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|
//! Utilities for working with `/proc`, where Linux's `procfs` is typically
//! mounted. `/proc` serves as an adjunct to Linux's main syscall surface area,
//! providing additional features with an awkward interface.
//!
//! This module does a considerable amount of work to determine whether `/proc`
//! is mounted, with actual `procfs`, and without any additional mount points
//! on top of the paths we open.
//!
//! Why all the effort to detect bind mount points? People are doing all kinds
//! of things with Linux containers these days, with many different privilege
//! schemes, and we want to avoid making any unnecessary assumptions. Rustix
//! and its users will sometimes use procfs *implicitly* (when Linux gives them
//! no better options), in ways that aren't obvious from their public APIs.
//! These filesystem accesses might not be visible to someone auditing the main
//! code of an application for places which may be influenced by the filesystem
//! namespace. So with the checking here, they may fail, but they won't be able
//! to succeed with bogus results.
use crate::fd::{AsFd, BorrowedFd};
use crate::ffi::CStr;
use crate::fs::{
cwd, fstat, fstatfs, major, openat, renameat, Dir, FileType, Mode, OFlags, Stat,
PROC_SUPER_MAGIC,
};
use crate::io::{self, OwnedFd};
use crate::path::DecInt;
use crate::process::{getgid, getpid, getuid, Gid, RawGid, RawUid, Uid};
#[cfg(feature = "rustc-dep-of-std")]
use core::lazy::OnceCell;
#[cfg(not(feature = "rustc-dep-of-std"))]
use once_cell::sync::OnceCell;
/// Linux's procfs always uses inode 1 for its root directory.
const PROC_ROOT_INO: u64 = 1;
// Identify an entry within "/proc", to determine which anomalies to check for.
#[derive(Copy, Clone, Debug)]
enum Kind {
Proc,
Pid,
Fd,
File,
}
/// Check a subdirectory of "/proc" for anomalies.
fn check_proc_entry(
kind: Kind,
entry: BorrowedFd<'_>,
proc_stat: Option<&Stat>,
uid: RawUid,
gid: RawGid,
) -> io::Result<Stat> {
let entry_stat = fstat(entry)?;
check_proc_entry_with_stat(kind, entry, entry_stat, proc_stat, uid, gid)
}
/// Check a subdirectory of "/proc" for anomalies, using the provided `Stat`.
fn check_proc_entry_with_stat(
kind: Kind,
entry: BorrowedFd<'_>,
entry_stat: Stat,
proc_stat: Option<&Stat>,
uid: RawUid,
gid: RawGid,
) -> io::Result<Stat> {
// Check the filesystem magic.
check_procfs(entry)?;
match kind {
Kind::Proc => check_proc_root(entry, &entry_stat)?,
Kind::Pid | Kind::Fd => check_proc_subdir(entry, &entry_stat, proc_stat)?,
Kind::File => check_proc_file(&entry_stat, proc_stat)?,
}
// Check the ownership of the directory. We can't do that for the toplevel
// "/proc" though, because in e.g. a user namespace scenario, root outside
// the container may be mapped to another uid like `nobody`.
if !matches!(kind, Kind::Proc) && (entry_stat.st_uid, entry_stat.st_gid) != (uid, gid) {
return Err(io::Errno::NOTSUP);
}
// "/proc" directories are typically mounted r-xr-xr-x.
// "/proc/self/fd" is r-x------. Allow them to have fewer permissions, but
// not more.
let expected_mode = if let Kind::Fd = kind { 0o500 } else { 0o555 };
if entry_stat.st_mode & 0o777 & !expected_mode != 0 {
return Err(io::Errno::NOTSUP);
}
match kind {
Kind::Fd => {
// Check that the "/proc/self/fd" directory doesn't have any extraneous
// links into it (which might include unexpected subdirectories).
if entry_stat.st_nlink != 2 {
return Err(io::Errno::NOTSUP);
}
}
Kind::Pid | Kind::Proc => {
// Check that the "/proc" and "/proc/self" directories aren't empty.
if entry_stat.st_nlink <= 2 {
return Err(io::Errno::NOTSUP);
}
}
Kind::File => {
// Check that files in procfs don't have extraneous hard links to
// them (which might indicate hard links to other things).
if entry_stat.st_nlink != 1 {
return Err(io::Errno::NOTSUP);
}
}
}
Ok(entry_stat)
}
fn check_proc_root(entry: BorrowedFd<'_>, stat: &Stat) -> io::Result<()> {
// We use `O_DIRECTORY` for proc directories, so open should fail if we
// don't get a directory when we expect one.
assert_eq!(FileType::from_raw_mode(stat.st_mode), FileType::Directory);
// Check the root inode number.
if stat.st_ino != PROC_ROOT_INO {
return Err(io::Errno::NOTSUP);
}
// Proc is a non-device filesystem, so check for major number 0.
