ceph-csi/vendor/github.com/opencontainers/selinux/go-selinux/selinux_linux.go

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package selinux
import (
"bufio"
"bytes"
"crypto/rand"
"encoding/binary"
"errors"
"fmt"
"io"
"io/fs"
"math/big"
"os"
"os/user"
"path/filepath"
"strconv"
"strings"
"sync"
"github.com/opencontainers/selinux/pkg/pwalkdir"
"golang.org/x/sys/unix"
)
const (
minSensLen = 2
contextFile = "/usr/share/containers/selinux/contexts"
selinuxDir = "/etc/selinux/"
selinuxUsersDir = "contexts/users"
defaultContexts = "contexts/default_contexts"
selinuxConfig = selinuxDir + "config"
selinuxfsMount = "/sys/fs/selinux"
selinuxTypeTag = "SELINUXTYPE"
selinuxTag = "SELINUX"
xattrNameSelinux = "security.selinux"
)
type selinuxState struct {
mcsList map[string]bool
selinuxfs string
selinuxfsOnce sync.Once
enabledSet bool
enabled bool
sync.Mutex
}
type level struct {
cats *big.Int
sens uint
}
type mlsRange struct {
low *level
high *level
}
type defaultSECtx struct {
userRdr io.Reader
verifier func(string) error
defaultRdr io.Reader
user, level, scon string
}
type levelItem byte
const (
sensitivity levelItem = 's'
category levelItem = 'c'
)
var (
readOnlyFileLabel string
state = selinuxState{
mcsList: make(map[string]bool),
}
// for attrPath()
attrPathOnce sync.Once
haveThreadSelf bool
// for policyRoot()
policyRootOnce sync.Once
policyRootVal string
// for label()
loadLabelsOnce sync.Once
labels map[string]string
)
func policyRoot() string {
policyRootOnce.Do(func() {
policyRootVal = filepath.Join(selinuxDir, readConfig(selinuxTypeTag))
})
return policyRootVal
}
func (s *selinuxState) setEnable(enabled bool) bool {
s.Lock()
defer s.Unlock()
s.enabledSet = true
s.enabled = enabled
return s.enabled
}
func (s *selinuxState) getEnabled() bool {
s.Lock()
enabled := s.enabled
enabledSet := s.enabledSet
s.Unlock()
if enabledSet {
return enabled
}
enabled = false
if fs := getSelinuxMountPoint(); fs != "" {
if con, _ := CurrentLabel(); con != "kernel" {
enabled = true
}
}
return s.setEnable(enabled)
}
// setDisabled disables SELinux support for the package
func setDisabled() {
state.setEnable(false)
}
func verifySELinuxfsMount(mnt string) bool {
var buf unix.Statfs_t
for {
err := unix.Statfs(mnt, &buf)
if err == nil {
break
}
if err == unix.EAGAIN || err == unix.EINTR { //nolint:errorlint // unix errors are bare
continue
}
return false
}
if uint32(buf.Type) != uint32(unix.SELINUX_MAGIC) {
return false
}
if (buf.Flags & unix.ST_RDONLY) != 0 {
return false
}
return true
}
func findSELinuxfs() string {
// fast path: check the default mount first
if verifySELinuxfsMount(selinuxfsMount) {
return selinuxfsMount
}
// check if selinuxfs is available before going the slow path
fs, err := os.ReadFile("/proc/filesystems")
if err != nil {
return ""
}
if !bytes.Contains(fs, []byte("\tselinuxfs\n")) {
return ""
}
// slow path: try to find among the mounts
f, err := os.Open("/proc/self/mountinfo")
if err != nil {
return ""
}
defer f.Close()
scanner := bufio.NewScanner(f)
for {
mnt := findSELinuxfsMount(scanner)
if mnt == "" { // error or not found
return ""
}
if verifySELinuxfsMount(mnt) {
return mnt
}
}
}
// findSELinuxfsMount returns a next selinuxfs mount point found,
// if there is one, or an empty string in case of EOF or error.
func findSELinuxfsMount(s *bufio.Scanner) string {
for s.Scan() {
txt := s.Bytes()
// The first field after - is fs type.
