Re: [PATCH net-next] netns: filter uevents correctly

From: Eric W. Biederman
Date: Wed Apr 11 2018 - 12:41:43 EST


Christian Brauner <christian.brauner@xxxxxxxxxxxxx> writes:

> On Tue, Apr 10, 2018 at 10:04:46AM -0500, Eric W. Biederman wrote:
>> Christian Brauner <christian.brauner@xxxxxxxxxxxxx> writes:
>>
>> > On Mon, Apr 09, 2018 at 06:21:31PM -0500, Eric W. Biederman wrote:
>> >> Christian Brauner <christian.brauner@xxxxxxxxxxxxx> writes:
>> >>
>> >> > On Thu, Apr 05, 2018 at 10:59:49PM -0500, Eric W. Biederman wrote:
>> >> >> Christian Brauner <christian.brauner@xxxxxxxxxxxxx> writes:
>> >> >>
>> >> >> > On Thu, Apr 05, 2018 at 05:26:59PM +0300, Kirill Tkhai wrote:
>> >> >> >> On 05.04.2018 17:07, Christian Brauner wrote:
>> >> >> >> > On Thu, Apr 05, 2018 at 04:01:03PM +0300, Kirill Tkhai wrote:
>> >> >> >> >> On 04.04.2018 22:48, Christian Brauner wrote:
>> >> >> >> >>> commit 07e98962fa77 ("kobject: Send hotplug events in all network namespaces")
>> >> >> >> >>>
>> >> >> >> >>> enabled sending hotplug events into all network namespaces back in 2010.
>> >> >> >> >>> Over time the set of uevents that get sent into all network namespaces has
>> >> >> >> >>> shrunk. We have now reached the point where hotplug events for all devices
>> >> >> >> >>> that carry a namespace tag are filtered according to that namespace.
>> >> >> >> >>>
>> >> >> >> >>> Specifically, they are filtered whenever the namespace tag of the kobject
>> >> >> >> >>> does not match the namespace tag of the netlink socket. One example are
>> >> >> >> >>> network devices. Uevents for network devices only show up in the network
>> >> >> >> >>> namespaces these devices are moved to or created in.
>> >> >> >> >>>
>> >> >> >> >>> However, any uevent for a kobject that does not have a namespace tag
>> >> >> >> >>> associated with it will not be filtered and we will *try* to broadcast it
>> >> >> >> >>> into all network namespaces.
>> >> >> >> >>>
>> >> >> >> >>> The original patchset was written in 2010 before user namespaces were a
>> >> >> >> >>> thing. With the introduction of user namespaces sending out uevents became
>> >> >> >> >>> partially isolated as they were filtered by user namespaces:
>> >> >> >> >>>
>> >> >> >> >>> net/netlink/af_netlink.c:do_one_broadcast()
>> >> >> >> >>>
>> >> >> >> >>> if (!net_eq(sock_net(sk), p->net)) {
>> >> >> >> >>> if (!(nlk->flags & NETLINK_F_LISTEN_ALL_NSID))
>> >> >> >> >>> return;
>> >> >> >> >>>
>> >> >> >> >>> if (!peernet_has_id(sock_net(sk), p->net))
>> >> >> >> >>> return;
>> >> >> >> >>>
>> >> >> >> >>> if (!file_ns_capable(sk->sk_socket->file, p->net->user_ns,
>> >> >> >> >>> CAP_NET_BROADCAST))
>> >> >> >> >>> j return;
>> >> >> >> >>> }
>> >> >> >> >>>
>> >> >> >> >>> The file_ns_capable() check will check whether the caller had
>> >> >> >> >>> CAP_NET_BROADCAST at the time of opening the netlink socket in the user
>> >> >> >> >>> namespace of interest. This check is fine in general but seems insufficient
>> >> >> >> >>> to me when paired with uevents. The reason is that devices always belong to
>> >> >> >> >>> the initial user namespace so uevents for kobjects that do not carry a
>> >> >> >> >>> namespace tag should never be sent into another user namespace. This has
>> >> >> >> >>> been the intention all along. But there's one case where this breaks,
>> >> >> >> >>> namely if a new user namespace is created by root on the host and an
>> >> >> >> >>> identity mapping is established between root on the host and root in the
>> >> >> >> >>> new user namespace. Here's a reproducer:
>> >> >> >> >>>
>> >> >> >> >>> sudo unshare -U --map-root
>> >> >> >> >>> udevadm monitor -k
>> >> >> >> >>> # Now change to initial user namespace and e.g. do
>> >> >> >> >>> modprobe kvm
>> >> >> >> >>> # or
>> >> >> >> >>> rmmod kvm
>> >> >> >> >>>
>> >> >> >> >>> will allow the non-initial user namespace to retrieve all uevents from the
>> >> >> >> >>> host. This seems very anecdotal given that in the general case user
