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ff21c258e07e4a87fb9340de2d8aab208bc0baf6
kubernetes/prod/node-balancer/main.2
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allard ff21c258e0 eindelijk weer eens een push
2026-05-31 16:07:30 +02:00

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package main
import (
"context"
"fmt"
"log"
"os"
"strconv"
"time"
corev1 "k8s.io/api/core/v1"
metav1 "k8s.io/apimachinery/pkg/apis/meta/v1"
"k8s.io/client-go/kubernetes"
"k8s.io/client-go/rest"
metricsv "k8s.io/metrics/pkg/client/clientset/versioned"
)
var (
CPUOverloadThreshold int64
MemoryOverloadThreshold int64
CPUUnderloadThreshold int64
MemoryUnderloadThreshold int64
)
func getEnvInt64(name string, defaultVal int64) int64 {
valStr := os.Getenv(name)
if valStr == "" {
return defaultVal
}
val, err := strconv.ParseInt(valStr, 10, 64)
if err != nil {
log.Printf("Invalid %s: %s, using default %d", name, valStr, defaultVal)
return defaultVal
}
return val
}
func init() {
CPUOverloadThreshold = getEnvInt64("CPU_OVERLOAD_THRESHOLD", 80)
MemoryOverloadThreshold = getEnvInt64("MEMORY_OVERLOAD_THRESHOLD", 80)
CPUUnderloadThreshold = getEnvInt64("CPU_UNDERLOAD_THRESHOLD", 50)
MemoryUnderloadThreshold = getEnvInt64("MEMORY_UNDERLOAD_THRESHOLD", 50)
}
func main() {
config, err := rest.InClusterConfig()
if err != nil {
log.Fatal(err)
}
clientset, err := kubernetes.NewForConfig(config)
if err != nil {
log.Fatal(err)
}
metricsClient, err := metricsv.NewForConfig(config)
if err != nil {
log.Fatal(err)
}
for {
balanceNodes(clientset, metricsClient)
time.Sleep(2 * time.Minute)
}
}
func balanceNodes(clientset *kubernetes.Clientset, metricsClient *metricsv.Clientset) {
ctx := context.Background()
// Get node metrics
nodeMetricsList, err := metricsClient.MetricsV1beta1().NodeMetricses().List(ctx, metav1.ListOptions{})
if err != nil {
log.Println("Failed to get node metrics:", err)
return
}
nodeUsage := make(map[string]map[string]int64)
for _, m := range nodeMetricsList.Items {
nodeUsage[m.Name] = map[string]int64{
"cpu": m.Usage.Cpu().MilliValue(),
"mem": m.Usage.Memory().Value() / (1024 * 1024), // MiB
}
}
// Get node capacity
nodes, err := clientset.CoreV1().Nodes().List(ctx, metav1.ListOptions{})
if err != nil {
log.Println("Failed to list nodes:", err)
return
}
nodeCapacity := make(map[string]map[string]int64)
for _, n := range nodes.Items {
nodeCapacity[n.Name] = map[string]int64{
"cpu": n.Status.Capacity.Cpu().MilliValue(),
"mem": n.Status.Capacity.Memory().Value() / (1024 * 1024),
}
}
// Identify overloaded and underloaded nodes
var overloaded, underloaded []string
for node, usage := range nodeUsage {
cpuPercent := usage["cpu"] * 100 / nodeCapacity[node]["cpu"]
memPercent := usage["mem"] * 100 / nodeCapacity[node]["mem"]
if cpuPercent > CPUOverloadThreshold || memPercent > MemoryOverloadThreshold {
overloaded = append(overloaded, node)
} else if cpuPercent < CPUUnderloadThreshold && memPercent < MemoryUnderloadThreshold {
underloaded = append(underloaded, node)
}
}
// ORIGINAL LOGGING preserved
fmt.Println("Overloaded nodes:", overloaded)
fmt.Println("Underloaded nodes:", underloaded)
if len(overloaded) == 0 || len(underloaded) == 0 {
return
}
// Evict exactly ONE pod, then return
for _, node := range overloaded {
pods, err := clientset.CoreV1().Pods("").List(ctx, metav1.ListOptions{
FieldSelector: fmt.Sprintf("spec.nodeName=%s", node),
})
if err != nil {
log.Println("Failed to list pods for node", node, err)
continue
}
for _, pod := range pods.Items {
if pod.Namespace == "kube-system" || isDaemonSet(&pod) {
continue
}
targetNode := pickTargetNode(underloaded, nodeUsage, nodeCapacity)
if targetNode == "" {
log.Println("No suitable underloaded node available")
return
}
// ORIGINAL LOGGING preserved
fmt.Printf(
"Rescheduling pod %s/%s from %s to %s\n",
pod.Namespace,
pod.Name,
node,
targetNode,
)
grace := int64(0)
err = clientset.CoreV1().Pods(pod.Namespace).Delete(ctx, pod.Name, metav1.DeleteOptions{
GracePeriodSeconds: &grace,
})
if err != nil {
log.Println("Failed to delete pod", pod.Name, err)
return
}
// Update in-memory usage
nodeUsage[node]["cpu"] -= estimatePodCPU(&pod)
nodeUsage[node]["mem"] -= estimatePodMem(&pod)
nodeUsage[targetNode]["cpu"] += estimatePodCPU(&pod)
nodeUsage[targetNode]["mem"] += estimatePodMem(&pod)
// IMPORTANT: stop after one eviction
return
}
}
}
func isDaemonSet(pod *corev1.Pod) bool {
for _, owner := range pod.OwnerReferences {
if owner.Kind == "DaemonSet" {
return true
}
}
return false
}
// pickTargetNode chooses the underloaded node with lowest combined CPU+Memory usage
func pickTargetNode(nodes []string, usage map[string]map[string]int64, capacity map[string]map[string]int64) string {
var bestNode string
bestLoad := int64(1 << 62) // very high
for _, n := range nodes {
cpuPercent := usage[n]["cpu"] * 100 / capacity[n]["cpu"]
memPercent := usage[n]["mem"] * 100 / capacity[n]["mem"]
load := cpuPercent + memPercent
if load < bestLoad {
bestLoad = load
bestNode = n
}
}
return bestNode
}
// estimatePodCPU/Mem returns an approximate CPU/memory usage for the pod (from requests)
func estimatePodCPU(pod *corev1.Pod) int64 {
var cpu int64
for _, c := range pod.Spec.Containers {
if q, ok := c.Resources.Requests[corev1.ResourceCPU]; ok {
cpu += q.MilliValue()
}
}
return cpu
}
func estimatePodMem(pod *corev1.Pod) int64 {
var mem int64
for _, c := range pod.Spec.Containers {
if q, ok := c.Resources.Requests[corev1.ResourceMemory]; ok {
mem += q.Value() / (1024 * 1024) // MiB
}
}
return mem
}
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