/********************************************************************/ /** Microsoft LAN Manager **/ /** Copyright(c) Microsoft Corp., 1990-1992 **/ /********************************************************************/ /* :ts=4 */ //*** ipstatus.c - IP status routines. // // This module contains all routines related to status indications. // #include "precomp.h" #include "iproute.h" #include "ipstatus.h" #include "igmp.h" #include "iprtdef.h" #include "info.h" #include "lookup.h" LIST_ENTRY PendingIPEventList; uint gIPEventSequenceNo = 0; uint DampingInterval = 20; //5*4 sec default uint ConnectDampingInterval = 10; //5*2 sec default PWSTR IPBindList = NULL; extern IPSecNdisStatusRtn IPSecNdisStatusPtr; extern ProtInfo IPProtInfo[]; // Protocol information table. extern int NextPI; // Next PI field to be used. extern ProtInfo *RawPI; // Raw IP protinfo extern NetTableEntry *LoopNTE; extern NetTableEntry **NewNetTableList; // hash table for NTEs extern uint NET_TABLE_SIZE; extern DisableMediaSenseEventLog; extern Interface *DampingIFList; extern PIRP PendingIPGetIPEventRequest; extern DisableTaskOffload; extern uint DisableMediaSense; extern Interface *IFList; extern Interface LoopInterface; extern void DecrInitTimeInterfaces(Interface * IF); extern void RePlumbStaticAddr(CTEEvent * AddAddrEvent, PVOID Context); extern void RemoveStaticAddr(CTEEvent * AddAddrEvent, PVOID Context); extern uint GetDefaultGWList(uint * numberOfGateways, IPAddr * gwList, uint * gwMetricList, NDIS_HANDLE Handle, PNDIS_STRING ConfigName); extern void GetInterfaceMetric(uint * Metric, NDIS_HANDLE Handle); extern void EnableRouter(); extern void DisableRouter(); extern uint AddIFRoutes(Interface * IF); extern uint DelIFRoutes(Interface * IF); extern uint OpenIFConfig(PNDIS_STRING ConfigName, NDIS_HANDLE * Handle); extern void CloseIFConfig(NDIS_HANDLE Handle); extern void UpdateTcpParams(NDIS_HANDLE Handle, Interface *interface); extern PDRIVER_OBJECT IPDriverObject; void IPReset(void *Context); void IPResetComplete(CTEEvent * Event, PVOID Context); void LogMediaSenseEvent(CTEEvent * Event, PVOID Context); void IPAbbreviateFriendlyName(PUNICODE_STRING DeviceName, USHORT MaxLen); // // local function prototypes // void IPNotifyClientsMediaSense(Interface * interface, IP_STATUS ipStatus); extern void IPNotifyClientsIPEvent(Interface * interface, IP_STATUS ipStatus); NDIS_STATUS DoPnPEvent(Interface *interface, PVOID Context); uint GetAutoMetric(uint speed); //* GetAutoMetric - get the corresponding metric of a speed value // // Called when we need to get the metric value // // Entry: Speed - speed of an interface // // Return; Metric value // uint GetAutoMetric(uint speed) { if (speed <= FOURTH_ORDER_SPEED) { return FIFTH_ORDER_METRIC; } if (speed <= THIRD_ORDER_SPEED) { return FOURTH_ORDER_METRIC; } if (speed <= SECOND_ORDER_SPEED) { return THIRD_ORDER_METRIC; } if (speed <= FIRST_ORDER_SPEED) { return SECOND_ORDER_METRIC; } return FIRST_ORDER_METRIC; } //** IPMapDeviceNameToIfOrder - device-name (GUID) to interface order mapping. // // Called to determine the interface ordering corresponding to a device-name, // Assumes the caller is holding RouteTableLock. // // Entry: // DeviceName - The device whose interface order is required. // // Exit: // The order if available, MAXLONG otherwise. uint IPMapDeviceNameToIfOrder(PWSTR DeviceName) { #if !MILLEN uint i; PWSTR Bind; if (IPBindList) { for (i = 1, Bind = IPBindList; *Bind; Bind += wcslen(Bind) + 1, i++) { Bind += sizeof(TCP_BIND_STRING_PREFIX) / sizeof(WCHAR) - 1; if (_wcsicmp(Bind, DeviceName) == 0) { return i; } } } #endif return MAXLONG; } //* FindULStatus - Find the upper layer status handler. // // Called when we need to find the upper layer status handler for a particular // protocol. // // Entry: Protocol - Protocol to look up // // Returns: A pointer to the ULStatus proc, or NULL if it can't find one. // ULStatusProc FindULStatus(uchar Protocol) { ULStatusProc StatusProc = (ULStatusProc) NULL; int i; for (i = 0; i < NextPI; i++) { if (IPProtInfo[i].pi_protocol == Protocol) { if (IPProtInfo[i].pi_valid == PI_ENTRY_VALID) { StatusProc = IPProtInfo[i].pi_status; return StatusProc; } else { // Treat invalid entry as no maching protocol. break; } } } if (RawPI != NULL) { StatusProc = RawPI->pi_status; } return StatusProc; } //* ULMTUNotify - Notify the upper layers of an MTU change. // // Called when we need to notify the upper layers of an MTU change. We'll // loop through the status table, calling each status proc with the info. // // This routine doesn't do any locking of the protinfo table. We might need // to check this. // // Input: Dest - Destination address affected. // Src - Source address affected. // Prot - Protocol that triggered change, if any. // Ptr - Pointer to protocol info, if any. // NewMTU - New MTU to tell them about. // // Returns: Nothing. // void ULMTUNotify(IPAddr Dest, IPAddr Src, uchar Prot, void *Ptr, uint NewMTU) { ULStatusProc StatusProc; int i; // First, notify the specific client that a frame has been dropped // and needs to be retransmitted. StatusProc = FindULStatus(Prot); if (StatusProc != NULL) (*StatusProc) (IP_NET_STATUS, IP_SPEC_MTU_CHANGE, Dest, Src, NULL_IP_ADDR, NewMTU, Ptr); // Now notify all UL entities that the MTU has changed. for (i = 0; i < NextPI; i++) { StatusProc = NULL; if (IPProtInfo[i].pi_valid == PI_ENTRY_VALID) { StatusProc = IPProtInfo[i].pi_status; } if (StatusProc != NULL) (*StatusProc) (IP_HW_STATUS, IP_MTU_CHANGE, Dest, Src, NULL_IP_ADDR, NewMTU, Ptr); } } //* ULReConfigNotify - Notify the upper layers of an Config change. // // Called when we need to notify the upper layers of config changes. We'll // loop through the status table, calling each status proc with the info. // // This routine doesn't do any locking of the protinfo table. We might need // to check this. // // void ULReConfigNotify(IP_STATUS type, ulong value) { ULStatusProc StatusProc; int i; // Now notify all UL entities about the IP re-config. for (i = 0; i < NextPI; i++) { StatusProc = NULL; if (IPProtInfo[i].pi_valid == PI_ENTRY_VALID) { StatusProc = IPProtInfo[i].pi_status; } if (StatusProc != NULL) (*StatusProc) (IP_RECONFIG_STATUS, type, 0, 0, NULL_IP_ADDR, value, NULL); } } //* LogMediaSenseEvent - logs media connect/disconnect event // // Input: Event // Context // // Returns: Nothing. // void LogMediaSenseEvent(CTEEvent * Event, PVOID Context) { MediaSenseNotifyEvent *MediaEvent = (MediaSenseNotifyEvent *) Context; ULONG EventCode = 0; USHORT NumString=1; UNREFERENCED_PARAMETER(Event); switch (MediaEvent->Status) { case IP_MEDIA_CONNECT: EventCode = EVENT_TCPIP_MEDIA_CONNECT; break; case IP_MEDIA_DISCONNECT: EventCode = EVENT_TCPIP_MEDIA_DISCONNECT; break; } if (!MediaEvent->devname.Buffer) { NumString = 0; } CTELogEvent( IPDriverObject, EventCode, 2, NumString, &MediaEvent->devname.Buffer, 