Kees Cook <keescook@xxxxxxxxxxxx> writes: > On Thu, Oct 28, 2021 at 05:06:53PM -0500, Eric W. Biederman wrote: >> Kees Cook <keescook@xxxxxxxxxxxx> writes: >> >> > On Thu, Oct 28, 2021 at 12:26:26PM -0500, Eric W. Biederman wrote: >> >> Kees Cook <keescook@xxxxxxxxxxxx> writes: >> >> >> >> > On Thu, Oct 28, 2021 at 06:21:12PM +0200, Andrea Righi wrote: >> >> >> The following sub-tests are failing in seccomp_bpf selftest: >> >> >> >> >> >> 18:56:54 DEBUG| [stdout] # selftests: seccomp: seccomp_bpf >> >> >> ... >> >> >> 18:56:57 DEBUG| [stdout] # # RUN TRACE_syscall.ptrace.kill_after ... >> >> >> 18:56:57 DEBUG| [stdout] # # seccomp_bpf.c:2023:kill_after:Expected entry ? PTRACE_EVENTMSG_SYSCALL_ENTRY : PTRACE_EVENTMSG_SYSCALL_EXIT (1) == msg (0) >> >> >> 18:56:57 DEBUG| [stdout] # # seccomp_bpf.c:2023:kill_after:Expected entry ? PTRACE_EVENTMSG_SYSCALL_ENTRY : PTRACE_EVENTMSG_SYSCALL_EXIT (2) == msg (1) >> >> >> 18:56:57 DEBUG| [stdout] # # seccomp_bpf.c:2023:kill_after:Expected entry ? PTRACE_EVENTMSG_SYSCALL_ENTRY : PTRACE_EVENTMSG_SYSCALL_EXIT (1) == msg (2) >> >> >> 18:56:57 DEBUG| [stdout] # # kill_after: Test exited normally instead of by signal (code: 12) >> >> >> 18:56:57 DEBUG| [stdout] # # FAIL TRACE_syscall.ptrace.kill_after >> >> >> ... >> >> >> 18:56:57 DEBUG| [stdout] # # RUN TRACE_syscall.seccomp.kill_after ... >> >> >> 18:56:57 DEBUG| [stdout] # # seccomp_bpf.c:1547:kill_after:Expected !ptrace_syscall (1) == IS_SECCOMP_EVENT(status) (0) >> >> >> 18:56:57 DEBUG| [stdout] # # kill_after: Test exited normally instead of by signal (code: 0) >> >> >> 18:56:57 DEBUG| [stdout] # # FAIL TRACE_syscall.seccomp.kill_after >> >> >> 18:56:57 DEBUG| [stdout] # not ok 80 TRACE_syscall.seccomp.kill_after >> >> >> ... >> >> >> 18:56:57 DEBUG| [stdout] # # FAILED: 85 / 87 tests passed. >> >> >> 18:56:57 DEBUG| [stdout] # # Totals: pass:85 fail:2 xfail:0 xpass:0 skip:0 error:0 >> >> >> 18:56:57 DEBUG| [stdout] not ok 1 selftests: seccomp: seccomp_bpf # exit=1 >> >> >> >> >> >> I did some bisecting and found that the failures started to happen with: >> >> >> >> >> >> 307d522f5eb8 ("signal/seccomp: Refactor seccomp signal and coredump generation") >> >> >> >> >> >> Not sure if the test needs to be fixed after this commit, or if the >> >> >> commit is actually introducing an issue. I'll investigate more, unless >> >> >> someone knows already what's going on. >> >> > >> >> > Ah thanks for noticing; I will investigate... >> >> >> >> >> >> I just did a quick read through of the test and while >> >> I don't understand everything having a failure seems >> >> very weird. >> >> >> >> I don't understand the comment: >> >> /* Tracer will redirect getpid to getppid, and we should die. */ >> >> >> >> As I think what happens is it the bpf programs loads the signal >> >> number. Tests to see if the signal number if GETPPID and allows >> >> that system call and causes any other system call to be terminated. >> > >> > The test suite runs a series of seccomp filter vs syscalls under tracing, >> > either with ptrace or with seccomp SECCOMP_RET_TRACE, to validate the >> > expected behavioral states. It seems that what's happened is that the >> > SIGSYS has suddenly become non-killing: >> > >> > # RUN TRACE_syscall.ptrace.kill_after ... >> > # seccomp_bpf.c:1555:kill_after:Expected WSTOPSIG(status) & 0x80 (0) == 0x80 (128) >> > # seccomp_bpf.c:1556:kill_after:WSTOPSIG: 31 >> > # kill_after: Test exited normally instead of by signal (code: 12) >> > # FAIL TRACE_syscall.ptrace.kill_after >> > >> > i.e. the ptracer no longer sees a dead tracee, which would pass through >> > here: >> > >> > if (WIFSIGNALED(status) || WIFEXITED(status)) >> > /* Child is dead. Time to go. */ >> > return; >> > >> > So the above saw a SIG_TRAP|SIGSYS rather than a killing SIGSYS. i.e. >> > instead of WIFSIGNALED(stauts) being true, it instead catches a >> > PTRACE_EVENT_STOP for SIGSYS, which should be impossible (the process >> > should be getting killed). >> >> Oh. This is being ptraced as part of the test? >> >> Yes. The signal started being delivered. As far as that goes that >> sounds correct. >> >> Ptrace is allowed to intercept even fatal signals. Everything except >> SIGKILL. >> >> Is this a condition we don't want even ptrace to be able to catch? >> >> I think we can arrange it so that even ptrace can't intercept this >> signal. I need to sit this problem on the back burner for a few >> minutes. It is an angle I had not considered. >> >> Is it a problem that the debugger can see the signal if the process does >> not? > > Right, I'm trying to understand that too. However, my neighbor just lost > power. :| > > What I was in the middle of checking was what ptrace "sees" going > through a fatal SIGSYS; my initial debugging attempts were weird. If we don't allow ptrace to see these signals, then it makes it possible for complete_signal to short circuit deliver them and ignore ptrace later on. Which seems nice, and allows for not needing to change sigaction at all in the future. I don't know if it is strictly necessary. It is not like people using debuggers have complained yet. I just posted a patch that solves this by setting an extra flag called SA_IMMUTABLE and disabling sigaction and ptrace when the flag is set. I think that is a simple patch that sorts this out. Eric