-
#
# Copyright (C) 2019 EfficiOS Inc.
#
class UserMessageIteratorTestCase(unittest.TestCase):
@staticmethod
- def _create_graph(src_comp_cls):
+ def _create_graph(src_comp_cls, flt_comp_cls=None):
class MySink(bt2._UserSinkComponent):
def __init__(self, params):
self._add_input_port('in')
next(self._msg_iter)
def _graph_is_configured(self):
- self._msg_iter = self._input_ports['in'].create_message_iterator()
+ self._msg_iter = self._create_input_port_message_iterator(
+ self._input_ports['in']
+ )
graph = bt2.Graph()
src_comp = graph.add_component(src_comp_cls, 'src')
+
+ if flt_comp_cls is not None:
+ flt_comp = graph.add_component(flt_comp_cls, 'flt')
+
sink_comp = graph.add_component(MySink, 'sink')
- graph.connect_ports(src_comp.output_ports['out'],
- sink_comp.input_ports['in'])
+
+ if flt_comp_cls is not None:
+ assert flt_comp is not None
+ graph.connect_ports(
+ src_comp.output_ports['out'], flt_comp.input_ports['in']
+ )
+ out_port = flt_comp.output_ports['out']
+ else:
+ out_port = src_comp.output_ports['out']
+
+ graph.connect_ports(out_port, sink_comp.input_ports['in'])
return graph
def test_init(self):
initialized = True
the_output_port_from_iter = self_port_output
- class MySource(bt2._UserSourceComponent,
- message_iterator_class=MyIter):
+ class MySource(bt2._UserSourceComponent, message_iterator_class=MyIter):
def __init__(self, params):
nonlocal the_output_port_from_source
the_output_port_from_source = self._add_output_port('out', 'user data')
graph = self._create_graph(MySource)
graph.run()
self.assertTrue(initialized)
- self.assertEqual(the_output_port_from_source.addr, the_output_port_from_iter.addr)
+ self.assertEqual(
+ the_output_port_from_source.addr, the_output_port_from_iter.addr
+ )
self.assertEqual(the_output_port_from_iter.user_data, 'user data')
+ def test_create_from_message_iterator(self):
+ class MySourceIter(bt2._UserMessageIterator):
+ def __init__(self, self_port_output):
+ nonlocal src_iter_initialized
+ src_iter_initialized = True
+
+ class MySource(bt2._UserSourceComponent, message_iterator_class=MySourceIter):
+ def __init__(self, params):
+ self._add_output_port('out')
+
+ class MyFilterIter(bt2._UserMessageIterator):
+ def __init__(self, self_port_output):
+ nonlocal flt_iter_initialized
+ flt_iter_initialized = True
+ self._up_iter = self._create_input_port_message_iterator(
+ self._component._input_ports['in']
+ )
+
+ def __next__(self):
+ return next(self._up_iter)
+
+ class MyFilter(bt2._UserFilterComponent, message_iterator_class=MyFilterIter):
+ def __init__(self, params):
+ self._add_input_port('in')
+ self._add_output_port('out')
+
+ src_iter_initialized = False
+ flt_iter_initialized = False
+ graph = self._create_graph(MySource, MyFilter)
+ graph.run()
+ self.assertTrue(src_iter_initialized)
+ self.assertTrue(flt_iter_initialized)
+
def test_finalize(self):
class MyIter(bt2._UserMessageIterator):
def _finalize(self):
nonlocal finalized
finalized = True
- class MySource(bt2._UserSourceComponent,
- message_iterator_class=MyIter):
+ class MySource(bt2._UserSourceComponent, message_iterator_class=MyIter):
def __init__(self, params):
self._add_output_port('out')
nonlocal salut
salut = self._component._salut
- class MySource(bt2._UserSourceComponent,
- message_iterator_class=MyIter):
+ class MySource(bt2._UserSourceComponent, message_iterator_class=MyIter):
def __init__(self, params):
self._add_output_port('out')
self._salut = 23
nonlocal addr
addr = self.addr
- class MySource(bt2._UserSourceComponent,
- message_iterator_class=MyIter):
+ class MySource(bt2._UserSourceComponent, message_iterator_class=MyIter):
def __init__(self, params):
self._add_output_port('out')
self.assertIsNotNone(addr)
self.assertNotEqual(addr, 0)
+ # Test that messages returned by _UserMessageIterator.__next__ remain valid
+ # and can be re-used.
+ def test_reuse_message(self):
+ class MyIter(bt2._UserMessageIterator):
+ def __init__(self, port):
+ tc, sc, ec = port.user_data
+ trace = tc()
+ stream = trace.create_stream(sc)
+ packet = stream.create_packet()
+
+ # This message will be returned twice by __next__.
