Leaked source code of windows server 2003
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//++
//
// Copyright (C) Microsoft Corporation, 1987 - 1999
//
// Module Name:
//
// ipcfg.c
//
// Abstract:
//
// Queries into network drivers
//
// Author:
//
// Anilth - 4-20-1998
//
// Environment:
//
// User mode only.
// Contains NT-specific code.
//
// Revision History:
//
//--
#include "precomp.h"
#include "ipcfg.h"
#include "regutil.h"
#include "mprapi.h" // for friendly-name interface mapping
#include "strings.h"
LPTSTR MapScopeId(PVOID Param);
LPTSTR MapAdapterType(UINT type);
LPTSTR MapAdapterAddress(PIP_ADAPTER_INFO pAdapterInfo, LPTSTR Buffer);
VOID PingDhcpServer(NETDIAG_PARAMS *pParams, IPCONFIG_TST *pIpConfig);
VOID PingWinsServers(NETDIAG_PARAMS *pParams, IPCONFIG_TST *pIpConfig);
/*==========================< Iphlpapi functions >===========================*/
DWORD GetAdaptersInfo(
PIP_ADAPTER_INFO pAdapterInfo,
PULONG pOutBufLen
);
DWORD GetNetworkParams(
PFIXED_INFO pFixedInfo,
PULONG pOutBufLen
);
// -----------------------------------------------------------------
HRESULT GetAdditionalInfo(NETDIAG_PARAMS *pParams, NETDIAG_RESULT *pResults);
HRESULT
IpConfigTest(
NETDIAG_PARAMS* pParams,
NETDIAG_RESULT* pResults
)
{
HRESULT hr = hrOK;
int i;
IP_ADAPTER_INFO * pIpAdapterInfo;
IPCONFIG_TST * pIpConfig;
ULONG uDefGateway, uAddress, uMask;
DWORD dwDefGateway, dwAddress, dwMask;
hr = InitIpconfig(pParams, pResults);
if (!FHrSucceeded(hr))
{
// "Cannot retrieve IP configuration from registry!\n"
PrintDebug(pParams, 0, IDS_IPCFG_CANNOT_GET_IP_INFO);
return hr;
}
for ( i = 0; i<pResults->cNumInterfaces; i++)
{
pIpConfig = &pResults->pArrayInterface[i].IpConfig;
pIpAdapterInfo = pIpConfig->pAdapterInfo;
if (!pResults->pArrayInterface[i].IpConfig.fActive ||
NETCARD_DISCONNECTED == pResults->pArrayInterface[i].dwNetCardStatus)
continue;
// Ping the DHCP server
if (pIpAdapterInfo->DhcpEnabled)
{
if (!ZERO_IP_ADDRESS(pIpAdapterInfo->DhcpServer.IpAddress.String))
PingDhcpServer(pParams, pIpConfig);
else
{
pIpConfig->hrPingDhcpServer = E_FAIL;
pIpConfig->hr = E_FAIL;
// " [WARNING] Though, the card is Dhcp Enabled, you dont have a valid DHCP server address for the card.\n"
SetMessage(&pIpConfig->msgPingDhcpServer,
Nd_Quiet,
IDS_IPCFG_INVALID_DHCP_ADDRESS);
}
}
if (pResults->pArrayInterface[i].fNbtEnabled)
{
// Ping the primary and secondary WINS servers
PingWinsServers(pParams, pIpConfig);
}
if(pIpAdapterInfo->GatewayList.IpAddress.String[0] != 0)
{
// If the default gateway is defined,
// then test to see if the gateway is on the same subnet as our IP address
//
uDefGateway = inet_addrA(pIpAdapterInfo->GatewayList.IpAddress.String);
uAddress = inet_addrA(pIpAdapterInfo->IpAddressList.IpAddress.String);
uMask = inet_addrA(pIpAdapterInfo->IpAddressList.IpMask.String);
dwDefGateway = ntohl(uDefGateway);
dwAddress = ntohl(uAddress);
dwMask = ntohl(uMask);
if ((dwDefGateway & dwMask) != (dwAddress & dwMask))
{
pIpConfig->hr = E_FAIL;
pIpConfig->hrDefGwSubnetCheck = E_FAIL;
}
}
}
return hr;
}
LPTSTR MapScopeId(PVOID Param)
{
return !strcmp((LPTSTR)Param, _T("*")) ? _T("") : (LPTSTR)Param;
}
#define dim(X) (sizeof(X)/sizeof((X)[0]))
/*!--------------------------------------------------------------------------
MapGuidToServiceName
-
Author: KennT
---------------------------------------------------------------------------*/
LPTSTR MapGuidToServiceName(LPCTSTR pszServiceGuid)
{
DWORD dwRetVal = ERROR_SUCCESS;
static TCHAR s_szServiceName[MAX_ALLOWED_ADAPTER_NAME_LENGTH + 1];
WCHAR swzServiceGuid[256], swzServiceName[256];
// Copy guid into return buffer
lstrcpyn(s_szServiceName, pszServiceGuid, DimensionOf(s_szServiceName));
if( NULL == pfnGuidToFriendlyName )
return s_szServiceName;