>> >> >> >> >>> namespaces do not see any uevents and also can't really do anything useful
>> >> >> >> >>> with them.
>> >> >> >> >>>
>> >> >> >> >>> Additionally, it is now possible to send uevents from userspace. As such we
>> >> >> >> >>> can let a sufficiently privileged (CAP_SYS_ADMIN in the owning user
>> >> >> >> >>> namespace of the network namespace of the netlink socket) userspace process
>> >> >> >> >>> make a decision what uevents should be sent.
>> >> >> >> >>>
>> >> >> >> >>> This makes me think that we should simply ensure that uevents for kobjects
>> >> >> >> >>> that do not carry a namespace tag are *always* filtered by user namespace
>> >> >> >> >>> in kobj_bcast_filter(). Specifically:
>> >> >> >> >>> - If the owning user namespace of the uevent socket is not init_user_ns the
>> >> >> >> >>> event will always be filtered.
>> >> >> >> >>> - If the network namespace the uevent socket belongs to was created in the
>> >> >> >> >>> initial user namespace but was opened from a non-initial user namespace
>> >> >> >> >>> the event will be filtered as well.
>> >> >> >> >>> Put another way, uevents for kobjects not carrying a namespace tag are now
>> >> >> >> >>> always only sent to the initial user namespace. The regression potential
>> >> >> >> >>> for this is near to non-existent since user namespaces can't really do
>> >> >> >> >>> anything with interesting devices.
>> >> >> >> >>>
>> >> >> >> >>> Signed-off-by: Christian Brauner <christian.brauner@xxxxxxxxxx>
>> >> >> >> >>> ---
>> >> >> >> >>> lib/kobject_uevent.c | 10 +++++++++-
>> >> >> >> >>> 1 file changed, 9 insertions(+), 1 deletion(-)
>> >> >> >> >>>
>> >> >> >> >>> diff --git a/lib/kobject_uevent.c b/lib/kobject_uevent.c
>> >> >> >> >>> index 15ea216a67ce..cb98cddb6e3b 100644
>> >> >> >> >>> --- a/lib/kobject_uevent.c
>> >> >> >> >>> +++ b/lib/kobject_uevent.c
>> >> >> >> >>> @@ -251,7 +251,15 @@ static int kobj_bcast_filter(struct sock *dsk, struct sk_buff *skb, void *data)
>> >> >> >> >>> return sock_ns != ns;
>> >> >> >> >>> }
>> >> >> >> >>>
>> >> >> >> >>> - return 0;
>> >> >> >> >>> + /*
>> >> >> >> >>> + * The kobject does not carry a namespace tag so filter by user
>> >> >> >> >>> + * namespace below.
>> >> >> >> >>> + */
>> >> >> >> >>> + if (sock_net(dsk)->user_ns != &init_user_ns)
>> >> >> >> >>> + return 1;
>> >> >> >> >>> +
>> >> >> >> >>> + /* Check if socket was opened from non-initial user namespace. */
>> >> >> >> >>> + return sk_user_ns(dsk) != &init_user_ns;
>> >> >> >> >>> }
>> >> >> >> >>> #endif
>> >> >> >> >>
>> >> >> >> >> So, this prohibits to listen events of all devices except network-related
>> >> >> >> >> in containers? If it's so, I don't think it's a good solution. Uevents is not
>> >> >> >> >
>> >> >> >> > No, this is not correct: As it is right now *without my patch* no
>> >> >> >> > non-initial user namespace is receiving *any uevents* but those
>> >> >> >> > specifically namespaced such as those for network devices. This patch
>> >> >> >> > doesn't change that at all. The commit message outlines this in detail
>> >> >> >> > how this comes about.
>> >> >> >> > There is only one case where this currently breaks and this is as I
>> >> >> >> > outlined explicitly in my commit message when you create a new user
>> >> >> >> > namespace and map container(0) -> host(0). This patch fixes this.
>> >> >> >>
>> >> >> >> Could you please point the place, where non-initial user namespaces are filtered?
>> >> >> >> I only see the kobj_bcast_filter() logic, and it used to return 0, which means "accepted".
>> >> >> >> Now it will return 1 sometimes.
>> >> >> >
>> >> >> > Oh sure, it's in the commit message though. The callchain is
>> >> >> > lib/kobject_uevent.c:kobject_uevent_net_broadcast() ->
>> >> >> > nnet/netlink/af_netlink.c:netlink_broadcast_filtered() ->
>> >> >> > net/netlink/af_netlink.c:do_one_broadcast():
>> >> >> >