// Safe as spaces in mountpoints are encoded as \040
if !bytes.Contains(txt, []byte(" - selinuxfs ")) {
continue
}
const mPos = 5 // mount point is 5th field
fields := bytes.SplitN(txt, []byte(" "), mPos+1)
if len(fields) < mPos+1 {
continue
}
return string(fields[mPos-1])
}
return ""
}
func (s *selinuxState) getSELinuxfs() string {
s.selinuxfsOnce.Do(func() {
s.selinuxfs = findSELinuxfs()
})
return s.selinuxfs
}
// getSelinuxMountPoint returns the path to the mountpoint of an selinuxfs
// filesystem or an empty string if no mountpoint is found. Selinuxfs is
// a proc-like pseudo-filesystem that exposes the SELinux policy API to
// processes. The existence of an selinuxfs mount is used to determine
// whether SELinux is currently enabled or not.
func getSelinuxMountPoint() string {
return state.getSELinuxfs()
}
// getEnabled returns whether SELinux is currently enabled.
func getEnabled() bool {
return state.getEnabled()
}
func readConfig(target string) string {
in, err := os.Open(selinuxConfig)
if err != nil {
return ""
}
defer in.Close()
scanner := bufio.NewScanner(in)
for scanner.Scan() {
line := bytes.TrimSpace(scanner.Bytes())
if len(line) == 0 {
// Skip blank lines
continue
}
if line[0] == ';' || line[0] == '#' {
// Skip comments
continue
}
fields := bytes.SplitN(line, []byte{'='}, 2)
if len(fields) != 2 {
continue
}
if bytes.Equal(fields[0], []byte(target)) {
return string(bytes.Trim(fields[1], `"`))
}
}
return ""
}
func isProcHandle(fh *os.File) error {
var buf unix.Statfs_t
for {
err := unix.Fstatfs(int(fh.Fd()), &buf)
if err == nil {
break
}
if err != unix.EINTR { //nolint:errorlint // unix errors are bare
return &os.PathError{Op: "fstatfs", Path: fh.Name(), Err: err}
}
}
if buf.Type != unix.PROC_SUPER_MAGIC {
return fmt.Errorf("file %q is not on procfs", fh.Name())
}
return nil
}
func readCon(fpath string) (string, error) {
if fpath == "" {
return "", ErrEmptyPath
}
in, err := os.Open(fpath)
if err != nil {
return "", err
}
defer in.Close()
if err := isProcHandle(in); err != nil {
return "", err
}
return readConFd(in)
}
func readConFd(in *os.File) (string, error) {
data, err := io.ReadAll(in)
if err != nil {
return "", err
}
return string(bytes.TrimSuffix(data, []byte{0})), nil
}
// classIndex returns the int index for an object class in the loaded policy,
// or -1 and an error
func classIndex(class string) (int, error) {
permpath := fmt.Sprintf("class/%s/index", class)
indexpath := filepath.Join(getSelinuxMountPoint(), permpath)
indexB, err := os.ReadFile(indexpath)
if err != nil {
return -1, err
}
index, err := strconv.Atoi(string(indexB))
if err != nil {
return -1, err
}
return index, nil
}
// lSetFileLabel sets the SELinux label for this path, not following symlinks,
// or returns an error.
func lSetFileLabel(fpath string, label string) error {
if fpath == "" {
return ErrEmptyPath
}
for {
err := unix.Lsetxattr(fpath, xattrNameSelinux, []byte(label), 0)
if err == nil {
break
}
if err != unix.EINTR { //nolint:errorlint // unix errors are bare
return &os.PathError{Op: "lsetxattr", Path: fpath, Err: err}
}
}
return nil
}
// setFileLabel sets the SELinux label for this path, following symlinks,
// or returns an error.