StrCpyWFromT(swzServiceGuid, pszServiceGuid);
if( !pfnGuidToFriendlyName(swzServiceGuid,
swzServiceName,
DimensionOf(swzServiceName)) )
{
StrnCpyTFromW(s_szServiceName, swzServiceName, DimensionOf(s_szServiceName));
}
return s_szServiceName;
}
/*!--------------------------------------------------------------------------
MapGuidToServiceNameW
-
Author: KennT
---------------------------------------------------------------------------*/
LPWSTR MapGuidToServiceNameW(LPCWSTR pswzServiceGuid)
{
DWORD dwRetVal = ERROR_SUCCESS;
static WCHAR s_swzServiceName[1024];
// Copy guid into return buffer
StrnCpyW(s_swzServiceName, pswzServiceGuid, DimensionOf(s_swzServiceName));
if (NULL == pfnGuidToFriendlyName)
return s_swzServiceName;
if (ERROR_SUCCESS != pfnGuidToFriendlyName((LPWSTR) pswzServiceGuid,
s_swzServiceName,
DimensionOf(s_swzServiceName)) )
{
//we still want to keep the GUID as service name if cannot find the friendly name
StrnCpyW(s_swzServiceName, pswzServiceGuid, DimensionOf(s_swzServiceName));
}
return s_swzServiceName;
}
/*!--------------------------------------------------------------------------
MapGuidToAdapterName
-
Author: KennT
---------------------------------------------------------------------------*/
LPTSTR MapGuidToAdapterName(LPCTSTR pszAdapterGuid)
{
HANDLE hConfig;
WCHAR swzAdapterGuid[256], swzAdapterName[256];
static TCHAR s_szAdapterName[1024];
HRESULT hr = hrOK;
// Copy guid into return buffer
StrnCpy(s_szAdapterName, pszAdapterGuid, DimensionOf(s_szAdapterName));
StrnCpyWFromT(swzAdapterGuid, pszAdapterGuid, DimensionOf(swzAdapterGuid));
CheckErr( MprConfigServerConnect(NULL, &hConfig) );
CheckErr( MprConfigGetFriendlyName(hConfig, swzAdapterGuid,
swzAdapterName,
sizeof(swzAdapterName)
) );
MprConfigServerDisconnect(hConfig);
StrnCpyTFromW(s_szAdapterName, swzAdapterName, DimensionOf(s_szAdapterName));
Error:
return s_szAdapterName;
}
void
PingDhcpServer(
NETDIAG_PARAMS *pParams,
IPCONFIG_TST *pIpConfig)
{
PrintStatusMessage(pParams, 4, IDS_IPCFG_STATUS_MSG);
if (IsIcmpResponseA(pIpConfig->pAdapterInfo->DhcpServer.IpAddress.String))
{
pIpConfig->hrPingDhcpServer = S_OK;
PrintStatusMessage(pParams,0, IDS_GLOBAL_PASS_NL);
// " Pinging DHCP server - reachable\n"
SetMessage(&pIpConfig->msgPingDhcpServer,
Nd_ReallyVerbose,
IDS_IPCFG_PING_DHCP_OK);
}
else
{
pIpConfig->hrPingDhcpServer = S_FALSE;
if (FHrSucceeded(pIpConfig->hr))
pIpConfig->hr = S_FALSE;
PrintStatusMessage(pParams,0, IDS_GLOBAL_FAIL_NL);
// " Pinging DHCP server - not reachable\n"
// " WARNING: DHCP server may be down.\n"
SetMessage(&pIpConfig->msgPingDhcpServer,
Nd_Quiet,
IDS_IPCFG_PING_DHCP_BAD);
}
}
VOID
PingWinsServers(
NETDIAG_PARAMS* pParams,
IPCONFIG_TST *pIpConfig)
{
TCHAR szBuffer[256];
if (!ZERO_IP_ADDRESS(pIpConfig->pAdapterInfo->PrimaryWinsServer.IpAddress.String))
{
PrintStatusMessage(pParams,4, IDS_IPCFG_WINS_STATUS_MSG);
if (IsIcmpResponseA(pIpConfig->pAdapterInfo->PrimaryWinsServer.IpAddress.String))
{
pIpConfig->hrPingPrimaryWinsServer = S_OK;
PrintStatusMessage(pParams,0, IDS_GLOBAL_PASS_NL);
// " Pinging Primary WINS Server %s - reachable\n"
SetMessage(&pIpConfig->msgPingPrimaryWinsServer,
Nd_ReallyVerbose,
IDS_IPCFG_PING_WINS,
pIpConfig->pAdapterInfo->PrimaryWinsServer.IpAddress.String);
}
else
{
pIpConfig->hrPingPrimaryWinsServer = S_FALSE;
if (FHrSucceeded(pIpConfig->hr))
pIpConfig->hr = S_FALSE;
PrintStatusMessage(pParams,0, IDS_GLOBAL_FAIL_NL);
// " Pinging Primary WINS Server %s - not reachable\n"
SetMessage(&pIpConfig->msgPingPrimaryWinsServer,
Nd_Quiet,
IDS_IPCFG_PING_WINS_FAIL,
pIpConfig->pAdapterInfo->PrimaryWinsServer.IpAddress.String);
}
}
if (!ZERO_IP_ADDRESS(pIpConfig->pAdapterInfo->SecondaryWinsServer.IpAddress.String))
{
PrintStatusMessage(pParams,4, IDS_IPCFG_WINS2_STATUS_MSG);
