/********************************************************************/ /** Copyright(c) 1995 Microsoft Corporation. **/ /********************************************************************/ //*** // // Filename: ifobject.c // // Description: Routines to manipulate ROUTER_INTERFACE_OBJECTs // // History: May 11,1995 NarenG Created original version. // #include "ddm.h" #include "objects.h" #include "handlers.h" #include "timer.h" #include #include #include // // This actually lives in rasapi.dll // DWORD DDMGetPhonebookInfo( LPWSTR lpwsPhonebookName, LPWSTR lpwsPhonebookEntry, LPDWORD lpdwNumSubEntries, LPDWORD lpdwNumRedialAttempts, LPDWORD lpdwNumSecondsBetweenAttempts, BOOL * lpfRedialOnLinkFailure, CHAR * szzParameters, LPDWORD lpdwDialMode ); RASEVENT * DDMGetRasEvent(HCONN hConnection) { CONNECTION_OBJECT *pConn = NULL; RASEVENT *pEvent; pEvent = (RASEVENT *) LOCAL_ALLOC(LPTR, sizeof(RASEVENT)); if(pEvent != NULL) { pConn = ConnObjGetPointer(hConnection); if(pConn != NULL) { if( pConn->pDeviceList && pConn->pDeviceList[0]) { pEvent->rDeviceType = pConn->pDeviceList[0]->dwDeviceType; } CopyMemory(&pEvent->guidId, &pConn->guid, sizeof(GUID)); pEvent->hConnection = hConnection; } } return pEvent; } //** // // Call: IfObjectAllocateAndInit // // Returns: ROUTER_INTERFACE_OBJECT * - Success // NULL - Failure // // Description: Allocates and initializes a ROUTER_INTERFACE_OBJECT structure // ROUTER_INTERFACE_OBJECT * IfObjectAllocateAndInit( IN LPWSTR lpwstrName, IN ROUTER_INTERFACE_STATE State, IN ROUTER_INTERFACE_TYPE IfType, IN HCONN hConnection, IN BOOL fEnabled, IN DWORD dwMinUnreachabilityInterval, IN DWORD dwMaxUnreachabilityInterval, IN LPWSTR lpwsDialoutHours ) { return( ( (ROUTER_INTERFACE_OBJECT*(*)( LPWSTR, ROUTER_INTERFACE_STATE, ROUTER_INTERFACE_TYPE, HCONN, BOOL, DWORD, DWORD, LPWSTR ))gblDDMConfigInfo.lpfnIfObjectAllocateAndInit)( lpwstrName, State, IfType, hConnection, fEnabled, dwMinUnreachabilityInterval, dwMaxUnreachabilityInterval, lpwsDialoutHours )); } //** // // Call: IfObjectAreAllTransportsDisconnected // // Returns: TRUE // FALSE // // Description: Checks to see if all the transports for an interface are // disconnected. // BOOL IfObjectAreAllTransportsDisconnected( IN ROUTER_INTERFACE_OBJECT * pIfObject ) { DWORD dwTransportIndex; for ( dwTransportIndex = 0; dwTransportIndex < gblDDMConfigInfo.dwNumRouterManagers; dwTransportIndex++ ) { if ( pIfObject->Transport[dwTransportIndex].fState & RITRANSPORT_CONNECTED ) { return( FALSE ); } } return( TRUE ); } //** // // Call: IfObjectGetPointerByName // // Returns: ROUTER_INTERFACE_OBJECT * - Pointer to the interface object // structure with the given name, if it exists. // NULL - if it doesn't exist. // // Description: Simply calls the DIM entry point to do the work. // ROUTER_INTERFACE_OBJECT * IfObjectGetPointerByName( IN LPWSTR lpwstrName, IN BOOL fIncludeClientInterfaces ) { return(((ROUTER_INTERFACE_OBJECT*(*)( LPWSTR, BOOL )) gblDDMConfigInfo.lpfnIfObjectGetPointerByName)( lpwstrName, fIncludeClientInterfaces)); } //** // // Call: IfObjectGetPointer // // Returns: ROUTER_INTERFACE_OBJECT * - Pointer to the interface object // structure with the given handle, if it exists. // NULL - if it doesn't exist. // // Description: Simply calls the DIM entry point to do the