func CheckPodsExceedingCapacity(pods []*api.Pod, capacity api.ResourceList) (fitting []*api.Pod, notFitting []*api.Pod) {
totalMilliCPU := capacity.Cpu().MilliValue()
totalMemory := capacity.Memory().Value()
milliCPURequested := int64(0)
memoryRequested := int64(0)
for _, pod := range pods {
podRequest := getResourceRequest(pod)
fitsCPU := totalMilliCPU == 0 || (totalMilliCPU-milliCPURequested) >= podRequest.milliCPU
fitsMemory := totalMemory == 0 || (totalMemory-memoryRequested) >= podRequest.memory
if !fitsCPU || !fitsMemory {
// the pod doesn't fit
notFitting = append(notFitting, pod)
continue
}
// the pod fits
milliCPURequested += podRequest.milliCPU
memoryRequested += podRequest.memory
fitting = append(fitting, pod)
}
return
}
// TODO: Consider setting default as a fixed fraction of machine capacity (take "capacity api.ResourceList"
// as an additional argument here) rather than using constants
func getNonzeroLimits(limits *api.ResourceList) (int64, int64) {
var out_millicpu, out_memory int64
// Override if un-set, but not if explicitly set to zero
if (*limits.Cpu() == resource.Quantity{}) {
out_millicpu = defaultMilliCpuLimit
} else {
out_millicpu = limits.Cpu().MilliValue()
}
// Override if un-set, but not if explicitly set to zero
if (*limits.Memory() == resource.Quantity{}) {
out_memory = defaultMemoryLimit
} else {
out_memory = limits.Memory().Value()
}
return out_millicpu, out_memory
}
// TODO(vmarmol): Add limits to the system containers.
// Takes the absolute name of the specified containers.
// Empty container name disables use of the specified container.
func newContainerManager(cadvisorInterface cadvisor.Interface, dockerDaemonContainerName, systemContainerName, kubeletContainerName string) (containerManager, error) {
systemContainers := []*systemContainer{}
if dockerDaemonContainerName != "" {
cont := newSystemContainer(dockerDaemonContainerName)
info, err := cadvisorInterface.MachineInfo()
var capacity = api.ResourceList{}
if err != nil {
} else {
capacity = CapacityFromMachineInfo(info)
}
memoryLimit := (int64(capacity.Memory().Value() * DockerMemoryLimitThresholdPercent / 100))
if memoryLimit < MinDockerMemoryLimit {
glog.Warningf("Memory limit %d for container %s is too small, reset it to %d", memoryLimit, dockerDaemonContainerName, MinDockerMemoryLimit)
memoryLimit = MinDockerMemoryLimit
}
glog.V(2).Infof("Configure resource-only container %s with memory limit: %d", dockerDaemonContainerName, memoryLimit)
dockerContainer := &fs.Manager{
Cgroups: &configs.Cgroup{
Name: dockerDaemonContainerName,
Memory: memoryLimit,
MemorySwap: -1,
AllowAllDevices: true,
},
}
cont.ensureStateFunc = func(manager *fs.Manager) error {
return ensureDockerInContainer(cadvisorInterface, -900, dockerContainer)
}
systemContainers = append(systemContainers, cont)
}
if systemContainerName != "" {
if systemContainerName == "/" {
return nil, fmt.Errorf("system container cannot be root (\"/\")")
}
rootContainer := &fs.Manager{
Cgroups: &configs.Cgroup{
Name: "/",
},
}
manager := createManager(systemContainerName)
err := ensureSystemContainer(rootContainer, manager)
if err != nil {
return nil, err
}
systemContainers = append(systemContainers, newSystemContainer(systemContainerName))
}
if kubeletContainerName != "" {
systemContainers = append(systemContainers, newSystemContainer(kubeletContainerName))
}
// TODO(vmarmol): Add Kube-proxy container.
return &containerManagerImpl{
systemContainers: systemContainers,
}, nil
}