if (IsIcmpResponseA(pIpConfig->pAdapterInfo->SecondaryWinsServer.IpAddress.String))
{
pIpConfig->hrPingSecondaryWinsServer = S_OK;
PrintStatusMessage(pParams,0, IDS_GLOBAL_PASS_NL);
// " Pinging Secondary WINS Server %s - reachable\n"
SetMessage(&pIpConfig->msgPingSecondaryWinsServer,
Nd_ReallyVerbose,
IDS_IPCFG_PING_WINS2,
pIpConfig->pAdapterInfo->SecondaryWinsServer.IpAddress.String);
}
else
{
pIpConfig->hrPingSecondaryWinsServer = S_FALSE;
if (FHrSucceeded(pIpConfig->hr))
pIpConfig->hr = S_FALSE;
PrintStatusMessage(pParams,0, IDS_GLOBAL_FAIL_NL);
// " Pinging Secondary WINS Server %s - not reachable\n"
SetMessage(&pIpConfig->msgPingSecondaryWinsServer,
Nd_Quiet,
IDS_IPCFG_PING_WINS2_FAIL,
pIpConfig->pAdapterInfo->SecondaryWinsServer.IpAddress.String);
}
}
return;
}
LPTSTR MapAdapterAddress(PIP_ADAPTER_INFO pAdapterInfo, LPTSTR Buffer)
{
LPTSTR format;
int separator;
int len;
int i;
LPTSTR pbuf = Buffer;
UINT mask;
len = min((int)pAdapterInfo->AddressLength, sizeof(pAdapterInfo->Address));
mask = 0xff;
separator = TRUE;
switch (pAdapterInfo->Type)
{
case IF_TYPE_ETHERNET_CSMACD:
case IF_TYPE_ISO88025_TOKENRING:
case IF_TYPE_FDDI:
format = _T("%02X");
break;
default:
format = _T("%02x");
break;
}
for (i = 0; i < len; ++i)
{
pbuf += wsprintf(pbuf, format, pAdapterInfo->Address[i] & mask);
if (separator && (i != len - 1))
{
pbuf += wsprintf(pbuf, _T("-"));
}
}
return Buffer;
}
void IpConfigCleanup(IN NETDIAG_PARAMS *pParams,
IN OUT NETDIAG_RESULT *pResults)
{
int i;
IPCONFIG_TST * pIpConfig;
// Free up the global information
// ----------------------------------------------------------------
Free(pResults->IpConfig.pFixedInfo);
pResults->IpConfig.pFixedInfo = NULL;
// free up the list of adapters
// ----------------------------------------------------------------
Free(pResults->IpConfig.pAdapterInfoList);
pResults->IpConfig.pAdapterInfoList = NULL;
// set all of the adapter pointers to NULL
// ----------------------------------------------------------------
for ( i=0; i < pResults->cNumInterfaces; i++)
{
pIpConfig = &pResults->pArrayInterface[i].IpConfig;
FreeIpAddressStringList(pIpConfig->DnsServerList.Next);
pIpConfig->pAdapterInfo = NULL;
ClearMessage(&pIpConfig->msgPingDhcpServer);
ClearMessage(&pIpConfig->msgPingPrimaryWinsServer);
ClearMessage(&pIpConfig->msgPingSecondaryWinsServer);
}
pResults->IpConfig.fInitIpconfigCalled = FALSE;
}
int AddIpAddressString(PIP_ADDR_STRING AddressList, LPSTR Address, LPSTR Mask)
{
PIP_ADDR_STRING ipAddr;
if (AddressList->IpAddress.String[0])
{
for (ipAddr = AddressList; ipAddr->Next; ipAddr = ipAddr->Next)
{
;
}
ipAddr->Next = (PIP_ADDR_STRING) Malloc(sizeof(IP_ADDR_STRING));
if (!ipAddr->Next)
{
return FALSE;
}
ZeroMemory(ipAddr->Next, sizeof(IP_ADDR_STRING));
ipAddr = ipAddr->Next;
}
else
{
ipAddr = AddressList;
}
lstrcpynA(ipAddr->IpAddress.String, Address,
sizeof(ipAddr->IpAddress.String));
lstrcpynA(ipAddr->IpMask.String, Mask,
sizeof(ipAddr->IpMask.String));
return TRUE;
}
VOID FreeIpAddressStringList(PIP_ADDR_STRING pAddressList)
{
PIP_ADDR_STRING pNext;
if (pAddressList == NULL)
return;
do
{
// get the next address
pNext = pAddressList->Next;
// free the current one
Free(pAddressList);
// move onto the next
pAddressList = pNext;
} while( pNext );
return;
}
// Go through the ADAPTER_INFO list to count the number of interfaces
LONG CountInterfaces(PIP_ADAPTER_INFO ListAdapterInfo)
{
LONG cNum = 0;
PIP_ADAPTER_INFO pAdapter;
for(pAdapter = ListAdapterInfo; pAdapter != NULL; pAdapter = pAdapter->Next) {
cNum ++;
}
return cNum;
}
/*!--------------------------------------------------------------------------
InitIpconfig
Description:
This function will get all the ipconfig information by using calls into
iphlpapi.lib.
