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# -*- coding: utf-8 -*- # Copyright (c) 2009, Giampaolo Rodola'. All rights reserved. # Use of this source code is governed by a BSD-style license that can be # found in the LICENSE file. """ Test utilities. """ from __future__ import print_function import atexit import contextlib import ctypes import errno import functools import gc import inspect import os import random import re import select import shutil import signal import socket import stat import subprocess import sys import tempfile import textwrap import threading import time import warnings from socket import AF_INET from socket import AF_INET6 from socket import SOCK_STREAM import psutil from psutil import AIX from psutil import FREEBSD from psutil import LINUX from psutil import MACOS from psutil import POSIX from psutil import SUNOS from psutil import WINDOWS from psutil._common import bytes2human from psutil._common import print_color from psutil._common import supports_ipv6 from psutil._compat import FileExistsError from psutil._compat import FileNotFoundError from psutil._compat import PY3 from psutil._compat import range from psutil._compat import super from psutil._compat import u from psutil._compat import unicode from psutil._compat import which if PY3: import unittest else: import unittest2 as unittest # requires "pip install unittest2" try: from unittest import mock # py3 except ImportError: with warnings.catch_warnings(): warnings.simplefilter("ignore") import mock # NOQA - requires "pip install mock" if sys.version_info >= (3, 4): import enum else: enum = None __all__ = [ # constants 'APPVEYOR', 'DEVNULL', 'GLOBAL_TIMEOUT', 'TOLERANCE_SYS_MEM', 'NO_RETRIES', 'PYPY', 'PYTHON_EXE', 'ROOT_DIR', 'SCRIPTS_DIR', 'TESTFN_PREFIX', 'UNICODE_SUFFIX', 'INVALID_UNICODE_SUFFIX', 'CI_TESTING', 'VALID_PROC_STATUSES', 'TOLERANCE_DISK_USAGE', 'IS_64BIT', "HAS_CPU_AFFINITY", "HAS_CPU_FREQ", "HAS_ENVIRON", "HAS_PROC_IO_COUNTERS", "HAS_IONICE", "HAS_MEMORY_MAPS", "HAS_PROC_CPU_NUM", "HAS_RLIMIT", "HAS_SENSORS_BATTERY", "HAS_BATTERY", "HAS_SENSORS_FANS", "HAS_SENSORS_TEMPERATURES", "HAS_MEMORY_FULL_INFO", # subprocesses 'pyrun', 'terminate', 'reap_children', 'spawn_testproc', 'spawn_zombie', 'spawn_children_pair', # threads 'ThreadTask' # test utils 'unittest', 'skip_on_access_denied', 'skip_on_not_implemented', 'retry_on_failure', 'TestMemoryLeak', 'PsutilTestCase', 'process_namespace', 'system_namespace', 'print_sysinfo', # install utils 'install_pip', 'install_test_deps', # fs utils 'chdir', 'safe_rmpath', 'create_exe', 'decode_path', 'encode_path', 'get_testfn', # os 'get_winver', 'kernel_version', # sync primitives 'call_until', 'wait_for_pid', 'wait_for_file', # network 'check_net_address', 'get_free_port', 'bind_socket', 'bind_unix_socket', 'tcp_socketpair', 'unix_socketpair', 'create_sockets', # compat 'reload_module', 'import_module_by_path', # others 'warn', 'copyload_shared_lib', 'is_namedtuple', ] # =================================================================== # --- constants # =================================================================== # --- platforms PYPY = '__pypy__' in sys.builtin_module_names # whether we're running this test suite on a Continuous Integration service APPVEYOR = 'APPVEYOR' in os.environ GITHUB_ACTIONS = 'GITHUB_ACTIONS' in os.environ or 'CIBUILDWHEEL' in os.environ CI_TESTING = APPVEYOR or GITHUB_ACTIONS # are we a 64 bit process? IS_64BIT = sys.maxsize > 2 ** 32 # --- configurable defaults # how many times retry_on_failure() decorator will retry NO_RETRIES = 10 # bytes tolerance for system-wide related tests TOLERANCE_SYS_MEM = 5 * 1024 * 1024 # 5MB TOLERANCE_DISK_USAGE = 10 * 1024 * 1024 # 10MB # the timeout used in functions which have to wait GLOBAL_TIMEOUT = 5 # be more tolerant if we're on CI in order to avoid false positives if CI_TESTING: NO_RETRIES *= 3 GLOBAL_TIMEOUT *= 3 TOLERANCE_SYS_MEM *= 3 TOLERANCE_DISK_USAGE *= 3 # --- file names # Disambiguate TESTFN for parallel testing. if os.name == 'java': # Jython disallows @ in module names TESTFN_PREFIX = '$psutil-%s-' % os.getpid() else: TESTFN_PREFIX = '@psutil-%s-' % os.getpid() UNICODE_SUFFIX = u("-ƒőő") # An invalid unicode string. if PY3: INVALID_UNICODE_SUFFIX = b"f\xc0\x80".decode('utf8', 'surrogateescape') else: INVALID_UNICODE_SUFFIX = "f\xc0\x80" ASCII_FS = sys.getfilesystemencoding().lower() in ('ascii', 'us-ascii') # --- paths ROOT_DIR = os.path.realpath( os.path.join(os.path.dirname(__file__), '..', '..')) SCRIPTS_DIR = os.path.join(ROOT_DIR, 'scripts') HERE = os.path.realpath(os.path.dirname(__file__)) # --- support HAS_CONNECTIONS_UNIX = POSIX and not SUNOS HAS_CPU_AFFINITY = hasattr(psutil.Process, "cpu_affinity") HAS_CPU_FREQ = hasattr(psutil, "cpu_freq") HAS_GETLOADAVG = hasattr(psutil, "getloadavg") HAS_ENVIRON = hasattr(psutil.Process, "environ") HAS_IONICE = hasattr(psutil.Process, "ionice") HAS_MEMORY_MAPS = hasattr(psutil.Process, "memory_maps") HAS_NET_IO_COUNTERS = hasattr(psutil, "net_io_counters") HAS_PROC_CPU_NUM = hasattr(psutil.Process, "cpu_num") HAS_PROC_IO_COUNTERS = hasattr(psutil.Process, "io_counters") HAS_RLIMIT = hasattr(psutil.Process, "rlimit") HAS_SENSORS_BATTERY = hasattr(psutil, "sensors_battery") try: HAS_BATTERY = HAS_SENSORS_BATTERY and bool(psutil.sensors_battery()) except Exception: HAS_BATTERY = False HAS_SENSORS_FANS = hasattr(psutil, "sensors_fans") HAS_SENSORS_TEMPERATURES = hasattr(psutil, "sensors_temperatures") HAS_THREADS = hasattr(psutil.Process, "threads") SKIP_SYSCONS = (MACOS or AIX) and os.getuid() != 0 # --- misc def _get_py_exe(): def attempt(exe): try: subprocess.check_call( [exe, "-V"], stdout=subprocess.PIPE, stderr=subprocess.PIPE) except Exception: return None else: return exe if GITHUB_ACTIONS: if PYPY: return which("pypy3") if PY3 else which("pypy") elif FREEBSD: return os.path.realpath(sys.executable) else: return which('python') elif MACOS: exe = \ attempt(sys.executable) or \ attempt(os.path.realpath(sys.executable)) or \ attempt(which("python%s.