func setFileLabel(fpath string, label string) error {
if fpath == "" {
return ErrEmptyPath
}
for {
err := unix.Setxattr(fpath, xattrNameSelinux, []byte(label), 0)
if err == nil {
break
}
if err != unix.EINTR { //nolint:errorlint // unix errors are bare
return &os.PathError{Op: "setxattr", Path: fpath, Err: err}
}
}
return nil
}
// fileLabel returns the SELinux label for this path, following symlinks,
// or returns an error.
func fileLabel(fpath string) (string, error) {
if fpath == "" {
return "", ErrEmptyPath
}
label, err := getxattr(fpath, xattrNameSelinux)
if err != nil {
return "", &os.PathError{Op: "getxattr", Path: fpath, Err: err}
}
// Trim the NUL byte at the end of the byte buffer, if present.
if len(label) > 0 && label[len(label)-1] == '\x00' {
label = label[:len(label)-1]
}
return string(label), nil
}
// lFileLabel returns the SELinux label for this path, not following symlinks,
// or returns an error.
func lFileLabel(fpath string) (string, error) {
if fpath == "" {
return "", ErrEmptyPath
}
label, err := lgetxattr(fpath, xattrNameSelinux)
if err != nil {
return "", &os.PathError{Op: "lgetxattr", Path: fpath, Err: err}
}
// Trim the NUL byte at the end of the byte buffer, if present.
if len(label) > 0 && label[len(label)-1] == '\x00' {
label = label[:len(label)-1]
}
return string(label), nil
}
func setFSCreateLabel(label string) error {
return writeCon(attrPath("fscreate"), label)
}
// fsCreateLabel returns the default label the kernel which the kernel is using
// for file system objects created by this task. "" indicates default.
func fsCreateLabel() (string, error) {
return readCon(attrPath("fscreate"))
}
// currentLabel returns the SELinux label of the current process thread, or an error.
func currentLabel() (string, error) {
return readCon(attrPath("current"))
}
// pidLabel returns the SELinux label of the given pid, or an error.
func pidLabel(pid int) (string, error) {
return readCon(fmt.Sprintf("/proc/%d/attr/current", pid))
}
// ExecLabel returns the SELinux label that the kernel will use for any programs
// that are executed by the current process thread, or an error.
func execLabel() (string, error) {
return readCon(attrPath("exec"))
}
func writeCon(fpath, val string) error {
if fpath == "" {
return ErrEmptyPath
}
if val == "" {
if !getEnabled() {
return nil
}
}
out, err := os.OpenFile(fpath, os.O_WRONLY, 0)
if err != nil {
return err
}
defer out.Close()
if err := isProcHandle(out); err != nil {
return err
}
if val != "" {
_, err = out.Write([]byte(val))
} else {
_, err = out.Write(nil)
}
if err != nil {
return err
}
return nil
}
func attrPath(attr string) string {
// Linux >= 3.17 provides this
const threadSelfPrefix = "/proc/thread-self/attr"
attrPathOnce.Do(func() {
st, err := os.Stat(threadSelfPrefix)
if err == nil && st.Mode().IsDir() {
haveThreadSelf = true
}
})
if haveThreadSelf {
return filepath.Join(threadSelfPrefix, attr)
}
return filepath.Join("/proc/self/task", strconv.Itoa(unix.Gettid()), "attr", attr)
}
// canonicalizeContext takes a context string and writes it to the kernel
// the function then returns the context that the kernel will use. Use this
// function to check if two contexts are equivalent
func canonicalizeContext(val string) (string, error) {
return readWriteCon(filepath.Join(getSelinuxMountPoint(), "context"), val)
}
// computeCreateContext requests the type transition from source to target for
// class from the kernel.
func computeCreateContext(source string, target string, class string) (string, error) {
classidx, err := classIndex(class)
if err != nil {
return "", err
}
return readWriteCon(filepath.Join(getSelinuxMountPoint(), "create"), fmt.Sprintf("%s %s %d", source, target, classidx))
}
// catsToBitset stores categories in a bitset.
