public DefaultTopologyAssignContext(TopologyAssignContext context) {
super(context);
try {
sysTopology = Common.system_topology(stormConf, rawTopology);
} catch (Exception e) {
throw new FailedAssignTopologyException("Failed to generate system topology");
}
sidToHostname = generateSidToHost();
hostToSid = JStormUtils.reverse_map(sidToHostname);
if (oldAssignment != null && oldAssignment.getWorkers() != null) {
oldWorkers = oldAssignment.getWorkers();
} else {
oldWorkers = new HashSet<ResourceWorkerSlot>();
}
refineDeadTasks();
componentTasks = JStormUtils.reverse_map(context.getTaskToComponent());
for (Entry<String, List<Integer>> entry : componentTasks.entrySet()) {
List<Integer> componentTaskList = entry.getValue();
Collections.sort(componentTaskList);
}
totalWorkerNum = computeWorkerNum();
unstoppedWorkerNum = computeUnstoppedAssignments();
}
private static Set<ResourceWorkerSlot> mkLocalAssignment(TopologyAssignContext context) {
Set<ResourceWorkerSlot> result = new HashSet<ResourceWorkerSlot>();
Map<String, SupervisorInfo> cluster = context.getCluster();
if (cluster.size() != 1) throw new RuntimeException();
SupervisorInfo localSupervisor = null;
String supervisorId = null;
for (Entry<String, SupervisorInfo> entry : cluster.entrySet()) {
supervisorId = entry.getKey();
localSupervisor = entry.getValue();
}
int port = localSupervisor.getWorkerPorts().iterator().next();
ResourceWorkerSlot worker = new ResourceWorkerSlot(supervisorId, port);
worker.setTasks(new HashSet<Integer>(context.getAllTaskIds()));
worker.setHostname(localSupervisor.getHostName());
result.add(worker);
return result;
}
/**
* @@@ Here maybe exist one problem, some dead slots have been free
*
* @param context
*/
protected void freeUsed(TopologyAssignContext context) {
Set<Integer> canFree = new HashSet<Integer>();
canFree.addAll(context.getAllTaskIds());
canFree.removeAll(context.getUnstoppedTaskIds());
Map<String, SupervisorInfo> cluster = context.getCluster();
Map<Integer, ResourceAssignment> oldAssigns = context.getOldAssignment().getTaskToResource();
for (Integer task : canFree) {
ResourceAssignment oldAssign = oldAssigns.get(task);
if (oldAssign == null) {
LOG.warn("When free rebalance resource, no ResourceAssignment of task " + task);
continue;
}
SupervisorInfo supervisorInfo = cluster.get(oldAssign.getSupervisorId());
if (supervisorInfo == null) {
continue;
}
supervisorInfo.getCpuPool().free(oldAssign.getCpuSlotNum(), context);
supervisorInfo.getMemPool().free(oldAssign.getMemSlotNum(), context);
supervisorInfo.getDiskPool().free(oldAssign.getDiskSlot(), context);
supervisorInfo.getNetPool().free(oldAssign.getPort(), context);
}
}
/**
* @param existingAssignment
* @param taskWorkerSlot
* @return
* @throws Exception
*/
public static Map<Integer, Integer> getTaskStartTimes(
TopologyAssignContext context,
NimbusData nimbusData,
String topologyId,
Assignment existingAssignment,
Set<ResourceWorkerSlot> workers)
throws Exception {
Map<Integer, Integer> startTimes = new TreeMap<Integer, Integer>();
if (context.getAssignType() == TopologyAssignContext.ASSIGN_TYPE_NEW) {
int nowSecs = TimeUtils.current_time_secs();
for (ResourceWorkerSlot worker : workers) {
for (Integer changedTaskId : worker.getTasks()) {
startTimes.put(changedTaskId, nowSecs);
}
}
return startTimes;
}
Set<ResourceWorkerSlot> oldWorkers = new HashSet<ResourceWorkerSlot>();
if (existingAssignment != null) {
Map<Integer, Integer> taskStartTimeSecs = existingAssignment.getTaskStartTimeSecs();
if (taskStartTimeSecs != null) {
startTimes.putAll(taskStartTimeSecs);
}
if (existingAssignment.getWorkers() != null) {
oldWorkers = existingAssignment.getWorkers();
}
}
StormClusterState zkClusterState = nimbusData.getStormClusterState();
Set<Integer> changeTaskIds = getChangeTaskIds(oldWorkers, workers);
int nowSecs = TimeUtils.current_time_secs();
for (Integer changedTaskId : changeTaskIds) {
startTimes.put(changedTaskId, nowSecs);
zkClusterState.remove_task_heartbeat(topologyId, changedTaskId);
}
LOG.info("Task assignment has been changed " + changeTaskIds);
return startTimes;
}
/**
* make assignments for a topology The nimbus core function, this function has been totally
* rewrite
*
* @param nimbusData NimbusData
* @param topologyId String
* @param isScratch Boolean: isScratch is false unless rebalancing the topology
* @throws Exception
*/
