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cpython/Lib/test/test_monitoring.py
Mark Shannon faa3272fb8
GH-125837: Split LOAD_CONST into three. (GH-125972)
* Add LOAD_CONST_IMMORTAL opcode

* Add LOAD_SMALL_INT opcode

* Remove RETURN_CONST opcode
2024-10-29 11:15:42 +00:00

2220 lines
73 KiB
Python

"""Test suite for the sys.monitoring."""
import collections
import dis
import functools
import math
import operator
import sys
import textwrap
import types
import unittest
import test.support
from test.support import requires_specialization, script_helper
from test.support.import_helper import import_module
_testcapi = test.support.import_helper.import_module("_testcapi")
PAIR = (0,1)
def f1():
pass
def f2():
len([])
sys.getsizeof(0)
def floop():
for item in PAIR:
pass
def gen():
yield
yield
def g1():
for _ in gen():
pass
TEST_TOOL = 2
TEST_TOOL2 = 3
TEST_TOOL3 = 4
def nth_line(func, offset):
return func.__code__.co_firstlineno + offset
class MonitoringBasicTest(unittest.TestCase):
def tearDown(self):
sys.monitoring.free_tool_id(TEST_TOOL)
def test_has_objects(self):
m = sys.monitoring
m.events
m.use_tool_id
m.clear_tool_id
m.free_tool_id
m.get_tool
m.get_events
m.set_events
m.get_local_events
m.set_local_events
m.register_callback
m.restart_events
m.DISABLE
m.MISSING
m.events.NO_EVENTS
def test_tool(self):
sys.monitoring.use_tool_id(TEST_TOOL, "MonitoringTest.Tool")
self.assertEqual(sys.monitoring.get_tool(TEST_TOOL), "MonitoringTest.Tool")
sys.monitoring.set_events(TEST_TOOL, 15)
self.assertEqual(sys.monitoring.get_events(TEST_TOOL), 15)
sys.monitoring.set_events(TEST_TOOL, 0)
with self.assertRaises(ValueError):
sys.monitoring.set_events(TEST_TOOL, sys.monitoring.events.C_RETURN)
with self.assertRaises(ValueError):
sys.monitoring.set_events(TEST_TOOL, sys.monitoring.events.C_RAISE)
sys.monitoring.free_tool_id(TEST_TOOL)
self.assertEqual(sys.monitoring.get_tool(TEST_TOOL), None)
with self.assertRaises(ValueError):
sys.monitoring.set_events(TEST_TOOL, sys.monitoring.events.CALL)
def test_clear(self):
events = []
sys.monitoring.use_tool_id(TEST_TOOL, "MonitoringTest.Tool")
sys.monitoring.register_callback(TEST_TOOL, E.PY_START, lambda *args: events.append(args))
sys.monitoring.register_callback(TEST_TOOL, E.LINE, lambda *args: events.append(args))
def f():
a = 1
sys.monitoring.set_local_events(TEST_TOOL, f.__code__, E.LINE)
sys.monitoring.set_events(TEST_TOOL, E.PY_START)
f()
sys.monitoring.clear_tool_id(TEST_TOOL)
f()
# the first f() should trigger a PY_START and a LINE event
# the second f() after clear_tool_id should not trigger any event
# the callback function should be cleared as well
self.assertEqual(len(events), 2)
callback = sys.monitoring.register_callback(TEST_TOOL, E.LINE, None)
self.assertIs(callback, None)
sys.monitoring.free_tool_id(TEST_TOOL)
events = []
sys.monitoring.use_tool_id(TEST_TOOL, "MonitoringTest.Tool")
sys.monitoring.register_callback(TEST_TOOL, E.LINE, lambda *args: events.append(args))
sys.monitoring.set_local_events(TEST_TOOL, f.__code__, E.LINE)
f()
sys.monitoring.free_tool_id(TEST_TOOL)
sys.monitoring.use_tool_id(TEST_TOOL, "MonitoringTest.Tool")
f()
# the first f() should trigger a LINE event, and even if we use the
# tool id immediately after freeing it, the second f() should not
# trigger any event
self.assertEqual(len(events), 1)
sys.monitoring.free_tool_id(TEST_TOOL)
class MonitoringTestBase:
def setUp(self):
# Check that a previous test hasn't left monitoring on.
for tool in range(6):
self.assertEqual(sys.monitoring.get_events(tool), 0)
self.assertIs(sys.monitoring.get_tool(TEST_TOOL), None)
self.assertIs(sys.monitoring.get_tool(TEST_TOOL2), None)
self.assertIs(sys.monitoring.get_tool(TEST_TOOL3), None)
sys.monitoring.use_tool_id(TEST_TOOL, "test " + self.__class__.__name__)
sys.monitoring.use_tool_id(TEST_TOOL2, "test2 " + self.__class__.__name__)
sys.monitoring.use_tool_id(TEST_TOOL3, "test3 " + self.__class__.__name__)
def tearDown(self):
# Check that test hasn't left monitoring on.
for tool in range(6):
self.assertEqual(sys.monitoring.get_events(tool), 0)
sys.monitoring.free_tool_id(TEST_TOOL)
sys.monitoring.free_tool_id(TEST_TOOL2)
sys.monitoring.free_tool_id(TEST_TOOL3)
class MonitoringCountTest(MonitoringTestBase, unittest.TestCase):
def check_event_count(self, func, event, expected):
class Counter:
def __init__(self):
self.count = 0
def __call__(self, *args):
self.count += 1
counter = Counter()
sys.monitoring.register_callback(TEST_TOOL, event, counter)
if event == E.C_RETURN or event == E.C_RAISE:
sys.monitoring.set_events(TEST_TOOL, E.CALL)
else:
sys.monitoring.set_events(TEST_TOOL, event)
self.assertEqual(counter.count, 0)
counter.count = 0
func()
self.assertEqual(counter.count, expected)
prev = sys.monitoring.register_callback(TEST_TOOL, event, None)
counter.count = 0
func()
self.assertEqual(counter.count, 0)
self.assertEqual(prev, counter)
sys.monitoring.set_events(TEST_TOOL, 0)
def test_start_count(self):
self.check_event_count(f1, E.PY_START, 1)
def test_resume_count(self):
self.check_event_count(g1, E.PY_RESUME, 2)
def test_return_count(self):
self.check_event_count(f1, E.PY_RETURN, 1)
def test_call_count(self):
self.check_event_count(f2, E.CALL, 3)
def test_c_return_count(self):
self.check_event_count(f2, E.C_RETURN, 2)
E = sys.monitoring.events
INSTRUMENTED_EVENTS = [
(E.PY_START, "start"),
(E.PY_RESUME, "resume"),
(E.PY_RETURN, "return"),
(E.PY_YIELD, "yield"),
(E.JUMP, "jump"),
(E.BRANCH, "branch"),
]
EXCEPT_EVENTS = [
(E.RAISE, "raise"),
(E.PY_UNWIND, "unwind"),
(E.EXCEPTION_HANDLED, "exception_handled"),
]
SIMPLE_EVENTS = INSTRUMENTED_EVENTS + EXCEPT_EVENTS + [
(E.C_RAISE, "c_raise"),
(E.C_RETURN, "c_return"),
]
SIMPLE_EVENT_SET = functools.reduce(operator.or_, [ev for (ev, _) in SIMPLE_EVENTS], 0) | E.CALL
def just_pass():
pass
just_pass.events = [
"py_call",
"start",
"return",
]
def just_raise():
raise Exception
just_raise.events = [
'py_call',
"start",
"raise",
"unwind",
]
def just_call():
len([])
just_call.events = [
'py_call',
"start",
"c_call",
"c_return",
"return",
]
def caught():
try:
1/0
except Exception:
pass
caught.events = [
'py_call',
"start",
"raise",
"exception_handled",
"branch",
"return",
]
def nested_call():
just_pass()
nested_call.events = [
"py_call",
"start",
"py_call",
"start",
"return",
"return",
]
PY_CALLABLES = (types.FunctionType, types.MethodType)
class MonitoringEventsBase(MonitoringTestBase):
def gather_events(self, func):
events = []
for event, event_name in SIMPLE_EVENTS:
def record(*args, event_name=event_name):
events.append(event_name)
sys.monitoring.register_callback(TEST_TOOL, event, record)
def record_call(code, offset, obj, arg):
if isinstance(obj, PY_CALLABLES):
events.append("py_call")
else:
events.append("c_call")
sys.monitoring.register_callback(TEST_TOOL, E.CALL, record_call)
sys.monitoring.set_events(TEST_TOOL, SIMPLE_EVENT_SET)
events = []
try:
func()
except:
pass
sys.monitoring.set_events(TEST_TOOL, 0)
#Remove the final event, the call to `sys.monitoring.set_events`
events = events[:-1]
return events
def check_events(self, func, expected=None):
events = self.gather_events(func)
if expected is None:
expected = func.events
self.assertEqual(events, expected)
class MonitoringEventsTest(MonitoringEventsBase, unittest.TestCase):
def test_just_pass(self):
self.check_events(just_pass)
def test_just_raise(self):
try:
self.check_events(just_raise)
except Exception:
pass
self.assertEqual(sys.monitoring.get_events(TEST_TOOL), 0)
def test_just_call(self):
self.check_events(just_call)
def test_caught(self):
self.check_events(caught)
def test_nested_call(self):
