Leaked source code of windows server 2003
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/*******************************************************************/
/* Copyright(c) 1993 Microsoft Corporation */
/*******************************************************************/
//***
//
// Filename: ipxcp.c
//
// Description: implements the IPX network layer configuration
//
//
// Author: Stefan Solomon (stefans) November 24, 1993.
//
// Revision History:
//
//***
#include "precomp.h"
#pragma hdrstop
// keep track is we already have an active dialout port as a client
DWORD WorkstationDialoutActive = 0;
// Keep track of the number of clients currently connected
DWORD dwClientCount = 0;
// Used to assign remote wan workstations node numbers
extern DWORD LastNodeAssigned;
extern BOOL bAssignSpecificNode;
VOID (*PPPCompletionRoutine)(HCONN hPortOrBundle,
DWORD Protocol,
PPP_CONFIG * pSendConfig,
DWORD dwError);
HANDLE PPPThreadHandle = INVALID_HANDLE_VALUE;
// Handle to queue that holds configuration changes that need to
// be made when the client count goes to zero next.
HANDLE hConfigQueue = NULL;
// Function obtained from the router manager to update global
// config
extern DWORD (WINAPI *RmUpdateIpxcpConfig)(PIPXCP_ROUTER_CONFIG_PARAMS pParams);
HANDLE g_hRouterLog = NULL;
DWORD
WanNetReconfigure();
DWORD
IpxCpBegin(OUT VOID **ppWorkBuf,
IN VOID *pInfo);
DWORD
IpxCpEnd(IN VOID *pWorkBuffer);
DWORD
IpxCpReset(IN VOID *pWorkBuffer);
DWORD
IpxCpThisLayerUp(IN VOID *pWorkBuffer);
DWORD
IpxCpThisLayerDown(IN VOID *pWorkBuffer);
DWORD
IpxCpMakeConfigRequest(IN VOID *pWorkBuffer,
OUT PPP_CONFIG *pRequestBufffer,
IN DWORD cbRequestBuffer);
DWORD
IpxCpMakeConfigResult(IN VOID *pWorkBuffer,
IN PPP_CONFIG *pReceiveBuffer,
OUT PPP_CONFIG *pResultBuffer,
IN DWORD cbResultBuffer,
IN BOOL fRejectNaks);
DWORD
IpxCpConfigNakReceived(IN VOID *pWorkBuffer,
IN PPP_CONFIG *pReceiveBuffer);
DWORD
IpxCpConfigAckReceived(IN VOID *pWorkBuffer,
IN PPP_CONFIG *pReceiveBuffer);
DWORD
IpxCpConfigRejReceived(IN VOID *pWorkBuffer,
IN PPP_CONFIG *pReceiveBuffer);
DWORD
IpxCpGetNegotiatedInfo(IN VOID *pWorkBuffer,
OUT VOID * pIpxCpResult );
DWORD
IpxCpProjectionNotification(IN VOID *pWorkBuf,
IN VOID *pProjectionResult);
#define ERROR_INVALID_OPTION 1
#define ERROR_INVALID_OPTLEN 2
DWORD
ValidOption(UCHAR option,
UCHAR optlen);
BOOL
DesiredOption(UCHAR option, USHORT *indexp);
USHORT
DesiredConfigReqLength();
DWORD
IpxCpUpdateGlobalConfig( VOID );
DWORD
IpxcpUpdateQueuedGlobalConfig();
// Update Flags
#define FLAG_UPDATE_WANNET 0x1
#define FLAG_UPDATE_ROUTER 0x2
typedef BOOL (*OPTION_HANDLER)(PUCHAR optptr,
PIPXCP_CONTEXT contextp,
PUCHAR resptr,
OPT_ACTION Action);
static OPTION_HANDLER OptionHandler[] =
{
NULL,
NetworkNumberHandler,
NodeNumberHandler,
CompressionProtocolHandler,
RoutingProtocolHandler,
NULL, // RouterName - not a DESIRED parammeter
ConfigurationCompleteHandler
};
UCHAR nullnet[] = { 0x00, 0x00, 0x00, 0x00 };
UCHAR nullnode[] = { 0x00, 0x00, 0x00, 0x00, 0x00, 0x00 };
USHORT MaxDesiredParameters = MAX_DESIRED_PARAMETERS;
CRITICAL_SECTION DbaseCritSec;
//*** Declarations and defs for the options to be negotiated with this
// version of IPXCP
UCHAR DesiredParameter[MAX_DESIRED_PARAMETERS] = {
IPX_NETWORK_NUMBER,
IPX_NODE_NUMBER,
IPX_COMPRESSION_PROTOCOL
};
USHORT DesiredParameterLength[MAX_DESIRED_PARAMETERS] = {
6, // IPX_NETWORK_NUMBER,
8, // IPX_NODE_NUMBER,
4 // IPX_COMPRESSION_PROTOCOL
};
DWORD
IpxCpInit(BOOL fInitialize)
{
static DWORD dwRefCount = 0;
if (fInitialize)
{
if (0 == dwRefCount)
{
//
// Read the registry parameters and set IpxCp configuration
//
InitializeCriticalSection(&DbaseCritSec);
g_hRouterLog = RouterLogRegisterW(L"IPXCP");
StartTracing();
GetIpxCpParameters(&GlobalConfig);
SS_DBGINITIALIZE;
InitializeRouterManagerIf();
InitializeNodeHT();
InitializeConnHT();
#if (WINVER < 0x0501)
LoadIpxWan();
#endif
CQCreate (&hConfigQueue);
}
dwRefCount++;
}
else
{
dwRefCount--;
if (0 == dwRefCount)
{
//
// Release the global list of routes
//
CQCleanup (hConfigQueue);
UnloadIpxWan ();
StopTracing();
g_hRouterLog = NULL;
DeleteCriticalSection(&DbaseCritSec);
}
}
return(NO_ERROR);
}
DWORD
IpxCpGetInfo(
IN DWORD dwProtocolId,
OUT PPPCP_INFO *pCpInfo)
{
if (dwProtocolId != PPP_IPXCP_PROTOCOL)
return(ERROR_INVALID_PARAMETER);
ZeroMemory(pCpInfo, sizeof(PPPCP_INFO));
pCpInfo->Protocol = PPP_IPXCP_PROTOCOL;
lstrcpy(pCpInfo->SzProtocolName, "IPXCP");
pCpInfo->Recognize = CODE_REJ + 1;
pCpInfo->RasCpInit = IpxCpInit;
pCpInfo->RasCpBegin = IpxCpBegin;
pCpInfo->RasCpEnd = IpxCpEnd;
pCpInfo->RasCpReset = IpxCpReset;
pCpInfo->RasCpThisLayerUp = IpxCpThisLayerUp;
pCpInfo->RasCpThisLayerDown = IpxCpThisLayerDown;
pCpInfo->RasCpMakeConfigRequest = IpxCpMakeConfigRequest;
pCpInfo->RasCpMakeConfigResult = IpxCpMakeConfigResult;
pCpInfo->RasCpConfigAckReceived = IpxCpConfigAckReceived;
pCpInfo->RasCpConfigNakReceived = IpxCpConfigNakReceived;
pCpInfo->RasCpConfigRejReceived = IpxCpConfigRejReceived;
pCpInfo->RasCpGetNegotiatedInfo = IpxCpGetNegotiatedInfo;
pCpInfo->RasCpProjectionNotification = IpxCpProjectionNotification;
pCpInfo->RasCpChangeNotification = IpxCpUpdateGlobalConfig;
return(NO_ERROR);
}
//***
//
// Function: IpxCpBegin
//
// Descr: Called when a line is connected.