func catsToBitset(cats string) (*big.Int, error) {
bitset := new(big.Int)
catlist := strings.Split(cats, ",")
for _, r := range catlist {
ranges := strings.SplitN(r, ".", 2)
if len(ranges) > 1 {
catstart, err := parseLevelItem(ranges[0], category)
if err != nil {
return nil, err
}
catend, err := parseLevelItem(ranges[1], category)
if err != nil {
return nil, err
}
for i := catstart; i <= catend; i++ {
bitset.SetBit(bitset, int(i), 1)
}
} else {
cat, err := parseLevelItem(ranges[0], category)
if err != nil {
return nil, err
}
bitset.SetBit(bitset, int(cat), 1)
}
}
return bitset, nil
}
// parseLevelItem parses and verifies that a sensitivity or category are valid
func parseLevelItem(s string, sep levelItem) (uint, error) {
if len(s) < minSensLen || levelItem(s[0]) != sep {
return 0, ErrLevelSyntax
}
val, err := strconv.ParseUint(s[1:], 10, 32)
if err != nil {
return 0, err
}
return uint(val), nil
}
// parseLevel fills a level from a string that contains
// a sensitivity and categories
func (l *level) parseLevel(levelStr string) error {
lvl := strings.SplitN(levelStr, ":", 2)
sens, err := parseLevelItem(lvl[0], sensitivity)
if err != nil {
return fmt.Errorf("failed to parse sensitivity: %w", err)
}
l.sens = sens
if len(lvl) > 1 {
cats, err := catsToBitset(lvl[1])
if err != nil {
return fmt.Errorf("failed to parse categories: %w", err)
}
l.cats = cats
}
return nil
}
// rangeStrToMLSRange marshals a string representation of a range.
func rangeStrToMLSRange(rangeStr string) (*mlsRange, error) {
r := &mlsRange{}
l := strings.SplitN(rangeStr, "-", 2)
switch len(l) {
// rangeStr that has a low and a high level, e.g. s4:c0.c1023-s6:c0.c1023
case 2:
r.high = &level{}
if err := r.high.parseLevel(l[1]); err != nil {
return nil, fmt.Errorf("failed to parse high level %q: %w", l[1], err)
}
fallthrough
// rangeStr that is single level, e.g. s6:c0,c3,c5,c30.c1023
case 1:
r.low = &level{}
if err := r.low.parseLevel(l[0]); err != nil {
return nil, fmt.Errorf("failed to parse low level %q: %w", l[0], err)
}
}
if r.high == nil {
r.high = r.low
}
return r, nil
}
// bitsetToStr takes a category bitset and returns it in the
// canonical selinux syntax
func bitsetToStr(c *big.Int) string {
var str string
length := 0
for i := int(c.TrailingZeroBits()); i < c.BitLen(); i++ {
if c.Bit(i) == 0 {
continue
}
if length == 0 {
if str != "" {
str += ","
}
str += "c" + strconv.Itoa(i)
}
if c.Bit(i+1) == 1 {
length++
continue
}
if length == 1 {
str += ",c" + strconv.Itoa(i)
} else if length > 1 {
str += ".c" + strconv.Itoa(i)
}
length = 0
}
return str
}
func (l *level) equal(l2 *level) bool {
if l2 == nil || l == nil {
return l == l2
}
if l2.sens != l.sens {
return false
}
if l2.cats == nil || l.cats == nil {
return l2.cats == l.cats
}
return l.cats.Cmp(l2.cats) == 0
}
// String returns an mlsRange as a string.
func (m mlsRange) String() string {
low := "s" + strconv.Itoa(int(m.low.sens))
if m.low.cats != nil && m.low.cats.BitLen() > 0 {
low += ":" + bitsetToStr(m.low.cats)
}
if m.low.equal(m.high) {
return low
}
high := "s" + strconv.Itoa(int(m.high.sens))
if m.high.cats != nil && m.high.cats.BitLen() > 0 {
high += ":" + bitsetToStr(m.high.cats)
}
return low + "-" + high
}
func max(a, b uint) uint {
if a > b {
return a
}
return b
}
func min(a, b uint) uint {
if a < b {
return a
}
return b
}
// calculateGlbLub computes the glb (greatest lower bound) and lub (least upper bound)
// of a source and target range.