+ event_message = self._create_event_message(ec, packet)
+
+ self._msgs = [
+ self._create_stream_beginning_message(stream),
+ self._create_packet_beginning_message(packet),
+ event_message,
+ event_message,
+ ]
+
+ def __next__(self):
+ return self._msgs.pop(0)
+
+ class MySource(bt2._UserSourceComponent, message_iterator_class=MyIter):
+ def __init__(self, params):
+ tc = self._create_trace_class()
+ sc = tc.create_stream_class(supports_packets=True)
+ ec = sc.create_event_class()
+ self._add_output_port('out', (tc, sc, ec))
+
+ graph = bt2.Graph()
+ src = graph.add_component(MySource, 'src')
+ it = graph.create_output_port_message_iterator(src.output_ports['out'])
+
+ # Skip beginning messages.
+ msg = next(it)
+ self.assertIsInstance(msg, bt2._StreamBeginningMessage)
+ msg = next(it)
+ self.assertIsInstance(msg, bt2._PacketBeginningMessage)
+
+ msg_ev1 = next(it)
+ msg_ev2 = next(it)
+
+ self.assertIsInstance(msg_ev1, bt2._EventMessage)
+ self.assertIsInstance(msg_ev2, bt2._EventMessage)
+ self.assertEqual(msg_ev1.addr, msg_ev2.addr)
+
+ @staticmethod
+ def _setup_seek_beginning_test():
+ # Use a source, a filter and an output port iterator. This allows us
+ # to test calling `seek_beginning` on both a _OutputPortMessageIterator
+ # and a _UserComponentInputPortMessageIterator, on top of checking that
+ # _UserMessageIterator._seek_beginning is properly called.
+
+ class MySourceIter(bt2._UserMessageIterator):
+ def __init__(self, port):
+ tc, sc, ec = port.user_data
+ trace = tc()
+ stream = trace.create_stream(sc)
+ packet = stream.create_packet()
+
+ self._msgs = [
+ self._create_stream_beginning_message(stream),
+ self._create_packet_beginning_message(packet),
+ self._create_event_message(ec, packet),
+ self._create_event_message(ec, packet),
+ self._create_packet_end_message(packet),
+ self._create_stream_end_message(stream),
+ ]
+ self._at = 0
+
+ def _seek_beginning(self):
+ self._at = 0
+
+ def __next__(self):
+ if self._at < len(self._msgs):
+ msg = self._msgs[self._at]
+ self._at += 1
+ return msg
+ else:
+ raise StopIteration
+
+ class MySource(bt2._UserSourceComponent, message_iterator_class=MySourceIter):
+ def __init__(self, params):
+ tc = self._create_trace_class()
+ sc = tc.create_stream_class(supports_packets=True)
+ ec = sc.create_event_class()
+
+ self._add_output_port('out', (tc, sc, ec))
+
+ class MyFilterIter(bt2._UserMessageIterator):
+ def __init__(self, port):
+ input_port = port.user_data
+ self._upstream_iter = self._create_input_port_message_iterator(
+ input_port
+ )
+
+ def __next__(self):
+ return next(self._upstream_iter)
+
+ def _seek_beginning(self):
+ self._upstream_iter.seek_beginning()
+
+ @property
+ def _can_seek_beginning(self):
+ return self._upstream_iter.can_seek_beginning
+
+ class MyFilter(bt2._UserFilterComponent, message_iterator_class=MyFilterIter):
+ def __init__(self, params):
+ input_port = self._add_input_port('in')
+ self._add_output_port('out', input_port)
+
+ graph = bt2.Graph()
+ src = graph.add_component(MySource, 'src')
+ flt = graph.add_component(MyFilter, 'flt')
+ graph.connect_ports(src.output_ports['out'], flt.input_ports['in'])
+ it = graph.create_output_port_message_iterator(flt.output_ports['out'])
+
+ return it, MySourceIter
+
+ def test_can_seek_beginning(self):
+ it, MySourceIter = self._setup_seek_beginning_test()
+
+ def _can_seek_beginning(self):
+ nonlocal can_seek_beginning
+ return can_seek_beginning
+
+ MySourceIter._can_seek_beginning = property(_can_seek_beginning)
+
+ can_seek_beginning = True
+ self.assertTrue(it.can_seek_beginning)
+
+ can_seek_beginning = False
+ self.assertFalse(it.can_seek_beginning)
+
+ # Once can_seek_beginning returns an error, verify that it raises when
+ # _can_seek_beginning has/returns the wrong type.
+
+ # Remove the _can_seek_beginning method, we now rely on the presence of
+ # a _seek_beginning method to know whether the iterator can seek to
+ # beginning or not.
