Exemplo n.º 1
0
func (r *SimulationRep) Perform(work rep.Work) (rep.Work, error) {
	r.lock.Lock()
	defer r.lock.Unlock()

	failedWork := rep.Work{}

	availableResources := r.availableResources()

	for _, start := range work.LRPs {
		hasRoom := availableResources.Containers >= 0
		hasRoom = hasRoom && availableResources.MemoryMB >= start.MemoryMB
		hasRoom = hasRoom && availableResources.DiskMB >= start.DiskMB

		if hasRoom {
			r.lrps[start.Identifier()] = start

			availableResources.Containers -= 1
			if start.Domain == "auction" {
				r.startingContainerCount++
			}
			availableResources.MemoryMB -= start.MemoryMB
			availableResources.DiskMB -= start.DiskMB
		} else {
			failedWork.LRPs = append(failedWork.LRPs, start)
		}
	}

	for _, task := range work.Tasks {
		hasRoom := availableResources.Containers >= 0
		hasRoom = hasRoom && availableResources.MemoryMB >= task.MemoryMB
		hasRoom = hasRoom && availableResources.DiskMB >= task.DiskMB

		if hasRoom {
			r.tasks[task.TaskGuid] = task

			availableResources.Containers -= 1
			if task.Domain == "auction" {
				r.startingContainerCount++
			}
			availableResources.MemoryMB -= task.MemoryMB
			availableResources.DiskMB -= task.DiskMB
		} else {
			failedWork.Tasks = append(failedWork.Tasks, task)
		}
	}

	return failedWork, nil
}
Exemplo n.º 2
0
func (a *AuctionCellRep) Perform(work rep.Work) (rep.Work, error) {
	var failedWork = rep.Work{}

	logger := a.logger.Session("auction-work", lager.Data{
		"lrp-starts": len(work.LRPs),
		"tasks":      len(work.Tasks),
	})

	if a.evacuationReporter.Evacuating() {
		return work, nil
	}

	if len(work.LRPs) > 0 {
		lrpLogger := logger.Session("lrp-allocate-instances")

		requests, lrpMap, untranslatedLRPs := a.lrpsToAllocationRequest(work.LRPs)
		if len(untranslatedLRPs) > 0 {
			lrpLogger.Info("failed-to-translate-lrps-to-containers", lager.Data{"num-failed-to-translate": len(untranslatedLRPs)})
			failedWork.LRPs = untranslatedLRPs
		}

		lrpLogger.Info("requesting-container-allocation", lager.Data{"num-requesting-allocation": len(requests)})
		failures, err := a.client.AllocateContainers(requests)
		if err != nil {
			lrpLogger.Error("failed-requesting-container-allocation", err)
			failedWork.LRPs = work.LRPs
		} else {
			lrpLogger.Info("succeeded-requesting-container-allocation", lager.Data{"num-failed-to-allocate": len(failures)})
			for i := range failures {
				failure := &failures[i]
				lrpLogger.Error("container-allocation-failure", failure, lager.Data{"failed-request": &failure.AllocationRequest})
				if lrp, found := lrpMap[failure.Guid]; found {
					failedWork.LRPs = append(failedWork.LRPs, *lrp)
				}
			}
		}
	}

	if len(work.Tasks) > 0 {
		taskLogger := logger.Session("task-allocate-instances")

		requests, taskMap, failedTasks := a.tasksToAllocationRequests(work.Tasks)
		if len(failedTasks) > 0 {
			taskLogger.Info("failed-to-translate-tasks-to-containers", lager.Data{"num-failed-to-translate": len(failedTasks)})
			failedWork.Tasks = failedTasks
		}

		taskLogger.Info("requesting-container-allocation", lager.Data{"num-requesting-allocation": len(requests)})
		failures, err := a.client.AllocateContainers(requests)
		if err != nil {
			taskLogger.Error("failed-requesting-container-allocation", err)
			failedWork.Tasks = work.Tasks
		} else {
			taskLogger.Info("succeeded-requesting-container-allocation", lager.Data{"num-failed-to-allocate": len(failures)})
			for i := range failures {
				failure := &failures[i]
				taskLogger.Error("container-allocation-failure", failure, lager.Data{"failed-request": &failure.AllocationRequest})
				if task, found := taskMap[failure.Guid]; found {
					failedWork.Tasks = append(failedWork.Tasks, *task)
				}
			}
		}
	}

	return failedWork, nil
}