import-layers/yocto-poky/meta/lib/oeqa/runtime/systemd.py - openbmc/openbmc - Gitiles

 import unittest
 import re
 from oeqa.oetest import oeRuntimeTest, skipModule
 from oeqa.utils.decorators import *

 def setUpModule():
     if not oeRuntimeTest.hasFeature("systemd"):
             skipModule("target doesn't have systemd in DISTRO_FEATURES")
     if "systemd" != oeRuntimeTest.tc.d.getVar("VIRTUAL-RUNTIME_init_manager", True):
             skipModule("systemd is not the init manager for this image")


 class SystemdTest(oeRuntimeTest):

     def systemctl(self, action = '', target = '', expected = 0, verbose = False):
         command = 'systemctl %s %s' % (action, target)
         status, output = self.target.run(command)
         message = '\n'.join([command, output])
         if status != expected and verbose:
             message += self.target.run('systemctl status --full %s' % target)[1]
         self.assertEqual(status, expected, message)
         return output

     #TODO: use pyjournalctl instead
     def journalctl(self, args='',l_match_units=[]):
         """
         Request for the journalctl output to the current target system

         Arguments:
         -args, an optional argument pass through argument
         -l_match_units, an optional list of units to filter the output
         Returns:
         -string output of the journalctl command
         Raises:
         -AssertionError, on remote commands that fail
         -ValueError, on a journalctl call with filtering by l_match_units that
         returned no entries
         """
         query_units=""
         if len(l_match_units):
             query_units = ['_SYSTEMD_UNIT='+unit for unit in l_match_units]
             query_units = " ".join(query_units)
         command = 'journalctl %s %s' %(args, query_units)
         status, output = self.target.run(command)
         if status:
             raise AssertionError("Command '%s' returned non-zero exit \
                     code %d:\n%s" % (command, status, output))
         if len(output) == 1 and "-- No entries --" in output:
             raise ValueError("List of units to match: %s, returned no entries"
                     % l_match_units)
         return output

 class SystemdBasicTests(SystemdTest):

     @skipUnlessPassed('test_ssh')
     def test_systemd_basic(self):
         self.systemctl('--version')

     @testcase(551)
     @skipUnlessPassed('test_system_basic')
     def test_systemd_list(self):
         self.systemctl('list-unit-files')

     def settle(self):
         """
         Block until systemd has finished activating any units being activated,
         or until two minutes has elapsed.

         Returns a tuple, either (True, '') if all units have finished
         activating, or (False, message string) if there are still units
         activating (generally, failing units that restart).
         """
         import time
         endtime = time.time() + (60 * 2)
         while True:
             status, output = self.target.run('systemctl --state=activating')
             if "0 loaded units listed" in output:
                 return (True, '')
             if time.time() >= endtime:
                 return (False, output)
             time.sleep(10)

     @testcase(550)
     @skipUnlessPassed('test_systemd_basic')
     def test_systemd_failed(self):
         settled, output = self.settle()
         self.assertTrue(settled, msg="Timed out waiting for systemd to settle:\n" + output)

         output = self.systemctl('list-units', '--failed')
         match = re.search("0 loaded units listed", output)
         if not match:
             output += self.systemctl('status --full --failed')
         self.assertTrue(match, msg="Some systemd units failed:\n%s" % output)


 class SystemdServiceTests(SystemdTest):

     def check_for_avahi(self):
         if not self.hasPackage('avahi-daemon'):
             raise unittest.SkipTest("Testcase dependency not met: need avahi-daemon installed on target")

     @skipUnlessPassed('test_systemd_basic')
     def test_systemd_status(self):
         self.check_for_avahi()
         self.systemctl('status --full', 'avahi-daemon.service')

     @testcase(695)
     @skipUnlessPassed('test_systemd_status')
     def test_systemd_stop_start(self):
         self.check_for_avahi()
         self.systemctl('stop', 'avahi-daemon.service')
         self.systemctl('is-active', 'avahi-daemon.service', expected=3, verbose=True)
         self.systemctl('start','avahi-daemon.service')
         self.systemctl('is-active', 'avahi-daemon.service', verbose=True)

