private void verifyFlowMod(OFFlowMod testFlowMod, OFFlowMod goodFlowMod) {
   verifyMatch(testFlowMod, goodFlowMod);
   verifyActions(testFlowMod, goodFlowMod);
   // dont' bother testing the cookie; just copy it over
   goodFlowMod.setCookie(testFlowMod.getCookie());
   // .. so we can continue to use .equals()
   assertEquals(goodFlowMod, testFlowMod);
 }
 private void verifyActions(OFFlowMod testFlowMod, OFFlowMod goodFlowMod) {
   List<OFAction> goodActions = goodFlowMod.getActions();
   List<OFAction> testActions = testFlowMod.getActions();
   assertNotNull(goodActions);
   assertNotNull(testActions);
   assertEquals(goodActions.size(), testActions.size());
   // assumes actions are marshalled in same order; should be safe
   for (int i = 0; i < goodActions.size(); i++) {
     assertEquals(goodActions.get(i), testActions.get(i));
   }
 }
  @LogMessageDocs({
    @LogMessageDoc(
        level = "ERROR",
        message = "Failure writing deny flow mod",
        explanation = "An I/O error occurred while writing a " + "deny flow mod to a switch",
        recommendation = LogMessageDoc.CHECK_SWITCH)
  })
  public static boolean blockHost(
      IFloodlightProviderService floodlightProvider,
      SwitchPort sw_tup,
      long host_mac,
      short hardTimeout,
      long cookie) {

    if (sw_tup == null) {
      return false;
    }

    IOFSwitch sw = floodlightProvider.getSwitches().get(sw_tup.getSwitchDPID());
    if (sw == null) return false;
    int inputPort = sw_tup.getPort();
    log.debug(
        "blockHost sw={} port={} mac={}", new Object[] {sw, sw_tup.getPort(), new Long(host_mac)});

    // Create flow-mod based on packet-in and src-switch
    OFFlowMod fm = (OFFlowMod) floodlightProvider.getOFMessageFactory().getMessage(OFType.FLOW_MOD);
    OFMatch match = new OFMatch();
    List<OFAction> actions = new ArrayList<OFAction>(); // Set no action to
    // drop
    match
        .setDataLayerSource(Ethernet.toByteArray(host_mac))
        .setInputPort((short) inputPort)
        .setWildcards(OFMatch.OFPFW_ALL & ~OFMatch.OFPFW_DL_SRC & ~OFMatch.OFPFW_IN_PORT);
    fm.setCookie(cookie)
        .setHardTimeout(hardTimeout)
        .setIdleTimeout(FLOWMOD_DEFAULT_IDLE_TIMEOUT)
        .setHardTimeout(FLOWMOD_DEFAULT_HARD_TIMEOUT)
        .setBufferId(OFPacketOut.BUFFER_ID_NONE)
        .setMatch(match)
        .setActions(actions)
        .setLengthU(OFFlowMod.MINIMUM_LENGTH); // +OFActionOutput.MINIMUM_LENGTH);

    try {
      log.debug("write drop flow-mod sw={} match={} flow-mod={}", new Object[] {sw, match, fm});
      // TODO: can't use the message damper sine this method is static
      sw.write(fm, null);
    } catch (IOException e) {
      log.error("Failure writing deny flow mod", e);
      return false;
    }
    return true;
  }
Exemple #4
0
  @LogMessageDoc(
      level = "ERROR",
      message = "Failure writing drop flow mod",
      explanation = "An I/O error occured while trying to write a " + "drop flow mod to a switch",
      recommendation = LogMessageDoc.CHECK_SWITCH)
  protected void doDropFlow(
      IOFSwitch sw, OFPacketIn pi, IRoutingDecision decision, FloodlightContext cntx) {
    // initialize match structure and populate it using the packet
    OFMatch match = new OFMatch();
    match.loadFromPacket(pi.getPacketData(), pi.getInPort());
    if (decision.getWildcards() != null) {
      match.setWildcards(decision.getWildcards());
    }

