// +build linux package libcontainer import ( "fmt" "io" "io/ioutil" "os" "os/exec" "path" "path/filepath" "strings" "time" "github.com/cyphar/filepath-securejoin" "github.com/mrunalp/fileutils" "github.com/opencontainers/runc/libcontainer/cgroups" "github.com/opencontainers/runc/libcontainer/configs" "github.com/opencontainers/runc/libcontainer/mount" "github.com/opencontainers/runc/libcontainer/system" libcontainerUtils "github.com/opencontainers/runc/libcontainer/utils" "github.com/opencontainers/selinux/go-selinux/label" "golang.org/x/sys/unix" ) const defaultMountFlags = unix.MS_NOEXEC | unix.MS_NOSUID | unix.MS_NODEV // needsSetupDev returns true if /dev needs to be set up. func needsSetupDev(config *configs.Config) bool { for _, m := range config.Mounts { if m.Device == "bind" && libcontainerUtils.CleanPath(m.Destination) == "/dev" { return false } } return true } // prepareRootfs sets up the devices, mount points, and filesystems for use // inside a new mount namespace. It doesn't set anything as ro. You must call // finalizeRootfs after this function to finish setting up the rootfs. func prepareRootfs(pipe io.ReadWriter, iConfig *initConfig) (err error) { config := iConfig.Config if err := prepareRoot(config); err != nil { return newSystemErrorWithCause(err, "preparing rootfs") } hasCgroupns := config.Namespaces.Contains(configs.NEWCGROUP) setupDev := needsSetupDev(config) for _, m := range config.Mounts { for _, precmd := range m.PremountCmds { if err := mountCmd(precmd); err != nil { return newSystemErrorWithCause(err, "running premount command") } } if err := mountToRootfs(m, config.Rootfs, config.MountLabel, hasCgroupns); err != nil { return newSystemErrorWithCausef(err, "mounting %q to rootfs %q at %q", m.Source, config.Rootfs, m.Destination) } for _, postcmd := range m.PostmountCmds { if err := mountCmd(postcmd); err != nil { return newSystemErrorWithCause(err, "running postmount command") } } } if setupDev { if err := createDevices(config); err != nil { return newSystemErrorWithCause(err, "creating device nodes") } if err := setupPtmx(config); err != nil { return newSystemErrorWithCause(err, "setting up ptmx") } if err := setupDevSymlinks(config.Rootfs); err != nil { return newSystemErrorWithCause(err, "setting up /dev symlinks") } } // Signal the parent to run the pre-start hooks. // The hooks are run after the mounts are setup, but before we switch to the new // root, so that the old root is still available in the hooks for any mount // manipulations. // Note that iConfig.Cwd is not guaranteed to exist here. if err := syncParentHooks(pipe); err != nil { return err } // The reason these operations are done here rather than in finalizeRootfs // is because the console-handling code gets quite sticky if we have to set // up the console before doing the pivot_root(2). This is because the // Console API has to also work with the ExecIn case, which means that the // API must be able to deal with being inside as well as outside the // container. It's just cleaner to do this here (at the expense of the // operation not being perfectly split). if err := unix.Chdir(config.Rootfs); err != nil { return newSystemErrorWithCausef(err, "changing dir to %q", config.Rootfs) } if config.NoPivotRoot { err = msMoveRoot(config.Rootfs) } else if config.Namespaces.Contains(configs.NEWNS) { err = pivotRoot(config.Rootfs) } else { err = chroot(config.Rootfs) } if err != nil { return newSystemErrorWithCause(err, "jailing process inside rootfs") } if setupDev { if err := reOpenDevNull(); err != nil { return newSystemErrorWithCause(err, "reopening /dev/null inside container") } } if cwd := iConfig.Cwd; cwd != "" { // Note that spec.Process.Cwd