@DB protected boolean applyLoadBalancerRules(List<LoadBalancerVO> lbs) throws ResourceUnavailableException { Transaction txn = Transaction.currentTxn(); List<LoadBalancingRule> rules = new ArrayList<LoadBalancingRule>(); for (LoadBalancerVO lb : lbs) { List<LbDestination> dstList = getExistingDestinations(lb.getId()); LoadBalancingRule loadBalancing = new LoadBalancingRule(lb, dstList); rules.add(loadBalancing); } if (!_networkMgr.applyRules(rules, false)) { s_logger.debug("LB rules are not completely applied"); return false; } for (LoadBalancerVO lb : lbs) { txn.start(); if (lb.getState() == FirewallRule.State.Revoke) { _lbDao.remove(lb.getId()); s_logger.warn("LB " + lb.getId() + " is successfully removed"); } else if (lb.getState() == FirewallRule.State.Add) { lb.setState(FirewallRule.State.Active); s_logger.warn("LB rule " + lb.getId() + " state is set to Active"); _lbDao.persist(lb); } // remove LB-Vm mappings that were state to revoke List<LoadBalancerVMMapVO> lbVmMaps = _lb2VmMapDao.listByLoadBalancerId(lb.getId(), true); List<Long> instanceIds = new ArrayList<Long>(); for (LoadBalancerVMMapVO lbVmMap : lbVmMaps) { instanceIds.add(lbVmMap.getInstanceId()); } if (!instanceIds.isEmpty()) { _lb2VmMapDao.remove(lb.getId(), instanceIds, null); s_logger.debug( "Load balancer rule id " + lb.getId() + " is removed for vms " + instanceIds); } if (_lb2VmMapDao.listByLoadBalancerId(lb.getId()).isEmpty()) { lb.setState(FirewallRule.State.Add); _lbDao.persist(lb); s_logger.debug( "LB rule " + lb.getId() + " state is set to Add as there are no more active LB-VM mappings"); } txn.commit(); } return true; }
@Override public List<UserVmVO> listLoadBalancerInstances(ListLoadBalancerRuleInstancesCmd cmd) throws PermissionDeniedException { Account caller = UserContext.current().getCaller(); Long loadBalancerId = cmd.getId(); Boolean applied = cmd.isApplied(); if (applied == null) { applied = Boolean.TRUE; } LoadBalancerVO loadBalancer = _lbDao.findById(loadBalancerId); if (loadBalancer == null) { return null; } _accountMgr.checkAccess(caller, null, loadBalancer); List<UserVmVO> loadBalancerInstances = new ArrayList<UserVmVO>(); List<LoadBalancerVMMapVO> vmLoadBalancerMappings = null; vmLoadBalancerMappings = _lb2VmMapDao.listByLoadBalancerId(loadBalancerId); List<Long> appliedInstanceIdList = new ArrayList<Long>(); if ((vmLoadBalancerMappings != null) && !vmLoadBalancerMappings.isEmpty()) { for (LoadBalancerVMMapVO vmLoadBalancerMapping : vmLoadBalancerMappings) { appliedInstanceIdList.add(vmLoadBalancerMapping.getInstanceId()); } } IPAddressVO addr = _ipAddressDao.findById(loadBalancer.getSourceIpAddressId()); List<UserVmVO> userVms = _vmDao.listVirtualNetworkInstancesByAcctAndZone( loadBalancer.getAccountId(), addr.getDataCenterId(), loadBalancer.getNetworkId()); for (UserVmVO userVm : userVms) { // if the VM is destroyed, being expunged, in an error state, or in an unknown state, skip it switch (userVm.getState()) { case Destroyed: case Expunging: case Error: case Unknown: continue; } boolean isApplied = appliedInstanceIdList.contains(userVm.getId()); if ((isApplied && applied) || (!isApplied && !applied)) { loadBalancerInstances.add(userVm); } } return loadBalancerInstances; }
@Override public List<LbDestination> getExistingDestinations(long lbId) { List<LbDestination> dstList = new ArrayList<LbDestination>(); List<LoadBalancerVMMapVO> lbVmMaps = _lb2VmMapDao.listByLoadBalancerId(lbId); LoadBalancerVO lb = _lbDao.findById(lbId); String dstIp = null; for (LoadBalancerVMMapVO lbVmMap : lbVmMaps) { UserVm vm = _vmDao.findById(lbVmMap.getInstanceId()); Nic nic = _nicDao.findByInstanceIdAndNetworkIdIncludingRemoved(lb.getNetworkId(), vm.getId()); dstIp = nic.getIp4Address(); LbDestination lbDst = new LbDestination( lb.getDefaultPortStart(), lb.getDefaultPortEnd(), dstIp, lbVmMap.isRevoke()); dstList.add(lbDst); } return dstList; }
@Override public boolean removeVmFromLoadBalancers(long instanceId) { boolean success = true; List<LoadBalancerVMMapVO> maps = _lb2VmMapDao.listByInstanceId(instanceId); if (maps == null || maps.isEmpty()) { return true; } Map<Long, List<Long>> lbsToReconfigure = new HashMap<Long, List<Long>>(); // first set all existing lb mappings with Revoke state for (LoadBalancerVMMapVO map : maps) { long lbId = map.getLoadBalancerId(); List<Long> instances = lbsToReconfigure.get(lbId); if (instances == null) { instances = new ArrayList<Long>(); } instances.add(map.getInstanceId()); lbsToReconfigure.put(lbId, instances); map.setRevoke(true); _lb2VmMapDao.persist(map); s_logger.debug( "Set load balancer rule for revoke: rule id " + map.getLoadBalancerId() + ", vmId " + instanceId); } // Reapply all lbs that had the vm assigned if (lbsToReconfigure != null) { for (Map.Entry<Long, List<Long>> lb : lbsToReconfigure.entrySet()) { if (!removeFromLoadBalancerInternal(lb.getKey(), lb.getValue())) { success = false; } } } return success; }