    // Create flow-mod based on packet-in and src-switch
    OFFlowMod fm = (OFFlowMod) floodlightProvider.getOFMessageFactory().getMessage(OFType.FLOW_MOD);
    List<OFAction> actions = new ArrayList<OFAction>(); // Set no action to
    // drop
    long cookie = AppCookie.makeCookie(FORWARDING_APP_ID, 0);

    fm.setCookie(cookie)
        .setHardTimeout((short) 0)
        .setIdleTimeout((short) 5)
        .setBufferId(OFPacketOut.BUFFER_ID_NONE)
        .setMatch(match)
        .setActions(actions)
        .setLengthU(OFFlowMod.MINIMUM_LENGTH); // +OFActionOutput.MINIMUM_LENGTH);

    try {
      if (log.isDebugEnabled()) {
        log.debug("write drop flow-mod sw={} match={} flow-mod={}", new Object[] {sw, match, fm});
      }
      messageDamper.write(sw, fm, cntx);
    } catch (IOException e) {
      log.error("Failure writing drop flow mod", e);
    }
  }
 static {
   FlowMod2 = new OFFlowMod();
   TestRule2 = new HashMap<String, Object>();
   TestRule2.put(COLUMN_NAME, "TestRule2");
   TestRule2.put(COLUMN_SWITCH, TestSwitch1DPID);
   // setup match
   OFMatch match = new OFMatch();
   TestRule2.put(COLUMN_NW_DST, "192.168.1.0/24");
   match.fromString("nw_dst=192.168.1.0/24");
   // setup actions
   List<OFAction> actions = new LinkedList<OFAction>();
   TestRule2.put(COLUMN_ACTIONS, "output=1");
   actions.add(new OFActionOutput((short) 1, (short) Short.MAX_VALUE));
   // done
   FlowMod2.setMatch(match);
   FlowMod2.setActions(actions);
   FlowMod2.setBufferId(-1);
   FlowMod2.setOutPort(OFPort.OFPP_NONE.getValue());
   FlowMod2.setPriority(Short.MAX_VALUE);
   FlowMod2.setLengthU(OFFlowMod.MINIMUM_LENGTH + 8); // 8 bytes of actions
 }
 static {
   FlowMod3 = new OFFlowMod();
   TestRule3 = new HashMap<String, Object>();
   TestRule3.put(COLUMN_NAME, "TestRule3");
   TestRule3.put(COLUMN_SWITCH, TestSwitch1DPID);
   // setup match
   OFMatch match = new OFMatch();
   TestRule3.put(COLUMN_DL_DST, "00:20:30:40:50:60");
   TestRule3.put(COLUMN_DL_VLAN, 4096);
   match.fromString("dl_dst=00:20:30:40:50:60,dl_vlan=4096");
   // setup actions
   TestRule3.put(COLUMN_ACTIONS, "output=controller");
   List<OFAction> actions = new LinkedList<OFAction>();
   actions.add(new OFActionOutput(OFPort.OFPP_CONTROLLER.getValue(), (short) Short.MAX_VALUE));
   // done
   FlowMod3.setMatch(match);
   FlowMod3.setActions(actions);
   FlowMod3.setBufferId(-1);
   FlowMod3.setOutPort(OFPort.OFPP_NONE.getValue());
   FlowMod3.setPriority(Short.MAX_VALUE);
   FlowMod3.setLengthU(OFFlowMod.MINIMUM_LENGTH + 8); // 8 bytes of actions
 }
Exemple #7
0
  public boolean pushRoute(
      Route route,
      OFMatch match,
      Integer wildcard_hints,
      OFPacketIn pi,
      long pinSwitch,
      long cookie,
      FloodlightContext cntx,
      boolean requestFlowRemovedNotifn,
      boolean doFlush,
      short flowModCommand) {

    boolean srcSwitchIncluded = false;
    OFFlowMod fm = (OFFlowMod) floodlightProvider.getOFMessageFactory().getMessage(OFType.FLOW_MOD);
    OFActionOutput action = new OFActionOutput();
    action.setMaxLength((short) 0xffff);
    List<OFAction> actions = new ArrayList<OFAction>();
    actions.add(action);

    fm.setIdleTimeout(FLOWMOD_DEFAULT_IDLE_TIMEOUT)
        .setHardTimeout(FLOWMOD_DEFAULT_HARD_TIMEOUT)
        .setBufferId(OFPacketOut.BUFFER_ID_NONE)
        .setCookie(cookie)
        .setCommand(flowModCommand)
        .setMatch(match)
        .setActions(actions)
        .setLengthU(OFFlowMod.MINIMUM_LENGTH + OFActionOutput.MINIMUM_LENGTH);

