Source code of Windows XP (NT5)
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/*++
Copyright (c) 1999 Microsoft Corporation
Module Name:
display.c
Abstract:
format the network info for display
--*/
#include <precomp.h>
#define STATIC_BUFFER_LENGTH 100
LCID GetSupportedUserLocale(void);
DWORD
NodeTypeMap[][2] = {
NodeTypeUnknown, MSG_NODE_TYPE_UNKNOWN,
NodeTypeBroadcast, MSG_NODE_TYPE_BROADCAST,
NodeTypeMixed, MSG_NODE_TYPE_MIXED,
NodeTypeHybrid, MSG_NODE_TYPE_HYBRID,
NodeTypePeerPeer, MSG_NODE_TYPE_PEER_PEER
};
DWORD
IfTypeMap[][2] = {
IfTypeUnknown, MSG_IF_TYPE_UNKNOWN,
IfTypeOther, MSG_IF_TYPE_OTHER,
IfTypeEthernet, MSG_IF_TYPE_ETHERNET,
IfTypeTokenring, MSG_IF_TYPE_TOKENRING,
IfTypeFddi, MSG_IF_TYPE_FDDI,
IfTypeLoopback, MSG_IF_TYPE_LOOPBACK,
IfTypePPP, MSG_IF_TYPE_PPP,
IfTypeSlip, MSG_IF_TYPE_SLIP,
IfTypeTunnel, MSG_IF_TYPE_TUNNEL,
IfType1394, MSG_IF_TYPE_OTHER
};
DWORD
InternalErrorMap[][2] = {
GlobalHostNameFailure, MSG_FAILURE_HOST_NAME,
GlobalDomainNameFailure, MSG_FAILURE_DOM_NAME,
GlobalEnableRouterFailure, MSG_FAILURE_ENABLE_ROUTER,
GlobalEnableDnsFailure, MSG_FAILURE_ENABLE_DNS,
GlobalIfTableFailure, MSG_FAILURE_IF_TABLE,
GlobalIfInfoFailure, MSG_FAILURE_IF_INFO,
GlobalAddrTableFailure, MSG_FAILURE_ADDR_TABLE,
GlobalRouteTableFailure, MSG_FAILURE_ROUTE_TABLE,
InterfaceUnknownType, MSG_FAILURE_UNKNOWN_IF,
InterfaceUnknownFriendlyName, MSG_FAILURE_UNKNOWN_NAME,
InterfaceUnknownMediaStatus, MSG_FAILURE_UNKNOWN_MEDIA_STATUS,
InterfaceUnknownTcpipDevice, MSG_FAILURE_UNKNOWN_TCPIP_DEVICE,
InterfaceOpenTcpipKeyReadFailure, MSG_FAILURE_OPEN_KEY,
InterfaceDhcpValuesFailure, MSG_FAILURE_DHCP_VALUES,
InterfaceDnsValuesFailure, MSG_FAILURE_DNS_VALUES,
InterfaceWinsValuesFailure, MSG_FAILURE_WINS_VALUES,
InterfaceAddressValuesFailure, MSG_FAILURE_ADDRESS_VALUES,
InterfaceRouteValuesFailure, MSG_FAILURE_ROUTE_VALUES,
NoSpecificError, MSG_FAILURE_NO_SPECIFIC,
};
#define Dimension(X) (sizeof(X)/sizeof(X[0]))
DWORD
MapNodeType(
IN DWORD NodeType
)
{
DWORD i;
for( i = 0; i < Dimension(NodeTypeMap); i ++ )
if( NodeTypeMap[i][0] == NodeType ) return NodeTypeMap[i][1];
return MSG_NODE_TYPE_UNKNOWN;
}
static DWORD
MapIfType(
IN DWORD IfType
)
{
DWORD i;
for( i = 0; i < Dimension(IfTypeMap); i ++ )
if( IfTypeMap[i][0] == IfType ) return IfTypeMap[i][1];
return MSG_IF_TYPE_UNKNOWN;
}
DWORD
MapInternalError(
IN DWORD InternalError
)
{
DWORD i;
for( i = 0; i < Dimension(InternalErrorMap); i ++ )
if( InternalErrorMap[i][0] == InternalError ) {
return InternalErrorMap[i][1];
}
return 0;
}
DWORD
DumpMessage(
IN LPWSTR Buffer,
IN ULONG BufSize,
IN ULONG MsgId,
...
