[PATCH] LSM: add SafeSetID module that gates setid calls

Serge E. Hallyn serge at hallyn.com
Thu Nov 1 06:13:22 UTC 2018


On Wed, Oct 31, 2018 at 06:12:46PM -0700, Micah Morton wrote:
> On Wed, Oct 31, 2018 at 3:37 PM Casey Schaufler <casey at schaufler-ca.com> wrote:
> >
> > On 10/31/2018 2:57 PM, Kees Cook wrote:
> > > On Wed, Oct 31, 2018 at 2:02 PM, Serge E. Hallyn <serge at hallyn.com> wrote:
> > >> Just to be sure - your end-goal is to have a set of tasks which have
> > >> some privileges, including CAP_SETUID, but which cannot transition to
> > >> certain uids, perhaps including root?
> 
> Correct, only whitelisted uids can be switched to. This only pertains
> to CAP_SETUID, other capabilities are not affected.
> 
> > > AIUI, the issue is that CAP_SETUID is TOO permissive. Instead, run
> > > _without_ CAP_SETUID and still allow whitelisted uid transitions.
> 
> Kees is right that this LSM only pertains to a single capability:
> CAP_SETUID (future work could tackle CAP_SETGID in the same fashion)
> -- although the idea here is to put in per-user limitations on what a
> process running as that user can do even when it _has_ CAP_SETUID. So
> it doesn't grant any extra privileges to processes that don't have
> CAP_SETUID, only restricts processes that _do_ have CAP_SETUID if the
> user they are running under is restricted.
> 
> >
> > I don't like that thought at all at all. You need CAP_SETUID for
> > some transitions but not all. I can call setreuid() and restore
> > the saved UID to the effective UID. If this LSM works correctly
> > (I haven't examined it carefully yet) it should prevent restoring
> > the effective UID if there isn't an appropriate whitelist entry.
> 
> Yep, thats how it works. The idea here is that you still need
> CAP_SETUID for all transitions, regardless of whether whitelist
> policies exist or not.
> 
> >
> > It also violates the "additional restriction" model of LSMs.

Does it, or does the fact that CAP_SETUID is still required in order
to change uids address that?

> > That has the potential to introduce a failure when a process tries
> > to give up privilege. If 0:1000 isn't on the whitelist but 1000:0
> 
> As above, if a process drops CAP_SETUID it wouldn't be able to do any
> transitions (if this is what you mean by give up privilege). The
> whitelist is a one-way policy so if one wanted to restrict user 123
> but let it switch to 456 and back, 2 policies would need to be added:
> 123 -> 456 and 456 -> 123.
> 
> > is Bad Things can happen. A SUID root program would be unable to
> > give up its privilege by going back to the real UID in this case.

Yes, this was the root cause of the "sendmail capabilities bug" - a
privileged daemon which could be made to run with slightly less
privilege in such a way that it failed to drop privilege, then continued
ot run with some privilege.

But the key trigger there was that an unprivileged task could prevent
the more privileged task from dropping its privilege.

Is that the case here?  It might be...  If one of the uid-restricted
tasks running with CAP_SETUID runs a filter over some malicious data
which forces it to run a program which intends to change its uid and
fails to detect that that failed.  It's not quite as cut-and-dried
though, and if we simply do not allow uid 0 to be in the set of uids,
that may prevent any such cases.

-serge



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