From b750101eb236130cf056c675997decbac904cc49 Mon Sep 17 00:00:00 2001
From: Daniel Baumann <daniel.baumann@progress-linux.org>
Date: Sun, 7 Apr 2024 17:35:18 +0200
Subject: Adding upstream version 252.22.

Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
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+---
+title: Using /tmp/ and /var/tmp/ Safely
+category: Interfaces
+layout: default
+SPDX-License-Identifier: LGPL-2.1-or-later
+---
+
+# Using `/tmp/` and `/var/tmp/` Safely
+
+`/tmp/` and `/var/tmp/` are two world-writable directories Linux systems
+provide for temporary files. The former is typically on `tmpfs` and thus
+backed by RAM/swap, and flushed out on each reboot. The latter is typically a
+proper, persistent file system, and thus backed by physical storage. This
+means:
+
+1. `/tmp/` should be used for smaller, size-bounded files only; `/var/tmp/`
+   should be used for everything else.
+
+2. Data that shall survive a boot cycle shouldn't be placed in `/tmp/`.
+
+If the `$TMPDIR` environment variable is set, use that path, and neither use
+`/tmp/` nor `/var/tmp/` directly.
+
+See
+[file-hierarchy(7)](https://www.freedesktop.org/software/systemd/man/file-hierarchy.html)
+for details about these two (and most other) directories of a Linux system.
+
+## Common Namespace
+
+Note that `/tmp/` and `/var/tmp/` each define a common namespace shared by all
+local software. This means guessable file or directory names below either
+directory directly translate into a 🚨 Denial-of-Service (DoS) 🚨 vulnerability
+or worse: if some software creates a file or directory `/tmp/foo` then any
+other software that wants to create the same file or directory `/tmp/foo`
+either will fail (as the file already exists) or might be tricked into using
+untrusted files. Hence: do not use guessable names in `/tmp/` or `/var/tmp/` —
+if you do you open yourself up to a local DoS exploit or worse. (You can get
+away with using guessable names, if you pre-create subdirectories below `/tmp/`
+for them, like X11 does with `/tmp/.X11-unix/` through `tmpfiles.d/`
+drop-ins. However this is not recommended, as it is fully safe only if these
+directories are pre-created during early boot, and thus problematic if package
+installation during runtime is permitted.)
+
+To protect yourself against these kinds of attacks Linux provides a couple of
+APIs that help you avoiding guessable names. Specifically:
+
+1. Use [`mkstemp()`](https://man7.org/linux/man-pages/man3/mkstemp.3.html)
+   (POSIX), `mkostemp()` (glibc),
+   [`mkdtemp()`](https://man7.org/linux/man-pages/man3/mkdtemp.3.html) (POSIX),
+   [`tmpfile()`](https://man7.org/linux/man-pages/man3/tmpfile.3.html) (C89)
+
+2. Use [`open()`](https://man7.org/linux/man-pages/man2/open.2.html) with
+   `O_TMPFILE` (Linux)
+
+3. [`memfd_create()`](https://man7.org/linux/man-pages/man2/memfd_create.2.html)
+   (Linux; this doesn't bother with `/tmp/` or `/var/tmp/` at all, but uses the
+   same RAM/swap backing as `tmpfs` uses, hence is very similar to `/tmp/`
+   semantics.)
+
+For system services systemd provides the `PrivateTmp=` boolean setting. If
+turned on for a service (👍 which is highly recommended), `/tmp/` and
+`/var/tmp/` are replaced by private sub-directories, implemented through Linux
+file system namespacing and bind mounts. This means from the service's point of
+view `/tmp/` and `/var/tmp/` look and behave like they normally do, but in
+reality they are private sub-directories of the host's real `/tmp/` and
+`/var/tmp/`, and thus not system-wide locations anymore, but service-specific
+ones. This reduces the surface for local DoS attacks substantially. While it is
+recommended to turn this option on, it's highly recommended for applications
+not to rely on this solely to avoid DoS vulnerabilities, because this option is
+not available in environments where file system namespaces are prohibited, for
+example in certain container environments. This option is hence an extra line
+of defense, but should not be used as an excuse to rely on guessable names in
+`/tmp/` and `/var/tmp/`. When this option is used, the per-service temporary
+directories are removed whenever the service shuts down, hence the lifecycle of
+temporary files stored in it is substantially different from the case where
+this option is not used. Also note that some applications use `/tmp/` and
+`/var/tmp/` for sharing files and directories. If this option is turned on this
+is not possible anymore as after all each service gets its own instances of
+both directories.