//
//***
DWORD
IpxCpBegin(OUT VOID **ppWorkBuf,
IN VOID *pInfo)
{
PIPXCP_CONTEXT contextp;
PPPPCP_INIT initp;
DWORD err;
DWORD tickcount;
int i;
ULONG InterfaceType;
ULONG ConnectionId;
initp = (PPPPCP_INIT)pInfo;
TraceIpx(PPPIF_TRACE, "IpxCpBegin: Entered for if # %d\n", initp->hInterface);
// Get the completion routine and the thread handle
if(PPPThreadHandle == INVALID_HANDLE_VALUE) {
// not initialized
if (!DuplicateHandle(
GetCurrentProcess(),
GetCurrentThread(),
GetCurrentProcess(),
&PPPThreadHandle,
0,
FALSE,
DUPLICATE_SAME_ACCESS )) {
return GetLastError();
}
PPPCompletionRoutine = initp->CompletionRoutine;
}
//
// Get the Connection Id (Bundle id)
//
ConnectionId = HandleToUlong(initp->hConnection);
//
// Determine the connection type
//
if((InterfaceType = GetInterfaceType(initp)) == IF_TYPE_OTHER) {
return ERROR_CAN_NOT_COMPLETE;
}
if((InterfaceType == IF_TYPE_ROUTER_WORKSTATION_DIALOUT) ||
(InterfaceType == IF_TYPE_STANDALONE_WORKSTATION_DIALOUT)) {
// If we are configured to allow only one dialout net and if we are
// already dialed out once, we disable further dialouts.
if(GlobalConfig.SingleClientDialout && IsWorkstationDialoutActive()) {
return ERROR_IPXCP_DIALOUT_ALREADY_ACTIVE;
}
}
if(initp->fServer &&
(!IsRouterStarted())) {
// we cannot accept dialin on machines without the router started
return ERROR_CAN_NOT_COMPLETE;
}
// allocate a context structure to be used as work buffer for this connection
if((contextp = (PIPXCP_CONTEXT)GlobalAlloc(GPTR, sizeof(IPXCP_CONTEXT))) == NULL) {
*ppWorkBuf = NULL;
return (ERROR_NOT_ENOUGH_MEMORY);
}
*ppWorkBuf = (VOID *)contextp;
// allocate a route for this connection to the IPX stack
if(err = RmAllocateRoute(HandleToUlong(initp->hPort))) {
// cannot allocate route
*ppWorkBuf = NULL;
GlobalFree(contextp);
return err;
}
//
// Set up common context part
//
// hInterface is always an index
contextp->Config.InterfaceIndex = HandleToUlong(initp->hInterface);
if(InterfaceType == IF_TYPE_ROUTER_WORKSTATION_DIALOUT) {
if(AddLocalWkstaDialoutInterface(&contextp->Config.InterfaceIndex) != NO_ERROR) {
TraceIpx(PPPIF_TRACE, "IpxCpBegin: AddLocalWkstaDialoutInterface failed !\n");
RmDeallocateRoute(HandleToUlong(initp->hConnection));
GlobalFree(contextp);
return ERROR_CAN_NOT_COMPLETE;
}
}
contextp->hPort = HandleToUlong(initp->hPort);
contextp->hConnection = initp->hConnection;
contextp->InterfaceType = InterfaceType;
contextp->RouteState = ROUTE_ALLOCATED;
contextp->IpxwanState = IPXWAN_NOT_STARTED;
contextp->ErrorLogged = FALSE;
contextp->NetNumberNakSentCount = 0;
contextp->NetNumberNakReceivedCount = 0;
contextp->CompressionProtocol = TELEBIT_COMPRESSED_IPX;
contextp->SetReceiveCompressionProtocol = FALSE; // no compression initially
contextp->SetSendCompressionProtocol = FALSE;
// mark all our desired parameters as negotiable
for(i=0; i<MAX_DESIRED_PARAMETERS; i++) {
contextp->DesiredParameterNegotiable[i] = TRUE;
}
if(!GlobalConfig.EnableCompressionProtocol) {
contextp->DesiredParameterNegotiable[IPX_COMPRESSION_PROTOCOL_INDEX] = FALSE;
}
contextp->NodeHtLinkage.Flink = NULL;
contextp->NodeHtLinkage.Blink = NULL;
contextp->Config.ConnectionId = ConnectionId;
contextp->AllocatedNetworkIndex = INVALID_NETWORK_INDEX;
// check if this is an IPXWAN connection
contextp->Config.IpxwanConfigRequired = 0;
if((InterfaceType == IF_TYPE_ROUTER_WORKSTATION_DIALOUT) ||
(InterfaceType == IF_TYPE_STANDALONE_WORKSTATION_DIALOUT)) {
if(GlobalConfig.EnableIpxwanForWorkstationDialout) {
contextp->Config.IpxwanConfigRequired = 1;
}
}
else
{
if(GetIpxwanInterfaceConfig(contextp->Config.InterfaceIndex,
&contextp->Config.IpxwanConfigRequired) != NO_ERROR) {
RmDeallocateRoute(HandleToUlong(initp->hConnection));
GlobalFree(contextp);
return ERROR_CAN_NOT_COMPLETE;
}
}
if(contextp->Config.IpxwanConfigRequired &&
!IpxWanDllHandle) {
TraceIpx(PPPIF_TRACE, "IpxCpBegin: IPXWAN Config Required but IPXWAN.DLL not loaded");
RmDeallocateRoute(HandleToUlong(initp->hConnection));
GlobalFree(contextp);
return ERROR_CAN_NOT_COMPLETE;
}
contextp->IpxConnectionHandle = 0xFFFFFFFF;
//
// Set up the remaining context according to Dialin/Dialout role
//
if(initp->fServer) {
//*** DIALIN ***
if(!contextp->Config.IpxwanConfigRequired) {
// allocate/generate the connection's WAN net number according to the router configuration
if(GetWanNetNumber(contextp->Config.Network,
&contextp->AllocatedNetworkIndex,
contextp->InterfaceType) != NO_ERROR) {
if(contextp->InterfaceType == IF_TYPE_ROUTER_WORKSTATION_DIALOUT) {
DeleteLocalWkstaDialoutInterface(contextp->Config.InterfaceIndex);
}
RmDeallocateRoute(HandleToUlong(initp->hConnection));
GlobalFree(contextp);
return ERROR_CAN_NOT_COMPLETE;
}
// set up the local server node value
contextp->Config.LocalNode[5] = 1;
// set up the remote client node value
ACQUIRE_DATABASE_LOCK;
// if we have been given a specific node to handout
// to clients, assign it here
if (bAssignSpecificNode) {
memcpy (contextp->Config.RemoteNode, GlobalConfig.puSpecificNode, 6);
}
// Otherwise, assign a random node number
else {
LastNodeAssigned++;
PUTULONG2LONG(&contextp->Config.RemoteNode[2], LastNodeAssigned);
contextp->Config.RemoteNode[0] = 0x02;
contextp->Config.RemoteNode[1] = 0xEE;
}
// if global wan net -> insert this context buffer in the node hash table.