// The glblub is calculated as the greater of the low sensitivities and
// the lower of the high sensitivities and the and of each category bitset.
func calculateGlbLub(sourceRange, targetRange string) (string, error) {
s, err := rangeStrToMLSRange(sourceRange)
if err != nil {
return "", err
}
t, err := rangeStrToMLSRange(targetRange)
if err != nil {
return "", err
}
if s.high.sens < t.low.sens || t.high.sens < s.low.sens {
/* these ranges have no common sensitivities */
return "", ErrIncomparable
}
outrange := &mlsRange{low: &level{}, high: &level{}}
/* take the greatest of the low */
outrange.low.sens = max(s.low.sens, t.low.sens)
/* take the least of the high */
outrange.high.sens = min(s.high.sens, t.high.sens)
/* find the intersecting categories */
if s.low.cats != nil && t.low.cats != nil {
outrange.low.cats = new(big.Int)
outrange.low.cats.And(s.low.cats, t.low.cats)
}
if s.high.cats != nil && t.high.cats != nil {
outrange.high.cats = new(big.Int)
outrange.high.cats.And(s.high.cats, t.high.cats)
}
return outrange.String(), nil
}
func readWriteCon(fpath string, val string) (string, error) {
if fpath == "" {
return "", ErrEmptyPath
}
f, err := os.OpenFile(fpath, os.O_RDWR, 0)
if err != nil {
return "", err
}
defer f.Close()
_, err = f.Write([]byte(val))
if err != nil {
return "", err
}
return readConFd(f)
}
// peerLabel retrieves the label of the client on the other side of a socket
func peerLabel(fd uintptr) (string, error) {
l, err := unix.GetsockoptString(int(fd), unix.SOL_SOCKET, unix.SO_PEERSEC)
if err != nil {
return "", &os.PathError{Op: "getsockopt", Path: "fd " + strconv.Itoa(int(fd)), Err: err}
}
return l, nil
}
// setKeyLabel takes a process label and tells the kernel to assign the
// label to the next kernel keyring that gets created
func setKeyLabel(label string) error {
err := writeCon("/proc/self/attr/keycreate", label)
if errors.Is(err, os.ErrNotExist) {
return nil
}
if label == "" && errors.Is(err, os.ErrPermission) {
return nil
}
return err
}
// get returns the Context as a string
func (c Context) get() string {
if l := c["level"]; l != "" {
return c["user"] + ":" + c["role"] + ":" + c["type"] + ":" + l
}
return c["user"] + ":" + c["role"] + ":" + c["type"]
}
// newContext creates a new Context struct from the specified label
func newContext(label string) (Context, error) {
c := make(Context)
if len(label) != 0 {
con := strings.SplitN(label, ":", 4)
if len(con) < 3 {
return c, ErrInvalidLabel
}
c["user"] = con[0]
c["role"] = con[1]
c["type"] = con[2]
if len(con) > 3 {
c["level"] = con[3]
}
}
return c, nil
}
// clearLabels clears all reserved labels
func clearLabels() {
state.Lock()
state.mcsList = make(map[string]bool)
state.Unlock()
}
// reserveLabel reserves the MLS/MCS level component of the specified label
func reserveLabel(label string) {
if len(label) != 0 {
con := strings.SplitN(label, ":", 4)
if len(con) > 3 {
_ = mcsAdd(con[3])
}
}
}
func selinuxEnforcePath() string {
return filepath.Join(getSelinuxMountPoint(), "enforce")
}
// isMLSEnabled checks if MLS is enabled.
func isMLSEnabled() bool {
enabledB, err := os.ReadFile(filepath.Join(getSelinuxMountPoint(), "mls"))
if err != nil {
return false
}
return bytes.Equal(enabledB, []byte{'1'})
}
// enforceMode returns the current SELinux mode Enforcing, Permissive, Disabled
func enforceMode() int {
var enforce int
enforceB, err := os.ReadFile(selinuxEnforcePath())
if err != nil {
return -1
}
enforce, err = strconv.Atoi(string(enforceB))
if err != nil {
return -1
}
return enforce
}
// setEnforceMode sets the current SELinux mode Enforcing, Permissive.