The iphlpapi.lib returns an IP_ADAPTER_INFO structure which doesnt contain
many fields present int the ADAPTER_INFO structure found in ipconfig code.
Since the majority of the code uses ADAPTER_INFO structure, this fucntion
will copy the values found in IP_ADAPTER_INFO to ADAPTER_INFO.
The values which are not supplied by iphlpapi.lib calls will be obtained
by ourselves.
Arguments:
None.
Author:
05-aug-1998 (t-rajkup)
Creation History:
The function aims at breaking nettest code away from ipconfig code.
Author: NSun
---------------------------------------------------------------------------*/
HRESULT
InitIpconfig(IN NETDIAG_PARAMS *pParams,
IN OUT NETDIAG_RESULT *pResults)
{
DWORD dwError;
ULONG uSize = 0;
int i;
HRESULT hr = hrOK;
LONG cInterfaces;
IP_ADAPTER_INFO * pIpAdapter;
HINSTANCE hDll;
// Just initialize this once
if (pResults->IpConfig.fInitIpconfigCalled == TRUE)
return hrOK;
// LoadLibrary the pfnGuidToFriendlyName
// ----------------------------------------------------------------
hDll = LoadLibrary(_T("netcfgx.dll"));
if (hDll)
{
pfnGuidToFriendlyName = (PFNGUIDTOFRIENDLYNAME) GetProcAddress(hDll, "GuidToFriendlyName");
}
// Get the size of the FIXED_INFO structure and allocate
// some memory for it.
// ----------------------------------------------------------------
GetNetworkParams(NULL, &uSize);
pResults->IpConfig.pFixedInfo = Malloc(uSize);
if (pResults->IpConfig.pFixedInfo == NULL)
return E_OUTOFMEMORY;
ZeroMemory(pResults->IpConfig.pFixedInfo, uSize);
dwError = GetNetworkParams(pResults->IpConfig.pFixedInfo, &uSize);
if (dwError != ERROR_SUCCESS)
{
TCHAR szError[256];
FormatWin32Error(dwError, szError, DimensionOf(szError));
PrintMessage(pParams, IDS_GLOBAL_ERR_InitIpConfig,
szError, dwError);
CheckErr( dwError );
}
// Get the per-interface information from IP
// ----------------------------------------------------------------
GetAdaptersInfo(NULL, &uSize);
pResults->IpConfig.pAdapterInfoList = Malloc(uSize);
if (pResults->IpConfig.pAdapterInfoList == NULL)
{
Free(pResults->IpConfig.pFixedInfo);
CheckHr( E_OUTOFMEMORY );
}
ZeroMemory(pResults->IpConfig.pAdapterInfoList, uSize);
dwError = GetAdaptersInfo(pResults->IpConfig.pAdapterInfoList, &uSize);
if (dwError != ERROR_SUCCESS)
{
TCHAR szError[256];
FormatWin32Error(dwError, szError, DimensionOf(szError));
PrintMessage(pParams, IDS_GLOBAL_ERR_GetAdaptersInfo,
szError, dwError);
CheckErr( dwError );
}
// Now that we have the full list, count the number of interfaces
// and setup the per-interface section of the results structure.
