// Copyright (c) 2021 Tailscale Inc & AUTHORS All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. // +build linux package vms import ( "context" "crypto/sha256" "encoding/hex" "errors" "flag" "fmt" "io" "log" "net" "net/http" "os" "os/exec" "path" "path/filepath" "regexp" "strconv" "strings" "sync" "syscall" "testing" "text/template" "time" "github.com/aws/aws-sdk-go/aws" "github.com/aws/aws-sdk-go/aws/session" "github.com/aws/aws-sdk-go/service/s3" "github.com/aws/aws-sdk-go/service/s3/s3manager" expect "github.com/google/goexpect" "github.com/pkg/sftp" "golang.org/x/crypto/ssh" "golang.org/x/sync/semaphore" "inet.af/netaddr" "tailscale.com/net/interfaces" "tailscale.com/tstest" "tailscale.com/tstest/integration" "tailscale.com/tstest/integration/testcontrol" "tailscale.com/types/logger" ) const ( securePassword = "hunter2" bucketName = "tailscale-integration-vm-images" ) var ( runVMTests = flag.Bool("run-vm-tests", false, "if set, run expensive VM based integration tests") noS3 = flag.Bool("no-s3", false, "if set, always download images from the public internet (risks breaking)") vmRamLimit = flag.Int("ram-limit", 4096, "the maximum number of megabytes of ram that can be used for VMs, must be greater than or equal to 1024") useVNC = flag.Bool("use-vnc", false, "if set, display guest vms over VNC") distroRex = func() *regexValue { result := ®exValue{r: regexp.MustCompile(`.*`)} flag.Var(result, "distro-regex", "The regex that matches what distros should be run") return result }() ) type Distro struct { name string // amazon-linux url string // URL to a qcow2 image sha256sum string // hex-encoded sha256 sum of contents of URL mem int // VM memory in megabytes packageManager string // yum/apt/dnf/zypper initSystem string // systemd/openrc } func (d *Distro) InstallPre() string { switch d.packageManager { case "yum": return ` - [ yum, update, gnupg2 ] - [ yum, "-y", install, iptables ]` case "zypper": return ` - [ zypper, in, "-y", iptables ]` case "dnf": return ` - [ dnf, install, "-y", iptables ]` case "apt": return ` - [ apt-get, update ] - [ apt-get, "-y", install, curl, "apt-transport-https", gnupg2 ]` case "apk": return ` - [ apk, "-U", add, curl, "ca-certificates", iptables ] - [ modprobe, tun ]` } return "" } func TestDownloadImages(t *testing.T) { if !*runVMTests { t.Skip("not running integration tests (need --run-vm-tests)") } for _, d := range distros { distro := d t.Run(distro.name, func(t *testing.T) { if !distroRex.Unwrap().MatchString(distro.name) { t.Skipf("distro name %q doesn't match regex: %s", distro.name, distroRex) } t.Parallel() fetchDistro(t, distro) }) } } var distros = []Distro{ // NOTE(Xe): If you run into issues getting the autoconfig to work, run // this test with the flag `--distro-regex=alpine-edge`. Connect with a VNC // client with a command like this: // // $ vncviewer :0 // // On NixOS you can get away with something like this: // // $ env NIXPKGS_ALLOW_UNFREE=1 nix-shell -p tigervnc --run 'vncviewer :0' // // Login as root with the password root. Then look in // /var/log/cloud-init-output.log for what you messed up. // NOTE(Xe): These images are not official images created by the Alpine Linux // cloud team because the cloud team hasn't created any official images yet. // These images were created under the guidance of the cloud team and contain // few notable differences from what they would end up shipping. The Alpine // Linux cloud team probably won't have official images up until a year or so // after this comment is written (2021-06-11), but overall they will be // compatible with these images. These images were created using the