// <https://www.kernel.org/doc/Documentation/admin-guide/devices.txt>
if major(stat.st_dev) != 0 {
return Err(io::Errno::NOTSUP);
}
// Check that "/proc" is a mountpoint.
if !is_mountpoint(entry) {
return Err(io::Errno::NOTSUP);
}
Ok(())
}
fn check_proc_subdir(
entry: BorrowedFd<'_>,
stat: &Stat,
proc_stat: Option<&Stat>,
) -> io::Result<()> {
// We use `O_DIRECTORY` for proc directories, so open should fail if we
// don't get a directory when we expect one.
assert_eq!(FileType::from_raw_mode(stat.st_mode), FileType::Directory);
check_proc_nonroot(stat, proc_stat)?;
// Check that subdirectories of "/proc" are not mount points.
if is_mountpoint(entry) {
return Err(io::Errno::NOTSUP);
}
Ok(())
}
fn check_proc_file(stat: &Stat, proc_stat: Option<&Stat>) -> io::Result<()> {
// Check that we have a regular file.
if FileType::from_raw_mode(stat.st_mode) != FileType::RegularFile {
return Err(io::Errno::NOTSUP);
}
check_proc_nonroot(stat, proc_stat)?;
Ok(())
}
fn check_proc_nonroot(stat: &Stat, proc_stat: Option<&Stat>) -> io::Result<()> {
// Check that we haven't been linked back to the root of "/proc".
if stat.st_ino == PROC_ROOT_INO {
return Err(io::Errno::NOTSUP);
}
// Check that we're still in procfs.
if stat.st_dev != proc_stat.unwrap().st_dev {
return Err(io::Errno::NOTSUP);
}
Ok(())
}
/// Check that `file` is opened on a `procfs` filesystem.
fn check_procfs(file: BorrowedFd<'_>) -> io::Result<()> {
let statfs = fstatfs(file)?;
let f_type = statfs.f_type;
if f_type != PROC_SUPER_MAGIC {
return Err(io::Errno::NOTSUP);
}
Ok(())
}
/// Check whether the given directory handle is a mount point. We use a
/// `renameat` call that would otherwise fail, but which fails with `EXDEV`
/// first if it would cross a mount point.
fn is_mountpoint(file: BorrowedFd<'_>) -> bool {
let err = renameat(file, cstr!("../."), file, cstr!(".")).unwrap_err();
match err {
io::Errno::XDEV => true, // the rename failed due to crossing a mount point
io::Errno::BUSY => false, // the rename failed normally
_ => panic!("Unexpected error from `renameat`: {:?}", err),
}
}
/// Open a directory in `/proc`, mapping all errors to `io::Errno::NOTSUP`.
fn proc_opendirat<P: crate::path::Arg, Fd: AsFd>(dirfd: Fd, path: P) -> io::Result<OwnedFd> {
// We could add `PATH`|`NOATIME` here but Linux 2.6.32 doesn't support it.
let oflags = OFlags::NOFOLLOW | OFlags::DIRECTORY | OFlags::CLOEXEC | OFlags::NOCTTY;
openat(dirfd, path, oflags, Mode::empty()).map_err(|_err| io::Errno::NOTSUP)
}
/// Returns a handle to Linux's `/proc` directory.
///
/// This ensures that `/proc` is procfs, that nothing is mounted on top of it,
/// and that it looks normal. It also returns the `Stat` of `/proc`.
///
/// # References
/// - [Linux]
///
/// [Linux]: https://man7.org/linux/man-pages/man5/proc.5.html
fn proc() -> io::Result<(BorrowedFd<'static>, &'static Stat)> {
static PROC: StaticFd = StaticFd::new();
// `OnceBox` is "racey" in that the initialization function may run
// multiple times. We're ok with that, since the initialization function
// has no side effects.
PROC.get_or_try_init(|| {
// Open "/proc".
let proc = proc_opendirat(cwd(), cstr!("/proc"))?;
let proc_stat = check_proc_entry(
Kind::Proc,
proc.as_fd(),
None,
Uid::ROOT.as_raw(),
Gid::ROOT.as_raw(),
)
.map_err(|_err| io::Errno::NOTSUP)?;
Ok(new_static_fd(proc, proc_stat))
})
.map(|(fd, stat)| (fd.as_fd(), stat))
}
/// Returns a handle to Linux's `/proc/self` directory.