// ----------------------------------------------------------------
cInterfaces = CountInterfaces(pResults->IpConfig.pAdapterInfoList);
// Allocate some additional interfaces (just in case for IPX)
// ----------------------------------------------------------------
pResults->pArrayInterface = Malloc((cInterfaces+8) * sizeof(INTERFACE_RESULT));
if (pResults->pArrayInterface == NULL)
CheckHr( E_OUTOFMEMORY );
ZeroMemory(pResults->pArrayInterface, (cInterfaces+8)*sizeof(INTERFACE_RESULT));
// set the individual interface pointers
// ----------------------------------------------------------------
pResults->cNumInterfaces = cInterfaces;
pResults->cNumInterfacesAllocated = cInterfaces + 8;
pIpAdapter = pResults->IpConfig.pAdapterInfoList;
for (i=0; i<cInterfaces; i++)
{
assert(pIpAdapter);
pResults->pArrayInterface[i].IpConfig.pAdapterInfo = pIpAdapter;
pResults->pArrayInterface[i].fActive = TRUE;
pResults->pArrayInterface[i].IpConfig.fActive = TRUE;
if( FLAG_DONT_SHOW_PPP_ADAPTERS &&
(pIpAdapter->Type == IF_TYPE_PPP))
{
// NDIS Wan adapter... Check to see if it has got any address..
if( ZERO_IP_ADDRESS(pIpAdapter->IpAddressList.IpAddress.String) )
{
// No address ? Dont display this!
pResults->pArrayInterface[i].IpConfig.fActive = FALSE;
// If IP is not active, then don't activate the entire
// adapter. If IPX is active, then it can reactivate
// the adapter.
pResults->pArrayInterface[i].fActive = FALSE;
}
}
pResults->pArrayInterface[i].pszName = StrDup(pIpAdapter->AdapterName);
pResults->pArrayInterface[i].pszFriendlyName =
StrDup( MapGuidToAdapterName(pIpAdapter->AdapterName) );
pIpAdapter = pIpAdapter->Next;
}
// Read the rest of the per adapter information not provided by
// GetAdaptersInfo
// ----------------------------------------------------------------
CheckHr( GetAdditionalInfo(pParams, pResults) );
pResults->IpConfig.fInitIpconfigCalled = TRUE;
pResults->IpConfig.fEnabled = TRUE;
Error:
if (!FHrSucceeded(hr))
{
pResults->IpConfig.fEnabled = FALSE;
IpConfigCleanup(pParams, pResults);
}
return hr;
}
DWORD GetNetbiosOptions(LPSTR paszAdapterName, BOOL * pfNbtOptions)
{
HANDLE h;
OBJECT_ATTRIBUTES objAttr;
IO_STATUS_BLOCK iosb;
STRING name;
UNICODE_STRING uname;
NTSTATUS status;
char path[MAX_PATH];
tWINS_NODE_INFO NodeInfo;
strcpy(path, "\\Device\\NetBT_Tcpip_");
strcat(path, paszAdapterName);
RtlInitString(&name, path);
RtlAnsiStringToUnicodeString(&uname, &name, TRUE);
InitializeObjectAttributes(
&objAttr,
&uname,
OBJ_CASE_INSENSITIVE,
(HANDLE)NULL,
(PSECURITY_DESCRIPTOR)NULL
);
status = NtCreateFile(&h,
SYNCHRONIZE | GENERIC_EXECUTE,
&objAttr,
&iosb,
NULL,
FILE_ATTRIBUTE_NORMAL,
FILE_SHARE_READ | FILE_SHARE_WRITE,
FILE_OPEN_IF,
0,
NULL,
0
);
RtlFreeUnicodeString(&uname);
if (!NT_SUCCESS(status)) {
DEBUG_PRINT(("GetWinsServers: NtCreateFile(path=%s) failed, err=%d\n",
path, GetLastError() ));
return FALSE;
}
status = NtDeviceIoControlFile(h,
NULL,
NULL,
NULL,
&iosb,
IOCTL_NETBT_GET_WINS_ADDR,
NULL,
0,
(PVOID)&NodeInfo,
sizeof(NodeInfo)
);
if (status == STATUS_PENDING) {
status = NtWaitForSingleObject(h, TRUE, NULL);
if (NT_SUCCESS(status)) {
status = iosb.Status;
}
}
NtClose(h);
if (!NT_SUCCESS(status)) {
DEBUG_PRINT(("GetWinsServers: NtDeviceIoControlFile failed, err=%d\n",
GetLastError() ));
return FALSE;
}
*pfNbtOptions = NodeInfo.NetbiosEnabled;
return TRUE;
}
/*!--------------------------------------------------------------------------
GetAdditionalInfo
++
Description:
Read the information not provided by GetAdaptersInfo and also copy the data
into the PADAPTER_INFO structure.
Arguments:
None.
