package e2e import ( "context" "errors" "fmt" "io" "os" "os/exec" "path/filepath" "strconv" "strings" "time" json "github.com/json-iterator/go" ginkgo "github.com/onsi/ginkgo/v2" "golang.org/x/sync/errgroup" ) type Node struct { Name string Status string Roles string InternalIP string ExternalIP string } func (n Node) String() string { return fmt.Sprintf("Node (name: %s, status: %s, roles: %s)", n.Name, n.Status, n.Roles) } type Pod struct { NameSpace string Name string Ready string Status string Restarts string NodeIP string Node string } type NodeError struct { Node string Cmd string Err error } type ObjIP struct { Name string IPv4 string IPv6 string } func (ne *NodeError) Error() string { return fmt.Sprintf("failed creating cluster: %s: %v", ne.Cmd, ne.Err) } func (ne *NodeError) Unwrap() error { return ne.Err } func newNodeError(cmd, node string, err error) *NodeError { return &NodeError{ Cmd: cmd, Node: node, Err: err, } } func CountOfStringInSlice(str string, pods []Pod) int { count := 0 for _, pod := range pods { if strings.Contains(pod.Name, str) { count++ } } return count } // genNodeEnvs generates the node and testing environment variables for vagrant up func genNodeEnvs(nodeOS string, serverCount, agentCount int) ([]string, []string, string) { serverNodeNames := make([]string, serverCount) for i := 0; i < serverCount; i++ { serverNodeNames[i] = "server-" + strconv.Itoa(i) } agentNodeNames := make([]string, agentCount) for i := 0; i < agentCount; i++ { agentNodeNames[i] = "agent-" + strconv.Itoa(i) } nodeRoles := strings.Join(serverNodeNames, " ") + " " + strings.Join(agentNodeNames, " ") nodeRoles = strings.TrimSpace(nodeRoles) nodeBoxes := strings.Repeat(nodeOS+" ", serverCount+agentCount) nodeBoxes = strings.TrimSpace(nodeBoxes) nodeEnvs := fmt.Sprintf(`E2E_NODE_ROLES="%s" E2E_NODE_BOXES="%s"`, nodeRoles, nodeBoxes) return serverNodeNames, agentNodeNames, nodeEnvs } func CreateCluster(nodeOS string, serverCount, agentCount int) ([]string, []string, error) { serverNodeNames, agentNodeNames, nodeEnvs := genNodeEnvs(nodeOS, serverCount, agentCount) var testOptions string for _, env := range os.Environ() { if strings.HasPrefix(env, "E2E_") { testOptions += " " + env } } // Bring up the first server node cmd := fmt.Sprintf(`%s %s vagrant up %s &> vagrant.log`, nodeEnvs, testOptions, serverNodeNames[0]) fmt.Println(cmd) if _, err := RunCommand(cmd); err != nil { return nil, nil, newNodeError(cmd, serverNodeNames[0], err) } // Bring up the rest of the nodes in parallel errg, _ := errgroup.WithContext(context.Background()) for _, node := range append(serverNodeNames[1:], agentNodeNames...) { cmd := fmt.Sprintf(`%s %s vagrant up %s &>> vagrant.log`, nodeEnvs, testOptions, node) errg.Go(func() error { if _, err := RunCommand(cmd); err != nil { return newNodeError(cmd, node, err) } return nil }) // We must wait a bit between provisioning nodes to avoid too many learners attempting to join the cluster if strings.Contains(node, "agent") { time.Sleep(5 * time.Second) } else { time.Sleep(30 * time.Second) } } if err := errg.Wait(); err != nil { return nil, nil, err } return serverNodeNames, agentNodeNames, nil } func scpK3sBinary(nodeNames []string) error { for _, node := range nodeNames { cmd := fmt.Sprintf(`vagrant scp ../../../dist/artifacts/k3s %s:/tmp/`, node) if _, err := RunCommand(cmd); err != nil { return fmt.Errorf("failed to scp k3s binary to %s: %v", node, err) } if _, err := RunCmdOnNode("sudo mv /tmp/k3s /usr/local/bin/", node); err != nil { return err } } return nil } // CreateLocalCluster creates a cluster using the locally built k3s binary. The vagrant-scp plugin must be installed for // this function to work. The binary is deployed as an airgapped install of k3s on the VMs. // This is intended only for local testing purposes when writing a new E2E test. func CreateLocalCluster(nodeOS string, serverCount, agentCount int) ([]string, []string, error) { serverNodeNames, agentNodeNames, nodeEnvs := genNodeEnvs(nodeOS, serverCount, agentCount) var testOptions string var cmd string for _, env := range os.Environ() { if strings.HasPrefix(env, "E2E_") { testOptions += " " + env } } testOptions += " E2E_RELEASE_VERSION=skip" // Bring up the all of the nodes in parallel errg, _ := errgroup.WithContext(context.Background()) for i, node := range append(serverNodeNames, agentNodeNames...) { if i == 0 { cmd = fmt.Sprintf(`%s %s vagrant up --no-provision %s &> vagrant.log`, nodeEnvs, testOptions, node) } else { cmd = fmt.Sprintf(`%s %s vagrant up --no-provision %s &>> vagrant.log`, nodeEnvs, testOptions, node) } errg.Go(func() error { if _, err := RunCommand(cmd); err != nil { return fmt.Errorf("failed initializing nodes: %s: %v", cmd, err) } return nil }) // libVirt/Virtualbox needs some time between provisioning nodes time.Sleep(10 * time.Second) } if err := errg.Wait(); err != nil { return nil, nil, err } if err := scpK3sBinary(append(serverNodeNames, agentNodeNames...)); err != nil { return nil, nil, err } // Install K3s on all nodes in parallel errg, _ = errgroup.WithContext(context.Background()) for _, node := range append(serverNodeNames, agentNodeNames...) { cmd = fmt.Sprintf(`%s %s vagrant provision %s &>> vagrant.log`, nodeEnvs, testOptions, node) errg.Go(func() error { if _, err := RunCommand(cmd); err != nil { return newNodeError(cmd, node, err) } return nil }) // K3s needs some time between joining nodes to avoid learner issues time.Sleep(20 * time.Second) } if err := errg.Wait(); err != nil { return nil, nil, err } return serverNodeNames, agentNodeNames, nil } // Deletes the content of a manifest file previously applied func DeleteWorkload(workload, kubeconfig string) error { cmd := "kubectl delete -f " + workload + " --kubeconfig=" + kubeconfig if _, err := RunCommand(cmd); err != nil { return err } return nil } func DeployWorkload(workload, kubeconfig string, hardened bool) (string, error) { resourceDir := "../amd64_resource_files" if hardened { resourceDir = "../cis_amd64_resource_files" } files, err := os.ReadDir(resourceDir) if err != nil { err = fmt.Errorf("%s : Unable to read resource manifest file for %s", err, workload) return "", err } fmt.Println("\nDeploying", workload) for _, f := range files { filename := filepath.Join(resourceDir, f.Name()) if strings.TrimSpace(f.Name()) == workload { cmd := "kubectl apply -f " + filename + " --kubeconfig=" + kubeconfig return RunCommand(cmd) } } return "", nil } func DestroyCluster() error { if _, err := RunCommand("vagrant destroy -f"); err != nil { return err } return os.Remove("vagrant.log") } func FetchClusterIP(kubeconfig string, servicename string, dualStack bool) (string, error) { if dualStack { cmd := "kubectl get svc " + servicename + " -o