On 5/28/21 5:47 PM, Paul Moore wrote:
On Fri, May 28, 2021 at 3:10 AM Daniel Borkmann <daniel@xxxxxxxxxxxxx> wrote:
On 5/28/21 3:37 AM, Paul Moore wrote:
On Mon, May 17, 2021 at 5:22 AM Ondrej Mosnacek <omosnace@xxxxxxxxxx> wrote:
Commit 59438b46471a ("security,lockdown,selinux: implement SELinux
lockdown") added an implementation of the locked_down LSM hook to
SELinux, with the aim to restrict which domains are allowed to perform
operations that would breach lockdown.
However, in several places the security_locked_down() hook is called in
situations where the current task isn't doing any action that would
directly breach lockdown, leading to SELinux checks that are basically
bogus.
Since in most of these situations converting the callers such that
security_locked_down() is called in a context where the current task
would be meaningful for SELinux is impossible or very non-trivial (and
could lead to TOCTOU issues for the classic Lockdown LSM
implementation), fix this by modifying the hook to accept a struct cred
pointer as argument, where NULL will be interpreted as a request for a
"global", task-independent lockdown decision only. Then modify SELinux
to ignore calls with cred == NULL.
I'm not overly excited about skipping the access check when cred is
NULL. Based on the description and the little bit that I've dug into
thus far it looks like using SECINITSID_KERNEL as the subject would be
much more appropriate. *Something* (the kernel in most of the
relevant cases it looks like) is requesting that a potentially
sensitive disclosure be made, and ignoring it seems like the wrong
thing to do. Leaving the access control intact also provides a nice
avenue to audit these requests should users want to do that.
I think the rationale/workaround for ignoring calls with cred == NULL (or the previous
patch with the unimplemented hook) from Ondrej was two-fold, at least speaking for his
seen tracing cases:
i) The audit events that are triggered due to calls to security_locked_down()
can OOM kill a machine, see below details [0].
ii) It seems to be causing a deadlock via slow_avc_audit() -> audit_log_end()
when presumingly trying to wake up kauditd [1].
How would your suggestion above solve both i) and ii)?
First off, a bit of general commentary - I'm not sure if Ondrej was
aware of this, but info like that is good to have in the commit
description. Perhaps it was in the linked RHBZ but I try not to look
at those when reviewing patches; the commit descriptions must be
self-sufficient since we can't rely on the accessibility or the
lifetime of external references. It's fine if people want to include
external links in their commits, I would actually even encourage it in
some cases, but the links shouldn't replace a proper description of
the problem and why the proposed solution is The Best Solution.
With that out of the way, it sounds like your issue isn't so much the
access check, but rather the frequency of the access denials and the
resulting audit records in your particular use case. My initial
reaction is that you might want to understand why you are getting so
many SELinux access denials, your loaded security policy clearly does
not match with your intended use :) Beyond that, if you want to
basically leave things as-is but quiet the high frequency audit
records that result from these SELinux denials you might want to look
into the SELinux "dontaudit" policy rule, it was created for things
like this. Some info can be found in The SELinux Notebook, relevant
link below:
* https://github.com/SELinuxProject/selinux-notebook/blob/main/src/avc_rules.md#dontaudit
The deadlock issue that was previously reported remains an open case
as far as I'm concerned; I'm presently occupied trying to sort out a
rather serious issue with respect to io_uring and LSM/audit (plus
general stuff at $DAYJOB) so I haven't had time to investigate this
any further. Of course anyone else is welcome to dive into it (I
always want to encourage this, especially from "performance people"
who just want to shut it all off), however if the answer is basically
"disable LSM and/or audit checks" you have to know that it is going to
result in a high degree of skepticism from me, so heavy documentation
on why it is The Best Solution would be a very good thing :) Beyond
that, I think the suggestions above of "why do you have so many policy
denials?" and "have you looked into dontaudit?" are solid places to
look for a solution in your particular case.
Since most callers will just want to pass current_cred() as the cred
parameter, rename the hook to security_cred_locked_down() and provide
the original security_locked_down() function as a simple wrapper around
the new hook.
[...]
3. kernel/trace/bpf_trace.c:bpf_probe_read_kernel{,_str}_common()
Called when a BPF program calls a helper that could leak kernel
memory. The task context is not relevant here, since the program
may very well be run in the context of a different task than the
consumer of the data.
See: https://bugzilla.redhat.com/show_bug.cgi?id=1955585
The access control check isn't so much who is consuming the data, but
who is requesting a potential violation of a "lockdown", yes? For
example, the SELinux policy rule for the current lockdown check looks
something like this:
allow <who> <who> : lockdown { <reason> };
It seems to me that the task context is relevant here and performing
the access control check based on the task's domain is correct.
This doesn't make much sense to me, it's /not/ the task 'requesting a potential
violation of a "lockdown"', but rather the running tracing program which is e.g.
inspecting kernel data structures around the triggered event. If I understood
you correctly, having an 'allow' check on, say, httpd would be rather odd since
things like perf/bcc/bpftrace/systemtap/etc is installing the tracing probe instead.
Meaning, if we would /not/ trace such events (like in the prior mentioned syscall
example), then there is also no call to the security_locked_down() from that same/
unmodified application.
My turn to say that you don't make much sense to me :)
Let's reset.
Sure, yep, lets shortly take one step back. :)
What task_struct is running the BPF tracing program which is calling
into security_locked_down()? My current feeling is that it is this
context/domain/cred that should be used for the access control check;
in the cases where it is a kernel thread, I think passing NULL is
reasonable, but I think the proper thing for SELinux is to interpret
NULL as kernel_t.
If this was a typical LSM hook and, say, your app calls into bind(2) where
we then invoke security_socket_bind() and check 'current' task, then I'm all
with you, because this was _explicitly initiated_ by the httpd app, so that
allow/deny policy belongs in the context of httpd.
In the case of tracing, it's different. You install small programs that are
triggered when certain events fire. Random example from bpftrace's README [0],
you want to generate a histogram of syscall counts by program. One-liner is:
bpftrace -e 'tracepoint:raw_syscalls:sys_enter { @[comm] = count(); }'
bpftrace then goes and generates a BPF prog from this internally. One way of
doing it could be to call bpf_get_current_task() helper and then access
current->comm via one of bpf_probe_read_kernel{,_str}() helpers. So the
program itself has nothing to do with httpd or any other random app doing
a syscall here. The BPF prog _explicitly initiated_ the lockdown check.
The allow/deny policy belongs in the context of bpftrace: meaning, you want
to grant bpftrace access to use these helpers, but other tracers on the
systems like my_random_tracer not. While this works for prior mentioned
cases of security_locked_down() with open_kcore() for /proc/kcore access
or the module_sig_check(), it is broken for tracing as-is, and the patch
I sent earlier fixes this.
Thanks,
Daniel
[0] https://github.com/iovisor/bpftrace