On Fri, Aug 18, 2023 at 7:50 PM Aleksa Sarai cyphar@cyphar.com wrote:
On 2023-08-15, Jeff Xu jeffxu@google.com wrote:
On Mon, Aug 14, 2023 at 1:41 AM Aleksa Sarai cyphar@cyphar.com wrote:
The most critical issue with vm.memfd_noexec=2 (the fact that passing MFD_EXEC would bypass it entirely[1]) has been fixed in Andrew's tree[2], but there are still some outstanding issues that need to be addressed:
vm.memfd_noexec=2 shouldn't reject old-style memfd_create(2) syscalls because it will make it far to difficult to ever migrate. Instead it should imply MFD_EXEC.
The dmesg warnings are pr_warn_once(), which on most systems means that they will be used up by systemd or some other boot process and userspace developers will never see it.
For the !(flags & (MFD_EXEC | MFD_NOEXEC_SEAL)) case, outputting a rate-limited message to the kernel log is necessary to tell userspace that they should add the new flags.
Arguably the most ideal way to deal with the spam concern[3,4] while still prompting userspace to switch to the new flags would be to only log the warning once per task or something similar. However, adding something to task_struct for tracking this would be needless bloat for a single pr_warn_ratelimited().
So just switch to pr_info_ratelimited() to avoid spamming the log with something that isn't a real warning. There's lots of info-level stuff in dmesg, it seems really unlikely that this should be an actual problem. Most programs are already switching to the new flags anyway.
For the vm.memfd_noexec=2 case, we need to log a warning for every failure because otherwise userspace will have no idea why their previously working program started returning -EACCES (previously -EINVAL) from memfd_create(2). pr_warn_once() is simply wrong here.
The racheting mechanism for vm.memfd_noexec makes it incredibly unappealing for most users to enable the sysctl because enabling it on &init_pid_ns means you need a system reboot to unset it. Given the actual security threat being protected against, CAP_SYS_ADMIN users being restricted in this way makes little sense.
The argument for this ratcheting by the original author was that it allows you to have a hierarchical setting that cannot be unset by child pidnses, but this is not accurate -- changing the parent pidns's vm.memfd_noexec setting to be more restrictive didn't affect children.
That is not exactly what I said though.
Sorry, I probably should've phrased this as "one of the main arguments". In the last discussion thread we had in the v1 of this patch, it was my impression that this was the primary sticking point.
From ChromeOS's position, allowing downgrade is less secure, and this setting was designed to be set at startup/reboot time from the very beginning, such that the kernel command line or as part of the container runtime environment (get passed to sandboxed container)
If this had been implemented as a cmdline flag, it would be completely reasonable that you need to reboot to change it. However, it was
You might already know that sysctl can be set in kernel command line, thanks to Vlastimil Babka from SUSE. [1] [1] https://lore.kernel.org/lkml/20200325120345.12946-1-vbabka@suse.cz/
implemented as a sysctl and the behaviour of sysctls is that admins can (generally) change them after they've been set -- even for security-related sysctls such as the fs.protected_* sysctls. The only counter-example I know if the YAMA one, and if I'm being honest I think that behaviour is also weird.
I understand your viewpoint, from another distribution point of view, the original design might be too restricted, so if the kernel wants to weigh more on ease of admin, I'm OK with your approach. Though it is less secure for ChromeOS - i.e. we do try to prevent arbitrary code execution as much as possible, even for CAP_SYSADMIN. And with this change, it is less secure and one more possibility for us to consider.
FWIW I still think the threat model where a &init_user_ns-privileged CAP_SYS_ADMIN process can be tricked into writing a sysctl should be protected against by memfd_create(MFD_EXEC) doesn't really make sense for the vast majority of systems (if any).
I agree other distributions might not care much about running arbitrary code on the host for CAP_SYS_ADMIN, similar to traditional unix in this aspect. ChromeOS has some unique security features.
If ChromeOS really wants the old vm.memfd_noexec=2 behaviour to be enforced, this can be done with a very simple seccomp filter. If applied to pid1, this would also not be possible to unset without a reboot.
In practice, host and process can have different values for vm.memfd_noexec, it can't easily be implemented through seccomp. Seccomp also requires no-new-priv set, there are implications if we set it to pid 1 and apply to all its children.
-- Aleksa Sarai Senior Software Engineer (Containers) SUSE Linux GmbH https://www.cyphar.com/
Thanks Best regards, -Jeff