@Override public void execute() { globalTickExecution = Monitor.getInstance().getGlobalTicks(); // remove the app from the request- queue??? if (app.getOriginalRequest() != null) { RequestGenerator.getInstance().removeRequestFromQueue(app.getOriginalRequest()); } selectedVm.createApp(this.app); }
@Override public boolean evaluate() { if (curInstance == null) { curInstance = createInstance(0, selectedVm); // create a Instance with the past values } if (app.getSuspendedTicks() > 0 || app.getVm().getSuspendedTicks() > 0 || app.getVm().getPm().getSuspendedTicks() > 0) { return false; } else if (waitForEvaluation > 0) { waitForEvaluation--; return false; } else { // System.out.println("APP - Running Ticks: " + app.getRunningTicks()); LinkedList<Integer> cpuusagehist = selectedVm.getPm().getCpuUsageHistory(10); LinkedList<Integer> memusagehist = selectedVm.getPm().getMemoryUsageHistory(10); LinkedList<Integer> storageusagehist = selectedVm.getPm().getStorageUsageHistory(10); double evaluation = (255 - calculateUsageRatio(cpuusagehist, 85) - calculateUsageRatio(memusagehist, 85) - calculateUsageRatio(storageusagehist, 85)) / 255; // subtract SLA Violations evaluation -= (app.getCpuSlaErrorcount() + app.getMemorySlaErrorcount() + app.getStorageSlaErrorcount()) / 10; // minimum of 0 // evaluation = Math.max(0, evaluation); Monitor.getInstance().logExecution(app, this, evaluation, this.globalTickExecution); curInstance.setValue(getKnowledgeBase().attribute(63), evaluation); this.setLocalEvaluation(evaluation); getKnowledgeBase().add(curInstance); } return true; }
// create an instance in the format of CreateAppInsertIntoVm.arff // eval can either be a Instance - MissingValue or the evaluation value private Instance createInstance(double eval, VirtualMachine vm) { Instance instance = new Instance(64); LinkedList<Integer> cpuallhist = vm.getCpuAllocationHistory(10); LinkedList<Integer> cpuusehist = vm.getCpuUsageHistory(10); LinkedList<Integer> memallhist = vm.getMemoryAllocationHistory(10); LinkedList<Integer> memusehist = vm.getMemoryUsageHistory(10); LinkedList<Integer> storageallhist = vm.getStorageAllocationHistory(10); LinkedList<Integer> storageusehist = vm.getStorageUsageHistory(10); // CPU/Memory/Storage - Allocation history before the new vm was created for (int i = 0; i < 10; i++) { // cpu allocation instance.setValue(getKnowledgeBase().attribute(i), clusterValue(cpuallhist.get(i))); // cpu usage instance.setValue(getKnowledgeBase().attribute(i + 10), clusterValue(cpuusehist.get(i))); // memory allocation instance.setValue(getKnowledgeBase().attribute(i + 20), clusterValue(memallhist.get(i))); // memory usage instance.setValue(getKnowledgeBase().attribute(i + 30), clusterValue(memusehist.get(i))); // storage allocation instance.setValue(getKnowledgeBase().attribute(i + 40), clusterValue(storageallhist.get(i))); // storage usage instance.setValue(getKnowledgeBase().attribute(i + 50), clusterValue(storageusehist.get(i))); } // SLAs // CPU instance.setValue(getKnowledgeBase().attribute(60), clusterValue(app.getCpu())); // Memory instance.setValue(getKnowledgeBase().attribute(61), clusterValue(app.getMemory())); // Storage instance.setValue(getKnowledgeBase().attribute(62), clusterValue(app.getStorage())); // Evaluation instance.setValue(getKnowledgeBase().attribute(63), eval); return instance; }
// calculate if an App fits to a pm // TODO: gst: use WEKA to calc fit factor!! private int calculateFit(App app2, VirtualMachine vm) { int output = 0; if (Action.isOnlyLearning() == false && CreateAppInsertIntoVm.evaluation != null) { // is free space available in the VM if (app2.getCpu() + vm.getCurrentCpuUsage() < vm.getCurrentCpuAllocation() && app2.getMemory() + vm.getCurrentMemoryUsage() < vm.getCurrentMemoryAllocation() && app2.getStorage() + vm.getCurrentStorageUsage() < vm.getCurrentCpuAllocation()) { Instance instance = createInstance(Instance.missingValue(), vm); instance.setDataset(CreateAppInsertIntoVm.getKnowledgeBase()); try { output = (int) (evaluation.evaluateModelOnce(classifier, instance) * 100); } catch (Exception e) { e.printStackTrace(); } } } else { if (app2.getCpu() + vm.getCurrentCpuUsage() < vm.getCurrentCpuAllocation() && app2.getMemory() + vm.getCurrentMemoryUsage() < vm.getCurrentMemoryAllocation() && app2.getStorage() + vm.getCurrentStorageUsage() < vm.getCurrentCpuAllocation()) { output = randomData.nextInt(1, 100); } } return output; }