func printSingleResourceUsage(out io.Writer, resourceType api.ResourceName, quantity resource.Quantity) {
switch resourceType {
case api.ResourceCPU:
fmt.Fprintf(out, "%vm", quantity.MilliValue())
case api.ResourceMemory:
fmt.Fprintf(out, "%vMi", quantity.Value()/(1024*1024))
default:
fmt.Fprintf(out, "%v", quantity.Value())
}
}
// limitRequestRatioConstraint enforces the limit to request ratio over the specified resource
func limitRequestRatioConstraint(limitType api.LimitType, resourceName api.ResourceName, enforced resource.Quantity, request api.ResourceList, limit api.ResourceList) error {
req, reqExists := request[resourceName]
lim, limExists := limit[resourceName]
observedReqValue, observedLimValue, _ := requestLimitEnforcedValues(req, lim, enforced)
if !reqExists || (observedReqValue == int64(0)) {
return fmt.Errorf("%s max limit to request ratio per %s is %s, but no request is specified or request is 0.", resourceName, limitType, enforced.String())
}
if !limExists || (observedLimValue == int64(0)) {
return fmt.Errorf("%s max limit to request ratio per %s is %s, but no limit is specified or limit is 0.", resourceName, limitType, enforced.String())
}
observedRatio := float64(observedLimValue) / float64(observedReqValue)
displayObservedRatio := observedRatio
maxLimitRequestRatio := float64(enforced.Value())
if enforced.Value() <= resource.MaxMilliValue {
observedRatio = observedRatio * 1000
maxLimitRequestRatio = float64(enforced.MilliValue())
}
if observedRatio > maxLimitRequestRatio {
return fmt.Errorf("%s max limit to request ratio per %s is %s, but provided ratio is %f.", resourceName, limitType, enforced.String(), displayObservedRatio)
}
return nil
}
// Calculates score for all pods and returns podInfo structure.
// Score is defined as cpu_sum/node_capacity + mem_sum/node_capacity.
// Pods that have bigger requirements should be processed first, thus have higher scores.
func calculatePodScore(pods []*apiv1.Pod, nodeTemplate *schedulercache.NodeInfo) []*podInfo {
podInfos := make([]*podInfo, 0, len(pods))
for _, pod := range pods {
cpuSum := resource.Quantity{}
memorySum := resource.Quantity{}
for _, container := range pod.Spec.Containers {
if request, ok := container.Resources.Requests[apiv1.ResourceCPU]; ok {
cpuSum.Add(request)
}
if request, ok := container.Resources.Requests[apiv1.ResourceMemory]; ok {
memorySum.Add(request)
}
}
score := float64(0)
if cpuAllocatable, ok := nodeTemplate.Node().Status.Allocatable[apiv1.ResourceCPU]; ok && cpuAllocatable.MilliValue() > 0 {
score += float64(cpuSum.MilliValue()) / float64(cpuAllocatable.MilliValue())
}
if memAllocatable, ok := nodeTemplate.Node().Status.Allocatable[apiv1.ResourceMemory]; ok && memAllocatable.Value() > 0 {
score += float64(memorySum.Value()) / float64(memAllocatable.Value())
}
podInfos = append(podInfos, &podInfo{
score: score,
pod: pod,
})
}
return podInfos
}
func addCpuLimit(opts []*unit.UnitOption, limit *resource.Quantity) ([]*unit.UnitOption, error) {
if limit.Value() > resource.MaxMilliValue {
return nil, fmt.Errorf("cpu limit exceeds the maximum millivalue: %v", limit.String())
}
quota := strconv.Itoa(int(limit.MilliValue()/10)) + "%"
opts = append(opts, unit.NewUnitOption("Service", "CPUQuota", quota))
return opts, nil
}
// ValidateResourceQuantityValue enforces that specified quantity is valid for specified resource
func ValidateResourceQuantityValue(resource string, value resource.Quantity, fldPath *field.Path) field.ErrorList {
allErrs := field.ErrorList{}
allErrs = append(allErrs, ValidateNonnegativeQuantity(value, fldPath)...)
if api.IsIntegerResourceName(resource) {
if value.MilliValue()%int64(1000) != int64(0) {
allErrs = append(allErrs, field.Invalid(fldPath, value, isNotIntegerErrorMsg))
}
}
return allErrs
}
func printSingleResourceUsage(out io.Writer, resourceType v1.ResourceName, quantity resource.Quantity) {
switch resourceType {
case v1.ResourceCPU:
fmt.Fprintf(out, "%vm", quantity.MilliValue())
case v1.ResourceMemory:
fmt.Fprintf(out, "%vMi", quantity.Value()/(1024*1024))
case v1.ResourceStorage:
// TODO: Change it after storage metrics collection is finished.
fmt.Fprint(out, "-")
default:
fmt.Fprintf(out, "%v", quantity.Value())
}
}
// requestLimitEnforcedValues returns the specified values at a common precision to support comparability
func requestLimitEnforcedValues(requestQuantity, limitQuantity, enforcedQuantity resource.Quantity) (request, limit, enforced int64) {
request = requestQuantity.Value()
limit = limitQuantity.Value()
enforced = enforcedQuantity.Value()
// do a more precise comparison if possible (if the value won't overflow)
if request <= resource.MaxMilliValue && limit <= resource.MaxMilliValue && enforced <= resource.MaxMilliValue {
request = requestQuantity.MilliValue()
limit = limitQuantity.MilliValue()
enforced = enforcedQuantity.MilliValue()
}
return
}
// convertResourceCPUTOString converts cpu value to the format of divisor and returns
// ceiling of the value.
func convertResourceCPUToString(cpu *resource.Quantity, divisor resource.Quantity) (string, error) {
c := int64(math.Ceil(float64(cpu.MilliValue()) / float64(divisor.MilliValue())))
return strconv.FormatInt(c, 10), nil
}
func NewCPUShares(q resource.Quantity) CPUShares {
return CPUShares(float64(q.MilliValue()) / 1000.0)
}