)
{
va_list ArgPtr;
ULONG Count;
va_start(ArgPtr, MsgId);
Count = wcslen(Buffer);
Buffer += Count; BufSize -= Count;
Count = FormatMessageW(
FORMAT_MESSAGE_FROM_HMODULE, NULL, // use default module
MsgId, 0 /* default language */, Buffer, BufSize, &ArgPtr );
if( Count == 0 ) return GetLastError();
return NO_ERROR;
}
DWORD
DumpMessageError(
IN LPWSTR Buffer,
IN ULONG BufSize,
IN ULONG MsgId,
IN ULONG_PTR Error,
IN PVOID Arg OPTIONAL
)
{
va_list ArgPtr;
ULONG Count;
WCHAR ErrorString[200];
Count = FormatMessageW(
FORMAT_MESSAGE_FROM_SYSTEM, NULL, // use default Module
(ULONG)Error, 0 /* default language */, ErrorString, 200,
NULL );
if( 0 == Count ) swprintf((LPWSTR)ErrorString, (LPWSTR)L"0x%lx.", Error);
Error = (ULONG_PTR)ErrorString;
return DumpMessage( Buffer, BufSize, MsgId, Error, Arg );
}
DWORD
DumpErrorMessage(
IN LPWSTR Buffer,
IN ULONG BufSize,
IN ULONG InternalError,
IN ULONG Win32Error
)
{
ULONG Count;
WCHAR ErrorString[200];
Count = FormatMessageW(
FORMAT_MESSAGE_FROM_SYSTEM, NULL, // use default Module
Win32Error, 0 /* default language */, ErrorString, 200,
NULL );
if( 0 == Count ) swprintf((LPWSTR)ErrorString, (LPWSTR)L"0x%lx.", Win32Error);
return DumpMessage(
Buffer, BufSize, MapInternalError(InternalError),
(LPWSTR)ErrorString );
}
LPWSTR
MapIp(
IN DWORD IpAddress, // network order
IN LPWSTR Buffer
)
{
LPSTR Ip = inet_ntoa( *(struct in_addr*)&IpAddress);
if( NULL == Ip ) wcscpy(Buffer, (LPWSTR)L"0.0.0.0" );
else {
MultiByteToWideChar(
CP_ACP, 0, Ip, -1, Buffer, STATIC_BUFFER_LENGTH );
}
return Buffer;
}
LPWSTR
MapIpv6(
IN LPSOCKADDR_IN6 SockAddr,
IN LPWSTR Buffer
)
{
DWORD BufferLength = STATIC_BUFFER_LENGTH;
DWORD Error;
static DWORD Initialized = FALSE;
if (!Initialized) {
WSADATA WsaData;
WSAStartup(MAKEWORD(2,0), &WsaData);
Initialized = TRUE;
}
Error = WSAAddressToStringW((LPSOCKADDR)SockAddr,
sizeof(SOCKADDR_IN6),
NULL,
Buffer,
&BufferLength);
if (Error != NO_ERROR) {
Error = WSAGetLastError();
wcscpy(Buffer, L"?");
}
return Buffer;
}
DWORD
GetCommandArgConstants(
IN OUT PCMD_ARGS Args
)
{
DWORD Error, i;
struct _local_struct {
LPWSTR *Str;
DWORD MsgId;
} Map[] = {
&Args->All, MSG_CMD_ALL,
&Args->Renew, MSG_CMD_RENEW,
&Args->Release, MSG_CMD_RELEASE,
&Args->FlushDns, MSG_CMD_FLUSHDNS,
&Args->DisplayDns, MSG_CMD_DISPLAYDNS,
&Args->Register, MSG_CMD_REGISTER,
&Args->ShowClassId, MSG_CMD_SHOWCLASSID,
&Args->SetClassId, MSG_CMD_SETCLASSID,
&Args->Debug, MSG_CMD_DEBUG,
&Args->Usage, MSG_CMD_USAGE,
&Args->UsageErr, MSG_CMD_USAGE_ERR,
NULL, 0
};
i = 0;
while( Map[i].Str ) {
Error = FormatMessageW(
FORMAT_MESSAGE_FROM_HMODULE |
FORMAT_MESSAGE_ALLOCATE_BUFFER,
NULL, // use default module
Map[i].MsgId, 0 /* default language */,
(LPVOID)Map[i].Str, 0, NULL );
if( 0 == Error ) return GetLastError();
i ++;
}
return NO_ERROR;
}
DWORD
FormatTime(
IN FILETIME *Time,
IN LPWSTR TimeStr,
IN ULONG TimeStrSize
)
{
DWORD Count;
FILETIME FileTime;
SYSTEMTIME SysTime;
FileTimeToLocalFileTime( Time, &FileTime );
FileTimeToSystemTime( &FileTime, &SysTime );
Count = GetDateFormat(
GetSupportedUserLocale(), DATE_LONGDATE, &SysTime, NULL,
TimeStr, TimeStrSize );
if( Count == 0 ) return GetLastError();
if( Count == TimeStrSize ) return ERROR_INSUFFICIENT_BUFFER;
TimeStr+= Count-1;
TimeStrSize -= Count;
*TimeStr++ = L' ';
Count = GetTimeFormat(
GetSupportedUserLocale(), 0, &SysTime, NULL, TimeStr,
TimeStrSize );
if( Count == 0 ) return GetLastError();
return NO_ERROR;
}
VOID
FormatPerInterfaceInfo(
IN OUT LPWSTR Buffer,
IN ULONG BufSize, // in WCHARs
IN PINTERFACE_NETWORK_INFO IfInfo,
IN BOOL fVerbose,
IN BOOL fDebug
)
{
LPWSTR Str;
WCHAR Phys[STATIC_BUFFER_LENGTH];
DWORD i, MsgId, Addr, Error, HeaderDisplayed;
//
// Skip tunnels with no addresses.
