Example 1 with NodeSorterHostProximity
use of org.apache.storm.scheduler.resource.strategies.scheduling.sorter.NodeSorterHostProximity in project storm by apache.
the class BaseResourceAwareStrategy method prepareForScheduling.
/**
* Initialize instance variables as the first step in {@link #schedule(Cluster, TopologyDetails)}.
* This method may be extended by subclasses to initialize additional variables as in
* {@link ConstraintSolverStrategy#prepareForScheduling(Cluster, TopologyDetails)}.
*
* @param cluster on which executors will be scheduled.
* @param topologyDetails to be scheduled.
*/
protected void prepareForScheduling(Cluster cluster, TopologyDetails topologyDetails) {
this.cluster = cluster;
this.topologyDetails = topologyDetails;
// from Cluster
this.nodes = new RasNodes(cluster);
networkTopography = cluster.getNetworkTopography();
hostnameToNodes = this.nodes.getHostnameToNodes();
// from TopologyDetails
topoName = topologyDetails.getName();
execToComp = topologyDetails.getExecutorToComponent();
compToExecs = topologyDetails.getComponentToExecutors();
Map<String, Object> topoConf = topologyDetails.getConf();
orderExecutorsByProximity = isOrderByProximity(topoConf);
maxSchedulingTimeMs = computeMaxSchedulingTimeMs(topoConf);
// From Cluster and TopologyDetails - and cleaned-up
// all unassigned executors including system components execs
unassignedExecutors = Collections.unmodifiableSet(new HashSet<>(cluster.getUnassignedExecutors(topologyDetails)));
int confMaxStateSearch = getMaxStateSearchFromTopoConf(topologyDetails.getConf());
int daemonMaxStateSearch = ObjectReader.getInt(cluster.getConf().get(DaemonConfig.RESOURCE_AWARE_SCHEDULER_MAX_STATE_SEARCH));
maxStateSearch = Math.min(daemonMaxStateSearch, confMaxStateSearch);
LOG.debug("The max state search configured by topology {} is {}", topologyDetails.getId(), confMaxStateSearch);
LOG.debug("The max state search that will be used by topology {} is {}", topologyDetails.getId(), maxStateSearch);
searcherState = createSearcherState();
setNodeSorter(new NodeSorterHostProximity(cluster, topologyDetails, nodeSortType));
setExecSorter(orderExecutorsByProximity ? new ExecSorterByProximity(topologyDetails) : new ExecSorterByConnectionCount(topologyDetails));
logClusterInfo();
}
Also used :
RasNodes(org.apache.storm.scheduler.resource.RasNodes)
NodeSorterHostProximity(org.apache.storm.scheduler.resource.strategies.scheduling.sorter.NodeSorterHostProximity)
ExecSorterByProximity(org.apache.storm.scheduler.resource.strategies.scheduling.sorter.ExecSorterByProximity)
ExecSorterByConnectionCount(org.apache.storm.scheduler.resource.strategies.scheduling.sorter.ExecSorterByConnectionCount)
HashSet(java.util.HashSet)
Example 2 with NodeSorterHostProximity
use of org.apache.storm.scheduler.resource.strategies.scheduling.sorter.NodeSorterHostProximity in project storm by apache.
the class TestDefaultResourceAwareStrategy method testMultipleRacks.
