Leaked source code of windows server 2003
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/*+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
Copyright (c) 1993 Microsoft Corporation
Module Name :
misc.c
Abstract :
Contains miscelaneous helper routines.
Author :
David Kays dkays December 1993.
Revision History :
---------------------------------------------------------------------*/
#include "precomp.hxx"
uchar *
Ndr64pMemoryIncrement(
PMIDL_STUB_MESSAGE pStubMsg,
uchar * pMemory,
PNDR64_FORMAT pFormat,
BOOL fUseBufferConformance
)
/*++
Routine Description :
Returns a memory pointer incremeted past a complex data type. This routine
is also overloaded to compute the size of a complex data type by passing
a 0 memory pointer.
Arguments :
pStubMsg - Pointer to the stub message.
pMemory - Pointer to the complex type, or 0 if a size is being computed.
pFormat - Format string description.
fUseBufferConformance - Use conformance from buffer(During unmarshalling).
Return :
A memory pointer incremented past the complex type. If a 0 memory pointer
was passed in then the returned value is the size of the complex type.
--*/
{
long Elements;
long ElementSize;
switch ( *(PFORMAT_STRING)pFormat )
{
//
// simple types
//
case FC64_CHAR :
case FC64_WCHAR :
case FC64_INT8:
case FC64_UINT8:
case FC64_INT16:
case FC64_UINT16:
case FC64_INT32:
case FC64_UINT32:
case FC64_INT64:
case FC64_UINT64:
case FC64_FLOAT32 :
case FC64_FLOAT64 :
case FC64_ERROR_STATUS_T:
case FC64_IGNORE :
pMemory += NDR64_SIMPLE_TYPE_MEMSIZE(*(PFORMAT_STRING)pFormat);
break;
//
// Structs
//
case FC64_STRUCT :
case FC64_PSTRUCT :
pMemory += ((const NDR64_STRUCTURE_HEADER_FORMAT*)pFormat)->MemorySize;
break;
case FC64_CONF_STRUCT :
case FC64_CONF_PSTRUCT :
{
const NDR64_CONF_STRUCTURE_HEADER_FORMAT *pStructFormat =
(const NDR64_CONF_STRUCTURE_HEADER_FORMAT*) pFormat;
pMemory += pStructFormat->MemorySize;
pMemory = Ndr64pMemoryIncrement( pStubMsg,
pMemory,
pStructFormat->ArrayDescription,
fUseBufferConformance );
}
break;
case FC64_BOGUS_STRUCT :
case FC64_FORCED_BOGUS_STRUCT:
pMemory += ((const NDR64_BOGUS_STRUCTURE_HEADER_FORMAT*)pFormat)->MemorySize;
break;
case FC64_CONF_BOGUS_STRUCT:
case FC64_FORCED_CONF_BOGUS_STRUCT:
{
const NDR64_CONF_BOGUS_STRUCTURE_HEADER_FORMAT *pStructFormat =
(const NDR64_CONF_BOGUS_STRUCTURE_HEADER_FORMAT*) pFormat;
CORRELATION_CONTEXT CorrCtxt( pStubMsg, pMemory );
pMemory += pStructFormat->MemorySize;
pMemory = Ndr64pMemoryIncrement( pStubMsg,
pMemory,
pStructFormat->ConfArrayDescription,
fUseBufferConformance );
}
break;
//
// Unions
//
case FC64_ENCAPSULATED_UNION :
pMemory += ((const NDR64_ENCAPSULATED_UNION*)pFormat)->MemorySize;
break;
case FC64_NON_ENCAPSULATED_UNION :
pMemory += ((const NDR64_NON_ENCAPSULATED_UNION*)pFormat)->MemorySize;
break;
//
// Arrays
//
case FC64_FIX_ARRAY :
