370 lines
10 KiB
C++
370 lines
10 KiB
C++
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//+---------------------------------------------------------------------------
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//
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// Microsoft Windows
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// Copyright (C) Microsoft Corporation, 1997.
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//
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// File: T C P E R R O R . C P P
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//
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// Contents:
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//
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// Notes:
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//
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// Author: tongl
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//
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//----------------------------------------------------------------------------
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#include "pch.h"
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#pragma hdrstop
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#include "tcperror.h"
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#include "tcputil.h"
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#include "tcpconst.h"
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#include "resource.h"
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IP_VALIDATION_ERR IsValidIpandSubnet(PCWSTR szIp, PCWSTR szSubnet)
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{
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IP_VALIDATION_ERR ret = ERR_NONE;
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DWORD dwAddr = IPStringToDword(szIp);
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DWORD dwMask = IPStringToDword(szSubnet);
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//The host ID cannot contain all 1's
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if ((dwMask | dwAddr) == 0xFFFFFFFF)
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{
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return ERR_HOST_ALL1;
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}
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if (((~dwMask) & dwAddr) == 0)
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{
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return ERR_HOST_ALL0;
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}
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if ((dwMask & dwAddr) == 0)
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{
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return ERR_SUBNET_ALL0;
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}
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DWORD ardwNetID[4];
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DWORD ardwIp[4];
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DWORD ardwMask[4];
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GetNodeNum(szIp, ardwIp);
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GetNodeNum(szSubnet, ardwMask);
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INT nFirstByte = ardwIp[0] & 0xFF ;
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// setup Net ID
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ardwNetID[0] = ardwIp[0] & ardwMask[0] & 0xFF;
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ardwNetID[1] = ardwIp[1] & ardwMask[1] & 0xFF;
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ardwNetID[2] = ardwIp[2] & ardwMask[2] & 0xFF;
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ardwNetID[3] = ardwIp[3] & ardwMask[3] & 0xFF;
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// setup Host ID
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DWORD ardwHostID[4];
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ardwHostID[0] = ardwIp[0] & (~(ardwMask[0]) & 0xFF);
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ardwHostID[1] = ardwIp[1] & (~(ardwMask[1]) & 0xFF);
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ardwHostID[2] = ardwIp[2] & (~(ardwMask[2]) & 0xFF);
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ardwHostID[3] = ardwIp[3] & (~(ardwMask[3]) & 0xFF);
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// check each case
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if( ((nFirstByte & 0xF0) == 0xE0) || // Class D
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((nFirstByte & 0xF0) == 0xF0) || // Class E
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(ardwNetID[0] == 127) || // NetID cannot be 127...
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((ardwNetID[0] == 0) && // netid cannot be 0.0.0.0
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(ardwNetID[1] == 0) &&
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(ardwNetID[2] == 0) &&
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(ardwNetID[3] == 0)) ||
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// netid cannot be equal to sub-net mask
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((ardwNetID[0] == ardwMask[0]) &&
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(ardwNetID[1] == ardwMask[1]) &&
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(ardwNetID[2] == ardwMask[2]) &&
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(ardwNetID[3] == ardwMask[3])) ||
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// hostid cannot be 255.255.255.255
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((ardwHostID[0] == 0xFF) &&
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(ardwHostID[1] == 0xFF) &&
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(ardwHostID[2] == 0xFF) &&
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(ardwHostID[3] == 0xFF)) ||
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// test for all 255
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((ardwIp[0] == 0xFF) &&
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(ardwIp[1] == 0xFF) &&
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(ardwIp[2] == 0xFF) &&
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(ardwIp[3] == 0xFF)))
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{
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ret = ERR_INCORRECT_IP;
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}
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return ret;
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}
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// return IP_VALIDATION_ERR
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IP_VALIDATION_ERR ValidateIp(ADAPTER_INFO * const pAdapterInfo)
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{
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IP_VALIDATION_ERR result = ERR_NONE;
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IP_VALIDATION_ERR tmp = ERR_NONE;
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Assert(pAdapterInfo != NULL);
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// if enable DHCP is false;
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if (!pAdapterInfo->m_fEnableDhcp)
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{
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// check the first pair of IP and subnet
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VSTR_ITER iterIpBegin = pAdapterInfo->m_vstrIpAddresses.begin();
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VSTR_ITER iterIpEnd = pAdapterInfo->m_vstrIpAddresses.end();
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VSTR_ITER iterIp = iterIpBegin;
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VSTR_ITER iterSubnetMaskBegin = pAdapterInfo->m_vstrSubnetMask.begin();
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VSTR_ITER iterSubnetMaskEnd = pAdapterInfo->m_vstrSubnetMask.end();
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VSTR_ITER iterSubnetMask = iterSubnetMaskBegin;