//
if (!fVerbose && (IfInfo->IfType == IfTypeTunnel) &&
(IfInfo->nIpv6Addresses == 0) && (IfInfo->nIpAddresses == 0))
return;
if( NULL != IfInfo->ConnectionName &&
IfInfo->ConnectionName[0] != L'\0')
Str = IfInfo->ConnectionName;
else
Str = IfInfo->DeviceGuidName;
//
// adapter title
//
DumpMessage(
Buffer, BufSize, MapIfType(IfInfo->IfType), Str );
if( fDebug ) {
DumpMessage(
Buffer, BufSize, MSG_DEVICE_GUID,
IfInfo->DeviceGuidName );
}
//
// media status
//
if( IfInfo->MediaDisconnected ) {
DumpMessage(
Buffer, BufSize, MSG_MEDIA_DISCONNECTED );
}
//
// domain name
//
if( fDebug || !IfInfo->MediaDisconnected ) {
DumpMessage(
Buffer, BufSize, MSG_DOMAIN_NAME, IfInfo->DnsSuffix );
}
if( fVerbose ) {
//
// card name
//
Str = IfInfo->FriendlyName;
if( NULL != Str ) {
DumpMessage(
Buffer, BufSize, MSG_FRIENDLY_NAME, Str );
}
//
// mac address
//
Str = (LPWSTR)Phys;
if( IfInfo->PhysicalNameLength ) {
for( i = 0; i < IfInfo->PhysicalNameLength; i ++ ) {
swprintf(Str, (LPWSTR) L"%02X-", (UCHAR)IfInfo->PhysicalName[i] );
Str += 3;
}
Str --; *Str = L'\0';
DumpMessage(
Buffer, BufSize, MSG_PHYSICAL_ADDRESS, (LPWSTR)Phys );
}
//
// dhcp and autoconfig enabled status
//
if( !IfInfo->MediaDisconnected ) {
MsgId = MSG_DHCP_DISABLED + IfInfo->EnableDhcp;
DumpMessage( Buffer, BufSize, MsgId );
if( IfInfo->EnableDhcp ) {
MsgId = MSG_AUTOCONFIG_DISABLED + IfInfo->EnableAutoconfig;
DumpMessage( Buffer, BufSize, MsgId );
}
}
}
if( IfInfo->MediaDisconnected && !fDebug ) return;
//
// ip address and mask
//
if( IfInfo->IpAddress && IfInfo->nIpAddresses ) {
for( i = IfInfo->nIpAddresses-1; i > 0; i -- ) {
DumpMessage(
Buffer, BufSize, MSG_IP_ADDRESS,
MapIp(IfInfo->IpAddress[i], (LPWSTR) Phys) );
if( IfInfo->nIpMasks <= i ) Addr = 0;
else Addr = IfInfo->IpMask[i];
DumpMessage(
Buffer, BufSize, MSG_SUBNET_MASK,
MapIp(Addr, (LPWSTR) Phys ));
}
if( IfInfo->AutoconfigActive ) MsgId = MSG_AUTO_ADDRESS;
else MsgId = MSG_IP_ADDRESS;
DumpMessage(
Buffer, BufSize, MsgId,
MapIp(*IfInfo->IpAddress, (LPWSTR) Phys) );
if( NULL != IfInfo->IpMask ) Addr = *IfInfo->IpMask;
else Addr = 0;
DumpMessage(
Buffer, BufSize, MSG_SUBNET_MASK,
MapIp(Addr, (LPWSTR) Phys) );
}
if( IfInfo->Ipv6Address && IfInfo->nIpv6Addresses ) {
for( i = 0; i < IfInfo->nIpv6Addresses; i ++ ) {
DumpMessage(
Buffer, BufSize, MSG_IP_ADDRESS,
MapIpv6(&IfInfo->Ipv6Address[i], (LPWSTR) Phys) );
}
}
//
// default gateways
//
HeaderDisplayed = FALSE;
for( i = 0; i < IfInfo->nRouters; i ++ ) {
if (!HeaderDisplayed) {
DumpMessage(
