コード例 #1
0
  /** @param network */
  private void mockDAOs(final NetworkVO network, final NetworkOfferingVO offering) {
    when(_networkDao.acquireInLockTable(
            network.getId(), NetworkOrchestrationService.NetworkLockTimeout.value()))
        .thenReturn(network);
    when(_networksDao.acquireInLockTable(
            network.getId(), NetworkOrchestrationService.NetworkLockTimeout.value()))
        .thenReturn(network);
    when(_physicalProviderDao.findByServiceProvider(0L, "VirtualRouter"))
        .thenReturn(new PhysicalNetworkServiceProviderVO());
    when(_vrProviderDao.findByNspIdAndType(0L, Type.VirtualRouter))
        .thenReturn(new VirtualRouterProviderVO());
    when(_networkOfferingDao.findById(0L)).thenReturn(offering);
    // watchit: (in this test) there can be only one
    when(_routerDao.getNextInSequence(Long.class, "id")).thenReturn(0L);
    final ServiceOfferingVO svcoff =
        new ServiceOfferingVO(
            "name",
            /* cpu */ 1,
            /* ramsize */ 1024 * 1024,
            /* (clock?)speed */ 1024 * 1024 * 1024,
            /* rateMbps */ 1,
            /* multicastRateMbps */ 0,
            /* offerHA */ false,
            "displayText",
            ProvisioningType.THIN,
            /* useLocalStorage */ false,
            /* recreatable */ false,
            "tags",
            /* systemUse */ false,
            VirtualMachine.Type.DomainRouter,
            /* defaultUse */ false);
    when(_serviceOfferingDao.findById(0L)).thenReturn(svcoff);
    final DomainRouterVO router =
        new DomainRouterVO(
            /* id */ 1L,
            /* serviceOfferingId */ 1L,
            /* elementId */ 0L,
            "name",
            /* templateId */ 0L,
            HypervisorType.XenServer,
            /* guestOSId */ 0L,
            /* domainId */ 0L,
            /* accountId */ 1L,
            /* userId */ 1L,
            /* isRedundantRouter */ false,
            RedundantState.UNKNOWN,
            /* haEnabled */ false,
            /* stopPending */ false,
            /* vpcId */ null);

    when(_routerDao.getNextInSequence(Long.class, "id")).thenReturn(1L);
    when(_templateDao.findRoutingTemplate(
            HypervisorType.XenServer, "SystemVM Template (XenServer)"))
        .thenReturn(new VMTemplateVO());
    when(_routerDao.persist(any(DomainRouterVO.class))).thenReturn(router);
    when(_routerDao.findById(router.getId())).thenReturn(router);
  }
コード例 #2
0
  @Override
  public void reallocateRouterNetworks(
      final RouterDeploymentDefinition routerDeploymentDefinition,
      final VirtualRouter router,
      final VMTemplateVO template,
      final HypervisorType hType)
      throws ConcurrentOperationException, InsufficientCapacityException {
    final ServiceOfferingVO routerOffering =
        _serviceOfferingDao.findById(routerDeploymentDefinition.getServiceOfferingId());

    final LinkedHashMap<Network, List<? extends NicProfile>> networks =
        configureDefaultNics(routerDeploymentDefinition);

    _itMgr.allocate(
        router.getInstanceName(),
        template,
        routerOffering,
        networks,
        routerDeploymentDefinition.getPlan(),
        hType);
  }
コード例 #3
0
 private long getVMSnapshotAllocatedCapacity(StoragePoolVO pool) {
   List<VolumeVO> volumes = _volumeDao.findByPoolId(pool.getId());
   long totalSize = 0;
   for (VolumeVO volume : volumes) {
     if (volume.getInstanceId() == null) continue;
     Long vmId = volume.getInstanceId();
     UserVm vm = _userVMDao.findById(vmId);
     if (vm == null) continue;
     ServiceOffering offering = _offeringsDao.findById(vm.getServiceOfferingId());
     List<VMSnapshotVO> vmSnapshots = _vmSnapshotDao.findByVm(vmId);
     long pathCount = 0;
     long memorySnapshotSize = 0;
     for (VMSnapshotVO vmSnapshotVO : vmSnapshots) {
       if (_vmSnapshotDao.listByParent(vmSnapshotVO.getId()).size() == 0) pathCount++;
       if (vmSnapshotVO.getType() == VMSnapshot.Type.DiskAndMemory)
         memorySnapshotSize += (offering.getRamSize() * 1024 * 1024);
     }
     if (pathCount <= 1) totalSize = totalSize + memorySnapshotSize;
     else totalSize = totalSize + volume.getSize() * (pathCount - 1) + memorySnapshotSize;
   }
   return totalSize;
 }
コード例 #4
0
  @DB
  @Override
  public void allocateVmCapacity(VirtualMachine vm, boolean fromLastHost) {

    long hostId = vm.getHostId();
    HostVO host = _hostDao.findById(hostId);
    long clusterId = host.getClusterId();
    float cpuOvercommitRatio =
        Float.parseFloat(_clusterDetailsDao.findDetail(clusterId, "cpuOvercommitRatio").getValue());
    float memoryOvercommitRatio =
        Float.parseFloat(
            _clusterDetailsDao.findDetail(clusterId, "memoryOvercommitRatio").getValue());