Author:
05-Aug-1998 (t-rajkup)
--
Author: NSun
---------------------------------------------------------------------------*/
HRESULT GetAdditionalInfo(IN NETDIAG_PARAMS *pParams,
IN OUT NETDIAG_RESULT *pResults)
{
PIP_ADAPTER_INFO pIpAdapterInfo;
HKEY key;
char dhcpServerAddress[4 * 4];
BOOL ok;
ULONG length;
DWORD DhcpClassIDLen;
int i;
INTERFACE_RESULT *pInterface = NULL;
for (i=0; i<pResults->cNumInterfaces; i++)
{
pInterface = pResults->pArrayInterface + i;
pIpAdapterInfo = pInterface->IpConfig.pAdapterInfo;
assert(pIpAdapterInfo);
if (pIpAdapterInfo->AdapterName[0] &&
OpenAdapterKey(pIpAdapterInfo->AdapterName, &key) )
{
if( ! ReadRegistryDword(key,
c_szRegIPAutoconfigurationEnabled,
&(pInterface->IpConfig.fAutoconfigEnabled) ))
{
// AUTOCONFIG enabled if no regval exists for this...
pInterface->IpConfig.fAutoconfigEnabled = TRUE;
}
if ( pInterface->IpConfig.fAutoconfigEnabled )
{
ReadRegistryDword(key,
c_szRegAddressType,
&(pInterface->IpConfig.fAutoconfigActive)
);
}
//
// domain: first try Domain then DhcpDomain
//
length = sizeof(pInterface->IpConfig.szDomainName);
ok = ReadRegistryOemString(key,
L"Domain",
pInterface->IpConfig.szDomainName,
&length
);
if (!ok)
{
length = sizeof(pInterface->IpConfig.szDomainName);
ok = ReadRegistryOemString(key,
L"DhcpDomain",
pInterface->IpConfig.szDomainName,
&length
);
}
// DNS Server list.. first try NameServer and then try
// DhcpNameServer..
ok = ReadRegistryIpAddrString(key,
c_szRegNameServer,
&(pInterface->IpConfig.DnsServerList)
);
if (!ok) {
ok = ReadRegistryIpAddrString(key,
c_szRegDhcpNameServer,
&(pInterface->IpConfig.DnsServerList)
);
}
//
// Read the DHCP Class Id for this interface - Rajkumar
//
ZeroMemory(pInterface->IpConfig.szDhcpClassID,
sizeof(pInterface->IpConfig.szDhcpClassID));
ReadRegistryString(key,
c_szRegDhcpClassID,
pInterface->IpConfig.szDhcpClassID,
&DhcpClassIDLen
);
RegCloseKey(key);
//
// before getting the WINS info we must set the NodeType
//
pInterface->IpConfig.uNodeType = pResults->IpConfig.pFixedInfo->NodeType;
}
else
{
// IDS_IPCFG_10003 "Opening registry key for %s failed!\n"
PrintMessage(pParams, IDS_IPCFG_10003,pIpAdapterInfo->AdapterName);
return S_FALSE;
}
//be default, NetBt is enabled
pInterface->fNbtEnabled = TRUE;
GetNetbiosOptions(pIpAdapterInfo->AdapterName, &pInterface->fNbtEnabled);
if (pInterface->fNbtEnabled)
{
pResults->Global.fHasNbtEnabledInterface = TRUE;
}
}
return TRUE;
}
/*!--------------------------------------------------------------------------
IpConfigGlobalPrint
-
Author: KennT
---------------------------------------------------------------------------*/
void IpConfigGlobalPrint(IN NETDIAG_PARAMS *pParams,
IN OUT NETDIAG_RESULT *pResults)
{
PFIXED_INFO pFixedInfo = pResults->IpConfig.pFixedInfo;
if (pParams->fReallyVerbose)
{
PrintNewLine(pParams, 2);
// IDS_IPCFG_10005 "IP General configuration \n"
// IDS_IPCFG_10006 " LMHOSTS Enabled :"
PrintMessage(pParams, IDS_IPCFG_10005);
PrintMessage(pParams, IDS_IPCFG_10006);
if (pResults->Global.dwLMHostsEnabled)
PrintMessage(pParams, IDS_GLOBAL_YES_NL);
else
PrintMessage(pParams, IDS_GLOBAL_NO_NL);
// IDS_IPCFG_10009 " DNS for WINS resolution:"
PrintMessage(pParams, IDS_IPCFG_10009);
if (pResults->Global.dwDnsForWINS)
PrintMessage(pParams, IDS_GLOBAL_ENABLED_NL);
else
PrintMessage(pParams, IDS_GLOBAL_DISABLED_NL);
// NBT node type
// ------------------------------------------------------------
PrintMessage(pParams, IDSSZ_IPCFG_NODETYPE,
MapWinsNodeType(pFixedInfo->NodeType));
// NBT scope id
// ------------------------------------------------------------
PrintMessage(pParams, IDSSZ_IPCFG_NBTSCOPEID,
MapScopeId(pFixedInfo->ScopeId));
// ip routing
// ------------------------------------------------------------
PrintMessage(pParams, IDSSZ_IPCFG_RoutingEnabled,
MAP_YES_NO(pFixedInfo->EnableRouting));
// WINS proxy
// ------------------------------------------------------------
PrintMessage(pParams, IDSSZ_IPCFG_WinsProxyEnabled,
MAP_YES_NO(pFixedInfo->EnableProxy));
// DNS resolution for apps using NetBIOS
// ------------------------------------------------------------
