/*++ Copyright (c) 1992 Microsoft Corporation Module Name: ports.c Abstract: This module contains the port management code. Author: Jameel Hyder (jameelh@microsoft.com) Nikhil Kamkolkar (nikhilk@microsoft.com) Revision History: 19 Jun 1992 Initial Version Notes: Tab stop: 4 --*/ #include #pragma hdrstop #define FILENUM PORTS #ifdef ALLOC_PRAGMA #pragma alloc_text(PAGEINIT, AtalkPortShutdown) #pragma alloc_text(PAGEINIT, atalkPortFreeZones) #endif VOID FASTCALL AtalkPortDeref( IN OUT PPORT_DESCRIPTOR pPortDesc, IN BOOLEAN AtDpc ) /*++ Routine Description: Arguments: Return Value: --*/ { BOOLEAN portDone = FALSE; BOOLEAN fPnPInProgress; BOOLEAN fRasPort; KIRQL OldIrql; if (AtDpc) { ACQUIRE_SPIN_LOCK_DPC(&pPortDesc->pd_Lock); } else { ACQUIRE_SPIN_LOCK(&pPortDesc->pd_Lock, &OldIrql); } ASSERT(pPortDesc->pd_RefCount > 0); pPortDesc->pd_RefCount--; if (pPortDesc->pd_RefCount == 0) { portDone = TRUE; ASSERT((pPortDesc->pd_Flags & PD_CLOSING) != 0); } fPnPInProgress = (pPortDesc->pd_Flags & PD_PNP_RECONFIGURE)? TRUE : FALSE; // We hold the lock while freeing up all the stuff, this should // only happen during unload. if (portDone) { DBGPRINT(DBG_COMP_UNLOAD, DBG_LEVEL_WARN, ("AtalkPortDeref: Freeing zones and such ...\n")); // Free up zonelist atalkPortFreeZones(pPortDesc); DBGPRINT(DBG_COMP_UNLOAD, DBG_LEVEL_WARN, ("AtalkPortDeref: Releasing Amt tables ...\n")); // We do need to free up the AMT. AtalkAarpReleaseAmt(pPortDesc); // Free the BRC AtalkAarpReleaseBrc(pPortDesc); } if (AtDpc) { RELEASE_SPIN_LOCK_DPC(&pPortDesc->pd_Lock); } else { RELEASE_SPIN_LOCK(&pPortDesc->pd_Lock, OldIrql); } if (portDone) { PPORT_DESCRIPTOR *ppTmp; // Unlink the portdesc from the list and free its memory ACQUIRE_SPIN_LOCK(&AtalkPortLock, &OldIrql); for (ppTmp = &AtalkPortList; *ppTmp != NULL; ppTmp = &((*ppTmp)->pd_Next)) { if (*ppTmp == pPortDesc) { *ppTmp = pPortDesc->pd_Next; break; } } ASSERT (*ppTmp == pPortDesc->pd_Next); // Is the default-port going away ? if (AtalkDefaultPort == pPortDesc) { AtalkDefaultPort = NULL; KeResetEvent(&AtalkDefaultPortEvent); } RELEASE_SPIN_LOCK(&AtalkPortLock, OldIrql); // // if we are here becaue of PnP Reconfigure then don't free the memory // (we haven't closed the adapter with ndis, and we have other useful // stuff that we must retain). Put the creation refcount and the // binding refcount back that got taken away when we first got the // PnP Reconfigure event. // (no need for spinlock: this was ready for a free!!) // if (fPnPInProgress) { // 1 binding refcount + 1 creation refcount pPortDesc->pd_RefCount = 2; if (pPortDesc->pd_Flags & PD_RAS_PORT) { fRasPort = TRUE; } else { fRasPort = FALSE; } // blow away everything on the flag, except these pPortDesc->pd_Flags = (PD_PNP_RECONFIGURE | PD_BOUND); if (fRasPort) { pPortDesc->pd_Flags |= PD_RAS_PORT; } // restore EXT_NET flag if applicable if (pPortDesc->pd_PortType != ALAP_PORT) { pPortDesc->pd_Flags |= PD_EXT_NET; } // reset all pointers and other gunk to 0 pPortDesc->pd_Next = NULL; pPortDesc->pd_Nodes = NULL; pPortDesc->pd_RouterNode = NULL; pPortDesc->pd_TentativeNodeAddr.atn_Network = 0; pPortDesc->pd_TentativeNodeAddr.atn_Node = 0; pPortDesc->pd_RoutersPramNode.atn_Network = 