///
/// This ensures that `/proc/self` is procfs, that nothing is mounted on top of
/// it, and that it looks normal. It also returns the `Stat` of `/proc/self`.
///
/// # References
/// - [Linux]
///
/// [Linux]: https://man7.org/linux/man-pages/man5/proc.5.html
fn proc_self() -> io::Result<(BorrowedFd<'static>, &'static Stat)> {
static PROC_SELF: StaticFd = StaticFd::new();
// The init function here may run multiple times; see above.
PROC_SELF
.get_or_try_init(|| {
let (proc, proc_stat) = proc()?;
let (uid, gid, pid) = (getuid(), getgid(), getpid());
// Open "/proc/self". Use our pid to compute the name rather than literally
// using "self", as "self" is a symlink.
let proc_self = proc_opendirat(proc, DecInt::new(pid.as_raw_nonzero().get()))?;
let proc_self_stat = check_proc_entry(
Kind::Pid,
proc_self.as_fd(),
Some(proc_stat),
uid.as_raw(),
gid.as_raw(),
)
.map_err(|_err| io::Errno::NOTSUP)?;
Ok(new_static_fd(proc_self, proc_self_stat))
})
.map(|(owned, stat)| (owned.as_fd(), stat))
}
/// Returns a handle to Linux's `/proc/self/fd` directory.
///
/// This ensures that `/proc/self/fd` is `procfs`, that nothing is mounted on
/// top of it, and that it looks normal.
///
/// # References
/// - [Linux]
///
/// [Linux]: https://man7.org/linux/man-pages/man5/proc.5.html
#[cfg_attr(doc_cfg, doc(cfg(feature = "procfs")))]
pub fn proc_self_fd() -> io::Result<BorrowedFd<'static>> {
static PROC_SELF_FD: StaticFd = StaticFd::new();
// The init function here may run multiple times; see above.
PROC_SELF_FD
.get_or_try_init(|| {
let (_, proc_stat) = proc()?;
let (proc_self, proc_self_stat) = proc_self()?;
// Open "/proc/self/fd".
let proc_self_fd = proc_opendirat(proc_self, cstr!("fd"))?;
let proc_self_fd_stat = check_proc_entry(
Kind::Fd,
proc_self_fd.as_fd(),
Some(proc_stat),
proc_self_stat.st_uid,
proc_self_stat.st_gid,
)
.map_err(|_err| io::Errno::NOTSUP)?;
Ok(new_static_fd(proc_self_fd, proc_self_fd_stat))
})
.map(|(owned, _stat)| owned.as_fd())
}
type StaticFd = OnceCell<(OwnedFd, Stat)>;
#[inline]
fn new_static_fd(fd: OwnedFd, stat: Stat) -> (OwnedFd, Stat) {
(fd, stat)
}
/// Returns a handle to Linux's `/proc/self/fdinfo` directory.
///
/// This ensures that `/proc/self/fdinfo` is `procfs`, that nothing is mounted
/// on top of it, and that it looks normal. It also returns the `Stat` of
/// `/proc/self/fd`.
///
/// # References
/// - [Linux]
///
/// [Linux]: https://man7.org/linux/man-pages/man5/proc.5.html
fn proc_self_fdinfo() -> io::Result<(BorrowedFd<'static>, &'static Stat)> {
static PROC_SELF_FDINFO: OnceCell<(OwnedFd, Stat)> = OnceCell::new();
PROC_SELF_FDINFO
.get_or_try_init(|| {
let (_, proc_stat) = proc()?;
let (proc_self, proc_self_stat) = proc_self()?;
// Open "/proc/self/fdinfo".
let proc_self_fdinfo = proc_opendirat(proc_self, cstr!("fdinfo"))?;
let proc_self_fdinfo_stat = check_proc_entry(
Kind::Fd,
proc_self_fdinfo.as_fd(),
Some(proc_stat),
proc_self_stat.st_uid,
proc_self_stat.st_gid,
)
.map_err(|_err| io::Errno::NOTSUP)?;
Ok((proc_self_fdinfo, proc_self_fdinfo_stat))
})
.map(|(owned, stat)| (owned.as_fd(), stat))
}
/// Returns a handle to a Linux `/proc/self/fdinfo/<fd>` file.
///
/// This ensures that `/proc/self/fdinfo/<fd>` is `procfs`, that nothing is
/// mounted on top of it, and that it looks normal.
