Thread (25 messages) 25 messages, 7 authors, 2019-05-11

Re: [PATCH v6 5/6] binfmt_*: scope path resolution of interpreters

From: Jann Horn <jannh@google.com>
Date: 2019-05-10 22:56:05
Also in: linux-arch, linux-fsdevel, lkml

On Fri, May 10, 2019 at 02:20:23PM -0700, Andy Lutomirski wrote:
On Fri, May 10, 2019 at 1:41 PM Jann Horn [off-list ref] wrote:
quoted
On Tue, May 07, 2019 at 05:17:35AM +1000, Aleksa Sarai wrote:
quoted
On 2019-05-06, Jann Horn [off-list ref] wrote:
quoted
In my opinion, CVE-2019-5736 points out two different problems:

The big problem: The __ptrace_may_access() logic has a special-case
short-circuit for "introspection" that you can't opt out of; this
makes it possible to open things in procfs that are related to the
current process even if the credentials of the process wouldn't permit
accessing another process like it. I think the proper fix to deal with
this would be to add a prctl() flag for "set whether introspection is
allowed for this process", and if userspace has manually un-set that
flag, any introspection special-case logic would be skipped.
We could do PR_SET_DUMPABLE=3 for this, I guess?
Hmm... I'd make it a new prctl() command, since introspection is
somewhat orthogonal to dumpability. Also, dumpability is per-mm, and I
think the introspection flag should be per-thread.
I've lost track of the context here, but it seems to me that
mitigating attacks involving accidental following of /proc links
shouldn't depend on dumpability.  What's the actual problem this is
trying to solve again?
The one actual security problem that I've seen related to this is
CVE-2019-5736. There is a write-up of it at
<https://blog.dragonsector.pl/2019/02/cve-2019-5736-escape-from-docker-and.html>
under "Successful approach", but it goes more or less as follows:

A container is running that doesn't use user namespaces (because for
some reason I don't understand, apparently some people still do that).
An evil process is running inside the container with UID 0 (as in,
GLOBAL_ROOT_UID); so if the evil process inside the container was able
to reach root-owned files on the host filesystem, it could write into
them.

The container engine wants to spawn a new process inside the container.
It forks off a child that joins the container's namespaces (including
PID and mount namespaces), and then the child calls execve() on some
path in the container.
The attacker replaces the executable in the container with a symlink
to /proc/self/exe and replaces a library inside the container with a
malicious one.
When the container engine calls execve(), intending to run an executable
inside the container, it instead goes through ptrace_may_access() using
the introspection short-circuit and re-executes its own executable
through the jumped symlink /proc/self/exe (which is normally unreachable
for the container). After the execve(), the process loads an evil
library from inside the container and is under the control of the
container.
Now the container controls a process whose /proc/self/exe is a jumped
symlink to a host executable, and the container can write into it.

Some container engines are now using an extremely ugly hack to work
around this - whenever they want to enter a container, they copy the
host binary into a new memfd and execute that to avoid exposing the
original host binary to containers:
<https://github.com/opencontainers/runc/commit/0a8e4117e7f715d5fbeef398405813ce8e88558b>


In my opinion, the problems here are:

 - Apparently some people run untrusted containers without user
   namespaces. It would be really nice if people could not do that.
   (Probably the biggest problem here.)
 - ptrace_may_access() has a short-circuit that permits a process to
   unintentionally look at itself even if it has dropped privileges -
   here, it permits the execve("/proc/self/exe", ...) that would
   normally be blocked by the check for CAP_SYS_PTRACE if the process
   is nondumpable.
 - You can use /proc/*/exe to get a writable fd.
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