Buffer, BufSize, MSG_DEFAULT_GATEWAY,
MapIp( IfInfo->Router[i], (LPWSTR)Phys));
HeaderDisplayed = TRUE;
} else {
DumpMessage(
Buffer, BufSize, MSG_ADDITIONAL_ENTRY,
MapIp( IfInfo->Router[i], (LPWSTR)Phys) );
}
}
for( i = 0; i < IfInfo->nIpv6Routers; i ++ ) {
if (!HeaderDisplayed) {
DumpMessage(
Buffer, BufSize, MSG_DEFAULT_GATEWAY,
MapIpv6( &IfInfo->Ipv6Router[i], (LPWSTR)Phys));
HeaderDisplayed = TRUE;
} else {
DumpMessage(
Buffer, BufSize, MSG_ADDITIONAL_ENTRY,
MapIpv6( &IfInfo->Ipv6Router[i], (LPWSTR)Phys) );
}
}
if (!HeaderDisplayed) {
DumpMessage(Buffer, BufSize, MSG_DEFAULT_GATEWAY, L"");
}
//
// dhcp classid
//
if( NULL != IfInfo->DhcpClassId ) {
DumpMessage(
Buffer, BufSize, MSG_DHCP_CLASS_ID,
IfInfo->DhcpClassId );
}
if( !fVerbose ) return;
//
// dhcp server and dns servers
//
if( IfInfo->EnableDhcp && !IfInfo->AutoconfigActive ) {
DumpMessage(
Buffer, BufSize, MSG_DHCP_SERVER,
MapIp( IfInfo->DhcpServer, (LPWSTR)Phys) );
}
HeaderDisplayed = FALSE;
if( IfInfo->nDnsServers && IfInfo->DnsServer) {
DumpMessage(
Buffer, BufSize, MSG_DNS_SERVERS,
MapIp( IfInfo->DnsServer[0], (LPWSTR)Phys) );
HeaderDisplayed = TRUE;
for( i = 1; i < IfInfo->nDnsServers; i ++ ) {
DumpMessage(
Buffer, BufSize, MSG_ADDITIONAL_ENTRY,
MapIp( IfInfo->DnsServer[i], (LPWSTR)Phys) );
}
}
if( IfInfo->nIpv6DnsServers && IfInfo->Ipv6DnsServer) {
for( i = 0; i < IfInfo->nIpv6DnsServers; i ++ ) {
if (!HeaderDisplayed) {
DumpMessage(
Buffer, BufSize, MSG_DNS_SERVERS,
MapIpv6( &IfInfo->Ipv6DnsServer[i], (LPWSTR)Phys) );
HeaderDisplayed = TRUE;
} else {
DumpMessage(
Buffer, BufSize, MSG_ADDITIONAL_ENTRY,
MapIpv6( &IfInfo->Ipv6DnsServer[i], (LPWSTR)Phys) );
}
}
}
//
// wins info
//
if( IfInfo->nWinsServers && IfInfo->WinsServer ) {
DumpMessage(
Buffer, BufSize, MSG_WINS_SERVER_1,
MapIp( IfInfo->WinsServer[0], (LPWSTR)Phys) );
}
if( IfInfo->nWinsServers > 1 && IfInfo->WinsServer ) {
DumpMessage(
Buffer, BufSize, MSG_WINS_SERVER_2,
MapIp( IfInfo->WinsServer[1], (LPWSTR)Phys) );
for( i = 2; i < IfInfo->nWinsServers; i ++ ) {
DumpMessage(
Buffer, BufSize, MSG_ADDITIONAL_ENTRY,
MapIp( IfInfo->WinsServer[i], (LPWSTR)Phys) );
}
}
if( !IfInfo->EnableNbtOverTcpip ) {
DumpMessage(
Buffer, BufSize, MSG_NETBIOS_DISABLED );
}
if( IfInfo->EnableDhcp && !IfInfo->AutoconfigActive
&& IfInfo->nIpAddresses && IfInfo->IpAddress &&
IfInfo->IpAddress[0] ) {
WCHAR TimeString[STATIC_BUFFER_LENGTH];
Error = FormatTime(
(FILETIME *)(&IfInfo->LeaseObtainedTime), (LPWSTR)TimeString, STATIC_BUFFER_LENGTH);
if( NO_ERROR == Error ) {