    List<NodePortTuple> switchPortList = route.getPath();

    for (int indx = switchPortList.size() - 1; indx > 0; indx -= 2) {
      // indx and indx-1 will always have the same switch DPID.
      long switchDPID = switchPortList.get(indx).getNodeId();
      IOFSwitch sw = floodlightProvider.getSwitches().get(switchDPID);
      if (sw == null) {
        if (log.isWarnEnabled()) {
          log.warn("Unable to push route, switch at DPID {} " + "not available", switchDPID);
        }
        return srcSwitchIncluded;
      }

      // set the match.
      fm.setMatch(wildcard(match, sw, wildcard_hints));

      // set buffer id if it is the source switch
      if (1 == indx) {
        // Set the flag to request flow-mod removal notifications only
        // for the
        // source switch. The removal message is used to maintain the
        // flow
        // cache. Don't set the flag for ARP messages
        if ((requestFlowRemovedNotifn) && (match.getDataLayerType() != Ethernet.TYPE_ARP)) {
          fm.setFlags(OFFlowMod.OFPFF_SEND_FLOW_REM);
          match.setWildcards(fm.getMatch().getWildcards());
        }
      }

      short outPort = switchPortList.get(indx).getPortId();
      short inPort = switchPortList.get(indx - 1).getPortId();
      // set input and output ports on the switch
      fm.getMatch().setInputPort(inPort);
      ((OFActionOutput) fm.getActions().get(0)).setPort(outPort);

      try {
        counterStore.updatePktOutFMCounterStoreLocal(sw, fm);
        if (log.isTraceEnabled()) {
          log.trace(
              "Pushing Route flowmod routeIndx={} " + "sw={} inPort={} outPort={}",
              new Object[] {indx, sw, fm.getMatch().getInputPort(), outPort});
        }
        messageDamper.write(sw, fm, cntx);
        if (doFlush) {
          sw.flush();
          counterStore.updateFlush();
        }

        // Push the packet out the source switch
        if (sw.getId() == pinSwitch) {
          pushPacket(sw, match, pi, outPort, cntx);
          srcSwitchIncluded = true;
        }
      } catch (IOException e) {
        log.error("Failure writing flow mod", e);
      }

      try {
        fm = fm.clone();
      } catch (CloneNotSupportedException e) {
        log.error("Failure cloning flow mod", e);
      }
    }

    return srcSwitchIncluded;
  }
  @Test
  public void testStaticFlowPush() throws IOException {
    StaticFlowEntryPusher staticFlowEntryPusher = new StaticFlowEntryPusher();
    IStorageSourceService storage = createStorageWithFlowEntries();
    long dpid = HexString.toLong(TestSwitch1DPID);

    // Create a Switch and attach a switch
    IOFSwitch mockSwitch = createNiceMock(IOFSwitch.class);
    Capture<OFMessage> writeCapture = new Capture<OFMessage>(CaptureType.ALL);
    Capture<ListenerContext> contextCapture = new Capture<ListenerContext>(CaptureType.ALL);
    Capture<List<OFMessage>> writeCaptureList = new Capture<List<OFMessage>>(CaptureType.ALL);

    // OFMessageSafeOutStream mockOutStream = createNiceMock(OFMessageSafeOutStream.class);
    mockSwitch.write(capture(writeCapture), capture(contextCapture));
    expectLastCall().anyTimes();
    mockSwitch.write(capture(writeCaptureList), capture(contextCapture));
    expectLastCall().anyTimes();
    mockSwitch.flush();
    expectLastCall().anyTimes();

    staticFlowEntryPusher.setStorageSource(storage);

    ModuleContext fmc = new ModuleContext();

    MockControllerProvider mockControllerProvider = getMockControllerProvider();
    Map<Long, IOFSwitch> switchMap = new HashMap<Long, IOFSwitch>();
    switchMap.put(dpid, mockSwitch);
    // NO ! expect(mockControllerProvider.getSwitches()).andReturn(switchMap).anyTimes();
    mockControllerProvider.setSwitches(switchMap);
    staticFlowEntryPusher.setControllerProvider(mockControllerProvider);
    RestApiServer restApi = new RestApiServer();
    try {
      restApi.init(fmc);
    } catch (ModuleException e) {
      e.printStackTrace();
    }
    staticFlowEntryPusher.restApi = restApi;
    staticFlowEntryPusher.startUp(null); // again, to hack unittest