if((contextp->InterfaceType == IF_TYPE_WAN_WORKSTATION) &&
GlobalConfig.RParams.EnableGlobalWanNet)
{
// Try until we get a unique node number
while(!NodeIsUnique(contextp->Config.RemoteNode)) {
LastNodeAssigned++;
PUTULONG2LONG(&contextp->Config.RemoteNode[2], LastNodeAssigned);
}
AddToNodeHT(contextp);
}
RELEASE_DATABASE_LOCK;
}
else
{
// we'll have IPXWAN config on this line
// set up the remote client node value if the remote is a wksta
if(contextp->InterfaceType == IF_TYPE_WAN_WORKSTATION) {
ACQUIRE_DATABASE_LOCK;
LastNodeAssigned++;
PUTULONG2LONG(&contextp->Config.RemoteNode[2], LastNodeAssigned);
contextp->Config.RemoteNode[0] = 0x02;
contextp->Config.RemoteNode[1] = 0xEE;
if(GlobalConfig.RParams.EnableGlobalWanNet) {
// Try until we get a unique node number
while(!NodeIsUnique(contextp->Config.RemoteNode)) {
LastNodeAssigned++;
PUTULONG2LONG(&contextp->Config.RemoteNode[2], LastNodeAssigned);
}
AddToNodeHT(contextp);
}
RELEASE_DATABASE_LOCK;
}
}
contextp->Config.ConnectionClient = 0;
}
else
{
//*** DIALOUT ***
if(!contextp->Config.IpxwanConfigRequired) {
// set up the context for the client
// no network allocated
contextp->AllocatedNetworkIndex = INVALID_NETWORK_INDEX;
// default network is null for all cases except cisco router client
memcpy(contextp->Config.Network, nullnet, 4);
contextp->Config.RemoteNode[5] = 1; // server node value
// set up the value to be requested as the client node
tickcount = GetTickCount();
PUTULONG2LONG(&contextp->Config.LocalNode[2], tickcount);
contextp->Config.LocalNode[0] = 0x02;
contextp->Config.LocalNode[1] = 0xEE;
}
contextp->Config.ConnectionClient = 1;
if((contextp->InterfaceType == IF_TYPE_ROUTER_WORKSTATION_DIALOUT) ||
(contextp->InterfaceType == IF_TYPE_STANDALONE_WORKSTATION_DIALOUT)) {
ACQUIRE_DATABASE_LOCK;
WorkstationDialoutActive++;
RELEASE_DATABASE_LOCK;
}
// disable the browser on ipx and netbios
DisableRestoreBrowserOverIpx(contextp, TRUE);
DisableRestoreBrowserOverNetbiosIpx(contextp, TRUE);
}
ACQUIRE_DATABASE_LOCK;
if(contextp->Config.IpxwanConfigRequired) {
AddToConnHT(contextp);
}
RELEASE_DATABASE_LOCK;
return (NO_ERROR);
}
//***
//
// Function: IpxCpEnd
//
// Descr: Called when the line gets disconnected
//
//***
DWORD
IpxCpEnd(IN VOID *pWorkBuffer)
{
PIPXCP_CONTEXT contextp;
DWORD err;
contextp = (PIPXCP_CONTEXT)pWorkBuffer;
TraceIpx(PPPIF_TRACE, "IpxCpEnd: Entered for if # %d\n", contextp->Config.InterfaceIndex);
if(!contextp->Config.ConnectionClient) {
//*** DIALIN Clean-Up ***
if(!contextp->Config.IpxwanConfigRequired) {
// if wan net allocated, release the wan net
if(contextp->AllocatedNetworkIndex != INVALID_NETWORK_INDEX) {
ReleaseWanNetNumber(contextp->AllocatedNetworkIndex);
}
}
ACQUIRE_DATABASE_LOCK;
if((contextp->InterfaceType == IF_TYPE_WAN_WORKSTATION) &&
GlobalConfig.RParams.EnableGlobalWanNet) {
RemoveFromNodeHT(contextp);
}
RELEASE_DATABASE_LOCK;
}
else
{
//*** DIALOUT Clean-Up ***
if((contextp->InterfaceType == IF_TYPE_ROUTER_WORKSTATION_DIALOUT) ||
(contextp->InterfaceType == IF_TYPE_STANDALONE_WORKSTATION_DIALOUT)) {
ACQUIRE_DATABASE_LOCK;
WorkstationDialoutActive--;
RELEASE_DATABASE_LOCK;
}
// restore the browser on ipx and netbios
DisableRestoreBrowserOverIpx(contextp, FALSE);
DisableRestoreBrowserOverNetbiosIpx(contextp, FALSE);
}
// we count on the route being de-allocated when the line gets disconnected
err = RmDeallocateRoute(HandleToUlong(contextp->hConnection));
if(contextp->InterfaceType == IF_TYPE_ROUTER_WORKSTATION_DIALOUT) {
DeleteLocalWkstaDialoutInterface(contextp->Config.InterfaceIndex);
}
ACQUIRE_DATABASE_LOCK;
if(contextp->Config.IpxwanConfigRequired) {
RemoveFromConnHT(contextp);
}
// free the work buffer
if(GlobalFree(contextp)) {
SS_ASSERT(FALSE);
}
RELEASE_DATABASE_LOCK;
return (NO_ERROR);
}
DWORD
IpxCpReset(IN VOID *pWorkBuffer)
{
return(NO_ERROR);
}
DWORD
IpxCpProjectionNotification(IN VOID *pWorkBuffer,
IN VOID *pProjectionResult)
{
PIPXCP_CONTEXT contextp;
return NO_ERROR;
}
//***
//
// Function: IpxThisLayerUp
//
// Descr: Called when the IPXCP negotiation has been SUCCESSFULY
// completed
//
//***
DWORD
IpxCpThisLayerUp(IN VOID *pWorkBuffer)
