
switch ( ExpressionType )
{
case EXPR_MAXCOUNT:
pStubMsg->MaxCount = (ULONG_PTR)Value;
break;
case EXPR_ACTUALCOUNT:
pStubMsg->ActualCount = ( unsigned long )Value;
break;
case EXPR_OFFSET:
pStubMsg->Offset = ( unsigned long )Value;
break;
}
return Value;
}
void
Ndr64pAddCorrelationData(
PMIDL_STUB_MESSAGE pStubMsg,
uchar * pMemory,
PNDR64_FORMAT pFormat,
EXPR_VALUE Value,
NDR64_EXPRESSION_TYPE CheckKind
)
/*
Adds a check data to the correlation data base for a later evaluation.
*/
{
PNDR64_CORRELATION_INFO pCorrInfo = (PNDR64_CORRELATION_INFO)pStubMsg->pCorrInfo;
if ( !pCorrInfo || NDR64_SLOTS_PER_CORRELATION_INFO == pCorrInfo->SlotsUsed )
{
NDR_PROC_CONTEXT *pProcContext = (NDR_PROC_CONTEXT*)pStubMsg->pContext;
PNDR64_CORRELATION_INFO pCorrInfoNew = (PNDR64_CORRELATION_INFO)
NdrpAlloca(&pProcContext->AllocateContext, sizeof(NDR64_CORRELATION_INFO));
pCorrInfoNew->pNext = pCorrInfo;
pCorrInfoNew->SlotsUsed = 0;
pCorrInfo = pCorrInfoNew;
pStubMsg->pCorrInfo = (PNDR_CORRELATION_INFO)pCorrInfo;
}
NDR64_UINT32 CurrentSlot = pCorrInfo->SlotsUsed;
pCorrInfo->Data[ CurrentSlot ].pMemoryObject = pMemory;
pCorrInfo->Data[ CurrentSlot ].Value = Value;
pCorrInfo->Data[ CurrentSlot ].pCorrDesc = pFormat;
pCorrInfo->Data[ CurrentSlot ].CheckKind = CheckKind;
pCorrInfo->SlotsUsed++;
}
RPCRTAPI
void
RPC_ENTRY
Ndr64CorrelationPass(
PMIDL_STUB_MESSAGE pStubMsg
)
/*
Walks the data base to check all the correlated values that could not be checked
on fly.
*/
{
if ( !pStubMsg->pCorrInfo )
{
return;
}
for( PNDR64_CORRELATION_INFO pCorrInfo = (PNDR64_CORRELATION_INFO)pStubMsg->pCorrInfo;
NULL != pCorrInfo;
pCorrInfo = pCorrInfo->pNext )
{
for(NDR64_UINT32 SlotNumber = 0; SlotNumber < pCorrInfo->SlotsUsed; SlotNumber++)
{
CORRELATION_CONTEXT CorrCtxt( pStubMsg, pCorrInfo->Data[ SlotNumber ].pMemoryObject );
// we must check now.
Ndr64pEarlyCheckCorrelation( pStubMsg,
pCorrInfo->Data[ SlotNumber ].Value,
pCorrInfo->Data[ SlotNumber ].pCorrDesc,
(NDR64_EXPRESSION_TYPE)pCorrInfo->Data[ SlotNumber ].CheckKind );
}
}
}
// no-check flag is set.
void Ndr64pNoCheckCorrelation(
PMIDL_STUB_MESSAGE pStubMsg,
EXPR_VALUE Value,
PNDR64_FORMAT pFormat,
NDR64_EXPRESSION_TYPE ExpressionType )
{
return;
}
void Ndr64pEarlyCheckCorrelation(
PMIDL_STUB_MESSAGE pStubMsg,
EXPR_VALUE Value,
PNDR64_FORMAT pFormat,
NDR64_EXPRESSION_TYPE ExpressionType )
{
EXPR_VALUE ExprValue ;
EXPR_VALUE DestValue = Value;
BOOL fCheckOk;
ExprValue = Ndr64EvaluateExpr( pStubMsg, pFormat, ExpressionType );
fCheckOk = ( DestValue == ExprValue );
if ( !fCheckOk && ( ExpressionType == EXPR_IID ) )
{
IID * piidValue = (IID *)ExprValue;
IID * piidArg = (IID *)DestValue;
fCheckOk = !memcmp( piidValue, piidArg, sizeof( IID )) ;
}
if ( !fCheckOk )
RpcRaiseException( RPC_X_BAD_STUB_DATA );
return;
}
void Ndr64pLateCheckCorrelation(
PMIDL_STUB_MESSAGE pStubMsg,
EXPR_VALUE Value,
PNDR64_FORMAT pFormat,
NDR64_EXPRESSION_TYPE ExpressionType )
{
Ndr64pAddCorrelationData( pStubMsg, pStubMsg->pCorrMemory, pFormat, Value, ExpressionType );
return;
}
void
Ndr64pCheckCorrelation(
PMIDL_STUB_MESSAGE pStubMsg,
EXPR_VALUE Value,
PNDR64_FORMAT pFormat,
NDR64_EXPRESSION_TYPE ExpressionType )
{
NDR64_UINT32 Flags;
Flags = * (NDR64_UINT32 *)pFormat;
ASSERT( Flags <= ( FC_NDR64_EARLY_CORRELATION | FC_NDR64_NOCHECK_CORRELATION ) );
pfnCorrCheck[Flags]( pStubMsg, Value, pFormat, ExpressionType );
}