Remove hard links from env::current_exe
security example
The security example shows that `env::current_exe` will return the
path used when the program was started. This is not really surprising
considering how hard links work: after `ln foo bar`, the two files are
_equivalent_. It is _not_ the case that `bar` is a “link” to `foo`,
nor is `foo` a link to `bar`. They are simply two names for the same
underlying data.
The security vulnerability linked to seems to be different: there an
attacker would start a SUID binary from a directory under the control
of the attacker. The binary would respawn itself by executing the
program found at `/proc/self/exe` (which the attacker can control).
This is a real problem. In my opinion, the example given here doesn’t
really show the same problem, it just shows a misunderstanding of what
hard links are.
I looked through the history a bit and found that the example was
introduced in #33526. That PR actually has two commits, and the
first (8478d48dad
) explains the race
condition at the root of the linked security vulnerability. The second
commit proceeds to replace the explanation with the example we have
today.
This commit reverts most of the second commit from #33526.
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@ -644,36 +644,23 @@ pub fn temp_dir() -> PathBuf {
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///
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/// # Security
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///
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/// The output of this function should not be used in anything that might have
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/// security implications. For example:
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/// The output of this function should not be trusted for anything
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/// that might have security implications. Basically, if users can run
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/// the executable, they can change the output arbitrarily.
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///
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/// ```
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/// fn main() {
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/// println!("{:?}", std::env::current_exe());
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/// }
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/// ```
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/// As an example, you can easily introduce a race condition. It goes
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/// like this:
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///
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/// On Linux systems, if this is compiled as `foo`:
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/// 1. You get the path to the current executable using `current_exe()`, and
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/// store it in a variable.
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/// 2. Time passes. A malicious actor removes the current executable, and
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/// replaces it with a malicious one.
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/// 3. You then use the stored path to re-execute the current
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/// executable.
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///
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/// ```bash
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/// $ rustc foo.rs
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/// $ ./foo
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/// Ok("/home/alex/foo")
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/// ```
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///
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/// And you make a hard link of the program:
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///
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/// ```bash
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/// $ ln foo bar
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/// ```
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///
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/// When you run it, you won’t get the path of the original executable, you’ll
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/// get the path of the hard link:
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///
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/// ```bash
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/// $ ./bar
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/// Ok("/home/alex/bar")
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/// ```
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/// You expected to safely execute the current executable, but you're
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/// instead executing something completely different. The code you
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/// just executed run with your privileges.
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///
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/// This sort of behavior has been known to [lead to privilege escalation] when
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/// used incorrectly.
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