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mount.go
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mount.go
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// Copyright (c) 2017 Intel Corporation
//
// SPDX-License-Identifier: Apache-2.0
//
package virtcontainers
import (
"context"
"errors"
"fmt"
"os"
"path/filepath"
"strings"
"syscall"
merr "github.com/hashicorp/go-multierror"
"github.com/kata-containers/runtime/virtcontainers/utils"
"github.com/sirupsen/logrus"
)
// DefaultShmSize is the default shm size to be used in case host
// IPC is used.
const DefaultShmSize = 65536 * 1024
// Sadly golang/sys doesn't have UmountNoFollow although it's there since Linux 2.6.34
const UmountNoFollow = 0x8
var rootfsDir = "rootfs"
var systemMountPrefixes = []string{"/proc", "/sys"}
var propagationTypes = map[string]uintptr{
"shared": syscall.MS_SHARED,
"private": syscall.MS_PRIVATE,
"slave": syscall.MS_SLAVE,
"ubind": syscall.MS_UNBINDABLE,
}
func isSystemMount(m string) bool {
for _, p := range systemMountPrefixes {
if m == p || strings.HasPrefix(m, p+"/") {
return true
}
}
return false
}
func isHostDevice(m string) bool {
if m == "/dev" {
return true
}
if strings.HasPrefix(m, "/dev/") {
// Check if regular file
s, err := os.Stat(m)
// This should not happen. In case file does not exist let the
// error be handled by the agent, simply return false here.
if err != nil {
return false
}
if s.Mode().IsRegular() {
return false
}
// This is not a regular file in /dev. It is either a
// device file, directory or any other special file which is
// specific to the host system.
return true
}
return false
}
func major(dev uint64) int {
return int((dev >> 8) & 0xfff)
}
func minor(dev uint64) int {
return int((dev & 0xff) | ((dev >> 12) & 0xfff00))
}
type device struct {
major int
minor int
mountPoint string
}
var errMountPointNotFound = errors.New("Mount point not found")
// getDeviceForPath gets the underlying device containing the file specified by path.
// The device type constitutes the major-minor number of the device and the dest mountPoint for the device
//
// eg. if /dev/sda1 is mounted on /a/b/c, a call to getDeviceForPath("/a/b/c/file") would return
//
// device {
// major : major(/dev/sda1)
// minor : minor(/dev/sda1)
// mountPoint: /a/b/c
// }
//
// if the path is a device path file such as /dev/sda1, it would return
//
// device {
// major : major(/dev/sda1)
// minor : minor(/dev/sda1)
// mountPoint:
func getDeviceForPath(path string) (device, error) {
var devMajor int
var devMinor int
if path == "" {
return device{}, fmt.Errorf("Path cannot be empty")
}
stat := syscall.Stat_t{}
err := syscall.Stat(path, &stat)
if err != nil {
return device{}, err
}
if isHostDevice(path) {
// stat.Rdev describes the device that this file (inode) represents.
devMajor = major(stat.Rdev)
devMinor = minor(stat.Rdev)
return device{
major: devMajor,
minor: devMinor,
mountPoint: "",
}, nil
}
// stat.Dev points to the underlying device containing the file
devMajor = major(stat.Dev)
devMinor = minor(stat.Dev)
path, err = filepath.Abs(path)
if err != nil {
return device{}, err
}
mountPoint := path
if path == "/" {
return device{
major: devMajor,
minor: devMinor,
mountPoint: mountPoint,
}, nil
}
// We get the mount point by recursively peforming stat on the path
// The point where the device changes indicates the mountpoint
for {
if mountPoint == "/" {
return device{}, errMountPointNotFound
}
parentStat := syscall.Stat_t{}
parentDir := filepath.Dir(path)
err := syscall.Lstat(parentDir, &parentStat)
if err != nil {
return device{}, err
}
if parentStat.Dev != stat.Dev {
break
}
mountPoint = parentDir
stat = parentStat
path = parentDir
}
dev := device{
major: devMajor,
minor: devMinor,
mountPoint: mountPoint,
}
return dev, nil
}
var blockFormatTemplate = "/sys/dev/block/%d:%d/dm"
var checkStorageDriver = isDeviceMapper
// isDeviceMapper checks if the device with the major and minor numbers is a devicemapper block device
func isDeviceMapper(major, minor int) (bool, error) {
//Check if /sys/dev/block/${major}-${minor}/dm exists
sysPath := fmt.Sprintf(blockFormatTemplate, major, minor)
_, err := os.Stat(sysPath)
if err == nil {
return true, nil
} else if os.IsNotExist(err) {
return false, nil
}
return false, err
}
const mountPerm = os.FileMode(0755)
// bindMount bind mounts a source in to a destination. This will
// do some bookkeeping:
// * evaluate all symlinks
// * ensure the source exists
// * recursively create the destination
// pgtypes stands for propagation types, which are shared, private, slave, and ubind.