work. // ROUTER_INTERFACE_OBJECT * IfObjectGetPointer( IN HANDLE hDIMInterface ) { return(((ROUTER_INTERFACE_OBJECT*(*)( HANDLE )) gblDDMConfigInfo.lpfnIfObjectGetPointer)( hDIMInterface )); } //** // // Call: IfObjectRemove // // Returns: None // // Description: Simply calls the DIM entrypoint to remove the interface object // from the table. The object is DeAllocated. // VOID IfObjectRemove( IN HANDLE hDIMInterface ) { ((VOID(*)( HANDLE ))gblDDMConfigInfo.lpfnIfObjectRemove)( hDIMInterface ); } //** // // Call: IfObjectDisconnected // // Returns: None // // Description: Sets this interface to the disconnected state // VOID IfObjectDisconnected( ROUTER_INTERFACE_OBJECT * pIfObject ) { DWORD dwIndex; BOOL fReachable = TRUE; HANDLE hConnection; // // If already disconnected, then simply return // if ( pIfObject->State == RISTATE_DISCONNECTED ) { return; } // // If this interface is persistent then we do not want to connect // again because the local admin or router managers initiated the // disconnect // if ( pIfObject->fFlags & IFFLAG_DISCONNECT_INITIATED ) { pIfObject->dwNumOfReConnectAttemptsCounter = 0; TimerQRemove( pIfObject->hDIMInterface, ReConnectInterface ); TimerQRemove( pIfObject->hDIMInterface, ReConnectPersistentInterface ); } hConnection = pIfObject->hConnection; pIfObject->State = RISTATE_DISCONNECTED; pIfObject->hConnection = (HCONN)INVALID_HANDLE_VALUE; pIfObject->fFlags &= ~IFFLAG_LOCALLY_INITIATED; pIfObject->hRasConn = (HRASCONN)NULL; // // If we are not unreachable due to connection failure // if ( !( pIfObject->fFlags & IFFLAG_CONNECTION_FAILURE ) ) { // // Check reachability state // DWORD dwUnreachabilityReason; if ( pIfObject->fFlags & IFFLAG_OUT_OF_RESOURCES ) { dwUnreachabilityReason = INTERFACE_OUT_OF_RESOURCES; fReachable = FALSE; } else if ( gblDDMConfigInfo.pServiceStatus->dwCurrentState == SERVICE_PAUSED ) { dwUnreachabilityReason = INTERFACE_SERVICE_IS_PAUSED; fReachable = FALSE; } else if ( !( pIfObject->fFlags & IFFLAG_ENABLED ) ) { dwUnreachabilityReason = INTERFACE_DISABLED; fReachable = FALSE; } else if ( pIfObject->fFlags & IFFLAG_DIALOUT_HOURS_RESTRICTION ) { dwUnreachabilityReason = INTERFACE_DIALOUT_HOURS_RESTRICTION; fReachable = FALSE; } // // Notify the router manager that this interface is disabled if the // admin has disabled it or the service is paused, now that the // interface is disconnected. // for ( dwIndex = 0; dwIndex < gblDDMConfigInfo.dwNumRouterManagers; dwIndex++ ) { pIfObject->Transport[dwIndex].fState &= ~RITRANSPORT_CONNECTED; if ( !fReachable ) { if (pIfObject->Transport[dwIndex].hInterface == INVALID_HANDLE_VALUE) { continue; } gblRouterManagers[dwIndex].DdmRouterIf.InterfaceNotReachable( pIfObject->Transport[dwIndex].hInterface, dwUnreachabilityReason ); } } if ( !fReachable ) { if ( pIfObject->IfType == ROUTER_IF_TYPE_FULL_ROUTER ) { LogUnreachabilityEvent( dwUnreachabilityReason, pIfObject->lpwsInterfaceName ); } } // // If this interface is marked as persistent then try to reconnect // only if the admin did not disconnect the interface // if ( ( fReachable ) && ( pIfObject->fFlags & IFFLAG_PERSISTENT ) && ( !