0, NULL ); if (MediaEvent->devname.Buffer) { CTEFreeMem(MediaEvent->devname.Buffer); } CTEFreeMem(MediaEvent); } //* IPStatus - Handle a link layer status call. // // This is the routine called by the link layer when some sort of 'important' // status change occurs. // // Entry: Context - Context value we gave to the link layer. // Status - Status change code. // Buffer - Pointer to buffer of status information. // BufferSize - Size of Buffer. // // Returns: Nothing. // void __stdcall IPStatus(void *Context, uint Status, void *Buffer, uint BufferSize, void *LinkCtxt) { NetTableEntry *NTE = (NetTableEntry *) Context; LLIPSpeedChange *LSC; LLIPMTUChange *LMC; LLIPAddrMTUChange *LAM; uint NewMTU; Interface *IF; LinkEntry *Link = (LinkEntry *) LinkCtxt; KIRQL rtlIrql; switch (Status) { case LLIP_STATUS_SPEED_CHANGE: if (BufferSize < sizeof(LLIPSpeedChange)) break; LSC = (LLIPSpeedChange *) Buffer; NTE->nte_if->if_speed = LSC->lsc_speed; break; case LLIP_STATUS_MTU_CHANGE: if (BufferSize < sizeof(LLIPMTUChange)) break; if (Link) { ASSERT(NTE->nte_if->if_flags & IF_FLAGS_P2MP); LMC = (LLIPMTUChange *) Buffer; Link->link_mtu = LMC->lmc_mtu - sizeof(IPHeader); } else { // Walk through the NTEs on the IF, updating their MTUs. IF = NTE->nte_if; LMC = (LLIPMTUChange *) Buffer; IF->if_mtu = LMC->lmc_mtu - sizeof(IPHeader); NewMTU = IF->if_mtu; NTE = IF->if_nte; while (NTE != NULL) { NTE->nte_mss = (ushort) NewMTU; NTE = NTE->nte_ifnext; } RTWalk(SetMTUOnIF, IF, &NewMTU); } break; case LLIP_STATUS_ADDR_MTU_CHANGE: if (BufferSize < sizeof(LLIPAddrMTUChange)) break; // The MTU for a specific remote address has changed. Update all // routes that use that remote address as a first hop, and then // add a host route to that remote address, specifying the new // MTU. LAM = (LLIPAddrMTUChange *) Buffer; if (!IP_ADDR_EQUAL(LAM->lam_addr,NULL_IP_ADDR)) { NewMTU = LAM->lam_mtu - sizeof(IPHeader); RTWalk(SetMTUToAddr, &LAM->lam_addr, &NewMTU); AddRoute(LAM->lam_addr, HOST_MASK, IPADDR_LOCAL, NTE->nte_if, NewMTU, 1, IRE_PROTO_NETMGMT, ATYPE_OVERRIDE, GetRouteContext(LAM->lam_addr, NTE->nte_addr), 0); } break; case NDIS_STATUS_MEDIA_CONNECT:{ NetTableEntry *NTE = (NetTableEntry *) Context; Interface *IF = NTE->nte_if, *PrevIF; BOOLEAN Notify = FALSE; if (IF->if_resetInProgress) { KdPrintEx((DPFLTR_TCPIP_ID, DPFLTR_INFO_LEVEL,"ipstat: Connect while in reset progress %x\n", IF)); break; } if (!(IF->if_flags & IF_FLAGS_MEDIASENSE) || DisableMediaSense) { // Just make sure that we are always in connected state IF->if_mediastatus = 1; break; } CTEGetLock(&RouteTableLock.Lock, &rtlIrql); if (IF->if_damptimer) { if (IF->if_mediastatus == 0) { //cancel disconnect damping KdPrintEx((DPFLTR_TCPIP_ID, DPFLTR_INFO_LEVEL,"IPStatus: Connect while Damping %x\n", IF)); IF->if_damptimer = 0; PrevIF = STRUCT_OF(Interface, &DampingIFList, if_dampnext); while (PrevIF->if_dampnext != IF && PrevIF->if_dampnext != NULL) PrevIF = PrevIF->if_dampnext; if (PrevIF->if_dampnext != NULL) { PrevIF->if_dampnext = IF->if_dampnext; IF->if_dampnext = NULL; } Notify = TRUE; } else { //damping for connect is already in progress //restart the timer IF->if_damptimer = (USHORT) (ConnectDampingInterval / 5); if (!IF->if_damptimer) IF->if_damptimer = 1; KdPrintEx((DPFLTR_TCPIP_ID, DPFLTR_INFO_LEVEL,"IPStatus: restarting connect damping %x\n", IF)); } } else { //need to damp this connect event if (!(IF->if_flags & IF_FLAGS_DELETING)) { IF->if_dampnext = DampingIFList; DampingIFList = IF; IF->if_damptimer = (USHORT) (ConnectDampingInterval / 5); if (!IF->if_damptimer) IF->if_damptimer = 1; } //mark the media status is disconnected IF->if_mediastatus = 1; KdPrintEx((DPFLTR_TCPIP_ID, DPFLTR_INFO_LEVEL,"ipstatus: connect on %x starting damping\n", IF)); } CTEFreeLock(&RouteTableLock.Lock, rtlIrql); if (Notify) IPNotifyClientsMediaSense(IF, IP_MEDIA_CONNECT); break; } case NDIS_STATUS_MEDIA_DISCONNECT:{ NetTableEntry *NTE = (NetTableEntry *) Context; // Local NTE received on Interface *IF = NTE->nte_if, *PrevIF; // Interface corresponding to NTE. if (IF->if_resetInProgress) { KdPrintEx((DPFLTR_TCPIP_ID, DPFLTR_INFO_LEVEL,"ipstat: DisConnect while in reset progress %x\n", IF)); break; } if (!(IF->if_flags & IF_FLAGS_MEDIASENSE) || DisableMediaSense) { // Just make sure that we are always in connected state IF->if_mediastatus = 1; break; } CTEGetLock(&RouteTableLock.Lock, &rtlIrql); //if damping timer is not running //insert this IF in damping list and // start the timer if (IF->if_mediastatus) { if (!IF->if_damptimer) { if (!(IF->if_flags & IF_FLAGS_DELETING)) { IF->if_dampnext = DampingIFList; DampingIFList = IF; IF->if_damptimer = (USHORT) (DampingInterval / 5); if (!IF->if_damptimer) IF->if_damptimer = 1; } //mark the media status is disconnected IF->if_mediastatus = 0; KdPrintEx((DPFLTR_TCPIP_ID, DPFLTR_INFO_LEVEL,"ipstatus: disconnect on %x starting damping\n", IF)); } else { //this may be disconnect when connect damp is going on //just mark this as disconnect and increase timeout. KdPrintEx((DPFLTR_TCPIP_ID, DPFLTR_INFO_LEVEL,"ipstatus: disconnect on while on connect damping %x\n", IF)); IF->if_damptimer = 0; PrevIF = STRUCT_OF(Interface, &DampingIFList, if_dampnext); while (PrevIF->if_dampnext != IF && PrevIF->if_dampnext != NULL) PrevIF = PrevIF->if_dampnext; if (PrevIF->if_dampnext != NULL) { PrevIF->if_dampnext = IF->if_dampnext; IF->if_dampnext = NULL; } } } // CTEFreeLock(&RouteTableLock.Lock, rtlIrql); //IPNotifyClientsMediaSense( IF, IP_MEDIA_DISCONNECT ); break; } case NDIS_STATUS_RESET_START:{ NetTableEntry *NTE = (NetTableEntry *) Context; // Local NTE received on Interface *IF = NTE->nte_if; // Interface corresponding to NTE. KdPrintEx((DPFLTR_TCPIP_ID, DPFLTR_INFO_LEVEL,"ipstatus: Resetstart %x\n", IF)); if (IF) { IF->if_resetInProgress = TRUE; // inform IPSec that this interface is going away if (IPSecNdisStatusPtr) { (*IPSecNdisStatusPtr)(IF, NDIS_STATUS_RESET_START); } } break; } case NDIS_STATUS_RESET_END:{ NetTableEntry *NTE = (NetTableEntry *) Context; // Local NTE received on Interface *IF = NTE->nte_if; // Interface corresponding to NTE. KdPrintEx((DPFLTR_TCPIP_ID, DPFLTR_INFO_LEVEL,"ipstatus: Resetend %x\n", IF)); if (IF) { IF->if_resetInProgress = FALSE; // inform IPSec that this interface is coming back if (IPSecNdisStatusPtr) { (*IPSecNdisStatusPtr)(IF, NDIS_STATUS_RESET_END); } } break; } default: break; } } void IPReset(void *Context) { NetTableEntry *NTE = (NetTableEntry *) Context; Interface *IF = NTE->nte_if; IPResetEvent *ResetEvent; if (IF->if_dondisreq) { KIRQL rtlIrql; ResetEvent = CTEAllocMemNBoot(sizeof(IPResetEvent), 'ViCT'); if (ResetEvent) { CTEInitEvent(&ResetEvent->Event, IPResetComplete); CTEGetLock(&RouteTableLock.Lock, &rtlIrql); LOCKED_REFERENCE_IF(IF); ResetEvent->IF = IF; CTEFreeLock(&RouteTableLock.Lock, rtlIrql); CTEScheduleDelayedEvent(&ResetEvent->Event, ResetEvent); } } } void