self.check_events(nested_call)
UP_EVENTS = (E.C_RETURN, E.C_RAISE, E.PY_RETURN, E.PY_UNWIND, E.PY_YIELD)
DOWN_EVENTS = (E.PY_START, E.PY_RESUME)
from test.profilee import testfunc
class SimulateProfileTest(MonitoringEventsBase, unittest.TestCase):
def test_balanced(self):
events = self.gather_events(testfunc)
c = collections.Counter(events)
self.assertEqual(c["c_call"], c["c_return"])
self.assertEqual(c["start"], c["return"] + c["unwind"])
self.assertEqual(c["raise"], c["exception_handled"] + c["unwind"])
def test_frame_stack(self):
self.maxDiff = None
stack = []
errors = []
seen = set()
def up(*args):
frame = sys._getframe(1)
if not stack:
errors.append("empty")
else:
expected = stack.pop()
if frame != expected:
errors.append(f" Popping {frame} expected {expected}")
def down(*args):
frame = sys._getframe(1)
stack.append(frame)
seen.add(frame.f_code)
def call(code, offset, callable, arg):
if not isinstance(callable, PY_CALLABLES):
stack.append(sys._getframe(1))
for event in UP_EVENTS:
sys.monitoring.register_callback(TEST_TOOL, event, up)
for event in DOWN_EVENTS:
sys.monitoring.register_callback(TEST_TOOL, event, down)
sys.monitoring.register_callback(TEST_TOOL, E.CALL, call)
sys.monitoring.set_events(TEST_TOOL, SIMPLE_EVENT_SET)
testfunc()
sys.monitoring.set_events(TEST_TOOL, 0)
self.assertEqual(errors, [])
self.assertEqual(stack, [sys._getframe()])
self.assertEqual(len(seen), 9)
class CounterWithDisable:
def __init__(self):
self.disable = False
self.count = 0
def __call__(self, *args):
self.count += 1
if self.disable:
return sys.monitoring.DISABLE
class RecorderWithDisable:
def __init__(self, events):
self.disable = False
self.events = events
def __call__(self, code, event):
self.events.append(event)
if self.disable:
return sys.monitoring.DISABLE
class MontoringDisableAndRestartTest(MonitoringTestBase, unittest.TestCase):
def test_disable(self):
try:
counter = CounterWithDisable()
sys.monitoring.register_callback(TEST_TOOL, E.PY_START, counter)
sys.monitoring.set_events(TEST_TOOL, E.PY_START)
self.assertEqual(counter.count, 0)
counter.count = 0
f1()
self.assertEqual(counter.count, 1)
counter.disable = True
counter.count = 0
f1()
self.assertEqual(counter.count, 1)
counter.count = 0
f1()
self.assertEqual(counter.count, 0)
sys.monitoring.set_events(TEST_TOOL, 0)
finally:
sys.monitoring.restart_events()
def test_restart(self):
try:
counter = CounterWithDisable()
sys.monitoring.register_callback(TEST_TOOL, E.PY_START, counter)
sys.monitoring.set_events(TEST_TOOL, E.PY_START)
counter.disable = True
f1()
counter.count = 0
f1()
self.assertEqual(counter.count, 0)
sys.monitoring.restart_events()
counter.count = 0
f1()
self.assertEqual(counter.count, 1)
sys.monitoring.set_events(TEST_TOOL, 0)
finally:
sys.monitoring.restart_events()
class MultipleMonitorsTest(MonitoringTestBase, unittest.TestCase):
def test_two_same(self):
try:
self.assertEqual(sys.monitoring._all_events(), {})
counter1 = CounterWithDisable()
counter2 = CounterWithDisable()
sys.monitoring.register_callback(TEST_TOOL, E.PY_START, counter1)
sys.monitoring.register_callback(TEST_TOOL2, E.PY_START, counter2)
sys.monitoring.set_events(TEST_TOOL, E.PY_START)
sys.monitoring.set_events(TEST_TOOL2, E.PY_START)
self.assertEqual(sys.monitoring.get_events(TEST_TOOL), E.PY_START)
self.assertEqual(sys.monitoring.get_events(TEST_TOOL2), E.PY_START)
self.assertEqual(sys.monitoring._all_events(), {'PY_START': (1 << TEST_TOOL) | (1 << TEST_TOOL2)})
counter1.count = 0
counter2.count = 0
f1()
count1 = counter1.count
count2 = counter2.count
self.assertEqual((count1, count2), (1, 1))
finally:
sys.monitoring.set_events(TEST_TOOL, 0)
sys.monitoring.set_events(TEST_TOOL2, 0)
sys.monitoring.register_callback(TEST_TOOL, E.PY_START, None)
sys.monitoring.register_callback(TEST_TOOL2, E.PY_START, None)
self.assertEqual(sys.monitoring._all_events(), {})
def test_three_same(self):
try:
self.assertEqual(sys.monitoring._all_events(), {})
counter1 = CounterWithDisable()
counter2 = CounterWithDisable()
counter3 = CounterWithDisable()
sys.monitoring.register_callback(TEST_TOOL, E.PY_START, counter1)
sys.monitoring.register_callback(TEST_TOOL2, E.PY_START, counter2)
sys.monitoring.register_callback(TEST_TOOL3, E.PY_START, counter3)
sys.monitoring.set_events(TEST_TOOL, E.PY_START)
sys.monitoring.set_events(TEST_TOOL2, E.PY_START)
sys.monitoring.set_events(TEST_TOOL3, E.PY_START)
self.assertEqual(sys.monitoring.get_events(TEST_TOOL), E.PY_START)
self.assertEqual(sys.monitoring.get_events(TEST_TOOL2), E.PY_START)
self.assertEqual(sys.monitoring.get_events(TEST_TOOL3), E.PY_START)
self.assertEqual(sys.monitoring._all_events(), {'PY_START': (1 << TEST_TOOL) | (1 << TEST_TOOL2) | (1 << TEST_TOOL3)})
counter1.count = 0
counter2.count = 0
counter3.count = 0
f1()
count1 = counter1.count
count2 = counter2.count
count3 = counter3.count
self.assertEqual((count1, count2, count3), (1, 1, 1))
finally:
sys.monitoring.set_events(TEST_TOOL, 0)
sys.monitoring.set_events(TEST_TOOL2, 0)
sys.monitoring.set_events(TEST_TOOL3, 0)
sys.monitoring.register_callback(TEST_TOOL, E.PY_START, None)
sys.monitoring.register_callback(TEST_TOOL2, E.PY_START, None)
sys.monitoring.register_callback(TEST_TOOL3, E.PY_START, None)
self.assertEqual(sys.monitoring._all_events(), {})
def test_two_different(self):
try:
self.assertEqual(sys.monitoring._all_events(), {})
counter1 = CounterWithDisable()
counter2 = CounterWithDisable()
sys.monitoring.register_callback(TEST_TOOL, E.PY_START, counter1)
sys.monitoring.register_callback(TEST_TOOL2, E.PY_RETURN, counter2)
sys.monitoring.set_events(TEST_TOOL, E.PY_START)
sys.monitoring.set_events(TEST_TOOL2, E.PY_RETURN)
self.assertEqual(sys.monitoring.get_events(TEST_TOOL), E.PY_START)
self.assertEqual(sys.monitoring.get_events(TEST_TOOL2), E.PY_RETURN)
self.assertEqual(sys.monitoring._all_events(), {'PY_START': 1 << TEST_TOOL, 'PY_RETURN': 1 << TEST_TOOL2})
counter1.count = 0
counter2.count = 0
f1()
count1 = counter1.count
count2 = counter2.count
self.assertEqual((count1, count2), (1, 1))
finally:
sys.monitoring.set_events(TEST_TOOL, 0)
sys.monitoring.set_events(TEST_TOOL2, 0)
sys.monitoring.register_callback(TEST_TOOL, E.PY_START, None)
sys.monitoring.register_callback(TEST_TOOL2, E.PY_RETURN, None)
self.assertEqual(sys.monitoring._all_events(), {})
def test_two_with_disable(self):
try:
self.assertEqual(sys.monitoring._all_events(), {})
counter1 = CounterWithDisable()
counter2 = CounterWithDisable()
sys.monitoring.register_callback(TEST_TOOL, E.PY_START, counter1)
sys.monitoring.register_callback(TEST_TOOL2, E.PY_START, counter2)
sys.monitoring.set_events(TEST_TOOL, E.PY_START)
sys.monitoring.set_events(TEST_TOOL2, E.PY_START)
self.assertEqual(sys.monitoring.get_events(TEST_TOOL), E.PY_START)
self.assertEqual(sys.monitoring.get_events(TEST_TOOL2), E.PY_START)
self.assertEqual(sys.monitoring._all_events(), {'PY_START': (1 << TEST_TOOL) | (1 << TEST_TOOL2)})
counter1.count = 0
counter2.count = 0
counter1.disable = True
f1()
count1 = counter1.count
count2 = counter2.count
self.assertEqual((count1, count2), (1, 1))
counter1.count = 0
counter2.count = 0
f1()
count1 = counter1.count
count2 = counter2.count
self.assertEqual((count1, count2), (0, 1))
finally:
sys.monitoring.set_events(TEST_TOOL, 0)
sys.monitoring.set_events(TEST_TOOL2, 0)
sys.monitoring.register_callback(TEST_TOOL, E.PY_START, None)
sys.monitoring.register_callback(TEST_TOOL2, E.PY_START, None)
self.assertEqual(sys.monitoring._all_events(), {})
sys.monitoring.restart_events()
def test_with_instruction_event(self):
"""Test that the second tool can set events with instruction events set by the first tool."""