( pIfObject->fFlags & IFFLAG_DISCONNECT_INITIATED ) ) ) { TimerQInsert( pIfObject->hDIMInterface, 1, ReConnectPersistentInterface ); } // // Notify that this connection has been disconnected // IfObjectConnectionChangeNotification(); { // // Notify netman that a connection went down. // DWORD retcode; RASEVENT *pRasEvent = NULL; CONNECTION_OBJECT *pConn = NULL; pRasEvent = DDMGetRasEvent(hConnection); if(pRasEvent != NULL) { pRasEvent->Type = INCOMING_DISCONNECTED; retcode = RasSendNotification(pRasEvent); DDM_PRINT(gblDDMConfigInfo.dwTraceId, TRACE_FSM, "RasSendNotification(INCOMING_DISCONNETED rc=0x%x", retcode); LOCAL_FREE(pRasEvent); } } } } //** // // Call: IfObjectConnected // // Returns: None // // Description: Sets this interface to the CONNECTED state and notifies the // router managers, if any, about unreachable transports. // DWORD IfObjectConnected( IN HANDLE hDDMInterface, IN HCONN hConnection, IN PPP_PROJECTION_RESULT *pProjectionResult ) { DWORD dwIndex; ROUTER_INTERFACE_OBJECT * pIfObject; BOOL fXportConnected = FALSE; EnterCriticalSection( &(gblpInterfaceTable->CriticalSection) ); pIfObject = IfObjectGetPointer( hDDMInterface ); if ( pIfObject == (ROUTER_INTERFACE_OBJECT *)NULL ) { LeaveCriticalSection( &(gblpInterfaceTable->CriticalSection) ); return( ERROR_INVALID_HANDLE ); } if ( pIfObject->State == RISTATE_CONNECTED ) { // // Already connected // LeaveCriticalSection( &(gblpInterfaceTable->CriticalSection) ); return( NO_ERROR ); } pIfObject->hConnection = hConnection; pIfObject->State = RISTATE_CONNECTED; pIfObject->fFlags &= ~IFFLAG_CONNECTION_FAILURE; // // If we are connected and we initiated the connection then reset the // unreachability interval // if ( pIfObject->fFlags & IFFLAG_LOCALLY_INITIATED ) { pIfObject->dwReachableAfterSeconds = pIfObject->dwReachableAfterSecondsMin; } // // Remove any reconnect calls that may be on the timer queue // TimerQRemove( pIfObject->hDIMInterface, ReConnectInterface ); TimerQRemove( pIfObject->hDIMInterface, ReConnectPersistentInterface ); for ( dwIndex = 0; dwIndex < gblDDMConfigInfo.dwNumRouterManagers; dwIndex++ ) { fXportConnected = FALSE; switch( gblRouterManagers[dwIndex].DdmRouterIf.dwProtocolId ) { case PID_IPX: if ( pProjectionResult->ipx.dwError == NO_ERROR ) { fXportConnected = TRUE; } break; case PID_IP: if ( pProjectionResult->ip.dwError == NO_ERROR ) { fXportConnected = TRUE; } break; default: break; } if ( pIfObject->Transport[dwIndex].hInterface == INVALID_HANDLE_VALUE ) { continue; } if ( fXportConnected ) { DDM_PRINT( gblDDMConfigInfo.dwTraceId, TRACE_FSM, "Notifying Protocol = 0x%x,Interface=%ws is Connected", gblRouterManagers[dwIndex].DdmRouterIf.dwProtocolId, pIfObject->lpwsInterfaceName ); pIfObject->Transport[dwIndex].fState |= RITRANSPORT_CONNECTED; gblRouterManagers[dwIndex].DdmRouterIf.InterfaceConnected( pIfObject->Transport[dwIndex].hInterface, NULL, pProjectionResult ); } else { DDM_PRINT( gblDDMConfigInfo.dwTraceId, TRACE_FSM, "Notifying Protocol = 0x%x,Interface=%ws is UnReachable=%d", gblRouterManagers[dwIndex].DdmRouterIf.dwProtocolId, pIfObject->lpwsInterfaceName, INTERFACE_CONNECTION_FAILURE ); gblRouterManagers[dwIndex].DdmRouterIf.InterfaceNotReachable( pIfObject->Transport[dwIndex].hInterface, INTERFACE_CONNECTION_FAILURE ); } } IfObjectConnectionChangeNotification(); LeaveCriticalSection( &(gblpInterfaceTable->CriticalSection) ); { DWORD retcode; RASEVENT *pRasEvent = NULL; CONNECTION_OBJECT *pConn = NULL; // // Get the