setup in // this repo: https://github.com/Xe/alpine-image. I hereby promise to not break // these links. {"alpine-3-13-5", "https://xena.greedo.xeserv.us/pkg/alpine/img/alpine-3.13.5-cloud-init-within.qcow2", "a2665c16724e75899723e81d81126bd0254a876e5de286b0b21553734baec287", 256, "apk", "openrc"}, {"alpine-edge", "https://xena.greedo.xeserv.us/pkg/alpine/img/alpine-edge-2021-05-18-cloud-init-within.qcow2", "b3bb15311c0bd3beffa1b554f022b75d3b7309b5fdf76fb146fe7c72b83b16d0", 256, "apk", "openrc"}, // NOTE(Xe): All of the following images are official images straight from each // distribution's official documentation. {"amazon-linux", "https://cdn.amazonlinux.com/os-images/2.0.20210427.0/kvm/amzn2-kvm-2.0.20210427.0-x86_64.xfs.gpt.qcow2", "6ef9daef32cec69b2d0088626ec96410cd24afc504d57278bbf2f2ba2b7e529b", 512, "yum", "systemd"}, {"arch", "https://mirror.pkgbuild.com/images/v20210515.22945/Arch-Linux-x86_64-cloudimg-20210515.22945.qcow2", "e4077f5ba3c5d545478f64834bc4852f9f7a2e05950fce8ecd0df84193162a27", 512, "pacman", "systemd"}, {"centos-7", "https://cloud.centos.org/centos/7/images/CentOS-7-x86_64-GenericCloud-2003.qcow2c", "b7555ecf90b24111f2efbc03c1e80f7b38f1e1fc7e1b15d8fee277d1a4575e87", 512, "yum", "systemd"}, {"centos-8", "https://cloud.centos.org/centos/8/x86_64/images/CentOS-8-GenericCloud-8.3.2011-20201204.2.x86_64.qcow2", "7ec97062618dc0a7ebf211864abf63629da1f325578868579ee70c495bed3ba0", 768, "dnf", "systemd"}, {"debian-9", "http://cloud.debian.org/images/cloud/OpenStack/9.13.22-20210531/debian-9.13.22-20210531-openstack-amd64.qcow2", "c36e25f2ab0b5be722180db42ed9928476812f02d053620e1c287f983e9f6f1d", 512, "apt", "systemd"}, {"debian-10", "https://cdimage.debian.org/images/cloud/buster/20210329-591/debian-10-generic-amd64-20210329-591.qcow2", "70c61956095870c4082103d1a7a1cb5925293f8405fc6cb348588ec97e8611b0", 768, "apt", "systemd"}, {"fedora-34", "https://download.fedoraproject.org/pub/fedora/linux/releases/34/Cloud/x86_64/images/Fedora-Cloud-Base-34-1.2.x86_64.qcow2", "b9b621b26725ba95442d9a56cbaa054784e0779a9522ec6eafff07c6e6f717ea", 768, "dnf", "systemd"}, {"opensuse-leap-15-1", "https://download.opensuse.org/repositories/Cloud:/Images:/Leap_15.1/images/openSUSE-Leap-15.1-OpenStack.x86_64.qcow2", "40bc72b8ee143364fc401f2c9c9a11ecb7341a29fa84c6f7bf42fc94acf19a02", 512, "zypper", "systemd"}, {"opensuse-leap-15-2", "https://download.opensuse.org/repositories/Cloud:/Images:/Leap_15.2/images/openSUSE-Leap-15.2-OpenStack.x86_64.qcow2", "4df9cee9281d1f57d20f79dc65d76e255592b904760e73c0dd44ac753a54330f", 512, "zypper", "systemd"}, {"opensuse-leap-15-3", "http://mirror.its.dal.ca/opensuse/distribution/leap/15.3/appliances/openSUSE-Leap-15.3-JeOS.x86_64-OpenStack-Cloud.qcow2", "22e0392e4d0becb523d1bc5f709366140b7ee20d6faf26de3d0f9046d1ee15d5", 512, "zypper", "systemd"}, {"opensuse-tumbleweed", "https://download.opensuse.org/tumbleweed/appliances/openSUSE-Tumbleweed-JeOS.x86_64-OpenStack-Cloud.qcow2", "79e610bba3ed116556608f031c06e4b9260e3be2b193ce1727914ba213afac3f", 512, "zypper", "systemd"}, {"ubuntu-16-04", "https://cloud-images.ubuntu.com/xenial/20210429/xenial-server-cloudimg-amd64-disk1.img", "50a21bc067c05e0c73bf5d8727ab61152340d93073b3dc32eff18b626f7d813b", 512, "apt", "systemd"}, {"ubuntu-18-04", "https://cloud-images.ubuntu.com/bionic/20210526/bionic-server-cloudimg-amd64.img", "389ffd5d36bbc7a11bf384fd217cda9388ccae20e5b0cb7d4516733623c96022", 512, "apt", "systemd"}, {"ubuntu-20-04", "https://cloud-images.ubuntu.com/focal/20210603/focal-server-cloudimg-amd64.img", "1c0969323b058ba8b91fec245527069c2f0502fc119b9138b213b6bfebd965cb", 