package control import ( "bufio" "bytes" "crypto/md5" "fmt" "io" "io/ioutil" "os" "os/exec" "path/filepath" "runtime" "strconv" "strings" "github.com/rancher/os/log" "github.com/codegangsta/cli" "github.com/rancher/catalog-service/utils/version" "github.com/rancher/os/cmd/control/install" "github.com/rancher/os/cmd/power" "github.com/rancher/os/config" "github.com/rancher/os/dfs" // TODO: move CopyFile into util or something. "github.com/rancher/os/util" ) var installCommand = cli.Command{ Name: "install", Usage: "install RancherOS to disk", HideHelp: true, Action: installAction, Flags: []cli.Flag{ cli.StringFlag{ // TODO: need to validate ? -i rancher/os:v0.3.1 just sat there. Name: "image, i", Usage: `install from a certain image (e.g., 'rancher/os:v0.7.0') use 'ros os list' to see what versions are available.`, }, cli.StringFlag{ Name: "install-type, t", Usage: `generic: (Default) Creates 1 ext4 partition and installs RancherOS (syslinux) amazon-ebs: Installs RancherOS and sets up PV-GRUB gptsyslinux: partition and format disk (gpt), then install RancherOS and setup Syslinux `, }, cli.StringFlag{ Name: "cloud-config, c", Usage: "cloud-config yml file - needed for SSH authorized keys", }, cli.StringFlag{ Name: "device, d", Usage: "storage device", }, cli.StringFlag{ Name: "partition, p", Usage: "partition to install to", }, cli.StringFlag{ Name: "statedir", Usage: "install to rancher.state.directory", }, cli.BoolFlag{ Name: "force, f", Usage: "[ DANGEROUS! Data loss can happen ] partition/format without prompting", }, cli.BoolFlag{ Name: "no-reboot", Usage: "do not reboot after install", }, cli.StringFlag{ Name: "append, a", Usage: "append additional kernel parameters", }, cli.StringFlag{ Name: "rollback, r", Usage: "rollback version", Hidden: true, }, cli.BoolFlag{ Name: "isoinstallerloaded", Usage: "INTERNAL use only: mount the iso to get kernel and initrd", Hidden: true, }, cli.BoolFlag{ Name: "kexec, k", Usage: "reboot using kexec", }, cli.BoolFlag{ Name: "debug", Usage: "Run installer with debug output", }, }, } func installAction(c *cli.Context) error { if runtime.GOARCH != "amd64" { log.Fatalf("ros install / upgrade only supported on 'amd64', not '%s'", runtime.GOARCH) } if c.Args().Present() { log.Fatalf("invalid arguments %v", c.Args()) } debug := c.Bool("debug") if debug { originalLevel := log.GetLevel() defer log.SetLevel(originalLevel) log.SetLevel(log.DebugLevel) } kappend := strings.TrimSpace(c.String("append")) force := c.Bool("force") kexec := c.Bool("kexec") reboot := !c.Bool("no-reboot") isoinstallerloaded := c.Bool("isoinstallerloaded") image := c.String("image") cfg := config.LoadConfig() if image == "" { image = cfg.Rancher.Upgrade.Image + ":" + config.Version + config.Suffix } installType := c.String("install-type") if installType == "" { log.Info("No install type specified...defaulting to generic") installType = "generic" } if installType == "rancher-upgrade" || installType == "upgrade" { installType = "upgrade" // rancher-upgrade is redundant! force = true // the os.go upgrade code already asks reboot = false isoinstallerloaded = true // OMG this flag is aweful - kill it with fire } device := c.String("device") partition := c.String("partition") statedir := c.String("statedir") if statedir != "" && installType != "noformat" { log.Fatal("--statedir %s requires --type noformat", statedir) } if installType != "noformat" && installType != "raid" && installType != "bootstrap" && installType != "upgrade" { // These can use RANCHER_BOOT or RANCHER_STATE labels.. if device == "" { log.Fatal("Can not proceed without -d specified") } } cloudConfig := c.String("cloud-config") if cloudConfig == "" { if installType != "upgrade" { // TODO: I wonder if its plausible to merge a new cloud-config into an existing