def f():
pass
code = f.__code__
try:
self.assertEqual(sys.monitoring._all_events(), {})
sys.monitoring.set_local_events(TEST_TOOL, code, E.INSTRUCTION | E.LINE)
sys.monitoring.set_local_events(TEST_TOOL2, code, E.LINE)
finally:
sys.monitoring.set_events(TEST_TOOL, 0)
sys.monitoring.set_events(TEST_TOOL2, 0)
self.assertEqual(sys.monitoring._all_events(), {})
class LineMonitoringTest(MonitoringTestBase, unittest.TestCase):
def test_lines_single(self):
try:
self.assertEqual(sys.monitoring._all_events(), {})
events = []
recorder = RecorderWithDisable(events)
sys.monitoring.register_callback(TEST_TOOL, E.LINE, recorder)
sys.monitoring.set_events(TEST_TOOL, E.LINE)
f1()
sys.monitoring.set_events(TEST_TOOL, 0)
sys.monitoring.register_callback(TEST_TOOL, E.LINE, None)
start = nth_line(LineMonitoringTest.test_lines_single, 0)
self.assertEqual(events, [start+7, nth_line(f1, 1), start+8])
finally:
sys.monitoring.set_events(TEST_TOOL, 0)
sys.monitoring.register_callback(TEST_TOOL, E.LINE, None)
self.assertEqual(sys.monitoring._all_events(), {})
sys.monitoring.restart_events()
def test_lines_loop(self):
try:
self.assertEqual(sys.monitoring._all_events(), {})
events = []
recorder = RecorderWithDisable(events)
sys.monitoring.register_callback(TEST_TOOL, E.LINE, recorder)
sys.monitoring.set_events(TEST_TOOL, E.LINE)
floop()
sys.monitoring.set_events(TEST_TOOL, 0)
sys.monitoring.register_callback(TEST_TOOL, E.LINE, None)
start = nth_line(LineMonitoringTest.test_lines_loop, 0)
floop_1 = nth_line(floop, 1)
floop_2 = nth_line(floop, 2)
self.assertEqual(
events,
[start+7, floop_1, floop_2, floop_1, floop_2, floop_1, start+8]
)
finally:
sys.monitoring.set_events(TEST_TOOL, 0)
sys.monitoring.register_callback(TEST_TOOL, E.LINE, None)
self.assertEqual(sys.monitoring._all_events(), {})
sys.monitoring.restart_events()
def test_lines_two(self):
try:
self.assertEqual(sys.monitoring._all_events(), {})
events = []
recorder = RecorderWithDisable(events)
events2 = []
recorder2 = RecorderWithDisable(events2)
sys.monitoring.register_callback(TEST_TOOL, E.LINE, recorder)
sys.monitoring.register_callback(TEST_TOOL2, E.LINE, recorder2)
sys.monitoring.set_events(TEST_TOOL, E.LINE); sys.monitoring.set_events(TEST_TOOL2, E.LINE)
f1()
sys.monitoring.set_events(TEST_TOOL, 0); sys.monitoring.set_events(TEST_TOOL2, 0)
sys.monitoring.register_callback(TEST_TOOL, E.LINE, None)
sys.monitoring.register_callback(TEST_TOOL2, E.LINE, None)
start = nth_line(LineMonitoringTest.test_lines_two, 0)
expected = [start+10, nth_line(f1, 1), start+11]
self.assertEqual(events, expected)
self.assertEqual(events2, expected)
finally:
sys.monitoring.set_events(TEST_TOOL, 0)
sys.monitoring.set_events(TEST_TOOL2, 0)
sys.monitoring.register_callback(TEST_TOOL, E.LINE, None)
sys.monitoring.register_callback(TEST_TOOL2, E.LINE, None)
self.assertEqual(sys.monitoring._all_events(), {})
sys.monitoring.restart_events()
def check_lines(self, func, expected, tool=TEST_TOOL):
try:
self.assertEqual(sys.monitoring._all_events(), {})
events = []
recorder = RecorderWithDisable(events)
sys.monitoring.register_callback(tool, E.LINE, recorder)
sys.monitoring.set_events(tool, E.LINE)
func()
sys.monitoring.set_events(tool, 0)
sys.monitoring.register_callback(tool, E.LINE, None)
lines = [ line - func.__code__.co_firstlineno for line in events[1:-1] ]
self.assertEqual(lines, expected)
finally:
sys.monitoring.set_events(tool, 0)
def test_linear(self):
def func():
line = 1
line = 2
line = 3
line = 4
line = 5
self.check_lines(func, [1,2,3,4,5])
def test_branch(self):
def func():
if "true".startswith("t"):
line = 2
line = 3
else:
line = 5
line = 6
self.check_lines(func, [1,2,3,6])
def test_try_except(self):
def func1():
try:
line = 2
line = 3
except:
line = 5
line = 6
self.check_lines(func1, [1,2,3,6])
def func2():
try:
line = 2
raise 3
except:
line = 5
line = 6
self.check_lines(func2, [1,2,3,4,5,6])
def test_generator_with_line(self):
def f():
def a():
yield
def b():
yield from a()
next(b())
self.check_lines(f, [1,3,5,4,2,4])
class TestDisable(MonitoringTestBase, unittest.TestCase):
def gen(self, cond):
for i in range(10):
if cond:
yield 1
else:
yield 2
def raise_handle_reraise(self):
try:
1/0
except:
raise
def test_disable_legal_events(self):
for event, name in INSTRUMENTED_EVENTS:
try:
counter = CounterWithDisable()
counter.disable = True
sys.monitoring.register_callback(TEST_TOOL, event, counter)
sys.monitoring.set_events(TEST_TOOL, event)
for _ in self.gen(1):
pass
self.assertLess(counter.count, 4)
finally:
sys.monitoring.set_events(TEST_TOOL, 0)
sys.monitoring.register_callback(TEST_TOOL, event, None)
def test_disable_illegal_events(self):
for event, name in EXCEPT_EVENTS:
try:
counter = CounterWithDisable()
counter.disable = True
sys.monitoring.register_callback(TEST_TOOL, event, counter)
sys.monitoring.set_events(TEST_TOOL, event)
with self.assertRaises(ValueError):
self.raise_handle_reraise()
finally:
sys.monitoring.set_events(TEST_TOOL, 0)
sys.monitoring.register_callback(TEST_TOOL, event, None)
class ExceptionRecorder:
event_type = E.RAISE
def __init__(self, events):
self.events = events
def __call__(self, code, offset, exc):
self.events.append(("raise", type(exc)))
class CheckEvents(MonitoringTestBase, unittest.TestCase):
def get_events(self, func, tool, recorders):
try:
self.assertEqual(sys.monitoring._all_events(), {})
event_list = []
all_events = 0
for recorder in recorders:
ev = recorder.event_type
sys.monitoring.register_callback(tool, ev, recorder(event_list))
all_events |= ev
sys.monitoring.set_events(tool, all_events)
func()
sys.monitoring.set_events(tool, 0)
for recorder in recorders:
sys.monitoring.register_callback(tool, recorder.event_type, None)
return event_list
finally:
sys.monitoring.set_events(tool, 0)
for recorder in recorders:
sys.monitoring.register_callback(tool, recorder.event_type, None)
def check_events(self, func, expected, tool=TEST_TOOL, recorders=(ExceptionRecorder,)):
events = self.get_events(func, tool, recorders)
self.assertEqual(events, expected)
def check_balanced(self, func, recorders):
events = self.get_events(func, TEST_TOOL, recorders)
self.assertEqual(len(events)%2, 0)
for r, h in zip(events[::2],events[1::2]):
r0 = r[0]
self.assertIn(r0, ("raise", "reraise"))
h0 = h[0]
self.assertIn(h0, ("handled", "unwind"))
self.assertEqual(r[1], h[1])
class StopiterationRecorder(ExceptionRecorder):
event_type = E.STOP_ITERATION
class ReraiseRecorder(ExceptionRecorder):
event_type = E.RERAISE
def __call__(self, code, offset, exc):
self.events.append(("reraise", type(exc)))
class UnwindRecorder(ExceptionRecorder):
event_type = E.PY_UNWIND
def __call__(self, code, offset, exc):
self.events.append(("unwind", type(exc), code.co_name))
class ExceptionHandledRecorder(ExceptionRecorder):
event_type = E.EXCEPTION_HANDLED
def __call__(self, code, offset, exc):
self.events.append(("handled", type(exc)))
class ThrowRecorder(ExceptionRecorder):
event_type = E.PY_THROW
def __call__(self, code, offset, exc):
self.events.append(("throw", type(exc)))
class CallRecorder:
event_type = E.CALL
def __init__(self, events):
self.events = events
def __call__(self, code, offset, func, arg):
self.events.append(("call", func.__name__, arg))
class ReturnRecorder:
event_type = E.PY_RETURN
def __init__(self, events):
self.events = events
def __call__(self, code, offset, val):
self.events.append(("return", code.co_name, val))
class ExceptionMonitoringTest(CheckEvents):
exception_recorders = (
ExceptionRecorder,
ReraiseRecorder,
ExceptionHandledRecorder,
UnwindRecorder
)
def test_simple_try_except(self):
def func1():
try:
line = 2
raise KeyError
except:
line = 5
line = 6
self.check_events(func1, [("raise", KeyError)])
def test_implicit_stop_iteration(self):
"""Generators are documented as raising a StopIteration
when they terminate.
However, we don't do that if we can avoid it, for speed.
sys.monitoring handles that by injecting a STOP_ITERATION
event when we would otherwise have skip the RAISE event.