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BOOL fSwap = FALSE;
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// If ip address and subnet are both empty
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if((iterIp == iterIpEnd) && (iterSubnetMask == iterSubnetMaskEnd))
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{
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result = ERR_NO_IP;
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}
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else
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{
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for( ;
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iterIp != iterIpEnd || iterSubnetMask != iterSubnetMaskEnd ;
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++iterIp, ++iterSubnetMask)
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{
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if((iterIp == iterIpEnd || **iterIp == L"") && !fSwap)
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{
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result = ERR_NO_IP;
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fSwap = TRUE;
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}
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else if((iterSubnetMask == iterSubnetMaskEnd || **iterSubnetMask == L"") && !fSwap)
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{
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result = ERR_NO_SUBNET;
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fSwap = TRUE;
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}
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else if(!IsContiguousSubnet((*iterSubnetMask)->c_str()))
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{
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result = ERR_UNCONTIGUOUS_SUBNET;
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fSwap = TRUE;
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}
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else if(ERR_NONE != (tmp = IsValidIpandSubnet((*iterIp)->c_str(), (*iterSubnetMask)->c_str())) && !fSwap)
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{
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result = tmp;
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fSwap = TRUE;
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}
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if(fSwap)
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{
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tstring * pstrTmp;
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pstrTmp = *iterIp;
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*iterIp = *iterIpBegin;
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*iterIpBegin = pstrTmp;
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pstrTmp = *iterSubnetMask;
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*iterSubnetMask = *iterSubnetMaskBegin;
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*iterSubnetMaskBegin = pstrTmp;
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break;
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}
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}
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}
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}
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return result;
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}
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// return >=0 : the adapter that has the duplicate address
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// return -1 : all is ok
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// Check from duplicate IP address between the adapter in pAdapterInfo and
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// any different, enabled, LAN adapters in the pvcardAdapterInfo list
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int CheckForDuplicates(const VCARD * pvcardAdapterInfo,
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ADAPTER_INFO * pAdapterInfo,
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tstring& strIp)
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{
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int nResult = -1;
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Assert(pvcardAdapterInfo != NULL);
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Assert(pAdapterInfo != NULL);
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Assert(!pAdapterInfo->m_fEnableDhcp);
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for(size_t i = 0; ((i < pvcardAdapterInfo->size()) && (nResult == -1)) ; ++i)
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{
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VSTR_ITER iterCompareIpBegin;
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VSTR_ITER iterCompareIpEnd;
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if ((*pvcardAdapterInfo)[i]->m_guidInstanceId ==
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pAdapterInfo->m_guidInstanceId)
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{
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// same adapter
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continue;
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}
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else
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{
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// different adapter
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// Skip the following:
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// 1) disabled adapter
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// 2) ndiswan adapter
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// 3) Dhcp enabled adapter
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// 4) RAS Fake adapters
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if(((*pvcardAdapterInfo)[i]->m_BindingState != BINDING_ENABLE) ||
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((*pvcardAdapterInfo)[i]->m_fIsWanAdapter) ||
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((*pvcardAdapterInfo)[i]->m_fEnableDhcp) ||
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((*pvcardAdapterInfo)[i]->m_fIsRasFakeAdapter))
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continue;
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iterCompareIpBegin = (*pvcardAdapterInfo)[i]->m_vstrIpAddresses.begin();
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iterCompareIpEnd = (*pvcardAdapterInfo)[i]->m_vstrIpAddresses.end();
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}
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VSTR_ITER iterCompareIp = iterCompareIpBegin;
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for ( ; iterCompareIp != iterCompareIpEnd; ++iterCompareIp)
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{
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if(**iterCompareIp == strIp) // if duplicate IP address found
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{
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nResult = i;
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break;
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/*
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nCompareCount++;
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if (nCompareCount >= 1)
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{
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nResult = i;
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tstring * pstrTmp;
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// swap the Current Compared IP and Subnet Mask with the
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// first IP and first subnetmask that are duplicates
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pstrTmp = *iterIp;
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*iterIp = *iterIpBegin;
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*iterIpBegin = pstrTmp;