pMemory += ((const NDR64_FIX_ARRAY_HEADER_FORMAT*)pFormat)->TotalSize;
break;
case FC64_CONF_ARRAY:
{
const NDR64_CONF_ARRAY_HEADER_FORMAT *pArrayFormat =
(const NDR64_CONF_ARRAY_HEADER_FORMAT *)pFormat;
SAVE_CONTEXT<uchar*> ConformanceMarkSave( pStubMsg->ConformanceMark );
NDR64_WIRE_COUNT_TYPE Elements;
if ( fUseBufferConformance )
{
Elements = *(NDR64_WIRE_COUNT_TYPE*)pStubMsg->ConformanceMark;
pStubMsg->ConformanceMark += sizeof(NDR64_WIRE_COUNT_TYPE);
}
else
{
Elements =
Ndr64EvaluateExpr( pStubMsg,
pArrayFormat->ConfDescriptor,
EXPR_MAXCOUNT );
}
pMemory += Ndr64pConvertTo2GB( (NDR64_UINT64)pArrayFormat->ElementSize *
Elements );
}
break;
case FC64_CONFVAR_ARRAY:
{
const NDR64_CONF_VAR_ARRAY_HEADER_FORMAT *pArrayFormat =
(const NDR64_CONF_VAR_ARRAY_HEADER_FORMAT *)pFormat;
SAVE_CONTEXT<uchar*> ConformanceMarkSave( pStubMsg->ConformanceMark );
NDR64_WIRE_COUNT_TYPE Elements;
if ( fUseBufferConformance )
{
Elements = *(NDR64_WIRE_COUNT_TYPE*)pStubMsg->ConformanceMark;
pStubMsg->ConformanceMark += sizeof(NDR64_WIRE_COUNT_TYPE);
}
else
{
Elements =
Ndr64EvaluateExpr( pStubMsg,
pArrayFormat->ConfDescriptor,
EXPR_MAXCOUNT );
}
pMemory += Ndr64pConvertTo2GB( (NDR64_UINT64)pArrayFormat->ElementSize *
Elements );
}
break;
case FC64_VAR_ARRAY:
{
const NDR64_VAR_ARRAY_HEADER_FORMAT *pArrayFormat =
(NDR64_VAR_ARRAY_HEADER_FORMAT*)pFormat;
pMemory += pArrayFormat->TotalSize;
}
break;
case FC64_FIX_BOGUS_ARRAY :
case FC64_FIX_FORCED_BOGUS_ARRAY:
case FC64_BOGUS_ARRAY:
case FC64_FORCED_BOGUS_ARRAY:
{
const NDR64_BOGUS_ARRAY_HEADER_FORMAT *pArrayFormat =
(NDR64_BOGUS_ARRAY_HEADER_FORMAT*)pFormat;
NDR64_WIRE_COUNT_TYPE Elements = pArrayFormat->NumberElements;
BOOL IsFixed = ( pArrayFormat->FormatCode == FC64_FIX_BOGUS_ARRAY ) ||
( pArrayFormat->FormatCode == FC64_FIX_FORCED_BOGUS_ARRAY );
SAVE_CONTEXT<uchar*> ConformanceMarkSave( pStubMsg->ConformanceMark );
if ( !IsFixed )
{
const NDR64_CONF_VAR_BOGUS_ARRAY_HEADER_FORMAT* pConfVarFormat=
(NDR64_CONF_VAR_BOGUS_ARRAY_HEADER_FORMAT*)pFormat;
if ( pConfVarFormat->ConfDescription )
{
if ( fUseBufferConformance )
{
Elements = *(NDR64_WIRE_COUNT_TYPE*)pStubMsg->ConformanceMark;
pStubMsg->ConformanceMark += sizeof(NDR64_WIRE_COUNT_TYPE);
}
else
{
Elements = (NDR64_UINT32)
Ndr64EvaluateExpr(pStubMsg,
pConfVarFormat->ConfDescription,
EXPR_MAXCOUNT);
}
}
}
NDR64_UINT32 ElementMemorySize =
(NDR64_UINT32)( Ndr64pMemoryIncrement( pStubMsg,
pMemory,
pArrayFormat->Element,
fUseBufferConformance ) - pMemory );
pMemory += Ndr64pConvertTo2GB( (NDR64_UINT64)ElementMemorySize *
Elements );
}
break;
//
// String arrays (a.k.a. non-conformant strings).
//
case FC64_CHAR_STRING:
case FC64_WCHAR_STRING:
case FC64_STRUCT_STRING:
{
const NDR64_NON_CONFORMANT_STRING_FORMAT *pStringFormat =
(const NDR64_NON_CONFORMANT_STRING_FORMAT*) pFormat;
pMemory += pStringFormat->TotalSize;
break;
}
//
// Sized conformant strings.