/**
* Test whether strategy will choose correct rack
*/
@Test
public void testMultipleRacks() {
final Map<String, SupervisorDetails> supMap = new HashMap<>();
final Map<String, SupervisorDetails> supMapRack0 = genSupervisors(10, 4, 0, 400, 8000);
// generate another rack of supervisors with less resources
final Map<String, SupervisorDetails> supMapRack1 = genSupervisors(10, 4, 10, 200, 4000);
// generate some supervisors that are depleted of one resource
final Map<String, SupervisorDetails> supMapRack2 = genSupervisors(10, 4, 20, 0, 8000);
// generate some that has alot of memory but little of cpu
final Map<String, SupervisorDetails> supMapRack3 = genSupervisors(10, 4, 30, 10, 8000 * 2 + 4000);
// generate some that has alot of cpu but little of memory
final Map<String, SupervisorDetails> supMapRack4 = genSupervisors(10, 4, 40, 400 + 200 + 10, 1000);
// Generate some that have neither resource, to verify that the strategy will prioritize this last
// Also put a generic resource with 0 value in the resources list, to verify that it doesn't affect the sorting
final Map<String, SupervisorDetails> supMapRack5 = genSupervisors(10, 4, 50, 0.0, 0.0, Collections.singletonMap("gpu.count", 0.0));
supMap.putAll(supMapRack0);
supMap.putAll(supMapRack1);
supMap.putAll(supMapRack2);
supMap.putAll(supMapRack3);
supMap.putAll(supMapRack4);
supMap.putAll(supMapRack5);
Config config = createClusterConfig(100, 500, 500, null);
config.put(Config.TOPOLOGY_WORKER_MAX_HEAP_SIZE_MB, Double.MAX_VALUE);
INimbus iNimbus = new INimbusTest();
// create test DNSToSwitchMapping plugin
DNSToSwitchMapping TestNetworkTopographyPlugin = new TestDNSToSwitchMapping(supMapRack0, supMapRack1, supMapRack2, supMapRack3, supMapRack4, supMapRack5);
// generate topologies
TopologyDetails topo1 = genTopology("topo-1", config, 8, 0, 2, 0, CURRENT_TIME - 2, 10, "user");
TopologyDetails topo2 = genTopology("topo-2", config, 8, 0, 2, 0, CURRENT_TIME - 2, 10, "user");
Topologies topologies = new Topologies(topo1, topo2);
Cluster cluster = new Cluster(iNimbus, new ResourceMetrics(new StormMetricsRegistry()), supMap, new HashMap<>(), topologies, config);
List<String> supHostnames = new LinkedList<>();
for (SupervisorDetails sup : supMap.values()) {
supHostnames.add(sup.getHost());
}
Map<String, List<String>> rackToNodes = new HashMap<>();
Map<String, String> resolvedSuperVisors = TestNetworkTopographyPlugin.resolve(supHostnames);
for (Map.Entry<String, String> entry : resolvedSuperVisors.entrySet()) {
String hostName = entry.getKey();
String rack = entry.getValue();
rackToNodes.computeIfAbsent(rack, rid -> new ArrayList<>()).add(hostName);
}
cluster.setNetworkTopography(rackToNodes);
DefaultResourceAwareStrategyOld rs = new DefaultResourceAwareStrategyOld();
rs.prepareForScheduling(cluster, topo1);
INodeSorter nodeSorter = new NodeSorterHostProximity(cluster, topo1, BaseResourceAwareStrategy.NodeSortType.DEFAULT_RAS);
nodeSorter.prepare(null);
Iterable<ObjectResourcesItem> sortedRacks = nodeSorter.getSortedRacks();
Iterator<ObjectResourcesItem> it = sortedRacks.iterator();
// Ranked first since rack-0 has the most balanced set of resources
Assert.assertEquals("rack-0 should be ordered first", "rack-0", it.next().id);
// Ranked second since rack-1 has a balanced set of resources but less than rack-0
Assert.assertEquals("rack-1 should be ordered second", "rack-1", it.next().id);
// Ranked third since rack-4 has a lot of cpu but not a lot of memory
Assert.assertEquals("rack-4 should be ordered third", "rack-4", it.next().id);
// Ranked fourth since rack-3 has alot of memory but not cpu
Assert.assertEquals("rack-3 should be ordered fourth", "rack-3", it.next().id);
// Ranked fifth since rack-2 has not cpu resources
Assert.assertEquals("rack-2 should be ordered fifth", "rack-2", it.next().id);