+
+## Automatic Clean-Up
+
+By default, `systemd-tmpfiles` will apply a concept of ⚠️ "ageing" to all files
+and directories stored in `/tmp/` and `/var/tmp/`. This means that files that
+have neither been changed nor read within a specific time frame are
+automatically removed in regular intervals. (This concept is not new to
+`systemd-tmpfiles` btw, it's inherited from previous subsystems such as
+`tmpwatch`.) By default files in `/tmp/` are cleaned up after 10 days, and
+those in `/var/tmp` after 30 days.
+
+This automatic clean-up is important to ensure disk usage of these temporary
+directories doesn't grow without bounds, even when programs abort unexpectedly
+or otherwise don't clean up the temporary files/directories they create. On the
+other hand it creates problems for long-running software that does not expect
+temporary files it operates on to be suddenly removed. There are a couple of
+strategies to avoid these issues:
+
+1. Make sure to always keep a file descriptor to the temporary files you
+   operate on open, and only access the files through them. This way it doesn't
+   matter whether the files have been unlinked from the file system: as long as
+   you have the file descriptor open you can still access the file for both
+   reading and writing. When operating this way it is recommended to delete the
+   files right after creating them to ensure that on unexpected program
+   termination the files or directories are implicitly released by the kernel.
+
+2. 🥇 Use `memfd_create()` or `O_TMPFILE`. This is an extension of the
+   suggestion above: files created this way are never linked under a filename
+   in the file system. This means they are not subject to ageing (as they come
+   unlinked out of the box), and there's no time window where a directory entry
+   for the file exists in the file system, and thus behaviour is fully robust
+   towards unexpected program termination as there are never files on disk that
+   need to be explicitly deleted.
+
+3. 🥇 Operate below a sub-directory of `/tmp/` and `/var/tmp/` you created, and
+   take a BSD file lock ([`flock(dir_fd,
+   LOCK_SH)`](https://man7.org/linux/man-pages/man2/flock.2.html)) on that
+   sub-directory. This is particularly interesting when operating on more than
+   a single file, or on file nodes that are not plain regular files, for
+   example when extracting a tarball to a temporary directory. The ageing
+   algorithm will skip all directories (and everything below them) that are
+   locked through a BSD file lock. As BSD file locks are automatically released
+   when the file descriptor they are taken on is closed, and all file
+   descriptors opened by a process are implicitly closed when it exits, this is
+   a robust mechanism that ensures all temporary files are subject to ageing
+   when the program that owns them dies, but not while it is still running. Use
+   this when decompressing tarballs that contain files with old
+   modification/access times, as extracted files are otherwise immediately
+   candidates for deletion by the ageing algorithm. The
+   [`flock`](https://man7.org/linux/man-pages/man1/flock.1.html) tool of the
+   `util-linux` packages makes this concept available to shell scripts. Note
+   that `systemd-tmpfiles` only checks for BSD file locks on directories, locks
+   on other types of file nodes (including regular files) are not considered.
+
+4. Keep the access time of all temporary files created current. In regular
+   intervals, use `utimensat()` or a related call to update the access time
+   ("atime") of all files that shall be kept around. Since the ageing algorithm
+   looks at the access time of files when deciding whether to delete them, it's
+   sufficient to update their access times in sufficiently frequent intervals to
+   ensure the files are not deleted. Since most applications (and tools such as
+   `ls`) primarily care for the modification time (rather than the access time)
+   using the access time for this purpose should be acceptable.
+
+5. Set the "sticky" bit on regular files. The ageing logic skips deletion of
+   all regular files that have the sticky bit (`chmod +t`) set. This is
+   honoured for regular files only however, and has no effect on directories as
+   the sticky bit has a different meaning for them.
