protected Protos.Resource rangeResource(String name, long begin, long end) { // For a given named resource and value, // find and return the role that matches the name and exceeds the value. // Give preference to reserved offers first (those whose roles do not match "*") List<Protos.Resource> reservedResources = new LinkedList<>(); for (Protos.Resource resource : offer.getResourcesList()) { if (resource.hasRole() && !resource.getRole().equals("*")) { reservedResources.add(resource); } } String role = "*"; for (Protos.Resource resource : reservedResources) { if (resource.getName() == name) { Protos.Value.Ranges ranges = resource.getRanges(); for (Protos.Value.Range range : ranges.getRangeList()) { if (range.getBegin() <= begin && range.getEnd() >= end) { role = resource.getRole(); break; } } } } return Protos.Resource.newBuilder() .setType(Protos.Value.Type.RANGES) .setName(name) .setRanges( Protos.Value.Ranges.newBuilder() .addRange(Protos.Value.Range.newBuilder().setBegin(begin).setEnd(end)) .build()) .setRole(role) .build(); }
protected Protos.Resource scalarResource(String name, double value) { // For a given named resource and value, // find and return the role that matches the name and exceeds the value. // Give preference to reserved offers first (those whose roles do not match "*") List<Protos.Resource> reservedResources = new LinkedList<>(); for (Protos.Resource resource : offer.getResourcesList()) { if (resource.hasRole() && !resource.getRole().equals("*")) { reservedResources.add(resource); } } String role = "*"; for (Protos.Resource resource : reservedResources) { if (resource.getName() == name && resource.getScalar().getValue() >= value) { role = resource.getRole(); break; } } return Protos.Resource.newBuilder() .setName(name) .setType(Protos.Value.Type.SCALAR) .setScalar(Protos.Value.Scalar.newBuilder().setValue(value)) .setRole(role) .build(); }
private static double getDiskFrom(Protos.Offer offer) { for (Protos.Resource resource : offer.getResourcesList()) { if (resource.getName() == "disk") { return resource.getScalar().getValue(); } } return -1; }
private static List<VirtualMachineLease.Range> getPortsFrom(Protos.Offer offer) { List<VirtualMachineLease.Range> ranges = new ArrayList<>(); for (Protos.Resource resource : offer.getResourcesList()) { if (resource.getName() == "ports") { for (Protos.Value.Range range : resource.getRanges().getRangeList()) { int beg = (int) range.getBegin(); int end = (int) range.getEnd(); VirtualMachineLease.Range vmRange = new VirtualMachineLease.Range(beg, end); ranges.add(vmRange); } } } return ranges; }
@Override public void resourceOffers(SchedulerDriver schedulerDriver, List<Protos.Offer> list) { double CPUS_PER_TASK = 1; double MEM_PER_TASK = 128; for (Protos.Offer offer : list) { List<Protos.TaskInfo> taskInfoList = new ArrayList<Protos.TaskInfo>(); double offerCpus = 0; double offerMem = 0; for (Protos.Resource resource : offer.getResourcesList()) { if (resource.getName().equals("cpus")) { offerCpus += resource.getScalar().getValue(); } else if (resource.getName().equals("mem")) { offerMem += resource.getScalar().getValue(); } } LOGGER.info( "Received Offer : " + offer.getId().getValue() + " with cpus = " + offerCpus + " and mem =" + offerMem); double remainingCpus = offerCpus; double remainingMem = offerMem; if (launchedTasks < totalTasks && remainingCpus >= CPUS_PER_TASK && remainingMem >= MEM_PER_TASK) { Protos.TaskID taskID = Protos.TaskID.newBuilder().setValue(Integer.toString(launchedTasks++)).build(); LOGGER.info( "Launching task :" + taskID.getValue() + " using the offer : " + offer.getId().getValue()); Protos.TaskInfo piTaskInfo = Protos.TaskInfo.newBuilder() .setName("task " + taskID.getValue()) .setTaskId(taskID) .setSlaveId(offer.getSlaveId()) .addResources( Protos.Resource.newBuilder() .setName("cpus") .setType(Protos.Value.Type.SCALAR) .setScalar(Protos.Value.Scalar.newBuilder().setValue(CPUS_PER_TASK))) .addResources( Protos.Resource.newBuilder() .setName("mem") .setType(Protos.Value.Type.SCALAR) .setScalar(Protos.Value.Scalar.newBuilder().setValue(MEM_PER_TASK))) .setExecutor(Protos.ExecutorInfo.newBuilder(piExecutor)) .build(); taskID = Protos.TaskID.newBuilder().setValue(Integer.toString(launchedTasks++)).build(); LOGGER.info( "Launching task :" + taskID.getValue() + " using the offer : " + offer.getId().getValue()); taskInfoList.add(piTaskInfo); } schedulerDriver.launchTasks(offer.getId(), taskInfoList); } }