    ServiceOfferingVO svo = _offeringsDao.findById(vm.getServiceOfferingId());

    CapacityVO capacityCpu = _capacityDao.findByHostIdType(hostId, CapacityVO.CAPACITY_TYPE_CPU);
    CapacityVO capacityMem = _capacityDao.findByHostIdType(hostId, CapacityVO.CAPACITY_TYPE_MEMORY);

    if (capacityCpu == null || capacityMem == null || svo == null) {
      return;
    }

    int cpu = (int) (svo.getCpu() * svo.getSpeed());
    long ram = (long) (svo.getRamSize() * 1024L * 1024L);

    Transaction txn = Transaction.currentTxn();

    try {
      txn.start();
      capacityCpu = _capacityDao.lockRow(capacityCpu.getId(), true);
      capacityMem = _capacityDao.lockRow(capacityMem.getId(), true);

      long usedCpu = capacityCpu.getUsedCapacity();
      long usedMem = capacityMem.getUsedCapacity();
      long reservedCpu = capacityCpu.getReservedCapacity();
      long reservedMem = capacityMem.getReservedCapacity();
      long actualTotalCpu = capacityCpu.getTotalCapacity();
      long actualTotalMem = capacityMem.getTotalCapacity();
      long totalCpu = (long) (actualTotalCpu * cpuOvercommitRatio);
      long totalMem = (long) (actualTotalMem * memoryOvercommitRatio);
      if (s_logger.isDebugEnabled()) {
        s_logger.debug(
            "Hosts's actual total CPU: "
                + actualTotalCpu
                + " and CPU after applying overprovisioning: "
                + totalCpu);
      }

      long freeCpu = totalCpu - (reservedCpu + usedCpu);
      long freeMem = totalMem - (reservedMem + usedMem);

      if (s_logger.isDebugEnabled()) {
        s_logger.debug("We are allocating VM, increasing the used capacity of this host:" + hostId);
        s_logger.debug(
            "Current Used CPU: " + usedCpu + " , Free CPU:" + freeCpu + " ,Requested CPU: " + cpu);
        s_logger.debug(
            "Current Used RAM: " + usedMem + " , Free RAM:" + freeMem + " ,Requested RAM: " + ram);
      }
      capacityCpu.setUsedCapacity(usedCpu + cpu);
      capacityMem.setUsedCapacity(usedMem + ram);

      if (fromLastHost) {
        /* alloc from reserved */
        if (s_logger.isDebugEnabled()) {
          s_logger.debug(
              "We are allocating VM to the last host again, so adjusting the reserved capacity if it is not less than required");
          s_logger.debug("Reserved CPU: " + reservedCpu + " , Requested CPU: " + cpu);
          s_logger.debug("Reserved RAM: " + reservedMem + " , Requested RAM: " + ram);
        }
        if (reservedCpu >= cpu && reservedMem >= ram) {
          capacityCpu.setReservedCapacity(reservedCpu - cpu);
          capacityMem.setReservedCapacity(reservedMem - ram);
        }
      } else {
        /* alloc from free resource */
        if (!((reservedCpu + usedCpu + cpu <= totalCpu)
            && (reservedMem + usedMem + ram <= totalMem))) {
          if (s_logger.isDebugEnabled()) {
            s_logger.debug(
                "Host doesnt seem to have enough free capacity, but increasing the used capacity anyways, since the VM is already starting on this host ");
          }
        }
      }

      s_logger.debug(
          "CPU STATS after allocation: for host: "
              + hostId
              + ", old used: "
              + usedCpu
              + ", old reserved: "
              + reservedCpu
              + ", actual total: "
              + actualTotalCpu
              + ", total with overprovisioning: "
              + totalCpu
              + "; new used:"
              + capacityCpu.getUsedCapacity()
              + ", reserved:"
              + capacityCpu.getReservedCapacity()
              + "; requested cpu:"
              + cpu
              + ",alloc_from_last:"
              + fromLastHost);

      s_logger.debug(
          "RAM STATS after allocation: for host: "
              + hostId
              + ", old used: "
              + usedMem
              + ", old reserved: "
              + reservedMem
              + ", total: "
              + totalMem
              + "; new used: "
              + capacityMem.getUsedCapacity()
              + ", reserved: "
              + capacityMem.getReservedCapacity()
              + "; requested mem: "
              + ram
              + ",alloc_from_last:"
              + fromLastHost);