// Ranked last since rack-5 has neither CPU nor memory available
assertEquals("Rack-5 should be ordered sixth", "rack-5", it.next().id);
SchedulingResult schedulingResult = rs.schedule(cluster, topo1);
assert (schedulingResult.isSuccess());
SchedulerAssignment assignment = cluster.getAssignmentById(topo1.getId());
for (WorkerSlot ws : assignment.getSlotToExecutors().keySet()) {
// make sure all workers on scheduled in rack-0
Assert.assertEquals("assert worker scheduled on rack-0", "rack-0", resolvedSuperVisors.get(rs.idToNode(ws.getNodeId()).getHostname()));
}
Assert.assertEquals("All executors in topo-1 scheduled", 0, cluster.getUnassignedExecutors(topo1).size());
// Test if topology is already partially scheduled on one rack
Iterator<ExecutorDetails> executorIterator = topo2.getExecutors().iterator();
List<String> nodeHostnames = rackToNodes.get("rack-1");
for (int i = 0; i < topo2.getExecutors().size() / 2; i++) {
String nodeHostname = nodeHostnames.get(i % nodeHostnames.size());
RasNode node = rs.hostnameToNodes(nodeHostname).get(0);
WorkerSlot targetSlot = node.getFreeSlots().iterator().next();
ExecutorDetails targetExec = executorIterator.next();
// to keep track of free slots
node.assign(targetSlot, topo2, Arrays.asList(targetExec));
}
rs = new DefaultResourceAwareStrategyOld();
// schedule topo2
schedulingResult = rs.schedule(cluster, topo2);
assert (schedulingResult.isSuccess());
assignment = cluster.getAssignmentById(topo2.getId());
for (WorkerSlot ws : assignment.getSlotToExecutors().keySet()) {
// make sure all workers on scheduled in rack-1
Assert.assertEquals("assert worker scheduled on rack-1", "rack-1", resolvedSuperVisors.get(rs.idToNode(ws.getNodeId()).getHostname()));
}
Assert.assertEquals("All executors in topo-2 scheduled", 0, cluster.getUnassignedExecutors(topo2).size());
}
Also used :
Arrays(java.util.Arrays)
LoggerFactory(org.slf4j.LoggerFactory)
INimbus(org.apache.storm.scheduler.INimbus)
SupervisorResources(org.apache.storm.scheduler.SupervisorResources)
ExtendWith(org.junit.jupiter.api.extension.ExtendWith)
Matchers.closeTo(org.hamcrest.Matchers.closeTo)
ResourceMetrics(org.apache.storm.scheduler.resource.normalization.ResourceMetrics)
WorkerSlot(org.apache.storm.scheduler.WorkerSlot)
Map(java.util.Map)
TopologyBuilder(org.apache.storm.topology.TopologyBuilder)
NodeSorterHostProximity(org.apache.storm.scheduler.resource.strategies.scheduling.sorter.NodeSorterHostProximity)
SchedulerAssignment(org.apache.storm.scheduler.SchedulerAssignment)
DNSToSwitchMapping(org.apache.storm.networktopography.DNSToSwitchMapping)
Collection(java.util.Collection)
TopologyDetails(org.apache.storm.scheduler.TopologyDetails)
Collectors(java.util.stream.Collectors)
SharedOnHeap(org.apache.storm.topology.SharedOnHeap)
Test(org.junit.jupiter.api.Test)
WorkerResources(org.apache.storm.generated.WorkerResources)
List(java.util.List)
TestUtilsForResourceAwareScheduler(org.apache.storm.scheduler.resource.TestUtilsForResourceAwareScheduler)
Entry(java.util.Map.Entry)
Config(org.apache.storm.Config)
Matchers.is(org.hamcrest.Matchers.is)
InvalidTopologyException(org.apache.storm.generated.InvalidTopologyException)
StormCommon(org.apache.storm.daemon.StormCommon)
ExecutorDetails(org.apache.storm.scheduler.ExecutorDetails)
IScheduler(org.apache.storm.scheduler.IScheduler)
RasNode(org.apache.storm.scheduler.resource.RasNode)
SharedOffHeapWithinNode(org.apache.storm.topology.SharedOffHeapWithinNode)
NodeSorter(org.apache.storm.scheduler.resource.strategies.scheduling.sorter.NodeSorter)
EnumSource(org.junit.jupiter.params.provider.EnumSource)
HashMap(java.util.HashMap)
ArrayList(java.util.ArrayList)
HashSet(java.util.HashSet)
Topologies(org.apache.storm.scheduler.Topologies)