@Override public void resourceOffers(SchedulerDriver driver, List<Protos.Offer> offers) { long masterCpu = Configuration.getInt(PropertyKey.INTEGRATION_MASTER_RESOURCE_CPU); long masterMem = Configuration.getBytes(PropertyKey.INTEGRATION_MASTER_RESOURCE_MEM) / Constants.MB; long workerCpu = Configuration.getInt(PropertyKey.INTEGRATION_WORKER_RESOURCE_CPU); long workerMem = Configuration.getBytes(PropertyKey.INTEGRATION_WORKER_RESOURCE_MEM) / Constants.MB; LOG.info( "Master launched {}, master count {}, " + "requested master cpu {} mem {} MB and required master hostname {}", mMasterLaunched, mMasterCount, masterCpu, masterMem, mRequiredMasterHostname); for (Protos.Offer offer : offers) { Protos.Offer.Operation.Launch.Builder launch = Protos.Offer.Operation.Launch.newBuilder(); double offerCpu = 0; double offerMem = 0; for (Protos.Resource resource : offer.getResourcesList()) { if (resource.getName().equals(Constants.MESOS_RESOURCE_CPUS)) { offerCpu += resource.getScalar().getValue(); } else if (resource.getName().equals(Constants.MESOS_RESOURCE_MEM)) { offerMem += resource.getScalar().getValue(); } else { // Other resources are currently ignored. } } LOG.info( "Received offer {} on host {} with cpus {} and mem {} MB and hasMasterPorts {}", offer.getId().getValue(), offer.getHostname(), offerCpu, offerMem, OfferUtils.hasAvailableMasterPorts(offer)); Protos.ExecutorInfo.Builder executorBuilder = Protos.ExecutorInfo.newBuilder(); List<Protos.Resource> resources; if (!mMasterLaunched && offerCpu >= masterCpu && offerMem >= masterMem && mMasterCount < Configuration.getInt(PropertyKey.INTEGRATION_MESOS_ALLUXIO_MASTER_NODE_COUNT) && OfferUtils.hasAvailableMasterPorts(offer) && (mRequiredMasterHostname == null || mRequiredMasterHostname.equals(offer.getHostname()))) { LOG.debug("Creating Alluxio Master executor"); executorBuilder .setName("Alluxio Master Executor") .setSource("master") .setExecutorId(Protos.ExecutorID.newBuilder().setValue("master")) .addAllResources(getExecutorResources()) .setCommand( Protos.CommandInfo.newBuilder() .setValue(createStartAlluxioCommand("alluxio-master-mesos.sh")) .addAllUris(getExecutorDependencyURIList()) .setEnvironment( Protos.Environment.newBuilder() .addVariables( Protos.Environment.Variable.newBuilder() .setName("ALLUXIO_UNDERFS_ADDRESS") .setValue(Configuration.get(PropertyKey.UNDERFS_ADDRESS)) .build()) .build())); // pre-build resource list here, then use it to build Protos.Task later. resources = getMasterRequiredResources(masterCpu, masterMem); mMasterHostname = offer.getHostname(); mTaskName = Configuration.get(PropertyKey.INTEGRATION_MESOS_ALLUXIO_MASTER_NAME); mMasterCount++; mMasterTaskId = mLaunchedTasks; } else if (mMasterLaunched && !mWorkers.contains(offer.getHostname()) && offerCpu >= workerCpu && offerMem >= workerMem && OfferUtils.hasAvailableWorkerPorts(offer)) { LOG.debug("Creating Alluxio Worker executor"); final String memSize = FormatUtils.getSizeFromBytes((long) workerMem * Constants.MB); executorBuilder .setName("Alluxio Worker Executor") .setSource("worker") .setExecutorId(Protos.ExecutorID.newBuilder().setValue("worker")) .addAllResources(getExecutorResources()) .setCommand( Protos.CommandInfo.newBuilder() .setValue(createStartAlluxioCommand("alluxio-worker-mesos.sh")) .addAllUris(getExecutorDependencyURIList()) .setEnvironment( Protos.Environment.newBuilder() .addVariables( Protos.Environment.Variable.newBuilder() .setName("ALLUXIO_MASTER_HOSTNAME") .setValue(mMasterHostname) .build()) .addVariables( Protos.Environment.Variable.newBuilder() .setName("ALLUXIO_WORKER_MEMORY_SIZE") .setValue(memSize) .build()) .addVariables( Protos.Environment.Variable.newBuilder() .setName("ALLUXIO_UNDERFS_ADDRESS") .setValue(Configuration.get(PropertyKey.UNDERFS_ADDRESS)) .build()) .build())); // pre-build resource list here, then use it to build Protos.Task later. resources = getWorkerRequiredResources(workerCpu, workerMem); mWorkers.add(offer.getHostname()); mTaskName = Configuration.get(PropertyKey.INTEGRATION_MESOS_ALLUXIO_WORKER_NAME); } else { // The resource offer cannot be used to start either master or a worker. LOG.info("Declining offer {}", offer.getId().getValue()); driver.declineOffer(offer.getId()); continue; } Protos.TaskID taskId = Protos.TaskID.newBuilder().setValue(String.valueOf(mLaunchedTasks)).build(); LOG.info("Launching task {} using offer {}", taskId.getValue(), offer.getId().getValue()); Protos.TaskInfo task = Protos.TaskInfo.newBuilder() .setName(mTaskName) .setTaskId(taskId) .setSlaveId(offer.getSlaveId()) .addAllResources(resources) .setExecutor(executorBuilder) .build(); launch.addTaskInfos(Protos.TaskInfo.newBuilder(task)); mLaunchedTasks++; // NOTE: We use the new API `acceptOffers` here to launch tasks. // The 'launchTasks' API will be deprecated. List<Protos.OfferID> offerIds = new ArrayList<Protos.OfferID>(); offerIds.add(offer.getId()); List<Protos.Offer.Operation> operations = new ArrayList<Protos.Offer.Operation>(); Protos.Offer.Operation operation = Protos.Offer.Operation.newBuilder() .setType(Protos.Offer.Operation.Type.LAUNCH) .setLaunch(launch) .build(); operations.add(operation); Protos.Filters filters = Protos.Filters.newBuilder().setRefuseSeconds(1).build(); driver.acceptOffers(offerIds, operations, filters); } }