{
PIPXCP_CONTEXT contextp;
DWORD err;
contextp = (PIPXCP_CONTEXT)pWorkBuffer;
dwClientCount++;
TraceIpx(PPPIF_TRACE, "IpxCpThisLayerUp: Entered for if # %d (%d total)\n",
contextp->Config.InterfaceIndex, dwClientCount);
if(contextp->Config.IpxwanConfigRequired) {
//
//*** Configuration done with IPXWAN ***
//
ACQUIRE_DATABASE_LOCK;
switch(contextp->IpxwanState) {
case IPXWAN_NOT_STARTED:
TraceIpx(
PPPIF_TRACE,
"IpxCpThisLayerUp: Do LINEUP on if #%d. IPXWAN completes config.\n",
contextp->Config.InterfaceIndex);
if((err = RmActivateRoute(contextp->hPort, &contextp->Config)) == NO_ERROR) {
contextp->RouteState = ROUTE_ACTIVATED;
contextp->IpxwanState = IPXWAN_ACTIVE;
err = PENDING;
}
break;
case IPXWAN_ACTIVE:
err = PENDING;
break;
case IPXWAN_DONE:
default:
err = contextp->IpxwanConfigResult;
break;
}
RELEASE_DATABASE_LOCK;
return err;
}
//
//*** Configuration done with IPXCP ***
//
if(contextp->RouteState != ROUTE_ALLOCATED) {
return NO_ERROR;
}
// call LineUp indication into the IPX stack with the negociated config
// values.
TraceIpx(
PPPIF_TRACE,
"IpxCpThisLayerUp: Config complete, Do LINEUP on if #%d.\n",
contextp->Config.InterfaceIndex);
if(err = RmActivateRoute(contextp->hPort, &contextp->Config)) {
return err;
}
TraceIpx(PPPIF_TRACE,"\n*** IPXCP final configuration ***\n");
TraceIpx(PPPIF_TRACE," Network: %.2x%.2x%.2x%.2x\n",
contextp->Config.Network[0],
contextp->Config.Network[1],
contextp->Config.Network[2],
contextp->Config.Network[3]);
TraceIpx(PPPIF_TRACE," LocalNode: %.2x%.2x%.2x%.2x%.2x%.2x\n",
contextp->Config.LocalNode[0],
contextp->Config.LocalNode[1],
contextp->Config.LocalNode[2],
contextp->Config.LocalNode[3],
contextp->Config.LocalNode[4],
contextp->Config.LocalNode[5]);
TraceIpx(PPPIF_TRACE," RemoteNode: %.2x%.2x%.2x%.2x%.2x%.2x\n",
contextp->Config.RemoteNode[0],
contextp->Config.RemoteNode[1],
contextp->Config.RemoteNode[2],
contextp->Config.RemoteNode[3],
contextp->Config.RemoteNode[4],
contextp->Config.RemoteNode[5]);
TraceIpx(PPPIF_TRACE," ReceiveCompression = %d SendCompression = %d\n",
contextp->SetReceiveCompressionProtocol,
contextp->SetSendCompressionProtocol);
contextp->RouteState = ROUTE_ACTIVATED;
return NO_ERROR;
}
//***
//
// Function: IpxMakeConfigRequest
//
// Descr: Builds the config request packet from the desired parameters
//
//***
DWORD
IpxCpMakeConfigRequest(IN VOID *pWorkBuffer,
OUT PPP_CONFIG *pRequestBuffer,
IN DWORD cbRequestBuffer)
{
USHORT cnfglen;
PUCHAR cnfgptr;
USHORT optlen;
PIPXCP_CONTEXT contextp;
int i;
contextp = (PIPXCP_CONTEXT)pWorkBuffer;
TraceIpx(PPPIF_TRACE, "IpxCpMakeConfigRequest: Entered for if # %d\n",
contextp->Config.InterfaceIndex);
if(contextp->RouteState == NO_ROUTE) {
TraceIpx(PPPIF_TRACE, "IpxcpMakeConfigRequest: No route allocated!\n");
return(ERROR_NO_NETWORK);
}
// check that the request buffer is big enough to get the desired
// parameters
if((USHORT)cbRequestBuffer < DesiredConfigReqLength()) {
return(ERROR_INSUFFICIENT_BUFFER);
}
pRequestBuffer->Code = CONFIG_REQ;
cnfglen = 4;
cnfgptr = (PUCHAR)pRequestBuffer;
if(contextp->Config.IpxwanConfigRequired) {
// Do not request any option
PUTUSHORT2SHORT(pRequestBuffer->Length, cnfglen);
return NO_ERROR;
}
// set the desired options
for(i = 0; i < MaxDesiredParameters; i++) {
if(!contextp->DesiredParameterNegotiable[i]) {
// do not request this config option
continue;
}
OptionHandler[DesiredParameter[i]](cnfgptr + cnfglen,
contextp,
NULL,
SNDREQ_OPTION);
optlen = *(cnfgptr + cnfglen + OPTIONH_LENGTH);
cnfglen += optlen;
}
// set the length of the configuration request frame
PUTUSHORT2SHORT(pRequestBuffer->Length, cnfglen);
return NO_ERROR;
}
//***
//
// Function: IpxMakeConfigResult
//
// Descr: Starts by building the ack packet as the result
// If an option gets NAKed (!), it resets the result packet
// and starts building the NAK packet instead.
// If an option gets rejected, only the reject packet will
// be built.
// If one of the desired parameters is missing from this
// configuration request, we reset the result packet and start
// building a NAK packet with the missing desired parameters.