    // verify that flowpusher read all three entries from storage
    assertEquals(TotalTestRules, staticFlowEntryPusher.countEntries());

    // if someone calls mockSwitch.getOutputStream(), return mockOutStream instead
    // expect(mockSwitch.getOutputStream()).andReturn(mockOutStream).anyTimes();

    // if someone calls getId(), return this dpid instead
    expect(mockSwitch.getId()).andReturn(dpid).anyTimes();
    expect(mockSwitch.getStringId()).andReturn(TestSwitch1DPID).anyTimes();
    replay(mockSwitch);

    // hook the static pusher up to the fake switch
    staticFlowEntryPusher.addedSwitch(mockSwitch);

    verify(mockSwitch);

    // Verify that the switch has gotten some flow_mods
    assertEquals(true, writeCapture.hasCaptured());
    assertEquals(TotalTestRules, writeCapture.getValues().size());

    // Order assumes how things are stored in hash bucket;
    // should be fixed because OFMessage.hashCode() is deterministic
    OFFlowMod firstFlowMod = (OFFlowMod) writeCapture.getValues().get(2);
    verifyFlowMod(firstFlowMod, FlowMod1);
    OFFlowMod secondFlowMod = (OFFlowMod) writeCapture.getValues().get(1);
    verifyFlowMod(secondFlowMod, FlowMod2);
    OFFlowMod thirdFlowMod = (OFFlowMod) writeCapture.getValues().get(0);
    verifyFlowMod(thirdFlowMod, FlowMod3);

    writeCapture.reset();
    contextCapture.reset();

    // delete two rules and verify they've been removed
    // this should invoke staticFlowPusher.rowsDeleted()
    storage.deleteRow(StaticFlowEntryPusher.TABLE_NAME, "TestRule1");
    storage.deleteRow(StaticFlowEntryPusher.TABLE_NAME, "TestRule2");

    assertEquals(1, staticFlowEntryPusher.countEntries());
    assertEquals(2, writeCapture.getValues().size());

    OFFlowMod firstDelete = (OFFlowMod) writeCapture.getValues().get(0);
    FlowMod1.setCommand(OFFlowMod.OFPFC_DELETE_STRICT);
    verifyFlowMod(firstDelete, FlowMod1);

    OFFlowMod secondDelete = (OFFlowMod) writeCapture.getValues().get(1);
    FlowMod2.setCommand(OFFlowMod.OFPFC_DELETE_STRICT);
    verifyFlowMod(secondDelete, FlowMod2);

    // add rules back to make sure that staticFlowPusher.rowsInserted() works
    writeCapture.reset();
    FlowMod2.setCommand(OFFlowMod.OFPFC_ADD);
    storage.insertRow(StaticFlowEntryPusher.TABLE_NAME, TestRule2);
    assertEquals(2, staticFlowEntryPusher.countEntries());
    assertEquals(1, writeCaptureList.getValues().size());
    List<OFMessage> outList = (List<OFMessage>) writeCaptureList.getValues().get(0);
    assertEquals(1, outList.size());
    OFFlowMod firstAdd = (OFFlowMod) outList.get(0);
    verifyFlowMod(firstAdd, FlowMod2);
    writeCapture.reset();
    contextCapture.reset();
    writeCaptureList.reset();

    // now try an overwriting update, calling staticFlowPusher.rowUpdated()
    TestRule3.put(COLUMN_DL_VLAN, 333);
    storage.updateRow(StaticFlowEntryPusher.TABLE_NAME, TestRule3);
    assertEquals(2, staticFlowEntryPusher.countEntries());
    assertEquals(1, writeCaptureList.getValues().size());

    outList = (List<OFMessage>) writeCaptureList.getValues().get(0);
    assertEquals(2, outList.size());
    OFFlowMod removeFlowMod = (OFFlowMod) outList.get(0);
    FlowMod3.setCommand(OFFlowMod.OFPFC_DELETE_STRICT);
    verifyFlowMod(removeFlowMod, FlowMod3);
    FlowMod3.setCommand(OFFlowMod.OFPFC_ADD);
    FlowMod3.getMatch().fromString("dl_dst=00:20:30:40:50:60,dl_vlan=333");
    OFFlowMod updateFlowMod = (OFFlowMod) outList.get(1);
    verifyFlowMod(updateFlowMod, FlowMod3);
    writeCaptureList.reset();