///
/// # References
/// - [Linux]
///
/// [Linux]: https://man7.org/linux/man-pages/man5/proc.5.html
#[inline]
#[cfg_attr(doc_cfg, doc(cfg(feature = "procfs")))]
pub fn proc_self_fdinfo_fd<Fd: AsFd>(fd: Fd) -> io::Result<OwnedFd> {
_proc_self_fdinfo(fd.as_fd())
}
fn _proc_self_fdinfo(fd: BorrowedFd<'_>) -> io::Result<OwnedFd> {
let (proc_self_fdinfo, proc_self_fdinfo_stat) = proc_self_fdinfo()?;
let fd_str = DecInt::from_fd(fd);
open_and_check_file(proc_self_fdinfo, proc_self_fdinfo_stat, fd_str.as_c_str())
}
/// Returns a handle to a Linux `/proc/self/pagemap` file.
///
/// This ensures that `/proc/self/pagemap` is `procfs`, that nothing is
/// mounted on top of it, and that it looks normal.
///
/// # References
/// - [Linux]
/// - [Linux pagemap]
///
/// [Linux]: https://man7.org/linux/man-pages/man5/proc.5.html
/// [Linux pagemap]: https://www.kernel.org/doc/Documentation/vm/pagemap.txt
#[inline]
#[cfg_attr(doc_cfg, doc(cfg(feature = "procfs")))]
pub fn proc_self_pagemap() -> io::Result<OwnedFd> {
proc_self_file(cstr!("pagemap"))
}
/// Returns a handle to a Linux `/proc/self/maps` file.
///
/// This ensures that `/proc/self/maps` is `procfs`, that nothing is
/// mounted on top of it, and that it looks normal.
///
/// # References
/// - [Linux]
///
/// [Linux]: https://man7.org/linux/man-pages/man5/proc.5.html
#[inline]
#[cfg_attr(doc_cfg, doc(cfg(feature = "procfs")))]
pub fn proc_self_maps() -> io::Result<OwnedFd> {
proc_self_file(cstr!("maps"))
}
/// Open a file under `/proc/self`.
fn proc_self_file(name: &CStr) -> io::Result<OwnedFd> {
let (proc_self, proc_self_stat) = proc_self()?;
open_and_check_file(proc_self, proc_self_stat, name)
}
/// Open a procfs file within in `dir` and check it for bind mounts.
fn open_and_check_file(dir: BorrowedFd, dir_stat: &Stat, name: &CStr) -> io::Result<OwnedFd> {
let (_, proc_stat) = proc()?;
let oflags =
OFlags::RDONLY | OFlags::CLOEXEC | OFlags::NOFOLLOW | OFlags::NOCTTY | OFlags::NOATIME;
let file = openat(&dir, name, oflags, Mode::empty()).map_err(|_err| io::Errno::NOTSUP)?;
let file_stat = fstat(&file)?;
// `is_mountpoint` only works on directory mount points, not file mount
// points. To detect file mount points, scan the parent directory to see
// if we can find a regular file with an inode and name that matches the
// file we just opened. If we can't find it, there could be a file bind
// mount on top of the file we want.
//
// As we scan, we also check for ".", to make sure it's the same directory
// as our original directory, to detect mount points, since
// `Dir::read_from` reopens ".".
//
// TODO: With Linux 5.8 we might be able to use `statx` and
// `STATX_ATTR_MOUNT_ROOT` to detect mountpoints directly instead of doing
// this scanning.
let dir = Dir::read_from(dir).map_err(|_err| io::Errno::NOTSUP)?;
// Confirm that we got the same inode.
let dot_stat = dir.stat().map_err(|_err| io::Errno::NOTSUP)?;
if (dot_stat.st_dev, dot_stat.st_ino) != (dir_stat.st_dev, dir_stat.st_ino) {
return Err(io::Errno::NOTSUP);
}
let mut found_file = false;
let mut found_dot = false;
for entry in dir {
let entry = entry.map_err(|_err| io::Errno::NOTSUP)?;
if entry.ino() == file_stat.st_ino
&& entry.file_type() == FileType::RegularFile
&& entry.file_name() == name
{
// We found the file. Proceed to check the file handle.
let _ = check_proc_entry_with_stat(
Kind::File,
file.as_fd(),
file_stat,
Some(proc_stat),
dir_stat.st_uid,
dir_stat.st_gid,
)?;
found_file = true;
} else if entry.ino() == dir_stat.st_ino
&& entry.file_type() == FileType::Directory
&& entry.file_name() == cstr!(".")
{
// We found ".", and it's the right ".".
found_dot = true;
}
}
if found_file && found_dot {
Ok(file)
} else {
Err(io::Errno::NOTSUP)
}
}
|