device type // EnterCriticalSection(&(gblDeviceTable.CriticalSection)); pRasEvent = DDMGetRasEvent(hConnection); LeaveCriticalSection(&(gblDeviceTable.CriticalSection)); if(pRasEvent != NULL) { // // Notify netman of the connection // pRasEvent->Type = INCOMING_CONNECTED; retcode = RasSendNotification(pRasEvent); DDM_PRINT(gblDDMConfigInfo.dwTraceId, TRACE_FSM, "RasSendNotification(ENTRY_CONNECTED) rc=0x%x", retcode); LOCAL_FREE(pRasEvent); } } return( NO_ERROR ); } //** // // Call: IfObjectComputeReachableDelay // // Returns: The delay // // Description: Computes the next reachability delay based on the // current one. Following is the sequenced used: // // min, 10, 20, 35, 50, 65, 90, 120, 120, 120, ... // // The reachability delay is used to govern when to // re-attempt to connect an interface that in the // past was unable to connect (presumably because of // an error on the other side). // // In Win2k, the sequence was x0=min, xi = (xi-1 * 2) // This sequence was found to be problematic because // the increase was so steep that it was common in // installations with many interfaces to find interfaces // that wouldn't be retried for days. // // The new sequence is designed to max out at two hours. // If an interface is expected to be unreachable for more // than two hours at a time, then a dialout hours restriction // should be used to achieve the desired effect. // DWORD IfObjectComputeReachableDelay( IN ROUTER_INTERFACE_OBJECT * pIfObject) { DWORD dwSeconds = 0; if (pIfObject->dwReachableAfterSeconds == pIfObject->dwReachableAfterSecondsMin) { dwSeconds = 600; } switch (pIfObject->dwReachableAfterSeconds) { case 10*60: dwSeconds = 20*60; break; case 20*60: dwSeconds = 35*60; break; case 35*60: dwSeconds = 50*60; break; case 50*60: dwSeconds = 65*60; break; case 65*60: dwSeconds = 90*60; break; case 90*60: case 120*60: dwSeconds = 120*60; break; } return dwSeconds; } //** // // Call: IfObjectNotifyOfReachabilityChange // // Returns: None // // Description: Notifies the object of change in reachablity status. // // VOID IfObjectNotifyOfReachabilityChange( IN ROUTER_INTERFACE_OBJECT * pIfObject, IN BOOL fReachable, IN UNREACHABILITY_REASON dwReason ) { DWORD dwIndex; if ( pIfObject->IfType != ROUTER_IF_TYPE_FULL_ROUTER ) { return; } if ( pIfObject->State != RISTATE_DISCONNECTED ) { return; } switch( dwReason ) { case INTERFACE_SERVICE_IS_PAUSED: // // Check if we are unreachable due to other reasons as well, if we // are, then no need to notify this object of (un)reachability. // if ( pIfObject->fFlags & IFFLAG_OUT_OF_RESOURCES ) { return; } if ( !( pIfObject->fFlags & IFFLAG_ENABLED ) ) { return; } if ( pIfObject->fFlags & IFFLAG_CONNECTION_FAILURE ) { return; } if ( pIfObject->fFlags & IFFLAG_DIALOUT_HOURS_RESTRICTION ) { return; } break; case INTERFACE_CONNECTION_FAILURE: // // If we are marking this interface as not reachable due to connection // failure then we will mark as reachable after dwReachableAfterSeconds // if ( !fReachable ) { // // Don't do this if the admin disconnected the interface // if ( !