func bindMount(ctx context.Context, source, destination string, readonly bool, pgtypes string) error {
span, _ := trace(ctx, "bindMount")
defer span.Finish()
if source == "" {
return fmt.Errorf("source must be specified")
}
if destination == "" {
return fmt.Errorf("destination must be specified")
}
absSource, err := filepath.EvalSymlinks(source)
if err != nil {
return fmt.Errorf("Could not resolve symlink for source %v", source)
}
if err := ensureDestinationExists(absSource, destination); err != nil {
return fmt.Errorf("Could not create destination mount point %v: %v", destination, err)
}
if err := syscall.Mount(absSource, destination, "bind", syscall.MS_BIND, ""); err != nil {
return fmt.Errorf("Could not bind mount %v to %v: %v", absSource, destination, err)
}
if pgtype, exist := propagationTypes[pgtypes]; exist {
if err := syscall.Mount("none", destination, "", pgtype, ""); err != nil {
return fmt.Errorf("Could not make mount point %v %s: %v", destination, pgtypes, err)
}
} else {
return fmt.Errorf("Wrong propagation type %s", pgtypes)
}
// For readonly bind mounts, we need to remount with the readonly flag.
// This is needed as only very recent versions of libmount/util-linux support "bind,ro"
if readonly {
return syscall.Mount(absSource, destination, "bind", uintptr(syscall.MS_BIND|syscall.MS_REMOUNT|syscall.MS_RDONLY), "")
}
return nil
}
// An existing mount may be remounted by specifying `MS_REMOUNT` in
// mountflags.
// This allows you to change the mountflags of an existing mount.
// The mountflags should match the values used in the original mount() call,
// except for those parameters that you are trying to change.
func remount(ctx context.Context, mountflags uintptr, src string) error {
absSrc, err := filepath.EvalSymlinks(src)
if err != nil {
return fmt.Errorf("Could not resolve symlink for %s", src)
}
if err := syscall.Mount(absSrc, absSrc, "", syscall.MS_REMOUNT|mountflags, ""); err != nil {
return fmt.Errorf("remount %s failed: %v", absSrc, err)
}
return nil
}
// remount a mount point as readonly
func remountRo(ctx context.Context, src string) error {
return remount(ctx, syscall.MS_BIND|syscall.MS_RDONLY, src)
}
// bindMountContainerRootfs bind mounts a container rootfs into a 9pfs shared
// directory between the guest and the host.
func bindMountContainerRootfs(ctx context.Context, shareDir, cid, cRootFs string, readonly bool) error {
span, _ := trace(ctx, "bindMountContainerRootfs")
defer span.Finish()
rootfsDest := filepath.Join(shareDir, cid, rootfsDir)
return bindMount(ctx, cRootFs, rootfsDest, readonly, "private")
}
// Mount describes a container mount.
type Mount struct {
Source string
Destination string
// Type specifies the type of filesystem to mount.
Type string
// Options list all the mount options of the filesystem.