one on upgrade - so for now, i'm only turning off the warning log.Warn("Cloud-config not provided: you might need to provide cloud-config on boot with ssh_authorized_keys") } } else { os.MkdirAll("/opt", 0755) uc := "/opt/user_config.yml" if err := util.FileCopy(cloudConfig, uc); err != nil { log.WithFields(log.Fields{"cloudConfig": cloudConfig, "error": err}).Fatal("Failed to copy cloud-config") } cloudConfig = uc } if err := runInstall(image, installType, cloudConfig, device, partition, statedir, kappend, force, kexec, isoinstallerloaded, debug); err != nil { log.WithFields(log.Fields{"err": err}).Fatal("Failed to run install") return err } if !kexec && reboot && (force || yes("Continue with reboot")) { log.Info("Rebooting") power.Reboot() } return nil } func runInstall(image, installType, cloudConfig, device, partition, statedir, kappend string, force, kexec, isoinstallerloaded, debug bool) error { fmt.Printf("Installing from %s\n", image) if !force { if util.IsRunningInTty() && !yes("Continue") { log.Infof("Not continuing with installation due to user not saying 'yes'") os.Exit(1) } } diskType := "msdos" if installType == "gptsyslinux" { diskType = "gpt" } // Versions before 0.8.0-rc3 use the old calling convention (from the lay-down-os shell script) imageVersion := strings.TrimPrefix(image, "rancher/os:") if version.GreaterThan("v0.8.0-rc3", imageVersion) { log.Infof("user specified to install pre v0.8.0: %s", image) imageVersion = strings.Replace(imageVersion, "-", ".", -1) vArray := strings.Split(imageVersion, ".") if len(vArray) >= 2 { v, _ := strconv.ParseFloat(vArray[0]+"."+vArray[1], 32) if v < 0.8 || imageVersion == "0.8.0-rc1" { log.Infof("starting installer container for %s", image) if installType == "generic" || installType == "syslinux" || installType == "gptsyslinux" { cmd := exec.Command("system-docker", "run", "--net=host", "--privileged", "--volumes-from=all-volumes", "--entrypoint=/scripts/set-disk-partitions", image, device, diskType) cmd.Stdout, cmd.Stderr = os.Stdout, os.Stderr if err := cmd.Run(); err != nil { return err } } cmd := exec.Command("system-docker", "run", "--net=host", "--privileged", "--volumes-from=user-volumes", "--volumes-from=command-volumes", image, "-d", device, "-t", installType, "-c", cloudConfig, "-a", kappend) cmd.Stdout, cmd.Stderr = os.Stdout, os.Stderr return cmd.Run() } } } if _, err := os.Stat("/usr/bin/system-docker"); os.IsNotExist(err) { if err := os.Symlink("/usr/bin/ros", "/usr/bin/system-docker"); err != nil { log.Errorf("ln error %s", err) } } useIso := false // --isoinstallerloaded is used if the ros has created the installer container from and image that was on the booted iso if !isoinstallerloaded { log.Infof("start !isoinstallerloaded") if _, err := os.Stat("/dist/initrd-" + config.Version); os.IsNotExist(err) { if err = mountBootIso(); err != nil { log.Debugf("mountBootIso error %s", err) } else { log.Infof("trying to load /bootiso/rancheros/installer.tar.gz") if _, err := os.Stat("/bootiso/rancheros/"); err == nil { cmd := exec.Command("system-docker", "load", "-i", "/bootiso/rancheros/installer.tar.gz") cmd.Stdout, cmd.Stderr = os.Stdout, os.Stderr if err := cmd.Run(); err != nil { log.Infof("failed to load images from /bootiso/rancheros: %s", err) } else { log.Infof("Loaded images from /bootiso/rancheros/installer.tar.gz") //TODO: add if os-installer:latest exists - we might have loaded a full installer? useIso = true // now use the installer image cfg := config.LoadConfig() if image == cfg.Rancher.Upgrade.Image+":"+config.Version+config.Suffix { // TODO: fix the fullinstaller Dockerfile to use the ${VERSION}${SUFFIX} image = cfg.Rancher.Upgrade.Image + "-installer" + ":latest" } } } // TODO: also poke around looking for the /boot/vmlinuz and