This test checks that both paths record an equivalent event.
"""
def gen():
yield 1
return 2
def implicit_stop_iteration(iterator=None):
if iterator is None:
iterator = gen()
for _ in iterator:
pass
recorders=(ExceptionRecorder, StopiterationRecorder,)
expected = [("raise", StopIteration)]
# Make sure that the loop is unspecialized, and that it will not
# re-specialize immediately, so that we can we can test the
# unspecialized version of the loop first.
# Note: this assumes that we don't specialize loops over sets.
implicit_stop_iteration(set(range(100)))
# This will record a RAISE event for the StopIteration.
self.check_events(implicit_stop_iteration, expected, recorders=recorders)
# Now specialize, so that we see a STOP_ITERATION event.
for _ in range(100):
implicit_stop_iteration()
# This will record a STOP_ITERATION event for the StopIteration.
self.check_events(implicit_stop_iteration, expected, recorders=recorders)
initial = [
("raise", ZeroDivisionError),
("handled", ZeroDivisionError)
]
reraise = [
("reraise", ZeroDivisionError),
("handled", ZeroDivisionError)
]
def test_explicit_reraise(self):
def func():
try:
try:
1/0
except:
raise
except:
pass
self.check_balanced(
func,
recorders = self.exception_recorders)
def test_explicit_reraise_named(self):
def func():
try:
try:
1/0
except Exception as ex:
raise
except:
pass
self.check_balanced(
func,
recorders = self.exception_recorders)
def test_implicit_reraise(self):
def func():
try:
try:
1/0
except ValueError:
pass
except:
pass
self.check_balanced(
func,
recorders = self.exception_recorders)
def test_implicit_reraise_named(self):
def func():
try:
try:
1/0
except ValueError as ex:
pass
except:
pass
self.check_balanced(
func,
recorders = self.exception_recorders)
def test_try_finally(self):
def func():
try:
try:
1/0
finally:
pass
except:
pass
self.check_balanced(
func,
recorders = self.exception_recorders)
def test_async_for(self):
def func():
async def async_generator():
for i in range(1):
raise ZeroDivisionError
yield i
async def async_loop():
try:
async for item in async_generator():
pass
except Exception:
pass
try:
async_loop().send(None)
except StopIteration:
pass
self.check_balanced(
func,
recorders = self.exception_recorders)
def test_throw(self):
def gen():
yield 1
yield 2
def func():
try:
g = gen()
next(g)
g.throw(IndexError)
except IndexError:
pass
self.check_balanced(
func,
recorders = self.exception_recorders)
events = self.get_events(
func,
TEST_TOOL,
self.exception_recorders + (ThrowRecorder,)
)
self.assertEqual(events[0], ("throw", IndexError))
@requires_specialization
def test_no_unwind_for_shim_frame(self):
class B:
def __init__(self):
raise ValueError()
def f():
try:
return B()
except ValueError:
pass
for _ in range(100):
f()
recorders = (
ReturnRecorder,
UnwindRecorder
)
events = self.get_events(f, TEST_TOOL, recorders)
adaptive_insts = dis.get_instructions(f, adaptive=True)
self.assertIn(
"CALL_ALLOC_AND_ENTER_INIT",
[i.opname for i in adaptive_insts]
)
#There should be only one unwind event
expected = [
('unwind', ValueError, '__init__'),
('return', 'f', None),
]
self.assertEqual(events, expected)
class LineRecorder:
event_type = E.LINE
def __init__(self, events):
self.events = events
def __call__(self, code, line):
self.events.append(("line", code.co_name, line - code.co_firstlineno))
class CEventRecorder:
def __init__(self, events):
self.events = events
def __call__(self, code, offset, func, arg):
self.events.append((self.event_name, func.__name__, arg))
class CReturnRecorder(CEventRecorder):
event_type = E.C_RETURN
event_name = "C return"
class CRaiseRecorder(CEventRecorder):
event_type = E.C_RAISE
event_name = "C raise"
MANY_RECORDERS = ExceptionRecorder, CallRecorder, LineRecorder, CReturnRecorder, CRaiseRecorder
class TestManyEvents(CheckEvents):
def test_simple(self):
def func1():
line1 = 1
line2 = 2
line3 = 3
self.check_events(func1, recorders = MANY_RECORDERS, expected = [
('line', 'get_events', 10),
('call', 'func1', sys.monitoring.MISSING),
('line', 'func1', 1),
('line', 'func1', 2),
('line', 'func1', 3),
('line', 'get_events', 11),
('call', 'set_events', 2)])
def test_c_call(self):
def func2():
line1 = 1
[].append(2)
line3 = 3
self.check_events(func2, recorders = MANY_RECORDERS, expected = [
('line', 'get_events', 10),
('call', 'func2', sys.monitoring.MISSING),
('line', 'func2', 1),
('line', 'func2', 2),
('call', 'append', [2]),
('C return', 'append', [2]),
('line', 'func2', 3),
('line', 'get_events', 11),
('call', 'set_events', 2)])
def test_try_except(self):
def func3():
try:
line = 2
raise KeyError
except:
line = 5
line = 6
self.check_events(func3, recorders = MANY_RECORDERS, expected = [
('line', 'get_events', 10),
('call', 'func3', sys.monitoring.MISSING),
('line', 'func3', 1),
('line', 'func3', 2),
('line', 'func3', 3),
('raise', KeyError),
('line', 'func3', 4),
('line', 'func3', 5),
('line', 'func3', 6),
('line', 'get_events', 11),
('call', 'set_events', 2)])
class InstructionRecorder:
event_type = E.INSTRUCTION
def __init__(self, events):
self.events = events
def __call__(self, code, offset):
# Filter out instructions in check_events to lower noise
if code.co_name != "get_events":
self.events.append(("instruction", code.co_name, offset))
LINE_AND_INSTRUCTION_RECORDERS = InstructionRecorder, LineRecorder
class TestLineAndInstructionEvents(CheckEvents):
maxDiff = None
def test_simple(self):
def func1():
line1 = 1
line2 = 2
line3 = 3
self.check_events(func1, recorders = LINE_AND_INSTRUCTION_RECORDERS, expected = [
('line', 'get_events', 10),
('line', 'func1', 1),
('instruction', 'func1', 2),
('instruction', 'func1', 4),
('line', 'func1', 2),
('instruction', 'func1', 6),
('instruction', 'func1', 8),
('line', 'func1', 3),
('instruction', 'func1', 10),
('instruction', 'func1', 12),
('instruction', 'func1', 14),
('instruction', 'func1', 16),
('line', 'get_events', 11)])
def test_c_call(self):
def func2():
line1 = 1
[].append(2)
line3 = 3
self.check_events(func2, recorders = LINE_AND_INSTRUCTION_RECORDERS, expected = [
('line', 'get_events', 10),
('line', 'func2', 1),
('instruction', 'func2', 2),
('instruction', 'func2', 4),
('line', 'func2', 2),
('instruction', 'func2', 6),
('instruction', 'func2', 8),
('instruction', 'func2', 28),
('instruction', 'func2', 30),
('instruction', 'func2', 38),
('line', 'func2', 3),
('instruction', 'func2', 40),
('instruction', 'func2', 42),
('instruction', 'func2', 44),
('instruction', 'func2', 46),
('line', 'get_events', 11)])
def test_try_except(self):
def func3():
try:
line = 2
raise KeyError
except:
line = 5
line = 6
self.check_events(func3, recorders = LINE_AND_INSTRUCTION_RECORDERS, expected = [
('line', 'get_events', 10),
('line', 'func3', 1),
('instruction', 'func3', 2),
('line', 'func3', 2),
('instruction', 'func3', 4),
('instruction', 'func3', 6),
('line', 'func3', 3),
('instruction', 'func3', 8),
('instruction', 'func3', 18),
('instruction', 'func3', 20),
('line', 'func3', 4),
('instruction', 'func3', 22),
('line', 'func3', 5),
('instruction', 'func3', 24),
('instruction', 'func3', 26),
('instruction', 'func3', 28),
('line', 'func3', 6),
('instruction', 'func3', 30),
('instruction', 'func3', 32),
('instruction', 'func3', 34),
('instruction', 'func3', 36),
('line', 'get_events', 11)])
def test_with_restart(self):
def func1():
line1 = 1
line2 = 2
line3 = 3
self.check_events(func1, recorders = LINE_AND_INSTRUCTION_RECORDERS, expected = [
('line', 'get_events', 10),
('line', 'func1', 1),
('instruction', 'func1', 2),
('instruction', 'func1', 4),
('line', 'func1', 2),
('instruction', 'func1', 6),
('instruction', 'func1', 8),
('line', 'func1', 3),
('instruction', 'func1', 10),
('instruction', 'func1', 12),
('instruction', 'func1', 14),
('instruction', 'func1', 16),
('line', 'get_events', 11)])
sys.monitoring.restart_events()
self.check_events(func1, recorders = LINE_AND_INSTRUCTION_RECORDERS, expected = [
('line', 'get_events', 10),
('line', 'func1', 1),
('instruction', 'func1', 2),
