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mount_linux.go
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mount_linux.go
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// +build linux
/*
Copyright 2014 The Kubernetes Authors.
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*/
package mount
import (
"bufio"
"fmt"
"hash/adler32"
"io"
"os"
"os/exec"
"strconv"
"strings"
"syscall"
"github.com/golang/glog"
utilExec "k8s.io/kubernetes/pkg/util/exec"
)
const (
// How many times to retry for a consistent read of /proc/mounts.
maxListTries = 3
// Number of fields per line in /proc/mounts as per the fstab man page.
expectedNumFieldsPerLine = 6
// Location of the mount file to use
procMountsPath = "/proc/mounts"
)
const (
// 'fsck' found errors and corrected them
fsckErrorsCorrected = 1
// 'fsck' found errors but exited without correcting them
fsckErrorsUncorrected = 4
)
// Mounter provides the default implementation of mount.Interface
// for the linux platform. This implementation assumes that the
// kubelet is running in the host's root mount namespace.
type Mounter struct{}
// Mount mounts source to target as fstype with given options. 'source' and 'fstype' must
// be an emtpy string in case it's not required, e.g. for remount, or for auto filesystem
// type, where kernel handles fs type for you. The mount 'options' is a list of options,
// currently come from mount(8), e.g. "ro", "remount", "bind", etc. If no more option is
// required, call Mount with an empty string list or nil.
func (mounter *Mounter) Mount(source string, target string, fstype string, options []string) error {
bind, bindRemountOpts := isBind(options)
if bind {
err := doMount(source, target, fstype, []string{"bind"})
if err != nil {
return err
}
return doMount(source, target, fstype, bindRemountOpts)
} else {
return doMount(source, target, fstype, options)
}
}
// isBind detects whether a bind mount is being requested and makes the remount options to
// use in case of bind mount, due to the fact that bind mount doesn't respect mount options.
// The list equals:
// options - 'bind' + 'remount' (no duplicate)
func isBind(options []string) (bool, []string) {
bindRemountOpts := []string{"remount"}
bind := false
if len(options) != 0 {
for _, option := range options {
switch option {
case "bind":
bind = true
break
case "remount":
break
default:
bindRemountOpts = append(bindRemountOpts, option)
}
}
}
return bind, bindRemountOpts
}
// doMount runs the mount command.
func doMount(source string, target string, fstype string, options []string) error {
glog.V(5).Infof("Mounting %s %s %s %v", source, target, fstype, options)
mountArgs := makeMountArgs(source, target, fstype, options)
command := exec.Command("mount", mountArgs...)
output, err := command.CombinedOutput()
if err != nil {
glog.Errorf("Mount failed: %v\nMounting arguments: %s %s %s %v\nOutput: %s\n", err, source, target, fstype, options, string(output))
return fmt.Errorf("mount failed: %v\nMounting arguments: %s %s %s %v\nOutput: %s\n",
err, source, target, fstype, options, string(output))
}
return err
}
// makeMountArgs makes the arguments to the mount(8) command.
func makeMountArgs(source, target, fstype string, options []string) []string {
// Build mount command as follows:
// mount [-t $fstype] [-o $options] [$source] $target
mountArgs := []string{}
if len(fstype) > 0 {
mountArgs = append(mountArgs, "-t", fstype)
}
if len(options) > 0 {
mountArgs = append(mountArgs, "-o", strings.Join(options, ","))
}
if len(source) > 0 {
mountArgs = append(mountArgs, source)
}
mountArgs = append(mountArgs, target)
return mountArgs
}
// Unmount unmounts the target.
func (mounter *Mounter) Unmount(target string) error {
glog.V(5).Infof("Unmounting %s", target)
command := exec.Command("umount", target)
output, err := command.CombinedOutput()
if err != nil {
return fmt.Errorf("Unmount failed: %v\nUnmounting arguments: %s\nOutput: %s\n", err, target, string(output))
}
return nil
}
// List returns a list of all mounted filesystems.
func (*Mounter) List() ([]MountPoint, error) {
return listProcMounts(procMountsPath)
}
// IsLikelyNotMountPoint determines if a directory is not a mountpoint.