( pIfObject->fFlags & IFFLAG_DISCONNECT_INITIATED ) ) { DWORD dwDelay, dwTime, dwDelta, dwCur; dwCur = pIfObject->dwReachableAfterSeconds; dwDelay = IfObjectComputeReachableDelay(pIfObject); dwDelta = (dwDelay > dwCur) ? dwDelay - dwCur : 0; if (dwDelta != 0) { dwTime = dwCur + (GetTickCount() % dwDelta); } else { dwTime = dwCur; } DDMTRACE2( "Will mark interface %ws as reachable after %d seconds", pIfObject->lpwsInterfaceName, dwTime ); TimerQInsert( pIfObject->hDIMInterface, dwTime, MarkInterfaceAsReachable); if (dwDelay < pIfObject->dwReachableAfterSecondsMax) { pIfObject->dwReachableAfterSeconds = dwDelay; } } } else { // // Notify of reachability only if the interface is reachable // if ( pIfObject->fFlags & IFFLAG_OUT_OF_RESOURCES ) { return; } if ( gblDDMConfigInfo.pServiceStatus->dwCurrentState == SERVICE_PAUSED ) { return; } if ( !( pIfObject->fFlags & IFFLAG_ENABLED ) ) { return; } if ( pIfObject->fFlags & IFFLAG_DIALOUT_HOURS_RESTRICTION ) { return; } } break; case INTERFACE_DISABLED: if ( pIfObject->fFlags & IFFLAG_OUT_OF_RESOURCES ) { return; } if ( gblDDMConfigInfo.pServiceStatus->dwCurrentState == SERVICE_PAUSED ) { return; } if ( pIfObject->fFlags & IFFLAG_CONNECTION_FAILURE ) { return; } if ( pIfObject->fFlags & IFFLAG_DIALOUT_HOURS_RESTRICTION ) { return; } break; case INTERFACE_OUT_OF_RESOURCES: if ( gblDDMConfigInfo.pServiceStatus->dwCurrentState == SERVICE_PAUSED ) { return; } if ( !( pIfObject->fFlags & IFFLAG_ENABLED ) ) { return; } if ( pIfObject->fFlags & IFFLAG_CONNECTION_FAILURE ) { return; } if ( pIfObject->fFlags & IFFLAG_DIALOUT_HOURS_RESTRICTION ) { return; } break; case INTERFACE_DIALOUT_HOURS_RESTRICTION: if ( gblDDMConfigInfo.pServiceStatus->dwCurrentState == SERVICE_PAUSED ) { return; } if ( !( pIfObject->fFlags & IFFLAG_ENABLED ) ) { return; } if ( pIfObject->fFlags & IFFLAG_CONNECTION_FAILURE ) { return; } if ( pIfObject->fFlags & IFFLAG_OUT_OF_RESOURCES ) { return; } break; default: RTASSERT( FALSE ); break; } for ( dwIndex = 0; dwIndex < gblDDMConfigInfo.dwNumRouterManagers; dwIndex++ ) { if ( pIfObject->Transport[dwIndex].hInterface == INVALID_HANDLE_VALUE ) { continue; } if ( fReachable ) { DDM_PRINT( gblDDMConfigInfo.dwTraceId, TRACE_FSM, "Notifying Protocol = 0x%x, Interface=%ws is Reachable", gblRouterManagers[dwIndex].DdmRouterIf.dwProtocolId, pIfObject->lpwsInterfaceName ); gblRouterManagers[dwIndex].DdmRouterIf.InterfaceReachable( pIfObject->Transport[dwIndex].hInterface ); } else { DDM_PRINT( gblDDMConfigInfo.dwTraceId, TRACE_FSM, "Notifying Protocol = 0x%x,Interface=%ws is UnReachable=%d", gblRouterManagers[dwIndex].DdmRouterIf.dwProtocolId, pIfObject->lpwsInterfaceName, dwReason ); gblRouterManagers[dwIndex].DdmRouterIf.InterfaceNotReachable( pIfObject->Transport[dwIndex].hInterface, dwReason ); } } if ( pIfObject->IfType == ROUTER_IF_TYPE_FULL_ROUTER ) { if ( fReachable ) { DDMLogInformation(ROUTERLOG_IF_REACHABLE,1,&(pIfObject->lpwsInterfaceName)); } else { LogUnreachabilityEvent( dwReason, pIfObject->lpwsInterfaceName ); } } // // If this interface is reachable, and it is persistent and it has not // been disconnected by the administrator, then attempt to reconnect now // if ( ( pIfObject->fFlags & IFFLAG_PERSISTENT ) && ( fReachable ) && ( !