>> >> >> > This codepiece will check whether the openened socket holds
>> >> >> > CAP_NET_BROADCAST in the user namespace of the target network namespace
>> >> >> > which it won't because we don't have device namespaces and all devices
>> >> >> > belong to the initial set of namespaces.
>> >> >> >
>> >> >> > if (!file_ns_capable(sk->sk_socket->file, p->net->user_ns,
>> >> >> > CAP_NET_BROADCAST))
>> >> >> > j return;
>> >> >> >
>> >> >>
>> >> >> The above that only applies if someone has set NETLINK_F_LISTEN_ALL_NSID
>> >> >> on their socket and has had someone with the appropriate privileges
>> >> >> assign a peerrnetid.
>> >> >>
>> >> >> All of which is to say that file_ns_capable is not nearly as applicable
>> >> >> as it might be, and if you can pass the other two checks I think it is
>> >> >> pointless (because the peernet attributes are not generated for
>> >> >> kobj_uevents) but valid to receive events from outside your network
>> >> >> namespace.
>> >> >>
>> >> >>
>> >> >> I might be missing something but I don't see anything excluding network
>> >> >> namespaces owned by !init_user_ns excluded from the kobject_uevent
>> >> >> logic.
>> >> >>
>> >> >> The uevent_sock_list has one entry per network namespace. And
>> >> >> kobject_uevent_net_broacast appears to walk each one.
>> >> >>
>> >> >> I had a memory of filtering uevent messages and I had a memory
>> >> >> that the netlink_has_listeners had a per network namespace effect.
>> >> >> Neither seems true from my inspection of the code tonight.
>> >> >>
>> >> >> If we are not filtering ordinary uevents at least at the user namespace
>> >> >> level that does seem to be at least a nuisance.
>> >> >>
>> >> >>
>> >> >> Christian can you dig a little deeper into this. I have a feeling that
>> >> >> there are some real efficiency improvements that we could make to
>> >> >> kobject_uevent_net_broadcast if nothing else.
>> >> >>
>> >> >> Perhaps you could see where uevents are broadcast by poking
>> >> >> the sysfs uevent of an existing device, and triggering a retransmit.
>> >> >
>> >> > @Eric, so I did some intensive testing over the weekend and forget everything I
>> >> > said before. Uevents are not filtered by the kernel at the moment. This is
>> >> > currently - apart from network devices - a pure userspace thing. Specifically,
>> >> > anyone on the host can listen to all uevents from everywhere. It's neither
>> >> > filtered by user nor by network namespace. The fact that I used
>> >> >
>> >> > udevadm --debug monitor
>> >> >
>> >> > to test my prior hypothesis was what led me to believe that uevents are already
>> >> > correctly filtered.
>> >> > Instead, what is actually happening is that every udev implementation out there
>> >> > is discarding uevents that were send by uids != 0 in the CMSG_DATA.
>> >> > Specifically,
>> >>
>> >> Yes. I remember something of the sort. I believe udev also filters to
>> >> ensure that the netlink port id == 0 to ensure the message came from
>> >> the kernel and was not spoofed in any way.
>> >>
>> >> > - legacy standalone udevd:
>> >> > https://git.kernel.org/pub/scm/linux/hotplug/udev.git/snapshot/udev-062.tar.gz
>> >> > - eudevd
>> >> > https://github.com/gentoo/eudev/blob/6f630d32bf494a457171b3f99e329592497bf271/src/libudev/libudev-monitor.c#L645
>> >> > - systemd-udevd
>> >> > https://github.com/systemd/systemd/blob/e89ab7f219a399ab719c78cf43c07c0da60bd151/src/libudev/libudev-monitor.c#L656
>> >> > - ueventd (Android)
>> >> > https://android.googlesource.com/platform/system/core.git/+/android-8.1.0_r22/libcutils/uevent.c#81
>> >> >
>> >> > For all of those I could trace this behavior back to the first released
>> >> > version. (To be precise, for legacy udevd that eventually became systemd-udevd
>> >> > I could trace it back to the first version that is still available on
>> >> > git.kernel.org which is 062. Since eudevd is a fork of systemd-udevd it is
>> >> > trivially true that it has the same behavior from the beginning.)