PrintMessage(pParams, IDSSZ_IPCFG_DnsForNetBios,
MAP_YES_NO(pFixedInfo->EnableDns));
// separate fixed and adapter information with an empty line
// ------------------------------------------------------------
PrintMessage(pParams, IDS_GLOBAL_EmptyLine);
}
}
/*!--------------------------------------------------------------------------
IpConfigPerInterfacePrint
-
Author: KennT
---------------------------------------------------------------------------*/
void IpConfigPerInterfacePrint(IN NETDIAG_PARAMS *pParams,
IN NETDIAG_RESULT *pResults,
IN INTERFACE_RESULT *pInterfaceResults)
{
PIP_ADDR_STRING dnsServer;
PFIXED_INFO pFixedInfo = pResults->IpConfig.pFixedInfo;
IP_ADAPTER_INFO* pIpAdapterInfo;
PIP_ADDR_STRING ipAddr;
IPCONFIG_TST * pIpCfgResults;
ULONG uDefGateway, uAddress, uMask;
DWORD dwDefGateway, dwAddress, dwMask;
int ids;
pIpAdapterInfo = pInterfaceResults->IpConfig.pAdapterInfo;
pIpCfgResults = &(pInterfaceResults->IpConfig);
if (!pIpCfgResults->fActive)
return;
PrintNewLine(pParams, 1);
if(pParams->fReallyVerbose)
{
// IDS_IPCFG_10012 " Adapter type : %s\n"
PrintMessage(pParams, IDS_IPCFG_10012,
MapAdapterType(pIpAdapterInfo->Type));
}
PrintMessage(pParams, IDSSZ_IPCFG_HostName,
pFixedInfo->HostName,
pIpCfgResults->szDomainName[0] ? _T(".") : _T(""),
pIpCfgResults->szDomainName[0] ?
pIpCfgResults->szDomainName : _T(""));
// return;
if (pParams->fReallyVerbose)
{
// IDS_IPCFG_10014 " Description : %s\n"
PrintMessage(pParams, IDS_IPCFG_10014, pIpAdapterInfo->Description );
if (pIpAdapterInfo->AddressLength)
{
char buffer[MAX_ADAPTER_ADDRESS_LENGTH * sizeof(_T("02-"))];
// IDS_IPCFG_10015 " Physical Address : %s\n"
PrintMessage(pParams, IDS_IPCFG_10015,
MapAdapterAddress(pIpAdapterInfo, buffer));
}
// IDS_IPCFG_10016 " Dhcp Enabled : %s\n"
PrintMessage(pParams, IDS_IPCFG_10016,
MAP_YES_NO(pIpAdapterInfo->DhcpEnabled));
// IDS_IPCFG_10017 " DHCP ClassID : %s\n"
PrintMessage(pParams, IDS_IPCFG_10017, pIpCfgResults->szDhcpClassID);
// IDS_IPCFG_10018 " Autoconfiguration Enabled : %s\n"
PrintMessage(pParams, IDS_IPCFG_10018,
MAP_YES_NO(pIpCfgResults->fAutoconfigEnabled));
}
//
// the following 3 items are the only items displayed (per adapter) if
// /all was NOT requested on the command line
//
for (ipAddr = &pIpAdapterInfo->IpAddressList;
ipAddr;
ipAddr = ipAddr->Next)
{
if (pIpCfgResults->fAutoconfigActive)
// IDS_IPCFG_10019 " Autoconfiguration IP Address : %s\n"
PrintMessage(pParams, IDS_IPCFG_10019,ipAddr->IpAddress.String);
else
// IDS_IPCFG_10020 " IP Address : %s\n"
PrintMessage(pParams, IDS_IPCFG_10020,ipAddr->IpAddress.String);
// IDS_IPCFG_10021 " Subnet Mask : %s\n"
PrintMessage(pParams, IDS_IPCFG_10021, ipAddr->IpMask.String );
}
//
// there will only be one default gateway
//
// IDS_IPCFG_10022 " Default Gateway : %s\n"
PrintMessage(pParams, IDS_IPCFG_10022,
pIpAdapterInfo->GatewayList.IpAddress.String );
if (pParams->fReallyVerbose)
{
if (pIpAdapterInfo->DhcpEnabled && FALSE == pIpCfgResults->fAutoconfigActive) {
//
// there will only be 1 DHCP server (that we get info from)
//
// IDS_IPCFG_10023 " DHCP Server : %s\n"
PrintMessage(pParams, IDS_IPCFG_10023,
pIpAdapterInfo->DhcpServer.IpAddress.String );
}
}
//
// there is only 1 primary and 1 secondary WINS server
//
// if (pParams->fReallyVerbose)
{
if (pIpAdapterInfo->PrimaryWinsServer.IpAddress.String[0]
&& !ZERO_IP_ADDRESS(pIpAdapterInfo->PrimaryWinsServer.IpAddress.String))
{
// IDS_IPCFG_10024 " Primary WINS Server : %s\n"
PrintMessage(pParams, IDS_IPCFG_10024,
pIpAdapterInfo->PrimaryWinsServer.IpAddress.String );
}
if (pIpAdapterInfo->SecondaryWinsServer.IpAddress.String[0]
&& !ZERO_IP_ADDRESS(pIpAdapterInfo->SecondaryWinsServer.IpAddress.String)) {
// IDS_IPCFG_10025 " Secondary WINS Server : %s\n"
PrintMessage(pParams, IDS_IPCFG_10025,
pIpAdapterInfo->SecondaryWinsServer.IpAddress.String);
}
if (!pInterfaceResults->fNbtEnabled)
{
//IDS_IPCFG_NBT_DISABLED " NetBIOS over Tcpip . . . . : Disabled\n"
PrintMessage(pParams, IDS_IPCFG_NBT_DISABLED);
}
}
//
// only display lease times if this adapter is DHCP enabled and we
// have a non-0 IP address and not using autoconfigured address..