ServerUtils(org.apache.storm.utils.ServerUtils)
StormTopology(org.apache.storm.generated.StormTopology)
NormalizedResourcesExtension(org.apache.storm.scheduler.resource.normalization.NormalizedResourcesExtension)
LinkedList(java.util.LinkedList)
StormMetricsRegistry(org.apache.storm.metric.StormMetricsRegistry)
ValueSource(org.junit.jupiter.params.provider.ValueSource)
Logger(org.slf4j.Logger)
Iterator(java.util.Iterator)
SharedOffHeapWithinWorker(org.apache.storm.topology.SharedOffHeapWithinWorker)
INodeSorter(org.apache.storm.scheduler.resource.strategies.scheduling.sorter.INodeSorter)
SupervisorDetails(org.apache.storm.scheduler.SupervisorDetails)
TopologyResources(org.apache.storm.daemon.nimbus.TopologyResources)
Cluster(org.apache.storm.scheduler.Cluster)
ResourceAwareScheduler(org.apache.storm.scheduler.resource.ResourceAwareScheduler)
SchedulingResult(org.apache.storm.scheduler.resource.SchedulingResult)
Nimbus(org.apache.storm.daemon.nimbus.Nimbus)
AfterEach(org.junit.jupiter.api.AfterEach)
ParameterizedTest(org.junit.jupiter.params.ParameterizedTest)
Assert(org.junit.Assert)
Collections(java.util.Collections)
ExecutorDetails(org.apache.storm.scheduler.ExecutorDetails)
HashMap(java.util.HashMap)
Config(org.apache.storm.Config)
StormMetricsRegistry(org.apache.storm.metric.StormMetricsRegistry)
ArrayList(java.util.ArrayList)
NodeSorterHostProximity(org.apache.storm.scheduler.resource.strategies.scheduling.sorter.NodeSorterHostProximity)
SchedulingResult(org.apache.storm.scheduler.resource.SchedulingResult)
ResourceMetrics(org.apache.storm.scheduler.resource.normalization.ResourceMetrics)
INodeSorter(org.apache.storm.scheduler.resource.strategies.scheduling.sorter.INodeSorter)
WorkerSlot(org.apache.storm.scheduler.WorkerSlot)
RasNode(org.apache.storm.scheduler.resource.RasNode)
DNSToSwitchMapping(org.apache.storm.networktopography.DNSToSwitchMapping)
Topologies(org.apache.storm.scheduler.Topologies)
List(java.util.List)
ArrayList(java.util.ArrayList)
LinkedList(java.util.LinkedList)
SupervisorDetails(org.apache.storm.scheduler.SupervisorDetails)
Cluster(org.apache.storm.scheduler.Cluster)
INimbus(org.apache.storm.scheduler.INimbus)
TopologyDetails(org.apache.storm.scheduler.TopologyDetails)
LinkedList(java.util.LinkedList)
SchedulerAssignment(org.apache.storm.scheduler.SchedulerAssignment)
Map(java.util.Map)
HashMap(java.util.HashMap)
Test(org.junit.jupiter.api.Test)
ParameterizedTest(org.junit.jupiter.params.ParameterizedTest)
Example 3 with NodeSorterHostProximity
use of org.apache.storm.scheduler.resource.strategies.scheduling.sorter.NodeSorterHostProximity in project storm by apache.
the class TestDefaultResourceAwareStrategy method testMultipleRacksWithFavoritism.
/**
* Test whether strategy will choose correct rack
*/
@Test
public void testMultipleRacksWithFavoritism() {
final Map<String, SupervisorDetails> supMap = new HashMap<>();
final Map<String, SupervisorDetails> supMapRack0 = genSupervisors(10, 4, 0, 400, 8000);
// generate another rack of supervisors with less resources
final Map<String, SupervisorDetails> supMapRack1 = genSupervisors(10, 4, 10, 200, 4000);
// generate some supervisors that are depleted of one resource
final Map<String, SupervisorDetails> supMapRack2 = genSupervisors(10, 4, 20, 0, 8000);
// generate some that has alot of memory but little of cpu
final Map<String, SupervisorDetails> supMapRack3 = genSupervisors(10, 4, 30, 10, 8000 * 2 + 4000);
// generate some that has alot of cpu but little of memory
final Map<String, SupervisorDetails> supMapRack4 = genSupervisors(10, 4, 40, 400 + 200 + 10, 1000);
supMap.putAll(supMapRack0);
supMap.putAll(supMapRack1);
supMap.putAll(supMapRack2);
supMap.putAll(supMapRack3);
supMap.putAll(supMapRack4);
Config config = createClusterConfig(100, 500, 500, null);