('instruction', 'func1', 4),
('line', 'func1', 2),
('instruction', 'func1', 6),
('instruction', 'func1', 8),
('line', 'func1', 3),
('instruction', 'func1', 10),
('instruction', 'func1', 12),
('instruction', 'func1', 14),
('instruction', 'func1', 16),
('line', 'get_events', 11)])
def test_turn_off_only_instruction(self):
"""
LINE events should be recorded after INSTRUCTION event is turned off
"""
events = []
def line(*args):
events.append("line")
sys.monitoring.set_events(TEST_TOOL, 0)
sys.monitoring.register_callback(TEST_TOOL, E.LINE, line)
sys.monitoring.register_callback(TEST_TOOL, E.INSTRUCTION, lambda *args: None)
sys.monitoring.set_events(TEST_TOOL, E.LINE | E.INSTRUCTION)
sys.monitoring.set_events(TEST_TOOL, E.LINE)
events = []
a = 0
sys.monitoring.set_events(TEST_TOOL, 0)
self.assertGreater(len(events), 0)
class TestInstallIncrementally(MonitoringTestBase, unittest.TestCase):
def check_events(self, func, must_include, tool=TEST_TOOL, recorders=(ExceptionRecorder,)):
try:
self.assertEqual(sys.monitoring._all_events(), {})
event_list = []
all_events = 0
for recorder in recorders:
all_events |= recorder.event_type
sys.monitoring.set_events(tool, all_events)
for recorder in recorders:
sys.monitoring.register_callback(tool, recorder.event_type, recorder(event_list))
func()
sys.monitoring.set_events(tool, 0)
for recorder in recorders:
sys.monitoring.register_callback(tool, recorder.event_type, None)
for line in must_include:
self.assertIn(line, event_list)
finally:
sys.monitoring.set_events(tool, 0)
for recorder in recorders:
sys.monitoring.register_callback(tool, recorder.event_type, None)
@staticmethod
def func1():
line1 = 1
MUST_INCLUDE_LI = [
('instruction', 'func1', 2),
('line', 'func1', 2),
('instruction', 'func1', 4),
('instruction', 'func1', 6)]
def test_line_then_instruction(self):
recorders = [ LineRecorder, InstructionRecorder ]
self.check_events(self.func1,
recorders = recorders, must_include = self.MUST_INCLUDE_LI)
def test_instruction_then_line(self):
recorders = [ InstructionRecorder, LineRecorder ]
self.check_events(self.func1,
recorders = recorders, must_include = self.MUST_INCLUDE_LI)
@staticmethod
def func2():
len(())
MUST_INCLUDE_CI = [
('instruction', 'func2', 2),
('call', 'func2', sys.monitoring.MISSING),
('call', 'len', ()),
('instruction', 'func2', 12),
('instruction', 'func2', 14)]
def test_call_then_instruction(self):
recorders = [ CallRecorder, InstructionRecorder ]
self.check_events(self.func2,
recorders = recorders, must_include = self.MUST_INCLUDE_CI)
def test_instruction_then_call(self):
recorders = [ InstructionRecorder, CallRecorder ]
self.check_events(self.func2,
recorders = recorders, must_include = self.MUST_INCLUDE_CI)
LOCAL_RECORDERS = CallRecorder, LineRecorder, CReturnRecorder, CRaiseRecorder
class TestLocalEvents(MonitoringTestBase, unittest.TestCase):
def check_events(self, func, expected, tool=TEST_TOOL, recorders=()):
try:
self.assertEqual(sys.monitoring._all_events(), {})
event_list = []
all_events = 0
for recorder in recorders:
ev = recorder.event_type
sys.monitoring.register_callback(tool, ev, recorder(event_list))
all_events |= ev
sys.monitoring.set_local_events(tool, func.__code__, all_events)
func()
sys.monitoring.set_local_events(tool, func.__code__, 0)
for recorder in recorders:
sys.monitoring.register_callback(tool, recorder.event_type, None)
self.assertEqual(event_list, expected)
finally:
sys.monitoring.set_local_events(tool, func.__code__, 0)
for recorder in recorders:
sys.monitoring.register_callback(tool, recorder.event_type, None)
def test_simple(self):
def func1():
line1 = 1
line2 = 2
line3 = 3
self.check_events(func1, recorders = LOCAL_RECORDERS, expected = [
('line', 'func1', 1),
('line', 'func1', 2),
('line', 'func1', 3)])
def test_c_call(self):
def func2():
line1 = 1
[].append(2)
line3 = 3
self.check_events(func2, recorders = LOCAL_RECORDERS, expected = [
('line', 'func2', 1),
('line', 'func2', 2),
('call', 'append', [2]),
('C return', 'append', [2]),
('line', 'func2', 3)])
def test_try_except(self):
def func3():
try:
line = 2
raise KeyError
except:
line = 5
line = 6
self.check_events(func3, recorders = LOCAL_RECORDERS, expected = [
('line', 'func3', 1),
('line', 'func3', 2),
('line', 'func3', 3),
('line', 'func3', 4),
('line', 'func3', 5),
('line', 'func3', 6)])
def test_set_non_local_event(self):
with self.assertRaises(ValueError):
sys.monitoring.set_local_events(TEST_TOOL, just_call.__code__, E.RAISE)
def line_from_offset(code, offset):
for start, end, line in code.co_lines():
if start <= offset < end:
if line is None:
return f"[offset={offset}]"
return line - code.co_firstlineno
return -1
class JumpRecorder:
event_type = E.JUMP
name = "jump"
def __init__(self, events):
self.events = events
def __call__(self, code, from_, to):
from_line = line_from_offset(code, from_)
to_line = line_from_offset(code, to)
self.events.append((self.name, code.co_name, from_line, to_line))
class BranchRecorder(JumpRecorder):
event_type = E.BRANCH
name = "branch"
class JumpOffsetRecorder:
event_type = E.JUMP
name = "jump"
def __init__(self, events, offsets=False):
self.events = events
def __call__(self, code, from_, to):
self.events.append((self.name, code.co_name, from_, to))
class BranchOffsetRecorder(JumpOffsetRecorder):
event_type = E.BRANCH
name = "branch"
JUMP_AND_BRANCH_RECORDERS = JumpRecorder, BranchRecorder
JUMP_BRANCH_AND_LINE_RECORDERS = JumpRecorder, BranchRecorder, LineRecorder
FLOW_AND_LINE_RECORDERS = JumpRecorder, BranchRecorder, LineRecorder, ExceptionRecorder, ReturnRecorder
BRANCH_OFFSET_RECORDERS = BranchOffsetRecorder,
class TestBranchAndJumpEvents(CheckEvents):
maxDiff = None
def test_loop(self):
def func():
x = 1
for a in range(2):
if a:
x = 4
else:
x = 6
7
self.check_events(func, recorders = JUMP_AND_BRANCH_RECORDERS, expected = [
('branch', 'func', 2, 2),
('branch', 'func', 3, 6),
('jump', 'func', 6, 2),
('branch', 'func', 2, 2),
('branch', 'func', 3, 4),
('jump', 'func', 4, 2),
('branch', 'func', 2, 7)])
self.check_events(func, recorders = JUMP_BRANCH_AND_LINE_RECORDERS, expected = [
('line', 'get_events', 10),
('line', 'func', 1),
('line', 'func', 2),
('branch', 'func', 2, 2),
('line', 'func', 3),
('branch', 'func', 3, 6),
('line', 'func', 6),
('jump', 'func', 6, 2),
('line', 'func', 2),
('branch', 'func', 2, 2),
('line', 'func', 3),
('branch', 'func', 3, 4),
('line', 'func', 4),
('jump', 'func', 4, 2),
('line', 'func', 2),
('branch', 'func', 2, 7),
('line', 'func', 7),
('line', 'get_events', 11)])
def test_except_star(self):
class Foo:
def meth(self):
pass
def func():
try:
try:
raise KeyError
except* Exception as e:
f = Foo(); f.meth()
except KeyError:
pass
self.check_events(func, recorders = JUMP_BRANCH_AND_LINE_RECORDERS, expected = [
('line', 'get_events', 10),
('line', 'func', 1),
('line', 'func', 2),
('line', 'func', 3),
('line', 'func', 4),
('branch', 'func', 4, 4),
('line', 'func', 5),
('line', 'meth', 1),
('jump', 'func', 5, '[offset=118]'),
('branch', 'func', '[offset=122]', '[offset=126]'),
('line', 'get_events', 11)])
self.check_events(func, recorders = FLOW_AND_LINE_RECORDERS, expected = [
('line', 'get_events', 10),
('line', 'func', 1),
('line', 'func', 2),
('line', 'func', 3),
('raise', KeyError),
('line', 'func', 4),
('branch', 'func', 4, 4),
('line', 'func', 5),
('line', 'meth', 1),
('return', 'meth', None),
('jump', 'func', 5, '[offset=118]'),
('branch', 'func', '[offset=122]', '[offset=126]'),
('return', 'func', None),
('line', 'get_events', 11)])
def test_while_offset_consistency(self):
def foo(n=0):
while n<4:
pass
n += 1
return None
in_loop = ('branch', 'foo', 10, 14)
exit_loop = ('branch', 'foo', 10, 30)
self.check_events(foo, recorders = BRANCH_OFFSET_RECORDERS, expected = [
in_loop,
in_loop,
in_loop,
in_loop,
exit_loop])
class TestLoadSuperAttr(CheckEvents):
RECORDERS = CallRecorder, LineRecorder, CRaiseRecorder, CReturnRecorder
def _exec(self, co):
d = {}
exec(co, d, d)
return d
def _exec_super(self, codestr, optimized=False):