initrd... } log.Infof("starting installer container for %s (new)", image) installerCmd := []string{ "run", "--rm", "--net=host", "--privileged", // bind mount host fs to access its ros, vmlinuz, initrd and /dev (udev isn't running in container) "-v", "/:/host", "--volumes-from=all-volumes", image, // "install", "-t", installType, "-d", device, "-i", image, // TODO: this isn't used - I'm just using it to over-ride the defaulting } // Need to call the inner container with force - the outer one does the "are you sure" installerCmd = append(installerCmd, "-f") // The outer container does the reboot (if needed) installerCmd = append(installerCmd, "--no-reboot") if cloudConfig != "" { installerCmd = append(installerCmd, "-c", cloudConfig) } if kappend != "" { installerCmd = append(installerCmd, "-a", kappend) } if useIso { installerCmd = append(installerCmd, "--isoinstallerloaded=1") } if kexec { installerCmd = append(installerCmd, "--kexec") } if debug { installerCmd = append(installerCmd, "--debug") } if partition != "" { installerCmd = append(installerCmd, "--partition", partition) } if statedir != "" { installerCmd = append(installerCmd, "--statedir", statedir) } // TODO: mount at /mnt for shared mount? if useIso { util.Unmount("/bootiso") } cmd := exec.Command("system-docker", installerCmd...) log.Debugf("Run(%v)", cmd) cmd.Stdout, cmd.Stderr = os.Stdout, os.Stderr return cmd.Run() } } // TODO: needs to pass the log level on to the container log.InitLogger() log.SetLevel(log.InfoLevel) log.Debugf("running installation") if partition == "" { if installType == "generic" || installType == "syslinux" || installType == "gptsyslinux" { diskType := "msdos" if installType == "gptsyslinux" { diskType = "gpt" } log.Debugf("running setDiskpartitions") err := setDiskpartitions(device, diskType) if err != nil { log.Errorf("error setDiskpartitions %s", err) return err } // use the bind mounted host filesystem to get access to the /dev/vda1 device that udev on the host sets up (TODO: can we run a udevd inside the container? `mknod b 253 1 /dev/vda1` doesn't work) device = "/host" + device //# TODO: Change this to a number so that users can specify. //# Will need to make it so that our builds and packer APIs remain consistent. partition = device + "1" //${partition:=${device}1} } } if installType == "upgrade" { isoinstallerloaded = false } if isoinstallerloaded { log.Debugf("running isoinstallerloaded...") // TODO: detect if its not mounted and then optionally mount? if err := mountBootIso(); err != nil { log.Errorf("error mountBootIso %s", err) //return err } } err := layDownOS(image, installType, cloudConfig, device, partition, statedir, kappend, kexec) if err != nil { log.Errorf("error layDownOS %s", err) return err } return nil } func mountBootIso() error { deviceName := "/dev/sr0" deviceType := "iso9660" d, t, err := util.Blkid("RancherOS") if err != nil { log.Errorf("Failed to run blkid: %s", err) } if d != "" { deviceName = d deviceType = t } mountsFile, err := os.Open("/proc/mounts") if err != nil { log.Errorf("failed to read /proc/mounts %s", err) return err } defer mountsFile.Close() if partitionMounted(deviceName, mountsFile) { return nil } os.MkdirAll("/bootiso", 0755) cmd := exec.Command("mount", "-t", deviceType, deviceName, "/bootiso") log.Debugf("mount (%#v)", cmd) cmd.Stdout, cmd.Stderr = os.Stdout, os.Stderr err = cmd.Run() if err != nil { log.Errorf("tried and failed to mount %s: %s", deviceName, err) } else { log.Debugf("Mounted %s", deviceName) } return err } func layDownOS(image, installType, cloudConfig, device, partition, statedir, kappend string, kexec bool) error { // ENV == installType //[[ "$ARCH" == "arm" && "$ENV" != "upgrade" ]] && ENV=arm // image == rancher/os:v0.7.0_arm // TODO: remove the _arm suffix (but