Daniel Colascione <dancol@xxxxxxxxxx> writes: > On Mon, Nov 19, 2018 at 1:37 PM Christian Brauner <christian@xxxxxxxxxx> wrote: >> >> On Mon, Nov 19, 2018 at 01:26:22PM -0800, Daniel Colascione wrote: >> > On Mon, Nov 19, 2018 at 1:21 PM, Christian Brauner <christian@xxxxxxxxxx> wrote: >> > > That can be done without a loop by comparing the level counter for the >> > > two pid namespaces. >> > > >> > >> >> > >> And you can rewrite pidns_get_parent to use it. So you would instead be >> > >> doing: >> > >> >> > >> if (pidns_is_descendant(proc_pid_ns, task_active_pid_ns(current))) >> > >> return -EPERM; >> > >> >> > >> (Or you can just copy the 5-line loop into procfd_signal -- though I >> > >> imagine we'll need this for all of the procfd_* APIs.) >> > >> > Why is any of this even necessary? Why does the child namespace we're >> > considering even have a file descriptor to its ancestor's procfs? If >> >> Because you can send file descriptors between processes and container >> runtimes tend to do that. > > Right. But why *would* a container runtime send one of these procfs > FDs to a container? > >> > it has one of these FDs, it can already *read* all sorts of >> > information it really shouldn't be able to acquire, so the additional >> > ability to send a signal (subject to the usual permission checks) >> > feels like sticking a finger in a dike that's already well-perforated. >> > IMHO, we shouldn't bother with this check. The patch would be simpler >> > without it. >> >> We will definitely not allow signaling processes in an ancestor pid >> namespace! That is a security issue! I can imagine container runtimes >> killing their monitoring process etc. pp. Not happening, unless someone >> with deep expertise in signals can convince me otherwise. > > If parent namespace procfs FDs or mounts really can leak into child > namespaces as easily as Aleksa says, then I don't mind adding the > check. I was under the impression that if you find yourself in this > situation, you already have a big problem. There is one big reason to have the check, and I have not seen it mentioned yet in this thread. When SI_USER is set we report the pid of the sender of the signal in si_pid. When the signal comes from the kernel si_pid == 0. When signal is sent from an ancestor pid namespace si_pid also equals 0 (which is reasonable). A signal out to a process in a parent pid namespace such as SIGCHLD is reasonable as we can map the pid. I really don't see the point of forbidding that. From the perspective of the process in the parent pid namespace it is just another process in it's pid namespace. So it should pose no problem from the perspective of the receiving process. A signal to a process in a pid namespace that is neither a parent nor a descendent pid namespace would be a problem, as there is no well defined notion of what si_pid should be set to. So for that case perhaps we should have something like a noprocess pid that we can set. Perhaps we could set si_pid to 0xffffffff. That would take a small extension to pid_nr_ns. File descriptors are not namespaced. It is completely legitimate to use file descriptors to get around limitations of namespaces. Adding limitations to a file descriptor based api because someone else can't set up their processes in such a way as to get the restrictions they are looking for seems very sad. Frankly I think it is one of the better features of namespaces that we have to carefully handle and define these cases so that when the inevitable leaks happen you are not immediately in a world of hurt. All of the other permission checks etc continue to do their job. Plus you are prepared for the case when someone wants their containers to have an interesting communication primitive. Eric