%s" % sys.version_info[:2])) or \ attempt(psutil.Process().exe()) if not exe: raise ValueError("can't find python exe real abspath") return exe else: exe = os.path.realpath(sys.executable) assert os.path.exists(exe), exe return exe PYTHON_EXE = _get_py_exe() DEVNULL = open(os.devnull, 'r+') atexit.register(DEVNULL.close) VALID_PROC_STATUSES = [getattr(psutil, x) for x in dir(psutil) if x.startswith('STATUS_')] AF_UNIX = getattr(socket, "AF_UNIX", object()) _subprocesses_started = set() _pids_started = set() # =================================================================== # --- threads # =================================================================== class ThreadTask(threading.Thread): """A thread task which does nothing expect staying alive.""" def __init__(self): super().__init__() self._running = False self._interval = 0.001 self._flag = threading.Event() def __repr__(self): name = self.__class__.__name__ return '<%s running=%s at %#x>' % (name, self._running, id(self)) def __enter__(self): self.start() return self def __exit__(self, *args, **kwargs): self.stop() def start(self): """Start thread and keep it running until an explicit stop() request. Polls for shutdown every 'timeout' seconds. """ if self._running: raise ValueError("already started") threading.Thread.start(self) self._flag.wait() def run(self): self._running = True self._flag.set() while self._running: time.sleep(self._interval) def stop(self): """Stop thread execution and and waits until it is stopped.""" if not self._running: raise ValueError("already stopped") self._running = False self.join() # =================================================================== # --- subprocesses # =================================================================== def _reap_children_on_err(fun): @functools.wraps(fun) def wrapper(*args, **kwargs): try: return fun(*args, **kwargs) except Exception: reap_children() raise return wrapper @_reap_children_on_err def spawn_testproc(cmd=None, **kwds): """Creates a python subprocess which does nothing for 60 secs and return it as a subprocess.Popen instance. If "cmd" is specified that is used instead of python. By default stdin and stdout are redirected to /dev/null. It also attemps to make sure the process is in a reasonably initialized state. The process is registered for cleanup on reap_children(). """ kwds.setdefault("stdin", DEVNULL) kwds.setdefault("stdout", DEVNULL) kwds.setdefault("cwd", os.getcwd()) kwds.setdefault("env", os.environ) if WINDOWS: # Prevents the subprocess to open error dialogs. This will also # cause stderr to be suppressed, which is suboptimal in order # to debug broken tests. CREATE_NO_WINDOW = 0x8000000 kwds.setdefault("creationflags", CREATE_NO_WINDOW) if cmd is None: testfn = get_testfn() try: safe_rmpath(testfn) pyline = "from time import sleep;" \ "open(r'%s', 'w').close();" \ "sleep(60);" % testfn cmd = [PYTHON_EXE, "-c", pyline] sproc = subprocess.Popen(cmd, **kwds) _subprocesses_started.add(sproc) wait_for_file(testfn, delete=True, empty=True) finally: safe_rmpath(testfn) else: sproc = subprocess.Popen(cmd, **kwds) _subprocesses_started.add(sproc) wait_for_pid(sproc.pid) return sproc @_reap_children_on_err def spawn_children_pair(): """Create a subprocess which creates another one as in: A (us) -> B (child) -> C (grandchild). Return a (child, grandchild) tuple. The 2 processes are fully initialized and will live for 60 secs and are registered for cleanup on reap_children(). """ tfile = None testfn = get_testfn(dir=os.getcwd()) try: s = textwrap.dedent("""\ import subprocess, os, sys, time s = "import os, time;" s += "f = open('%s', 'w');" s += "f.write(str(os.getpid()));" s += "f.close();" s += "time.sleep(60);" p = subprocess.Popen([r'%s', '-c', s]) p.wait() """ % (os.path.basename(testfn), PYTHON_EXE)) # On Windows if we create a subprocess with CREATE_NO_WINDOW flag # set (which is the default) a "conhost.exe" extra process will be # spawned as a child. We don't want that. if WINDOWS: subp, tfile = pyrun(s, creationflags=0) else: subp, tfile = pyrun(s) child = psutil.Process(subp.pid) grandchild_pid = int(wait_for_file(testfn, delete=True, empty=False)) _pids_started.add(grandchild_pid) grandchild = psutil.Process(grandchild_pid) return (child, grandchild) finally: safe_rmpath(testfn) if tfile is not None: safe_rmpath(tfile) def spawn_zombie(): """Create a zombie process and return a (parent, zombie) process tuple. In order to kill the zombie parent must be terminate()d first, then zombie must be wait()ed on. """ assert psutil.POSIX unix_file = get_testfn() src = textwrap.dedent("""\ import os, sys, time, socket, contextlib child_pid = os.fork() if child_pid > 0: time.sleep(3000) else: # this is the zombie process s = socket.socket(socket.AF_UNIX) with contextlib.closing(s): s.connect('%s') if sys.version_info < (3, ): pid = str(os.getpid()) else: pid = bytes(str(os.getpid()), 'ascii') s.sendall(pid) """ % unix_file) tfile = None sock = bind_unix_socket(unix_file) try: sock.settimeout(GLOBAL_TIMEOUT) parent, tfile = pyrun(src) conn, _ = sock.accept() try: select.select([conn.fileno()], [], [], GLOBAL_TIMEOUT) zpid = int(conn.recv(1024)) _pids_started.add(zpid) zombie = psutil.Process(zpid) call_until(lambda: zombie.status(), "ret == psutil.STATUS_ZOMBIE") return (parent, zombie) finally: conn.close() finally: sock.close() safe_rmpath(unix_file) if tfile is not None: safe_rmpath(tfile) @_reap_children_on_err def pyrun(src, **kwds): """Run python 'src' code string in a separate interpreter. Returns a subprocess.Popen instance and the test file where the source code was written. """ kwds.setdefault("stdout", None) kwds.setdefault("stderr", None) srcfile = get_testfn() try: with open(srcfile, 'wt') as f: f.write(src) subp = spawn_testproc([PYTHON_EXE, f.name], **kwds) wait_for_pid(subp.pid) return (subp, srcfile) except Exception: safe_rmpath(srcfile) raise @_reap_children_on_err def sh(cmd, **kwds): """run cmd in a subprocess and return its output. raises RuntimeError on error. """ shell = True if isinstance(cmd, (str, unicode)) else False # Prevents subprocess to open error dialogs in case of error. flags = 0x8000000 if WINDOWS and shell else 0 kwds.setdefault("shell", shell) kwds.setdefault("stdout", subprocess.PIPE) kwds.setdefault("stderr", subprocess.PIPE) kwds.setdefault("universal_newlines", True) kwds.setdefault("creationflags", flags) p = subprocess.Popen(cmd, **kwds) _subprocesses_started.add(p) if PY3: stdout, stderr = p.communicate(timeout=GLOBAL_TIMEOUT) else: stdout, stderr = p.communicate() if p.returncode != 0: raise RuntimeError(stderr) if stderr: warn(stderr) if stdout.endswith('\n'): stdout = stdout[:-1] return stdout def terminate(proc_or_pid, sig=signal.SIGTERM, wait_timeout=GLOBAL_TIMEOUT): """Terminate a process and wait() for it. Process can be a PID or an instance of psutil.Process(), subprocess.Popen() or psutil.Popen(). If it's a subprocess.Popen() or psutil.Popen() instance also closes its stdin / stdout / stderr fds. PID is wait()ed even if the process is already gone (kills zombies). Does nothing if the process does not exist. Return process exit status. """ if POSIX: from psutil._psposix import wait_pid def wait(proc, timeout): if isinstance(proc, subprocess.Popen) and not PY3: proc.wait() else: proc.wait(timeout) if WINDOWS and isinstance(proc, subprocess.Popen): # Otherwise PID may still hang around. try: return psutil.Process(proc.pid).wait(timeout) except psutil.NoSuchProcess: pass def sendsig(proc, sig): # XXX: otherwise the build hangs for some reason. if MACOS and GITHUB_ACTIONS: sig = signal.SIGKILL # If the process received SIGSTOP, SIGCONT is necessary first, # otherwise SIGTERM won't work. if POSIX and sig != signal.SIGKILL: proc.send_signal(signal.SIGCONT) proc.send_signal(sig) def term_subproc(proc, timeout): try: sendsig(proc, sig) except OSError as err: if WINDOWS and err.winerror == 6: # "invalid handle" pass elif err.errno != errno.ESRCH: raise return wait(proc, timeout) def term_psproc(proc, timeout): try: sendsig(proc, sig) except psutil.NoSuchProcess: pass return wait(proc, timeout) def term_pid(pid, timeout): try: proc = psutil.Process(pid) except psutil.NoSuchProcess: # Needed to kill zombies. if POSIX: return wait_pid(pid, timeout) else: return term_psproc(proc, timeout) def flush_popen(proc): if proc.stdout: proc.stdout.close() if proc.stderr: proc.stderr.close() # Flushing a BufferedWriter may raise an error. if proc.stdin: proc.stdin.close() p = proc_or_pid try: if isinstance(p, int): return term_pid(p, wait_timeout) elif isinstance(p, (psutil.Process, psutil.Popen)): return term_psproc(p, wait_timeout) elif isinstance(p, subprocess.Popen): return term_subproc(p, wait_timeout) else: raise TypeError("wrong type %r" % p) finally: if isinstance(p, (subprocess.Popen, psutil.Popen)): flush_popen(p) pid = p if isinstance(p, int) else p.pid assert not psutil.pid_exists(pid), pid def reap_children(recursive=False): """Terminate and wait() any subprocess started by this test suite and any children currently running, ensuring that no processes stick around to hog resources. If resursive is True it also tries to terminate and wait() all grandchildren started by this process. """ # Get the children here before terminating them, as in case of # recursive=True we don't want to lose the intermediate reference # pointing to the grandchildren. children = psutil.Process().children(recursive=recursive) # Terminate subprocess.Popen. while _subprocesses_started: subp = _subprocesses_started.pop() terminate(subp) # Collect started pids. while _pids_started: pid = _pids_started.pop() terminate(pid) # Terminate children. if children: for p in children: terminate(p, wait_timeout=None) gone, alive = psutil.wait_procs(children, timeout=GLOBAL_TIMEOUT) for p in alive: warn("couldn't terminate process %r; attempting kill()" % p) terminate(p, sig=signal.SIGKILL) # =================================================================== # --- OS # =================================================================== def kernel_version(): """Return a tuple such as (2, 6, 36).""" if not POSIX: raise NotImplementedError("not POSIX") s = "" uname = os.uname()[2] for c in uname: if c.isdigit() or c == '.': s += c else: break if not s: raise ValueError("can't parse %r" % uname) minor = 0 micro = 0 nums = s.split('.') major = int(nums[0]) if len(nums) >= 2: minor = int(nums[1]) if len(nums) >= 3: micro = int(nums[2]) return (major, minor, micro) def get_winver(): if not WINDOWS: raise NotImplementedError("not WINDOWS") wv = sys.getwindowsversion() if hasattr(wv, 'service_pack_major'): # python >= 2.7 sp = wv.service_pack_major or 0 else: r = re.search(r"\s\d$", wv[4]) if r: sp = int(r.group(0)) else: sp = 0 return (wv[0], wv[1], sp) # =================================================================== # --- sync primitives # =================================================================== class retry(object): """A retry decorator.""" def __init__(self, exception=Exception, timeout=None, retries=None, interval=0.001, logfun=None, ): if timeout and retries: raise ValueError("timeout and retries args are mutually exclusive") self.exception = exception self.timeout = timeout self.retries = retries self.interval = interval self.logfun = logfun def __iter__(self): if self.timeout: stop_at = time.time() + self.timeout while time.time() < stop_at: yield elif self.retries: for _ in range(self.retries): yield