>> >> >
>> >> > In any case, userspace udev is not making use of uevents at all right now since
>> >> > any uid != 0 events are **explicitly** discarded.
>> >> > The fact that you receive uevents for
>> >> >
>> >> > sudo unshare -U --map-root -n
>> >> > udevadm --debug monitor
>> >> >
>> >> > is simply explained by the fact that container(0) <=> host(0) at which point
>> >> > the uid in CMSG_DATA will be 0 in the new user namespace and udev will not
>> >> > discard it.
>> >> > The use case for receiving uevents in containers/user namespaces is definitely
>> >> > there but that's what the uevent injection patch series was for that we merged.
>> >> > This is a much safer and saner solution.
>> >> > The fact that all udev implementations filter uevents by uid != 0 very much
>> >> > seems like a security mechanism in userspace that we probably should provide by
>> >> > isolating uevents based on user and/or network namespaces.
>> >>
>> >> So in summary. Uevents are filtered in a user namespace (by userspace)
>> >> because the received uid != 0. It instead == 65534 == "nobody" because
>> >> the global root uid is not mapped.
>> >
>> > Exactly.
>> >
>> >>
>> >> Which means that we can modify the kernel to not send to all network
>> >> namespaces whose user_ns != &init_user_ns because we know that userspace
>> >> will ignore the message because of the uid anyway. Which means when
>> >
>> > Yes.
>> >
>> >> net-next reopens you can send that patch. But please base it on just
>> >> not including network namespaces in the list, as that is much more
>> >> efficient than adding more conditions to the filter.
>> >
>> > I'll send a patch out once net-next reopens. I'll also make sure to
>> > inform all udev userspace implementations of the change. It won't affect
>> > them but it is nice for them to know that they're safer now.
>>
>> The real danger is in a user namespace or in a container really is too
>> many daemons responding to events will generate a thundering hurd of
>> activity when there is really nothing to do.
>>
>> > Something like this (Proper commit message and so on will be added once
>> > I sent this out.):
>>
>> Exactly.
>>
>> I would make the comment say something like: "ignore all but the initial
>> user namespace".
>
> Yeah, agreed.
> But I think the patch is not complete. To guarantee that no non-initial
> user namespace actually receives uevents we need to:
> 1. only sent uevents to uevent sockets that are located in network
> namespaces that are owned by init_user_ns
> 2. filter uevents that are sent to sockets in mc_list that have opened a
> uevent socket that is owned by init_user_ns *from* a
> non-init_user_ns
>
> We account for 1. by only recording uevent sockets in the global uevent
> socket list who are owned by init_user_ns.
> But to account for 2. we need to filter by the user namespace who owns
> the socket in mc_list. So in addition to that we also need to slightly
> change the filter logic in kobj_bcast_filter() I think:
>
> diff --git a/lib/kobject_uevent.c b/lib/kobject_uevent.c
> index 22a2c1a98b8f..064d7d29ace5 100644
> --- a/lib/kobject_uevent.c
> +++ b/lib/kobject_uevent.c
> @@ -251,7 +251,8 @@ static int kobj_bcast_filter(struct sock *dsk, struct sk_buff *skb, void *data)
> return sock_ns != ns;
> }
>
> - return 0;
> + /* Check if socket was opened from non-initial user namespace. */
> + return sk_user_ns(dsk) != &init_user_ns;
> }
> #endif
>
>
> But correct me if I'm wrong.

You are worrying about NETLINK_LISTEN_ALL_NSID sockets. That has
permissions and an explicit opt-in to receiving packets from multiple
network namespaces.

There is a netlink CMSG that tells you which network namespace the
packet comes from. Something any sane person will use if they set
NETLINK_LISTEN_ALL_NSID.

There is no problem of confusion. There is no problem of permissions.
So we don't need to worry about preventing NETLINK_LISTEN_ALL_NSID
listeners from seeing the uevents.

Eric