     @testcase(696)
     @skipUnlessPassed('test_systemd_basic')
     def test_systemd_disable_enable(self):
         self.check_for_avahi()
         self.systemctl('disable', 'avahi-daemon.service')
         self.systemctl('is-enabled', 'avahi-daemon.service', expected=1)
         self.systemctl('enable', 'avahi-daemon.service')
         self.systemctl('is-enabled', 'avahi-daemon.service')

 class SystemdJournalTests(SystemdTest):
     @skipUnlessPassed('test_ssh')
     def test_systemd_journal(self):
         (status, output) = self.target.run('journalctl')
         self.assertEqual(status, 0, output)

     @skipUnlessPassed('test_systemd_basic')
     def test_systemd_boot_time(self, systemd_TimeoutStartSec=90):
         """
         Get the target boot time from journalctl and log it

         Arguments:
         -systemd_TimeoutStartSec, an optional argument containing systemd's
         unit start timeout to compare against
         """

         # the expression chain that uniquely identifies the time boot message
         expr_items=["Startup finished","kernel", "userspace","\.$"]
         try:
             output = self.journalctl(args="-o cat --reverse")
         except AssertionError:
             self.fail("Error occurred while calling journalctl")
         if not len(output):
             self.fail("Error, unable to get startup time from systemd journal")

         # check for the regular expression items that match the startup time
         for line in output.split('\n'):
             check_match = "".join(re.findall(".*".join(expr_items), line))
             if check_match: break
         # put the startup time in the test log
         if check_match:
             print "%s" % check_match
         else:
             self.skipTest("Error at obtaining the boot time from journalctl")
         boot_time_sec = 0

         # get the numeric values from the string and convert them to seconds
         # same data will be placed in list and string for manipulation
         l_boot_time = check_match.split(" ")[-2:]
         s_boot_time = " ".join(l_boot_time)
         try:
             # Obtain the minutes it took to boot
             if l_boot_time[0].endswith('min') and l_boot_time[0][0].isdigit():
                 boot_time_min = s_boot_time.split("min")[0]
                 # convert to seconds and accumulate it
                 boot_time_sec += int(boot_time_min) * 60
             # Obtain the seconds it took to boot and accumulate
             boot_time_sec += float(l_boot_time[1].split("s")[0])
         except ValueError:
             self.skipTest("Error when parsing time from boot string")
         #Assert the target boot time against systemd's unit start timeout
         if boot_time_sec > systemd_TimeoutStartSec:
             print "Target boot time %s exceeds systemd's TimeoutStartSec %s"\
                     %(boot_time_sec, systemd_TimeoutStartSec)
	import unittest
	import re
	from oeqa.oetest import oeRuntimeTest, skipModule
	from oeqa.utils.decorators import *

	def setUpModule():
	if not oeRuntimeTest.hasFeature("systemd"):
	skipModule("target doesn't have systemd in DISTRO_FEATURES")
	if "systemd" != oeRuntimeTest.tc.d.getVar("VIRTUAL-RUNTIME_init_manager", True):
	skipModule("systemd is not the init manager for this image")


	class SystemdTest(oeRuntimeTest):

	def systemctl(self, action = '', target = '', expected = 0, verbose = False):
	command = 'systemctl %s %s' % (action, target)
	status, output = self.target.run(command)
	message = '\n'.join([command, output])
	if status != expected and verbose:
	message += self.target.run('systemctl status --full %s' % target)[1]
	self.assertEqual(status, expected, message)
	return output

	#TODO: use pyjournalctl instead
	def journalctl(self, args='',l_match_units=[]):
	"""
	Request for the journalctl output to the current target system

	Arguments:
	-args, an optional argument pass through argument
	-l_match_units, an optional list of units to filter the output
	Returns:
	-string output of the journalctl command
	Raises:
	-AssertionError, on remote commands that fail
	-ValueError, on a journalctl call with filtering by l_match_units that
	returned no entries
	"""
	query_units=""
	if len(l_match_units):
	query_units = ['_SYSTEMD_UNIT='+unit for unit in l_match_units]
	query_units = " ".join(query_units)
	command = 'journalctl %s %s' %(args, query_units)
	status, output = self.target.run(command)
	if status:
	raise AssertionError("Command '%s' returned non-zero exit \
	code %d:\n%s" % (command, status, output))
	if len(output) == 1 and "-- No entries --" in output:
	raise ValueError("List of units to match: %s, returned no entries"
	% l_match_units)
	return output

	class SystemdBasicTests(SystemdTest):

	@skipUnlessPassed('test_ssh')
	def test_systemd_basic(self):
	self.systemctl('--version')

	@testcase(551)
	@skipUnlessPassed('test_system_basic')
	def test_systemd_list(self):
	self.systemctl('list-unit-files')

	def settle(self):
	"""
	Block until systemd has finished activating any units being activated,
	or until two minutes has elapsed.