can contain unclean value like "../../../../foo/bar...". // However, we are safe to call MkDirAll directly because we are in the jail here. if err := os.MkdirAll(cwd, 0755); err != nil { return err } } return nil } // finalizeRootfs sets anything to ro if necessary. You must call // prepareRootfs first. func finalizeRootfs(config *configs.Config) (err error) { // remount dev as ro if specified for _, m := range config.Mounts { if libcontainerUtils.CleanPath(m.Destination) == "/dev" { if m.Flags&unix.MS_RDONLY == unix.MS_RDONLY { if err := remountReadonly(m); err != nil { return newSystemErrorWithCausef(err, "remounting %q as readonly", m.Destination) } } break } } // set rootfs ( / ) as readonly if config.Readonlyfs { if err := setReadonly(); err != nil { return newSystemErrorWithCause(err, "setting rootfs as readonly") } } unix.Umask(0022) return nil } // /tmp has to be mounted as private to allow MS_MOVE to work in all situations func prepareTmp(topTmpDir string) (string, error) { tmpdir, err := ioutil.TempDir(topTmpDir, "runctop") if err != nil { return "", err } if err := unix.Mount(tmpdir, tmpdir, "bind", unix.MS_BIND, ""); err != nil { return "", err } if err := unix.Mount("", tmpdir, "", uintptr(unix.MS_PRIVATE), ""); err != nil { return "", err } return tmpdir, nil } func cleanupTmp(tmpdir string) error { unix.Unmount(tmpdir, 0) return os.RemoveAll(tmpdir) } func mountCmd(cmd configs.Command) error { command := exec.Command(cmd.Path, cmd.Args[:]...) command.Env = cmd.Env command.Dir = cmd.Dir if out, err := command.CombinedOutput(); err != nil { return fmt.Errorf("%#v failed: %s: %v", cmd, string(out), err) } return nil } func mountToRootfs(m *configs.Mount, rootfs, mountLabel string, enableCgroupns bool) error { var ( dest = m.Destination ) if !strings.HasPrefix(dest, rootfs) { dest = filepath.Join(rootfs, dest) } switch m.Device { case "proc", "sysfs": if err := os.MkdirAll(dest, 0755); err != nil { return err } // Selinux kernels do not support labeling of /proc or /sys return mountPropagate(m, rootfs, "") case "mqueue": if err := os.MkdirAll(dest, 0755); err != nil { return err } if err := mountPropagate(m, rootfs, mountLabel); err != nil { // older kernels do not support labeling of /dev/mqueue if err := mountPropagate(m, rootfs, ""); err != nil { return err } return label.SetFileLabel(dest, mountLabel) } return nil case "tmpfs": copyUp := m.Extensions&configs.EXT_COPYUP == configs.EXT_COPYUP tmpDir := "" stat, err := os.Stat(dest) if err != nil { if err := os.MkdirAll(dest, 0755); err != nil { return err } } if copyUp { tmpdir, err := prepareTmp("/tmp") if err != nil { return newSystemErrorWithCause(err, "tmpcopyup: failed to setup tmpdir") } defer cleanupTmp(tmpdir) tmpDir, err = ioutil.TempDir(tmpdir, "runctmpdir") if err != nil { return newSystemErrorWithCause(err, "tmpcopyup: failed to create tmpdir") } defer os.RemoveAll(tmpDir) m.Destination = tmpDir } if err := mountPropagate(m, rootfs, mountLabel); err != nil { return err } if copyUp { if err := fileutils.CopyDirectory(dest, tmpDir); err != nil { errMsg := fmt.Errorf("tmpcopyup: failed to copy %s to %s: %v", dest, tmpDir, err) if err1 := unix.Unmount(tmpDir, unix.MNT_DETACH); err1 != nil { return newSystemErrorWithCausef(err1, "tmpcopyup: %v: failed to unmount", errMsg) } return errMsg } if err := unix.Mount(tmpDir, dest, "", unix.MS_MOVE, ""); err != nil { errMsg := fmt.Errorf("tmpcopyup: failed to move mount %s to %s: %v", tmpDir, dest, err) if err1 := unix.Unmount(tmpDir, unix.MNT_DETACH); err1 != nil { return newSystemErrorWithCausef(err1, "tmpcopyup: %v: failed to unmount", errMsg) } return errMsg } } if stat != nil { if err = os.Chmod(dest, stat.Mode()); err != nil { return err } } return nil case "bind": stat, err := os.Stat(m.Source) if err != nil { // error out if the source of a bind mount does not exist as we will be // unable to bind anything to it. return err } // ensure that the destination of the bind mount is resolved of symlinks at mount time because // any previous mounts can invalidate the next mount's destination. // this can happen when a user specifies mounts within other mounts to cause breakouts or other // evil stuff to try to escape the container's rootfs. if dest, err = securejoin.SecureJoin(rootfs, m.Destination); err != nil { return err } if err := checkMountDestination(rootfs, dest); err != nil { return err } // update the mount with the correct dest after symlinks are resolved. m.Destination = dest if err := createIfNotExists(dest, stat.IsDir()); err != nil { return err } if err := mountPropagate(m, rootfs, mountLabel); err != nil { return err } // bind mount won't change mount options, we need remount to make mount options effective. // first check that we have non-default options required before attempting a remount if m.Flags&^(unix.MS_REC|unix.MS_REMOUNT|unix.MS_BIND) != 0 { // only remount if unique mount options are set if err := remount(m, rootfs); err != nil { return err } } if m.Relabel != "" { if err := label.Validate(m.Relabel); err != nil { return err } shared := label.IsShared(m.Relabel) if err := label.Relabel(m.Source, mountLabel, shared); err != nil { return err } } case "cgroup": binds, err := getCgroupMounts(m) if err != nil { return err } var merged []string for _, b := range binds { ss := filepath.Base(b.Destination) if strings.Contains(ss, ",") { merged = append(merged, ss) } } tmpfs := &configs.Mount{ Source: "tmpfs", Device: "tmpfs", Destination: m.Destination, Flags: defaultMountFlags, Data: "mode=755", PropagationFlags: m.PropagationFlags, } if err := mountToRootfs(tmpfs, rootfs, mountLabel, enableCgroupns); err != nil { return err } for _, b := range binds { if enableCgroupns { subsystemPath := filepath.Join(rootfs, b.Destination) if err := os.MkdirAll(subsystemPath, 0755); err != nil { return err } flags := defaultMountFlags if m.Flags&unix.MS_RDONLY != 0 { flags = flags | unix.MS_RDONLY } cgroupmount := &configs.Mount{ Source: "cgroup", Device: "cgroup", Destination: subsystemPath, Flags: flags, Data: filepath.Base(subsystemPath), } if err := mountNewCgroup(cgroupmount); err != nil { return err } } else { if err := mountToRootfs(b, rootfs, mountLabel, enableCgroupns); err != nil { return err } } } for _, mc := range merged { for _, ss := range strings.Split(mc, ",") { // symlink(2) is very dumb, it will just shove the path into // the link and doesn't do any checks or relative path // conversion. Also, don't error out if the cgroup already exists. if err := os.Symlink(mc, filepath.Join(rootfs, m.Destination, ss)); err != nil && !os.IsExist(err) { return err } } } if m.Flags&unix.MS_RDONLY != 0 { // remount cgroup root as readonly mcgrouproot := &configs.Mount{ Source: m.Destination, Device: "bind", Destination: m.Destination, Flags: defaultMountFlags | unix.MS_RDONLY | unix.MS_BIND, } if err := remount(mcgrouproot, rootfs); err != nil { return err } } default: // ensure that the destination of the mount is resolved of symlinks at mount time because // any previous mounts can invalidate the next mount's destination. // this can happen when a user specifies mounts within other mounts to cause breakouts or other // evil stuff to try to escape the container's rootfs. var err error if dest, err = securejoin.SecureJoin(rootfs, m.Destination); err != nil { return err } if err := checkMountDestination(rootfs, dest); err != nil { return err } // update the mount with the correct dest after symlinks are resolved. m.Destination = dest if err := os.MkdirAll(dest, 0755); err != nil { return err } return mountPropagate(m, rootfs, mountLabel) } return nil } func getCgroupMounts(m *configs.Mount) ([]*configs.Mount, error) { mounts, err := cgroups.GetCgroupMounts(false) if err != nil { return nil, err } cgroupPaths, err := cgroups.ParseCgroupFile("/proc/self/cgroup") if err != nil { return nil, err } var binds []*configs.Mount for _, mm := range mounts { dir, err := mm.GetOwnCgroup(cgroupPaths) if err != nil { return nil, err } relDir, err := filepath.Rel(mm.Root, dir) if err != nil { return nil, err } binds = append(binds, &configs.Mount{ Device: "bind", Source: filepath.Join(mm.Mountpoint, relDir), Destination: filepath.Join(m.Destination, filepath.Base(mm.Mountpoint)), Flags: unix.MS_BIND | unix.MS_REC | m.Flags, PropagationFlags: m.PropagationFlags, }) } return binds, nil } // checkMountDestination checks to ensure that the mount destination is not over the top of /proc. // dest is required to be an abs path and have any symlinks resolved before calling this function. func checkMountDestination(rootfs, dest string) error { invalidDestinations := []string{ "/proc", } // White list, it should be sub directories of invalid destinations validDestinations := []string{ // These entries can be bind mounted by files emulated by fuse, // so commands like top, free displays stats in container. "/proc/cpuinfo", "/proc/diskstats", "/proc/meminfo", "/proc/stat", "/proc/swaps", "/proc/uptime", "/proc/loadavg", "/proc/net/dev", } for _, valid := range validDestinations { path, err := filepath.Rel(filepath.Join(rootfs, valid), dest) if err != nil { return err } if path == "." { return nil } } for _, invalid := range invalidDestinations { path, err := filepath.Rel(filepath.Join(rootfs, invalid), dest) if err != nil { return err } if path != "." && !strings.HasPrefix(path, "..") { return fmt.Errorf("%q cannot be mounted because it is located inside %q", dest, invalid) } } return nil } func setupDevSymlinks(rootfs string) error { var links = [][2]string{ {"/proc/self/fd", "/dev/fd"}, {"/proc/self/fd/0", "/dev/stdin"}, {"/proc/self/fd/1", "/dev/stdout"}, {"/proc/self/fd/2", "/dev/stderr"}, } // kcore support can be toggled with CONFIG_PROC_KCORE; only create a symlink // in /dev if it exists in /proc. if _, err := os.Stat("/proc/kcore"); err == nil { links = append(links, [2]string{"/proc/kcore", "/dev/core"}) } for _, link := range links { var ( src = link[0] dst = filepath.Join(rootfs, link[1]) ) if err := os.Symlink(src, dst); err != nil && !os.IsExist(err) { return fmt.Errorf("symlink %s %s %s", src, dst, err) } } return nil } // If stdin, stdout, and/or stderr are pointing to `/dev/null` in the parent's rootfs // this method will make them point to `/dev/null` in this container's rootfs. This // needs to be called after we chroot/pivot into the container's rootfs so that any // symlinks are resolved locally. func reOpenDevNull() error { var stat, devNullStat unix.Stat_t file, err := os.OpenFile("/dev/null", os.O_RDWR, 0) if err != nil { return fmt.Errorf("Failed to open /dev/null - %s", err) } defer file.Close() if err := unix.Fstat(int(file.Fd()), &devNullStat); err != nil { return err } for fd := 0; fd < 3; fd++ { if err := unix.Fstat(fd, &stat); err != nil { return err } if stat.Rdev == devNullStat.Rdev { // Close and re-open the fd. if err := unix.Dup3(int(file.Fd()), fd, 0); err != nil { return err } } } return nil } // Create the device nodes in the container. func createDevices(config *configs.Config) error { useBindMount := system.RunningInUserNS() || config.Namespaces.Contains(configs.NEWUSER) oldMask := unix.Umask(0000) for _, node := range config.Devices { // containers running in a user namespace are not allowed to mknod // devices so we can just bind mount it from the host. if err := createDeviceNode(config.Rootfs, node, useBindMount); err != nil { unix.Umask(oldMask) return err } } unix.Umask(oldMask) return nil } func bindMountDeviceNode(dest string, node *configs.Device) error { f, err := os.Create(dest) if err != nil && !os.IsExist(err) { return err } if f != nil { f.Close() } return unix.Mount(node.Path, dest, "bind", unix.MS_BIND, "") } // Creates the device node in the rootfs of the container. func createDeviceNode(rootfs string, node *configs.Device, bind bool) error { dest := filepath.Join(rootfs, node.Path) if err := os.MkdirAll(filepath.Dir(dest), 0755); err != nil { return err } if bind { return bindMountDeviceNode(dest, node) } if err := mknodDevice(dest, node); err != nil { if os.IsExist(err) { return nil } else if os.IsPermission(err) { return bindMountDeviceNode(dest, node) } return err } return nil } func mknodDevice(dest string, node *configs.Device) error { fileMode := node.FileMode switch node.Type { case 'c', 'u': fileMode |= unix.S_IFCHR case 'b': fileMode |= unix.S_IFBLK case 'p': fileMode |= unix.S_IFIFO default: return fmt.Errorf("%c is not a valid device type for device %s", node.Type, node.Path) } if err := unix.Mknod(dest, uint32(fileMode), node.Mkdev()); err != nil { return err } return unix.Chown(dest, int(node.Uid), int(node.Gid)) } func getMountInfo(mountinfo []*mount.Info, dir string) *mount.Info { for _, m := range mountinfo { if m.Mountpoint == dir { return m } } return nil } // Get the parent mount point of directory passed in as argument. Also return // optional fields. func getParentMount(rootfs string) (string, string, error) { var path string mountinfos, err := mount.GetMounts() if err != nil { return "", "", err } mountinfo := getMountInfo(mountinfos, rootfs) if mountinfo != nil { return rootfs, mountinfo.Optional, nil } path = rootfs for { path = filepath.Dir(path) mountinfo = getMountInfo(mountinfos, path) if mountinfo != nil { return path, mountinfo.Optional, nil } if path == "/" { break } } // If we are here, we did not find parent mount. Something is wrong. return "", "", fmt.Errorf("Could not find parent mount of %s", rootfs) } // Make parent mount private if it was shared func rootfsParentMountPrivate(rootfs string) error { sharedMount := false parentMount, optionalOpts, err := getParentMount(rootfs) if err != nil { return err } optsSplit := strings.Split(optionalOpts, " ") for _, opt := range optsSplit { if strings.HasPrefix(opt, "shared:") { sharedMount = true break } } // Make parent mount PRIVATE if it was shared. It is needed for two // reasons. First of all pivot_root() will fail if parent mount is // shared. Secondly when we bind mount rootfs it will propagate to // parent namespace and we don't want that to happen. if sharedMount { return unix.Mount("", parentMount, "", unix.MS_PRIVATE, "") } return nil } func prepareRoot(config *configs.Config) error { flag := unix.MS_SLAVE | unix.MS_REC if config.RootPropagation != 0 { flag = config.RootPropagation } if err := unix.Mount("", "/", "", uintptr(flag), ""); err != nil { return err } // Make parent mount private to make sure following bind mount does // not propagate in other namespaces. Also it will help with kernel // check pass in pivot_root. (IS_SHARED(new_mnt->mnt_parent)) if err := rootfsParentMountPrivate(config.Rootfs); err != nil { return err } return unix.Mount(config.Rootfs, config.Rootfs, "bind", unix.MS_BIND|unix.MS_REC, "") } func setReadonly() error { return unix.Mount("/", "/", "bind", unix.MS_BIND|unix.MS_REMOUNT|unix.MS_RDONLY|unix.MS_REC, "") } func setupPtmx(config *configs.Config) error { ptmx := filepath.Join(config.Rootfs, "dev/ptmx") if err := os.Remove(ptmx); err != nil && !os.IsNotExist(err) { return err } if err := os.Symlink("pts/ptmx", ptmx); err != nil { return fmt.Errorf("symlink dev ptmx %s", err) } return nil } // pivotRoot will call pivot_root such that rootfs becomes the new root // filesystem, and everything else is cleaned up. func pivotRoot(rootfs string) error { // While the documentation may claim otherwise, pivot_root(".", ".") is // actually valid. What this results in is / being the new root but // /proc/self/cwd being the old root. Since we can play around with the cwd // with pivot_root this allows us to pivot without creating directories in // the rootfs. Shout-outs to the LXC developers for giving us this idea. oldroot, err := unix.Open("/", unix.O_DIRECTORY|unix.O_RDONLY, 0) if err != nil { return err } defer unix.Close(oldroot) newroot, err := unix.Open(rootfs, unix.O_DIRECTORY|unix.O_RDONLY, 0) if err != nil { return err } defer unix.Close(newroot) // Change to the new root so that the pivot_root actually acts on it. if err := unix.Fchdir(newroot); err != nil { return err } if err := unix.PivotRoot(".", "."); err != nil { return fmt.Errorf("pivot_root %s", err) } // Currently our "." is oldroot (according to the current kernel code). // However, purely for safety, we will fchdir(oldroot) since there isn't // really any guarantee from the kernel what /proc/self/cwd will be after a // pivot_root(2). if err := unix.Fchdir(oldroot); err != nil { return err } // Make oldroot rslave to make sure our unmounts don't propagate to the // host (and thus bork the machine). We don't use rprivate because this is // known to cause issues due to races where we still have a reference to a // mount while a process in the host namespace are trying to operate on // something they think has no mounts (devicemapper in particular). if err := unix.Mount("", ".", "", unix.MS_SLAVE|unix.MS_REC, ""); err != nil { return err } // Preform the unmount. MNT_DETACH allows us to unmount /proc/self/cwd. if err := unix.Unmount(".", unix.MNT_DETACH); err != nil { return err } // Switch back to our shiny new root. if err := unix.Chdir("/"); err != nil { return fmt.Errorf("chdir / %s", err) } return nil } func msMoveRoot(rootfs string) error { mountinfos, err := mount.GetMounts() if err != nil { return err } absRootfs, err := filepath.Abs(rootfs) if err != nil { return err } for _, info := range mountinfos { p, err := filepath.Abs(info.Mountpoint) if err != nil { return err } // Umount every syfs and proc file systems, except those under the container rootfs if (info.Fstype != "proc" && info.Fstype != "sysfs") || filepath.HasPrefix(p, absRootfs) { continue } // Be sure umount events are not propagated to the host. if err := unix.Mount("", p, "", unix.MS_SLAVE|unix.MS_REC, ""); err != nil { return err } if err := unix.Unmount(p, unix.MNT_DETACH); err != nil { if err != unix.EINVAL && err != unix.EPERM { return err } else { // If we have not privileges for umounting (e.g. rootless), then // cover the path. if err := unix.Mount("tmpfs", p, "tmpfs", 0, ""); err != nil { return err } } } } if err := unix.Mount(rootfs, "/", "", unix.MS_MOVE, ""); err != nil { return err } return chroot(rootfs) } func chroot(rootfs string) error { if err := unix.Chroot("."); err != nil { return err } return unix.Chdir("/") } // createIfNotExists creates a file or a directory only if it does not already exist. func createIfNotExists(path string, isDir bool) error { if _, err := os.Stat(path); err != nil { if os.IsNotExist(err) { if isDir { return os.MkdirAll(path, 0755) } if err := os.MkdirAll(filepath.Dir(path), 0755); err != nil { return err } f, err := os.OpenFile(path, os.O_CREATE, 0755) if err != nil { return err } f.Close() } } return nil } // readonlyPath will make a path read only. func readonlyPath(path string) error { if err := unix.Mount(path, path, "", unix.MS_BIND|unix.MS_REC, ""); err != nil { if os.IsNotExist(err) { return nil } return err } return unix.Mount(path, path, "", unix.MS_BIND|unix.MS_REMOUNT|unix.MS_RDONLY|unix.MS_REC, "") } // remountReadonly will remount an existing mount point and ensure that it is read-only. func remountReadonly(m *configs.Mount) error { var ( dest = m.Destination flags = m.Flags ) for i := 0; i < 5; i++ { // There is a special case in the kernel for // MS_REMOUNT | MS_BIND, which allows us to change only the // flags even as an unprivileged user (i.e. user namespace) // assuming we don't drop any security related flags (nodev, // nosuid, etc.). So, let's use that case so that we can do // this re-mount without failing in a userns. flags |= unix.MS_REMOUNT | unix.MS_BIND | unix.MS_RDONLY if err := unix.Mount("", dest, "", uintptr(flags), ""); err != nil { switch err { case unix.EBUSY: time.Sleep(100 * time.Millisecond) continue default: return err } } return nil } return fmt.Errorf("unable to mount %s as readonly max retries reached", dest) } // maskPath masks the top of the specified path inside a container to avoid // security issues from processes reading information from non-namespace aware // mounts ( proc/kcore ). // For files, maskPath bind mounts /dev/null over the top of the specified path. // For directories, maskPath mounts read-only tmpfs over the top of the specified path. func maskPath(path string, mountLabel string) error { if err := unix.Mount("/dev/null", path, "", unix.MS_BIND, ""); err != nil && !os.IsNotExist(err) { if err == unix.ENOTDIR { return unix.Mount("tmpfs", path, "tmpfs", unix.MS_RDONLY, label.FormatMountLabel("", mountLabel)) } return err } return nil } // writeSystemProperty writes the value to a path under /proc/sys as determined from the key. // For e.g. net.ipv4.ip_forward translated to /proc/sys/net/ipv4/ip_forward. func writeSystemProperty(key, value string) error { keyPath := strings.Replace(key, ".", "/", -1) return ioutil.WriteFile(path.Join("/proc/sys", keyPath), []byte(value), 0644) } func remount(m *configs.Mount, rootfs string) error { var ( dest = m.Destination ) if !strings.HasPrefix(dest, rootfs) { dest = filepath.Join(rootfs, dest) } return unix.Mount(m.Source, dest, m.Device, uintptr(m.Flags|unix.MS_REMOUNT), "") } // Do the mount operation followed by additional mounts required to take care // of propagation flags. func mountPropagate(m *configs.Mount, rootfs string, mountLabel string) error { var ( dest = m.Destination data = label.FormatMountLabel(m.Data, mountLabel) flags = m.Flags ) if libcontainerUtils.CleanPath(dest) == "/dev" { flags &= ^unix.MS_RDONLY } copyUp := m.Extensions&configs.EXT_COPYUP == configs.EXT_COPYUP if !(copyUp || strings.HasPrefix(dest, rootfs)) { dest = filepath.Join(rootfs, dest) } if err := unix.Mount(m.Source, dest, m.Device, uintptr(flags), data); err != nil { return err } for _, pflag := range m.PropagationFlags { if err := unix.Mount("", dest, "", uintptr(pflag), ""); err != nil { return err } } return nil } func mountNewCgroup(m *configs.Mount) error { var ( data = m.Data source = m.Source ) if data == "systemd" { data = cgroups.CgroupNamePrefix + data source = "systemd" } if err := unix.Mount(source, m.Destination, m.Device, uintptr(m.Flags), data); err != nil { return err } return nil }