private User findUserWithHighestAverageResourceUtilAboveGuarantee() { double most = 0.0; User mostOverUser = null; for (User user : this.userMap.values()) { double over = user.getResourcePoolAverageUtilization() - 1.0; if ((over > most) && (!user.getTopologiesRunning().isEmpty())) { most = over; mostOverUser = user; } } return mostOverUser; }
@Override public boolean makeSpaceForTopo(TopologyDetails td) { LOG.debug( "attempting to make space for topo {} from user {}", td.getName(), td.getTopologySubmitter()); User submitter = this.userMap.get(td.getTopologySubmitter()); if (submitter.getCPUResourceGuaranteed() == null || submitter.getMemoryResourceGuaranteed() == null || submitter.getCPUResourceGuaranteed() == 0.0 || submitter.getMemoryResourceGuaranteed() == 0.0) { return false; } double cpuNeeded = td.getTotalRequestedCpu() / submitter.getCPUResourceGuaranteed(); double memoryNeeded = (td.getTotalRequestedMemOffHeap() + td.getTotalRequestedMemOnHeap()) / submitter.getMemoryResourceGuaranteed(); User evictUser = this.findUserWithHighestAverageResourceUtilAboveGuarantee(); // check if user has enough resource under his or her resource guarantee to schedule topology if ((1.0 - submitter.getCPUResourcePoolUtilization()) >= cpuNeeded && (1.0 - submitter.getMemoryResourcePoolUtilization()) >= memoryNeeded) { if (evictUser != null) { TopologyDetails topologyEvict = evictUser.getRunningTopologyWithLowestPriority(); LOG.debug( "Running Topology {} from user {} is still within user's resource guarantee thus, POTENTIALLY evicting Topology {} from user {} since:" + "\n(1.0 - submitter.getCPUResourcePoolUtilization()) = {} >= cpuNeeded = {}" + "\nand" + "\n(1.0 - submitter.getMemoryResourcePoolUtilization()) = {} >= memoryNeeded = {}", td, submitter, topologyEvict, evictUser, (1.0 - submitter.getCPUResourcePoolUtilization()), cpuNeeded, (1.0 - submitter.getMemoryResourcePoolUtilization()), memoryNeeded); evictTopology(topologyEvict); return true; } } else { if (evictUser != null) { if ((evictUser.getResourcePoolAverageUtilization() - 1.0) > (((cpuNeeded + memoryNeeded) / 2) + (submitter.getResourcePoolAverageUtilization() - 1.0))) { TopologyDetails topologyEvict = evictUser.getRunningTopologyWithLowestPriority(); LOG.debug( "POTENTIALLY Evicting Topology {} from user {} since:" + "\n((evictUser.getResourcePoolAverageUtilization() - 1.0) = {}" + "\n(cpuNeeded + memoryNeeded) / 2) = {} and (submitter.getResourcePoolAverageUtilization() - 1.0)) = {} Thus," + "\n(evictUser.getResourcePoolAverageUtilization() - 1.0) = {} > (((cpuNeeded + memoryNeeded) / 2) + (submitter.getResourcePoolAverageUtilization() - 1.0)) = {}", topologyEvict, evictUser, (evictUser.getResourcePoolAverageUtilization() - 1.0), ((cpuNeeded + memoryNeeded) / 2), (submitter.getResourcePoolAverageUtilization() - 1.0), (evictUser.getResourcePoolAverageUtilization() - 1.0), (((cpuNeeded + memoryNeeded) / 2) + (submitter.getResourcePoolAverageUtilization() - 1.0))); evictTopology(topologyEvict); return true; } } } // See if there is a lower priority topology that can be evicted from the current user // topologies should already be sorted in order of increasing priority. // Thus, topology at the front of the queue has the lowest priority for (TopologyDetails topo : submitter.getTopologiesRunning()) { // check to if there is a topology with a lower priority we can evict if (topo.getTopologyPriority() > td.getTopologyPriority()) { LOG.debug( "POTENTIALLY Evicting Topology {} from user {} (itself) since topology {} has a lower priority than topology {}", topo, submitter, topo, td); evictTopology(topo); return true; } } return false; }