( pIfObject->fFlags & IFFLAG_DISCONNECT_INITIATED ) ) ) { TimerQInsert(pIfObject->hDIMInterface,1,ReConnectPersistentInterface); } } //** // // Call: IfObjectNotifyAllOfReachabilityChange // // Returns: None // // Description: Check to see if need to run through all the interfaces and // notify the ones that are not un\reachable now. // // VOID IfObjectNotifyAllOfReachabilityChange( IN BOOL fReachable, IN UNREACHABILITY_REASON dwReason ) { DWORD dwBucketIndex; ROUTER_INTERFACE_OBJECT * pIfObject; DWORD fAvailableMedia; BOOL fNotify; if ( dwReason == INTERFACE_OUT_OF_RESOURCES ) { // // No need to notify // if ( !gblMediaTable.fCheckInterfaces ) { return; } gblMediaTable.fCheckInterfaces = FALSE; MediaObjGetAvailableMediaBits( &fAvailableMedia ); } for ( dwBucketIndex = 0; dwBucketIndex < NUM_IF_BUCKETS; dwBucketIndex++ ) { for( pIfObject = gblpInterfaceTable->IfBucket[dwBucketIndex]; pIfObject != (ROUTER_INTERFACE_OBJECT *)NULL; pIfObject = pIfObject->pNext ) { fNotify = TRUE; if ( dwReason == INTERFACE_OUT_OF_RESOURCES ) { fNotify = FALSE; if ((pIfObject->fMediaUsed & fAvailableMedia) && fReachable ) { // // If previously unreachable, mark as reachable // if ( pIfObject->fFlags & IFFLAG_OUT_OF_RESOURCES ) { pIfObject->fFlags &= ~IFFLAG_OUT_OF_RESOURCES; fNotify = TRUE; } } if ((!(pIfObject->fMediaUsed & fAvailableMedia)) && !fReachable) { // // If previously reachable and currently disconnected, // mark as unreachable // if ( ( !( pIfObject->fFlags & IFFLAG_OUT_OF_RESOURCES ) ) && ( pIfObject->State == RISTATE_DISCONNECTED ) ) { pIfObject->fFlags |= IFFLAG_OUT_OF_RESOURCES; fNotify = TRUE; } } } if ( fNotify ) { IfObjectNotifyOfReachabilityChange( pIfObject, fReachable, dwReason ); } } } } //** // // Call: IfObjectAddClientInterface // // Returns: None // // Description: Add this client interface with all the router managers. // // DWORD IfObjectAddClientInterface( IN ROUTER_INTERFACE_OBJECT * pIfObject, IN PBYTE pClientStaticRoutes ) { DWORD dwIndex; DIM_ROUTER_INTERFACE * pDdmRouterIf; DWORD dwRetCode = NO_ERROR; for ( dwIndex = 0; dwIndex < gblDDMConfigInfo.dwNumRouterManagers; dwIndex++ ) { pDdmRouterIf=&(gblRouterManagers[dwIndex].DdmRouterIf); if ( ( pDdmRouterIf->dwProtocolId == PID_IP ) && ( pClientStaticRoutes != NULL ) ) { dwRetCode = pDdmRouterIf->AddInterface( pIfObject->lpwsInterfaceName, pClientStaticRoutes, pIfObject->IfType, pIfObject->hDIMInterface, &(pIfObject->Transport[dwIndex].hInterface)); } else { dwRetCode = pDdmRouterIf->AddInterface( pIfObject->lpwsInterfaceName, gblRouterManagers[dwIndex].pDefaultClientInterface, pIfObject->IfType, pIfObject->hDIMInterface, &(pIfObject->Transport[dwIndex].hInterface)); } if ( dwRetCode != NO_ERROR ) { LPWSTR lpwsInsertStrings[2]; lpwsInsertStrings[0] = pIfObject->lpwsInterfaceName; lpwsInsertStrings[1] = ( pDdmRouterIf->dwProtocolId == PID_IP ) ? L"IP" : L"IPX"; DDMLogErrorString( ROUTERLOG_COULDNT_ADD_INTERFACE, 2, lpwsInsertStrings, dwRetCode, 2 ); pIfObject->Transport[dwIndex].hInterface = INVALID_HANDLE_VALUE; break; } } if ( dwRetCode != NO_ERROR ) { // // Unload this interface for all the router managers that we loaded. // while ( dwIndex-- > 0 ) { pDdmRouterIf=&(gblRouterManagers[dwIndex].DdmRouterIf); pDdmRouterIf->DeleteInterface( pIfObject->Transport[dwIndex].hInterface ); pIfObject->Transport[dwIndex].hInterface = INVALID_HANDLE_VALUE; } } return( dwRetCode ); } //** // // Call: IfObjectDeleteInterface // // Returns: None // // Description: Delete this interface with all the router managers. // // VOID IfObjectDeleteInterface( ROUTER_INTERFACE_OBJECT * pIfObject ) { DWORD dwIndex; DIM_ROUTER_INTERFACE * pDdmRouterIf; DWORD dwRetCode; for ( dwIndex = 0; dwIndex < gblDDMConfigInfo.dwNumRouterManagers; dwIndex++ ) { if ( pIfObject->Transport[dwIndex].hInterface == INVALID_HANDLE_VALUE ) { continue; } pDdmRouterIf=&(gblRouterManagers[dwIndex].DdmRouterIf); dwRetCode = pDdmRouterIf->DeleteInterface( pIfObject->Transport[dwIndex].hInterface ); if ( dwRetCode != NO_ERROR ) { LPWSTR lpwsInsertStrings[2]; lpwsInsertStrings[0] = pIfObject->lpwsInterfaceName; lpwsInsertStrings[1] = ( pDdmRouterIf->dwProtocolId == PID_IP ) ? L"IP" : L"IPX"; DDMLogErrorString( ROUTERLOG_COULDNT_REMOVE_INTERFACE, 2, lpwsInsertStrings, dwRetCode, 2 ); } } } //** // // Call: IfObjectInsertInTable // // Returns: None // // Description: Simply calls the DIM entrypoint to insert an interface object // into the interfaec table. // DWORD IfObjectInsertInTable( IN ROUTER_INTERFACE_OBJECT * pIfObject ) { return( ((DWORD(*)(ROUTER_INTERFACE_OBJECT *)) gblDDMConfigInfo.lpfnIfObjectInsertInTable)( pIfObject ) ); } //** // // Call: IfObjectLoadPhonebookInfo // // Returns: NO_ERROR - Success // Non-zero returns - Failure // // Description: Will read the phonebook entry for this interface and set // bits for a device type used and all other phonebook information // used. // DWORD IfObjectLoadPhonebookInfo( IN ROUTER_INTERFACE_OBJECT * pIfObject ) { LPRASENTRY pRasEntry = NULL; LPRASSUBENTRY pRasSubEntry = NULL; DWORD dwRetCode = NO_ERROR; DWORD dwIndex; DWORD dwSize; DWORD dwDummy; BOOL fRedialOnLinkFailure; BOOL fAtLeastOneDeviceAvailable = FALSE; DWORD dwDialMode = RASEDM_DialAll; dwRetCode = DDMGetPhonebookInfo( gblpRouterPhoneBook, pIfObject->lpwsInterfaceName, &(pIfObject->dwNumSubEntries), &(pIfObject->dwNumOfReConnectAttempts), &(pIfObject->dwSecondsBetweenReConnectAttempts), &fRedialOnLinkFailure, pIfObject->PppInterfaceInfo.szzParameters, &dwDialMode); if ( dwRetCode != NO_ERROR ) { return( dwRetCode ); } if ( fRedialOnLinkFailure ) { pIfObject->fFlags |= IFFLAG_PERSISTENT; } else { pIfObject->fFlags &= ~IFFLAG_PERSISTENT; } if( RASEDM_DialAsNeeded == dwDialMode) { pIfObject->fFlags |= IFFLAG_DIALMODE_DIALASNEEDED; } else { pIfObject->fFlags &= ~(IFFLAG_DIALMODE_DIALASNEEDED); } if( RASEDM_DialAll == dwDialMode ) { pIfObject->fFlags |= IFFLAG_DIALMODE_DIALALL; } else { pIfObject->fFlags &= ~(IFFLAG_DIALMODE_DIALALL); } // // Iterate through all the subentries // for( dwIndex = 1; dwIndex <= pIfObject->dwNumSubEntries; dwIndex++ ) { // // Get the device type // dwSize = 0; dwRetCode = RasGetSubEntryProperties( gblpRouterPhoneBook, pIfObject->lpwsInterfaceName, dwIndex, NULL, &dwSize, (LPBYTE)&dwDummy, &dwDummy ); if ( dwRetCode != ERROR_BUFFER_TOO_SMALL ) { return ( dwRetCode ); } pRasSubEntry = LOCAL_ALLOC( LPTR, dwSize ); if ( pRasSubEntry == NULL ) { return ( GetLastError() ); } ZeroMemory( pRasSubEntry, dwSize ); pRasSubEntry->dwSize = sizeof( RASSUBENTRY ); dwRetCode = RasGetSubEntryProperties( gblpRouterPhoneBook, pIfObject->lpwsInterfaceName, dwIndex, pRasSubEntry, &dwSize, (LPBYTE)&dwDummy, &dwDummy ); if ( dwRetCode != NO_ERROR ) { LOCAL_FREE( pRasSubEntry ); return( dwRetCode ); } // // Set the bit for this media // dwRetCode = MediaObjSetMediaBit( pRasSubEntry->szDeviceType, &(pIfObject->fMediaUsed) ); LOCAL_FREE( pRasSubEntry ); if ( dwRetCode == NO_ERROR ) { fAtLeastOneDeviceAvailable = TRUE; } } if ( !fAtLeastOneDeviceAvailable ) { return( ERROR_INTERFACE_HAS_NO_DEVICES ); } return( NO_ERROR ); } //** // // Call: IfObjectInitiatePersistentConnections // // Returns: None // // Description: Will initiate connections for all demand dial interfaces that // are marked as persistent // VOID IfObjectInitiatePersistentConnections( VOID ) { DWORD dwBucketIndex; ROUTER_INTERFACE_OBJECT * pIfObject; DWORD dwRetCode; EnterCriticalSection( &(gblpInterfaceTable->CriticalSection) ); for ( dwBucketIndex = 0; dwBucketIndex < NUM_IF_BUCKETS; dwBucketIndex++ ) { for( pIfObject = gblpInterfaceTable->IfBucket[dwBucketIndex]; pIfObject != (ROUTER_INTERFACE_OBJECT *)NULL; pIfObject = pIfObject->pNext ) { if ( pIfObject->IfType == ROUTER_IF_TYPE_FULL_ROUTER ) { if ( pIfObject->fFlags & IFFLAG_PERSISTENT ) { dwRetCode = RasConnectionInitiate( pIfObject, FALSE ); DDM_PRINT( gblDDMConfigInfo.dwTraceId, TRACE_FSM, "Initiated persistent connection to %ws,dwRetCode=%d\n", pIfObject->lpwsInterfaceName, dwRetCode ); if ( dwRetCode != NO_ERROR ) { LPWSTR lpwsAudit[1]; lpwsAudit[0] = pIfObject->lpwsInterfaceName; DDMLogErrorString( ROUTERLOG_PERSISTENT_CONNECTION_FAILURE, 1, lpwsAudit, dwRetCode, 1 ); } } else { // // Otherwise set dialout hours restrictions, if any // IfObjectSetDialoutHoursRestriction( pIfObject ); } } } } LeaveCriticalSection( &(gblpInterfaceTable->CriticalSection) ); } //** // // Call: IfObjectDisconnectInterfaces // // Returns: None // // Description: Will disconnect all interfaces that are connected or in the // process of connecting. // VOID IfObjectDisconnectInterfaces( VOID ) { ROUTER_INTERFACE_OBJECT * pIfObject; DWORD dwBucketIndex; EnterCriticalSection( &(gblpInterfaceTable->CriticalSection) ); for ( dwBucketIndex = 0; dwBucketIndex < NUM_IF_BUCKETS; dwBucketIndex++ ) { for( pIfObject = gblpInterfaceTable->IfBucket[dwBucketIndex]; pIfObject != (ROUTER_INTERFACE_OBJECT *)NULL; pIfObject = pIfObject->pNext ) { if ( ( pIfObject->State != RISTATE_DISCONNECTED ) && ( pIfObject->fFlags & IFFLAG_LOCALLY_INITIATED ) ) { DDM_PRINT( gblDDMConfigInfo.dwTraceId, TRACE_FSM, "IfObjectDisconnectInterfaces: hanging up 0x%x", pIfObject->hRasConn); RasHangUp( pIfObject->hRasConn ); } } } LeaveCriticalSection( &(gblpInterfaceTable->CriticalSection) ); } //** // // Call: IfObjectConnectionChangeNotification // // Returns: NO_ERROR - Success // Non-zero returns - Failure // // Description: // VOID IfObjectConnectionChangeNotification( VOID ) { NOTIFICATION_EVENT * pNotificationEvent; for( pNotificationEvent = (NOTIFICATION_EVENT *) (gblDDMConfigInfo.NotificationEventListHead.Flink); pNotificationEvent != (NOTIFICATION_EVENT *) &(gblDDMConfigInfo.NotificationEventListHead); pNotificationEvent = (NOTIFICATION_EVENT *) (pNotificationEvent->ListEntry.Flink) ) { SetEvent( pNotificationEvent->hEventRouter ); } } //** // // Call: IfObjectSetDialoutHoursRestriction // // Returns: NONE // // Description: Called from ifapi.c from DIM to initiate dialout hours // restriction for this interface. // VOID IfObjectSetDialoutHoursRestriction( IN ROUTER_INTERFACE_OBJECT * pIfObject ) { TimerQRemove( pIfObject->hDIMInterface, SetDialoutHoursRestriction ); SetDialoutHoursRestriction( pIfObject->hDIMInterface ); }