// Disabled is not valid, since this needs to be set at boot time.
func setEnforceMode(mode int) error {
//nolint:gosec // ignore G306: permissions to be 0600 or less.
return os.WriteFile(selinuxEnforcePath(), []byte(strconv.Itoa(mode)), 0o644)
}
// defaultEnforceMode returns the systems default SELinux mode Enforcing,
// Permissive or Disabled. Note this is just the default at boot time.
// EnforceMode tells you the systems current mode.
func defaultEnforceMode() int {
switch readConfig(selinuxTag) {
case "enforcing":
return Enforcing
case "permissive":
return Permissive
}
return Disabled
}
func mcsAdd(mcs string) error {
if mcs == "" {
return nil
}
state.Lock()
defer state.Unlock()
if state.mcsList[mcs] {
return ErrMCSAlreadyExists
}
state.mcsList[mcs] = true
return nil
}
func mcsDelete(mcs string) {
if mcs == "" {
return
}
state.Lock()
defer state.Unlock()
state.mcsList[mcs] = false
}
func intToMcs(id int, catRange uint32) string {
var (
SETSIZE = int(catRange)
TIER = SETSIZE
ORD = id
)
if id < 1 || id > 523776 {
return ""
}
for ORD > TIER {
ORD -= TIER
TIER--
}
TIER = SETSIZE - TIER
ORD += TIER
return fmt.Sprintf("s0:c%d,c%d", TIER, ORD)
}
func uniqMcs(catRange uint32) string {
var (
n uint32
c1, c2 uint32
mcs string
)
for {
_ = binary.Read(rand.Reader, binary.LittleEndian, &n)
c1 = n % catRange
_ = binary.Read(rand.Reader, binary.LittleEndian, &n)
c2 = n % catRange
if c1 == c2 {
continue
} else if c1 > c2 {
c1, c2 = c2, c1
}
mcs = fmt.Sprintf("s0:c%d,c%d", c1, c2)
if err := mcsAdd(mcs); err != nil {
continue
}
break
}
return mcs
}
// releaseLabel un-reserves the MLS/MCS Level field of the specified label,
// allowing it to be used by another process.
func releaseLabel(label string) {
if len(label) != 0 {
con := strings.SplitN(label, ":", 4)
if len(con) > 3 {
mcsDelete(con[3])
}
}
}
// roFileLabel returns the specified SELinux readonly file label
func roFileLabel() string {
return readOnlyFileLabel
}
func openContextFile() (*os.File, error) {
if f, err := os.Open(contextFile); err == nil {
return f, nil
}
return os.Open(filepath.Join(policyRoot(), "contexts", "lxc_contexts"))
}
func loadLabels() {
labels = make(map[string]string)
in, err := openContextFile()
if err != nil {
return
}
defer in.Close()
scanner := bufio.NewScanner(in)
for scanner.Scan() {
line := bytes.TrimSpace(scanner.Bytes())
if len(line) == 0 {
// Skip blank lines
continue
}
if line[0] == ';' || line[0] == '#' {
// Skip comments
continue
}
fields := bytes.SplitN(line, []byte{'='}, 2)
if len(fields) != 2 {
continue
}
key, val := bytes.TrimSpace(fields[0]), bytes.TrimSpace(fields[1])
labels[string(key)] = string(bytes.Trim(val, `"`))
}
con, _ := NewContext(labels["file"])
con["level"] = fmt.Sprintf("s0:c%d,c%d", maxCategory-2, maxCategory-1)
privContainerMountLabel = con.get()
reserveLabel(privContainerMountLabel)
}
func label(key string) string {
loadLabelsOnce.Do(func() {
loadLabels()
})
return labels[key]
}
// kvmContainerLabels returns the default processLabel and mountLabel to be used
// for kvm containers by the calling process.