public Assignment mkAssignment(TopologyAssignEvent event) throws Exception {
String topologyId = event.getTopologyId();
LOG.info("Determining assignment for " + topologyId);
TopologyAssignContext context = prepareTopologyAssign(event);
Set<ResourceWorkerSlot> assignments = null;
if (!StormConfig.local_mode(nimbusData.getConf())) {
IToplogyScheduler scheduler = schedulers.get(DEFAULT_SCHEDULER_NAME);
assignments = scheduler.assignTasks(context);
} else {
assignments = mkLocalAssignment(context);
}
Assignment assignment = null;
Map<String, String> nodeHost =
getTopologyNodeHost(context.getCluster(), context.getOldAssignment(), assignments);
Map<Integer, Integer> startTimes =
getTaskStartTimes(context, nimbusData, topologyId, context.getOldAssignment(), assignments);
String codeDir = StormConfig.masterStormdistRoot(nimbusData.getConf(), topologyId);
assignment = new Assignment(codeDir, assignments, nodeHost, startTimes);
StormClusterState stormClusterState = nimbusData.getStormClusterState();
stormClusterState.set_assignment(topologyId, assignment);
// update task heartbeat's start time
NimbusUtils.updateTaskHbStartTime(nimbusData, assignment, topologyId);
// Update metrics information in ZK when rebalance or reassignment
// Only update metrics monitor status when creating topology
if (context.getAssignType() == TopologyAssignContext.ASSIGN_TYPE_REBALANCE
|| context.getAssignType() == TopologyAssignContext.ASSIGN_TYPE_MONITOR)
NimbusUtils.updateMetricsInfo(nimbusData, topologyId, assignment);
else metricsMonitor(event);
LOG.info("Successfully make assignment for topology id " + topologyId + ": " + assignment);
return assignment;
}
protected TopologyAssignContext prepareTopologyAssign(TopologyAssignEvent event)
throws Exception {
TopologyAssignContext ret = new TopologyAssignContext();
String topologyId = event.getTopologyId();
/** 读取本地目录下的stormconf.ser和stormcode.ser */
Map<Object, Object> nimbusConf = nimbusData.getConf();
Map<Object, Object> topologyConf =
StormConfig.read_nimbus_topology_conf(nimbusConf, topologyId);
StormTopology rawTopology = StormConfig.read_nimbus_topology_code(nimbusConf, topologyId);
ret.setRawTopology(rawTopology);
Map stormConf = new HashMap();
stormConf.putAll(nimbusConf);
stormConf.putAll(topologyConf);
ret.setStormConf(stormConf);
StormClusterState stormClusterState = nimbusData.getStormClusterState();
// get all running supervisor, don't need callback to watch supervisor
/** 获取所有的运行的supervisor,以及supervisorInfo */
Map<String, SupervisorInfo> supInfos = Cluster.allSupervisorInfo(stormClusterState, null);
if (supInfos.size() == 0) {
throw new FailedAssignTopologyException(
"Failed to make assignment " + topologyId + ", due to no alive supervisor");
}
/** 获取topologyId下的所有tasks */
Map<Integer, String> taskToComponent =
Cluster.topology_task_info(stormClusterState, topologyId);
ret.setTaskToComponent(taskToComponent);
// get taskids /ZK/tasks/topologyId
Set<Integer> allTaskIds = taskToComponent.keySet();
if (allTaskIds == null || allTaskIds.size() == 0) {
String errMsg = "Failed to get all task ID list from /ZK-dir/tasks/" + topologyId;
LOG.warn(errMsg);
throw new IOException(errMsg);
}
ret.setAllTaskIds(allTaskIds);
Set<Integer> aliveTasks = new HashSet<Integer>();
// unstoppedTasks are tasks which are alive on no supervisor's(dead)
// machine
/** 未完成的任务,supervisor已死,任务没完成 */
Set<Integer> unstoppedTasks = new HashSet<Integer>();
Set<Integer> deadTasks = new HashSet<Integer>();
Set<ResourceWorkerSlot> unstoppedWorkers = new HashSet<ResourceWorkerSlot>();
Assignment existingAssignment = stormClusterState.assignment_info(topologyId, null);
if (existingAssignment != null) {
aliveTasks = getAliveTasks(topologyId, allTaskIds);
unstoppedTasks = getUnstoppedSlots(aliveTasks, supInfos, existingAssignment);
deadTasks.addAll(allTaskIds);
deadTasks.removeAll(aliveTasks);
}
ret.setDeadTaskIds(deadTasks);
ret.setUnstoppedTaskIds(unstoppedTasks);
// Step 2: get all slots resource, free slots/ alive slots/ unstopped
// slots
getFreeSlots(supInfos, stormClusterState);
ret.setCluster(supInfos);
if (existingAssignment == null) {
ret.setAssignType(TopologyAssignContext.ASSIGN_TYPE_NEW);
try {
AssignmentBak lastAssignment = stormClusterState.assignment_bak(event.getTopologyName());
if (lastAssignment != null) {
ret.setOldAssignment(lastAssignment.getAssignment());
}
} catch (Exception e) {
LOG.warn("Fail to get old assignment", e);
