// This test verifies that two nodes, which can't connect using the local network, are // able to still connect using the node-external-ip. In real life, node-external-ip // would be a public IP. In the test, we create two networks, one sets the node // internal-ip and the other sets the node-external-ip. Traffic is blocked on the former package externalip import ( "flag" "fmt" "os" "strings" "testing" "github.com/k3s-io/k3s/tests/e2e" . "github.com/onsi/ginkgo/v2" . "github.com/onsi/gomega" ) // Valid nodeOS: generic/ubuntu2204, opensuse/Leap-15.3.x86_64 var nodeOS = flag.String("nodeOS", "generic/ubuntu2204", "VM operating system") var serverCount = flag.Int("serverCount", 1, "number of server nodes") var agentCount = flag.Int("agentCount", 1, "number of agent nodes") var hardened = flag.Bool("hardened", false, "true or false") var ci = flag.Bool("ci", false, "running on CI") var local = flag.Bool("local", false, "deploy a locally built K3s binary") // getLBServiceIPs returns the externalIP configured for flannel func getExternalIPs(kubeConfigFile string) ([]string, error) { cmd := `kubectl get nodes -o jsonpath='{range .items[*]}{.metadata.annotations.flannel\.alpha\.coreos\.com/public-ip-overwrite}' --kubeconfig=` + kubeConfigFile res, err := e2e.RunCommand(cmd) if err != nil { return nil, err } return strings.Split(res, " "), nil } // getLBServiceIPs returns the LoadBalance service IPs func getLBServiceIPs(kubeConfigFile string) ([]e2e.ObjIP, error) { cmd := `kubectl get svc -l k8s-app=nginx-app-loadbalancer -o=jsonpath='{range .items[*]}{.metadata.name}{" "}{.status.loadBalancer.ingress[*].ip}{"\n"}{end}' --kubeconfig=` + kubeConfigFile return e2e.GetObjIPs(cmd) } // getClientIPs returns the IPs of the client pods func getClientIPs(kubeConfigFile string) ([]e2e.ObjIP, error) { cmd := `kubectl get pods -l app=client -o=jsonpath='{range .items[*]}{.metadata.name}{" "}{.status.podIPs[*].ip}{"\n"}{end}' --kubeconfig=` + kubeConfigFile return e2e.GetObjIPs(cmd) } func Test_E2EExternalIP(t *testing.T) { flag.Parse() RegisterFailHandler(Fail) suiteConfig, reporterConfig := GinkgoConfiguration() RunSpecs(t, "External-IP config Suite", suiteConfig, reporterConfig) } var ( kubeConfigFile string serverNodeNames []string agentNodeNames []string ) var _ = ReportAfterEach(e2e.GenReport) var _ = Describe("Verify External-IP config", Ordered, func() { It("Starts up with no issues", func() { var err error if *local { serverNodeNames, agentNodeNames, err = e2e.CreateLocalCluster(*nodeOS, *serverCount, *agentCount) } else { serverNodeNames, agentNodeNames, err = e2e.CreateCluster(*nodeOS, *serverCount, *agentCount) } Expect(err).NotTo(HaveOccurred(), e2e.GetVagrantLog(err)) fmt.Println("CLUSTER CONFIG") fmt.Println("OS:", *nodeOS) fmt.Println("Server Nodes:", serverNodeNames) fmt.Println("Agent Nodes:", agentNodeNames) kubeConfigFile, err = e2e.GenKubeConfigFile(serverNodeNames[0]) Expect(err).NotTo(HaveOccurred()) }) It("Checks Node Status", func() { Eventually(func(g Gomega) { nodes, err := e2e.ParseNodes(kubeConfigFile, false) g.Expect(err).NotTo(HaveOccurred()) for _, node := range nodes { g.Expect(node.Status).Should(Equal("Ready")) } }, "620s", "5s").Should(Succeed()) _, err := e2e.ParseNodes(kubeConfigFile, true) Expect(err).NotTo(HaveOccurred()) }) It("Checks Pod Status", func() { Eventually(func(g Gomega) { pods, err := e2e.ParsePods(kubeConfigFile, false) g.Expect(err).NotTo(HaveOccurred()) for _, pod := range pods { if strings.Contains(pod.Name, "helm-install") { g.Expect(pod.Status).Should(Equal("Completed"), pod.Name) } else { g.Expect(pod.Status).Should(Equal("Running"), pod.Name) } } }, "620s", "5s").Should(Succeed()) _, err := e2e.ParsePods(kubeConfigFile, true) Expect(err).NotTo(HaveOccurred()) }) It("Verifies that each node has vagrant IP", func() { nodeIPs, err := e2e.GetNodeIPs(kubeConfigFile) Expect(err).NotTo(HaveOccurred()) for _, node := range nodeIPs { Expect(node.IPv4).Should(ContainSubstring("10.10.")) } }) It("Verifies that each pod has vagrant IP or clusterCIDR IP", func() { podIPs, err := e2e.GetPodIPs(kubeConfigFile) Expect(err).NotTo(HaveOccurred()) for _, pod := range podIPs { Expect(pod.IPv4).Should(Or(ContainSubstring("10.10."), ContainSubstring("10.42.")), pod.Name) } }) It("Verifies that flannel added the correct annotation for the external-ip", func() { nodeIPs, err := getExternalIPs(kubeConfigFile) Expect(err).NotTo(HaveOccurred()) for _, annotation := range nodeIPs { Expect(annotation).Should(ContainSubstring("10.100.100.")) } }) It("Verifies internode connectivity over the tunnel", func() { _, err := e2e.DeployWorkload("pod_client.yaml", kubeConfigFile, *hardened) Expect(err).NotTo(HaveOccurred()) // Wait for the pod_client to have an IP Eventually(func() string { ips, _ := getClientIPs(kubeConfigFile) return ips[0].IPv4 }, "40s", "5s").Should(ContainSubstring("10.42"), "failed getClientIPs") clientIPs, err := getClientIPs(kubeConfigFile) Expect(err).NotTo(HaveOccurred()) for _, ip := range clientIPs { cmd := "kubectl exec svc/client-curl --kubeconfig=" + kubeConfigFile + " -- curl -m7 " + ip.IPv4 + "/name.html" Eventually(func() (string, error) { return e2e.RunCommand(cmd) }, "20s", "3s").Should(ContainSubstring("client-deployment"), "failed cmd: "+cmd) } }) It("Verifies loadBalancer service's IP is the node-external-ip", func() { _, err := e2e.DeployWorkload("loadbalancer.yaml", kubeConfigFile, *hardened) Expect(err).NotTo(HaveOccurred()) cmd := "kubectl --kubeconfig=" + kubeConfigFile + " get svc -l k8s-app=nginx-app-loadbalancer -o=jsonpath='{range .items[*]}{.metadata.name}{.status.loadBalancer.ingress[*].ip}{end}'" Eventually(func() (string, error) { return e2e.RunCommand(cmd) }, "20s", "3s").Should(ContainSubstring("10.100.100"), "failed cmd: "+cmd) }) }) var failed bool var _ = AfterEach(func() { failed = failed || CurrentSpecReport().Failed() }) var _ = AfterSuite(func() { if !failed { Expect(e2e.GetCoverageReport(append(serverNodeNames, agentNodeNames...))).To(Succeed()) } if !failed || *ci { Expect(e2e.DestroyCluster()).To(Succeed()) Expect(os.Remove(kubeConfigFile)).To(Succeed()) } })