jsonpath='{.spec.clusterIPs}' --kubeconfig=" + kubeconfig res, err := RunCommand(cmd) if err != nil { return res, err } res = strings.ReplaceAll(res, "\"", "") return strings.Trim(res, "[]"), nil } cmd := "kubectl get svc " + servicename + " -o jsonpath='{.spec.clusterIP}' --kubeconfig=" + kubeconfig return RunCommand(cmd) } func FetchIngressIP(kubeconfig string) ([]string, error) { cmd := "kubectl get ing ingress -o jsonpath='{.status.loadBalancer.ingress[*].ip}' --kubeconfig=" + kubeconfig res, err := RunCommand(cmd) if err != nil { return nil, err } ingressIP := strings.Trim(res, " ") ingressIPs := strings.Split(ingressIP, " ") return ingressIPs, nil } func FetchNodeExternalIP(nodename string) (string, error) { cmd := "vagrant ssh " + nodename + " -c \"ip -f inet addr show eth1| awk '/inet / {print $2}'|cut -d/ -f1\"" ipaddr, err := RunCommand(cmd) if err != nil { return "", err } ips := strings.Trim(ipaddr, "") ip := strings.Split(ips, "inet") nodeip := strings.TrimSpace(ip[1]) return nodeip, nil } func GenKubeConfigFile(serverName string) (string, error) { cmd := fmt.Sprintf("vagrant ssh %s -c \"sudo cat /etc/rancher/k3s/k3s.yaml\"", serverName) kubeConfig, err := RunCommand(cmd) if err != nil { return "", err } nodeIP, err := FetchNodeExternalIP(serverName) if err != nil { return "", err } kubeConfig = strings.Replace(kubeConfig, "127.0.0.1", nodeIP, 1) kubeConfigFile := fmt.Sprintf("kubeconfig-%s", serverName) if err := os.WriteFile(kubeConfigFile, []byte(kubeConfig), 0644); err != nil { return "", err } return kubeConfigFile, nil } func GenReport(specReport ginkgo.SpecReport) { state := struct { State string `json:"state"` Name string `json:"name"` Type string `json:"type"` Time time.Duration `json:"time"` }{ State: specReport.State.String(), Name: specReport.LeafNodeText, Type: "k3s test", Time: specReport.RunTime, } status, _ := json.Marshal(state) fmt.Printf("%s", status) } func GetJournalLogs(node string) (string, error) { cmd := "journalctl -u k3s* --no-pager" return RunCmdOnNode(cmd, node) } // GetVagrantLog returns the logs of on vagrant commands that initialize the nodes and provision K3s on each node. // It also attempts to fetch the systemctl logs of K3s on nodes where the k3s.service failed. func GetVagrantLog(cErr error) string { var nodeErr *NodeError nodeJournal := "" if errors.As(cErr, &nodeErr) { nodeJournal, _ = GetJournalLogs(nodeErr.Node) nodeJournal = "\nNode Journal Logs:\n" + nodeJournal } log, err := os.Open("vagrant.log") if err != nil { return err.Error() } bytes, err := io.ReadAll(log) if err != nil { return err.Error() } return string(bytes) + nodeJournal } func ParseNodes(kubeConfig string, print bool) ([]Node, error) { nodes := make([]Node, 0, 10) nodeList := "" cmd := "kubectl get nodes --no-headers -o wide -A --kubeconfig=" + kubeConfig res, err := RunCommand(cmd) if err != nil { return nil, fmt.Errorf("unable to get nodes: %s: %v", res, err) } nodeList = strings.TrimSpace(res) split := strings.Split(nodeList, "\n") for _, rec := range split { if strings.TrimSpace(rec) != "" { fields := strings.Fields(rec) node := Node{ Name: fields[0], Status: fields[1], Roles: fields[2], InternalIP: fields[5], } if len(fields) > 6 { node.ExternalIP = fields[6] } nodes = append(nodes, node) } } if print { fmt.Println(nodeList) } return nodes, nil } func ParsePods(kubeConfig string, print