    // now try an action modifying update, calling staticFlowPusher.rowUpdated()
    TestRule3.put(COLUMN_ACTIONS, "output=controller,strip-vlan"); // added strip-vlan
    storage.updateRow(StaticFlowEntryPusher.TABLE_NAME, TestRule3);
    assertEquals(2, staticFlowEntryPusher.countEntries());
    assertEquals(1, writeCaptureList.getValues().size());

    outList = (List<OFMessage>) writeCaptureList.getValues().get(0);
    assertEquals(1, outList.size());
    OFFlowMod modifyFlowMod = (OFFlowMod) outList.get(0);
    FlowMod3.setCommand(OFFlowMod.OFPFC_MODIFY_STRICT);
    List<OFAction> modifiedActions = FlowMod3.getActions();
    modifiedActions.add(
        new OFActionStripVirtualLan()); // add the new action to what we should expect
    FlowMod3.setActions(modifiedActions);
    FlowMod3.setLengthU(OFFlowMod.MINIMUM_LENGTH + 16); // accommodate the addition of new actions
    verifyFlowMod(modifyFlowMod, FlowMod3);
  }
 private void verifyMatch(OFFlowMod testFlowMod, OFFlowMod goodFlowMod) {
   assertEquals(goodFlowMod.getMatch(), testFlowMod.getMatch());
 }
  @Override
  public void addedSwitch(IOFSwitch sw) {
    /**
     * Insert static flows on all ports of the switch to redirect DHCP client --> DHCP DHCPServer
     * traffic to the controller. DHCP client's operate on UDP port 67
     */
    OFFlowMod flow = new OFFlowMod();
    OFMatch match = new OFMatch();
    ArrayList<OFAction> actionList = new ArrayList<OFAction>();
    OFActionOutput action = new OFActionOutput();
    String flowName;