# The compiler checks for statically visible shadowing of the name
# `super`, and declines to emit `LOAD_SUPER_ATTR` if shadowing is found.
# So inserting `super = super` prevents the compiler from emitting
# `LOAD_SUPER_ATTR`, and allows us to test that monitoring events for
# `LOAD_SUPER_ATTR` are equivalent to those we'd get from the
# un-optimized `LOAD_GLOBAL super; CALL; LOAD_ATTR` form.
assignment = "x = 1" if optimized else "super = super"
codestr = f"{assignment}\n{textwrap.dedent(codestr)}"
co = compile(codestr, "<string>", "exec")
# validate that we really do have a LOAD_SUPER_ATTR, only when optimized
self.assertEqual(self._has_load_super_attr(co), optimized)
return self._exec(co)
def _has_load_super_attr(self, co):
has = any(instr.opname == "LOAD_SUPER_ATTR" for instr in dis.get_instructions(co))
if not has:
has = any(
isinstance(c, types.CodeType) and self._has_load_super_attr(c)
for c in co.co_consts
)
return has
def _super_method_call(self, optimized=False):
codestr = """
class A:
def method(self, x):
return x
class B(A):
def method(self, x):
return super(
).method(
x
)
b = B()
def f():
return b.method(1)
"""
d = self._exec_super(codestr, optimized)
expected = [
('line', 'get_events', 10),
('call', 'f', sys.monitoring.MISSING),
('line', 'f', 1),
('call', 'method', d["b"]),
('line', 'method', 1),
('call', 'super', sys.monitoring.MISSING),
('C return', 'super', sys.monitoring.MISSING),
('line', 'method', 2),
('line', 'method', 3),
('line', 'method', 2),
('call', 'method', d["b"]),
('line', 'method', 1),
('line', 'method', 1),
('line', 'get_events', 11),
('call', 'set_events', 2),
]
return d["f"], expected
def test_method_call(self):
nonopt_func, nonopt_expected = self._super_method_call(optimized=False)
opt_func, opt_expected = self._super_method_call(optimized=True)
self.check_events(nonopt_func, recorders=self.RECORDERS, expected=nonopt_expected)
self.check_events(opt_func, recorders=self.RECORDERS, expected=opt_expected)
def _super_method_call_error(self, optimized=False):
codestr = """
class A:
def method(self, x):
return x
class B(A):
def method(self, x):
return super(
x,
self,
).method(
x
)
b = B()
def f():
try:
return b.method(1)
except TypeError:
pass
else:
assert False, "should have raised TypeError"
"""
d = self._exec_super(codestr, optimized)
expected = [
('line', 'get_events', 10),
('call', 'f', sys.monitoring.MISSING),
('line', 'f', 1),
('line', 'f', 2),
('call', 'method', d["b"]),
('line', 'method', 1),
('line', 'method', 2),
('line', 'method', 3),
('line', 'method', 1),
('call', 'super', 1),
('C raise', 'super', 1),
('line', 'f', 3),
('line', 'f', 4),
('line', 'get_events', 11),
('call', 'set_events', 2),
]
return d["f"], expected
def test_method_call_error(self):
nonopt_func, nonopt_expected = self._super_method_call_error(optimized=False)
opt_func, opt_expected = self._super_method_call_error(optimized=True)
self.check_events(nonopt_func, recorders=self.RECORDERS, expected=nonopt_expected)
self.check_events(opt_func, recorders=self.RECORDERS, expected=opt_expected)
def _super_attr(self, optimized=False):
codestr = """
class A:
x = 1
class B(A):
def method(self):
return super(
).x
b = B()
def f():
return b.method()
"""
d = self._exec_super(codestr, optimized)
expected = [
('line', 'get_events', 10),
('call', 'f', sys.monitoring.MISSING),
('line', 'f', 1),
('call', 'method', d["b"]),
('line', 'method', 1),
('call', 'super', sys.monitoring.MISSING),
('C return', 'super', sys.monitoring.MISSING),
('line', 'method', 2),
('line', 'method', 1),
('line', 'get_events', 11),
('call', 'set_events', 2)
]
return d["f"], expected
def test_attr(self):
nonopt_func, nonopt_expected = self._super_attr(optimized=False)
opt_func, opt_expected = self._super_attr(optimized=True)
self.check_events(nonopt_func, recorders=self.RECORDERS, expected=nonopt_expected)
self.check_events(opt_func, recorders=self.RECORDERS, expected=opt_expected)
def test_vs_other_type_call(self):
code_template = textwrap.dedent("""
class C:
def method(self):
return {cls}().__repr__{call}
c = C()
def f():
return c.method()
""")
def get_expected(name, call_method, ns):
repr_arg = 0 if name == "int" else sys.monitoring.MISSING
return [
('line', 'get_events', 10),
('call', 'f', sys.monitoring.MISSING),
('line', 'f', 1),
('call', 'method', ns["c"]),
('line', 'method', 1),
('call', name, sys.monitoring.MISSING),
('C return', name, sys.monitoring.MISSING),
*(
[
('call', '__repr__', repr_arg),
('C return', '__repr__', repr_arg),
] if call_method else []
),
('line', 'get_events', 11),
('call', 'set_events', 2),
]
for call_method in [True, False]:
with self.subTest(call_method=call_method):
call_str = "()" if call_method else ""
code_super = code_template.format(cls="super", call=call_str)
code_int = code_template.format(cls="int", call=call_str)
co_super = compile(code_super, '<string>', 'exec')
self.assertTrue(self._has_load_super_attr(co_super))
ns_super = self._exec(co_super)
