On Sun, May 31, 2020 at 11:57 AM Andy Lutomirski <luto@xxxxxxxxxx> wrote: > > > What if there was a special filter type that ran a BPF program on each > syscall, and the program was allowed to access user memory to make its > decisions, e.g. to look at some list of memory addresses. But this > would explicitly *not* be a security feature -- execve() would remove > the filter, and the filter's outcome would be one of redirecting > execution or allowing the syscall. If the "allow" outcome occurs, > then regular seccomp filters run. Obviously the exact semantics here > would need some care. Let me try to flesh this out a little. A task could install a syscall emulation filter (maybe using the seccomp() syscall, maybe using something else). There would be at most one such filter per process. Upon doing a syscall, the kernel will first do initial syscall fixups (e.g. SYSENTER/SYSCALL32 magic argument translation) and would then invoke the filter. The filter is an eBPF program (sorry Kees) and, as input, it gets access to the task's register state and to an indication of which type of syscall entry this was. This will inherently be rather architecture specific -- x86 choices could be int80, int80(translated), and syscall64. (We could expose SYSCALL32 separately, I suppose, but SYSENTER is such a mess that I'm not sure this would be productive.) The program can access user memory, and it returns one of two results: allow the syscall or send SIGSYS. If the program tries to access user memory and faults, the result is SIGSYS. (I would love to do this with cBPF, but I'm not sure how to pull this off. Accessing user memory is handy for making the lookup flexible enough to detect Windows vs Linux. It would be *really* nice to finally settle the unprivileged eBPF subset discussion so that we can figure out how to make eBPF work here.) execve() clears the filter. clone() copies the filter. Does this seem reasonable? Is the implementation complexity small enough? Is the eBPF thing going to be a showstopper? Using a signal instead of a bespoke thunk simplifies a lot of thorny details but is also enough slower that catching all syscalls might be a performance problem.