Options []string
// HostPath used to store host side bind mount path
HostPath string
// ReadOnly specifies if the mount should be read only or not
ReadOnly bool
// BlockDeviceID represents block device that is attached to the
// VM in case this mount is a block device file or a directory
// backed by a block device.
BlockDeviceID string
}
func isSymlink(path string) bool {
stat, err := os.Stat(path)
if err != nil {
return false
}
return stat.Mode()&os.ModeSymlink != 0
}
func bindUnmountContainerRootfs(ctx context.Context, sharedDir string, con *Container) error {
span, _ := trace(ctx, "bindUnmountContainerRootfs")
defer span.Finish()
if con.state.Fstype != "" && con.state.BlockDeviceID != "" {
return nil
}
rootfsDest := filepath.Join(sharedDir, con.id, rootfsDir)
if isSymlink(filepath.Join(sharedDir, con.id)) || isSymlink(rootfsDest) {
logrus.Warnf("container dir %s is a symlink, malicious guest?", con.id)
return nil
}
err := syscall.Unmount(rootfsDest, syscall.MNT_DETACH|UmountNoFollow)
if err == syscall.ENOENT {
logrus.Warnf("%s: %s", err, rootfsDest)
return nil
}
if err := syscall.Rmdir(rootfsDest); err != nil {
logrus.WithError(err).WithField("rootfs-dir", rootfsDest).Warn("Could not remove container rootfs dir")
}
return err
}
func bindUnmountAllRootfs(ctx context.Context, sharedDir string, sandbox *Sandbox) error {
span, _ := trace(ctx, "bindUnmountAllRootfs")
defer span.Finish()
var errors *merr.Error
for _, c := range sandbox.containers {
if isSymlink(filepath.Join(sharedDir, c.id)) {
logrus.Warnf("container dir %s is a symlink, malicious guest?", c.id)
continue
}
c.unmountHostMounts()
if c.state.Fstype == "" {
// even if error found, don't break out of loop until all mounts attempted
// to be unmounted, and collect all errors
errors = merr.Append(errors, bindUnmountContainerRootfs(c.ctx, sharedDir, c))
}
}
return errors.ErrorOrNil()
}
const (
dockerVolumePrefix = "/var/lib/docker/volumes"
dockerVolumeSuffix = "_data"
)
// IsDockerVolume returns true if the given source path is
// a docker volume.
// This uses a very specific path that is used by docker.
func IsDockerVolume(path string) bool {
if strings.HasPrefix(path, dockerVolumePrefix) && filepath.Base(path) == dockerVolumeSuffix {
return true
}
return false
}
const (
// K8sEmptyDir is the k8s specific path for `empty-dir` volumes
K8sEmptyDir = "kubernetes.io~empty-dir"
)
// IsEphemeralStorage returns true if the given path
// to the storage belongs to kubernetes ephemeral storage
//
// This method depends on a specific path used by k8s
// to detect if it's of type ephemeral. As of now,
// this is a very k8s specific solution that works
// but in future there should be a better way for this
// method to determine if the path is for ephemeral
// volume type
func IsEphemeralStorage(path string) bool {
if !isEmptyDir(path) {
return false
}
if _, fsType, _, _ := utils.GetDevicePathAndFsTypeOptions(path); fsType == "tmpfs" {
return true
}
return false
}
// Isk8sHostEmptyDir returns true if the given path
// to the storage belongs to kubernetes empty-dir of medium "default"
// i.e volumes that are directories on the host.
func Isk8sHostEmptyDir(path string) bool {
if !isEmptyDir(path) {
return false
}
if _, fsType, _, _ := utils.GetDevicePathAndFsTypeOptions(path); fsType != "tmpfs" {
return true
}
return false
}
func isEmptyDir(path string) bool {
splitSourceSlice := strings.Split(path, "/")
if len(splitSourceSlice) > 1 {
storageType := splitSourceSlice[len(splitSourceSlice)-2]
if storageType == K8sEmptyDir {
return true
}
}
return false
}