IPResetComplete(CTEEvent * Event, PVOID Context) { IPResetEvent *ResetEvent = (IPResetEvent *) Context; Interface *IF = ResetEvent->IF; uint MediaStatus; NTSTATUS Status; UNREFERENCED_PARAMETER(Event); KdPrintEx((DPFLTR_TCPIP_ID, DPFLTR_INFO_LEVEL,"IPstat:resetcmplt: querying for Media connect status %x\n", IF)); if ((IF->if_flags & IF_FLAGS_MEDIASENSE) && !DisableMediaSense) { Status = (*IF->if_dondisreq) (IF->if_lcontext, NdisRequestQueryInformation, OID_GEN_MEDIA_CONNECT_STATUS, &MediaStatus, sizeof(MediaStatus), NULL, TRUE); if (Status == NDIS_STATUS_SUCCESS) { KdPrintEx((DPFLTR_TCPIP_ID, DPFLTR_INFO_LEVEL,"IPStat: resetend: Media status %x %x\n", IF, Status)); if (MediaStatus == NdisMediaStateDisconnected && IF->if_mediastatus) { IF->if_mediastatus = 0; IPNotifyClientsMediaSense(IF, IP_MEDIA_DISCONNECT); KdPrintEx((DPFLTR_TCPIP_ID, DPFLTR_INFO_LEVEL,"ipstatus:resetcmplt: notifying disconnect\n")); } else if (MediaStatus == NdisMediaStateConnected && !IF->if_mediastatus) { IPNotifyClientsMediaSense(IF, IP_MEDIA_CONNECT); IF->if_mediastatus = 1; KdPrintEx((DPFLTR_TCPIP_ID, DPFLTR_INFO_LEVEL,"ipstatus:resetcmplt: notifying connect\n")); } } } DerefIF(IF); CTEFreeMem(ResetEvent); } void DelayedDecrInitTimeInterfaces ( IN CTEEvent * Event, IN PVOID Context ) /*++ Routine Description: DelayedDecrInitTimeInterfaces could end up calling TDI's ProviderReady function (which must be called at < DISPATCH_LEVEL) thus it is necessary to have this routine. Arguments: Event - Previously allocated CTEEvent structure for this event Context - Any parameters for this function is passed in here Return Value: None --*/ { Interface * IF; KIRQL rtlIrql; IF = (Interface *) Context; DecrInitTimeInterfaces(IF); CTEGetLock(&RouteTableLock.Lock, &rtlIrql); LockedDerefIF(IF); CTEFreeLock(&RouteTableLock.Lock, rtlIrql); CTEFreeMem(Event); } void DampCheck() { Interface *tmpIF, *PrevIF, *NotifyList = NULL; IP_STATUS ipstat = IP_MEDIA_DISCONNECT; KIRQL rtlIrql; CTEEvent * Event; CTEGetLock(&RouteTableLock.Lock, &rtlIrql); for (tmpIF = IFList; tmpIF; ) { if ((tmpIF->if_flags & IF_FLAGS_DELETING) || tmpIF->if_wlantimer == 0 || --tmpIF->if_wlantimer != 0) { tmpIF = tmpIF->if_next; } else { LOCKED_REFERENCE_IF(tmpIF); CTEFreeLock(&RouteTableLock.Lock, rtlIrql); if (rtlIrql < DISPATCH_LEVEL) { DecrInitTimeInterfaces(tmpIF); CTEGetLock(&RouteTableLock.Lock, &rtlIrql); PrevIF = tmpIF; tmpIF = tmpIF->if_next; LockedDerefIF(PrevIF); continue; } // // Queue work item for DecrInitTimeInterfaces // because this function might be called // at dispatch level. // Event = CTEAllocMemN(sizeof(CTEEvent), 'ViCT'); if (Event == NULL) { KdPrintEx((DPFLTR_TCPIP_ID, DPFLTR_WARNING_LEVEL,"ipstatus: DampCheck - can not allocate Event for CTEInitEvent\n")); CTEGetLock(&RouteTableLock.Lock, &rtlIrql); tmpIF->if_wlantimer++; PrevIF = tmpIF; tmpIF = tmpIF->if_next; LockedDerefIF(PrevIF); continue; } CTEInitEvent(Event, DelayedDecrInitTimeInterfaces); CTEScheduleDelayedEvent(Event, tmpIF); CTEGetLock(&RouteTableLock.Lock, &rtlIrql); tmpIF = tmpIF->if_next; } } tmpIF = DampingIFList; PrevIF = STRUCT_OF(Interface, &DampingIFList, if_dampnext); while (tmpIF) { if (tmpIF->if_damptimer && (--tmpIF->if_damptimer <= 0)) { tmpIF->if_damptimer = 0; //ref this if so that it will not be deleted //until we complete notifying dhcp LOCKED_REFERENCE_IF(tmpIF); KdPrintEx((DPFLTR_TCPIP_ID, DPFLTR_INFO_LEVEL,"Dampcheck fired %x \n", tmpIF)); PrevIF->if_dampnext = tmpIF->if_dampnext; tmpIF->if_dampnext = NotifyList; NotifyList = tmpIF; tmpIF = PrevIF->if_dampnext; } else { PrevIF = tmpIF; tmpIF = tmpIF->if_dampnext; } } CTEFreeLock(&RouteTableLock.Lock, rtlIrql); //now process the notify queue tmpIF = NotifyList; ipstat = IP_MEDIA_DISCONNECT; while (tmpIF) { if (tmpIF->if_mediastatus) { ipstat = IP_MEDIA_CONNECT; tmpIF->if_mediastatus = 0; } //flush arp table entries on this interface KdPrintEx((DPFLTR_TCPIP_ID, DPFLTR_INFO_LEVEL,"dampcheck:flushing ates on if %x\n", tmpIF)); if (tmpIF->if_arpflushallate) (*(tmpIF->if_arpflushallate)) (tmpIF->if_lcontext); KdPrintEx((DPFLTR_TCPIP_ID, DPFLTR_INFO_LEVEL,"Dampcheck notifying %x %x\n", tmpIF, ipstat)); IPNotifyClientsMediaSense(tmpIF, ipstat); PrevIF = tmpIF; tmpIF = tmpIF->if_dampnext; DerefIF(PrevIF); } } //** IPNotifyClientsMediaSense - handles media-sense notification. // // Called to notify upper-layer clients of media-sense after damping has been // done to filter out spurious events. Do nothing if media-sense-handling is // disabled and, otherwise, notify the DHCP client service of the event, and // optionally schedule a work-item to log an event. // // Entry: // IF - the interface on which the media-sense event occurred. // ipStatus - the event that occurred (connect or disconnect) // // Returns: // Nothing. // void IPNotifyClientsMediaSense(Interface *IF, IP_STATUS ipStatus) { MediaSenseNotifyEvent *MediaEvent; USHORT MaxLen = CTE_MAX_EVENT_LOG_DATA_SIZE - 2; if (!(IF->if_flags & IF_FLAGS_MEDIASENSE) || DisableMediaSense) { // Just make sure that media status is always 1. IF->if_mediastatus = 1; return; } // Notify DHCP about this event, so that it can reacquire/release // the IP address IPNotifyClientsIPEvent(IF, ipStatus); if (!DisableMediaSenseEventLog) { // Log an event for the administrator's benefit. // We attempt to log the event with a friendly-name; // if none is available, we fall back on the device GUID. MediaEvent = CTEAllocMemNBoot(sizeof(MediaSenseNotifyEvent), 'ViCT'); if (MediaEvent) { MediaEvent->Status = ipStatus; MediaEvent->devname.Buffer = CTEAllocMemBoot((MAX_IFDESCR_LEN + 1) * sizeof(WCHAR)); if (MediaEvent->devname.Buffer) { TDI_STATUS Status; Status = IPGetInterfaceFriendlyName(IF->if_index, MediaEvent->devname.Buffer, MAX_IFDESCR_LEN); if (Status != TDI_SUCCESS) { RtlCopyMemory(MediaEvent->devname.Buffer, IF->if_devname.Buffer, IF->if_devname.Length); MediaEvent->devname.Buffer[ IF->if_devname.Length / sizeof(WCHAR)] = UNICODE_NULL; } MediaEvent->devname.Length = (USHORT) (wcslen(MediaEvent->devname.Buffer)* sizeof(WCHAR)); // truncate NIC name if it is too long if (MediaEvent->devname.Length > MaxLen) { IPAbbreviateFriendlyName(&MediaEvent->devname, MaxLen); } } CTEInitEvent(&MediaEvent->Event, LogMediaSenseEvent); CTEScheduleDelayedEvent(&MediaEvent->Event, MediaEvent); } } } NTSTATUS IPGetIPEventEx( PIRP Irp, IN PIO_STACK_LOCATION IrpSp ) /*++ Routine Description: Processes an IPGetIPEvent request. Arguments: Irp - pointer to the client irp. Return Value: NTSTATUS -- Indicates whether NT-specific processing of the request was successful. The status of the actual request is returned in the request buffers. --*/ { NTSTATUS status; KIRQL cancelIrql, rtlIrql; PendingIPEvent *event; PLIST_ENTRY entry; PIP_GET_IP_EVENT_RESPONSE responseBuf; PIP_GET_IP_EVENT_REQUEST requestBuf; // // We need to grab CancelSpinLock before the RouteTableLock // to