ns_int = self._exec(code_int)
self.check_events(
ns_super["f"],
recorders=self.RECORDERS,
expected=get_expected("super", call_method, ns_super)
)
self.check_events(
ns_int["f"],
recorders=self.RECORDERS,
expected=get_expected("int", call_method, ns_int)
)
class TestSetGetEvents(MonitoringTestBase, unittest.TestCase):
def test_global(self):
sys.monitoring.set_events(TEST_TOOL, E.PY_START)
self.assertEqual(sys.monitoring.get_events(TEST_TOOL), E.PY_START)
sys.monitoring.set_events(TEST_TOOL2, E.PY_START)
self.assertEqual(sys.monitoring.get_events(TEST_TOOL2), E.PY_START)
sys.monitoring.set_events(TEST_TOOL, 0)
self.assertEqual(sys.monitoring.get_events(TEST_TOOL), 0)
sys.monitoring.set_events(TEST_TOOL2,0)
self.assertEqual(sys.monitoring.get_events(TEST_TOOL2), 0)
def test_local(self):
code = f1.__code__
sys.monitoring.set_local_events(TEST_TOOL, code, E.PY_START)
self.assertEqual(sys.monitoring.get_local_events(TEST_TOOL, code), E.PY_START)
sys.monitoring.set_local_events(TEST_TOOL2, code, E.PY_START)
self.assertEqual(sys.monitoring.get_local_events(TEST_TOOL2, code), E.PY_START)
sys.monitoring.set_local_events(TEST_TOOL, code, 0)
self.assertEqual(sys.monitoring.get_local_events(TEST_TOOL, code), 0)
sys.monitoring.set_local_events(TEST_TOOL2, code, 0)
self.assertEqual(sys.monitoring.get_local_events(TEST_TOOL2, code), 0)
class TestUninitialized(unittest.TestCase, MonitoringTestBase):
@staticmethod
def f():
pass
def test_get_local_events_uninitialized(self):
self.assertEqual(sys.monitoring.get_local_events(TEST_TOOL, self.f.__code__), 0)
class TestRegressions(MonitoringTestBase, unittest.TestCase):
def test_105162(self):
caught = None
def inner():
nonlocal caught
try:
yield
except Exception:
caught = "inner"
yield
def outer():
nonlocal caught
try:
yield from inner()
except Exception:
caught = "outer"
yield
def run():
gen = outer()
gen.send(None)
gen.throw(Exception)
run()
self.assertEqual(caught, "inner")
caught = None
try:
sys.monitoring.set_events(TEST_TOOL, E.PY_RESUME)
run()
self.assertEqual(caught, "inner")
finally:
sys.monitoring.set_events(TEST_TOOL, 0)
def test_108390(self):
class Foo:
def __init__(self, set_event):
if set_event:
sys.monitoring.set_events(TEST_TOOL, E.PY_RESUME)
def make_foo_optimized_then_set_event():
for i in range(100):
Foo(i == 99)
try:
make_foo_optimized_then_set_event()
finally:
sys.monitoring.set_events(TEST_TOOL, 0)
def test_gh108976(self):
sys.monitoring.use_tool_id(0, "test")
self.addCleanup(sys.monitoring.free_tool_id, 0)
sys.monitoring.set_events(0, 0)
sys.monitoring.register_callback(0, E.LINE, lambda *args: sys.monitoring.set_events(0, 0))
sys.monitoring.register_callback(0, E.INSTRUCTION, lambda *args: 0)
sys.monitoring.set_events(0, E.LINE | E.INSTRUCTION)
sys.monitoring.set_events(0, 0)
def test_call_function_ex(self):
def f(a=1, b=2):
return a + b
args = (1, 2)
empty_args = []
call_data = []
sys.monitoring.use_tool_id(0, "test")
self.addCleanup(sys.monitoring.free_tool_id, 0)
sys.monitoring.set_events(0, 0)
sys.monitoring.register_callback(0, E.CALL, lambda code, offset, callable, arg0: call_data.append((callable, arg0)))
sys.monitoring.set_events(0, E.CALL)
f(*args)
f(*empty_args)
sys.monitoring.set_events(0, 0)
self.assertEqual(call_data[0], (f, 1))
self.assertEqual(call_data[1], (f, sys.monitoring.MISSING))
def test_instruction_explicit_callback(self):
# gh-122247
# Calling the instruction event callback explicitly should not
# crash CPython
def callback(code, instruction_offset):
pass
sys.monitoring.use_tool_id(0, "test")
self.addCleanup(sys.monitoring.free_tool_id, 0)
sys.monitoring.register_callback(0, sys.monitoring.events.INSTRUCTION, callback)
sys.monitoring.set_events(0, sys.monitoring.events.INSTRUCTION)
callback(None, 0) # call the *same* handler while it is registered
sys.monitoring.restart_events()
sys.monitoring.set_events(0, 0)
class TestOptimizer(MonitoringTestBase, unittest.TestCase):
def setUp(self):
_testinternalcapi = import_module("_testinternalcapi")
if hasattr(_testinternalcapi, "get_optimizer"):
self.old_opt = _testinternalcapi.get_optimizer()
opt = _testinternalcapi.new_counter_optimizer()
_testinternalcapi.set_optimizer(opt)
super(TestOptimizer, self).setUp()
def tearDown(self):
super(TestOptimizer, self).tearDown()
import _testinternalcapi
if hasattr(_testinternalcapi, "get_optimizer"):
_testinternalcapi.set_optimizer(self.old_opt)
def test_for_loop(self):
def test_func(x):
i = 0
while i < x:
i += 1
code = test_func.__code__
sys.monitoring.set_local_events(TEST_TOOL, code, E.PY_START)
self.assertEqual(sys.monitoring.get_local_events(TEST_TOOL, code), E.PY_START)
test_func(1000)
sys.monitoring.set_local_events(TEST_TOOL, code, 0)
self.assertEqual(sys.monitoring.get_local_events(TEST_TOOL, code), 0)
class TestTier2Optimizer(CheckEvents):
def test_monitoring_already_opimized_loop(self):
def test_func(recorder):
set_events = sys.monitoring.set_events
line = E.LINE
i = 0
for i in range(551):