// It is fast but not necessarily ALWAYS correct. If the path is in fact
// a bind mount from one part of a mount to another it will not be detected.
// mkdir /tmp/a /tmp/b; mount --bin /tmp/a /tmp/b; IsLikelyNotMountPoint("/tmp/b")
// will return true. When in fact /tmp/b is a mount point. If this situation
// if of interest to you, don't use this function...
func (mounter *Mounter) IsLikelyNotMountPoint(file string) (bool, error) {
stat, err := os.Stat(file)
if err != nil {
return true, err
}
rootStat, err := os.Lstat(file + "/..")
if err != nil {
return true, err
}
// If the directory has a different device as parent, then it is a mountpoint.
if stat.Sys().(*syscall.Stat_t).Dev != rootStat.Sys().(*syscall.Stat_t).Dev {
return false, nil
}
return true, nil
}
// DeviceOpened checks if block device in use by calling Open with O_EXCL flag.
// Returns true if open returns errno EBUSY, and false if errno is nil.
// Returns an error if errno is any error other than EBUSY.
// Returns with error if pathname is not a device.
func (mounter *Mounter) DeviceOpened(pathname string) (bool, error) {
return exclusiveOpenFailsOnDevice(pathname)
}
// PathIsDevice uses FileInfo returned from os.Stat to check if path refers
// to a device.
func (mounter *Mounter) PathIsDevice(pathname string) (bool, error) {
return pathIsDevice(pathname)
}
func exclusiveOpenFailsOnDevice(pathname string) (bool, error) {
if isDevice, err := pathIsDevice(pathname); !isDevice {
return false, fmt.Errorf(
"PathIsDevice failed for path %q: %v",
pathname,
err)
}
fd, errno := syscall.Open(pathname, syscall.O_RDONLY|syscall.O_EXCL, 0)
// If the device is in use, open will return an invalid fd.
// When this happens, it is expected that Close will fail and throw an error.
defer syscall.Close(fd)
if errno == nil {
// device not in use
return false, nil
} else if errno == syscall.EBUSY {
// device is in use
return true, nil
}
// error during call to Open
return false, errno
}
func pathIsDevice(pathname string) (bool, error) {
finfo, err := os.Stat(pathname)
// err in call to os.Stat
if err != nil {
return false, err
}
// path refers to a device
if finfo.Mode()&os.ModeDevice != 0 {
return true, nil
}
// path does not refer to device
return false, nil
}
//GetDeviceNameFromMount: given a mount point, find the device name from its global mount point
func (mounter *Mounter) GetDeviceNameFromMount(mountPath, pluginDir string) (string, error) {
return getDeviceNameFromMount(mounter, mountPath, pluginDir)
}
func listProcMounts(mountFilePath string) ([]MountPoint, error) {
hash1, err := readProcMounts(mountFilePath, nil)
if err != nil {
return nil, err
}
for i := 0; i < maxListTries; i++ {
mps := []MountPoint{}
hash2, err := readProcMounts(mountFilePath, &mps)
if err != nil {
return nil, err
}
if hash1 == hash2 {
// Success
return mps, nil
}
hash1 = hash2
}
return nil, fmt.Errorf("failed to get a consistent snapshot of %v after %d tries", mountFilePath, maxListTries)
}
// readProcMounts reads the given mountFilePath (normally /proc/mounts) and produces a hash
// of the contents. If the out argument is not nil, this fills it with MountPoint structs.
