import signal import pytest import trio from .. import _core from .._util import signal_raise from .._signals import open_signal_receiver, _signal_handler async def test_open_signal_receiver(): orig = signal.getsignal(signal.SIGILL) with open_signal_receiver(signal.SIGILL) as receiver: # Raise it a few times, to exercise signal coalescing, both at the # call_soon level and at the SignalQueue level signal_raise(signal.SIGILL) signal_raise(signal.SIGILL) await _core.wait_all_tasks_blocked() signal_raise(signal.SIGILL) await _core.wait_all_tasks_blocked() async for signum in receiver: # pragma: no branch assert signum == signal.SIGILL break assert receiver._pending_signal_count() == 0 signal_raise(signal.SIGILL) async for signum in receiver: # pragma: no branch assert signum == signal.SIGILL break assert receiver._pending_signal_count() == 0 with pytest.raises(RuntimeError): await receiver.__anext__() assert signal.getsignal(signal.SIGILL) is orig async def test_open_signal_receiver_restore_handler_after_one_bad_signal(): orig = signal.getsignal(signal.SIGILL) with pytest.raises(ValueError): with open_signal_receiver(signal.SIGILL, 1234567): pass # pragma: no cover # Still restored even if we errored out assert signal.getsignal(signal.SIGILL) is orig async def test_open_signal_receiver_empty_fail(): with pytest.raises(TypeError, match="No signals were provided"): with open_signal_receiver(): pass async def test_open_signal_receiver_restore_handler_after_duplicate_signal(): orig = signal.getsignal(signal.SIGILL) with open_signal_receiver(signal.SIGILL, signal.SIGILL): pass # Still restored correctly assert signal.getsignal(signal.SIGILL) is orig async def test_catch_signals_wrong_thread(): async def naughty(): with open_signal_receiver(signal.SIGINT): pass # pragma: no cover with pytest.raises(RuntimeError): await trio.to_thread.run_sync(trio.run, naughty) async def test_open_signal_receiver_conflict(): with pytest.raises(trio.BusyResourceError): with open_signal_receiver(signal.SIGILL) as receiver: async with trio.open_nursery() as nursery: nursery.start_soon(receiver.__anext__) nursery.start_soon(receiver.__anext__) # Blocks until all previous calls to run_sync_soon(idempotent=True) have been # processed. async def wait_run_sync_soon_idempotent_queue_barrier(): ev = trio.Event() token = _core.current_trio_token() token.run_sync_soon(ev.set, idempotent=True) await ev.wait() async def test_open_signal_receiver_no_starvation(): # Set up a situation where there are always 2 pending signals available to # report, and make sure that instead of getting the same signal reported # over and over, it alternates between reporting both of them. with open_signal_receiver(signal.SIGILL, signal.SIGFPE) as receiver: try: print(signal.getsignal(signal.SIGILL)) previous = None for _ in range(10): signal_raise(signal.SIGILL) signal_raise(signal.SIGFPE) await wait_run_sync_soon_idempotent_queue_barrier() if previous is None: previous = await receiver.__anext__() else: got = await receiver.__anext__() assert got in [signal.SIGILL, signal.SIGFPE] assert got != previous previous = got # Clear out the last signal so it doesn't get redelivered while receiver._pending_signal_count() != 0: await receiver.__anext__() except: # pragma: no cover # If there's an unhandled exception above, then exiting the # open_signal_receiver block might cause the signal to be # redelivered and give us a core dump instead of a traceback... import traceback traceback.print_exc() async def test_catch_signals_race_condition_on_exit(): delivered_directly = set() def direct_handler(signo, frame): delivered_directly.add(signo) print(1) # Test the version where the call_soon *doesn't* have a chance to run # before we exit the with block: with _signal_handler({signal.SIGILL, signal.SIGFPE}, direct_handler): with open_signal_receiver(signal.SIGILL, signal.SIGFPE) as receiver: signal_raise(signal.SIGILL) signal_raise(signal.SIGFPE) await wait_run_sync_soon_idempotent_queue_barrier() assert delivered_directly == {signal.SIGILL, signal.SIGFPE} delivered_directly.clear() print(2) # Test the version where the call_soon *does* have a chance to run before # we exit the with block: with _signal_handler({signal.SIGILL, signal.SIGFPE}, direct_handler): with open_signal_receiver(signal.SIGILL, signal.SIGFPE) as receiver: signal_raise(signal.SIGILL) signal_raise(signal.SIGFPE) await wait_run_sync_soon_idempotent_queue_barrier() assert receiver._pending_signal_count() == 2 assert delivered_directly == {signal.SIGILL, signal.SIGFPE} delivered_directly.clear() # Again, but with a SIG_IGN signal: print(3) with _signal_handler({signal.SIGILL}, signal.SIG_IGN): with open_signal_receiver(signal.SIGILL) as receiver: signal_raise(signal.SIGILL) await wait_run_sync_soon_idempotent_queue_barrier() # test passes if the process reaches this point without dying print(4) with _signal_handler({signal.SIGILL}, signal.SIG_IGN): with open_signal_receiver(signal.SIGILL) as receiver: signal_raise(signal.SIGILL) await wait_run_sync_soon_idempotent_queue_barrier() assert receiver._pending_signal_count() == 1 # test passes if the process reaches this point without dying # Check exception chaining if there are multiple exception-raising # handlers def raise_handler(signum, _): raise RuntimeError(signum) with _signal_handler({signal.SIGILL, signal.SIGFPE}, raise_handler): with pytest.raises(RuntimeError) as excinfo: with open_signal_receiver(signal.SIGILL, signal.SIGFPE) as receiver: signal_raise(signal.SIGILL) signal_raise(signal.SIGFPE) await wait_run_sync_soon_idempotent_queue_barrier() assert receiver._pending_signal_count() == 2 exc = excinfo.value signums = {exc.args[0]} assert isinstance(exc.__context__, RuntimeError) signums.add(exc.__context__.args[0]) assert signums == {signal.SIGILL, signal.SIGFPE}