0; pPortDesc->pd_RoutersPramNode.atn_Node = 0; pPortDesc->pd_UsersPramNode1.atn_Network = 0; pPortDesc->pd_UsersPramNode1.atn_Node = 0; pPortDesc->pd_UsersPramNode2.atn_Network = 0; pPortDesc->pd_UsersPramNode2.atn_Node = 0; pPortDesc->pd_InitialZoneList = NULL; pPortDesc->pd_InitialDefaultZone = NULL; pPortDesc->pd_InitialDesiredZone = NULL; pPortDesc->pd_ZoneList = NULL; pPortDesc->pd_DefaultZone = NULL; pPortDesc->pd_DesiredZone = NULL; pPortDesc->pd_AmtCount = 0; RtlZeroMemory(&pPortDesc->pd_PortStats, sizeof(ATALK_PORT_STATS)); // Unblock caller now that we are done KeSetEvent(pPortDesc->pd_ShutDownEvent, IO_NETWORK_INCREMENT, FALSE); pPortDesc->pd_ShutDownEvent = NULL; } else { // is the Arap port going away? if (RasPortDesc == pPortDesc) { RasPortDesc = NULL; } if (pPortDesc->pd_MulticastList != NULL) { AtalkFreeMemory(pPortDesc->pd_MulticastList); pPortDesc->pd_MulticastList = NULL; } // Unblock caller now that we are done KeSetEvent(pPortDesc->pd_ShutDownEvent, IO_NETWORK_INCREMENT, FALSE); if (pPortDesc->pd_FriendlyAdapterName.Buffer) { AtalkFreeMemory(pPortDesc->pd_FriendlyAdapterName.Buffer); } AtalkFreeMemory(pPortDesc); ACQUIRE_SPIN_LOCK(&AtalkPortLock, &OldIrql); AtalkNumberOfPorts --; RELEASE_SPIN_LOCK(&AtalkPortLock, OldIrql); } } } BOOLEAN AtalkReferenceDefaultPort( IN VOID ) { KIRQL OldIrql; BOOLEAN fReferenced = FALSE; ACQUIRE_SPIN_LOCK(&AtalkPortLock, &OldIrql); if (AtalkDefaultPort) { ACQUIRE_SPIN_LOCK_DPC(&AtalkDefaultPort->pd_Lock); if ( !(AtalkDefaultPort->pd_Flags & (PD_PNP_RECONFIGURE | PD_CLOSING)) ) { AtalkDefaultPort->pd_RefCount++; fReferenced = TRUE; } RELEASE_SPIN_LOCK_DPC(&AtalkDefaultPort->pd_Lock); } RELEASE_SPIN_LOCK(&AtalkPortLock, OldIrql); return(fReferenced); } VOID atalkPortFreeZones( IN PPORT_DESCRIPTOR pPortDesc ) /*++ Routine Description: Arguments: Return Value: --*/ { // Dereference initial default and desired zones, and the zone list if (pPortDesc->pd_InitialDefaultZone != NULL) AtalkZoneDereference(pPortDesc->pd_InitialDefaultZone); if (pPortDesc->pd_InitialDesiredZone != NULL) AtalkZoneDereference(pPortDesc->pd_InitialDesiredZone); if (pPortDesc->pd_InitialZoneList != NULL) AtalkZoneFreeList(pPortDesc->pd_InitialZoneList); // and the current versions of the zones if (pPortDesc->pd_DefaultZone != NULL) AtalkZoneDereference(pPortDesc->pd_DefaultZone); if (pPortDesc->pd_DesiredZone != NULL) AtalkZoneDereference(pPortDesc->pd_DesiredZone); if (pPortDesc->pd_ZoneList != NULL) AtalkZoneFreeList(pPortDesc->pd_ZoneList); } VOID FASTCALL AtalkPortSetResetFlag( IN PPORT_DESCRIPTOR pPortDesc, IN BOOLEAN fRemoveBit, IN DWORD dwBit ) /*++ Routine Description: Arguments: Return Value: --*/ { KIRQL OldIrql; ASSERT(VALID_PORT(pPortDesc)); ACQUIRE_SPIN_LOCK(&pPortDesc->pd_Lock, &OldIrql); if (fRemoveBit) { pPortDesc->pd_Flags &= ~(dwBit); } else { pPortDesc->pd_Flags |= dwBit; } RELEASE_SPIN_LOCK(&pPortDesc->pd_Lock, OldIrql); } ATALK_ERROR AtalkPortShutdown( IN OUT PPORT_DESCRIPTOR pPortDesc ) /*++ Routine Description: Arguments: Return Value: --*/ { PATALK_NODE pAtalkNode; ATALK_ERROR error = ATALK_NO_ERROR; BOOLEAN fActive; BOOLEAN fRasPort=FALSE; BOOLEAN fPnpReconfigure; KEVENT ShutdownEvent; KIRQL OldIrql; DBGPRINT(DBG_COMP_UNLOAD, DBG_LEVEL_WARN, ("AtalkPortShutdown: Shutting down port %Z...