public static String findClusterDetails(long clusterId, String name) { ClusterDetailsVO detailsVO = s_clusterDetailsDao.findDetail(clusterId, name); if (detailsVO != null) { return detailsVO.getValue(); } return null; }
if (_clusterDetailsDao.findDetail(clusterId, "cpuOvercommitRatio") == null) { final ClusterDetailsVO cluster_cpu_detail = new ClusterDetailsVO(clusterId, "cpuOvercommitRatio", "1"); final ClusterDetailsVO cluster_memory_detail = new ClusterDetailsVO(clusterId, "memoryOvercommitRatio", "1");
private boolean isOutOfBandManagementEnabledForCluster(Long clusterId) { if (clusterId == null) { return true; } final ClusterDetailsVO clusterDetails = clusterDetailsDao.findDetail(clusterId, OOBM_ENABLED_DETAIL); if (clusterDetails != null && !Strings.isNullOrEmpty(clusterDetails.getValue()) && !Boolean.valueOf(clusterDetails.getValue())) { return false; } return true; }
@Override public float getClusterOverProvisioningFactor(Long clusterId, short capacityType) { String capacityOverProvisioningName = ""; if (capacityType == Capacity.CAPACITY_TYPE_CPU) { capacityOverProvisioningName = "cpuOvercommitRatio"; } else if (capacityType == Capacity.CAPACITY_TYPE_MEMORY) { capacityOverProvisioningName = "memoryOvercommitRatio"; } else { throw new CloudRuntimeException("Invalid capacityType - " + capacityType); } ClusterDetailsVO clusterDetailCpu = _clusterDetailsDao.findDetail(clusterId, capacityOverProvisioningName); Float clusterOverProvisioningRatio = Float.parseFloat(clusterDetailCpu.getValue()); return clusterOverProvisioningRatio; }
private boolean isHAEnabledForCluster(final HAResource resource) { if (resource == null || resource.getClusterId() == null) { return true; } final ClusterDetailsVO clusterDetails = clusterDetailsDao.findDetail(resource.getClusterId(), HA_ENABLED_DETAIL); return clusterDetails == null || Strings.isNullOrEmpty(clusterDetails.getValue()) || Boolean.valueOf(clusterDetails.getValue()); }
@Override public boolean getSupportsResigning(long clusterId) { ClusterVO cluster = findById(clusterId); if (cluster == null || cluster.getAllocationState() != Grouping.AllocationState.Enabled) { return false; } ClusterDetailsVO clusterDetailsVO = clusterDetailsDao.findDetail(clusterId, "supportsResign"); if (clusterDetailsVO != null) { String value = clusterDetailsVO.getValue(); return Boolean.parseBoolean(value); } return false; } }
long ram_requested = offering.getRamSize() * 1024L * 1024L; Cluster cluster = _clusterDao.findById(host.getClusterId()); ClusterDetailsVO clusterDetailsCpuOvercommit = _clusterDetailsDao.findDetail(cluster.getId(), "cpuOvercommitRatio"); ClusterDetailsVO clusterDetailsRamOvercommmt = _clusterDetailsDao.findDetail(cluster.getId(), "memoryOvercommitRatio"); Float cpuOvercommitRatio = Float.parseFloat(clusterDetailsCpuOvercommit.getValue()); Float memoryOvercommitRatio = Float.parseFloat(clusterDetailsRamOvercommmt.getValue());
long reservedMem = capacityMemory.getReservedCapacity(); long actualTotalCpu = capacityCpu.getTotalCapacity(); float cpuOvercommitRatio = Float.parseFloat(_clusterDetailsDao.findDetail(clusterIdFinal, "cpuOvercommitRatio").getValue()); float memoryOvercommitRatio = Float.parseFloat(_clusterDetailsDao.findDetail(clusterIdFinal, "memoryOvercommitRatio").getValue()); int vmCPU = svo.getCpu() * svo.getSpeed(); long vmMem = svo.getRamSize() * 1024L * 1024L;
HostVO host = _hostDao.findById(hostId); final long clusterId = host.getClusterId(); final float cpuOvercommitRatio = Float.parseFloat(_clusterDetailsDao.findDetail(clusterId, "cpuOvercommitRatio").getValue()); final float memoryOvercommitRatio = Float.parseFloat(_clusterDetailsDao.findDetail(clusterId, "memoryOvercommitRatio").getValue());
throw new InvalidParameterValueException("unable to find cluster by id " + resourceId); ClusterDetailsVO clusterDetailsVO = _clusterDetailsDao.findDetail(resourceId, name); if (clusterDetailsVO == null) { clusterDetailsVO = new ClusterDetailsVO(resourceId, name, value);
ClusterDetailsVO clusterDetailsVO = _clusterDetailsDao.findDetail(host.getClusterId(), name);
ClusterDetailsVO cluster_detail_cpu = _clusterDetailsDao.findDetail(cluster_id, "cpuOvercommitRatio"); ClusterDetailsVO cluster_detail_ram = _clusterDetailsDao.findDetail(cluster_id, "memoryOvercommitRatio"); Float cpuOvercommitRatio = Float.parseFloat(cluster_detail_cpu.getValue()); Float memoryOvercommitRatio = Float.parseFloat(cluster_detail_ram.getValue());
ClusterDetailsVO clusterDetailCpu = _clusterDetailsDao.findDetail(cluster.getId(), "cpuOvercommitRatio"); ClusterDetailsVO clusterDetailRam = _clusterDetailsDao.findDetail(cluster.getId(), "memoryOvercommitRatio"); Float clusterCpuOvercommitRatio = Float.parseFloat(clusterDetailCpu.getValue()); Float clusterRamOvercommitRatio = Float.parseFloat(clusterDetailRam.getValue());
ClusterDetailsVO cluster_detail_cpu = _clusterDetailsDao.findDetail(cluster_id, "cpuOvercommitRatio"); ClusterDetailsVO cluster_detail_ram = _clusterDetailsDao.findDetail(cluster_id, "memoryOvercommitRatio"); Float cpuOvercommitRatio = Float.parseFloat(cluster_detail_cpu.getValue());
capacityCPU.addAnd("capacityType", SearchCriteria.Op.EQ, Capacity.CAPACITY_TYPE_CPU); List<CapacityVO> capacityVOCpus = _capacityDao.search(capacitySC, null); Float cpuovercommitratio = Float.parseFloat(_clusterDetailsDao.findDetail(server.getClusterId(), "cpuOvercommitRatio").getValue()); Float memoryOvercommitRatio = Float.parseFloat(_clusterDetailsDao.findDetail(server.getClusterId(), "memoryOvercommitRatio").getValue());
vm.setPodIdToDeployIn(dest.getPod().getId()); final Long cluster_id = dest.getCluster().getId(); final ClusterDetailsVO cluster_detail_cpu = _clusterDetailsDao.findDetail(cluster_id, "cpuOvercommitRatio"); final ClusterDetailsVO cluster_detail_ram = _clusterDetailsDao.findDetail(cluster_id, "memoryOvercommitRatio");