512, "apt", "systemd"}, {"ubuntu-20-10", "https://cloud-images.ubuntu.com/groovy/20210604/groovy-server-cloudimg-amd64.img", "2196df5f153faf96443e5502bfdbcaa0baaefbaec614348fec344a241855b0ef", 512, "apt", "systemd"}, {"ubuntu-21-04", "https://cloud-images.ubuntu.com/hirsute/20210603/hirsute-server-cloudimg-amd64.img", "bf07f36fc99ff521d3426e7d257e28f0c81feebc9780b0c4f4e25ae594ff4d3b", 512, "apt", "systemd"}, } // fetchFromS3 fetches a distribution image from Amazon S3 or reports whether // it is unable to. It can fail to fetch from S3 if there is either no AWS // configuration (in ~/.aws/credentials) or if the `-no-s3` flag is passed. In // that case the test will fall back to downloading distribution images from the // public internet. // // Like fetching from HTTP, the test will fail if an error is encountered during // the downloading process. // // This function writes the distribution image to fout. It is always closed. Do // not expect fout to remain writable. func fetchFromS3(t *testing.T, fout *os.File, d Distro) bool { t.Helper() if *noS3 { t.Log("you asked to not use S3, not using S3") return false } sess, err := session.NewSession(&aws.Config{ Region: aws.String("us-east-1"), }) if err != nil { t.Logf("can't make AWS session: %v", err) return false } dler := s3manager.NewDownloader(sess, func(d *s3manager.Downloader) { d.PartSize = 64 * 1024 * 1024 // 64MB per part }) t.Logf("fetching s3://%s/%s", bucketName, d.sha256sum) _, err = dler.Download(fout, &s3.GetObjectInput{ Bucket: aws.String(bucketName), Key: aws.String(d.sha256sum), }) if err != nil { fout.Close() t.Fatalf("can't get s3://%s/%s: %v", bucketName, d.sha256sum, err) } err = fout.Close() if err != nil { t.Fatalf("can't close fout: %v", err) } return true } // fetchDistro fetches a distribution from the internet if it doesn't already exist locally. It // also validates the sha256 sum from a known good hash. func fetchDistro(t *testing.T, resultDistro Distro) { t.Helper() cdir, err := os.UserCacheDir() if err != nil { t.Fatalf("can't find cache dir: %v", err) } cdir = filepath.Join(cdir, "tailscale", "vm-test") qcowPath := filepath.Join(cdir, "qcow2", resultDistro.sha256sum) _, err = os.Stat(qcowPath) if err == nil { hash := checkCachedImageHash(t, resultDistro, cdir) if hash != resultDistro.sha256sum { t.Logf("hash for %s (%s) doesn't match expected %s, re-downloading", resultDistro.name, qcowPath, resultDistro.sha256sum) err = errors.New("some fake non-nil error to force a redownload") if err := os.Remove(qcowPath); err != nil { t.Fatalf("can't delete wrong cached image: %v", err) } } } if err != nil { t.Logf("downloading distro image %s to %s", resultDistro.url, qcowPath) fout, err := os.Create(qcowPath) if err != nil { t.Fatal(err) } if !fetchFromS3(t, fout, resultDistro) { resp, err := http.Get(resultDistro.url) if err != nil { t.Fatalf("can't fetch qcow2 for %s (%s): %v", resultDistro.name, resultDistro.url, err) } if resp.StatusCode != http.StatusOK { resp.Body.Close() t.Fatalf("%s replied %s", resultDistro.url, resp.Status) } _, err = io.Copy(fout, resp.Body) resp.Body.Close() if err != nil { t.Fatalf("download of %s failed: %v", resultDistro.url, err) } hash := checkCachedImageHash(t, resultDistro, cdir) if hash != resultDistro.sha256sum { t.Fatalf("hash mismatch, want: %s, got: %s", resultDistro.sha256sum, hash) } } } } func checkCachedImageHash(t *testing.T, d Distro, cacheDir string) (gotHash string) { t.Helper() qcowPath := filepath.Join(cacheDir, "qcow2", d.sha256sum) fin, err := os.Open(qcowPath) if err != nil { t.Fatal(err) } hasher := sha256.New() if _, err := io.Copy(hasher, fin); err != nil { t.Fatal(err) } hash := hex.EncodeToString(hasher.Sum(nil)) if hash != d.sha256sum { t.Fatalf("hash mismatch, got: %q, want: %q", hash, d.sha256sum) } gotHash = hash return } // run runs a command or fails the test. func run(t *testing.T, dir, prog string, args ...string) { t.Helper() t.Logf("running: %s %s", prog, strings.Join(args, " ")) tstest.FixLogs(t) cmd := exec.Command(prog, args...) cmd.Stdout = logger.FuncWriter(t.Logf) cmd.Stderr = logger.FuncWriter(t.Logf) cmd.Dir = dir if err := cmd.Run(); err != nil { t.Fatal(err) } } // mkLayeredQcow makes a layered qcow image that allows us to keep the upstream // VM images pristine and only do our changes on an overlay. func mkLayeredQcow(t *testing.T, tdir string, d Distro) { t.Helper() cdir, err := os.UserCacheDir() if err != nil { t.Fatalf("can't find cache dir: %v", err) } cdir = filepath.Join(cdir, "tailscale", "vm-test") run(t, tdir, "qemu-img", "create", "-f", "qcow2", "-o", "backing_file="+filepath.Join(cdir, "qcow2", d.sha256sum), filepath.Join(tdir, d.name+".qcow2"), ) } var ( metaDataTempl = template.Must(template.New("meta-data.yaml").Parse(metaDataTemplate)) userDataTempl = template.Must(template.New("user-data.yaml").Parse(userDataTemplate)) ) // mkSeed makes the cloud-init seed ISO that is used to configure a VM with // tailscale. func mkSeed(t *testing.T, d Distro, sshKey, hostURL, tdir string, port int) { t.Helper() dir := filepath.Join(tdir, d.name, "seed") os.MkdirAll(dir, 0700) // make meta-data { fout, err := os.Create(filepath.Join(dir, "meta-data")) if err != nil { t.Fatal(err) } err = metaDataTempl.Execute(fout, struct { ID string Hostname string }{ ID: "31337", Hostname: d.name, }) if err != nil { t.Fatal(err) } err = fout.Close() if err != nil { t.Fatal(err) } } // make user-data { fout, err := os.Create(filepath.Join(dir, "user-data")) if err != nil { t.Fatal(err) } err = userDataTempl.Execute(fout, struct { SSHKey string HostURL string Hostname string Port int InstallPre string Password string }{ SSHKey: strings.TrimSpace(sshKey), HostURL: hostURL, Hostname: d.name, Port: port, InstallPre: d.InstallPre(), Password: securePassword, }) if err != nil { t.Fatal(err) } err = fout.Close() if err != nil { t.Fatal(err) } } args := []string{ "-output", filepath.Join(dir, "seed.iso"), "-volid", "cidata", "-joliet", "-rock", filepath.Join(dir, "meta-data"), filepath.Join(dir, "user-data"), } if hackOpenSUSE151UserData(t, d, dir) { args = append(args, filepath.Join(dir, "openstack")) } run(t, tdir, "genisoimage", args...) } // mkVM makes a KVM-accelerated virtual machine and prepares it for introduction // to the testcontrol server. The function it returns is for killing the virtual // machine when it is time for it to die. func mkVM(t *testing.T, n int, d Distro, sshKey, hostURL, tdir string) { t.Helper() cdir, err := os.UserCacheDir() if err != nil { t.Fatalf("can't find cache dir: %v", err) } cdir = filepath.Join(cdir, "tailscale", "vm-test") os.MkdirAll(filepath.Join(cdir, "qcow2"), 0755) port, err := getProbablyFreePortNumber() if err != nil { t.Fatal(err) } fetchDistro(t, d) mkLayeredQcow(t, tdir, d) mkSeed(t, d, sshKey, hostURL, tdir, port) driveArg := fmt.Sprintf("file=%s,if=virtio", filepath.Join(tdir, d.name+".qcow2")) args := []string{ "-machine", "pc-q35-5.1,accel=kvm,usb=off,vmport=off,dump-guest-core=off", "-netdev", fmt.Sprintf("user,hostfwd=::%d-:22,id=net0", port), "-device", "virtio-net-pci,netdev=net0,id=net0,mac=8a:28:5c:30:1f:25", "-m", fmt.Sprint(d.mem), "-boot", "c", "-drive", driveArg, "-cdrom", filepath.Join(tdir, d.name, "seed", "seed.iso"), "-smbios", "type=1,serial=ds=nocloud;h=" + d.name, } if *useVNC { // test listening on VNC port ln, err := net.Listen("tcp", net.JoinHostPort("0.0.0.0", strconv.Itoa(5900+n))) if err != nil { t.Fatalf("would not be able to listen on the VNC port for the VM: %v", err) } ln.Close() args = append(args, "-vnc", fmt.Sprintf(":%d", n)) } else { args = append(args, "-display", "none") } t.Logf("running: qemu-system-x86_64 %s", strings.Join(args, " ")) cmd := exec.Command("qemu-system-x86_64", args...) cmd.Stdout = logger.FuncWriter(t.Logf) cmd.Stderr = logger.FuncWriter(t.Logf) err = cmd.Start() if err != nil { t.Fatal(err) } time.Sleep(time.Second) // NOTE(Xe): In Unix if you do a kill with signal number 0, the kernel will do // all of the access checking for the process (existence, permissions, etc) but // nothing else. This is a way to ensure that qemu's process is active. if err := cmd.Process.Signal(syscall.Signal(0)); err != nil { t.Fatalf("qemu is not running: %v", err) } t.Cleanup(func() { err := cmd.Process.Kill() if err != nil { t.Errorf("can't kill %s (%d): %v", d.name, cmd.Process.Pid, err) } cmd.Wait() }) } // ipMapping maps a hostname, SSH port and SSH IP together type ipMapping struct { name string port int ip string } // getProbablyFreePortNumber does what it says on the tin, but as a side effect // it is a kind of racy function. Do not use this carelessly. // // This is racy because it does not "lock" the port number with the OS. The // "random" port number that is returned here is most likely free to use, however // it is difficult to be 100% sure. This function should be used with care. It // will probably do what you want, but it is very easy to hold this wrong. func getProbablyFreePortNumber() (int, error) { l, err := net.Listen("tcp", ":0") if err != nil { return 0, err } defer l.Close() _, port, err := net.SplitHostPort(l.Addr().String()) if err != nil { return 0, err } portNum, err := strconv.Atoi(port) if err != nil { return 0, err } return portNum, nil } // TestVMIntegrationEndToEnd creates a virtual machine with qemu, installs // tailscale on it and then ensures that it connects to the network // successfully. func TestVMIntegrationEndToEnd(t *testing.T) { if !*runVMTests { t.Skip("not running integration tests (need --run-vm-tests)") } os.Setenv("CGO_ENABLED", "0") if _, err := exec.LookPath("qemu-system-x86_64"); err != nil { t.Logf("hint: nix-shell -p go -p qemu -p cdrkit --run 'go test --v --timeout=60m --run-vm-tests'") t.Fatalf("missing dependency: %v", err) } if _, err := exec.LookPath("genisoimage"); err != nil { t.Logf("hint: nix-shell -p go -p qemu -p cdrkit --run 'go test --v --timeout=60m --run-vm-tests'") t.Fatalf("missing dependency: %v", err) } dir := t.TempDir() rex := distroRex.Unwrap() ln, err := net.Listen("tcp", deriveBindhost(t)+":0") if err != nil { t.Fatalf("can't make TCP listener: %v", err) } defer ln.Close() t.Logf("host:port: %s", ln.Addr()) cs := &testcontrol.Server{} var ( ipMu sync.Mutex ipMap = map[string]ipMapping{} ) mux := http.NewServeMux() mux.Handle("/", cs) // This handler will let the virtual machines tell the host information about that VM. // This is used to maintain a list of port->IP address mappings that are known to be // working. This allows later steps to connect over SSH. This returns no response to // clients because no response is needed. mux.HandleFunc("/myip/", func(w http.ResponseWriter, r *http.Request) { ipMu.Lock() defer ipMu.Unlock() name := path.Base(r.URL.Path) host, _, _ := net.SplitHostPort(r.RemoteAddr) port, err := strconv.Atoi(name) if err != nil { log.Panicf("bad port: %v", port) } distro := r.UserAgent() ipMap[distro] = ipMapping{distro, port, host} t.Logf("%s: %v", name, host) }) hs := &http.Server{Handler: mux} go hs.Serve(ln) run(t, dir, "ssh-keygen", "-t", "ed25519", "-f", "machinekey", "-N", ``) pubkey, err := os.ReadFile(filepath.Join(dir, "machinekey.pub")) if err != nil { t.Fatalf("can't read ssh key: %v", err) } privateKey, err := os.ReadFile(filepath.Join(dir, "machinekey")) if err != nil { t.Fatalf("can't read ssh private key: %v", err) } signer, err := ssh.ParsePrivateKey(privateKey) if err != nil { t.Fatalf("can't parse private key: %v", err) } loginServer := fmt.Sprintf("http://%s", ln.Addr()) t.Logf("loginServer: %s", loginServer) ramsem := semaphore.NewWeighted(int64(*vmRamLimit)) bins := integration.BuildTestBinaries(t) t.Run("do", func(t *testing.T) { for n, distro := range distros { n, distro := n, distro if rex.MatchString(distro.name) { t.Logf("%s matches %s", distro.name, rex) } else { continue } t.Run(distro.name, func(t *testing.T) { ctx, done := context.WithCancel(context.Background()) t.Cleanup(done) t.Parallel() dir := t.TempDir() err := ramsem.Acquire(ctx, int64(distro.mem)) if err != nil { t.Fatalf("can't acquire ram semaphore: %v", err) } defer ramsem.Release(int64(distro.mem)) mkVM(t, n, distro, string(pubkey), loginServer, dir) var ipm ipMapping t.Run("wait-for-start", func(t *testing.T) { waiter := time.NewTicker(time.Second) defer waiter.Stop() var ok bool for { <-waiter.C ipMu.Lock() if ipm, ok = ipMap[distro.name]; ok { ipMu.Unlock() break } ipMu.Unlock() } }) testDistro(t, loginServer, distro, signer, ipm, bins) }) } }) } func testDistro(t *testing.T, loginServer string, d Distro, signer ssh.Signer, ipm ipMapping, bins *integration.Binaries) { t.Helper() port := ipm.port hostport := fmt.Sprintf("127.0.0.1:%d", port) ccfg := &ssh.ClientConfig{ User: "root", Auth: []ssh.AuthMethod{ssh.PublicKeys(signer), ssh.Password(securePassword)}, HostKeyCallback: ssh.InsecureIgnoreHostKey(), } // NOTE(Xe): This deadline loop helps to make things a bit faster, centos // sometimes is slow at starting its sshd and will sometimes randomly kill // SSH sessions on transition to multi-user.target. I don't know why they // don't use socket activation. const maxRetries = 5 var working bool for i := 0; i < maxRetries; i++ { cli, err := ssh.Dial("tcp", hostport, ccfg) if err == nil { working = true cli.Close() break } time.Sleep(10 * time.Second) } if !working { t.Fatalf("can't connect to %s, tried %d times", hostport, maxRetries) } t.Logf("about to ssh into 127.0.0.1:%d", port) cli, err := ssh.Dial("tcp", hostport, ccfg) if err != nil { t.Fatal(err) } copyBinaries(t, d, cli, bins) timeout := 30 * time.Second e, _, err := expect.SpawnSSH(cli, timeout, expect.Verbose(true), expect.VerboseWriter(logger.FuncWriter(t.Logf)), // // NOTE(Xe): if you get a timeout, uncomment this line to have the raw // output be sent to the test log quicker. //expect.Tee(nopWriteCloser{logger.FuncWriter(t.Logf)}), ) if err != nil { t.Fatalf("%d: can't register a shell session: %v", port, err) } defer e.Close() t.Log("opened session") _, _, err = e.Expect(regexp.MustCompile(`(\#)`), timeout) if err != nil { t.Fatalf("%d: can't get a shell: %v", port, err) } t.Logf("got shell for %d", port) switch d.initSystem { case "openrc": // NOTE(Xe): this is a sin, however openrc doesn't really have the concept // of service readiness. If this sleep is removed then tailscale will not be // ready once the `tailscale up` command is sent. This is not ideal, but I // am not really sure there is a good way around this without a delay of // some kind. err = e.Send("rc-service tailscaled start && sleep 2\n") case "systemd": err = e.Send("systemctl start tailscaled.service\n") } if err != nil { t.Fatalf("can't send command to start tailscaled: %v", err) } _, _, err = e.Expect(regexp.MustCompile(`(\#)`), timeout) if err != nil { t.Fatalf("%d: can't get a shell: %v", port, err) } err = e.Send(fmt.Sprintf("tailscale up --login-server %s\n", loginServer)) if err != nil { t.Fatalf("%d: can't send tailscale up command: %v", port, err) } _, _, err = e.Expect(regexp.MustCompile(`Success.