//
//***
#define MAX_OPTION_LENGTH 512
DWORD
IpxCpMakeConfigResult(IN VOID *pWorkBuffer,
IN PPP_CONFIG *pReceiveBuffer,
OUT PPP_CONFIG *pResultBuffer,
IN DWORD cbResultBuffer,
IN BOOL fRejectNaks)
{
USHORT cnfglen; // config request packet len
USHORT rcvlen; // used to scan the received options packet
USHORT reslen; // result length
PUCHAR rcvptr;
PUCHAR resptr; // result ptr
PIPXCP_CONTEXT contextp;
UCHAR option; // value of this option
UCHAR optlen; // length of this option
BOOL DesiredParameterRequested[MAX_DESIRED_PARAMETERS];
USHORT i;
BOOL AllDesiredParamsRequested;
UCHAR nakedoption[MAX_OPTION_LENGTH];
DWORD rc;
contextp = (PIPXCP_CONTEXT)pWorkBuffer;
TraceIpx(PPPIF_TRACE, "IpxCpMakeConfigResult: Entered for if # %d\n",
contextp->Config.InterfaceIndex);
if(contextp->RouteState == NO_ROUTE) {
return(ERROR_NO_NETWORK);
}
// start by marking all negotiable parameters as not requested yet
for(i=0; i<MaxDesiredParameters; i++) {
DesiredParameterRequested[i] = !contextp->DesiredParameterNegotiable[i];
}
contextp = (PIPXCP_CONTEXT)pWorkBuffer;
// get the total cnfg request packet length
GETSHORT2USHORT(&cnfglen, pReceiveBuffer->Length);
// check that the result buffer is at least as big as the receive buffer
if((USHORT)cbResultBuffer < cnfglen) {
return(ERROR_PPP_INVALID_PACKET);
}
// set the ptrs and length to the start of the options in the packet
pResultBuffer->Code = CONFIG_ACK;
rcvptr = (PUCHAR)pReceiveBuffer;
resptr = (PUCHAR)pResultBuffer;
if(contextp->Config.IpxwanConfigRequired) {
if(cnfglen > 4) {
pResultBuffer->Code = CONFIG_REJ;
for(rcvlen = reslen = 4;
rcvlen < cnfglen;
rcvlen += optlen) {
// get the current option type and length
option = *(rcvptr + rcvlen + OPTIONH_TYPE);
optlen = *(rcvptr + rcvlen + OPTIONH_LENGTH);
CopyOption(resptr + reslen, rcvptr + rcvlen);
reslen += optlen;
}
// set the final result length
PUTUSHORT2SHORT(pResultBuffer->Length, reslen);
TraceIpx(PPPIF_TRACE, "IpxCpMakeConfigResult: reject all options because IPXWAN required\n");
}
else
{
PUTUSHORT2SHORT(pResultBuffer->Length, 4);
TraceIpx(PPPIF_TRACE, "IpxCpMakeConfigResult: ack null options packet because IPXWAN required\n");
}
return (NO_ERROR);
}
for(rcvlen = reslen = 4;
rcvlen < cnfglen;
rcvlen += optlen) {
// get the current option type and length
option = *(rcvptr + rcvlen + OPTIONH_TYPE);
optlen = *(rcvptr + rcvlen + OPTIONH_LENGTH);
switch(pResultBuffer->Code) {
case CONFIG_ACK:
// Check if this is a valid option
if((rc = ValidOption(option, optlen)) != NO_ERROR) {
if(rc == ERROR_INVALID_OPTLEN) {
TraceIpx(PPPIF_TRACE, "IpxCpMakeConfigResult: option %d has invalid length %d\n",
option, optlen);
return ERROR_PPP_NOT_CONVERGING;
}
// reject this option
pResultBuffer->Code = CONFIG_REJ;
// restart the result packet with this rejected option
reslen = 4;
CopyOption(resptr + reslen, rcvptr + rcvlen);
reslen += optlen;
TraceIpx(PPPIF_TRACE, "IpxCpMakeConfigResult: REJECT option %\n",
option);
break;
}
// Option is valid.
// Check if it is desired and acceptable
if(DesiredOption(option, &i)) {
DesiredParameterRequested[i] = TRUE;
if(!OptionHandler[option](rcvptr + rcvlen,
contextp,
nakedoption,
RCVREQ_OPTION)) {
// if this is a renegociation, we are not converging!
if(contextp->RouteState == ROUTE_ACTIVATED) {
TraceIpx(PPPIF_TRACE, "IpxCpMakeConfigResult: Not Converging\n");
return ERROR_PPP_NOT_CONVERGING;
}
if((option == IPX_NETWORK_NUMBER) &&
(contextp->NetNumberNakSentCount >= MAX_NET_NUMBER_NAKS_SENT)) {
TraceIpx(PPPIF_TRACE, "IpxCpMakeConfigResult: Not converging because TOO MANY NAKs SENT!!\n");
return ERROR_PPP_NOT_CONVERGING;
}
//
//*** NAK this option ***
//
// check if we should send a reject instead
if(fRejectNaks) {
// make up a reject packet
pResultBuffer->Code = CONFIG_REJ;
// restart the result packet with this rejected option
reslen = 4;
CopyOption(resptr + reslen, rcvptr + rcvlen);
reslen += optlen;
break;
}
pResultBuffer->Code = CONFIG_NAK;
// restart the result packet with the NAK-ed option
reslen = 4;
CopyOption(resptr + reslen, nakedoption);
reslen += optlen;
TraceIpx(PPPIF_TRACE, "IpxCpMakeConfigResult: NAK option %d\n", option);
break;
}
}
// Option is valid and either desired AND accepted or
// not desired and we will accept it without any testing
// Ack it and increment the result length.
