windows-nt/Source/XPSP1/NT/net/dhcp/dhcpprov/dll/props.cpp

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2020-09-26 03:20:57 -05:00
/******************************************************************
SrvProp.cpp -- Properties class definition
MODULE:
DhcpProv.dll
DESCRIPTION:
Contains the definition of the class modeling the DHCP_Server property.
REVISION:
08/03/98 - created
******************************************************************/
#include <stdafx.h>
#include "Props.h"
/*------------------------Utility functions below------------------------------*/
// DESCRIPTION:
// Converts a CHString containing the string representation of an IPAddress to the DHCP_IP_ADDRESS type.
// I would have used here inet_addr but this one only takes char * as arguments (not wchar_t *)
// Note that the IPAddress can be any substring of 'str'!
BOOL inet_wstodw(CHString str, DHCP_IP_ADDRESS & IpAddress)
{
DWORD value;
int i;
for (i = 0; i < str.GetLength(); i++)
if (str[i] >= _T('0') && str[i] <= _T('9'))
break;
IpAddress = 0;
for (int k = 0; i < str.GetLength(); k++)
{
value = 0;
// at this point, str[i] is definitely a decimal digit
do
{
value *= 10;
value += str[i++] - _T('0');
} while(str[i] >= _T('0') && str[i] <= _T('9'));
if (str[i] == _T('.'))
{
IpAddress <<= 8;
IpAddress |= (value & 0xff);
i++;
if (str[i] >= _T('0') && str[i] <= _T('9'))
continue;
}
if (k != 3)
return FALSE;
else
break;
}
IpAddress <<= 8;
IpAddress |= (value & 0xff);
return TRUE;
}
BOOL dupDhcpBinaryData(DHCP_BINARY_DATA &src, DHCP_BINARY_DATA &dest)
{
dest.DataLength = src.DataLength;
if (dest.DataLength == NULL)
return TRUE;
if (src.Data == NULL)
return FALSE;
dest.Data = (BYTE*)MIDL_user_allocate(dest.DataLength);
if (!dest.Data)
return FALSE;
memcpy(dest.Data, src.Data, dest.DataLength);
return TRUE;
}
BOOL InstanceSetByteArray(CInstance *pInstance, const CHString& strProperty, BYTE *bArray, DWORD dwSzArray)
{
SAFEARRAY *saVariable;
SAFEARRAYBOUND saVector;
HRESULT retCode = WBEM_E_FAILED;
if (pInstance == NULL)
return FALSE;
// first create the SAFEARRAY to pass to the pInstance
saVector.cElements = dwSzArray; // on the only dimension we have, there are dwSzArray elements
saVector.lLbound = 0; // the lowest index of the dimension is 0
saVariable = SafeArrayCreate(VT_UI1, 1, &saVector); // create a unsigned char array on one dimension
if (saVariable != NULL) // continue if creation succeeded
{
// transfer the binary array to the SAFEARRAY
for (long i = 0; i<dwSzArray; i++)
{
if (SafeArrayPutElement(saVariable, &i, bArray + i) != S_OK)
break;
}
if (i == dwSzArray) // if the SAFEARRAY was built successfully continue
{
// build the Variant that holds the SAFEARRAY
VARIANT Variant;
Variant.vt = VT_UI1 | VT_ARRAY;
Variant.parray = saVariable;
// build the BSTR holding the property name
BSTR bstrProp = strProperty.AllocSysString();
if (bstrProp != NULL) // if the property was converted to BSTR successfully go on..
{
IWbemClassObject *wbemClassObject = pInstance->GetClassObjectInterface();
if (wbemClassObject != NULL) // everything went fine, now just put the value
retCode = wbemClassObject->Put(bstrProp, 0, &Variant, 0);
SysFreeString ( bstrProp );
}
}
SafeArrayDestroy(saVariable);
}
return retCode == WBEM_S_NO_ERROR;
}
BOOL InstanceGetByteArray(CInstance *pInstance, const CHString& name, BYTE *&bArray, DWORD &dwSzArray)
{
SAFEARRAY *saVariable;
SAFEARRAYBOUND saVector;
BOOL bRet = FALSE ;
if (pInstance == NULL)
return FALSE;
IWbemClassObject *wbemClassObject = pInstance->GetClassObjectInterface();
if ( wbemClassObject )
{
VARIANT v;
VariantInit(&v);
BSTR pName = name.AllocSysString();
HRESULT hr = wbemClassObject->Get(pName, 0, &v, NULL, NULL);
SysFreeString(pName);
if ( ( v.vt != VT_NULL) && (v.vt != (VT_UI1|VT_ARRAY)))
{
VariantClear(&v);
return FALSE ;
}
if (bRet = SUCCEEDED(hr))
{
if ( v.vt != VT_NULL && v.parray != NULL )
{
SAFEARRAY *t_SafeArray = v.parray ;
if ( SafeArrayGetDim ( t_SafeArray ) == 1 )
{
LONG t_Dimension = 1 ;
LONG t_LowerBound ;
SafeArrayGetLBound ( t_SafeArray , t_Dimension , & t_LowerBound ) ;
LONG t_UpperBound ;
SafeArrayGetUBound ( t_SafeArray , t_Dimension , & t_UpperBound ) ;
dwSzArray = t_UpperBound - t_LowerBound + 1 ;
bArray = (BYTE*)MIDL_user_allocate(dwSzArray * sizeof(BYTE));
for ( LONG t_Index = t_LowerBound ; t_Index <= t_UpperBound ; t_Index ++ )
{
BYTE t_Element ;
SafeArrayGetElement ( t_SafeArray , &t_Index , & t_Element ) ;
bArray [ t_Index ] = t_Element ;
}
bRet = TRUE ;
}
}
}
VariantClear(&v);
}
return bRet ;
}
/*-----------------------CDHCP_Property class definition---------------------------------*/
// constructor. An instance of this class has to be defined by the parameters below:
CDHCP_Property::CDHCP_Property(
const WCHAR *wsPropName, // the name of the property
const PFN_PROPERTY_ACTION pfnActionGet, // the pointer to its GET function
const PFN_PROPERTY_ACTION pfnActionSet) // the pointer to its SET function
{
m_pfnActionGet = pfnActionGet;
m_pfnActionSet = pfnActionSet;
if (wsPropName != NULL)
{
m_wsPropName = new WCHAR[wcslen(wsPropName) + 1]; // the name is copied into a local member variable
wcscpy(m_wsPropName, wsPropName); // released upon destruction
}
else
m_wsPropName = NULL;
}
CDHCP_Property::~CDHCP_Property()
{
if (m_wsPropName != NULL)
delete m_wsPropName; // release the memory allocated for the property name
}