preserve the lock order as in the cancel routine. // IoAcquireCancelSpinLock(&cancelIrql); CTEGetLock(&RouteTableLock.Lock, &rtlIrql); // // We need to recheck that PendingIPGetIPEventRequest is // same as Irp. What can happen is that after we set the // cancel routine, this irp can get cancelled anytime. Here // we check for that case to make sure that we don't complete // a cancelled irp. // if (PendingIPGetIPEventRequest == Irp) { responseBuf = Irp->AssociatedIrp.SystemBuffer; requestBuf = Irp->AssociatedIrp.SystemBuffer; //TCPTRACE(("IP: Received irp %lx for ip event, last seqNo %lx\n",Irp, requestBuf->SequenceNo)); // // Find an event that is greater than the last one reported. // i.e one with higher sequence # // for (entry = PendingIPEventList.Flink; entry != &PendingIPEventList; ) { event = CONTAINING_RECORD(entry, PendingIPEvent, Linkage); entry = entry->Flink; if (event->evBuf.SequenceNo > requestBuf->SequenceNo) { if (IrpSp->Parameters.DeviceIoControl.OutputBufferLength >= (sizeof(IP_GET_IP_EVENT_RESPONSE) + event->evBuf.AdapterName.MaximumLength)) { // reset pending irp to NULL. PendingIPGetIPEventRequest = NULL; IoSetCancelRoutine(Irp, NULL); *responseBuf = event->evBuf; // set up the buffer to store the unicode adapter name. note that this buffer will have to // be remapped in the user space. responseBuf->AdapterName.Buffer = (PVOID) ((uchar *) responseBuf + sizeof(IP_GET_IP_EVENT_RESPONSE)); responseBuf->AdapterName.Length = event->evBuf.AdapterName.Length; responseBuf->AdapterName.MaximumLength = event->evBuf.AdapterName.MaximumLength; RtlCopyMemory(responseBuf->AdapterName.Buffer, event->evBuf.AdapterName.Buffer, event->evBuf.AdapterName.Length); Irp->IoStatus.Information = sizeof(IP_GET_IP_EVENT_RESPONSE) + event->evBuf.AdapterName.MaximumLength; // once the disconnect/unbind event has been indicated // it should be removed from the queue because the client does not // have to be reindicated with disconnect/unbind even if the client was restarted. if (IP_MEDIA_DISCONNECT == event->evBuf.MediaStatus || IP_UNBIND_ADAPTER == event->evBuf.MediaStatus) { //TCPTRACE(("IP: Removing completed %x event\n",event->evBuf.MediaStatus)); RemoveEntryList(&event->Linkage); CTEFreeMem(event); } CTEFreeLock(&RouteTableLock.Lock, rtlIrql); IoReleaseCancelSpinLock(cancelIrql); return STATUS_SUCCESS; } else { status = STATUS_INVALID_PARAMETER; } break; } } // any entry of higher sequence # found? if (entry == &PendingIPEventList) { // // Since there is no new event pending, we cannot complete // the irp. // //TCPTRACE(("IP: get ip event irp %lx will pend\n",Irp)); status = STATUS_PENDING; } else { status = STATUS_INVALID_PARAMETER; } } else { status = STATUS_CANCELLED; } if ((status == STATUS_INVALID_PARAMETER)) { //makesure that we nulke this before releasing cancel spinlock ASSERT(PendingIPGetIPEventRequest == Irp); PendingIPGetIPEventRequest = NULL; } CTEFreeLock(&RouteTableLock.Lock, rtlIrql); IoReleaseCancelSpinLock(cancelIrql); return status; } // IPGetMediaSenseEx NTSTATUS IPEnableMediaSense(BOOLEAN Enable, KIRQL *rtlIrql) { Interface *tmpIF, *IF; NTSTATUS Status; uint MediaStatus; if (Enable) { if ((DisableMediaSense > 0) && (--DisableMediaSense == 0)) { // Remove if in damping list while ( DampingIFList ) { DampingIFList->if_damptimer = 0; DampingIFList = DampingIFList->if_dampnext; } // for each interface, query media status // and if disabled, notify clients tmpIF = IFList; while (tmpIF) { if (!(tmpIF->if_flags & IF_FLAGS_DELETING) && !(tmpIF->if_flags & IF_FLAGS_NOIPADDR) && (tmpIF->if_flags & IF_FLAGS_MEDIASENSE) && (tmpIF->if_dondisreq) && (tmpIF != &LoopInterface)) { // query ndis LOCKED_REFERENCE_IF(tmpIF); CTEFreeLock(&RouteTableLock.Lock, *rtlIrql); Status = (*tmpIF->if_dondisreq)(tmpIF->if_lcontext, NdisRequestQueryInformation, OID_GEN_MEDIA_CONNECT_STATUS, &MediaStatus, sizeof(MediaStatus), NULL, TRUE); if (Status == NDIS_STATUS_SUCCESS) { if (MediaStatus == NdisMediaStateDisconnected && tmpIF->if_mediastatus) { tmpIF->if_mediastatus = 0; IPNotifyClientsIPEvent(tmpIF, IP_MEDIA_DISCONNECT); } else if (MediaStatus == NdisMediaStateConnected && !tmpIF->if_mediastatus) { IPNotifyClientsIPEvent(tmpIF, IP_MEDIA_CONNECT); tmpIF->if_mediastatus = 1; } } CTEGetLock(&RouteTableLock.Lock, rtlIrql); IF = tmpIF->if_next; LockedDerefIF(tmpIF); } else { IF = tmpIF->if_next; } tmpIF = IF; } } Status = STATUS_SUCCESS; } else { if (DisableMediaSense++ == 0) { // remove if in damping list while (DampingIFList) { DampingIFList->if_damptimer = 0; DampingIFList = DampingIFList->if_dampnext; } // if there is a disconnected media, fake a connect request tmpIF = IFList; while (tmpIF) { if (!(tmpIF->if_flags & IF_FLAGS_DELETING) && !(tmpIF->if_flags & IF_FLAGS_NOIPADDR) && (tmpIF->if_flags & IF_FLAGS_MEDIASENSE) && (tmpIF->if_dondisreq) && (tmpIF->if_mediastatus == 0) && (tmpIF != &LoopInterface)) { LOCKED_REFERENCE_IF(tmpIF); CTEFreeLock(&RouteTableLock.Lock, *rtlIrql); IPNotifyClientsIPEvent(tmpIF, IP_MEDIA_CONNECT); tmpIF->if_mediastatus = 1; CTEGetLock(&RouteTableLock.Lock, rtlIrql); IF = tmpIF->if_next; LockedDerefIF(tmpIF); } else { IF = tmpIF->if_next; } tmpIF = IF; } } Status = STATUS_PENDING; } return Status; } void IPNotifyClientsIPEvent( Interface * interface, IP_STATUS ipStatus ) /*++ Routine Description: Notifies the clients about media sense event. Arguments: interface - IP interface on which this event arrived. ipStatus - the status of the event Return Value: none. --*/ { PIRP pendingIrp; KIRQL rtlIrql; NDIS_STRING adapterName; uint seqNo; PendingIPEvent *event; PLIST_ENTRY p; BOOLEAN EventIndicated; AddStaticAddrEvent *AddrEvent; KIRQL oldIrql; EventIndicated = FALSE; if (interface->if_flags & IF_FLAGS_MEDIASENSE) { if (ipStatus == IP_MEDIA_CONNECT) { if (interface->if_mediastatus == 0) { // // First mark the interface UP // interface->if_mediastatus = 1; } else { KdPrintEx((DPFLTR_TCPIP_ID, DPFLTR_INFO_LEVEL,"Connect media event when already connected!\n")); // return; } //schedule an event to replumb static addr AddrEvent = CTEAllocMemNBoot(sizeof(AddStaticAddrEvent), 'ViCT'); if (AddrEvent) { AddrEvent->ConfigName = interface->if_configname; // If we fail to alloc Configname buffer, do not schedule // ReplumbStaticAddr, as OpenIFConfig anyway will fail. AddrEvent->ConfigName.Buffer = CTEAllocMemBoot(interface->if_configname.MaximumLength); if (AddrEvent->ConfigName.Buffer) { NdisZeroMemory(AddrEvent->ConfigName.Buffer, interface->if_configname.MaximumLength); RtlCopyMemory(AddrEvent->ConfigName.Buffer, interface->if_configname.Buffer, interface->if_configname.Length); AddrEvent->IF = interface; // Reference this interface so that it will not // go away until RePlumbStaticAddr is scheduled. CTEGetLock(&RouteTableLock.Lock, &rtlIrql); LOCKED_REFERENCE_IF(interface); CTEFreeLock(&RouteTableLock.Lock, rtlIrql); CTEInitEvent(&AddrEvent->Event, RePlumbStaticAddr); CTEScheduleDelayedEvent(&AddrEvent->Event, AddrEvent); KdPrintEx((DPFLTR_TCPIP_ID, DPFLTR_INFO_LEVEL,"media connect: scheduled replumbstaticaddr %xd!