watch out, its not always there..) VERSION := image[strings.Index(image, ":")+1:] var FILES []string DIST := "/dist" //${DIST:-/dist} //cloudConfig := SCRIPTS_DIR + "/conf/empty.yml" //${cloudConfig:-"${SCRIPTS_DIR}/conf/empty.yml"} CONSOLE := "tty0" baseName := "/mnt/new_img" kernelArgs := "printk.devkmsg=on rancher.state.dev=LABEL=RANCHER_STATE rancher.state.wait" // console="+CONSOLE if statedir != "" { kernelArgs = kernelArgs + " rancher.state.directory=" + statedir } // unmount on trap defer util.Unmount(baseName) diskType := "msdos" if installType == "gptsyslinux" { diskType = "gpt" } switch installType { case "syslinux": fallthrough case "gptsyslinux": fallthrough case "generic": log.Debugf("formatAndMount") var err error device, partition, err = formatAndMount(baseName, device, partition) if err != nil { log.Errorf("formatAndMount %s", err) return err } err = installSyslinux(device, baseName, diskType) if err != nil { log.Errorf("installSyslinux %s", err) return err } err = seedData(baseName, cloudConfig, FILES) if err != nil { log.Errorf("seedData %s", err) return err } case "arm": var err error device, partition, err = formatAndMount(baseName, device, partition) if err != nil { return err } seedData(baseName, cloudConfig, FILES) case "amazon-ebs-pv": fallthrough case "amazon-ebs-hvm": CONSOLE = "ttyS0" var err error device, partition, err = formatAndMount(baseName, device, partition) if err != nil { return err } if installType == "amazon-ebs-hvm" { installSyslinux(device, baseName, diskType) } //# AWS Networking recommends disabling. seedData(baseName, cloudConfig, FILES) case "googlecompute": CONSOLE = "ttyS0" var err error device, partition, err = formatAndMount(baseName, device, partition) if err != nil { return err } installSyslinux(device, baseName, diskType) seedData(baseName, cloudConfig, FILES) case "noformat": var err error device, partition, err = install.MountDevice(baseName, device, partition, false) if err != nil { return err } installSyslinux(device, baseName, diskType) if err := os.MkdirAll(filepath.Join(baseName, statedir), 0755); err != nil { return err } case "raid": var err error device, partition, err = install.MountDevice(baseName, device, partition, false) if err != nil { return err } installSyslinux(device, baseName, diskType) case "bootstrap": CONSOLE = "ttyS0" var err error device, partition, err = install.MountDevice(baseName, device, partition, true) if err != nil { return err } kernelArgs = kernelArgs + " rancher.cloud_init.datasources=[ec2,gce]" case "rancher-upgrade": installType = "upgrade" // rancher-upgrade is redundant fallthrough case "upgrade": var err error device, partition, err = install.MountDevice(baseName, device, partition, false) if err != nil { return err } log.Debugf("upgrading - %s, %s, %s, %s", device, baseName, diskType) // TODO: detect pv-grub, and don't kill it with syslinux upgradeBootloader(device, baseName, diskType) default: return fmt.Errorf("unexpected install type %s", installType) } kernelArgs = kernelArgs + " console=" + CONSOLE if kappend == "" { preservedAppend, _ := ioutil.ReadFile(filepath.Join(baseName, install.BootDir+"append")) kappend = string(preservedAppend) } else { ioutil.WriteFile(filepath.Join(baseName, install.BootDir+"append"), []byte(kappend), 0644) } if installType == "amazon-ebs-pv" { menu := install.BootVars{ BaseName: baseName, BootDir: install.BootDir, Timeout: 0, Fallback: 0, // need to be conditional on there being a 'rollback'? Entries: []install.MenuEntry{ install.MenuEntry{"RancherOS-current", install.BootDir, VERSION, kernelArgs, kappend}, }, } install.PvGrubConfig(menu) } log.Debugf("installRancher") _, err := installRancher(baseName, VERSION, DIST, kernelArgs+" "+kappend) if err != nil { log.Errorf("%s", err) return err } log.Debugf("installRancher done") if kexec { power.Kexec(false, filepath.Join(baseName, install.BootDir), kernelArgs+" "+kappend) } return nil } // files is an array of 'sourcefile:destination' - but i've not seen any examples of it being used. func seedData(baseName, cloudData string, files []string) error { log.Debugf("seedData") _, err := os.Stat(baseName) if err != nil { return err } if err = os.MkdirAll(filepath.Join(baseName, "/var/lib/rancher/conf/cloud-config.d"), 0700); err != nil { return err } if !strings.HasSuffix(cloudData, "empty.yml") { if err = dfs.CopyFile(cloudData, baseName+"/var/lib/rancher/conf/cloud-config.d/", filepath.Base(cloudData)); err != nil { return err } } for _, f := range files { e := strings.Split(f, ":") if err = dfs.CopyFile(e[0], baseName, e[1]); err != nil { return err } } return nil } // set-disk-partitions is called with device == **/dev/sda** func setDiskpartitions(device, diskType string) error { log.Debugf("setDiskpartitions") d := strings.Split(device, "/") if len(d) != 3 { return fmt.Errorf("bad device name (%s)", device) } deviceName := d[2] file, err := os.Open("/proc/partitions") if err != nil { log.Debugf("failed to read /proc/partitions %s", err) return err } defer file.Close() exists := false haspartitions := false scanner := bufio.NewScanner(file) for scanner.Scan() { str := scanner.Text() last := strings.LastIndex(str, " ") if last > -1 { dev := str[last+1:] if strings.HasPrefix(dev, deviceName) { if dev == deviceName { exists = true } else { haspartitions = true } } } } if !exists { return fmt.Errorf("disk %s not found: %s", device, err) } if haspartitions { log.Debugf("device %s already partitioned - checking if any are mounted", device) file, err := os.Open("/proc/mounts") if err != nil { log.Errorf("failed to read /proc/mounts %s", err) return err } defer file.Close() if partitionMounted(device, file) { err = fmt.Errorf("partition %s mounted, cannot repartition", device) log.Errorf("%s", err) return err } cmd := exec.Command("system-docker", "ps", "-q") var outb bytes.Buffer cmd.Stdout = &outb if err := cmd.Run(); err != nil { log.Printf("ps error: %s", err) return err } for _, image := range strings.Split(outb.String(), "\n") { if image == "" { continue } r, w := io.Pipe() go func() { // TODO: consider a timeout // TODO:some of these containers don't have cat / shell cmd := exec.Command("system-docker", "exec", image, "cat /proc/mount") cmd.Stdout = w if err := cmd.Run(); err != nil { log.Debugf("%s cat %s", image, err) } w.Close() }() if partitionMounted(device, r) { err = fmt.Errorf("partition %s mounted in %s, cannot repartition", device, image) log.Errorf("k? %s", err) return err } } } //do it! log.Debugf("running dd") cmd := exec.Command("dd", "if=/dev/zero", "of="+device, "bs=512", "count=2048") //cmd.Stdout, cmd.Stderr = os.Stdout, os.Stderr if err := cmd.Run(); err != nil { log.Errorf("dd error %s", err) return err } log.Debugf("running partprobe") cmd = exec.Command("partprobe", device) //cmd.Stdout, cmd.Stderr = os.Stdout, os.Stderr if err := cmd.Run(); err != nil { log.Errorf("partprobe error %s", err) return err } log.Debugf("making single RANCHER_STATE partition") cmd = exec.Command("parted", "-s", "-a", "optimal", device, "mklabel "+diskType, "--", "mkpart primary ext4 1 -1") cmd.Stdout, cmd.Stderr = os.Stdout, os.Stderr if err := cmd.Run(); err != nil { log.Errorf("parted: %s", err) return err } return setBootable(device, diskType) } func partitionMounted(device string, file io.Reader) bool { scanner := bufio.NewScanner(file) for scanner.Scan() { str := scanner.Text() // /dev/sdb1 /data ext4 rw,relatime,errors=remount-ro,data=ordered 0 0 ele := strings.Split(str, " ") if len(ele) > 5 { if strings.HasPrefix(ele[0], device) { return true } } if err := scanner.Err(); err != nil { log.Errorf("scanner %s", err) return false } } return false } func formatdevice(device, partition string) error { log.Debugf("formatdevice %s", partition) //mkfs.ext4 -F -i 4096 -L RANCHER_STATE ${partition} // -O ^64bit: for syslinux: http://www.syslinux.org/wiki/index.php?title=Filesystem#ext cmd := exec.Command("mkfs.ext4", "-F", "-i", "4096", "-O", "^64bit", "-L", "RANCHER_STATE", partition) log.Debugf("Run(%v)", cmd) cmd.Stdout, cmd.Stderr = os.Stdout, os.Stderr if err := cmd.Run(); err != nil { log.Errorf("mkfs.ext4: %s", err) return err } return nil } func mountdevice(baseName, bootDir, device, partition string, raw bool) (string, string, error) { log.Debugf("mountdevice %s, raw %v", partition, raw) if partition == "" { if raw { log.Debugf("util.Mount (raw) %s, %s", partition, baseName) cmd := exec.Command("lsblk", "-no", "pkname", partition) log.Debugf("Run(%v)", cmd) cmd.Stderr = os.Stderr device := "" // TODO: out can == "" - this is used to "detect software RAID" which is terrible if out, err := cmd.Output(); err == nil { device = "/dev/" + strings.TrimSpace(string(out)) } log.Debugf("mountdevice return -> d: %s, p: %s", device, partition) return device, partition, util.Mount(partition, baseName, "", "") } //rootfs := partition // Don't use ResolveDevice - it can fail, whereas `blkid -L LABEL` works more often cfg := config.LoadConfig() d, _, err := util.Blkid("RANCHER_BOOT") if err != nil { log.Errorf("Failed to run blkid: %s", err) } if d != "" { partition = d baseName = filepath.Join(baseName, "boot") } else { if dev := util.ResolveDevice(cfg.Rancher.State.Dev); dev != "" { // try the rancher.state.dev setting partition = dev } else { d, _, err := util.Blkid("RANCHER_STATE") if err != nil { log.Errorf("Failed to run blkid: %s", err) } if d != "" { partition = d } } } cmd := exec.Command("lsblk", "-no", "pkname", partition) log.Debugf("Run(%v)", cmd) cmd.Stderr = os.Stderr // TODO: out can == "" - this is used to "detect software RAID" which is terrible if out, err := cmd.Output(); err == nil { device = "/dev/" + strings.TrimSpace(string(out)) } } os.MkdirAll(baseName, 0755) cmd := exec.Command("mount", partition, baseName) //cmd.Stdout, cmd.Stderr = os.Stdout, os.Stderr log.Debugf("mountdevice return2 -> d: %s, p: %s", device, partition) return device, partition, cmd.Run() } func formatAndMount(baseName, device, partition string) (string, string, error) { log.Debugf("formatAndMount") err := formatdevice(device, partition) if err != nil { log.Errorf("formatdevice %s", err) return device, partition, err } device, partition, err = install.MountDevice(baseName, device, partition, false) if err != nil { log.Errorf("mountdevice %s", err) return device, partition, err } return device, partition, nil } func setBootable(device, diskType string) error { // TODO make conditional - if there is a bootable device already, don't break it // TODO: make RANCHER_BOOT bootable - it might not be device 1 bootflag := "boot" if diskType == "gpt" { bootflag = "legacy_boot" } log.Debugf("making device 1 on %s bootable as %s", device, diskType) cmd := exec.Command("parted", "-s", "-a", "optimal", device, "set 1 "+bootflag+" on") cmd.Stdout, cmd.Stderr = os.Stdout, os.Stderr if err := cmd.Run(); err != nil { log.Errorf("parted: %s", err) return err } return nil } func upgradeBootloader(device, baseName, diskType string) error { log.Debugf("start upgradeBootloader") grubDir := filepath.Join(baseName, install.BootDir+"grub") if _, err := os.Stat(grubDir); os.IsNotExist(err) { log.Debugf("%s does not exist - no need to upgrade bootloader", grubDir) // we've already upgraded // TODO: in v0.9.0, need to detect what version syslinux we have return nil } // deal with systems which were previously upgraded, then