// Calculate the resource occupancy on a node. 'node' has information about the resources on the node.
// 'pods' is a list of pods currently scheduled on the node.
func calculateResourceOccupancy(pod *api.Pod, node api.Node, nodeInfo *schedulercache.NodeInfo) schedulerapi.HostPriority {
totalMilliCPU := nodeInfo.NonZeroRequest().MilliCPU
totalMemory := nodeInfo.NonZeroRequest().Memory
capacityMilliCPU := node.Status.Allocatable.Cpu().MilliValue()
capacityMemory := node.Status.Allocatable.Memory().Value()
// Add the resources requested by the current pod being scheduled.
// This also helps differentiate between differently sized, but empty, nodes.
for _, container := range pod.Spec.Containers {
cpu, memory := priorityutil.GetNonzeroRequests(&container.Resources.Requests)
totalMilliCPU += cpu
totalMemory += memory
}
cpuScore := calculateScore(totalMilliCPU, capacityMilliCPU, node.Name)
memoryScore := calculateScore(totalMemory, capacityMemory, node.Name)
glog.V(10).Infof(
"%v -> %v: Least Requested Priority, capacity %d millicores %d memory bytes, total request %d millicores %d memory bytes, score %d CPU %d memory",
pod.Name, node.Name,
capacityMilliCPU, capacityMemory,
totalMilliCPU, totalMemory,
cpuScore, memoryScore,
)
return schedulerapi.HostPriority{
Host: node.Name,
Score: int((cpuScore + memoryScore) / 2),
}
}
// Calculates host priority based on the amount of unused resources.
// 'node' has information about the resources on the node.
// 'pods' is a list of pods currently scheduled on the node.
// TODO: Use Node() from nodeInfo instead of passing it.
func calculateUnusedPriority(pod *api.Pod, podRequests *schedulercache.Resource, node *api.Node, nodeInfo *schedulercache.NodeInfo) schedulerapi.HostPriority {
allocatableResources := nodeInfo.AllocatableResource()
totalResources := *podRequests
totalResources.MilliCPU += nodeInfo.NonZeroRequest().MilliCPU
totalResources.Memory += nodeInfo.NonZeroRequest().Memory
cpuScore := calculateUnusedScore(totalResources.MilliCPU, allocatableResources.MilliCPU, node.Name)
memoryScore := calculateUnusedScore(totalResources.Memory, allocatableResources.Memory, node.Name)
if glog.V(10) {
// We explicitly don't do glog.V(10).Infof() to avoid computing all the parameters if this is
// not logged. There is visible performance gain from it.
glog.V(10).Infof(
"%v -> %v: Least Requested Priority, capacity %d millicores %d memory bytes, total request %d millicores %d memory bytes, score %d CPU %d memory",
pod.Name, node.Name,
allocatableResources.MilliCPU, allocatableResources.Memory,
totalResources.MilliCPU, totalResources.Memory,
cpuScore, memoryScore,
)
}
return schedulerapi.HostPriority{
Host: node.Name,
Score: int((cpuScore + memoryScore) / 2),
}
}
func calculateBalancedResourceAllocation(pod *api.Pod, podRequests *schedulercache.Resource, nodeInfo *schedulercache.NodeInfo) (schedulerapi.HostPriority, error) {
node := nodeInfo.Node()
if node == nil {
return schedulerapi.HostPriority{}, fmt.Errorf("node not found")
}
allocatableResources := nodeInfo.AllocatableResource()
totalResources := *podRequests
totalResources.MilliCPU += nodeInfo.NonZeroRequest().MilliCPU
totalResources.Memory += nodeInfo.NonZeroRequest().Memory
cpuFraction := fractionOfCapacity(totalResources.MilliCPU, allocatableResources.MilliCPU)
memoryFraction := fractionOfCapacity(totalResources.Memory, allocatableResources.Memory)
score := int(0)
if cpuFraction >= 1 || memoryFraction >= 1 {
// if requested >= capacity, the corresponding host should never be preferred.
score = 0
} else {
// Upper and lower boundary of difference between cpuFraction and memoryFraction are -1 and 1
// respectively. Multilying the absolute value of the difference by 10 scales the value to
// 0-10 with 0 representing well balanced allocation and 10 poorly balanced. Subtracting it from
// 10 leads to the score which also scales from 0 to 10 while 10 representing well balanced.
diff := math.Abs(cpuFraction - memoryFraction)
score = int(10 - diff*10)
}
if glog.V(10) {
// We explicitly don't do glog.V(10).Infof() to avoid computing all the parameters if this is
// not logged. There is visible performance gain from it.
glog.V(10).Infof(
"%v -> %v: Balanced Resource Allocation, capacity %d millicores %d memory bytes, total request %d millicores %d memory bytes, score %d",
pod.Name, node.Name,
allocatableResources.MilliCPU, allocatableResources.Memory,
totalResources.MilliCPU, totalResources.Memory,
score,
)
}
return schedulerapi.HostPriority{
Host: node.Name,
Score: score,
}, nil
}
// TODO: Use Node() from nodeInfo instead of passing it.
func calculateBalancedResourceAllocation(pod *api.Pod, node *api.Node, nodeInfo *schedulercache.NodeInfo) schedulerapi.HostPriority {
totalMilliCPU := nodeInfo.NonZeroRequest().MilliCPU
totalMemory := nodeInfo.NonZeroRequest().Memory
score := int(0)
// Add the resources requested by the current pod being scheduled.
// This also helps differentiate between differently sized, but empty, nodes.
for i := range pod.Spec.Containers {
container := &pod.Spec.Containers[i]
cpu, memory := priorityutil.GetNonzeroRequests(&container.Resources.Requests)
totalMilliCPU += cpu
totalMemory += memory
}
capacityMilliCPU := node.Status.Allocatable.Cpu().MilliValue()
capacityMemory := node.Status.Allocatable.Memory().Value()
cpuFraction := fractionOfCapacity(totalMilliCPU, capacityMilliCPU)
memoryFraction := fractionOfCapacity(totalMemory, capacityMemory)
if cpuFraction >= 1 || memoryFraction >= 1 {
// if requested >= capacity, the corresponding host should never be preferrred.
score = 0
} else {
// Upper and lower boundary of difference between cpuFraction and memoryFraction are -1 and 1
// respectively. Multilying the absolute value of the difference by 10 scales the value to
// 0-10 with 0 representing well balanced allocation and 10 poorly balanced. Subtracting it from
// 10 leads to the score which also scales from 0 to 10 while 10 representing well balanced.
diff := math.Abs(cpuFraction - memoryFraction)
score = int(10 - diff*10)
}
glog.V(10).Infof(
"%v -> %v: Balanced Resource Allocation, capacity %d millicores %d memory bytes, total request %d millicores %d memory bytes, score %d",
pod.Name, node.Name,
capacityMilliCPU, capacityMemory,
totalMilliCPU, totalMemory,
score,
)
return schedulerapi.HostPriority{
Host: node.Name,
Score: score,
}
}