}
} else {
ret.setOldAssignment(existingAssignment);
if (event.isScratch()) {
ret.setAssignType(TopologyAssignContext.ASSIGN_TYPE_REBALANCE);
unstoppedWorkers = getUnstoppedWorkers(unstoppedTasks, existingAssignment);
ret.setUnstoppedWorkers(unstoppedWorkers);
} else {
ret.setAssignType(TopologyAssignContext.ASSIGN_TYPE_MONITOR);
unstoppedWorkers = getUnstoppedWorkers(aliveTasks, existingAssignment);
ret.setUnstoppedWorkers(unstoppedWorkers);
}
}
return ret;
}
@Override
public Map<Integer, ResourceAssignment> assignTasks(TopologyAssignContext context)
throws FailedAssignTopologyException {
int assignType = context.getAssignType();
if (TopologyAssignContext.isAssignTypeValid(assignType) == false) {
throw new FailedAssignTopologyException("Invalide Assign Type " + assignType);
}
DefaultTopologyAssignContext defaultContext = new DefaultTopologyAssignContext(context);
if (assignType == TopologyAssignContext.ASSIGN_TYPE_REBALANCE) {
freeUsed(defaultContext);
}
LOG.info("Dead tasks:" + defaultContext.getDeadTaskIds());
LOG.info("Unstopped tasks:" + defaultContext.getUnstoppedTaskIds());
Set<Integer> needAssignTasks = getNeedAssignTasks(defaultContext);
Map<Integer, ResourceAssignment> keepAssigns = getKeepAssign(defaultContext, needAssignTasks);
// please use tree map to make task sequence
Map<Integer, ResourceAssignment> ret = new TreeMap<Integer, ResourceAssignment>();
ret.putAll(keepAssigns);
ret.putAll(defaultContext.getUnstoppedAssignments());
Map<WorkerSlot, List<Integer>> keepAssignWorkers = Assignment.getWorkerTasks(keepAssigns);
int allocWorkerNum =
defaultContext.getTotalWorkerNum()
- defaultContext.getUnstoppedWorkerNum()
- keepAssignWorkers.size();
if (allocWorkerNum <= 0) {
LOG.warn(
"Don't need assign workers, all workers are fine " + defaultContext.toDetailString());
throw new FailedAssignTopologyException("Don't need assign worker, all workers are fine ");
}
Set<String> outputConfigComponents = new HashSet<String>();
Map<ComponentAssignType, Pair<Set<Integer>, IPreassignTask>> typeHandler =
registerPreAssignHandler(defaultContext, needAssignTasks);
Map<Integer, ResourceAssignment> newAssigns = new HashMap<Integer, ResourceAssignment>();
Set<String> usedSupervisorIds = new HashSet<String>();
List<Integer> lastFailed = new ArrayList<Integer>();
for (Entry<ComponentAssignType, Pair<Set<Integer>, IPreassignTask>> entry :
typeHandler.entrySet()) {
ComponentAssignType type = entry.getKey();
Set<Integer> tasks = entry.getValue().getFirst();
IPreassignTask handler = entry.getValue().getSecond();
tasks.addAll(lastFailed);
lastFailed.clear();
List<Integer> sortedTasks = sortAssignTasks(defaultContext, tasks);
StormTopology sysTopology = defaultContext.getSysTopology();
for (Integer task : sortedTasks) {
Set<String> canUsedSupervisorIds =
getCanUsedSupervisors(defaultContext, usedSupervisorIds, allocWorkerNum);
String componentName = defaultContext.getTaskToComponent().get(task);
ComponentCommon componentCommon =
ThriftTopologyUtils.getComponentCommon(sysTopology, componentName);
Map componentMap = (Map) JStormUtils.from_json(componentCommon.get_json_conf());
if (componentMap == null) {
componentMap = Maps.newHashMap();
}
if (outputConfigComponents.contains(componentName) == false) {
LOG.info("Component map of " + componentName + "\n" + componentMap);
outputConfigComponents.add(componentName);
}
ResourceAssignment preAssignment =
handler.preAssign(
task,
defaultContext,
componentMap,
componentName,
canUsedSupervisorIds,
ret,
newAssigns);
if (preAssignment == null) {
// pre assign fail
lastFailed.add(task);
} else {
// sucess to do preAssign
SupervisorInfo supervisorInfo =
defaultContext.getCluster().get(preAssignment.getSupervisorId());
LOG.info("Task " + task + " had been assigned to " + supervisorInfo.getHostName());
newAssigns.put(task, preAssignment);
ret.put(task, preAssignment);
usedSupervisorIds.add(preAssignment.getSupervisorId());
}
}
}
if (lastFailed.isEmpty() == false) {
throw new FailedAssignTopologyException("Failed to assign tasks " + lastFailed);
}
// Here just hardcode
IPostAssignTask postAssignHandler = new PostAssignTaskPort();
postAssignHandler.postAssign(defaultContext, newAssigns, allocWorkerNum);
LOG.info("Keep Alive slots:" + keepAssigns);
LOG.info("Unstopped slots:" + defaultContext.getUnstoppedAssignments());
LOG.info("New assign slots:" + newAssigns);
return ret;
}
