package terraform import ( "bytes" "fmt" "io/ioutil" "log" "os/exec" "path/filepath" "runtime" "strings" "time" "golang.org/x/crypto/ssh" ) type Node struct { Name string Status string Roles string Version string InternalIP string ExternalIP string } type Pod struct { NameSpace string Name string Ready string Status string Restarts string NodeIP string Node string } var config *ssh.ClientConfig var SSHKEY string var SSHUSER string var err error func GetBasepath() string { _, b, _, _ := runtime.Caller(0) return filepath.Join(filepath.Dir(b), "../..") } func checkError(e error) { if e != nil { log.Fatal(err) panic(e) } } func publicKey(path string) ssh.AuthMethod { key, err := ioutil.ReadFile(path) if err != nil { panic(err) } signer, err := ssh.ParsePrivateKey(key) if err != nil { panic(err) } return ssh.PublicKeys(signer) } func ConfigureSSH(host string, SSHUser string, SSHKey string) *ssh.Client { config = &ssh.ClientConfig{ User: SSHUser, Auth: []ssh.AuthMethod{ publicKey(SSHKey), }, HostKeyCallback: ssh.InsecureIgnoreHostKey(), } conn, err := ssh.Dial("tcp", host, config) checkError(err) return conn } func runsshCommand(cmd string, conn *ssh.Client) (string, error) { session, err := conn.NewSession() if err != nil { panic(err) } defer session.Close() var stdoutBuf bytes.Buffer var stderrBuf bytes.Buffer session.Stdout = &stdoutBuf session.Stderr = &stderrBuf if err := session.Run(cmd); err != nil { log.Println(session.Stdout) log.Fatal("Error on command execution", err.Error()) } return fmt.Sprintf("%s", stdoutBuf.String()), err } // nodeOs: ubuntu centos7 centos8 sles15 // clusterType arm, etcd externaldb, if external_db var is not "" picks database from the vars file, // resourceName: name to resource created timestamp attached // RunCmdOnNode executes a command from within the given node func RunCmdOnNode(cmd string, ServerIP string, SSHUser string, SSHKey string) (string, error) { Server := ServerIP + ":22" conn := ConfigureSSH(Server, SSHUser, SSHKey) res, err := runsshCommand(cmd, conn) res = strings.TrimSpace(res) return res, err } // 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 } //Used to count the pods using prefix passed in the list of pods func CountOfStringInSlice(str string, pods []Pod) int { count := 0 for _, pod := range pods { if strings.Contains(pod.Name, str) { count++ } } return count } func DeployWorkload(workload, kubeconfig string, arch string) (string, error) { resourceDir := GetBasepath() + "/tests/terraform/amd64_resource_files" if arch == "arm64" { resourceDir = GetBasepath() + "/tests/terraform/arm_resource_files" } files, err := ioutil.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 fmt.Println(cmd) return RunCommand(cmd) } } return "", nil } func FetchClusterIP(kubeconfig string, servicename string) (string, error) { cmd := "kubectl get svc " + servicename + " -o jsonpath='{.spec.clusterIP}' --kubeconfig=" + kubeconfig fmt.Println(cmd) return RunCommand(cmd) } func FetchNodeExternalIP(kubeconfig string) []string { cmd := "kubectl get node --output=jsonpath='{range .items[*]} { .status.addresses[?(@.type==\"ExternalIP\")].address}' --kubeconfig=" + kubeconfig time.Sleep(10 * time.Second) res, _ := RunCommand(cmd) nodeExternalIP := strings.Trim(res, " ") nodeExternalIPs := strings.Split(nodeExternalIP, " ") return nodeExternalIPs } func FetchIngressIP(kubeconfig string) ([]string, error) { cmd := "kubectl get ingress -o jsonpath='{.items[0].status.loadBalancer.ingress[*].ip}' --kubeconfig=" + kubeconfig fmt.Println(cmd) res, err := RunCommand(cmd) if err != nil { return nil, err } ingressIP := strings.Trim(res, " ") fmt.Println(ingressIP) ingressIPs := strings.Split(ingressIP, " ") return ingressIPs, nil } 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, 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], Version: fields[4], InternalIP: fields[5], 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)) 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 }