+
+6. Don't use `/tmp/` or `/var/tmp/`, but use your own sub-directory under
+   `/run/` or `$XDG_RUNTIME_DIRECTORY` (the former if privileged, the latter if
+   unprivileged), or `/var/lib/` and `~/.config/` (similar, but with
+   persistency and suitable for larger data). The two temporary directories
+   `/tmp/` and `/var/tmp/` come with the implicit clean-up semantics described
+   above. When this is not desired, it's possible to create private per-package
+   runtime or state directories, and place all temporary files there. However,
+   do note that this means opting out of any kind of automatic clean-up, and it
+   is hence particularly essential that the program cleans up generated files
+   in these directories when they are no longer needed, in particular when the
+   program dies unexpectedly. Note: this strategy is only really suitable for
+   packages that operate in a "system wide singleton" fashion with "long"
+   persistence of its data or state, i.e. as opposed to programs that run in
+   multiple parallel or short-living instances. This is because a private
+   directory under `/run` (and the other mentioned directories) is itself
+   system and package specific singleton with greater longevity.
+
+5. Exclude your temporary files from clean-ups via a `tmpfiles.d/` drop-in
+   (which includes drop-ins in the runtime-only directory
+   `/run/tmpfiles.d/`). The `x`/`X` line types may be used to exclude files
+   matching the specified globbing patterns from the ageing logic. If this is
+   used, automatic clean-up is not done for matching files and directory, and
+   much like with the previous option it's hence essential that the program
+   generating these temporary files carefully removes the temporary files it
+   creates again, and in particular so if it dies unexpectedly.
+
+🥇 The semantics of options 2 (in case you only deal with temporary files, not
+directories) and 3 (in case you deal with both) in the list above are in most
+cases the most preferable. It is thus recommended to stick to these two
+options.
+
+While the ageing logic is very useful as a safety concept to ensure unused
+files and directories are eventually removed a well written program avoids even
+creating files that need such a clean-up. In particular:
+
+1. Use `memfd_create()` or `O_TMPFILE` when creating temporary files.
+
+2. `unlink()` temporary files right after creating them. This is very similar
+   to `O_TMPFILE` behaviour: consider deleting temporary files right after
+   creating them, while keeping open a file descriptor to them. Unlike
+   `O_TMPFILE` this method also works on older Linux systems and other OSes
+   that do not implement `O_TMPFILE`.
+
+## Disk Quota
+
+Generally, files allocated from `/tmp/` and `/var/tmp/` are allocated from a
+pool shared by all local users. Moreover the space available in `/tmp/` is
+generally more restricted than `/var/tmp/`. This means, that in particular in
+`/tmp/` space should be considered scarce, and programs need to be prepared
+that no space is available. Essential programs might require a fallback logic
+using a different location for storing temporary files hence. Non-essential
+programs at least need to be prepared for `ENOSPC` errors and generate useful,
+actionable error messages.
+
+Some setups employ per-user quota on `/var/tmp/` and possibly `/tmp/`, to make
+`ENOSPC` situations less likely, and harder to trigger from unprivileged
+users. However, in the general case no such per-user quota is implemented
+though, in particular not when `tmpfs` is used as backing file system, because
+— even today — `tmpfs` still provides no native quota support in the kernel.
+
+## Early Boot Considerations
+
+Both `/tmp/` and `/var/tmp/` are not necessarily available during early boot,
+or — if they are available early — are not writable. This means software that
+is intended to run during early boot (i.e. before `basic.target` — or more
+specifically `local-fs.target` — is up) should not attempt to make use of
+either. Interfaces such as `memfd_create()` or files below a package-specific
+directory in `/run/` are much better options in this case. (Note that some
+packages instead use `/dev/shm/` for temporary files during early boot; this is
+not advisable however, as it offers no benefits over a private directory in
+`/run/` as both are backed by the same concept: `tmpfs`. The directory
+`/dev/shm/` exists to back POSIX shared memory (see
+[`shm_open()`](https://man7.org/linux/man-pages/man3/shm_open.3.html) and
+related calls), and not as a place for temporary files. `/dev/shm` is
+problematic as it is world-writable and there's no automatic clean-up logic in
+place.)
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