else: while True: yield def sleep(self): if self.interval is not None: time.sleep(self.interval) def __call__(self, fun): @functools.wraps(fun) def wrapper(*args, **kwargs): exc = None for _ in self: try: return fun(*args, **kwargs) except self.exception as _: # NOQA exc = _ if self.logfun is not None: self.logfun(exc) self.sleep() continue if PY3: raise exc else: raise # This way the user of the decorated function can change config # parameters. wrapper.decorator = self return wrapper @retry(exception=psutil.NoSuchProcess, logfun=None, timeout=GLOBAL_TIMEOUT, interval=0.001) def wait_for_pid(pid): """Wait for pid to show up in the process list then return. Used in the test suite to give time the sub process to initialize. """ psutil.Process(pid) if WINDOWS: # give it some more time to allow better initialization time.sleep(0.01) @retry(exception=(FileNotFoundError, AssertionError), logfun=None, timeout=GLOBAL_TIMEOUT, interval=0.001) def wait_for_file(fname, delete=True, empty=False): """Wait for a file to be written on disk with some content.""" with open(fname, "rb") as f: data = f.read() if not empty: assert data if delete: safe_rmpath(fname) return data @retry(exception=AssertionError, logfun=None, timeout=GLOBAL_TIMEOUT, interval=0.001) def call_until(fun, expr): """Keep calling function for timeout secs and exit if eval() expression is True. """ ret = fun() assert eval(expr) return ret # =================================================================== # --- fs # =================================================================== def safe_rmpath(path): "Convenience function for removing temporary test files or dirs" def retry_fun(fun): # On Windows it could happen that the file or directory has # open handles or references preventing the delete operation # to succeed immediately, so we retry for a while. See: # https://bugs.python.org/issue33240 stop_at = time.time() + GLOBAL_TIMEOUT while time.time() < stop_at: try: return fun() except FileNotFoundError: pass except WindowsError as _: err = _ warn("ignoring %s" % (str(err))) time.sleep(0.01) raise err try: st = os.stat(path) if stat.S_ISDIR(st.st_mode): fun = functools.partial(shutil.rmtree, path) else: fun = functools.partial(os.remove, path) if POSIX: fun() else: retry_fun(fun) except FileNotFoundError: pass def safe_mkdir(dir): "Convenience function for creating a directory" try: os.mkdir(dir) except FileExistsError: pass @contextlib.contextmanager def chdir(dirname): "Context manager which temporarily changes the current directory." curdir = os.getcwd() try: os.chdir(dirname) yield finally: os.chdir(curdir) def create_exe(outpath, c_code=None): """Creates an executable file in the given location.""" assert not os.path.exists(outpath), outpath if c_code: if not which("gcc"): raise ValueError("gcc is not installed") if isinstance(c_code, bool): # c_code is True c_code = textwrap.dedent( """ #include <unistd.h> int main() { pause(); return 1; } """) assert isinstance(c_code, str), c_code with open(get_testfn(suffix='.c'), 'wt') as f: f.write(c_code) try: subprocess.check_call(["gcc", f.name, "-o", outpath]) finally: safe_rmpath(f.name) else: # copy python executable shutil.copyfile(PYTHON_EXE, outpath) if POSIX: st = os.stat(outpath) os.chmod(outpath, st.st_mode | stat.S_IEXEC) def get_testfn(suffix="", dir=None): """Return an absolute pathname of a file or dir that did not exist at the time this call is made. Also schedule it for safe deletion at interpreter exit. It's technically racy but probably not really due to the time variant. """ while True: name = tempfile.mktemp(prefix=TESTFN_PREFIX, suffix=suffix, dir=dir) if not os.path.exists(name): # also include dirs return os.path.realpath(name) # needed for OSX # =================================================================== # --- testing # =================================================================== class TestCase(unittest.TestCase): # Print a full path representation of the single unit tests # being run. def __str__(self): fqmod = self.__class__.__module__ if not fqmod.startswith('psutil.'): fqmod = 'psutil.tests.' + fqmod return "%s.%s.%s" % ( fqmod, self.__class__.__name__, self._testMethodName) # assertRaisesRegexp renamed to assertRaisesRegex in 3.3; # add support for the new name. if not hasattr(unittest.TestCase, 'assertRaisesRegex'): assertRaisesRegex = unittest.TestCase.assertRaisesRegexp # ...otherwise multiprocessing.Pool complains if not PY3: def runTest(self): pass # monkey patch default unittest.TestCase unittest.TestCase = TestCase class PsutilTestCase(TestCase): """Test class providing auto-cleanup wrappers on top of process test utilities. """ def get_testfn(self, suffix="", dir=None): fname = get_testfn(suffix=suffix, dir=dir) self.addCleanup(safe_rmpath, fname) return fname def spawn_testproc(self, *args, **kwds): sproc = spawn_testproc(*args, **kwds) self.addCleanup(terminate, sproc) return sproc def spawn_children_pair(self): child1, child2 = spawn_children_pair() self.addCleanup(terminate, child2) self.addCleanup(terminate, child1) # executed first return (child1, child2) def spawn_zombie(self): parent, zombie = spawn_zombie() self.addCleanup(terminate, zombie) self.addCleanup(terminate, parent) # executed first return (parent, zombie) def pyrun(self, *args, **kwds): sproc, srcfile = pyrun(*args, **kwds) self.addCleanup(safe_rmpath, srcfile) self.addCleanup(terminate, sproc) # executed first return sproc def assertProcessGone(self, proc): self.assertRaises(psutil.NoSuchProcess, psutil.Process, proc.pid) if isinstance(proc, (psutil.Process, psutil.Popen)): assert not proc.is_running() try: status = proc.status() except psutil.NoSuchProcess: pass else: raise AssertionError("Process.status() didn't raise exception " "(status=%s)" % status) proc.wait(timeout=0) # assert not raise