\n", interface)); } else { KdPrintEx((DPFLTR_TCPIP_ID, DPFLTR_INFO_LEVEL,"Failed to allocate config name buffer for RePlumbStaticAddr!\n")); } } else { KdPrintEx((DPFLTR_TCPIP_ID, DPFLTR_INFO_LEVEL,"Failed to allocate event for RePlumbStaticAddr!\n")); return; } } else if (ipStatus == IP_MEDIA_DISCONNECT) { // // Mark the interface DOWN // interface->if_mediastatus = 0; AddrEvent = CTEAllocMemNBoot(sizeof(AddStaticAddrEvent), 'ViCT'); if (AddrEvent) { AddrEvent->ConfigName = interface->if_configname; AddrEvent->ConfigName.Buffer = CTEAllocMemBoot(interface->if_configname.MaximumLength); if (AddrEvent) { NdisZeroMemory(AddrEvent->ConfigName.Buffer, interface->if_configname.MaximumLength); RtlCopyMemory(AddrEvent->ConfigName.Buffer, interface->if_configname.Buffer, interface->if_configname.Length); } AddrEvent->IF = interface; // Reference this interface so that it will not // go away until RemoveStaticAddr is scheduled. CTEGetLock(&RouteTableLock.Lock, &rtlIrql); LOCKED_REFERENCE_IF(interface); CTEFreeLock(&RouteTableLock.Lock, rtlIrql); CTEInitEvent(&AddrEvent->Event, RemoveStaticAddr); CTEScheduleDelayedEvent(&AddrEvent->Event, AddrEvent); KdPrintEx((DPFLTR_TCPIP_ID, DPFLTR_INFO_LEVEL,"media disconnect: scheduled removestaticaddr %xd!\n", interface)); } else { KdPrintEx((DPFLTR_TCPIP_ID, DPFLTR_INFO_LEVEL,"Failed to allocate event for RemoveStaticAddr!\n")); return; } } } // // strip off \Device\ from the interface name to get the adapter name. // This is what we pass to our clients. // #if MILLEN adapterName.Length = interface->if_devname.Length; adapterName.MaximumLength = interface->if_devname.MaximumLength; adapterName.Buffer = interface->if_devname.Buffer; #else // MILLEN adapterName.Length = interface->if_devname.Length - (USHORT) (wcslen(TCP_EXPORT_STRING_PREFIX) * sizeof(WCHAR)); adapterName.MaximumLength = interface->if_devname.MaximumLength - (USHORT) (wcslen(TCP_EXPORT_STRING_PREFIX) * sizeof(WCHAR)); adapterName.Buffer = interface->if_devname.Buffer + wcslen(TCP_EXPORT_STRING_PREFIX); #endif // !MILLEN seqNo = InterlockedIncrement( (PLONG) &gIPEventSequenceNo); // TCPTRACE(("IP: Received ip event %lx for interface %lx context %lx, seq %lx\n", // ipStatus, interface, interface->if_nte->nte_context,seqNo)); IoAcquireCancelSpinLock(&oldIrql); if (PendingIPGetIPEventRequest) { PIP_GET_IP_EVENT_RESPONSE responseBuf; IN PIO_STACK_LOCATION IrpSp; pendingIrp = PendingIPGetIPEventRequest; PendingIPGetIPEventRequest = NULL; IoSetCancelRoutine(pendingIrp, NULL); IoReleaseCancelSpinLock(oldIrql); IrpSp = IoGetCurrentIrpStackLocation(pendingIrp); if (IrpSp->Parameters.DeviceIoControl.OutputBufferLength >= (sizeof(IP_GET_IP_EVENT_RESPONSE) + adapterName.MaximumLength)) { responseBuf = pendingIrp->AssociatedIrp.SystemBuffer; responseBuf->ContextStart = interface->if_nte->nte_context; responseBuf->ContextEnd = (USHORT) (responseBuf->ContextStart + interface->if_ntecount); responseBuf->MediaStatus = ipStatus; responseBuf->SequenceNo = seqNo; // set up the buffer to store the unicode adapter name. note that this buffer will have to // be remapped in the user space. responseBuf->AdapterName.Buffer = (PVOID) ((uchar *) responseBuf + sizeof(IP_GET_IP_EVENT_RESPONSE)); responseBuf->AdapterName.Length = adapterName.Length; responseBuf->AdapterName.MaximumLength = adapterName.MaximumLength; RtlCopyMemory(responseBuf->AdapterName.Buffer, adapterName.Buffer, adapterName.Length); pendingIrp->IoStatus.Information = sizeof(IP_GET_IP_EVENT_RESPONSE) + adapterName.MaximumLength; pendingIrp->IoStatus.Status = STATUS_SUCCESS; EventIndicated = TRUE; } else { pendingIrp->IoStatus.Information = 0; pendingIrp->IoStatus.Status = STATUS_INVALID_PARAMETER; } IoCompleteRequest(pendingIrp, IO_NETWORK_INCREMENT); } else { IoReleaseCancelSpinLock(oldIrql); } // // Make sure there aren't any outdated events which we dont // need to keep in the queue any longer. // if this is a DISCONNECT request or UNBIND request: // remove all the previous events since they are of // no meaning once we get a new disconnect/unbind request. // if this is a CONNECT request. // remove previous duplicate CONNECT requests if any. // if this is a BIND request: // there cant be anything other than UNBIND request in the queue. // CTEGetLock(&RouteTableLock.Lock, &rtlIrql); for (p = PendingIPEventList.Flink; p != &PendingIPEventList;) { BOOLEAN removeOldEvent = FALSE; PUNICODE_STRING evAdapterName; event = CONTAINING_RECORD(p, PendingIPEvent, Linkage); p = p->Flink; evAdapterName = &event->evBuf.AdapterName; if ((evAdapterName->Length == adapterName.Length) && RtlEqualMemory(evAdapterName->Buffer, adapterName.Buffer, evAdapterName->Length)) { switch (ipStatus) { case IP_MEDIA_DISCONNECT: case IP_UNBIND_ADAPTER: removeOldEvent = TRUE; break; case IP_MEDIA_CONNECT: if (event->evBuf.MediaStatus == IP_MEDIA_CONNECT) { removeOldEvent = TRUE; } break; case IP_BIND_ADAPTER: break; default: break; } if (removeOldEvent == TRUE) { //TCPTRACE(("IP: Removing old ip event %lx, status %lx, seqNo %lx\n", // event,event->evBuf.MediaStatus,event->evBuf.SequenceNo)); RemoveEntryList(&event->Linkage); CTEFreeMem(event); } } } // At the same time, once the disconnect/unbind event has been indicated // it should be removed from the queue because the client does not // have to be reindicated with disconnect/unbind even if the client was restarted. if (EventIndicated && (IP_MEDIA_DISCONNECT == ipStatus || IP_UNBIND_ADAPTER == ipStatus)) { CTEFreeLock(&RouteTableLock.Lock, rtlIrql); return; } // // Allocate an event. // event = CTEAllocMem(sizeof(PendingIPEvent) + adapterName.MaximumLength); if (NULL == event) { CTEFreeLock(&RouteTableLock.Lock, rtlIrql); return; } event->evBuf.ContextStart = interface->if_nte->nte_context; event->evBuf.ContextEnd = (USHORT) (event->evBuf.ContextStart + interface->if_ntecount - 1); event->evBuf.MediaStatus = ipStatus; event->evBuf.SequenceNo = seqNo; // set up the buffer to store the unicode adapter name. note that this buffer will have to // be remapped in the user space. event->evBuf.AdapterName.Buffer = (PVOID) ((uchar *) event + sizeof(PendingIPEvent)); event->evBuf.AdapterName.Length = adapterName.Length; event->evBuf.AdapterName.MaximumLength = adapterName.MaximumLength; RtlCopyMemory(event->evBuf.AdapterName.Buffer, adapterName.Buffer, adapterName.Length); // // There is no client request pending, so we queue this event on the // pending event list. When the client comes back with an irp we will // complete the irp with the event. // //TCPTRACE(("Queuing ip event %lx for adapter %lx seq %lx\n", ipStatus,interface,seqNo)); InsertTailList(&PendingIPEventList, &event->Linkage); CTEFreeLock(&RouteTableLock.Lock, rtlIrql); } // IPNotifyClientsIPEvent