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cpython/Lib/test/test_dtrace.py

261 lines
8.0 KiB
Python

import dis
import os.path
import re
import subprocess
import sys
import sysconfig
import types
import unittest
from test import support
from test.support import findfile
if not support.has_subprocess_support:
raise unittest.SkipTest("test module requires subprocess")
def abspath(filename):
return os.path.abspath(findfile(filename, subdir="dtracedata"))
def normalize_trace_output(output):
"""Normalize DTrace output for comparison.
DTrace keeps a per-CPU buffer, and when showing the fired probes, buffers
are concatenated. So if the operating system moves our thread around, the
straight result can be "non-causal". So we add timestamps to the probe
firing, sort by that field, then strip it from the output"""
# When compiling with '--with-pydebug', strip '[# refs]' debug output.
output = re.sub(r"\[[0-9]+ refs\]", "", output)
try:
result = [
row.split("\t")
for row in output.splitlines()
if row and not row.startswith('#')
]
result.sort(key=lambda row: int(row[0]))
result = [row[1] for row in result]
return "\n".join(result)
except (IndexError, ValueError):
raise AssertionError(
"tracer produced unparsable output:\n{}".format(output)
)
class TraceBackend:
EXTENSION = None
COMMAND = None
COMMAND_ARGS = []
def run_case(self, name, optimize_python=None):
actual_output = normalize_trace_output(self.trace_python(
script_file=abspath(name + self.EXTENSION),
python_file=abspath(name + ".py"),
optimize_python=optimize_python))
with open(abspath(name + self.EXTENSION + ".expected")) as f:
expected_output = f.read().rstrip()
return (expected_output, actual_output)
def generate_trace_command(self, script_file, subcommand=None):
command = self.COMMAND + [script_file]
if subcommand:
command += ["-c", subcommand]
return command
def trace(self, script_file, subcommand=None):
command = self.generate_trace_command(script_file, subcommand)
stdout, _ = subprocess.Popen(command,
stdout=subprocess.PIPE,
stderr=subprocess.STDOUT,
universal_newlines=True).communicate()
return stdout
def trace_python(self, script_file, python_file, optimize_python=None):
python_flags = []
if optimize_python:
python_flags.extend(["-O"] * optimize_python)
subcommand = " ".join([sys.executable] + python_flags + [python_file])
return self.trace(script_file, subcommand)
def assert_usable(self):
try:
output = self.trace(abspath("assert_usable" + self.EXTENSION))
output = output.strip()
except (FileNotFoundError, NotADirectoryError, PermissionError) as fnfe:
output = str(fnfe)
if output != "probe: success":
raise unittest.SkipTest(
"{}(1) failed: {}".format(self.COMMAND[0], output)
)
class DTraceBackend(TraceBackend):
EXTENSION = ".d"
COMMAND = ["dtrace", "-q", "-s"]
class SystemTapBackend(TraceBackend):
EXTENSION = ".stp"
COMMAND = ["stap", "-g"]
class TraceTests:
# unittest.TestCase options
maxDiff = None
# TraceTests options
backend = None
optimize_python = 0
@classmethod
def setUpClass(self):
self.backend.assert_usable()
def run_case(self, name):
actual_output, expected_output = self.backend.run_case(
name, optimize_python=self.optimize_python)
self.assertEqual(actual_output, expected_output)
def test_function_entry_return(self):
self.run_case("call_stack")
def test_verify_call_opcodes(self):
"""Ensure our call stack test hits all function call opcodes"""
opcodes = set(["CALL_FUNCTION", "CALL_FUNCTION_EX", "CALL_FUNCTION_KW"])
with open(abspath("call_stack.py")) as f:
code_string = f.read()
def get_function_instructions(funcname):
# Recompile with appropriate optimization setting
code = compile(source=code_string,
filename="<string>",
mode="exec",
optimize=self.optimize_python)
for c in code.co_consts:
if isinstance(c, types.CodeType) and c.co_name == funcname:
return dis.get_instructions(c)
return []
for instruction in get_function_instructions('start'):
opcodes.discard(instruction.opname)
self.assertEqual(set(), opcodes)
def test_gc(self):
self.run_case("gc")
def test_line(self):
self.run_case("line")
class DTraceNormalTests(TraceTests, unittest.TestCase):
backend = DTraceBackend()
optimize_python = 0
class DTraceOptimizedTests(TraceTests, unittest.TestCase):
backend = DTraceBackend()
optimize_python = 2
class SystemTapNormalTests(TraceTests, unittest.TestCase):
backend = SystemTapBackend()
optimize_python = 0
class SystemTapOptimizedTests(TraceTests, unittest.TestCase):
backend = SystemTapBackend()
optimize_python = 2
class CheckDtraceProbes(unittest.TestCase):
@classmethod
def setUpClass(cls):
if sysconfig.get_config_var('WITH_DTRACE'):
readelf_major_version, readelf_minor_version = cls.get_readelf_version()
if support.verbose:
print(f"readelf version: {readelf_major_version}.{readelf_minor_version}")
else:
raise unittest.SkipTest("CPython must be configured with the --with-dtrace option.")
@staticmethod
def get_readelf_version():
try:
cmd = ["readelf", "--version"]
proc = subprocess.Popen(
cmd,
stdout=subprocess.PIPE,
stderr=subprocess.PIPE,
universal_newlines=True,
)
with proc:
version, stderr = proc.communicate()
if proc.returncode:
raise Exception(
f"Command {' '.join(cmd)!r} failed "
f"with exit code {proc.returncode}: "
f"stdout={version!r} stderr={stderr!r}"
)
except OSError:
raise unittest.SkipTest("Couldn't find readelf on the path")
# Regex to parse:
# 'GNU readelf (GNU Binutils) 2.40.0\n' -> 2.40
match = re.search(r"^(?:GNU) readelf.*?\b(\d+)\.(\d+)", version)
if match is None:
raise unittest.SkipTest(f"Unable to parse readelf version: {version}")
return int(match.group(1)), int(match.group(2))
def get_readelf_output(self):
command = ["readelf", "-n", sys.executable]
stdout, _ = subprocess.Popen(
command,
stdout=subprocess.PIPE,
stderr=subprocess.STDOUT,
universal_newlines=True,
).communicate()
return stdout
def test_check_probes(self):
readelf_output = self.get_readelf_output()
available_probe_names = [
"Name: import__find__load__done",
"Name: import__find__load__start",
"Name: audit",
"Name: gc__start",
"Name: gc__done",
]
for probe_name in available_probe_names:
with self.subTest(probe_name=probe_name):
self.assertIn(probe_name, readelf_output)
@unittest.expectedFailure
def test_missing_probes(self):
readelf_output = self.get_readelf_output()
# Missing probes will be added in the future.
missing_probe_names = [
"Name: function__entry",
"Name: function__return",
"Name: line",
]
for probe_name in missing_probe_names:
with self.subTest(probe_name=probe_name):
self.assertIn(probe_name, readelf_output)
if __name__ == '__main__':
unittest.main()