rolled back, and are now being re-upgraded grubBackup := filepath.Join(baseName, install.BootDir+"grub_backup") if err := os.RemoveAll(grubBackup); err != nil { log.Errorf("RemoveAll (%s): %s", grubBackup, err) return err } backupSyslinuxDir := filepath.Join(baseName, install.BootDir+"syslinux_backup") if _, err := os.Stat(backupSyslinuxDir); !os.IsNotExist(err) { backupSyslinuxLdlinuxSys := filepath.Join(backupSyslinuxDir, "ldlinux.sys") if _, err := os.Stat(backupSyslinuxLdlinuxSys); !os.IsNotExist(err) { //need a privileged container that can chattr -i ldlinux.sys cmd := exec.Command("chattr", "-i", backupSyslinuxLdlinuxSys) if err := cmd.Run(); err != nil { log.Errorf("%s", err) return err } } if err := os.RemoveAll(backupSyslinuxDir); err != nil { log.Errorf("RemoveAll (%s): %s", backupSyslinuxDir, err) return err } } if err := os.Rename(grubDir, grubBackup); err != nil { log.Errorf("Rename(%s): %s", grubDir, err) return err } syslinuxDir := filepath.Join(baseName, install.BootDir+"syslinux") // it seems that v0.5.0 didn't have a syslinux dir, while 0.7 does if _, err := os.Stat(syslinuxDir); !os.IsNotExist(err) { if err := os.Rename(syslinuxDir, backupSyslinuxDir); err != nil { log.Infof("error Rename(%s, %s): %s", syslinuxDir, backupSyslinuxDir, err) } else { //mv the old syslinux into linux-previous.cfg oldSyslinux, err := ioutil.ReadFile(filepath.Join(backupSyslinuxDir, "syslinux.cfg")) if err != nil { log.Infof("error read(%s / syslinux.cfg): %s", backupSyslinuxDir, err) } else { cfg := string(oldSyslinux) //DEFAULT RancherOS-current // //LABEL RancherOS-current // LINUX ../vmlinuz-v0.7.1-rancheros // APPEND rancher.state.dev=LABEL=RANCHER_STATE rancher.state.wait console=tty0 rancher.password=rancher // INITRD ../initrd-v0.7.1-rancheros cfg = strings.Replace(cfg, "current", "previous", -1) // TODO consider removing the APPEND line - as the global.cfg should have the same result ioutil.WriteFile(filepath.Join(baseName, install.BootDir, "linux-current.cfg"), []byte(cfg), 0644) lines := strings.Split(cfg, "\n") for _, line := range lines { line = strings.TrimSpace(line) if strings.HasPrefix(line, "APPEND") { log.Errorf("write new (%s) %s", filepath.Join(baseName, install.BootDir, "global.cfg"), err) // TODO: need to append any extra's the user specified ioutil.WriteFile(filepath.Join(baseName, install.BootDir, "global.cfg"), []byte(cfg), 0644) break } } } } } return installSyslinux(device, baseName, diskType) } func installSyslinux(device, baseName, diskType string) error { log.Debugf("installSyslinux(%s)", device) mbrFile := "mbr.bin" if diskType == "gpt" { mbrFile = "gptmbr.bin" } //dd bs=440 count=1 if=/usr/lib/syslinux/mbr/mbr.bin of=${device} // ubuntu: /usr/lib/syslinux/mbr/mbr.bin // alpine: /usr/share/syslinux/mbr.bin if device == "/dev/" { log.Debugf("installSyslinuxRaid(%s)", device) //RAID - assume sda&sdb //TODO: fix this - not sure how to detect what disks should have mbr - perhaps we need a param // perhaps just assume and use the devices that make up the raid - mdadm device = "/dev/sda" if err := setBootable(device, diskType); err != nil { log.Errorf("setBootable(%s, %s): %s", device, diskType, err) //return err } cmd := exec.Command("dd", "bs=440", "count=1", "if=/usr/share/syslinux/"+mbrFile, "of="+device) if err := cmd.Run(); err != nil { log.Errorf("%s", err) return err } device = "/dev/sdb" if err := setBootable(device, diskType); err != nil { log.Errorf("setBootable(%s, %s): %s", device, diskType, err) //return err } cmd = exec.Command("dd", "bs=440", "count=1", "if=/usr/share/syslinux/"+mbrFile, "of="+device) if err := cmd.Run(); err != nil { log.Errorf("%s", err) return err } } else { if err := setBootable(device, diskType); err != nil { log.Errorf("setBootable(%s, %s): %s", device, diskType, err) //return