+ del MySourceIter._can_seek_beginning
+ self.assertTrue(it.can_seek_beginning)
+
+ del MySourceIter._seek_beginning
+ self.assertFalse(it.can_seek_beginning)
+
+ def test_seek_beginning(self):
+ it, MySourceIter = self._setup_seek_beginning_test()
+
+ msg = next(it)
+ self.assertIsInstance(msg, bt2._StreamBeginningMessage)
+ msg = next(it)
+ self.assertIsInstance(msg, bt2._PacketBeginningMessage)
+
+ it.seek_beginning()
+
+ msg = next(it)
+ self.assertIsInstance(msg, bt2._StreamBeginningMessage)
+
+ # Verify that we can seek beginning after having reached the end.
+ #
+ # It currently does not work to seek an output port message iterator
+ # once it's ended, but we should eventually make it work and uncomment
+ # the following snippet.
+ #
+ # try:
+ # while True:
+ # next(it)
+ # except bt2.Stop:
+ # pass
+ #
+ # it.seek_beginning()
+ # msg = next(it)
+ # self.assertIsInstance(msg, bt2._StreamBeginningMessage)
+
+ def test_seek_beginning_user_error(self):
+ it, MySourceIter = self._setup_seek_beginning_test()
+
+ def _seek_beginning_error(self):
+ raise ValueError('ouch')
+
+ MySourceIter._seek_beginning = _seek_beginning_error
+
+ with self.assertRaises(bt2._Error):
+ it.seek_beginning()
+
+ # Try consuming many times from an iterator that always returns TryAgain.
+ # This verifies that we are not missing an incref of Py_None, making the
+ # refcount of Py_None reach 0.
+ def test_try_again_many_times(self):
+ class MyIter(bt2._UserMessageIterator):
+ def __next__(self):
+ raise bt2.TryAgain
+
+ class MySource(bt2._UserSourceComponent, message_iterator_class=MyIter):
+ def __init__(self, params):
+ self._add_output_port('out')
+
+ graph = bt2.Graph()
+ src = graph.add_component(MySource, 'src')
+ it = graph.create_output_port_message_iterator(src.output_ports['out'])
+
+ # The initial refcount of Py_None was in the 7000, so 100000 iterations
+ # should be enough to catch the bug even if there are small differences
+ # between configurations.
+ for i in range(100000):
+ with self.assertRaises(bt2.TryAgain):
+ next(it)
+
class OutputPortMessageIteratorTestCase(unittest.TestCase):
def test_component(self):
elif self._at == 6:
msg = self._create_stream_end_message(test_obj._stream)
else:
- msg = self._create_event_message(test_obj._event_class, test_obj._packet)
+ msg = self._create_event_message(
+ test_obj._event_class, test_obj._packet
+ )
msg.event.payload_field['my_int'] = self._at * 3
self._at += 1
return msg
- class MySource(bt2._UserSourceComponent,
- message_iterator_class=MyIter):
+ class MySource(bt2._UserSourceComponent, message_iterator_class=MyIter):
def __init__(self, params):
self._add_output_port('out')
trace_class = self._create_trace_class()
- stream_class = trace_class.create_stream_class()
+ stream_class = trace_class.create_stream_class(supports_packets=True)
# Create payload field class
my_int_ft = trace_class.create_signed_integer_field_class(32)
payload_ft = trace_class.create_structure_field_class()
- payload_ft += collections.OrderedDict([
- ('my_int', my_int_ft),
- ])
+ payload_ft += [('my_int', my_int_ft)]
- event_class = stream_class.create_event_class(name='salut', payload_field_class=payload_ft)
+ event_class = stream_class.create_event_class(
+ name='salut', payload_field_class=payload_ft
+ )
trace = trace_class()
stream = trace.create_stream(stream_class)
for at, msg in enumerate(msg_iter):
if at == 0:
- self.assertIsInstance(msg, bt2.message._StreamBeginningMessage)
+ self.assertIsInstance(msg, bt2._StreamBeginningMessage)
elif at == 1:
- self.assertIsInstance(msg, bt2.message._PacketBeginningMessage)
+ self.assertIsInstance(msg, bt2._PacketBeginningMessage)
elif at == 5:
- self.assertIsInstance(msg, bt2.message._PacketEndMessage)
+ self.assertIsInstance(msg, bt2._PacketEndMessage)
elif at == 6:
- self.assertIsInstance(msg, bt2.message._StreamEndMessage)
+ self.assertIsInstance(msg, bt2._StreamEndMessage)
else:
- self.assertIsInstance(msg, bt2.message._EventMessage)
+ self.assertIsInstance(msg, bt2._EventMessage)
self.assertEqual(msg.event.cls.name, 'salut')
field = msg.event.payload_field['my_int']
self.assertEqual(field, at * 3)
+
+
+if __name__ == '__main__':
+ unittest.main()