bool) ([]Pod, error) { pods := make([]Pod, 0, 10) podList := "" cmd := "kubectl get pods -o wide --no-headers -A --kubeconfig=" + kubeConfig res, _ := RunCommand(cmd) res = strings.TrimSpace(res) podList = res split := strings.Split(res, "\n") for _, rec := range split { fields := strings.Fields(string(rec)) if len(fields) < 8 { return nil, fmt.Errorf("invalid pod record: %s", rec) } pod := Pod{ NameSpace: fields[0], Name: fields[1], Ready: fields[2], Status: fields[3], Restarts: fields[4], NodeIP: fields[6], Node: fields[7], } pods = append(pods, pod) } if print { fmt.Println(podList) } return pods, nil } // RestartCluster restarts the k3s service on each node given func RestartCluster(nodeNames []string) error { for _, nodeName := range nodeNames { cmd := "sudo systemctl restart k3s*" if _, err := RunCmdOnNode(cmd, nodeName); err != nil { return err } } return nil } // RestartCluster restarts the k3s service on each node given func RestartClusterAgent(nodeNames []string) error { for _, nodeName := range nodeNames { cmd := "sudo systemctl restart k3s-agent" if _, err := RunCmdOnNode(cmd, nodeName); err != nil { return err } } return nil } // RunCmdOnNode executes a command from within the given node func RunCmdOnNode(cmd string, nodename string) (string, error) { runcmd := "vagrant ssh -c \"" + cmd + "\" " + nodename out, err := RunCommand(runcmd) if err != nil { return out, fmt.Errorf("failed to run command %s on node %s: %v", cmd, nodename, err) } return out, nil } // RunCommand executes a command on the host func RunCommand(cmd string) (string, error) { c := exec.Command("bash", "-c", cmd) out, err := c.CombinedOutput() return string(out), err } func UpgradeCluster(nodeNames []string, local bool) error { upgradeVersion := "E2E_RELEASE_CHANNEL=commit" if local { if err := scpK3sBinary(nodeNames); err != nil { return err } upgradeVersion = "E2E_RELEASE_VERSION=skip" } for _, nodeName := range nodeNames { cmd := upgradeVersion + " vagrant provision " + nodeName if out, err := RunCommand(cmd); err != nil { fmt.Println("Error Upgrading Cluster", out) return err } } return nil } // getPodIPs returns the IPs of all pods func GetPodIPs(kubeConfigFile string) ([]ObjIP, error) { cmd := `kubectl get pods -A -o=jsonpath='{range .items[*]}{.metadata.name}{" "}{.status.podIPs[*].ip}{"\n"}{end}' --kubeconfig=` + kubeConfigFile return GetObjIPs(cmd) } // getNodeIPs returns the IPs of all nodes func GetNodeIPs(kubeConfigFile string) ([]ObjIP, error) { cmd := `kubectl get nodes -o jsonpath='{range .items[*]}{.metadata.name}{" "}{.status.addresses[?(@.type == "InternalIP")].address}{"\n"}{end}' --kubeconfig=` + kubeConfigFile return GetObjIPs(cmd) } // getObjIPs executes a command to collect IPs func GetObjIPs(cmd string) ([]ObjIP, error) { var objIPs []ObjIP res, err := RunCommand(cmd) if err != nil { return nil, err } objs := strings.Split(res, "\n") objs = objs[:len(objs)-1] for _, obj := range objs { fields := strings.Fields(obj) if len(fields) > 2 { objIPs = append(objIPs, ObjIP{Name: fields[0], IPv4: fields[1], IPv6: fields[2]}) } else if len(fields) > 1 { if strings.Contains(fields[1], ".") { objIPs = append(objIPs, ObjIP{Name: fields[0], IPv4: fields[1]}) } else { objIPs = append(objIPs, ObjIP{Name: fields[0], IPv6: fields[1]}) } } else { objIPs = append(objIPs, ObjIP{Name: fields[0]}) } } return objIPs, nil }