      _capacityDao.update(capacityCpu.getId(), capacityCpu);
      _capacityDao.update(capacityMem.getId(), capacityMem);
      txn.commit();
    } catch (Exception e) {
      txn.rollback();
      return;
    }
  }
コード例 #5
0
  @DB
  @Override
  public boolean releaseVmCapacity(
      VirtualMachine vm, boolean moveFromReserved, boolean moveToReservered, Long hostId) {
    ServiceOfferingVO svo = _offeringsDao.findById(vm.getServiceOfferingId());
    CapacityVO capacityCpu = _capacityDao.findByHostIdType(hostId, CapacityVO.CAPACITY_TYPE_CPU);
    CapacityVO capacityMemory =
        _capacityDao.findByHostIdType(hostId, CapacityVO.CAPACITY_TYPE_MEMORY);
    Long clusterId = null;
    if (hostId != null) {
      HostVO host = _hostDao.findById(hostId);
      clusterId = host.getClusterId();
    }
    if (capacityCpu == null || capacityMemory == null || svo == null) {
      return false;
    }

    Transaction txn = Transaction.currentTxn();
    try {
      txn.start();

      capacityCpu = _capacityDao.lockRow(capacityCpu.getId(), true);
      capacityMemory = _capacityDao.lockRow(capacityMemory.getId(), true);

      long usedCpu = capacityCpu.getUsedCapacity();
      long usedMem = capacityMemory.getUsedCapacity();
      long reservedCpu = capacityCpu.getReservedCapacity();
      long reservedMem = capacityMemory.getReservedCapacity();
      long actualTotalCpu = capacityCpu.getTotalCapacity();
      float cpuOvercommitRatio =
          Float.parseFloat(
              _clusterDetailsDao.findDetail(clusterId, "cpuOvercommitRatio").getValue());
      float memoryOvercommitRatio =
          Float.parseFloat(
              _clusterDetailsDao.findDetail(clusterId, "memoryOvercommitRatio").getValue());
      int vmCPU = (int) (svo.getCpu() * svo.getSpeed());
      long vmMem = (long) (svo.getRamSize() * 1024L * 1024L);
      long actualTotalMem = capacityMemory.getTotalCapacity();
      long totalMem = (long) (actualTotalMem * memoryOvercommitRatio);
      long totalCpu = (long) (actualTotalCpu * cpuOvercommitRatio);
      if (s_logger.isDebugEnabled()) {
        s_logger.debug(
            "Hosts's actual total CPU: "
                + actualTotalCpu
                + " and CPU after applying overprovisioning: "
                + totalCpu);
        s_logger.debug(
            "Hosts's actual total RAM: "
                + actualTotalMem
                + " and RAM after applying overprovisioning: "
                + totalMem);
      }

      if (!moveFromReserved) {
        /* move resource from used */
        if (usedCpu >= vmCPU) {
          capacityCpu.setUsedCapacity(usedCpu - vmCPU);
        }
        if (usedMem >= vmMem) {
          capacityMemory.setUsedCapacity(usedMem - vmMem);
        }

        if (moveToReservered) {
          if (reservedCpu + vmCPU <= totalCpu) {
            capacityCpu.setReservedCapacity(reservedCpu + vmCPU);
          }
          if (reservedMem + vmMem <= totalMem) {
            capacityMemory.setReservedCapacity(reservedMem + vmMem);
          }
        }
      } else {
        if (reservedCpu >= vmCPU) {
          capacityCpu.setReservedCapacity(reservedCpu - vmCPU);
        }
        if (reservedMem >= vmMem) {
          capacityMemory.setReservedCapacity(reservedMem - vmMem);
        }
      }

      s_logger.debug(
          "release cpu from host: "
              + hostId
              + ", old used: "
              + usedCpu
              + ",reserved: "
              + reservedCpu
              + ", actual total: "
              + actualTotalCpu
              + ", total with overprovisioning: "
              + totalCpu
              + "; new used: "
              + capacityCpu.getUsedCapacity()
              + ",reserved:"
              + capacityCpu.getReservedCapacity()
              + "; movedfromreserved: "
              + moveFromReserved
              + ",moveToReservered"
              + moveToReservered);

      s_logger.debug(
          "release mem from host: "
              + hostId
              + ", old used: "
              + usedMem
              + ",reserved: "
              + reservedMem
              + ", total: "
              + totalMem
              + "; new used: "
              + capacityMemory.getUsedCapacity()
              + ",reserved:"
              + capacityMemory.getReservedCapacity()
              + "; movedfromreserved: "
              + moveFromReserved
              + ",moveToReservered"
              + moveToReservered);