	Returns a tuple, either (True, '') if all units have finished
	activating, or (False, message string) if there are still units
	activating (generally, failing units that restart).
	"""
	import time
	endtime = time.time() + (60 * 2)
	while True:
	status, output = self.target.run('systemctl --state=activating')
	if "0 loaded units listed" in output:
	return (True, '')
	if time.time() >= endtime:
	return (False, output)
	time.sleep(10)

	@testcase(550)
	@skipUnlessPassed('test_systemd_basic')
	def test_systemd_failed(self):
	settled, output = self.settle()
	self.assertTrue(settled, msg="Timed out waiting for systemd to settle:\n" + output)

	output = self.systemctl('list-units', '--failed')
	match = re.search("0 loaded units listed", output)
	if not match:
	output += self.systemctl('status --full --failed')
	self.assertTrue(match, msg="Some systemd units failed:\n%s" % output)


	class SystemdServiceTests(SystemdTest):

	def check_for_avahi(self):
	if not self.hasPackage('avahi-daemon'):
	raise unittest.SkipTest("Testcase dependency not met: need avahi-daemon installed on target")

	@skipUnlessPassed('test_systemd_basic')
	def test_systemd_status(self):
	self.check_for_avahi()
	self.systemctl('status --full', 'avahi-daemon.service')

	@testcase(695)
	@skipUnlessPassed('test_systemd_status')
	def test_systemd_stop_start(self):
	self.check_for_avahi()
	self.systemctl('stop', 'avahi-daemon.service')
	self.systemctl('is-active', 'avahi-daemon.service', expected=3, verbose=True)
	self.systemctl('start','avahi-daemon.service')
	self.systemctl('is-active', 'avahi-daemon.service', verbose=True)

	@testcase(696)
	@skipUnlessPassed('test_systemd_basic')
	def test_systemd_disable_enable(self):
	self.check_for_avahi()
	self.systemctl('disable', 'avahi-daemon.service')
	self.systemctl('is-enabled', 'avahi-daemon.service', expected=1)
	self.systemctl('enable', 'avahi-daemon.service')
	self.systemctl('is-enabled', 'avahi-daemon.service')

	class SystemdJournalTests(SystemdTest):
	@skipUnlessPassed('test_ssh')
	def test_systemd_journal(self):
	(status, output) = self.target.run('journalctl')
	self.assertEqual(status, 0, output)

	@skipUnlessPassed('test_systemd_basic')
	def test_systemd_boot_time(self, systemd_TimeoutStartSec=90):
	"""
	Get the target boot time from journalctl and log it

	Arguments:
	-systemd_TimeoutStartSec, an optional argument containing systemd's
	unit start timeout to compare against
	"""

	# the expression chain that uniquely identifies the time boot message
	expr_items=["Startup finished","kernel", "userspace","\.$"]
	try:
	output = self.journalctl(args="-o cat --reverse")
	except AssertionError:
	self.fail("Error occurred while calling journalctl")
	if not len(output):
	self.fail("Error, unable to get startup time from systemd journal")

	# check for the regular expression items that match the startup time
	for line in output.split('\n'):
	check_match = "".join(re.findall(".*".join(expr_items), line))
	if check_match: break
	# put the startup time in the test log
	if check_match:
	print "%s" % check_match
	else:
	self.skipTest("Error at obtaining the boot time from journalctl")
	boot_time_sec = 0

	# get the numeric values from the string and convert them to seconds
	# same data will be placed in list and string for manipulation
	l_boot_time = check_match.split(" ")[-2:]
	s_boot_time = " ".join(l_boot_time)
	try:
	# Obtain the minutes it took to boot
	if l_boot_time[0].endswith('min') and l_boot_time[0][0].isdigit():
	boot_time_min = s_boot_time.split("min")[0]
	# convert to seconds and accumulate it
	boot_time_sec += int(boot_time_min) * 60
	# Obtain the seconds it took to boot and accumulate
	boot_time_sec += float(l_boot_time[1].split("s")[0])
	except ValueError:
	self.skipTest("Error when parsing time from boot string")
	#Assert the target boot time against systemd's unit start timeout
	if boot_time_sec > systemd_TimeoutStartSec:
	print "Target boot time %s exceeds systemd's TimeoutStartSec %s"\
	%(boot_time_sec, systemd_TimeoutStartSec)