CopyOption(resptr + reslen, rcvptr + rcvlen);
reslen += optlen;
break;
case CONFIG_NAK:
// Check if this is a valid option
if((rc = ValidOption(*(rcvptr + rcvlen + OPTIONH_TYPE),
*(rcvptr + rcvlen + OPTIONH_LENGTH))) != NO_ERROR) {
if(rc == ERROR_INVALID_OPTLEN) {
TraceIpx(PPPIF_TRACE, "IpxCpMakeConfigResult: option %d has invalid length %d\n",
*(rcvptr + rcvlen + OPTIONH_TYPE),
*(rcvptr + rcvlen + OPTIONH_LENGTH));
return ERROR_PPP_NOT_CONVERGING;
}
// reject this option
pResultBuffer->Code = CONFIG_REJ;
// restart the result packet with this rejected option
reslen = 4;
CopyOption(resptr + reslen, rcvptr + rcvlen);
reslen += optlen;
break;
}
// We are looking only for options to NAK and skip all others
if(DesiredOption(option, &i)) {
DesiredParameterRequested[i] = TRUE;
if(!OptionHandler[option](rcvptr + rcvlen,
contextp,
resptr + reslen,
RCVREQ_OPTION)) {
reslen += optlen;
TraceIpx(PPPIF_TRACE, "IpxCpMakeConfigResult: NAK option %d\n", option);
if((option == IPX_NETWORK_NUMBER) &&
(contextp->NetNumberNakSentCount >= MAX_NET_NUMBER_NAKS_SENT)) {
TraceIpx(PPPIF_TRACE, "IpxCpMakeConfigResult: TOO MANY NAKs SENT!!\n");
return ERROR_PPP_NOT_CONVERGING;
}
}
}
break;
case CONFIG_REJ:
// We are looking only for options to reject and skip all others
if((rc = ValidOption(*(rcvptr + rcvlen + OPTIONH_TYPE),
*(rcvptr + rcvlen + OPTIONH_LENGTH))) != NO_ERROR) {
if(rc == ERROR_INVALID_OPTLEN) {
TraceIpx(PPPIF_TRACE, "IpxCpMakeConfigResult: option %d has invalid length %d\n",
*(rcvptr + rcvlen + OPTIONH_TYPE),
*(rcvptr + rcvlen + OPTIONH_LENGTH));
return ERROR_PPP_NOT_CONVERGING;
}
CopyOption(resptr + reslen, rcvptr + rcvlen);
reslen += optlen;
}
if(DesiredOption(option, &i)) {
DesiredParameterRequested[i] = TRUE;
}
break;
default:
SS_ASSERT(FALSE);
break;
}
}
// check if all our desired parameters have been requested
AllDesiredParamsRequested = TRUE;
for(i=0; i<MaxDesiredParameters; i++) {
if(!DesiredParameterRequested[i]) {
AllDesiredParamsRequested = FALSE;
}
}
if(AllDesiredParamsRequested) {
//
//*** ALL DESIRED PARAMETERS HAVE BEEN REQUESTED ***
//
// set the final result length
PUTUSHORT2SHORT(pResultBuffer->Length, reslen);
return (NO_ERROR);
}
//
//*** SOME DESIRED PARAMETERS ARE MISSING ***
//
// check that we have enough result buffer to transmit all our non received
// desired params
if((USHORT)cbResultBuffer < DesiredConfigReqLength()) {
return(ERROR_INSUFFICIENT_BUFFER);
}
switch(pResultBuffer->Code) {
case CONFIG_ACK:
// the only case where we request a NAK when a requested parameter
// is missing is when this parameter is the node number
if(DesiredParameterRequested[IPX_NODE_NUMBER_INDEX]) {
break;
}
else
{
// reset the ACK packet and make it NAK packet
pResultBuffer->Code = CONFIG_NAK;
reslen = 4;
// FALL THROUGH
}
case CONFIG_NAK:
// Append the missing options in the NAK packet
for(i=0; i<MaxDesiredParameters; i++) {
if(DesiredParameterRequested[i]) {
// skip it!
continue;
}
option = DesiredParameter[i];
if((option == IPX_NETWORK_NUMBER) ||
(option == IPX_COMPRESSION_PROTOCOL)) {
// These two desired options are not forced in a nak if
// the other end didn't provide them.
// skip it!
continue;
}
OptionHandler[option](NULL,
contextp,
resptr + reslen,
SNDNAK_OPTION);
optlen = *(resptr + reslen + OPTIONH_LENGTH);
reslen += optlen;
}
break;
default:
break;
}
// set the final result length
PUTUSHORT2SHORT(pResultBuffer->Length, reslen);
return (NO_ERROR);
}
DWORD
IpxCpConfigNakReceived(IN VOID *pWorkBuffer,
IN PPP_CONFIG *pReceiveBuffer)
{
PIPXCP_CONTEXT contextp;
PUCHAR rcvptr;
USHORT rcvlen;
USHORT naklen;
UCHAR option;
UCHAR optlen;
DWORD rc;
contextp = (PIPXCP_CONTEXT)pWorkBuffer;
TraceIpx(PPPIF_TRACE, "IpxCpConfigNakReceived: Entered for if # %d\n",
contextp->Config.InterfaceIndex);
if(contextp->Config.IpxwanConfigRequired) {
return NO_ERROR;
}
rcvptr = (PUCHAR)pReceiveBuffer;
GETSHORT2USHORT(&naklen, pReceiveBuffer->Length);
for(rcvlen = 4; rcvlen < naklen; rcvlen += optlen) {
// get the current option type and length
option = *(rcvptr + rcvlen + OPTIONH_TYPE);
optlen = *(rcvptr + rcvlen + OPTIONH_LENGTH);
if((rc = ValidOption(option, optlen)) != NO_ERROR) {
if(rc == ERROR_INVALID_OPTLEN) {
TraceIpx(PPPIF_TRACE, "IpxCpConfigNakReceived: option %d has invalid length %d\n",
option, optlen);
return ERROR_PPP_NOT_CONVERGING;
}
TraceIpx(PPPIF_TRACE, "IpxCpConfigNakReceived: option %d not valid\n", option);
// ignore this option
continue;
}
else
{
// valid option
OptionHandler[option](rcvptr + rcvlen,
contextp,
NULL,
RCVNAK_OPTION);
if((option == IPX_NETWORK_NUMBER) &&
(contextp->NetNumberNakReceivedCount >= MAX_NET_NUMBER_NAKS_RECEIVED)) {
TraceIpx(PPPIF_TRACE, "IpxCpConfigNakReceived: TOO MANY NAKs RECEIVED !! terminate IPXCP negotiation\n");
return ERROR_PPP_NOT_CONVERGING;
}
}
}
return NO_ERROR;
}
DWORD
IpxCpConfigAckReceived(IN VOID *pWorkBuffer,
IN PPP_CONFIG *pReceiveBuffer)
{
PIPXCP_CONTEXT contextp;
PUCHAR rcvptr;
USHORT rcvlen;
USHORT acklen;
UCHAR option;
USHORT optlen;
contextp = (PIPXCP_CONTEXT)pWorkBuffer;
TraceIpx(PPPIF_TRACE, "IpxCpConfigAckReceived: Entered for if # %d\n",
contextp->Config.InterfaceIndex);
// check that this is what we have requested
rcvptr = (PUCHAR)pReceiveBuffer;
GETSHORT2USHORT(&acklen, pReceiveBuffer->Length);
if(contextp->Config.IpxwanConfigRequired) {
if(acklen != 4) {
return ERROR_PPP_NOT_CONVERGING;
}
else
{
return NO_ERROR;
}
}
for(rcvlen = 4; rcvlen < acklen; rcvlen += optlen) {
// get the current option type and length
option = *(rcvptr + rcvlen + OPTIONH_TYPE);
optlen = *(rcvptr + rcvlen + OPTIONH_LENGTH);
if(!DesiredOption(option, NULL)) {
// this is not our option!
