public static DeviceOracle createDeviceOracle( String macStr, Long vlan, String entityClassName, String ipStr, String dpidStr, Short switchPortNumber) throws BigDBException { if (macStr == null) { throw new BigDBException("Mac Address cannot be null."); } Short vlanShort = vlan == null ? null : Short.valueOf(vlan.shortValue()); Integer port = switchPortNumber == null ? null : Integer.valueOf(switchPortNumber); Integer ipv4 = ipStr == null ? null : IPv4.toIPv4Address(ipStr); Long dpid = dpidStr == null ? null : HexString.toLong(dpidStr); IEntityClass entityClass = getDeviceService().getEntityClassifier().getEntityClassByName(entityClassName); if (entityClass == null) { throw new BigDBException( "Invalid entity class name, config the " + "entity class first: " + entityClassName); } Entity en = new Entity(HexString.toLong(macStr), vlanShort, ipv4, dpid, port, null); String deviceId = IndexedEntity.getKeyString(entityClassName, en, entityClass.getKeyFields()); return new DeviceOracle(deviceId, macStr, vlanShort, entityClassName, ipStr, dpidStr, port); }
/* * (non-Javadoc) * * @see org.flowvisor.api.FVUserAPI#getDeviceInfo() */ @Override public Map<String, String> getDeviceInfo(String dpidStr) throws DPIDNotFound { Map<String, String> map = new HashMap<String, String>(); long dpid = HexString.toLong(dpidStr); FVClassifier fvClassifier = null; for (FVEventHandler handler : FlowVisor.getInstance().getHandlersCopy()) { if (handler instanceof FVClassifier) { OFFeaturesReply featuresReply = ((FVClassifier) handler).getSwitchInfo(); if (featuresReply != null && featuresReply.getDatapathId() == dpid) { fvClassifier = (FVClassifier) handler; break; } } } if (fvClassifier == null) throw new DPIDNotFound("dpid does not exist: " + dpidStr + " ::" + String.valueOf(dpid)); OFFeaturesReply config = fvClassifier.getSwitchInfo(); map.put("dpid", FlowSpaceUtil.dpidToString(dpid)); if (config != null) { map.put("nPorts", String.valueOf(config.getPorts().size())); String portList = ""; String portNames = ""; int p; for (Iterator<OFPhysicalPort> it = config.getPorts().iterator(); it.hasNext(); ) { OFPhysicalPort port = it.next(); p = U16.f(port.getPortNumber()); portList += p; portNames += port.getName() + "(" + p + ")"; if (it.hasNext()) { portList += ","; portNames += ","; } } map.put("portList", portList); map.put("portNames", portNames); } else { FVLog.log(LogLevel.WARN, null, "null config for: " + dpidStr); } map.put("remote", String.valueOf(fvClassifier.getConnectionName())); return map; }
@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); }