config.put(Config.TOPOLOGY_WORKER_MAX_HEAP_SIZE_MB, Double.MAX_VALUE);
INimbus iNimbus = new INimbusTest();
// create test DNSToSwitchMapping plugin
DNSToSwitchMapping TestNetworkTopographyPlugin = new TestDNSToSwitchMapping(supMapRack0, supMapRack1, supMapRack2, supMapRack3, supMapRack4);
Config t1Conf = new Config();
t1Conf.putAll(config);
final List<String> t1FavoredHostNames = Arrays.asList("host-41", "host-42", "host-43");
t1Conf.put(Config.TOPOLOGY_SCHEDULER_FAVORED_NODES, t1FavoredHostNames);
final List<String> t1UnfavoredHostIds = Arrays.asList("host-1", "host-2", "host-3");
t1Conf.put(Config.TOPOLOGY_SCHEDULER_UNFAVORED_NODES, t1UnfavoredHostIds);
// generate topologies
TopologyDetails topo1 = genTopology("topo-1", t1Conf, 8, 0, 2, 0, CURRENT_TIME - 2, 10, "user");
Config t2Conf = new Config();
t2Conf.putAll(config);
t2Conf.put(Config.TOPOLOGY_SCHEDULER_FAVORED_NODES, Arrays.asList("host-31", "host-32", "host-33"));
t2Conf.put(Config.TOPOLOGY_SCHEDULER_UNFAVORED_NODES, Arrays.asList("host-11", "host-12", "host-13"));
TopologyDetails topo2 = genTopology("topo-2", t2Conf, 8, 0, 2, 0, CURRENT_TIME - 2, 10, "user");
Topologies topologies = new Topologies(topo1, topo2);
Cluster cluster = new Cluster(iNimbus, new ResourceMetrics(new StormMetricsRegistry()), supMap, new HashMap<>(), topologies, config);
List<String> supHostnames = new LinkedList<>();
for (SupervisorDetails sup : supMap.values()) {
supHostnames.add(sup.getHost());
}
Map<String, List<String>> rackToNodes = new HashMap<>();
Map<String, String> resolvedSuperVisors = TestNetworkTopographyPlugin.resolve(supHostnames);
for (Map.Entry<String, String> entry : resolvedSuperVisors.entrySet()) {
String hostName = entry.getKey();
String rack = entry.getValue();
List<String> nodesForRack = rackToNodes.get(rack);
if (nodesForRack == null) {
nodesForRack = new ArrayList<>();
rackToNodes.put(rack, nodesForRack);
}
nodesForRack.add(hostName);
}
cluster.setNetworkTopography(rackToNodes);
DefaultResourceAwareStrategyOld rs = new DefaultResourceAwareStrategyOld();
rs.prepareForScheduling(cluster, topo1);
INodeSorter nodeSorter = new NodeSorterHostProximity(cluster, topo1, BaseResourceAwareStrategy.NodeSortType.DEFAULT_RAS);
nodeSorter.prepare(null);
Iterable<ObjectResourcesItem> sortedRacks = nodeSorter.getSortedRacks();
Iterator<ObjectResourcesItem> it = sortedRacks.iterator();
// Ranked first since rack-0 has the most balanced set of resources
Assert.assertEquals("rack-0 should be ordered first", "rack-0", it.next().id);
// Ranked second since rack-1 has a balanced set of resources but less than rack-0
Assert.assertEquals("rack-1 should be ordered second", "rack-1", it.next().id);
// Ranked third since rack-4 has a lot of cpu but not a lot of memory
Assert.assertEquals("rack-4 should be ordered third", "rack-4", it.next().id);
// Ranked fourth since rack-3 has alot of memory but not cpu
Assert.assertEquals("rack-3 should be ordered fourth", "rack-3", it.next().id);
// Ranked last since rack-2 has not cpu resources
Assert.assertEquals("rack-2 should be ordered fifth", "rack-2", it.next().id);
SchedulingResult schedulingResult = rs.schedule(cluster, topo1);
assert (schedulingResult.isSuccess());
SchedulerAssignment assignment = cluster.getAssignmentById(topo1.getId());
for (WorkerSlot ws : assignment.getSlotToExecutors().keySet()) {
String hostName = rs.idToNode(ws.getNodeId()).getHostname();
String rackId = resolvedSuperVisors.get(hostName);
Assert.assertTrue(ws + " is neither on a favored node " + t1FavoredHostNames + " nor the highest priority rack (rack-0)", t1FavoredHostNames.contains(hostName) || "rack-0".equals(rackId));
Assert.assertFalse(ws + " is a part of an unfavored node " + t1UnfavoredHostIds, t1UnfavoredHostIds.contains(hostName));
}