`), timeout) if err != nil { t.Fatalf("not successful: %v", err) } } func copyBinaries(t *testing.T, d Distro, conn *ssh.Client, bins *integration.Binaries) { cli, err := sftp.NewClient(conn) if err != nil { t.Fatalf("can't connect over sftp to copy binaries: %v", err) } mkdir(t, cli, "/usr/bin") mkdir(t, cli, "/usr/sbin") mkdir(t, cli, "/etc/default") mkdir(t, cli, "/var/lib/tailscale") copyFile(t, cli, bins.Daemon, "/usr/sbin/tailscaled") copyFile(t, cli, bins.CLI, "/usr/bin/tailscale") // TODO(Xe): revisit this assumption before it breaks the test. copyFile(t, cli, "../../../cmd/tailscaled/tailscaled.defaults", "/etc/default/tailscaled") switch d.initSystem { case "openrc": mkdir(t, cli, "/etc/init.d") copyFile(t, cli, "../../../cmd/tailscaled/tailscaled.openrc", "/etc/init.d/tailscaled") case "systemd": mkdir(t, cli, "/etc/systemd/system") copyFile(t, cli, "../../../cmd/tailscaled/tailscaled.service", "/etc/systemd/system/tailscaled.service") } t.Log("tailscale installed!") } func mkdir(t *testing.T, cli *sftp.Client, name string) { t.Helper() err := cli.MkdirAll(name) if err != nil { t.Fatalf("can't make %s: %v", name, err) } } func copyFile(t *testing.T, cli *sftp.Client, localSrc, remoteDest string) { t.Helper() fin, err := os.Open(localSrc) if err != nil { t.Fatalf("can't open: %v", err) } defer fin.Close() fi, err := fin.Stat() if err != nil { t.Fatalf("can't stat: %v", err) } fout, err := cli.Create(remoteDest) if err != nil { t.Fatalf("can't create output file: %v", err) } err = fout.Chmod(fi.Mode()) if err != nil { fout.Close() t.Fatalf("can't chmod fout: %v", err) } n, err := io.Copy(fout, fin) if err != nil { fout.Close() t.Fatalf("copy failed: %v", err) } if fi.Size() != n { t.Fatalf("incorrect number of bytes copied: wanted: %d, got: %d", fi.Size(), n) } err = fout.Close() if err != nil { t.Fatalf("can't close fout on remote host: %v", err) } } func deriveBindhost(t *testing.T) string { t.Helper() ifName, err := interfaces.DefaultRouteInterface() if err != nil { t.Fatal(err) } var ret string err = interfaces.ForeachInterfaceAddress(func(i interfaces.Interface, prefix netaddr.IPPrefix) { if ret != "" || i.Name != ifName { return } ret = prefix.IP().String() }) if ret != "" { return ret } if err != nil { t.Fatal(err) } t.Fatal("can't find a bindhost") return "unreachable" } func TestDeriveBindhost(t *testing.T) { t.Log(deriveBindhost(t)) } type nopWriteCloser struct { io.Writer } func (nwc nopWriteCloser) Close() error { return nil } const metaDataTemplate = `instance-id: {{.ID}} local-hostname: {{.Hostname}}` const userDataTemplate = `#cloud-config #vim:syntax=yaml cloud_config_modules: - runcmd cloud_final_modules: - [users-groups, always] - [scripts-user, once-per-instance] users: - name: root ssh-authorized-keys: - {{.SSHKey}} - name: ts plain_text_passwd: {{.Password}} groups: [ wheel ] sudo: [ "ALL=(ALL) NOPASSWD:ALL" ] shell: /bin/sh ssh-authorized-keys: - {{.SSHKey}} write_files: - path: /etc/cloud/cloud.cfg.d/80_disable_network_after_firstboot.cfg content: | # Disable network configuration after first boot network: config: disabled runcmd: {{.InstallPre}} - [ curl, "{{.HostURL}}/myip/{{.Port}}", "-H", "User-Agent: {{.Hostname}}" ] `