TraceIpx(PPPIF_TRACE, "IpxCpConfigAckReceived: Option %d not desired\n", option);
return ERROR_PPP_NOT_CONVERGING;
}
if(!OptionHandler[option](rcvptr + rcvlen,
contextp,
NULL,
RCVACK_OPTION)) {
// this option doesn't have our configured request value
TraceIpx(PPPIF_TRACE, "IpxCpConfigAckReceived: Option %d not our value\n", option);
return ERROR_PPP_NOT_CONVERGING;
}
}
TraceIpx(PPPIF_TRACE, "IpxCpConfigAckReceived: All options validated\n");
return NO_ERROR;
}
DWORD
IpxCpConfigRejReceived(IN VOID *pWorkBuffer,
IN PPP_CONFIG *pReceiveBuffer)
{
PIPXCP_CONTEXT contextp;
PUCHAR rcvptr;
USHORT rcvlen;
USHORT rejlen;
UCHAR option;
USHORT optlen;
int i;
// if we are a server node or a client on a server machine, we don't accept
// any rejection
if(IsRouterStarted()) {
TraceIpx(PPPIF_TRACE, "IpxCpConfigRejReceived: Cannot handle rejects on a router, aborting\n");
return ERROR_PPP_NOT_CONVERGING;
}
// This node doesn't have a router. We continue the negotiation with the
// remaining options.
// If the network number negotiation has been rejected, we will tell the
// ipx stack that we have net number 0 and let it deal with it.
contextp = (PIPXCP_CONTEXT)pWorkBuffer;
TraceIpx(PPPIF_TRACE, "IpxCpConfigRejReceived: Entered for if # %d\n",
contextp->Config.InterfaceIndex);
if(contextp->Config.IpxwanConfigRequired) {
return ERROR_PPP_NOT_CONVERGING;
}
// check that this is what we have requested
rcvptr = (PUCHAR)pReceiveBuffer;
GETSHORT2USHORT(&rejlen, pReceiveBuffer->Length);
for(rcvlen = 4; rcvlen < rejlen; rcvlen += optlen) {
// get the current option type and length
option = *(rcvptr + rcvlen + OPTIONH_TYPE);
optlen = *(rcvptr + rcvlen + OPTIONH_LENGTH);
if(optlen == 0) {
TraceIpx(PPPIF_TRACE, "IpxCpConfigRejReceived: received null option length, aborting\n");
return ERROR_PPP_NOT_CONVERGING;
}
for(i=0; i<MAX_DESIRED_PARAMETERS; i++) {
if(option == DesiredParameter[i]) {
switch(i) {
case 0:
TraceIpx(PPPIF_TRACE, "IpxCpConfigRejReceived: Turn off Network Number negotiation\n");
break;
case 1:
TraceIpx(PPPIF_TRACE, "IpxCpConfigRejReceived: Turn off Node Number negotiation\n");
break;
default:
break;
}
contextp->DesiredParameterNegotiable[i] = FALSE;
// if this is the node configuration rejected, set the remote
// node to 0 to indicate it's unknown.
if(option == IPX_NODE_NUMBER) {
memcpy(contextp->Config.RemoteNode, nullnode, 6);
}
}
}
}
return NO_ERROR;
}
DWORD
IpxCpThisLayerDown(IN VOID *pWorkBuffer)
{
dwClientCount--;
TraceIpx(PPPIF_TRACE, "IpxCpThisLayerDown: Entered (%d total)\n", dwClientCount);
// If the last client hung up, go ahead and update all of the global
// config
if (dwClientCount == 0)
IpxcpUpdateQueuedGlobalConfig();
return 0L;
}
char * YesNo (DWORD dwVal) {
return (dwVal) ? "YES" : "NO";
}
//
// Gets called when a registry value related to ppp changes. This
// function must read in the new registry config and plumb any
// changes it finds.
//
// The following values will be supported for on the fly update
// since they are exposed through connections ui:
// CQC_THIS_MACHINE_ONLY
// CQC_ENABLE_GLOBAL_WAN_NET
// CQC_FIRST_WAN_NET
// CQC_ENABLE_AUTO_WAN_NET_ALLOCATION
// CQC_ACCEPT_REMOTE_NODE_NUMBER
//
// In addition the following will be supported
// CQC_FIRST_WAN_NODE
//
DWORD
IpxCpUpdateGlobalConfig()
{
IPXCP_GLOBAL_CONFIG_PARAMS Params;
DWORD dwErr;
INT iCmp;
TraceIpx(PPPIF_TRACE, "IpxCpUpdateGlobalConfig: Entered");
// Re-read the configuration from the registry
CopyMemory (&Params, &GlobalConfig, sizeof (Params));
GetIpxCpParameters(&Params);
// First, go through and update any parameters that can immediately be
// applied. Included in these are: CQC_THIS_MACHINE_ONLY
//
if (!!(Params.RParams.ThisMachineOnly) != !!(GlobalConfig.RParams.ThisMachineOnly)) {
GlobalConfig.RParams.ThisMachineOnly = !!(Params.RParams.ThisMachineOnly);
// Tell the router manager that some configuration has updated
if (RmUpdateIpxcpConfig) {
if ((dwErr = RmUpdateIpxcpConfig (&(GlobalConfig.RParams))) != NO_ERROR)
return dwErr;
}
}
// Now, go through and queue any settings that will take
// delayed effect.
//
// Queue any changes to the global wan net enabling
if (!!(Params.RParams.EnableGlobalWanNet) != !!(GlobalConfig.RParams.EnableGlobalWanNet))
CQAdd ( hConfigQueue,
CQC_ENABLE_GLOBAL_WAN_NET,
&(Params.RParams.EnableGlobalWanNet),
sizeof (Params.RParams.EnableGlobalWanNet));
// Queue any changes to the globalwan/firstwan setting
if (Params.FirstWanNet != GlobalConfig.FirstWanNet)
CQAdd (hConfigQueue, CQC_FIRST_WAN_NET, &(Params.FirstWanNet), sizeof(Params.FirstWanNet));
// Queue any changes to the auto net assignment enabling
if (!!(Params.EnableAutoWanNetAllocation) != !!(GlobalConfig.EnableAutoWanNetAllocation))
CQAdd ( hConfigQueue,
CQC_ENABLE_AUTO_WAN_NET_ALLOCATION,
&(Params.EnableAutoWanNetAllocation),
sizeof (Params.EnableAutoWanNetAllocation));
// Queue any changes to the accept remote node enabling
if (!!(Params.AcceptRemoteNodeNumber) != !!(GlobalConfig.AcceptRemoteNodeNumber))
CQAdd ( hConfigQueue,
CQC_ACCEPT_REMOTE_NODE_NUMBER,
&(Params.AcceptRemoteNodeNumber),
sizeof (Params.AcceptRemoteNodeNumber));
// Queue any changes to the first remote node setting
if (memcmp (Params.puSpecificNode, GlobalConfig.puSpecificNode, 6) != 0)
CQAdd (hConfigQueue, CQC_FIRST_WAN_NODE, Params.puSpecificNode, 6);
// If there are no clients, go ahead and update the queued config
//
if (dwClientCount == 0) {
if ((dwErr = IpxcpUpdateQueuedGlobalConfig()) != NO_ERROR)
return dwErr;
}
TraceIpx(PPPIF_TRACE, "IpxCpUpdateGlobalConfig: exiting...\n");
return NO_ERROR;
}
//
// Callback function used to update each piece of queued configuration
// data one at a time. The client count is assumed to be zero when this
// function is called.