//
if (pParams->fReallyVerbose) {
if (pIpAdapterInfo->DhcpEnabled
&& !ZERO_IP_ADDRESS(pIpAdapterInfo->IpAddressList.IpAddress.String)
&& !pIpCfgResults->fAutoconfigActive) {
// IDS_IPCFG_10026 " Lease Obtained : %s\n"
PrintMessage(pParams, IDS_IPCFG_10026 ,
MapTime(pIpAdapterInfo->LeaseObtained) );
// IDS_IPCFG_10027 " Lease Expires : %s\n"
PrintMessage(pParams, IDS_IPCFG_10027,
MapTime(pIpAdapterInfo->LeaseExpires) );
}
}
//
// display the list of DNS servers. If the list came from SYSTEM.INI then
// just display that, else if the list came from DHCP.BIN, get all DNS
// servers for all NICs and display the compressed list
//
PrintMessage(pParams, IDS_IPCFG_DnsServers);
if (pIpCfgResults->DnsServerList.IpAddress.String[0])
{
dnsServer = &pIpCfgResults->DnsServerList;
// print out the first one
PrintMessage(pParams, IDSSZ_GLOBAL_StringLine,
dnsServer->IpAddress.String);
dnsServer = dnsServer->Next;
for ( ;
dnsServer;
dnsServer = dnsServer->Next)
{
// IDS_IPCFG_10013 " "
PrintMessage(pParams, IDS_IPCFG_10013);
PrintMessage(pParams, IDSSZ_GLOBAL_StringLine, dnsServer->IpAddress.String);
}
}
PrintNewLine(pParams, 1);
// If this is a verbose output, or if an error occurred with
// any of the tests then we will need a header
// -----------------------------------------------------------------
if (pParams->fReallyVerbose || !FHrOK(pIpCfgResults->hr))
{
// IDS_IPCFG_10029 " IpConfig results : "
PrintMessage(pParams, IDS_IPCFG_10029);
if (FHrOK(pIpCfgResults->hr))
ids = IDS_GLOBAL_PASS_NL;
else
ids = IDS_GLOBAL_FAIL_NL;
PrintMessage(pParams, ids);
}
//
// Ping the dhcp server
//
PrintNdMessage(pParams, &pInterfaceResults->IpConfig.msgPingDhcpServer);
//
// Ping the WINS servers
//
PrintNdMessage(pParams, &pInterfaceResults->IpConfig.msgPingPrimaryWinsServer);
PrintNdMessage(pParams, &pInterfaceResults->IpConfig.msgPingSecondaryWinsServer);
//
// Test to see if the gateway is on the same subnet as our IP address
//
if (!FHrOK(pInterfaceResults->IpConfig.hrDefGwSubnetCheck))
{
PrintNewLine(pParams, 1);
if (pIpAdapterInfo->DhcpEnabled)
PrintMessage(pParams, IDS_IPCFG_WARNING_BOGUS_SUBNET_DHCP);
else
PrintMessage(pParams, IDS_IPCFG_WARNING_BOGUS_SUBNET);
}
//
// if there's more to come, separate lists with empty line
//
PrintNewLine(pParams, 1);
}
/*!--------------------------------------------------------------------------
ZERO_IP_ADDRESS
-
Author: KennT
---------------------------------------------------------------------------*/
BOOL ZERO_IP_ADDRESS(LPCTSTR pszIp)
{
return (pszIp == NULL) ||
(*pszIp == 0) ||
(strcmp(pszIp, _T("0.0.0.0")) == 0);
}