    if (sw.getStringId().equals(ROOT_NODE_WIFI_OVS_DPID)) {
      // root node, WiFi bridge, patch to tunnel port
      flow = new OFFlowMod();
      match = new OFMatch();
      match.setInputPort(ROOT_NODE_WIFI_OVS_PATCH);
      action.setType(OFActionType.OUTPUT);
      action.setPort(ROOT_NODE_WIFI_OVS_TUNNEL);
      action.setLength((short) OFActionOutput.MINIMUM_LENGTH);
      actionList.add(action);
      flow.setCookie(0);
      flow.setBufferId(-1);
      flow.setOutPort(ROOT_NODE_WIFI_OVS_TUNNEL);
      flow.setActions(actionList);
      flow.setMatch(match);
      flow.setPriority(PRIORITY_HIGH);
      flow.setLengthU(OFFlowMod.MINIMUM_LENGTH + action.getLengthU());
      flowName = "root-node-wifi-br-patch-tun";
      sfp.addFlow(flowName, flow, sw.getStringId());
      log.info("added flow on SW " + sw.getStringId() + flowName);
      actionList.clear();
      // root node, WiFi bridge, physical to patch
      flow = new OFFlowMod();
      match = new OFMatch();
      match.setInputPort(ROOT_NODE_WIFI_OVS_TUNNEL);
      action.setType(OFActionType.OUTPUT);
      action.setPort(ROOT_NODE_WIFI_OVS_PATCH);
      action.setLength((short) OFActionOutput.MINIMUM_LENGTH);
      actionList.add(action);
      flow.setCookie(0);
      flow.setBufferId(-1);
      flow.setOutPort(ROOT_NODE_WIFI_OVS_PATCH);
      flow.setActions(actionList);
      flow.setMatch(match);
      flow.setPriority(PRIORITY_HIGH);
      flow.setLengthU(OFFlowMod.MINIMUM_LENGTH + action.getLengthU());
      flowName = "root-node-wifi-br-tun-patch";
      sfp.addFlow(flowName, flow, sw.getStringId());
      log.info("added flow on SW " + sw.getStringId() + flowName);
      actionList.clear();
    } else if (sw.getStringId().equals(ROOT_NODE_WIMAX_OVS_DPID)) {
      // root node, WiMAX bridge, patch to physical
      flow = new OFFlowMod();
      match = new OFMatch();
      match.setInputPort(ROOT_NODE_WIMAX_OVS_PATCH);
      action.setType(OFActionType.OUTPUT);
      action.setPort(ROOT_NODE_WIMAX_OVS_VLAN);
      action.setLength((short) OFActionOutput.MINIMUM_LENGTH);
      actionList.add(action);
      flow.setCookie(0);
      flow.setBufferId(-1);
      flow.setOutPort(ROOT_NODE_WIMAX_OVS_VLAN);
      flow.setActions(actionList);
      flow.setMatch(match);
      flow.setPriority(PRIORITY_HIGH);
      flow.setLengthU(OFFlowMod.MINIMUM_LENGTH + action.getLengthU());
      flowName = "root-node-wimax-br-patch-phys";
      sfp.addFlow(flowName, flow, sw.getStringId());
      log.info("added flow on SW " + sw.getStringId() + flowName);
      actionList.clear();
      // root node, WiMAX bridge, interface to patch
      flow = new OFFlowMod();
      match = new OFMatch();
      match.setInputPort(ROOT_NODE_WIMAX_OVS_VLAN);
      action.setType(OFActionType.OUTPUT);
      action.setPort(ROOT_NODE_WIMAX_OVS_PATCH);
      action.setLength((short) OFActionOutput.MINIMUM_LENGTH);
      actionList.add(action);
      flow.setCookie(0);
      flow.setBufferId(-1);
      flow.setOutPort(ROOT_NODE_WIMAX_OVS_PATCH);
      flow.setActions(actionList);
      flow.setMatch(match);
      flow.setPriority(PRIORITY_HIGH);
      flow.setLengthU(OFFlowMod.MINIMUM_LENGTH + action.getLengthU());
      flowName = "root-node-wimax-br-phys-patch";
      sfp.addFlow(flowName, flow, sw.getStringId());
      log.info("added flow on SW " + sw.getStringId() + flowName);
      actionList.clear();
      // root node, WiMAX bridge, DHCP on physical
      match.setInputPort(ROOT_NODE_WIMAX_OVS_VLAN);
      match.setDataLayerType(Ethernet.TYPE_IPv4);
      match.setNetworkProtocol(IPv4.PROTOCOL_UDP);
      match.setTransportSource(UDP.DHCP_CLIENT_PORT);
      action.setType(OFActionType.OUTPUT);
      action.setLength((short) OFActionOutput.MINIMUM_LENGTH);
      action.setPort(OFPort.OFPP_CONTROLLER.getValue());
      actionList.add(action);
      flow.setCookie(0);
      flow.setBufferId(-1);
      flow.setOutPort(OFPort.OFPP_CONTROLLER.getValue());
      flow.setActions(actionList);
      flow.setMatch(match);
      flow.setPriority(PRIORITY_MAX);
      flow.setLengthU(OFFlowMod.MINIMUM_LENGTH + action.getLengthU());