DumpMessage(
Buffer, BufSize, MSG_LEASE_OBTAINED, TimeString );
}
Error = FormatTime(
(FILETIME *)(&IfInfo->LeaseExpiresTime), (LPWSTR)TimeString, STATIC_BUFFER_LENGTH);
if( NO_ERROR == Error ) {
DumpMessage(
Buffer, BufSize, MSG_LEASE_EXPIRES, TimeString );
}
}
}
#define MIN_XTRA_SPACE 1000
DWORD
FormatNetworkInfo(
IN OUT LPWSTR Buffer,
IN ULONG BufSize, // in WCHARs
IN PNETWORK_INFO NetInfo,
IN DWORD Win32Error,
IN DWORD InternalError,
IN BOOL fVerbose,
IN BOOL fDebug
)
{
DWORD i;
LPWSTR Str;
if( Win32Error || InternalError ) {
DumpErrorMessage(
Buffer, BufSize, InternalError, Win32Error );
if( !fDebug ) return NO_ERROR;
}
if( NULL == NetInfo ) return NO_ERROR;
if( fDebug ) fVerbose = TRUE;
//
// dump globals
//
if( fVerbose ) {
DumpMessage(
Buffer, BufSize, MSG_HOST_NAME, NetInfo->HostName );
DumpMessage(
Buffer, BufSize, MSG_PRIMARY_DNS_SUFFIX,
NetInfo->DomainName );
DumpMessage(
Buffer, BufSize, MapNodeType(NetInfo->NodeType) );
DumpMessage(
Buffer, BufSize, MSG_ROUTING_DISABLED +
NetInfo->EnableRouting );
if (NetInfo->EnableProxy) {
DumpMessage(
Buffer, BufSize, MSG_WINS_PROXY_ENABLED);
} else {
DumpMessage(
Buffer, BufSize, MSG_WINS_PROXY_DISABLED);
}
if( NULL != NetInfo->SuffixSearchList ) {
DumpMessage(
Buffer, BufSize, MSG_DNS_SUFFIX_LIST,
NetInfo->SuffixSearchList );
Str = NetInfo->SuffixSearchList;
Str += wcslen(Str); Str++;
while( wcslen(Str) ) {
DumpMessage(
Buffer, BufSize, MSG_ADDITIONAL_ENTRY, Str );
Str += wcslen(Str); Str ++;
}
}
}
//
// dump per interface stuff
//
for( i = 0; i < NetInfo->nInterfaces; i++ ) {
if( NULL != NetInfo->IfInfo &&
NULL != NetInfo->IfInfo[i] ) {
FormatPerInterfaceInfo(
Buffer, BufSize, NetInfo->IfInfo[i], fVerbose, fDebug );
}
}
if( wcslen(Buffer) + MIN_XTRA_SPACE > BufSize ) {
return ERROR_MORE_DATA;
}
return NO_ERROR;
}
/*******************************************************************************
*
*
* GetSupportedUserLocale
*
* If LOCALE_USER_DEFAULT is not supported in the console it will return
* English US (409)
*
*******************************************************************************/
LCID GetSupportedUserLocale(void)
{
LCID lcid = GetUserDefaultLCID();
if (
(PRIMARYLANGID(lcid) == LANG_ARABIC) ||
(PRIMARYLANGID(lcid) == LANG_HEBREW) ||
(PRIMARYLANGID(lcid) == LANG_THAI) ||
(PRIMARYLANGID(lcid) == LANG_HINDI) ||
(PRIMARYLANGID(lcid) == LANG_TAMIL) ||
(PRIMARYLANGID(lcid) == LANG_FARSI)
)
{
lcid = MAKELCID (MAKELANGID(LANG_ENGLISH, SUBLANG_DEFAULT), SORT_DEFAULT); // 0x409;
}
return lcid;
}