err } log.Debugf("installSyslinux(%s)", device) cmd := exec.Command("dd", "bs=440", "count=1", "if=/usr/share/syslinux/"+mbrFile, "of="+device) log.Debugf("Run(%v)", cmd) if err := cmd.Run(); err != nil { log.Errorf("dd: %s", err) return err } } sysLinuxDir := filepath.Join(baseName, install.BootDir, "syslinux") if err := os.MkdirAll(sysLinuxDir, 0755); err != nil { log.Errorf("MkdirAll(%s)): %s", sysLinuxDir, err) //return err } //cp /usr/lib/syslinux/modules/bios/* ${baseName}/${bootDir}syslinux files, _ := ioutil.ReadDir("/usr/share/syslinux/") for _, file := range files { if file.IsDir() { continue } if err := dfs.CopyFile(filepath.Join("/usr/share/syslinux/", file.Name()), sysLinuxDir, file.Name()); err != nil { log.Errorf("copy syslinux: %s", err) return err } } //extlinux --install ${baseName}/${bootDir}syslinux cmd := exec.Command("extlinux", "--install", sysLinuxDir) if device == "/dev/" { //extlinux --install --raid ${baseName}/${bootDir}syslinux cmd = exec.Command("extlinux", "--install", "--raid", sysLinuxDir) } //cmd.Stdout, cmd.Stderr = os.Stdout, os.Stderr log.Debugf("Run(%v)", cmd) if err := cmd.Run(); err != nil { log.Errorf("extlinux: %s", err) return err } return nil } func different(existing, new string) bool { // assume existing file exists if _, err := os.Stat(new); os.IsNotExist(err) { return true } data, err := ioutil.ReadFile(existing) if err != nil { return true } newData, err := ioutil.ReadFile(new) if err != nil { return true } md5sum := md5.Sum(data) newmd5sum := md5.Sum(newData) if md5sum != newmd5sum { return true } return false } func installRancher(baseName, VERSION, DIST, kappend string) (string, error) { log.Debugf("installRancher") // detect if there already is a linux-current.cfg, if so, move it to linux-previous.cfg, currentCfg := filepath.Join(baseName, install.BootDir, "linux-current.cfg") if _, err := os.Stat(currentCfg); !os.IsNotExist(err) { existingCfg := filepath.Join(DIST, "linux-current.cfg") // only remove previous if there is a change to the current if different(currentCfg, existingCfg) { previousCfg := filepath.Join(baseName, install.BootDir, "linux-previous.cfg") if _, err := os.Stat(previousCfg); !os.IsNotExist(err) { if err := os.Remove(previousCfg); err != nil { return currentCfg, err } } os.Rename(currentCfg, previousCfg) // TODO: now that we're parsing syslinux.cfg files, maybe we can delete old kernels and initrds } } // The image/ISO have all the files in it - the syslinux cfg's and the kernel&initrd, so we can copy them all from there files, _ := ioutil.ReadDir(DIST) for _, file := range files { if file.IsDir() { continue } // TODO: should overwrite anything other than the global.cfg overwrite := true if file.Name() == "global.cfg" { overwrite = false } if err := dfs.CopyFileOverwrite(filepath.Join(DIST, file.Name()), filepath.Join(baseName, install.BootDir), file.Name(), overwrite); err != nil { log.Errorf("copy %s: %s", file.Name(), err) //return err } } // the general INCLUDE syslinuxcfg isolinuxFile := filepath.Join(DIST, "isolinux", "isolinux.cfg") syslinuxDir := filepath.Join(baseName, install.BootDir, "syslinux") if err := dfs.CopyFileOverwrite(isolinuxFile, syslinuxDir, "syslinux.cfg", true); err != nil { log.Errorf("copy global syslinux.cfgS%s: %s", "syslinux.cfg", err) //return err } else { log.Debugf("installRancher copy global syslinux.cfgS OK") } // The global.cfg INCLUDE - useful for over-riding the APPEND line globalFile := filepath.Join(filepath.Join(baseName, install.BootDir), "global.cfg") if _, err := os.Stat(globalFile); !os.IsNotExist(err) { err := ioutil.WriteFile(globalFile, []byte("APPEND "+kappend), 0644) if err != nil { log.Errorf("write (%s) %s", "global.cfg", err) return currentCfg, err } } return currentCfg, nil }