      flowName = "root-node-wimax-br-DHCP-phys";
      sfp.addFlow(flowName, flow, sw.getStringId());
      log.info("added flow on SW " + sw.getStringId() + flowName);
      actionList.clear();
    } else if (sw.getStringId().equals(ROOT_NODE_ROOT_OVS_DPID)) {
      // root node, root bridge, patch AP3 (WiFi) to Linux
      flow = new OFFlowMod();
      match = new OFMatch();
      match.setInputPort(ROOT_NODE_ROOT_OVS_WIFI_PATCH);
      action.setType(OFActionType.OUTPUT);
      action.setPort(OFPort.OFPP_LOCAL.getValue());
      action.setLength((short) OFActionOutput.MINIMUM_LENGTH);
      actionList.add(action);
      flow.setCookie(0);
      flow.setBufferId(-1);
      flow.setOutPort(OFPort.OFPP_LOCAL.getValue());
      flow.setActions(actionList);
      flow.setMatch(match);
      flow.setPriority(PRIORITY_HIGH);
      flow.setLengthU(OFFlowMod.MINIMUM_LENGTH + action.getLengthU());
      flowName = "root-node-root-br-patchWiFi-linux";
      sfp.addFlow(flowName, flow, sw.getStringId());
      log.info("added flow on SW " + sw.getStringId() + flowName);
      actionList.clear();
      // root node, root bridge, patch WiMAX to Linux
      flow = new OFFlowMod();
      match = new OFMatch();
      match.setInputPort(ROOT_NODE_ROOT_OVS_WIMAX_PATCH);
      action.setType(OFActionType.OUTPUT);
      action.setPort(OFPort.OFPP_LOCAL.getValue());
      action.setLength((short) OFActionOutput.MINIMUM_LENGTH);
      actionList.add(action);
      flow.setCookie(0);
      flow.setBufferId(-1);
      flow.setOutPort(OFPort.OFPP_LOCAL.getValue());
      flow.setActions(actionList);
      flow.setMatch(match);
      flow.setPriority(PRIORITY_HIGH);
      flow.setLengthU(OFFlowMod.MINIMUM_LENGTH + action.getLengthU());
      flowName = "root-node-root-br-patchWiMAX-linux";
      sfp.addFlow(flowName, flow, sw.getStringId());
      log.info("added flow on SW " + sw.getStringId() + flowName);
      actionList.clear();
      // root node, root bridge, physical to Linux
      // flow = new OFFlowMod();
      // match = new OFMatch();
      // match.setInputPort((short) 1);
      // action.setType(OFActionType.OUTPUT);
      // action.setPort(OFPort.OFPP_LOCAL.getValue());
      // action.setLength((short) OFActionOutput.MINIMUM_LENGTH);
      // actionList.add(action);
      // flow.setCookie(0);
      // flow.setBufferId(-1);
      // flow.setOutPort(OFPort.OFPP_LOCAL.getValue());
      // flow.setActions(actionList);
      // flow.setMatch(match);
      // flow.setPriority(PRIORITY_HIGH);
      // flow.setLengthU(OFFlowMod.MINIMUM_LENGTH + action.getLengthU());
      // flowName = "root-ovs-root-br-phys-linux";
      // sfp.addFlow(flowName, flow, sw.getStringId());
      // log.info("added flow on SW " + sw.getStringId() + flowName);
      // actionList.clear();
      // root node, root bridge, Linux to physical (match extra: src-ip of root node...i.e. it's
      // outbound)
      // flow = new OFFlowMod();
      // match = new OFMatch();
      // match.setInputPort(OFPort.OFPP_LOCAL.getValue());
      // match.setDataLayerType(Ethernet.TYPE_IPv4); // ... IP packets ... required for a match on
      // an IP address
      // match.setNetworkSource(ROOT_NODE_ROOT_OVS_IP);
      // action.setType(OFActionType.OUTPUT);
      // action.setPort((short) 1);
      // action.setLength((short) OFActionOutput.MINIMUM_LENGTH);
      // actionList.add(action);
      // flow.setCookie(0);
      // flow.setBufferId(-1);
      // flow.setOutPort((short) 1);
      // flow.setActions(actionList);
      // flow.setMatch(match);
      // flow.setPriority(PRIORITY_HIGH);
      // flow.setLengthU(OFFlowMod.MINIMUM_LENGTH + action.getLengthU());
      // flowName = "root-ovs-root-br-linux-phys-egress";
      // sfp.addFlow(flowName, flow, sw.getStringId());
      // log.info("added flow on SW " + sw.getStringId() + flowName);
      // actionList.clear();
    } else if (sw.getStringId().equals(WIFI_NODE_WIFI_OVS_DPID)) {
      // WiFi node, WiFi bridge, physical to patch
      flow = new OFFlowMod();
      match = new OFMatch();