@DB public boolean deleteLoadBalancerRule( long loadBalancerId, boolean apply, Account caller, long callerUserId) { LoadBalancerVO lb = _lbDao.findById(loadBalancerId); Transaction txn = Transaction.currentTxn(); boolean generateUsageEvent = false; boolean success = true; txn.start(); if (lb.getState() == FirewallRule.State.Staged) { if (s_logger.isDebugEnabled()) { s_logger.debug("Found a rule that is still in stage state so just removing it: " + lb); } generateUsageEvent = true; } else if (lb.getState() == FirewallRule.State.Add || lb.getState() == FirewallRule.State.Active) { lb.setState(FirewallRule.State.Revoke); _lbDao.persist(lb); generateUsageEvent = true; } List<LoadBalancerVMMapVO> maps = _lb2VmMapDao.listByLoadBalancerId(loadBalancerId); if (maps != null) { for (LoadBalancerVMMapVO map : maps) { map.setRevoke(true); _lb2VmMapDao.persist(map); s_logger.debug( "Set load balancer rule for revoke: rule id " + loadBalancerId + ", vmId " + map.getInstanceId()); } } if (generateUsageEvent) { // Generate usage event right after all rules were marked for revoke UsageEventVO usageEvent = new UsageEventVO( EventTypes.EVENT_LOAD_BALANCER_DELETE, lb.getAccountId(), 0, lb.getId(), null); _usageEventDao.persist(usageEvent); } txn.commit(); if (apply) { try { if (!applyLoadBalancerConfig(loadBalancerId)) { s_logger.warn("Unable to apply the load balancer config"); return false; } } catch (ResourceUnavailableException e) { s_logger.warn( "Unable to apply the load balancer config because resource is unavaliable.", e); return false; } } FirewallRuleVO relatedRule = _firewallDao.findByRelatedId(lb.getId()); if (relatedRule != null) { s_logger.warn( "Unable to remove firewall rule id=" + lb.getId() + " as it has related firewall rule id=" + relatedRule.getId() + "; leaving it in Revoke state"); success = false; } else { _firewallDao.remove(lb.getId()); } _elbMgr.handleDeleteLoadBalancerRule(lb, callerUserId, caller); if (success) { s_logger.debug("Load balancer with id " + lb.getId() + " is removed successfully"); } return success; }
@Override @DB @ActionEvent( eventType = EventTypes.EVENT_ASSIGN_TO_LOAD_BALANCER_RULE, eventDescription = "assigning to load balancer", async = true) public boolean assignToLoadBalancer(long loadBalancerId, List<Long> instanceIds) { UserContext ctx = UserContext.current(); Account caller = ctx.getCaller(); LoadBalancerVO loadBalancer = _lbDao.findById(loadBalancerId); if (loadBalancer == null) { throw new InvalidParameterValueException( "Failed to assign to load balancer " + loadBalancerId + ", the load balancer was not found."); } List<LoadBalancerVMMapVO> mappedInstances = _lb2VmMapDao.listByLoadBalancerId(loadBalancerId, false); Set<Long> mappedInstanceIds = new HashSet<Long>(); for (LoadBalancerVMMapVO mappedInstance : mappedInstances) { mappedInstanceIds.add(Long.valueOf(mappedInstance.getInstanceId())); } List<UserVm> vmsToAdd = new ArrayList<UserVm>(); for (Long instanceId : instanceIds) { if (mappedInstanceIds.contains(instanceId)) { throw new InvalidParameterValueException( "VM " + instanceId + " is already mapped to load balancer."); } UserVm vm = _vmDao.findById(instanceId); if (vm == null || vm.getState() == State.Destroyed || vm.getState() == State.Expunging) { throw new InvalidParameterValueException("Invalid instance id: " + instanceId); } _rulesMgr.checkRuleAndUserVm(loadBalancer, vm, caller); if (vm.getAccountId() != loadBalancer.getAccountId()) { throw new PermissionDeniedException( "Cannot add virtual machines that do not belong to the same owner."); } // Let's check to make sure the vm has a nic in the same network as the load balancing rule. List<? extends Nic> nics = _networkMgr.getNics(vm.getId()); Nic nicInSameNetwork = null; for (Nic nic : nics) { if (nic.getNetworkId() == loadBalancer.getNetworkId()) { nicInSameNetwork = nic; break; } } if (nicInSameNetwork == null) { throw new InvalidParameterValueException( "VM " + instanceId + " cannot be added because it doesn't belong in the same network."); } if (s_logger.isDebugEnabled()) { s_logger.debug("Adding " + vm + " to the load balancer pool"); } vmsToAdd.add(vm); } Transaction txn = Transaction.currentTxn(); txn.start(); for (UserVm vm : vmsToAdd) { LoadBalancerVMMapVO map = new LoadBalancerVMMapVO(loadBalancer.getId(), vm.getId(), false); map = _lb2VmMapDao.persist(map); } txn.commit(); try { loadBalancer.setState(FirewallRule.State.Add); _lbDao.persist(loadBalancer); applyLoadBalancerConfig(loadBalancerId); } catch (ResourceUnavailableException e) { s_logger.warn("Unable to apply the load balancer config because resource is unavaliable.", e); return false; } return true; }