TimeoutExpired assert not psutil.pid_exists(proc.pid), proc.pid self.assertNotIn(proc.pid, psutil.pids()) @unittest.skipIf(PYPY, "unreliable on PYPY") class TestMemoryLeak(PsutilTestCase): """Test framework class for detecting function memory leaks, typically functions implemented in C which forgot to free() memory from the heap. It does so by checking whether the process memory usage increased before and after calling the function many times. Note that this is hard (probably impossible) to do reliably, due to how the OS handles memory, the GC and so on (memory can even decrease!). In order to avoid false positives, in case of failure (mem > 0) we retry the test for up to 5 times, increasing call repetitions each time. If the memory keeps increasing then it's a failure. If available (Linux, OSX, Windows), USS memory is used for comparison, since it's supposed to be more precise, see: https://gmpy.dev/blog/2016/real-process-memory-and-environ-in-python If not, RSS memory is used. mallinfo() on Linux and _heapwalk() on Windows may give even more precision, but at the moment are not implemented. PyPy appears to be completely unstable for this framework, probably because of its JIT, so tests on PYPY are skipped. Usage: class TestLeaks(psutil.tests.TestMemoryLeak): def test_fun(self): self.execute(some_function) """ # Configurable class attrs. times = 200 warmup_times = 10 tolerance = 0 # memory retries = 10 if CI_TESTING else 5 verbose = True _thisproc = psutil.Process() def _get_mem(self): # USS is the closest thing we have to "real" memory usage and it # should be less likely to produce false positives. mem = self._thisproc.memory_full_info() return getattr(mem, "uss", mem.rss) def _get_num_fds(self): if POSIX: return self._thisproc.num_fds() else: return self._thisproc.num_handles() def _log(self, msg): if self.verbose: print_color(msg, color="yellow", file=sys.stderr) def _check_fds(self, fun): """Makes sure num_fds() (POSIX) or num_handles() (Windows) does not increase after calling a function. Used to discover forgotten close(2) and CloseHandle syscalls. """ before = self._get_num_fds() self.call(fun) after = self._get_num_fds() diff = after - before if diff < 0: raise self.fail("negative diff %r (gc probably collected a " "resource from a previous test)" % diff) if diff > 0: type_ = "fd" if POSIX else "handle" if diff > 1: type_ += "s" msg = "%s unclosed %s after calling %r" % (diff, type_, fun) raise self.fail(msg) def _call_ntimes(self, fun, times): """Get 2 distinct memory samples, before and after having called fun repeadetly, and return the memory difference. """ gc.collect(generation=1) mem1 = self._get_mem() for x in range(times): ret = self.call(fun) del x, ret gc.collect(generation=1) mem2 = self._get_mem() self.assertEqual(gc.garbage, []) diff = mem2 - mem1 # can also be negative return diff def _check_mem(self, fun, times, warmup_times, retries, tolerance): messages = [] prev_mem = 0 increase = times for idx in range(1, retries + 1): mem = self._call_ntimes(fun, times) msg = "Run #%s: extra-mem=%s, per-call=%s, calls=%s" % ( idx, bytes2human(mem), bytes2human(mem / times), times) messages.append(msg) success = mem <= tolerance or mem <= prev_mem if success: if idx > 1: self._log(msg) return else: if idx == 1: print() # NOQA self._log(msg) times += increase prev_mem = mem raise self.fail(". ".join(messages)) # --- def call(self, fun): return fun() def execute(self, fun, times=None, warmup_times=None, retries=None, tolerance=None): """Test a callable.""" times = times if times is not None else self.times warmup_times = warmup_times if warmup_times is not None \ else self.warmup_times retries = retries if retries is not None else self.retries tolerance = tolerance if tolerance is not None else self.tolerance try: assert times >= 1, "times must be >= 1" assert warmup_times >= 0, "warmup_times must be >= 0" assert retries >= 0, "retries must be >= 0" assert tolerance >= 0, "tolerance must be >= 0" except AssertionError as err: raise ValueError(str(err)) self._call_ntimes(fun, warmup_times) # warm up self._check_fds(fun) self._check_mem(fun, times=times, warmup_times=warmup_times, retries=retries, tolerance=tolerance) def execute_w_exc(self, exc, fun, **kwargs): """Convenience method to test a callable while making sure it raises an exception on every call. """ def call(): self.assertRaises(exc, fun) self.execute(call, **kwargs) def print_sysinfo(): import collections import datetime import getpass import locale import platform import pprint try: import pip except ImportError: pip = None try: import wheel except ImportError: wheel = None info = collections.OrderedDict() # OS if psutil.LINUX and which('lsb_release'): info['OS'] = sh('lsb_release -d -s') elif psutil.OSX: info['OS'] = 'Darwin %s' % platform.mac_ver()[0] elif psutil.WINDOWS: info['OS'] = "Windows " + ' '.join( map(str, platform.win32_ver())) if hasattr(platform, 'win32_edition'): info['OS'] += ", " + platform.win32_edition() else: info['OS'] = "%s %s" % (platform.system(), platform.version()) info['arch'] = ', '.join( list(platform.architecture()) + [platform.machine()]) if psutil.POSIX: info['kernel'] = platform.uname()[2] # python info['python'] = ', '.join([ platform.python_implementation(), platform.python_version(), platform.python_compiler()]) info['pip'] = getattr(pip, '__version__', 'not installed') if wheel is not None: info['pip'] += " (wheel=%s)" % wheel.