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pstrTmp = *iterSubnetMask;
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*iterSubnetMask = *iterSubnetMaskBegin;
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*iterSubnetMaskBegin = pstrTmp;
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break;
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}
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*/
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}
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}
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}
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return nResult;
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}
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BOOL FHasDuplicateIp(ADAPTER_INFO * pAdapterInfo)
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{
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Assert(pAdapterInfo);
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Assert(!pAdapterInfo->m_fEnableDhcp);
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BOOL fDup = FALSE;
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VSTR_ITER iterIpBegin = pAdapterInfo->m_vstrIpAddresses.begin();
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VSTR_ITER iterIpEnd = pAdapterInfo->m_vstrIpAddresses.end();
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VSTR_ITER iterIp = iterIpBegin;
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for( ; ((iterIp != iterIpEnd) && (!fDup)) ; ++iterIp)
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{
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// check only IP addresses one by one
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VSTR_ITER iterCompareIpBegin = iterIp+1;
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VSTR_ITER iterCompareIpEnd = pAdapterInfo->m_vstrIpAddresses.end();
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VSTR_ITER iterCompareIp = iterCompareIpBegin;
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for ( ; iterCompareIp != iterCompareIpEnd; ++iterCompareIp)
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{
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if(**iterCompareIp == **iterIp) // if duplicate IP address found
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{
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fDup = TRUE;
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break;
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}
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}
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}
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return fDup;
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}
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//Check if all the fields of the IP address are valid
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//Arguments: szIp the IP address
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// fIsIpAddr whether the szIp is IP address (otherwise, it should be subnet mask)
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// if szIp is IP address, it's first field should be between 1 and 223,
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// and cannot be 127 (loopback address)
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BOOL FIsValidIpFields(PCWSTR szIp, BOOL fIsIpAddr)
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{
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BOOL fRet = TRUE;
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DWORD ardwIp[4];
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GetNodeNum(szIp, ardwIp);
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// if the address is IP, there are some special rules for its first field
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if (fIsIpAddr && (ardwIp[0] < c_iIPADDR_FIELD_1_LOW || ardwIp[0] > c_iIPADDR_FIELD_1_HIGH ||
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ardwIp[0] == c_iIPADDR_FIELD_1_LOOPBACK))
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{
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fRet = FALSE;
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}
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else
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{
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//if the address is IP, then we have already validate the first field. Otherwise, we need
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// valid the first field here.
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for (INT i = (fIsIpAddr) ? 1 : 0; i < 4; i++)
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{
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#pragma warning(push)
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#pragma warning(disable:4296)
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if (ardwIp[i] < (DWORD)c_iIpLow || ardwIp[i] > c_iIpHigh)
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{
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fRet = FALSE;
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break;
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}
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#pragma warning(pop)
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}
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}
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return fRet;
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}
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//Get the resource ID of the error message based on the IP validation err
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UINT GetIPValidationErrorMessageID(IP_VALIDATION_ERR err)
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{
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UINT uID = 0;
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switch(err)
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{
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case ERR_NONE:
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uID = 0;
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break;
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case ERR_HOST_ALL0:
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uID = IDS_INVALID_HOST_ALL_0;
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break;
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case ERR_HOST_ALL1:
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uID = IDS_INVALID_HOST_ALL_1;
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break;
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case ERR_SUBNET_ALL0:
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uID = IDS_INVALID_SUBNET_ALL_0;
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break;
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case ERR_INCORRECT_IP:
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uID = IDS_INCORRECT_IPADDRESS;
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break;
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case ERR_NO_IP:
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uID = IDS_INVALID_NO_IP;
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break;
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case ERR_NO_SUBNET:
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uID = IDS_INVALID_NOSUBNET;
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break;
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case ERR_UNCONTIGUOUS_SUBNET:
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uID = IDS_ERROR_UNCONTIGUOUS_SUBNET;
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break;
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default:
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uID = IDS_INCORRECT_IPADDRESS;
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break;
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}
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return uID;
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}
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