//
case FC64_CONF_CHAR_STRING:
case FC64_CONF_WCHAR_STRING:
case FC64_CONF_STRUCT_STRING:
{
const NDR64_SIZED_CONFORMANT_STRING_FORMAT *pStringFormat =
(const NDR64_SIZED_CONFORMANT_STRING_FORMAT *) pFormat;
NDR64_WIRE_COUNT_TYPE Elements;
SAVE_CONTEXT<uchar*> ConformanceMarkSave( pStubMsg->ConformanceMark );
NDR_ASSERT( pStringFormat->Header.Flags.IsSized,
"Ndr64pMemoryIncrement : called for non-sized string");
if ( fUseBufferConformance )
{
Elements = *(NDR64_WIRE_COUNT_TYPE*)pStubMsg->ConformanceMark;
pStubMsg->ConformanceMark += sizeof(NDR64_WIRE_COUNT_TYPE);
}
else
{
Elements = Ndr64EvaluateExpr( pStubMsg,
pStringFormat->SizeDescription,
EXPR_MAXCOUNT );
}
pMemory += Ndr64pConvertTo2GB( Elements *
(NDR64_UINT64)pStringFormat->Header.ElementSize );
}
break;
case FC64_RP :
case FC64_UP :
case FC64_OP :
case FC64_IP :
case FC64_FP :
pMemory += PTR_MEM_SIZE;
break;
case FC64_RANGE:
pMemory += NDR64_SIMPLE_TYPE_MEMSIZE( ((NDR64_RANGE_FORMAT *)pFormat)->RangeType );
break;
//
// Transmit as, represent as, user marshal
//
case FC64_TRANSMIT_AS :
case FC64_REPRESENT_AS :
pMemory += ( ( NDR64_TRANSMIT_AS_FORMAT * )pFormat )->PresentedTypeMemorySize;
break;
case FC64_USER_MARSHAL :
// Get the presented type size.
pMemory += ( ( NDR64_USER_MARSHAL_FORMAT * )pFormat )->UserTypeMemorySize;
break;
default :
NDR_ASSERT(0,"Ndr64pMemoryIncrement : bad format char");
RpcRaiseException( RPC_S_INTERNAL_ERROR );
return 0;
}
return pMemory;
}
BOOL
Ndr64pIsStructStringTerminator(
NDR64_UINT8* pMemory,
NDR64_UINT32 ElementSize
)
/*--
RoutineDescription :
Determines is pMemory is a struct string terminator.
Arguments :
pMemory - Pointer to struct string character.
ElementSize - Number of bytes of each string character.
Return :
Length of string.
--*/
{
while( ElementSize-- )
{
if ( *pMemory++ != 0)
return FALSE;
}
return TRUE;
}
NDR64_UINT32
Ndr64pStructStringLen(
NDR64_UINT8* pMemory,
NDR64_UINT32 ElementSize
)
/*--
RoutineDescription :
Determines a stringable struct's length.
Arguments :
pMemory - Pointer to stringable struct.
ElementSize - Number of bytes of each string element.
Return :
Length of string.
--*/
{
NDR64_UINT32 StringSize = 0;
while( !Ndr64pIsStructStringTerminator( pMemory, ElementSize ) )
{
StringSize++;
pMemory += ElementSize;
}
return StringSize;
}
NDR64_UINT32
Ndr64pCommonStringSize(
PMIDL_STUB_MESSAGE pStubMsg,
uchar * pMemory,
const NDR64_STRING_HEADER_FORMAT *pStringFormat
)
{
NDR64_UINT64 CopySize64;
// Compute the element count of the string and the total copy size.