Assert.assertEquals("All executors in topo-1 scheduled", 0, cluster.getUnassignedExecutors(topo1).size());
// Test if topology is already partially scheduled on one rack
Iterator<ExecutorDetails> executorIterator = topo2.getExecutors().iterator();
List<String> nodeHostnames = rackToNodes.get("rack-1");
for (int i = 0; i < topo2.getExecutors().size() / 2; i++) {
String nodeHostname = nodeHostnames.get(i % nodeHostnames.size());
RasNode node = rs.hostnameToNodes(nodeHostname).get(0);
WorkerSlot targetSlot = node.getFreeSlots().iterator().next();
ExecutorDetails targetExec = executorIterator.next();
// to keep track of free slots
node.assign(targetSlot, topo2, Arrays.asList(targetExec));
}
rs = new DefaultResourceAwareStrategyOld();
// schedule topo2
schedulingResult = rs.schedule(cluster, topo2);
assert (schedulingResult.isSuccess());
assignment = cluster.getAssignmentById(topo2.getId());
for (WorkerSlot ws : assignment.getSlotToExecutors().keySet()) {
// make sure all workers on scheduled in rack-1
// The favored nodes would have put it on a different rack, but because that rack does not have free space to run the
// topology it falls back to this rack
Assert.assertEquals("assert worker scheduled on rack-1", "rack-1", resolvedSuperVisors.get(rs.idToNode(ws.getNodeId()).getHostname()));
}
Assert.assertEquals("All executors in topo-2 scheduled", 0, cluster.getUnassignedExecutors(topo2).size());
}
Also used :
ExecutorDetails(org.apache.storm.scheduler.ExecutorDetails)
HashMap(java.util.HashMap)
Config(org.apache.storm.Config)
StormMetricsRegistry(org.apache.storm.metric.StormMetricsRegistry)
NodeSorterHostProximity(org.apache.storm.scheduler.resource.strategies.scheduling.sorter.NodeSorterHostProximity)
SchedulingResult(org.apache.storm.scheduler.resource.SchedulingResult)
ResourceMetrics(org.apache.storm.scheduler.resource.normalization.ResourceMetrics)
INodeSorter(org.apache.storm.scheduler.resource.strategies.scheduling.sorter.INodeSorter)
WorkerSlot(org.apache.storm.scheduler.WorkerSlot)
RasNode(org.apache.storm.scheduler.resource.RasNode)
DNSToSwitchMapping(org.apache.storm.networktopography.DNSToSwitchMapping)
Topologies(org.apache.storm.scheduler.Topologies)
List(java.util.List)
ArrayList(java.util.ArrayList)
LinkedList(java.util.LinkedList)
SupervisorDetails(org.apache.storm.scheduler.SupervisorDetails)
Cluster(org.apache.storm.scheduler.Cluster)
INimbus(org.apache.storm.scheduler.INimbus)
TopologyDetails(org.apache.storm.scheduler.TopologyDetails)
LinkedList(java.util.LinkedList)
SchedulerAssignment(org.apache.storm.scheduler.SchedulerAssignment)
Map(java.util.Map)
HashMap(java.util.HashMap)
Test(org.junit.jupiter.api.Test)
ParameterizedTest(org.junit.jupiter.params.ParameterizedTest)
Aggregations
NodeSorterHostProximity (org.apache.storm.scheduler.resource.strategies.scheduling.sorter.NodeSorterHostProximity)3
ArrayList (java.util.ArrayList)2
HashMap (java.util.HashMap)2
HashSet (java.util.HashSet)2
LinkedList (java.util.LinkedList)2
List (java.util.List)2
Map (java.util.Map)2
Config (org.apache.storm.Config)2
StormMetricsRegistry (org.apache.storm.metric.StormMetricsRegistry)2
DNSToSwitchMapping (org.apache.storm.networktopography.DNSToSwitchMapping)2
Cluster (org.apache.storm.scheduler.Cluster)2
ExecutorDetails (org.apache.storm.scheduler.ExecutorDetails)2
INimbus (org.apache.storm.scheduler.INimbus)2
SchedulerAssignment (org.apache.storm.scheduler.SchedulerAssignment)2
SupervisorDetails (org.apache.storm.scheduler.SupervisorDetails)2
Topologies (org.apache.storm.scheduler.Topologies)2
TopologyDetails (org.apache.storm.scheduler.TopologyDetails)2
WorkerSlot (org.apache.storm.scheduler.WorkerSlot)2
RasNode (org.apache.storm.scheduler.resource.RasNode)2
SchedulingResult (org.apache.storm.scheduler.resource.SchedulingResult)2