__version__ # UNIX if psutil.POSIX: if which('gcc'): out = sh(['gcc', '--version']) info['gcc'] = str(out).split('\n')[0] else: info['gcc'] = 'not installed' s = platform.libc_ver()[1] if s: info['glibc'] = s # system info['fs-encoding'] = sys.getfilesystemencoding() lang = locale.getlocale() info['lang'] = '%s, %s' % (lang[0], lang[1]) info['boot-time'] = datetime.datetime.fromtimestamp( psutil.boot_time()).strftime("%Y-%m-%d %H:%M:%S") info['time'] = datetime.datetime.now().strftime("%Y-%m-%d %H:%M:%S") info['user'] = getpass.getuser() info['home'] = os.path.expanduser("~") info['cwd'] = os.getcwd() info['pyexe'] = PYTHON_EXE info['hostname'] = platform.node() info['PID'] = os.getpid() # metrics info['cpus'] = psutil.cpu_count() info['loadavg'] = "%.1f%%, %.1f%%, %.1f%%" % ( tuple([x / psutil.cpu_count() * 100 for x in psutil.getloadavg()])) mem = psutil.virtual_memory() info['memory'] = "%s%%, used=%s, total=%s" % ( int(mem.percent), bytes2human(mem.used), bytes2human(mem.total)) swap = psutil.swap_memory() info['swap'] = "%s%%, used=%s, total=%s" % ( int(swap.percent), bytes2human(swap.used), bytes2human(swap.total)) info['pids'] = len(psutil.pids()) pinfo = psutil.Process().as_dict() pinfo.pop('memory_maps', None) info['proc'] = pprint.pformat(pinfo) print("=" * 70, file=sys.stderr) # NOQA for k, v in info.items(): print("%-17s %s" % (k + ':', v), file=sys.stderr) # NOQA print("=" * 70, file=sys.stderr) # NOQA sys.stdout.flush() def _get_eligible_cpu(): p = psutil.Process() if hasattr(p, "cpu_num"): return p.cpu_num() elif hasattr(p, "cpu_affinity"): return random.choice(p.cpu_affinity()) return 0 class process_namespace: """A container that lists all Process class method names + some reasonable parameters to be called with. Utility methods (parent(), children(), ...) are excluded. >>> ns = process_namespace(psutil.Process()) >>> for fun, name in ns.iter(ns.getters): ... fun() """ utils = [ ('cpu_percent', (), {}), ('memory_percent', (), {}), ] ignored = [ ('as_dict', (), {}), ('children', (), {'recursive': True}), ('is_running', (), {}), ('memory_info_ex', (), {}), ('oneshot', (), {}), ('parent', (), {}), ('parents', (), {}), ('pid', (), {}), ('wait', (0, ), {}), ] getters = [ ('cmdline', (), {}), ('connections', (), {'kind': 'all'}), ('cpu_times', (), {}), ('create_time', (), {}), ('cwd', (), {}), ('exe', (), {}), ('memory_full_info', (), {}), ('memory_info', (), {}), ('name', (), {}), ('nice', (), {}), ('num_ctx_switches', (), {}), ('num_threads', (), {}), ('open_files', (), {}), ('ppid', (), {}), ('status', (), {}), ('threads', (), {}), ('username', (), {}), ] if POSIX: getters += [('uids', (), {})] getters += [('gids', (), {})] getters += [('terminal', (), {})] getters += [('num_fds', (), {})] if HAS_PROC_IO_COUNTERS: getters += [('io_counters', (), {})] if HAS_IONICE: getters += [('ionice', (), {})] if HAS_RLIMIT: getters += [('rlimit', (psutil.RLIMIT_NOFILE, ), {})] if HAS_CPU_AFFINITY: getters += [('cpu_affinity', (), {})] if HAS_PROC_CPU_NUM: getters += [('cpu_num', (), {})] if HAS_ENVIRON: getters += [('environ', (), {})] if WINDOWS: getters += [('num_handles', (), {})] if HAS_MEMORY_MAPS: getters += [('memory_maps', (), {'grouped': False})] setters = [] if POSIX: setters += [('nice', (0, ), {})] else: setters += [('nice', (psutil.NORMAL_PRIORITY_CLASS, ), {})] if HAS_RLIMIT: setters += [('rlimit', (psutil.RLIMIT_NOFILE, (1024, 4096)), {})] if HAS_IONICE: if LINUX: setters += [('ionice', (psutil.IOPRIO_CLASS_NONE, 0), {})] else: setters += [('ionice', (psutil.IOPRIO_NORMAL, ), {})] if HAS_CPU_AFFINITY: setters += [('cpu_affinity', ([_get_eligible_cpu()], ), {})] killers = [ ('send_signal', (signal.SIGTERM, ), {}), ('suspend', (), {}), ('resume', (), {}), ('terminate', (), {}), ('kill', (), {}), ] if WINDOWS: killers += [('send_signal', (signal.CTRL_C_EVENT, ), {})] killers += [('send_signal', (signal.CTRL_BREAK_EVENT, ), {})] all = utils + getters + setters + killers def __init__(self, proc): self._proc = proc def iter(self, ls, clear_cache=True): """Given a list of tuples yields a set of (fun, fun_name) tuples in random order. """ ls = list(ls) random.shuffle(ls) for fun_name, args, kwds in ls: if clear_cache: self.clear_cache() fun = getattr(self._proc, fun_name) fun = functools.partial(fun, *args, **kwds) yield (fun, fun_name) def clear_cache(self): """Clear the cache of a Process instance.""" self._proc._init(self._proc.pid, _ignore_nsp=True) @classmethod def test_class_coverage(cls, test_class, ls): """Given a TestCase instance and a list of tuples checks that the class defines the required test method names. """ for fun_name, _, _ in ls: meth_name = 'test_' + fun_name if not hasattr(test_class, meth_name): msg = "%r class should define a '%s' method" % ( test_class.__class__.__name__, meth_name) raise AttributeError(msg) @classmethod def test(cls): this = set([x[0] for x in cls.all]) ignored = set([x[0] for x in cls.ignored]) klass = set([x for x in dir(psutil.Process) if x[0] != '_']) leftout = (this | ignored) ^ klass if leftout: raise ValueError("uncovered Process class names: %r" % leftout) class system_namespace: """A container that lists all the module-level, system-related APIs. Utilities such as cpu_percent() are excluded. Usage: >>> ns = system_namespace >>> for fun, name in ns.iter(ns.getters): ... fun() """ getters = [ ('boot_time', (), {}), ('cpu_count', (), {'logical': False}), ('cpu_count', (), {'logical': True}), ('cpu_stats', (), {}), ('cpu_times', (), {'percpu': False}), ('cpu_times', (), {'percpu': True}), ('disk_io_counters', (), {'perdisk': True}), ('disk_partitions', (), {'all': True}), ('disk_usage', (os.getcwd(), ), {}), ('net_connections', (), {'kind': 'all'}), ('net_if_addrs', (), {}), ('net_if_stats', (), {}), ('net_io_counters', (), {'pernic': True}), ('pid_exists', (os.getpid(), ), {}), ('pids', (), {}), ('swap_memory', (), {}), ('users', (), {}), ('virtual_memory', (), {}), ] if HAS_CPU_FREQ: getters += [('cpu_freq', (), {'percpu': True})] if HAS_GETLOADAVG: getters += [('getloadavg', (), {})] if HAS_SENSORS_TEMPERATURES: getters += [('sensors_temperatures', (), {})] if HAS_SENSORS_FANS: getters += [('sensors_fans', (), {})] if HAS_SENSORS_BATTERY: getters += [('sensors_battery', (), {})] if WINDOWS: getters += [('win_service_iter', (), {})] getters += [('win_service_get', ('alg', ), {})] ignored = [ ('process_iter', (), {}), ('wait_procs', ([psutil.Process()], ), {}), ('cpu_percent', (), {}), ('cpu_times_percent', (), {}), ] all = getters @staticmethod def iter(ls): """Given a list of tuples yields a set of (fun, fun_name) tuples in random order. """ ls = list(ls) random.shuffle(ls) for fun_name, args, kwds in ls: fun = getattr(psutil, fun_name) fun = functools.partial(fun, *args, **kwds) yield (fun, fun_name) test_class_coverage = process_namespace.test_class_coverage def serialrun(klass): """A decorator to mark a TestCase class. When running parallel tests, class' unit tests will be run serially (1 process). """ # assert issubclass(klass, unittest.TestCase), klass assert inspect.isclass(klass), klass klass._serialrun = True return klass def retry_on_failure(retries=NO_RETRIES): """Decorator which runs a test function and retries N times before actually failing. """ def logfun(exc): print("%r, retrying" % exc, file=sys.stderr) # NOQA return retry(exception=AssertionError, timeout=None, retries=retries, logfun=logfun) def skip_on_access_denied(only_if=None): """Decorator to Ignore AccessDenied exceptions.""" def decorator(fun): @functools.wraps(fun) def wrapper(*args, **kwargs): try: return fun(*args, **kwargs) except psutil.AccessDenied: if only_if is not None: if not only_if: raise raise unittest.SkipTest("raises AccessDenied") return wrapper return decorator def skip_on_not_implemented(only_if=None): """Decorator to Ignore NotImplementedError exceptions.""" def decorator(fun): @functools.wraps(fun) def wrapper(*args, **kwargs): try: return fun(*args, **kwargs) except NotImplementedError: if only_if is not None: if not only_if: raise msg = "%r was skipped because it raised NotImplementedError" \ % fun.__name__ raise unittest.SkipTest(msg) return wrapper return decorator # =================================================================== # --- network # =================================================================== # XXX: no longer used def get_free_port(host='127.0.0.1'): """Return an unused TCP port. Subject to race conditions.""" with contextlib.closing(socket.socket()) as sock: sock.bind((host, 0)) return sock.getsockname()[1] def bind_socket(family=AF_INET, type=SOCK_STREAM, addr=None): """Binds a generic socket.""" if addr is None and family in (AF_INET, AF_INET6): addr = ("", 0) sock = socket.socket(family, type) try: if os.name not in ('nt', 'cygwin'): sock.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1) sock.bind(addr) if type == socket.SOCK_STREAM: sock.listen(5) return sock except Exception: sock.close() raise def bind_unix_socket(name, type=socket.SOCK_STREAM): """Bind a UNIX socket.""" assert psutil.POSIX assert not os.path.exists(name), name sock = socket.socket(socket.AF_UNIX, type) try: sock.bind(name) if type == socket.SOCK_STREAM: sock.listen(5) except Exception: sock.close() raise return sock def tcp_socketpair(family, addr=("", 0)): """Build a pair of TCP sockets connected to each other. Return a (server, client) tuple. """ with contextlib.closing(socket.socket(family, SOCK_STREAM)) as ll: ll.bind(addr) ll.listen(5) addr = ll.getsockname() c = socket.socket(family, SOCK_STREAM) try: c.connect(addr) caddr = c.getsockname() while True: a, addr = ll.accept() # check that we've got the correct client if addr == caddr: return (a, c) a.close() except OSError: c.close() raise def unix_socketpair(name): """Build a pair of UNIX sockets connected to each other through the same UNIX file name. Return a (server, client) tuple. """ assert psutil.POSIX server = client = None try: server = bind_unix_socket(name, type=socket.SOCK_STREAM) server.setblocking(0) client = socket.socket(socket.AF_UNIX, socket.SOCK_STREAM) client.setblocking(0) client.connect(name) # new = server.accept() except Exception: if server is not None: server.close() if client is not None: client.close() raise return (server, client) @contextlib.contextmanager def create_sockets(): """Open as many socket families / types as possible.""" socks = [] fname1 = fname2 = None try: socks.append(bind_socket(socket.AF_INET, socket.SOCK_STREAM)) socks.append(bind_socket(socket.AF_INET, socket.SOCK_DGRAM)) if supports_ipv6(): socks.append(bind_socket(socket.AF_INET6, socket.SOCK_STREAM)) socks.append(bind_socket(socket.AF_INET6, socket.SOCK_DGRAM)) if POSIX and HAS_CONNECTIONS_UNIX: fname1 = get_testfn() fname2 = get_testfn() s1, s2 = unix_socketpair(fname1) s3 = bind_unix_socket(fname2, type=socket.SOCK_DGRAM) for s in (s1, s2, s3): socks.append(s) yield socks finally: for s in socks: s.close() for fname in (fname1, fname2): if fname is not None: safe_rmpath(fname) def check_net_address(addr, family): """Check a net address validity. Supported families are IPv4, IPv6 and MAC addresses. """ import ipaddress # python >= 3.3 / requires "pip install ipaddress" if enum and PY3 and not PYPY: assert isinstance(family, enum.IntEnum), family if family == socket.AF_INET: octs = [int(x) for x in addr.split('.')] assert len(octs) == 4, addr for num in octs: assert 0 <= num <= 255, addr if not PY3: addr = unicode(addr) ipaddress.IPv4Address(addr) elif family == socket.AF_INET6: assert isinstance(addr, str), addr if not PY3: addr = unicode(addr) ipaddress.IPv6Address(addr) elif family == psutil.AF_LINK: assert re.match(r'([a-fA-F0-9]{2}[:|\-]?){6}', addr) is not None, addr else: raise ValueError("unknown family %r", family) def check_connection_ntuple(conn): """Check validity of a connection namedtuple.""" def check_ntuple(conn): has_pid = len(conn) == 7 assert len(conn) in (6, 7), len(conn) assert conn[0] == conn.fd, conn.fd assert conn[1] == conn.family, conn.family assert conn[2] == conn.type, conn.type assert