On Fri, May 28, 2021 at 6:36 PM Richard Guy Briggs <rgb(a)redhat.com> wrote:
On 2021-05-21 17:50, Paul Moore wrote:
> WARNING - This is a work in progress and should not be merged
> anywhere important. It is almost surely not complete, and while it
> probably compiles it likely hasn't been booted and will do terrible
> things. You have been warned.
>
> This patch adds basic audit io_uring filtering, using as much of the
> existing audit filtering infrastructure as possible. In order to do
> this we reuse the audit filter rule's syscall mask for the io_uring
> operation and we create a new filter for io_uring operations as
> AUDIT_FILTER_URING_EXIT/audit_filter_list[7].
>
> <TODO - provide some additional guidance for the userspace tools>
>
> Signed-off-by: Paul Moore <paul(a)paul-moore.com>
> ---
> include/uapi/linux/audit.h | 3 +-
> kernel/auditfilter.c | 4 ++-
> kernel/auditsc.c | 65 ++++++++++++++++++++++++++++++++++----------
> 3 files changed, 55 insertions(+), 17 deletions(-)
...
> diff --git a/kernel/auditsc.c b/kernel/auditsc.c
> index d8aa2c690bf9..4f6ab34020fb 100644
> --- a/kernel/auditsc.c
> +++ b/kernel/auditsc.c
> @@ -799,6 +799,35 @@ static int audit_in_mask(const struct audit_krule *rule,
unsigned long val)
> return rule->mask[word] & bit;
> }
>
> +/**
> + * audit_filter_uring - apply filters to an io_uring operation
> + * @tsk: associated task
> + * @ctx: audit context
> + */
> +static void audit_filter_uring(struct task_struct *tsk,
> + struct audit_context *ctx)
> +{
> + struct audit_entry *e;
> + enum audit_state state;
> +
> + if (auditd_test_task(tsk))
> + return;
Is this necessary? auditd and auditctl don't (intentionally) use any
io_uring functionality. Is it possible it might inadvertantly use some
by virtue of libc or other library calls now or in the future?
I think the better question is what harm does it do? Yes, I'm not
aware of an auditd implementation that currently makes use of
io_uring, but it is also not inconceivable some future implementation
might want to make use of it and given the disjoint nature of kernel
and userspace development I don't want the kernel to block such
developments. However, if you can think of a reason why having this
check here is bad I'm listening (note: we are already in the slow path
here so having the additional check isn't an issue as far as I'm
concerned).
As a reminder, auditd_test_task() only returns true/1 if the task is
registered with the audit subsystem as an auditd connection, an
auditctl process should not cause this function to return true.
> + rcu_read_lock();
> + list_for_each_entry_rcu(e, &audit_filter_list[AUDIT_FILTER_URING_EXIT],
> + list) {
> + if (audit_in_mask(&e->rule, ctx->uring_op) &&
While this seems like the most obvious approach given the parallels
between syscalls and io_uring operations, as coded here it won't work
due to the different mappings of syscall numbers and io_uring
operations unless we re-use the auditctl -S field with raw io_uring
operation numbers in the place of syscall numbers. This should have
been obvious to me when I first looked at this patch. It became obvious
when I started looking at the userspace auditctl.c.
FWIW, my intention was to treat io_uring opcodes exactly like we treat
syscall numbers. Yes, this would potentially be an issue if we wanted
to combine syscalls and io_uring opcodes into one filter, but why
would we ever want to do that? Combining the two into one filter not
only makes the filter lists longer than needed (we will always know if
we are filtering on a syscall or io_uring op) and complicates the
filter rule processing.
Or is there a problem with this that I'm missing?
The easy first step would be to use something like this:
auditctl -a uring,always -S 18,28 -F key=uring_open
to monitor file open commands only. The same is not yet possible for
the perm field, but there are so few io_uring ops at this point compared
with syscalls that it might be manageable. The arch is irrelevant since
io_uring operation numbers are identical across all hardware as far as I
can tell. Most of the rest of the fields should make sense if they do
for a syscall rule.
I've never been a fan of audit's "perm" filtering; I've always felt
there were better ways to handle that so I'm not overly upset that we
are skipping that functionality with this initial support. If it
becomes a problem in the future we can always add that support at a
later date.
I currently fear that just getting io_uring and audit to coexist is
going to be a large enough problem in the immediate future.
Great, thank you. I haven't grabbed a copy yet for testing, but I will.
If we abuse the syscall infrastructure at first, we'd need a
transition
plan to coordinate user and kernel switchover to seperate mechanisms for
the two to work together if the need should arise to have both syscall
and uring filters in the same rule.
See my comments above, I don't currently see why we would ever want
syscall and io_uring filtering to happen in the same rule. Please
speak up if you can think of a reason why this would either be needed,
or desirable for some reason.
It might be wise to deliberately not support auditctl "-w"
(and the
exported audit_add_watch() function) since that is currently hardcoded
to the AUDIT_FILTER_EXIT list and is the old watch form [replaced by
audit_rule_fieldpair_data()] anyways that is more likely to be
deprecated. It also appears to make sense not to support autrace (at
least initially).
I'm going to be honest with you and simply say that I've run out of my
email/review time in front of the computer on this holiday weekend
(blame the lockdown/bpf/lsm discussion <g>) and I need to go for
today, but this is something I'll take a look it this coming week.
Hopefully the comments above give us something to think/talk about in
the meantime.
Regardless, thanks for your help on the userspace side of the
filtering, that should make testing a lot easier moving forward.
--
paul moore
www.paul-moore.com