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#!/usr/bin/env python3 # 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. """macOS specific tests.""" import re import time import psutil from psutil import MACOS from psutil.tests import HAS_BATTERY from psutil.tests import PsutilTestCase from psutil.tests import retry_on_failure from psutil.tests import sh from psutil.tests import spawn_testproc from psutil.tests import terminate from psutil.tests import TOLERANCE_DISK_USAGE from psutil.tests import TOLERANCE_SYS_MEM from psutil.tests import unittest def sysctl(cmdline): """Expects a sysctl command with an argument and parse the result returning only the value of interest. """ out = sh(cmdline) result = out.split()[1] try: return int(result) except ValueError: return result def vm_stat(field): """Wrapper around 'vm_stat' cmdline utility.""" from psutil._psutil_posix import getpagesize out = sh('vm_stat') for line in out.split('\n'): if field in line: break else: raise ValueError("line not found") return int(re.search(r'\d+', line).group(0)) * getpagesize() # http://code.activestate.com/recipes/578019/ def human2bytes(s): SYMBOLS = { 'customary': ('B', 'K', 'M', 'G', 'T', 'P', 'E', 'Z', 'Y'), } init = s num = "" while s and s[0:1].isdigit() or s[0:1] == '.': num += s[0] s = s[1:] num = float(num) letter = s.strip() for name, sset in SYMBOLS.items(): if letter in sset: break else: if letter == 'k': sset = SYMBOLS['customary'] letter = letter.upper() else: raise ValueError("can't interpret %r" % init) prefix = {sset[0]: 1} for i, s in enumerate(sset[1:]): prefix[s] = 1 << (i + 1) * 10 return int(num * prefix[letter]) @unittest.skipIf(not MACOS, "MACOS only") class TestProcess(PsutilTestCase): @classmethod def setUpClass(cls): cls.pid = spawn_testproc().pid @classmethod def tearDownClass(cls): terminate(cls.pid) def test_process_create_time(self): output = sh("ps -o lstart -p %s" % self.pid) start_ps = output.replace('STARTED', '').strip() hhmmss = start_ps.split(' ')[-2] year = start_ps.split(' ')[-1] start_psutil = psutil.Process(self.pid).create_time() self.assertEqual( hhmmss, time.strftime("%H:%M:%S", time.localtime(start_psutil))) self.assertEqual( year, time.strftime("%Y", time.localtime(start_psutil))) @unittest.skipIf(not MACOS, "MACOS only") class TestSystemAPIs(PsutilTestCase): # --- disk @retry_on_failure() def test_disks(self): # test psutil.disk_usage() and psutil.disk_partitions() # against "df -a" def df(path): out = sh('df -k "%s"' % path).strip() lines = out.split('\n') lines.pop(0) line = lines.pop(0) dev, total, used, free = line.split()[:4] if dev == 'none': dev = '' total = int(total) * 1024 used = int(used) * 1024 free = int(free) * 1024 return dev, total, used, free for part in psutil.disk_partitions(all=False): usage = psutil.disk_usage(part.mountpoint) dev, total, used, free = df(part.mountpoint) self.assertEqual(part.device, dev) self.assertEqual(usage.total, total) self.assertAlmostEqual(usage.free, free, delta=TOLERANCE_DISK_USAGE) self.assertAlmostEqual(usage.used, used, delta=TOLERANCE_DISK_USAGE) # --- cpu def test_cpu_count_logical(self): num = sysctl("sysctl hw.logicalcpu") self.assertEqual(num, psutil.cpu_count(logical=True)) def test_cpu_count_physical(self): num = sysctl("sysctl hw.physicalcpu") self.assertEqual(num, psutil.cpu_count(logical=False)) def test_cpu_freq(self): freq = psutil.cpu_freq() self.assertEqual( freq.current * 1000 * 1000, sysctl("sysctl hw.cpufrequency")) self.assertEqual( freq.min * 1000 * 1000, sysctl("sysctl hw.cpufrequency_min")) self.assertEqual( freq.max * 1000 * 1000, sysctl("sysctl hw.cpufrequency_max")) # --- virtual mem def test_vmem_total(self): sysctl_hwphymem = sysctl('sysctl hw.memsize') self.assertEqual(sysctl_hwphymem, psutil.virtual_memory().total) @retry_on_failure() def test_vmem_free(self): vmstat_val = vm_stat("free") psutil_val = psutil.virtual_memory().free self.assertAlmostEqual(psutil_val, vmstat_val, delta=TOLERANCE_SYS_MEM) @retry_on_failure() def test_vmem_active(self): vmstat_val = vm_stat("active") psutil_val = psutil.virtual_memory().active self.assertAlmostEqual(psutil_val, vmstat_val, delta=TOLERANCE_SYS_MEM) @retry_on_failure() def test_vmem_inactive(self): vmstat_val = vm_stat("inactive") psutil_val = psutil.virtual_memory().inactive self.assertAlmostEqual(psutil_val, vmstat_val, delta=TOLERANCE_SYS_MEM) @retry_on_failure() def test_vmem_wired(self): vmstat_val = vm_stat("wired") psutil_val = psutil.virtual_memory().wired self.assertAlmostEqual(psutil_val, vmstat_val, delta=TOLERANCE_SYS_MEM) # --- swap mem @retry_on_failure() def test_swapmem_sin(self): vmstat_val = vm_stat("Pageins") psutil_val = psutil.swap_memory().sin self.assertEqual(psutil_val, vmstat_val) @retry_on_failure() def test_swapmem_sout(self): vmstat_val = vm_stat("Pageout") psutil_val = psutil.swap_memory().sout self.assertEqual(psutil_val, vmstat_val) # Not very reliable. # def test_swapmem_total(self): # out = sh('sysctl vm.swapusage') # out = out.replace('vm.swapusage: ', '') # total, used, free = re.findall('\d+.\d+\w', out) # psutil_smem = psutil.swap_memory() # self.assertEqual(psutil_smem.total, human2bytes(total)) # self.assertEqual(psutil_smem.used, human2bytes(used)) # self.assertEqual(psutil_smem.free, human2bytes(free)) # --- network def test_net_if_stats(self): for name, stats in psutil.net_if_stats().items(): try: out = sh("ifconfig %s" % name) except RuntimeError: pass else: self.assertEqual(stats.isup, 'RUNNING' in out, msg=out) self.assertEqual(stats.mtu, int(re.findall(r'mtu (\d+)', out)[0])) # --- sensors_battery @unittest.skipIf(not HAS_BATTERY, "no battery") def test_sensors_battery(self): out = sh("pmset -g batt") percent = re.search(r"(\d+)%", out).group(1) drawing_from = re.search("Now drawing from '([^']+)'", out).group(1) power_plugged = drawing_from == "AC Power" psutil_result = psutil.sensors_battery() self.assertEqual(psutil_result.power_plugged, power_plugged) self.assertEqual(psutil_result.percent, int(percent)) if __name__ == '__main__': from psutil.tests.runner import run_from_name run_from_name(__file__)