func readProcMounts(mountFilePath string, out *[]MountPoint) (uint32, error) {
file, err := os.Open(mountFilePath)
if err != nil {
return 0, err
}
defer file.Close()
return readProcMountsFrom(file, out)
}
func readProcMountsFrom(file io.Reader, out *[]MountPoint) (uint32, error) {
hash := adler32.New()
scanner := bufio.NewReader(file)
for {
line, err := scanner.ReadString('\n')
if err == io.EOF {
break
}
fields := strings.Fields(line)
if len(fields) != expectedNumFieldsPerLine {
return 0, fmt.Errorf("wrong number of fields (expected %d, got %d): %s", expectedNumFieldsPerLine, len(fields), line)
}
fmt.Fprintf(hash, "%s", line)
if out != nil {
mp := MountPoint{
Device: fields[0],
Path: fields[1],
Type: fields[2],
Opts: strings.Split(fields[3], ","),
}
freq, err := strconv.Atoi(fields[4])
if err != nil {
return 0, err
}
mp.Freq = freq
pass, err := strconv.Atoi(fields[5])
if err != nil {
return 0, err
}
mp.Pass = pass
*out = append(*out, mp)
}
}
return hash.Sum32(), nil
}
// formatAndMount uses unix utils to format and mount the given disk
func (mounter *SafeFormatAndMount) formatAndMount(source string, target string, fstype string, options []string) error {
options = append(options, "defaults")
// Run fsck on the disk to fix repairable issues
glog.V(4).Infof("Checking for issues with fsck on disk: %s", source)
args := []string{"-a", source}
cmd := mounter.Runner.Command("fsck", args...)
out, err := cmd.CombinedOutput()
if err != nil {
ee, isExitError := err.(utilExec.ExitError)
switch {
case err == utilExec.ErrExecutableNotFound:
glog.Warningf("'fsck' not found on system; continuing mount without running 'fsck'.")
case isExitError && ee.ExitStatus() == fsckErrorsCorrected:
glog.Infof("Device %s has errors which were corrected by fsck.", source)
case isExitError && ee.ExitStatus() == fsckErrorsUncorrected:
return fmt.Errorf("'fsck' found errors on device %s but could not correct them: %s.", source, string(out))
case isExitError && ee.ExitStatus() > fsckErrorsUncorrected:
glog.Infof("`fsck` error %s", string(out))
}
}
// Try to mount the disk
glog.V(4).Infof("Attempting to mount disk: %s %s %s", fstype, source, target)
err = mounter.Interface.Mount(source, target, fstype, options)
if err != nil {
// It is possible that this disk is not formatted. Double check using diskLooksUnformatted
notFormatted, err := mounter.diskLooksUnformatted(source)
if err == nil && notFormatted {
args = []string{source}
// Disk is unformatted so format it.
// Use 'ext4' as the default
if len(fstype) == 0 {
fstype = "ext4"
}
if fstype == "ext4" || fstype == "ext3" {
args = []string{"-E", "lazy_itable_init=0,lazy_journal_init=0", "-F", source}
}
glog.Infof("Disk %q appears to be unformatted, attempting to format as type: %q with options: %v", source, fstype, args)
cmd := mounter.Runner.Command("mkfs."+fstype, args...)
_, err := cmd.CombinedOutput()
if err == nil {
// the disk has been formatted successfully try to mount it again.
glog.Infof("Disk successfully formatted (mkfs): %s - %s %s", fstype, source, target)
return mounter.Interface.Mount(source, target, fstype, options)
}
glog.Errorf("format of disk %q failed: type:(%q) target:(%q) options:(%q)error:(%v)", source, fstype, target, options, err)
return err
}
}
return err
}
// diskLooksUnformatted uses 'lsblk' to see if the given disk is unformated
func (mounter *SafeFormatAndMount) diskLooksUnformatted(disk string) (bool, error) {
args := []string{"-nd", "-o", "FSTYPE", disk}
cmd := mounter.Runner.Command("lsblk", args...)
glog.V(4).Infof("Attempting to determine if disk %q is formatted using lsblk with args: (%v)", disk, args)
dataOut, err := cmd.CombinedOutput()
output := strings.TrimSpace(string(dataOut))
// TODO (#13212): check if this disk has partitions and return false, and
// an error if so.
if err != nil {
glog.Errorf("Could not determine if disk %q is formatted (%v)", disk, err)
return false, err
}
return output == "", nil
}