//
BOOL
IpxcpUpdateConfigItem (DWORD dwCode, LPVOID pvData, DWORD dwSize, ULONG_PTR ulpUser) {
DWORD dwErr, dwData = *(DWORD*)pvData;
PUCHAR puData = (PUCHAR)pvData;
DWORD* pdwFlags = (DWORD*)ulpUser;
TraceIpx(PPPIF_TRACE, "IpxcpUpdateConfigItem: Entered for item code %x", dwCode);
switch (dwCode) {
case CQC_ENABLE_GLOBAL_WAN_NET:
TraceIpx(PPPIF_TRACE, "IpxcpUpdateConfigItem: EnableGlobalWanNet %s", YesNo(dwData));
GlobalConfig.RParams.EnableGlobalWanNet = !!dwData;
*pdwFlags |= FLAG_UPDATE_ROUTER | FLAG_UPDATE_WANNET;
break;
case CQC_FIRST_WAN_NET:
TraceIpx(PPPIF_TRACE, "IpxcpUpdateConfigItem: FirstWanNet %x", dwData);
GlobalConfig.FirstWanNet = dwData;
*pdwFlags |= FLAG_UPDATE_WANNET;
break;
case CQC_ENABLE_AUTO_WAN_NET_ALLOCATION:
TraceIpx(PPPIF_TRACE, "IpxcpUpdateConfigItem: EnableAutoAssign %s", YesNo(dwData));
GlobalConfig.EnableAutoWanNetAllocation = !!dwData;
*pdwFlags |= FLAG_UPDATE_WANNET;
break;
case CQC_ACCEPT_REMOTE_NODE_NUMBER:
TraceIpx(PPPIF_TRACE, "IpxcpUpdateConfigItem: AcceptRemoteNodeNumber %s", YesNo(dwData));
GlobalConfig.AcceptRemoteNodeNumber = !!dwData;
break;
case CQC_FIRST_WAN_NODE:
TraceIpx(PPPIF_TRACE, "IpxcpUpdateConfigItem: FirstWanNode %x%x%x%x%x%x", puData[0], puData[1], puData[2], puData[3], puData[4], puData[5]);
memcpy (GlobalConfig.puSpecificNode, pvData, 6);
GETLONG2ULONG(&LastNodeAssigned,&(GlobalConfig.puSpecificNode[2]));
break;
}
return NO_ERROR;
}
//
// Called only when client count is zero to update any settings that have
// been queued to take place.
//
DWORD
IpxcpUpdateQueuedGlobalConfig() {
DWORD dwErr, dwFlags = 0;
TraceIpx(PPPIF_TRACE, "IpxcpUpdateQueuedGlobalConfig: entered");
// Enumerate all of the queued config information updating
// global config as we go.
//
if ((dwErr = CQEnum (hConfigQueue, IpxcpUpdateConfigItem, (ULONG_PTR)&dwFlags)) != NO_ERROR)
return dwErr;
// If we need to update the wan net, do so
//
if (dwFlags & FLAG_UPDATE_WANNET) {
TraceIpx(PPPIF_TRACE, "IpxcpUpdateQueuedGlobalConfig: Updating WanNet Information.");
WanNetReconfigure();
}
// If we need to update the router, do so
//
if (dwFlags & FLAG_UPDATE_ROUTER) {
TraceIpx(PPPIF_TRACE, "IpxcpUpdateQueuedGlobalConfig: Updating Router.");
if (RmUpdateIpxcpConfig) {
if ((dwErr = RmUpdateIpxcpConfig (&(GlobalConfig.RParams))) != NO_ERROR)
return dwErr;
}
}
// Clear the queued config data as it has been completely processed
// at this point.
//
CQRemoveAll (hConfigQueue);
return NO_ERROR;
}
DWORD
ValidOption(UCHAR option,
UCHAR optlen)
{
//
// NarenG: Put in fix for Bug # 74555. Otherwise PPP was blocked in
// NakReceived which was in a forever loop.
//
if ( optlen == 0 )
{
return( ERROR_INVALID_OPTLEN );
}
switch(option)
{
case IPX_NETWORK_NUMBER:
if(optlen != 6)
{
return ERROR_INVALID_OPTLEN;
}
return NO_ERROR;
break;
case IPX_NODE_NUMBER:
if(optlen != 8)
{
return ERROR_INVALID_OPTLEN;
}
return NO_ERROR;
break;
case IPX_ROUTING_PROTOCOL:
if(optlen < 4)
{
return ERROR_INVALID_OPTLEN;
}
return NO_ERROR;
break;
case IPX_ROUTER_NAME:
if(optlen < 3)
{
return ERROR_INVALID_OPTLEN;
}
else
{
TraceIpx(
PPPIF_TRACE,
"ValidOption: Accept Router Name w/ valid len.");
return NO_ERROR;
}
break;
case IPX_CONFIGURATION_COMPLETE:
if(optlen != 2)
{
return ERROR_INVALID_OPTLEN;
}
return NO_ERROR;
break;
case IPX_COMPRESSION_PROTOCOL:
if(GlobalConfig.EnableCompressionProtocol)
{
if(optlen < 4)
{
return ERROR_INVALID_OPTLEN;
}
}
else
{
return ERROR_INVALID_OPTION;
}
break;
default:
return ERROR_INVALID_OPTION;
}
return ERROR_INVALID_OPTION;
}
BOOL
DesiredOption(UCHAR option, USHORT *indexp)
{
USHORT i;
for(i=0; i<MaxDesiredParameters; i++) {
if(option == DesiredParameter[i]) {
if(indexp) {
*indexp = i;
}
return TRUE;
}
}
return FALSE;
}
USHORT
DesiredConfigReqLength(VOID)
{
USHORT i, len;
for(i=0, len=0; i<MaxDesiredParameters; i++) {
len += DesiredParameterLength[i];
}
return len;
}