\n", &pPortDesc->pd_AdapterKey)); KeInitializeEvent(&ShutdownEvent, NotificationEvent, FALSE); // if this is the default port, tell TDI that we are leaving so server finds out if (pPortDesc->pd_Flags & PD_DEF_PORT) { if (TdiRegistrationHandle) { DBGPRINT(DBG_COMP_INIT, DBG_LEVEL_INFO, ("AtalkPortShutdown: deregistering device!!\n")); TdiDeregisterDeviceObject(TdiRegistrationHandle); TdiRegistrationHandle = NULL; } } ACQUIRE_SPIN_LOCK(&pPortDesc->pd_Lock, &OldIrql); // we have already taken care of the Arap port separately: just say done if (pPortDesc->pd_Flags & PD_RAS_PORT) { fRasPort = TRUE; } pPortDesc->pd_Flags |= PD_CLOSING; fActive = (pPortDesc->pd_Flags & PD_BOUND) ? TRUE : FALSE; fPnpReconfigure = (pPortDesc->pd_Flags & PD_PNP_RECONFIGURE)? TRUE : FALSE; // Switch off the active flag just in case the unbind fails. // We arent going to accept any packets anymore. pPortDesc->pd_Flags &= ~PD_ACTIVE; pPortDesc->pd_ShutDownEvent = &ShutdownEvent; DBGPRINT(DBG_COMP_UNLOAD, DBG_LEVEL_WARN, ("AtalkPortShutdown: Freeing nodes on port ....\n")); // Release any nodes on this port that are not already closing. if (!fRasPort) { do { // Ref the next node. // ASSERT!! error does not get changed after this statement. AtalkNodeReferenceNextNc(pPortDesc->pd_Nodes, &pAtalkNode, &error); if (!ATALK_SUCCESS(error)) { break; } RELEASE_SPIN_LOCK(&pPortDesc->pd_Lock, OldIrql); DBGPRINT(DBG_COMP_UNLOAD, DBG_LEVEL_ERR, ("AtalkPortShutdown: Releasing Node\n")); AtalkNodeReleaseOnPort(pPortDesc, pAtalkNode); AtalkNodeDereference(pAtalkNode); ACQUIRE_SPIN_LOCK(&pPortDesc->pd_Lock, &OldIrql); } while (TRUE); } RELEASE_SPIN_LOCK(&pPortDesc->pd_Lock, OldIrql); // If we are routing, remove the RTEs for this port since each has a reference // to this port. if (AtalkRouter & !fRasPort) { AtalkRtmpKillPortRtes(pPortDesc); } if (EXT_NET(pPortDesc)) { // cancel the Amt timer and take away the refcount for it if (AtalkTimerCancelEvent(&pPortDesc->pd_AmtTimer, NULL)) { AtalkPortDereference(pPortDesc); } // cancel the Brc timer and take away the refcount for it if (AtalkTimerCancelEvent(&pPortDesc->pd_BrcTimer, NULL)) { AtalkPortDereference(pPortDesc); } } if (!AtalkRouter) { // cancel the RtmpAging timer and take away the refcount for it if (AtalkTimerCancelEvent(&pPortDesc->pd_RtmpAgingTimer, NULL)) { AtalkPortDereference(pPortDesc); } } // // if we are currently bound, *and* we are not here because of // PnPReconfigure, go ahead and unbind from ndis // if (fActive && !fPnpReconfigure) { // Unbind from the mac AtalkNdisUnbind(pPortDesc); } // // if are here because of PnpReconfigure, we didn't unbind. But fake // that we did (from refcount perspective) so that we can proceed! // (in the PnPReconfigure code path, we don't free this memory when refcount // goes to 0: we merely use it to trigger some pnp work) // if (fPnpReconfigure) { AtalkPortDereference(pPortDesc); } // Remove the creation reference AtalkPortDereference(pPortDesc); // Make sure we are not at or above dispatch level ASSERT(KeGetCurrentIrql() < DISPATCH_LEVEL); // Wait for the last reference to go away KeWaitForSingleObject(&ShutdownEvent, Executive, KernelMode, FALSE, NULL); if (fActive) { ACQUIRE_SPIN_LOCK(&AtalkPortLock, &OldIrql); AtalkNumberOfActivePorts--; RELEASE_SPIN_LOCK(&AtalkPortLock, OldIrql); ASSERT(AtalkStatistics.stat_NumActivePorts > 0); AtalkStatistics.stat_NumActivePorts--; } DBGPRINT(DBG_COMP_UNLOAD, DBG_LEVEL_ERR, ("AtalkPortShutdown: shutdown for port %lx completed\n",pPortDesc)); return ATALK_NO_ERROR; } #if DBG VOID AtalkPortDumpInfo( VOID ) { int i, j; KIRQL OldIrql; PPORT_DESCRIPTOR pPortDesc; PZONE_LIST pZoneList; ACQUIRE_SPIN_LOCK(&AtalkPortLock, &OldIrql); for (pPortDesc = AtalkPortList; pPortDesc != NULL; pPortDesc = pPortDesc->pd_Next) { DBGPRINT(DBG_COMP_DUMP, DBG_LEVEL_FATAL, ("Port info for port %Z\n", &pPortDesc->pd_AdapterKey)); ACQUIRE_SPIN_LOCK_DPC(&pPortDesc->pd_Lock); DBGPRINT(DBG_COMP_DUMP, DBG_LEVEL_FATAL, (" Flags -> %d\n", pPortDesc->pd_Flags)); DBGPRINT(DBG_COMP_DUMP, DBG_LEVEL_FATAL, (" PortType -> %d\n", pPortDesc->pd_PortType)); DBGPRINT(DBG_COMP_DUMP, DBG_LEVEL_FATAL, (" PortName -> %s\n", pPortDesc->pd_PortName)); DBGPRINT(DBG_COMP_DUMP, DBG_LEVEL_FATAL, (" AARP Probes -> %d\n", pPortDesc->pd_AarpProbes)); if (pPortDesc->pd_InitialNetworkRange.anr_FirstNetwork != 0) { DBGPRINT(DBG_COMP_DUMP, DBG_LEVEL_FATAL, (" InitialNwRange -> %lx-%lx\n", pPortDesc->pd_InitialNetworkRange.anr_FirstNetwork, pPortDesc->pd_InitialNetworkRange.anr_LastNetwork)) } DBGPRINT(DBG_COMP_DUMP, DBG_LEVEL_FATAL, (" NetworkRange -> %x-%x\n", pPortDesc->pd_NetworkRange.anr_FirstNetwork, pPortDesc->pd_NetworkRange.anr_LastNetwork)) DBGPRINT(DBG_COMP_DUMP, DBG_LEVEL_FATAL, (" ARouter Address -> %x.%x\n", pPortDesc->pd_ARouter.atn_Network, pPortDesc->pd_ARouter.atn_Node)); DBGPRINT(DBG_COMP_DUMP, DBG_LEVEL_FATAL, (" Multicast Addr -> ")); for (j = 0; j < MAX_HW_ADDR_LEN; j++) DBGPRINTSKIPHDR(DBG_COMP_DUMP, DBG_LEVEL_FATAL, ("%02x", (BYTE)pPortDesc->pd_ZoneMulticastAddr[j])); DBGPRINTSKIPHDR(DBG_COMP_DUMP, DBG_LEVEL_FATAL, ("\n")); if (pPortDesc->pd_InitialZoneList != NULL) { DBGPRINT(DBG_COMP_DUMP, DBG_LEVEL_FATAL, (" Initial zone list:\n")); for (pZoneList = pPortDesc->pd_InitialZoneList; pZoneList != NULL; pZoneList = pZoneList->zl_Next) { DBGPRINT(DBG_COMP_DUMP, DBG_LEVEL_FATAL, (" %s\n", pZoneList->zl_pZone->zn_Zone)); } } if (pPortDesc->pd_InitialDefaultZone != NULL) DBGPRINT(DBG_COMP_DUMP, DBG_LEVEL_FATAL, (" InitialDefZone -> %s\n", pPortDesc->pd_InitialDefaultZone->zn_Zone)); if (pPortDesc->pd_InitialDesiredZone != NULL) DBGPRINT(DBG_COMP_DUMP, DBG_LEVEL_FATAL, (" InitialDesZone -> %s\n", pPortDesc->pd_InitialDesiredZone->zn_Zone)); if (pPortDesc->pd_ZoneList) { DBGPRINT(DBG_COMP_DUMP, DBG_LEVEL_FATAL, (" Current zone list:\n")); for (pZoneList = pPortDesc->pd_ZoneList; pZoneList != NULL; pZoneList = pZoneList->zl_Next) { DBGPRINT(DBG_COMP_DUMP, DBG_LEVEL_FATAL, (" %s\n", pZoneList->zl_pZone->zn_Zone)); } } if (pPortDesc->pd_DefaultZone != NULL) DBGPRINT(DBG_COMP_DUMP, DBG_LEVEL_FATAL, (" CurrentDefZone -> %s\n", pPortDesc->pd_DefaultZone->zn_Zone)); if (pPortDesc->pd_DesiredZone != NULL) DBGPRINT(DBG_COMP_DUMP, DBG_LEVEL_FATAL, (" CurrentDesZone -> %s\n", pPortDesc->pd_DesiredZone->zn_Zone)); RELEASE_SPIN_LOCK_DPC(&pPortDesc->pd_Lock); } RELEASE_SPIN_LOCK(&AtalkPortLock, OldIrql); } #endif