func kvmContainerLabels() (string, string) {
processLabel := label("kvm_process")
if processLabel == "" {
processLabel = label("process")
}
return addMcs(processLabel, label("file"))
}
// initContainerLabels returns the default processLabel and file labels to be
// used for containers running an init system like systemd by the calling process.
func initContainerLabels() (string, string) {
processLabel := label("init_process")
if processLabel == "" {
processLabel = label("process")
}
return addMcs(processLabel, label("file"))
}
// containerLabels returns an allocated processLabel and fileLabel to be used for
// container labeling by the calling process.
func containerLabels() (processLabel string, fileLabel string) {
if !getEnabled() {
return "", ""
}
processLabel = label("process")
fileLabel = label("file")
readOnlyFileLabel = label("ro_file")
if processLabel == "" || fileLabel == "" {
return "", fileLabel
}
if readOnlyFileLabel == "" {
readOnlyFileLabel = fileLabel
}
return addMcs(processLabel, fileLabel)
}
func addMcs(processLabel, fileLabel string) (string, string) {
scon, _ := NewContext(processLabel)
if scon["level"] != "" {
mcs := uniqMcs(CategoryRange)
scon["level"] = mcs
processLabel = scon.Get()
scon, _ = NewContext(fileLabel)
scon["level"] = mcs
fileLabel = scon.Get()
}
return processLabel, fileLabel
}
// securityCheckContext validates that the SELinux label is understood by the kernel
func securityCheckContext(val string) error {
//nolint:gosec // ignore G306: permissions to be 0600 or less.
return os.WriteFile(filepath.Join(getSelinuxMountPoint(), "context"), []byte(val), 0o644)
}
// copyLevel returns a label with the MLS/MCS level from src label replaced on
// the dest label.
func copyLevel(src, dest string) (string, error) {
if src == "" {
return "", nil
}
if err := SecurityCheckContext(src); err != nil {
return "", err
}
if err := SecurityCheckContext(dest); err != nil {
return "", err
}
scon, err := NewContext(src)
if err != nil {
return "", err
}
tcon, err := NewContext(dest)
if err != nil {
return "", err
}
mcsDelete(tcon["level"])
_ = mcsAdd(scon["level"])
tcon["level"] = scon["level"]
return tcon.Get(), nil
}
// chcon changes the fpath file object to the SELinux label.
// If fpath is a directory and recurse is true, then chcon walks the
// directory tree setting the label.
func chcon(fpath string, label string, recurse bool) error {
if fpath == "" {
return ErrEmptyPath
}
if label == "" {
return nil
}
excludePaths := map[string]bool{
"/": true,
"/bin": true,
"/boot": true,
"/dev": true,
"/etc": true,
"/etc/passwd": true,
"/etc/pki": true,
"/etc/shadow": true,
"/home": true,
"/lib": true,
"/lib64": true,
"/media": true,
"/opt": true,
"/proc": true,
"/root": true,
"/run": true,
"/sbin": true,
"/srv": true,
"/sys": true,
"/tmp": true,
"/usr": true,
"/var": true,
"/var/lib": true,
"/var/log": true,
}
if home := os.Getenv("HOME"); home != "" {
excludePaths[home] = true
}
if sudoUser := os.Getenv("SUDO_USER"); sudoUser != "" {
if usr, err := user.Lookup(sudoUser); err == nil {
excludePaths[usr.HomeDir] = true
}
}
if fpath != "/" {
fpath = strings.TrimSuffix(fpath, "/")
}
if excludePaths[fpath] {
return fmt.Errorf("SELinux relabeling of %s is not allowed", fpath)
}
if !recurse {
err := lSetFileLabel(fpath, label)
if err != nil {
// Check if file doesn't exist, must have been removed
if errors.Is(err, os.ErrNotExist) {
return nil
}
// Check if current label is correct on disk
flabel, nerr := lFileLabel(fpath)
if nerr == nil && flabel == label {
return nil
}
// Check if file doesn't exist, must have been removed
if errors.Is(nerr, os.ErrNotExist) {
return nil
}
return err
}
return nil
}
return rchcon(fpath, label)
}
func rchcon(fpath, label string) error { //revive:disable:cognitive-complexity
fastMode := false
// If the current label matches the new label, assume
// other labels are correct.