      match.setInputPort((short) 1);
      action.setType(OFActionType.OUTPUT);
      action.setPort(WIFI_NODE_WIFI_OVS_PATCH);
      action.setLength((short) OFActionOutput.MINIMUM_LENGTH);
      actionList.add(action);
      flow.setCookie(0);
      flow.setBufferId(-1);
      flow.setOutPort(WIFI_NODE_WIFI_OVS_PATCH);
      flow.setActions(actionList);
      flow.setMatch(match);
      flow.setPriority(PRIORITY_HIGH);
      flow.setLengthU(OFFlowMod.MINIMUM_LENGTH + action.getLengthU());
      flowName = "wifi-node-wifi-br-phys-patch";
      sfp.addFlow(flowName, flow, sw.getStringId());
      log.info("added flow on SW " + sw.getStringId() + flowName);
      actionList.clear();
      // WiFi node, WiFi bridge, patch to physical
      flow = new OFFlowMod();
      match = new OFMatch();
      match.setInputPort(WIFI_NODE_WIFI_OVS_PATCH);
      action.setType(OFActionType.OUTPUT);
      action.setPort((short) 1);
      action.setLength((short) OFActionOutput.MINIMUM_LENGTH);
      actionList.add(action);
      flow.setCookie(0);
      flow.setBufferId(-1);
      flow.setOutPort((short) 1);
      flow.setActions(actionList);
      flow.setMatch(match);
      flow.setPriority(PRIORITY_HIGH);
      flow.setLengthU(OFFlowMod.MINIMUM_LENGTH + action.getLengthU());
      flowName = "wifi-node-wifi-br-patch-phys";
      sfp.addFlow(flowName, flow, sw.getStringId());
      log.info("added flow on SW " + sw.getStringId() + flowName);
      actionList.clear();
      // root node, WiMAX bridge, DHCP on physical
      match.setInputPort((short) 1);
      match.setDataLayerType(Ethernet.TYPE_IPv4);
      match.setNetworkProtocol(IPv4.PROTOCOL_UDP);
      match.setTransportSource(UDP.DHCP_CLIENT_PORT);
      action.setType(OFActionType.OUTPUT);
      action.setLength((short) OFActionOutput.MINIMUM_LENGTH);
      action.setPort(OFPort.OFPP_CONTROLLER.getValue());
      actionList.add(action);
      flow.setCookie(0);
      flow.setBufferId(-1);
      flow.setOutPort(OFPort.OFPP_CONTROLLER.getValue());
      flow.setActions(actionList);
      flow.setMatch(match);
      flow.setPriority(PRIORITY_MAX);
      flow.setLengthU(OFFlowMod.MINIMUM_LENGTH + action.getLengthU());
      flowName = "wifi-node-wifi-br-DHCP-phys";
      sfp.addFlow(flowName, flow, sw.getStringId());
      log.info("added flow on SW " + sw.getStringId() + flowName);
      actionList.clear();
    } else if (sw.getStringId().equals(WIFI_NODE_TUNNEL_OVS_DPID)) {
      // WiFi node, tunnel bridge, tunnel to patch
      flow = new OFFlowMod();
      match = new OFMatch();
      match.setInputPort(WIFI_NODE_TUNNEL_OVS_TUNNEL);
      action.setType(OFActionType.OUTPUT);
      action.setPort(WIFI_NODE_TUNNEL_OVS_PATCH);
      action.setLength((short) OFActionOutput.MINIMUM_LENGTH);
      actionList.add(action);
      flow.setCookie(0);
      flow.setBufferId(-1);
      flow.setOutPort(WIFI_NODE_TUNNEL_OVS_PATCH);
      flow.setActions(actionList);
      flow.setMatch(match);
      flow.setPriority(PRIORITY_HIGH);
      flow.setLengthU(OFFlowMod.MINIMUM_LENGTH + action.getLengthU());
      flowName = "wifi-node-tunnel-br-tun-patch";
      sfp.addFlow(flowName, flow, sw.getStringId());
      log.info("added flow on SW " + sw.getStringId() + flowName);
      actionList.clear();
      // WiFi node, tunnel bridge, patch to tunnel
      flow = new OFFlowMod();
      match = new OFMatch();
      match.setInputPort(WIFI_NODE_TUNNEL_OVS_PATCH);
      action.setType(OFActionType.OUTPUT);
      action.setPort(WIFI_NODE_TUNNEL_OVS_TUNNEL);
      action.setLength((short) OFActionOutput.MINIMUM_LENGTH);
      actionList.add(action);
      flow.setCookie(0);
      flow.setBufferId(-1);
      flow.setOutPort(WIFI_NODE_TUNNEL_OVS_TUNNEL);
      flow.setActions(actionList);
      flow.setMatch(match);
      flow.setPriority(PRIORITY_HIGH);
      flow.setLengthU(OFFlowMod.MINIMUM_LENGTH + action.getLengthU());
      flowName = "wifi-node-tunnel-br-patch-tun";
      sfp.addFlow(flowName, flow, sw.getStringId());
      log.info("added flow on SW " + sw.getStringId() + flowName);
      actionList.clear();
    }
  }