NTSTATUS NotifyPnPInternalClients(Interface * interface, PNET_PNP_EVENT netPnPEvent) { NTSTATUS Status, retStatus; int i; NetTableEntry *NTE; NDIS_HANDLE handle = NULL; retStatus = Status = STATUS_SUCCESS; if (interface && !OpenIFConfig(&interface->if_configname, &handle)) { return NDIS_STATUS_FAILURE; } for (i = 0; (i < NextPI) && (STATUS_SUCCESS == Status); i++) { if (IPProtInfo[i].pi_pnppower && (IPProtInfo[i].pi_valid == PI_ENTRY_VALID)) { if (interface) { NTE = interface->if_nte; while (NTE != NULL) { if (NTE->nte_flags & NTE_VALID) { Status = (*IPProtInfo[i].pi_pnppower) (interface, NTE->nte_addr, handle, netPnPEvent); if (STATUS_SUCCESS != Status) { retStatus = Status; } } NTE = NTE->nte_ifnext; } } else { Status = (*IPProtInfo[i].pi_pnppower) (NULL, 0, NULL, netPnPEvent); if (STATUS_SUCCESS != Status) { retStatus = Status; } } } } if (handle) { CloseIFConfig(handle); } return retStatus; } NTSTATUS IPPnPReconfigure(Interface * interface, PNET_PNP_EVENT netPnPEvent) { NetTableEntry *NTE; uint i; NDIS_HANDLE handle = NULL; PIP_PNP_RECONFIG_REQUEST reconfigBuffer = (PIP_PNP_RECONFIG_REQUEST) netPnPEvent->Buffer; CTELockHandle Handle; uint NextEntryOffset; PIP_PNP_RECONFIG_HEADER Header; BOOLEAN InitComplete = FALSE; if (!reconfigBuffer) return STATUS_SUCCESS; if (IP_PNP_RECONFIG_VERSION != reconfigBuffer->version) { return NDIS_STATUS_BAD_VERSION; } else if (netPnPEvent->BufferLength < sizeof(*reconfigBuffer)) { return NDIS_STATUS_INVALID_LENGTH; } else { NextEntryOffset = reconfigBuffer->NextEntryOffset; if (NextEntryOffset) { // validate the chain of reconfig entries for (;;) { if ((NextEntryOffset + sizeof(IP_PNP_RECONFIG_HEADER)) > netPnPEvent->BufferLength) { return NDIS_STATUS_INVALID_LENGTH; } else { Header = (PIP_PNP_RECONFIG_HEADER) ((PUCHAR) reconfigBuffer + NextEntryOffset); if (Header->EntryType == IPPnPInitCompleteEntryType) { InitComplete = TRUE; } if (!Header->NextEntryOffset) { break; } else { NextEntryOffset += Header->NextEntryOffset; } } } } } if (interface && InitComplete) { DecrInitTimeInterfaces(interface); } if (interface && !OpenIFConfig(&interface->if_configname, &handle)) { return NDIS_STATUS_FAILURE; } // if there is gateway list update, delete the old gateways // and add the new ones. if ((reconfigBuffer->Flags & IP_PNP_FLAG_GATEWAY_LIST_UPDATE) && interface && reconfigBuffer->gatewayListUpdate) { for (i = 0; i < interface->if_numgws; i++) { NTE = interface->if_nte; while (NTE != NULL) { if (NTE->nte_flags & NTE_VALID) { DeleteRoute(NULL_IP_ADDR, DEFAULT_MASK, IPADDR_LOCAL, interface, 0); DeleteRoute(NULL_IP_ADDR, DEFAULT_MASK, net_long(interface->if_gw[i]), interface, 0); } NTE = NTE->nte_ifnext; } } RtlZeroMemory(interface->if_gw, interface->if_numgws); if (!GetDefaultGWList(&interface->if_numgws, interface->if_gw, interface->if_gwmetric, handle, &interface->if_configname)) { CloseIFConfig(handle); return NDIS_STATUS_FAILURE; } for (i = 0; i < interface->if_numgws; i++) { NTE = interface->if_nte; while (NTE != NULL) { if (NTE->nte_flags & NTE_VALID) { IPAddr GWAddr = net_long(interface->if_gw[i]); if (IP_ADDR_EQUAL(GWAddr, NTE->nte_addr)) { GWAddr = IPADDR_LOCAL; } AddRoute(NULL_IP_ADDR, DEFAULT_MASK, GWAddr, interface, NTE->nte_mss, interface->if_gwmetric[i] ? interface->if_gwmetric[i] : interface->if_metric, IRE_PROTO_NETMGMT, ATYPE_OVERRIDE, 0, 0); } NTE = NTE->nte_ifnext; } } } // Update the interface metric if necessary. if ((reconfigBuffer->Flags & IP_PNP_FLAG_INTERFACE_METRIC_UPDATE) && interface && reconfigBuffer->InterfaceMetricUpdate) { uint Metric, NewMetric; GetInterfaceMetric(&Metric, handle); if (!Metric && !interface->if_auto_metric) { //from non auto mode change to auto mode interface->if_auto_metric = 1; NewMetric = 0; } else { if (Metric && interface->if_auto_metric) { //from auto mode change to non auto mode interface->if_auto_metric = 0; NewMetric = Metric; } else { NewMetric = Metric; } } if (!NewMetric) { //set the metric according to the speed NewMetric = GetAutoMetric(interface->if_speed); } if (NewMetric != interface->if_metric) { interface->if_metric = NewMetric; AddIFRoutes(interface); // Also need to change default route metric when metric of static DG is auto for (i = 0; i < interface->if_numgws; i++) { if (interface->if_gwmetric[i] != 0) { continue; } NTE = interface->if_nte; while (NTE != NULL) { if (NTE->nte_flags & NTE_VALID) { IPAddr GWAddr = net_long(interface->if_gw[i]); if (IP_ADDR_EQUAL(GWAddr, NTE->nte_addr)) { GWAddr = IPADDR_LOCAL; } AddRoute(NULL_IP_ADDR, DEFAULT_MASK, GWAddr, interface, NTE->nte_mss, interface->if_metric, IRE_PROTO_NETMGMT, ATYPE_OVERRIDE, 0, 0); } NTE = NTE->nte_ifnext; } } IPNotifyClientsIPEvent(interface, IP_INTERFACE_METRIC_CHANGE); } } // Check for per-interface tcp parameters updation if ((reconfigBuffer->Flags & IP_PNP_FLAG_INTERFACE_TCP_PARAMETER_UPDATE) && interface) { UpdateTcpParams(handle, interface); } if (interface) { CloseIFConfig(handle); } // Enable or disable forwarding if necessary. CTEGetLock(&RouteTableLock.Lock, &Handle); if (reconfigBuffer->Flags & IP_PNP_FLAG_IP_ENABLE_ROUTER) { if (reconfigBuffer->IPEnableRouter) { // configure ourself a router.. if (!RouterConfigured) { EnableRouter(); } } else { // if we were config as router, disable it. if (RouterConfigured) { DisableRouter(); } } } // Handle a change to the router-discovery setting on the interface. // The static setting is in 'PerformRouterDiscovery' (see IP_IRDP_*), // and the DHCP setting is the BOOLEAN 'DhcpPerformRouterDiscovery'. if (interface && (((reconfigBuffer->Flags & IP_PNP_FLAG_PERFORM_ROUTER_DISCOVERY) && reconfigBuffer->PerformRouterDiscovery != interface->if_rtrdiscovery) || ((reconfigBuffer->Flags & IP_PNP_FLAG_DHCP_PERFORM_ROUTER_DISCOVERY) && !!reconfigBuffer->DhcpPerformRouterDiscovery != !!interface->if_dhcprtrdiscovery))) { if (reconfigBuffer->Flags & IP_PNP_FLAG_PERFORM_ROUTER_DISCOVERY) { interface->if_rtrdiscovery = reconfigBuffer->PerformRouterDiscovery; } if (reconfigBuffer->Flags & IP_PNP_FLAG_DHCP_PERFORM_ROUTER_DISCOVERY) { interface->if_dhcprtrdiscovery = (USHORT) (!!reconfigBuffer->DhcpPerformRouterDiscovery); } // Propagate the interface's router-discovery setting to its NTEs. // Note that the 'if_dhcprtrdiscovery' setting takes effect only // if the interface's setting is 'IP_IRDP_DISABLED_USE_DHCP'. NTE = interface->if_nte; while ((NTE != NULL) && (NTE->nte_flags & NTE_VALID)) { if (interface->if_rtrdiscovery == IP_IRDP_ENABLED) { NTE->nte_rtrdiscovery = IP_IRDP_ENABLED; NTE->nte_rtrdisccount = MAX_SOLICITATION_DELAY; NTE->nte_rtrdiscstate = NTE_RTRDISC_DELAYING; } else if (interface->if_rtrdiscovery == IP_IRDP_DISABLED) { NTE->nte_rtrdiscovery = IP_IRDP_DISABLED; } else if (interface->if_rtrdiscovery == IP_IRDP_DISABLED_USE_DHCP && interface->if_dhcprtrdiscovery) { NTE->nte_rtrdiscovery = IP_IRDP_ENABLED; NTE->nte_rtrdisccount = MAX_SOLICITATION_DELAY; NTE->nte_rtrdiscstate = NTE_RTRDISC_DELAYING; } else { NTE->nte_rtrdiscovery = IP_IRDP_DISABLED; } NTE = NTE->nte_ifnext; } } CTEFreeLock(&RouteTableLock.Lock, Handle); if (reconfigBuffer->Flags & IP_PNP_FLAG_ENABLE_SECURITY_FILTER) { ULReConfigNotify(IP_RECONFIG_SECFLTR, (ulong) reconfigBuffer->EnableSecurityFilter); } return STATUS_SUCCESS; } #if MILLEN extern Interface *IFList; // // Millennium doesn't have the same PnP reconfigure support via NDIS as // Win2000, so IPReconfigIRDP is // NTSTATUS IPReconfigIRDP(uint IfIndex, PIP_PNP_RECONFIG_REQUEST pReconfigRequest) { NET_PNP_EVENT PnpEvent; Interface *IF = NULL; NTSTATUS NtStatus = STATUS_INVALID_PARAMETER; CTELockHandle Handle; // // Only allow IRDP reconfigs. // if ((pReconfigRequest->Flags & IP_PNP_FLAG_PERFORM_ROUTER_DISCOVERY) == 0 && (pReconfigRequest->Flags & IP_PNP_FLAG_DHCP_PERFORM_ROUTER_DISCOVERY) == 0) { goto done; } // // Search for the interface. Hold the route table lock and grab a // reference while in use. // CTEGetLock(&RouteTableLock.Lock, &Handle); for (IF = IFList; IF != NULL; IF = IF->if_next) { if ((IF->if_refcount != 0) && (IF->if_index == IfIndex)) { break; } } if (IF == NULL) { CTEFreeLock(&RouteTableLock.Lock, Handle); goto done; } else { LOCKED_REFERENCE_IF(IF); CTEFreeLock(&RouteTableLock.Lock, Handle); } // // Set up our PnP event buffer to make it look like it came from NDIS -- // NetEventReconfigure. // NdisZeroMemory(&PnpEvent, sizeof(NET_PNP_EVENT)); PnpEvent.NetEvent = NetEventReconfigure; PnpEvent.Buffer = (PVOID) pReconfigRequest; PnpEvent.BufferLength = sizeof(IP_PNP_RECONFIG_REQUEST); NtStatus = IPPnPReconfigure(IF, &PnpEvent); done: if (IF) { DerefIF(IF); } return (NtStatus); } #endif // MILLEN NTSTATUS IPPnPCancelRemoveDevice(Interface * interface, PNET_PNP_EVENT netPnPEvent) { UNREFERENCED_PARAMETER(netPnPEvent); interface->if_flags &= ~IF_FLAGS_REMOVING_DEVICE; return STATUS_SUCCESS; } NTSTATUS IPPnPQueryRemoveDevice(Interface * interface, PNET_PNP_EVENT netPnPEvent) { NTSTATUS status = STATUS_SUCCESS; UNREFERENCED_PARAMETER(netPnPEvent); // // CAVEAT: PnP generates this event even on adapters that are not being // disabled (Bug # 618052)! Hence this flag should not be used to disable // communication over the adapter. // interface->if_flags |= IF_FLAGS_REMOVING_DEVICE; return status; } NTSTATUS IPPnPQueryPower(Interface * interface, PNET_PNP_EVENT netPnPEvent) { PNET_DEVICE_POWER_STATE powState = (PNET_DEVICE_POWER_STATE) netPnPEvent->Buffer; NTSTATUS status = STATUS_SUCCESS; //TCPTRACE(("Received query power (%x) event for interface %lx\n",*powState,interface)); switch (*powState) { case NetDeviceStateD0: break; case NetDeviceStateD1: case NetDeviceStateD2: case NetDeviceStateD3: // // Change the state to removing power anyways, because power may get // removed even if we reject the query power. // interface->if_flags |= IF_FLAGS_REMOVING_POWER; break; default: ASSERT(FALSE); } return status; } NTSTATUS IPPnPSetPower(Interface * interface, PNET_PNP_EVENT netPnPEvent) { PNET_DEVICE_POWER_STATE powState = (PNET_DEVICE_POWER_STATE) netPnPEvent->Buffer; // TCPTRACE(("Received set power (%x) event for interface %lx\n",*powState,interface)); switch (*powState) { case NetDeviceStateD0: interface->if_flags &= ~(IF_FLAGS_REMOVING_POWER | IF_FLAGS_POWER_DOWN); //Force connect event if ((interface->if_flags & IF_FLAGS_MEDIASENSE) && !DisableMediaSense) { //query for mediastatus interface->if_mediastatus = 1; if (interface->if_dondisreq) { uint MediaStatus; NTSTATUS Status; KdPrintEx((DPFLTR_TCPIP_ID, DPFLTR_INFO_LEVEL,"IPstat: querying for Media connect status %x\n", interface)); Status = (*interface->if_dondisreq) (interface->if_lcontext, NdisRequestQueryInformation, OID_GEN_MEDIA_CONNECT_STATUS, &MediaStatus, sizeof(MediaStatus), NULL, TRUE); if (Status == NDIS_STATUS_SUCCESS) { KdPrintEx((DPFLTR_TCPIP_ID, DPFLTR_INFO_LEVEL,"IPStat: Media status %x\n", Status)); if (MediaStatus == NdisMediaStateDisconnected) { KdPrintEx((DPFLTR_TCPIP_ID, DPFLTR_INFO_LEVEL,"Disconnected? %x\n", MediaStatus)); interface->if_mediastatus = 0; } } } if (interface->if_mediastatus) { IPNotifyClientsIPEvent( interface, IP_MEDIA_CONNECT); } else { IPNotifyClientsIPEvent( interface, IP_MEDIA_DISCONNECT); } } // Update offload capabilities, and notify IPSec of the changes. if (!DisableTaskOffload) { IFOffloadCapability IFOC; TDI_STATUS Status; Status = IPQuerySetOffload(interface, &IFOC); if (Status == TDI_SUCCESS) { interface->if_OffloadFlags = IFOC.ifoc_OffloadFlags; interface->if_IPSecOffloadFlags = IFOC.ifoc_IPSecOffloadFlags; } else { interface->if_OffloadFlags = 0; interface->if_IPSecOffloadFlags = 0; } if (IPSecNdisStatusPtr) { (*IPSecNdisStatusPtr)(interface, NDIS_STATUS_INTERFACE_UP); } } break; case NetDeviceStateD1: case NetDeviceStateD2: case NetDeviceStateD3: interface->if_flags |= IF_FLAGS_POWER_DOWN; break; default: ASSERT(FALSE); } return STATUS_SUCCESS; } void IPPnPPowerComplete(PNET_PNP_EVENT NetPnPEvent, NTSTATUS Status) { Interface *interface; NDIS_STATUS retStatus; PNetPnPEventReserved Reserved = (PNetPnPEventReserved) NetPnPEvent->TransportReserved; interface = Reserved->Interface; retStatus = Reserved->PnPStatus; if (STATUS_SUCCESS == Status) { retStatus = Status; } if (interface) { (*interface->if_pnpcomplete) (interface->if_lcontext, retStatus, NetPnPEvent); } else { NdisCompletePnPEvent(retStatus, NULL, NetPnPEvent); } } //** DoPnPEvent - Handles PNP/PM events. // // Called from the worker thread event scheduled by IPPnPEvent // We take action depending on the type of the event. // // Entry: // Context - This is a pointer to a NET_PNP_EVENT that describes // the PnP indication. // // Exit: // None. // NDIS_STATUS DoPnPEvent(Interface * interface, PVOID Context) { PNET_PNP_EVENT NetPnPEvent = (PNET_PNP_EVENT) Context; NDIS_STATUS Status, retStatus; PTDI_PNP_CONTEXT tdiPnPContext2, tdiPnPContext1; USHORT context1Size, context2Size; USHORT context1ntes; tdiPnPContext2 = tdiPnPContext1 = NULL; // this will contain the cummulative status. Status = retStatus = STATUS_SUCCESS; if (interface == NULL) { // if its not NetEventReconfigure || NetEventBindsComplete // fail the request if ((NetPnPEvent->NetEvent != NetEventReconfigure) && (NetPnPEvent->NetEvent != NetEventBindsComplete) && (NetPnPEvent->NetEvent != NetEventBindList)) { retStatus = STATUS_UNSUCCESSFUL; goto pnp_complete; } } // // First handle it in IP. // switch (NetPnPEvent->NetEvent) { case NetEventReconfigure: Status = IPPnPReconfigure(interface, NetPnPEvent); break; case NetEventCancelRemoveDevice: Status = IPPnPCancelRemoveDevice(interface, NetPnPEvent); break; case NetEventQueryRemoveDevice: Status = IPPnPQueryRemoveDevice(interface, NetPnPEvent); break; case NetEventQueryPower: Status = IPPnPQueryPower(interface, NetPnPEvent); break; case NetEventSetPower: Status = IPPnPSetPower(interface, NetPnPEvent); break; case