switch ( pStringFormat->FormatCode )
{
case FC64_CHAR_STRING:
case FC64_CONF_CHAR_STRING:
CopySize64 = pStubMsg->ActualCount = strlen((char *)pMemory) + 1;
break;
case FC64_WCHAR_STRING:
case FC64_CONF_WCHAR_STRING:
pStubMsg->ActualCount = wcslen((wchar_t *)pMemory) + 1;
CopySize64 = (NDR64_UINT64)pStubMsg->ActualCount * (NDR64_UINT64)sizeof(wchar_t);
break;
case FC64_STRUCT_STRING:
case FC64_CONF_STRUCT_STRING:
pStubMsg->ActualCount = Ndr64pStructStringLen( (NDR64_UINT8*)pMemory,
pStringFormat->ElementSize ) + 1;
CopySize64 = (NDR64_UINT64)pStubMsg->ActualCount *
(NDR64_UINT64)pStringFormat->ElementSize;
break;
default :
NDR_ASSERT(0,"Ndr64pConformantStringMarshall : bad format char");
RpcRaiseException( RPC_S_INTERNAL_ERROR );
return 0;
}
pStubMsg->Offset = 0;
return Ndr64pConvertTo2GB( CopySize64 );
}
PNDR64_FORMAT
Ndr64pFindUnionArm(
PMIDL_STUB_MESSAGE pStubMsg,
const NDR64_UNION_ARM_SELECTOR* pArmSelector,
EXPR_VALUE Value
)
{
const NDR64_UNION_ARM *pUnionArm = (NDR64_UNION_ARM*)(pArmSelector + 1);
NDR64_UINT32 Arms = pArmSelector->Arms;
while(1)
{
if (0 == Arms--)
{
PNDR64_FORMAT DefaultType = *(PNDR64_FORMAT*)pUnionArm;
// MIDL generates 0xffffffff instead of -1 here, and pointer is 64bit.
if ( (NDR64_UINT32)((ULONG_PTR)DefaultType) != 0xffffffff)
{
return DefaultType ? *(PNDR64_FORMAT*)pUnionArm :
NULL;
}
else
{
RpcRaiseException( RPC_S_INVALID_TAG );
return 0;
}
}
if ( (EXPR_VALUE)pUnionArm->CaseValue == Value )
{
return pUnionArm->Type ? pUnionArm->Type : NULL;
}
pUnionArm++;
}
}
EXPR_VALUE
Ndr64pSimpleTypeToExprValue(
NDR64_FORMAT_CHAR FormatChar,
uchar *pSimple)
{
switch( FormatChar )
{
case FC64_UINT8:
return (EXPR_VALUE)*(unsigned char *)pSimple;
case FC64_CHAR:
case FC64_INT8:
return (EXPR_VALUE)*(signed char *)pSimple;
case FC64_WCHAR:
case FC64_UINT16:
return (EXPR_VALUE)*(unsigned short *)pSimple;
case FC64_INT16:
return (EXPR_VALUE)*(signed short *)pSimple;
case FC64_UINT32:
return (EXPR_VALUE)*(unsigned long *)pSimple;
case FC64_INT32:
case FC64_ERROR_STATUS_T:
return (EXPR_VALUE)*(signed long *)pSimple;
case FC64_INT64:
return (EXPR_VALUE)*(NDR64_INT64 *)pSimple;
case FC64_UINT64:
return (EXPR_VALUE)*(NDR64_UINT64 *)pSimple;
case FC64_POINTER:
return (EXPR_VALUE)*(void **)pSimple;
default :
NDR_ASSERT(0,"Ndr64pSimpleTypeToExprValue : bad swith type");
RpcRaiseException( RPC_S_INTERNAL_ERROR );
return 0;
}
}
EXPR_VALUE
Ndr64pCastExprValueToExprValue(
NDR64_FORMAT_CHAR FormatChar,
EXPR_VALUE Value)
{
switch ( FormatChar )
{
case FC64_UINT8:
return (EXPR_VALUE)(unsigned char)Value;
case FC64_INT8:
case FC64_CHAR:
return (EXPR_VALUE)(signed char)Value;
case FC64_UINT16:
case FC64_WCHAR:
return (EXPR_VALUE)(unsigned short)Value;
case FC64_INT16:
return (EXPR_VALUE)(signed short)Value;
case FC64_UINT32:
return (EXPR_VALUE)(unsigned long)Value;
case FC64_INT32:
return (EXPR_VALUE)(signed long)Value;
case FC64_UINT64:
return (EXPR_VALUE)(NDR64_UINT64)Value;
case FC64_INT64:
return (EXPR_VALUE)(NDR64_INT64)Value;
case FC64_POINTER:
return (EXPR_VALUE)(void *)Value;
default:
NDR_ASSERT(0,"Ndr64pCastExprValueToExprValue : Illegal type.");
RpcRaiseException( RPC_S_INTERNAL_ERROR );
return 0;
}
}