conn[3] == conn.laddr, conn.laddr assert conn[4] == conn.raddr, conn.raddr assert conn[5] == conn.status, conn.status if has_pid: assert conn[6] == conn.pid, conn.pid def check_family(conn): assert conn.family in (AF_INET, AF_INET6, AF_UNIX), conn.family if enum is not None: assert isinstance(conn.family, enum.IntEnum), conn else: assert isinstance(conn.family, int), conn if conn.family == AF_INET: # actually try to bind the local socket; ignore IPv6 # sockets as their address might be represented as # an IPv4-mapped-address (e.g. "::127.0.0.1") # and that's rejected by bind() s = socket.socket(conn.family, conn.type) with contextlib.closing(s): try: s.bind((conn.laddr[0], 0)) except socket.error as err: if err.errno != errno.EADDRNOTAVAIL: raise elif conn.family == AF_UNIX: assert conn.status == psutil.CONN_NONE, conn.status def check_type(conn): # SOCK_SEQPACKET may happen in case of AF_UNIX socks SOCK_SEQPACKET = getattr(socket, "SOCK_SEQPACKET", object()) assert conn.type in (socket.SOCK_STREAM, socket.SOCK_DGRAM, SOCK_SEQPACKET), conn.type if enum is not None: assert isinstance(conn.type, enum.IntEnum), conn else: assert isinstance(conn.type, int), conn if conn.type == socket.SOCK_DGRAM: assert conn.status == psutil.CONN_NONE, conn.status def check_addrs(conn): # check IP address and port sanity for addr in (conn.laddr, conn.raddr): if conn.family in (AF_INET, AF_INET6): assert isinstance(addr, tuple), type(addr) if not addr: continue assert isinstance(addr.port, int), type(addr.port) assert 0 <= addr.port <= 65535, addr.port check_net_address(addr.ip, conn.family) elif conn.family == AF_UNIX: assert isinstance(addr, str), type(addr) def check_status(conn): assert isinstance(conn.status, str), conn.status valids = [getattr(psutil, x) for x in dir(psutil) if x.startswith('CONN_')] assert conn.status in valids, conn.status if conn.family in (AF_INET, AF_INET6) and conn.type == SOCK_STREAM: assert conn.status != psutil.CONN_NONE, conn.status else: assert conn.status == psutil.CONN_NONE, conn.status check_ntuple(conn) check_family(conn) check_type(conn) check_addrs(conn) check_status(conn) # =================================================================== # --- compatibility # =================================================================== def reload_module(module): """Backport of importlib.reload of Python 3.3+.""" try: import importlib if not hasattr(importlib, 'reload'): # python <=3.3 raise ImportError except ImportError: import imp return imp.reload(module) else: return importlib.reload(module) def import_module_by_path(path): name = os.path.splitext(os.path.basename(path))[0] if sys.version_info[0] == 2: import imp return imp.load_source(name, path) elif sys.version_info[:2] <= (3, 4): from importlib.machinery import SourceFileLoader return SourceFileLoader(name, path).load_module() else: import importlib.util spec = importlib.util.spec_from_file_location(name, path) mod = importlib.util.module_from_spec(spec) spec.loader.exec_module(mod) return mod # =================================================================== # --- others # =================================================================== def warn(msg): """Raise a warning msg.""" warnings.warn(msg, UserWarning) def is_namedtuple(x): """Check if object is an instance of namedtuple.""" t = type(x) b = t.__bases__ if len(b) != 1 or b[0] != tuple: return False f = getattr(t, '_fields', None) if not isinstance(f, tuple): return False return all(type(n) == str for n in f) if POSIX: @contextlib.contextmanager def copyload_shared_lib(suffix=""): """Ctx manager which picks up a random shared CO lib used by this process, copies it in another location and loads it in memory via ctypes. Return the new absolutized path. """ exe = 'pypy' if PYPY else 'python' ext = ".so" dst = get_testfn(suffix=suffix + ext) libs = [x.path for x in psutil.Process().memory_maps() if os.path.splitext(x.path)[1] == ext and exe in x.path.lower()] src = random.choice(libs) shutil.copyfile(src, dst) try: ctypes.CDLL(dst) yield dst finally: safe_rmpath(dst) else: @contextlib.contextmanager def copyload_shared_lib(suffix=""): """Ctx manager which picks up a random shared DLL lib used by this process, copies it in another location and loads it in memory via ctypes. Return the new absolutized, normcased path. """ from ctypes import wintypes from ctypes import WinError ext = ".dll" dst = get_testfn(suffix=suffix + ext) libs = [x.path for x in psutil.Process().memory_maps() if x.path.lower().endswith(ext) and 'python' in os.path.basename(x.path).lower() and 'wow64' not in x.path.lower()] if PYPY and not libs: libs = [x.path for x in psutil.Process().memory_maps() if 'pypy' in os.path.basename(x.path).lower()] src = random.choice(libs) shutil.copyfile(src, dst) cfile = None try: cfile = ctypes.WinDLL(dst) yield dst finally: # Work around OverflowError: # - https://ci.appveyor.com/project/giampaolo/psutil/build/1207/ # job/o53330pbnri9bcw7 # - http://bugs.python.org/issue30286 # - http://stackoverflow.com/questions/23522055 if cfile is not None: FreeLibrary = ctypes.windll.kernel32.FreeLibrary FreeLibrary.argtypes = [wintypes.HMODULE] ret = FreeLibrary(cfile._handle) if ret == 0: WinError() safe_rmpath(dst) # =================================================================== # --- Exit funs (first is executed last) # =================================================================== # this is executed first @atexit.register def cleanup_test_procs(): reap_children(recursive=True) # atexit module does not execute exit functions in case of SIGTERM, which # gets sent to test subprocesses, which is a problem if they import this # module. With this it will. See: # https://gmpy.dev/blog/2016/how-to-always-execute-exit-functions-in-python if POSIX: signal.signal(signal.SIGTERM, lambda sig, frame: sys.exit(sig))