NetEventBindsComplete: DecrInitTimeInterfaces(NULL); goto pnp_complete; case NetEventPnPCapabilities: if (interface) { PNDIS_PNP_CAPABILITIES PnpCap = (PNDIS_PNP_CAPABILITIES) NetPnPEvent->Buffer; interface->if_pnpcap = PnpCap->Flags; IPNotifyClientsIPEvent(interface, IP_INTERFACE_WOL_CAPABILITY_CHANGE); } break; case NetEventBindList: { #if !MILLEN PWSTR BindList; PWSTR DeviceName; CTELockHandle Handle; DestinationEntry* Dest; uint IsDataLeft; uchar IteratorContext[CONTEXT_SIZE]; Interface* CurrIF; if (NetPnPEvent->BufferLength) { BindList = CTEAllocMem(NetPnPEvent->BufferLength); if (BindList) { RtlCopyMemory(BindList, NetPnPEvent->Buffer, NetPnPEvent->BufferLength); } } else { BindList = NULL; } CTEGetLock(&RouteTableLock.Lock, &Handle); // Update the bind list if (IPBindList) { CTEFreeMem(IPBindList); } IPBindList = BindList; // Recompute interface orderings for (CurrIF = IFList; CurrIF; CurrIF = CurrIF->if_next) { if (CurrIF->if_devname.Buffer) { DeviceName = CurrIF->if_devname.Buffer + sizeof(TCP_EXPORT_STRING_PREFIX) / sizeof(WCHAR) - 1; CurrIF->if_order = IPMapDeviceNameToIfOrder(DeviceName); } } // Reorder route-lists for all existing destinations RtlZeroMemory(IteratorContext, sizeof(IteratorContext)); IsDataLeft = GetNextDest(IteratorContext, &Dest); while (IsDataLeft) { if (Dest) { SortRoutesInDest(Dest); } IsDataLeft = GetNextDest(IteratorContext, &Dest); } CTEFreeLock(&RouteTableLock.Lock, Handle); #endif // MILLEN retStatus = NDIS_STATUS_SUCCESS; goto pnp_complete; } default: retStatus = NDIS_STATUS_FAILURE; goto pnp_complete; } if (STATUS_SUCCESS != Status) { retStatus = Status; } // // next notify internal clients. // If we have any open connections, return STATUS_DEVICE_BUSY // Status = NotifyPnPInternalClients(interface, NetPnPEvent); PAGED_CODE(); if (STATUS_SUCCESS != Status) { retStatus = Status; } if (NetPnPEvent->NetEvent == NetEventReconfigure) { goto pnp_complete; } // // and finally notify tdi clients. // // // context1 contains the list of ip addresses on this interface. // but dont create a long list if we have too many addresses. // context1ntes = (USHORT) (interface->if_ntecount > 32 ? 32 : interface->if_ntecount); if (context1ntes) { context1Size = sizeof(TRANSPORT_ADDRESS) + (sizeof(TA_ADDRESS) + sizeof(TDI_ADDRESS_IP)) * (context1ntes); tdiPnPContext1 = CTEAllocMem(sizeof(TDI_PNP_CONTEXT) - 1 + context1Size); if (!tdiPnPContext1) { Status = STATUS_INSUFFICIENT_RESOURCES; goto pnp_complete; } else { PTRANSPORT_ADDRESS pAddrList; PTA_ADDRESS pAddr; PTDI_ADDRESS_IP pIPAddr; int i; NetTableEntry *nextNTE; RtlZeroMemory(tdiPnPContext1, context1Size); tdiPnPContext1->ContextSize = context1Size; tdiPnPContext1->ContextType = TDI_PNP_CONTEXT_TYPE_IF_ADDR; pAddrList = (PTRANSPORT_ADDRESS) tdiPnPContext1->ContextData; pAddr = (PTA_ADDRESS) pAddrList->Address; // // copy all the nte addresses // for (i = context1ntes, nextNTE = interface->if_nte; i && nextNTE; nextNTE = nextNTE->nte_ifnext) { if (nextNTE->nte_flags & NTE_VALID) { pAddr->AddressLength = sizeof(TDI_ADDRESS_IP); pAddr->AddressType = TDI_ADDRESS_TYPE_IP; pIPAddr = (PTDI_ADDRESS_IP) pAddr->Address; pIPAddr->in_addr = nextNTE->nte_addr; pAddr = (PTA_ADDRESS) ((PCHAR) pAddr + sizeof(TA_ADDRESS) + sizeof(TDI_ADDRESS_IP)); pAddrList->TAAddressCount++; i--; } } } } // // context2 contains a PDO. // context2Size = sizeof(PVOID); tdiPnPContext2 = CTEAllocMem(sizeof(TDI_PNP_CONTEXT) - 1 + context2Size); if (tdiPnPContext2) { PNetPnPEventReserved Reserved = (PNetPnPEventReserved) NetPnPEvent->TransportReserved; Reserved->Interface = interface; Reserved->PnPStatus = retStatus; tdiPnPContext2->ContextSize = sizeof(PVOID); tdiPnPContext2->ContextType = TDI_PNP_CONTEXT_TYPE_PDO; *(ULONG_PTR UNALIGNED *) tdiPnPContext2->ContextData = (ULONG_PTR) interface->if_pnpcontext; // // Notify our TDI clients about this PNP event. // retStatus = TdiPnPPowerRequest( &interface->if_devname, NetPnPEvent, tdiPnPContext1, tdiPnPContext2, IPPnPPowerComplete); } else { retStatus = STATUS_INSUFFICIENT_RESOURCES; } pnp_complete: PAGED_CODE(); if (tdiPnPContext1) { CTEFreeMem(tdiPnPContext1); } if (tdiPnPContext2) { CTEFreeMem(tdiPnPContext2); } return retStatus; } TDI_STATUS IPGetDeviceRelation(RouteCacheEntry * rce, PVOID * pnpDeviceContext) { RouteTableEntry *rte; CTELockHandle LockHandle; CTEGetLock(&rce->rce_lock, &LockHandle); if (rce->rce_flags == RCE_ALL_VALID) { rte = rce->rce_rte; if (rte->rte_if->if_pnpcontext) { *pnpDeviceContext = rte->rte_if->if_pnpcontext; CTEFreeLock(&rce->rce_lock, LockHandle); return TDI_SUCCESS; } else { CTEFreeLock(&rce->rce_lock, LockHandle); return TDI_INVALID_STATE; } } else { CTEFreeLock(&rce->rce_lock, LockHandle); return TDI_INVALID_STATE; } } //** IPPnPEvent - ARP PnPEvent handler. // // Called by the ARP when PnP or PM events occurs. // // Entry: // Context - The context that we gave to ARP. // NetPnPEvent - This is a pointer to a NET_PNP_EVENT that describes // the PnP indication. // // Exit: // STATUS_PENDING if this event is queued on a worker thread, otherwise // proper error code. // NDIS_STATUS __stdcall IPPnPEvent(void *Context, PNET_PNP_EVENT NetPnPEvent) { NetTableEntry *nte; Interface *interface = NULL; PAGED_CODE(); if (Context) { nte = (NetTableEntry *) Context; if (!(nte->nte_flags & NTE_IF_DELETING)) { interface = nte->nte_if; } } return DoPnPEvent(interface, NetPnPEvent); } //** IPAbbreviateFriendlyName - Abbreviates NIC's friendly name by // truncating the name string // // Called vy IPNotifyClientsMediaSense if NIC's name is too long // // Entry: // UNICODE_STRING DeviceName - the name to be truncated // USHORT MaxLen - length to truncate to (in bytes) // // Exit: // Truncated name is returned in DeviceName // void IPAbbreviateFriendlyName(PUNICODE_STRING DeviceName, USHORT MaxLen) { PWCHAR Str; PWCHAR CpyFromPos, CpyToPos; CONST WCHAR Ellipses[] = L"..."; USHORT EllipsesLen = (USHORT) wcslen(Ellipses)*sizeof(WCHAR); if (DeviceName->Length <= MaxLen) { return; } // // we want to keep 1st word and truncate after it // CpyToPos = wcschr(DeviceName->Buffer, L' '); if ( CpyToPos == NULL || ( CpyToPos + EllipsesLen / sizeof(WCHAR) >= DeviceName->Buffer + MaxLen / sizeof(WCHAR) )) { DeviceName->Buffer[MaxLen / sizeof(WCHAR)] = UNICODE_NULL; DeviceName->Length = MaxLen; wcscpy(DeviceName->Buffer + (MaxLen - EllipsesLen) / sizeof(WCHAR), Ellipses); return; } // add ellipses wcsncpy (CpyToPos, Ellipses, EllipsesLen / sizeof(WCHAR)); CpyToPos += EllipsesLen / sizeof(WCHAR); // // skip to section in string that will fit in buffer // look for a good cutoff point // CpyFromPos = CpyToPos + (DeviceName->Length - MaxLen) / sizeof(WCHAR); Str = wcschr(CpyFromPos, L' '); if (Str != NULL) { CpyFromPos = Str + 1; } // copy the string wcscpy (CpyToPos, CpyFromPos); DeviceName->Length = (USHORT) wcslen (DeviceName->Buffer) * sizeof(WCHAR); }