      _capacityDao.update(capacityCpu.getId(), capacityCpu);
      _capacityDao.update(capacityMemory.getId(), capacityMemory);
      txn.commit();
      return true;
    } catch (Exception e) {
      s_logger.debug("Failed to transit vm's state, due to " + e.getMessage());
      txn.rollback();
      return false;
    }
  }
コード例 #6
0
  @Override
  public DomainRouterVO deployRouter(
      final RouterDeploymentDefinition routerDeploymentDefinition, final boolean startRouter)
      throws InsufficientAddressCapacityException, InsufficientServerCapacityException,
          InsufficientCapacityException, StorageUnavailableException, ResourceUnavailableException {

    final ServiceOfferingVO routerOffering =
        _serviceOfferingDao.findById(routerDeploymentDefinition.getServiceOfferingId());
    final Account owner = routerDeploymentDefinition.getOwner();

    // Router is the network element, we don't know the hypervisor type yet.
    // Try to allocate the domR twice using diff hypervisors, and when
    // failed both times, throw the exception up
    final List<HypervisorType> hypervisors = getHypervisors(routerDeploymentDefinition);

    int allocateRetry = 0;
    int startRetry = 0;
    DomainRouterVO router = null;
    for (final Iterator<HypervisorType> iter = hypervisors.iterator(); iter.hasNext(); ) {
      final HypervisorType hType = iter.next();
      try {
        final long id = _routerDao.getNextInSequence(Long.class, "id");
        if (s_logger.isDebugEnabled()) {
          s_logger.debug(
              String.format(
                  "Allocating the VR with id=%s in datacenter %s with the hypervisor type %s",
                  id, routerDeploymentDefinition.getDest().getDataCenter(), hType));
        }

        final String templateName =
            retrieveTemplateName(
                hType, routerDeploymentDefinition.getDest().getDataCenter().getId());
        final VMTemplateVO template = _templateDao.findRoutingTemplate(hType, templateName);

        if (template == null) {
          s_logger.debug(hType + " won't support system vm, skip it");
          continue;
        }

        final boolean offerHA = routerOffering.getOfferHA();

        // routerDeploymentDefinition.getVpc().getId() ==> do not use
        // VPC because it is not a VPC offering.
        final Long vpcId =
            routerDeploymentDefinition.getVpc() != null
                ? routerDeploymentDefinition.getVpc().getId()
                : null;

        long userId = CallContext.current().getCallingUserId();
        if (CallContext.current().getCallingAccount().getId() != owner.getId()) {
          final List<UserVO> userVOs = _userDao.listByAccount(owner.getAccountId());
          if (!userVOs.isEmpty()) {
            userId = userVOs.get(0).getId();
          }
        }

        router =
            new DomainRouterVO(
                id,
                routerOffering.getId(),
                routerDeploymentDefinition.getVirtualProvider().getId(),
                VirtualMachineName.getRouterName(id, s_vmInstanceName),
                template.getId(),
                template.getHypervisorType(),
                template.getGuestOSId(),
                owner.getDomainId(),
                owner.getId(),
                userId,
                routerDeploymentDefinition.isRedundant(),
                RedundantState.UNKNOWN,
                offerHA,
                false,
                vpcId);

        router.setDynamicallyScalable(template.isDynamicallyScalable());
        router.setRole(Role.VIRTUAL_ROUTER);
        router = _routerDao.persist(router);

        reallocateRouterNetworks(routerDeploymentDefinition, router, template, null);
        router = _routerDao.findById(router.getId());
      } catch (final InsufficientCapacityException ex) {
        if (allocateRetry < 2 && iter.hasNext()) {
          s_logger.debug(
              "Failed to allocate the VR with hypervisor type "
                  + hType
                  + ", retrying one more time");
          continue;
        } else {
          throw ex;
        }
      } finally {
        allocateRetry++;
      }

      if (startRouter) {
        try {
          router =
              startVirtualRouter(
                  router,
                  _accountMgr.getSystemUser(),
                  _accountMgr.getSystemAccount(),
                  routerDeploymentDefinition.getParams());
          break;
        } catch (final InsufficientCapacityException ex) {
          if (startRetry < 2 && iter.hasNext()) {
            s_logger.debug(
                "Failed to start the VR  "
                    + router
                    + " with hypervisor type "
                    + hType
                    + ", "
                    + "destroying it and recreating one more time");
            // destroy the router
            destroyRouter(
                router.getId(), _accountMgr.getAccount(Account.ACCOUNT_ID_SYSTEM), User.UID_SYSTEM);
            continue;
          } else {
            throw ex;
          }
        } finally {
          startRetry++;
        }
      } else {
        // return stopped router
        return router;
      }
    }

    return router;
  }