# Turn on events without branching once i reaches 500.
set_events(TEST_TOOL, line * int(i >= 500))
pass
pass
pass
self.assertEqual(sys.monitoring._all_events(), {})
events = []
recorder = LineRecorder(events)
sys.monitoring.register_callback(TEST_TOOL, E.LINE, recorder)
try:
test_func(recorder)
finally:
sys.monitoring.register_callback(TEST_TOOL, E.LINE, None)
sys.monitoring.set_events(TEST_TOOL, 0)
self.assertGreater(len(events), 250)
class TestMonitoringAtShutdown(unittest.TestCase):
def test_monitoring_live_at_shutdown(self):
# gh-115832: An object destructor running during the final GC of
# interpreter shutdown triggered an infinite loop in the
# instrumentation code.
script = test.support.findfile("_test_monitoring_shutdown.py")
script_helper.run_test_script(script)
class TestCApiEventGeneration(MonitoringTestBase, unittest.TestCase):
class Scope:
def __init__(self, *args):
self.args = args
def __enter__(self):
_testcapi.monitoring_enter_scope(*self.args)
def __exit__(self, *args):
_testcapi.monitoring_exit_scope()
def setUp(self):
super(TestCApiEventGeneration, self).setUp()
capi = _testcapi
self.codelike = capi.CodeLike(2)
self.cases = [
# (Event, function, *args)
( 1, E.PY_START, capi.fire_event_py_start),
( 1, E.PY_RESUME, capi.fire_event_py_resume),
( 1, E.PY_YIELD, capi.fire_event_py_yield, 10),
( 1, E.PY_RETURN, capi.fire_event_py_return, 20),
( 2, E.CALL, capi.fire_event_call, callable, 40),
( 1, E.JUMP, capi.fire_event_jump, 60),
( 1, E.BRANCH, capi.fire_event_branch, 70),
( 1, E.PY_THROW, capi.fire_event_py_throw, ValueError(1)),
( 1, E.RAISE, capi.fire_event_raise, ValueError(2)),
( 1, E.EXCEPTION_HANDLED, capi.fire_event_exception_handled, ValueError(5)),
( 1, E.PY_UNWIND, capi.fire_event_py_unwind, ValueError(6)),
( 1, E.STOP_ITERATION, capi.fire_event_stop_iteration, 7),
( 1, E.STOP_ITERATION, capi.fire_event_stop_iteration, StopIteration(8)),
]
self.EXPECT_RAISED_EXCEPTION = [E.PY_THROW, E.RAISE, E.EXCEPTION_HANDLED, E.PY_UNWIND]
def check_event_count(self, event, func, args, expected, callback_raises=None):
class Counter:
def __init__(self, callback_raises):
self.callback_raises = callback_raises
self.count = 0
def __call__(self, *args):
self.count += 1
if self.callback_raises:
exc = self.callback_raises
self.callback_raises = None
raise exc
try:
counter = Counter(callback_raises)
sys.monitoring.register_callback(TEST_TOOL, event, counter)
if event == E.C_RETURN or event == E.C_RAISE:
sys.monitoring.set_events(TEST_TOOL, E.CALL)
else:
sys.monitoring.set_events(TEST_TOOL, event)
event_value = int(math.log2(event))
with self.Scope(self.codelike, event_value):
counter.count = 0
try:
func(*args)
except ValueError as e:
self.assertIsInstance(expected, ValueError)
self.assertEqual(str(e), str(expected))
return
else:
self.assertEqual(counter.count, expected)
prev = sys.monitoring.register_callback(TEST_TOOL, event, None)
with self.Scope(self.codelike, event_value):
counter.count = 0
func(*args)
self.assertEqual(counter.count, 0)
self.assertEqual(prev, counter)
finally:
sys.monitoring.set_events(TEST_TOOL, 0)
def test_fire_event(self):
for expected, event, function, *args in self.cases:
offset = 0
self.codelike = _testcapi.CodeLike(1)
with self.subTest(function.__name__):
args_ = (self.codelike, offset) + tuple(args)
self.check_event_count(event, function, args_, expected)
def test_missing_exception(self):
for _, event, function, *args in self.cases:
if event not in self.EXPECT_RAISED_EXCEPTION:
continue
assert args and isinstance(args[-1], BaseException)
offset = 0
self.codelike = _testcapi.CodeLike(1)
with self.subTest(function.__name__):
args_ = (self.codelike, offset) + tuple(args[:-1]) + (None,)
evt = int(math.log2(event))
expected = ValueError(f"Firing event {evt} with no exception set")
self.check_event_count(event, function, args_, expected)
def test_fire_event_failing_callback(self):
for expected, event, function, *args in self.cases:
offset = 0
self.codelike = _testcapi.CodeLike(1)
with self.subTest(function.__name__):
args_ = (self.codelike, offset) + tuple(args)
exc = OSError(42)
with self.assertRaises(type(exc)):
self.check_event_count(event, function, args_, expected,
callback_raises=exc)
CANNOT_DISABLE = { E.PY_THROW, E.RAISE, E.RERAISE,
E.EXCEPTION_HANDLED, E.PY_UNWIND }
def check_disable(self, event, func, args, expected):
try:
counter = CounterWithDisable()
sys.monitoring.register_callback(TEST_TOOL, event, counter)
if event == E.C_RETURN or event == E.C_RAISE:
sys.monitoring.set_events(TEST_TOOL, E.CALL)
else:
sys.monitoring.set_events(TEST_TOOL, event)
event_value = int(math.log2(event))
with self.Scope(self.codelike, event_value):
counter.count = 0
func(*args)
self.assertEqual(counter.count, expected)
counter.disable = True
if event in self.CANNOT_DISABLE:
# use try-except rather then assertRaises to avoid
# events from framework code
try:
counter.count = 0
func(*args)
self.assertEqual(counter.count, expected)
except ValueError:
pass
else:
self.Error("Expected a ValueError")
else:
counter.count = 0
func(*args)
self.assertEqual(counter.count, expected)
counter.count = 0
func(*args)
self.assertEqual(counter.count, expected - 1)
finally:
sys.monitoring.set_events(TEST_TOOL, 0)
def test_disable_event(self):
for expected, event, function, *args in self.cases:
offset = 0
self.codelike = _testcapi.CodeLike(2)
with self.subTest(function.__name__):
args_ = (self.codelike, 0) + tuple(args)
self.check_disable(event, function, args_, expected)
def test_enter_scope_two_events(self):
try:
yield_counter = CounterWithDisable()
unwind_counter = CounterWithDisable()
sys.monitoring.register_callback(TEST_TOOL, E.PY_YIELD, yield_counter)
sys.monitoring.register_callback(TEST_TOOL, E.PY_UNWIND, unwind_counter)
sys.monitoring.set_events(TEST_TOOL, E.PY_YIELD | E.PY_UNWIND)
yield_value = int(math.log2(E.PY_YIELD))
unwind_value = int(math.log2(E.PY_UNWIND))
cl = _testcapi.CodeLike(2)
common_args = (cl, 0)
with self.Scope(cl, yield_value, unwind_value):
yield_counter.count = 0
unwind_counter.count = 0
_testcapi.fire_event_py_unwind(*common_args, ValueError(42))
assert(yield_counter.count == 0)
assert(unwind_counter.count == 1)
_testcapi.fire_event_py_yield(*common_args, ValueError(42))
assert(yield_counter.count == 1)
assert(unwind_counter.count == 1)
yield_counter.disable = True
_testcapi.fire_event_py_yield(*common_args, ValueError(42))
assert(yield_counter.count == 2)
assert(unwind_counter.count == 1)
_testcapi.fire_event_py_yield(*common_args, ValueError(42))
assert(yield_counter.count == 2)
assert(unwind_counter.count == 1)
finally:
sys.monitoring.set_events(TEST_TOOL, 0)