if cLabel, err := lFileLabel(fpath); err == nil && cLabel == label {
fastMode = true
}
return pwalkdir.Walk(fpath, func(p string, _ fs.DirEntry, _ error) error {
if fastMode {
if cLabel, err := lFileLabel(fpath); err == nil && cLabel == label {
return nil
}
}
err := lSetFileLabel(p, label)
// Walk a file tree can race with removal, so ignore ENOENT.
if errors.Is(err, os.ErrNotExist) {
return nil
}
return err
})
}
// dupSecOpt takes an SELinux process label and returns security options that
// can be used to set the SELinux Type and Level for future container processes.
func dupSecOpt(src string) ([]string, error) {
if src == "" {
return nil, nil
}
con, err := NewContext(src)
if err != nil {
return nil, err
}
if con["user"] == "" ||
con["role"] == "" ||
con["type"] == "" {
return nil, nil
}
dup := []string{
"user:" + con["user"],
"role:" + con["role"],
"type:" + con["type"],
}
if con["level"] != "" {
dup = append(dup, "level:"+con["level"])
}
return dup, nil
}
// findUserInContext scans the reader for a valid SELinux context
// match that is verified with the verifier. Invalid contexts are
// skipped. It returns a matched context or an empty string if no
// match is found. If a scanner error occurs, it is returned.
func findUserInContext(context Context, r io.Reader, verifier func(string) error) (string, error) {
fromRole := context["role"]
fromType := context["type"]
scanner := bufio.NewScanner(r)
for scanner.Scan() {
fromConns := strings.Fields(scanner.Text())
if len(fromConns) == 0 {
// Skip blank lines
continue
}
line := fromConns[0]
if line[0] == ';' || line[0] == '#' {
// Skip comments
continue
}
// user context files contexts are formatted as
// role_r:type_t:s0 where the user is missing.
lineArr := strings.SplitN(line, ":", 4)
// skip context with typo, or role and type do not match
if len(lineArr) != 3 ||
lineArr[0] != fromRole ||
lineArr[1] != fromType {
continue
}
for _, cc := range fromConns[1:] {
toConns := strings.SplitN(cc, ":", 4)
if len(toConns) != 3 {
continue
}
context["role"] = toConns[0]
context["type"] = toConns[1]
outConn := context.get()
if err := verifier(outConn); err != nil {
continue
}
return outConn, nil
}
}
if err := scanner.Err(); err != nil {
return "", fmt.Errorf("failed to scan for context: %w", err)
}
return "", nil
}
func getDefaultContextFromReaders(c *defaultSECtx) (string, error) {
if c.verifier == nil {
return "", ErrVerifierNil
}
context, err := newContext(c.scon)
if err != nil {
return "", fmt.Errorf("failed to create label for %s: %w", c.scon, err)
}
// set so the verifier validates the matched context with the provided user and level.
context["user"] = c.user
context["level"] = c.level
conn, err := findUserInContext(context, c.userRdr, c.verifier)
if err != nil {
return "", err
}
if conn != "" {
return conn, nil
}
conn, err = findUserInContext(context, c.defaultRdr, c.verifier)
if err != nil {
return "", err
}
if conn != "" {
return conn, nil
}
return "", fmt.Errorf("context %q not found: %w", c.scon, ErrContextMissing)
}
func getDefaultContextWithLevel(user, level, scon string) (string, error) {
userPath := filepath.Join(policyRoot(), selinuxUsersDir, user)
fu, err := os.Open(userPath)
if err != nil {
return "", err
}
defer fu.Close()
defaultPath := filepath.Join(policyRoot(), defaultContexts)
fd, err := os.Open(defaultPath)
if err != nil {
return "", err
}
defer fd.Close()
c := defaultSECtx{
user: user,
level: level,
scon: scon,
userRdr: fu,
defaultRdr: fd,
verifier: securityCheckContext,
}
return getDefaultContextFromReaders(&c)
}