package routemanager import ( "context" "runtime" "sync" log "github.com/sirupsen/logrus" firewall "github.com/netbirdio/netbird/client/firewall/manager" "github.com/netbirdio/netbird/client/internal/listener" "github.com/netbirdio/netbird/client/internal/peer" "github.com/netbirdio/netbird/iface" "github.com/netbirdio/netbird/route" "github.com/netbirdio/netbird/version" ) // Manager is a route manager interface type Manager interface { UpdateRoutes(updateSerial uint64, newRoutes []*route.Route) error SetRouteChangeListener(listener listener.NetworkChangeListener) InitialRouteRange() []string EnableServerRouter(firewall firewall.Manager) error Stop() } // DefaultManager is the default instance of a route manager type DefaultManager struct { ctx context.Context stop context.CancelFunc mux sync.Mutex clientNetworks map[string]*clientNetwork serverRouter serverRouter statusRecorder *peer.Status wgInterface *iface.WGIface pubKey string notifier *notifier } func NewManager(ctx context.Context, pubKey string, wgInterface *iface.WGIface, statusRecorder *peer.Status, initialRoutes []*route.Route) *DefaultManager { mCTX, cancel := context.WithCancel(ctx) dm := &DefaultManager{ ctx: mCTX, stop: cancel, clientNetworks: make(map[string]*clientNetwork), statusRecorder: statusRecorder, wgInterface: wgInterface, pubKey: pubKey, notifier: newNotifier(), } if runtime.GOOS == "android" { cr := dm.clientRoutes(initialRoutes) dm.notifier.setInitialClientRoutes(cr) } return dm } func (m *DefaultManager) EnableServerRouter(firewall firewall.Manager) error { var err error m.serverRouter, err = newServerRouter(m.ctx, m.wgInterface, firewall) if err != nil { return err } return nil } // Stop stops the manager watchers and clean firewall rules func (m *DefaultManager) Stop() { m.stop() if m.serverRouter != nil { m.serverRouter.cleanUp() } m.ctx = nil } // UpdateRoutes compares received routes with existing routes and remove, update or add them to the client and server maps func (m *DefaultManager) UpdateRoutes(updateSerial uint64, newRoutes []*route.Route) error { select { case <-m.ctx.Done(): log.Infof("not updating routes as context is closed") return m.ctx.Err() default: m.mux.Lock() defer m.mux.Unlock() newServerRoutesMap, newClientRoutesIDMap := m.classifiesRoutes(newRoutes) m.updateClientNetworks(updateSerial, newClientRoutesIDMap) m.notifier.onNewRoutes(newClientRoutesIDMap) if m.serverRouter != nil { err := m.serverRouter.updateRoutes(newServerRoutesMap) if err != nil { return err } } return nil } } // SetRouteChangeListener set RouteListener for route change notifier func (m *DefaultManager) SetRouteChangeListener(listener listener.NetworkChangeListener) { m.notifier.setListener(listener) } // InitialRouteRange return the list of initial routes. It used by mobile systems func (m *DefaultManager) InitialRouteRange() []string { return m.notifier.initialRouteRanges() } func (m *DefaultManager) updateClientNetworks(updateSerial uint64, networks map[string][]*route.Route) { // removing routes that do not exist as per the update from the Management service. for id, client := range m.clientNetworks { _, found := networks[id] if !found { log.Debugf("stopping client network watcher, %s", id) client.stop() delete(m.clientNetworks, id) } } for id, routes := range networks { clientNetworkWatcher, found := m.clientNetworks[id] if !found { clientNetworkWatcher = newClientNetworkWatcher(m.ctx, m.wgInterface, m.statusRecorder, routes[0].Network) m.clientNetworks[id] = clientNetworkWatcher go clientNetworkWatcher.peersStateAndUpdateWatcher() } update := routesUpdate{ updateSerial: updateSerial, routes: routes, } clientNetworkWatcher.sendUpdateToClientNetworkWatcher(update) } } func (m *DefaultManager) classifiesRoutes(newRoutes []*route.Route) (map[string]*route.Route, map[string][]*route.Route) { newClientRoutesIDMap := make(map[string][]*route.Route) newServerRoutesMap := make(map[string]*route.Route) ownNetworkIDs := make(map[string]bool) for _, newRoute := range newRoutes { networkID := route.GetHAUniqueID(newRoute) if newRoute.Peer == m.pubKey { ownNetworkIDs[networkID] = true // only linux is supported for now if runtime.GOOS != "linux" { log.Warnf("received a route to manage, but agent doesn't support router mode on %s OS", runtime.GOOS) continue } newServerRoutesMap[newRoute.ID] = newRoute } } for _, newRoute := range newRoutes { networkID := route.GetHAUniqueID(newRoute) if !ownNetworkIDs[networkID] { // if prefix is too small, lets assume is a possible default route which is not yet supported // we skip this route management if newRoute.Network.Bits() < minRangeBits { log.Errorf("this agent version: %s, doesn't support default routes, received %s, skipping this route", version.NetbirdVersion(), newRoute.Network) continue } newClientRoutesIDMap[networkID] = append(newClientRoutesIDMap[networkID], newRoute) } } return newServerRoutesMap, newClientRoutesIDMap } func (m *DefaultManager) clientRoutes(initialRoutes []*route.Route) []*route.Route { _, crMap := m.classifiesRoutes(initialRoutes) rs := make([]*route.Route, 0) for _, routes := range crMap { rs = append(rs, routes...) } return rs }