diff --git a/cts/lab/CTStests.py b/cts/lab/CTStests.py
index 3840aca744..c548d3d103 100644
--- a/cts/lab/CTStests.py
+++ b/cts/lab/CTStests.py
@@ -1,2284 +1,2284 @@
""" Test-specific classes for Pacemaker's Cluster Test Suite (CTS)
"""
__copyright__ = "Copyright 2000-2023 the Pacemaker project contributors"
__license__ = "GNU General Public License version 2 or later (GPLv2+) WITHOUT ANY WARRANTY"
#
# SPECIAL NOTE:
#
# Tests may NOT implement any cluster-manager-specific code in them.
# EXTEND the ClusterManager object to provide the base capabilities
# the test needs if you need to do something that the current CM classes
# do not. Otherwise you screw up the whole point of the object structure
# in CTS.
#
# Thank you.
#
import os
import re
import time
import tempfile
from stat import *
from pacemaker import BuildOptions
from pacemaker._cts.CTS import NodeStatus
from pacemaker._cts.audits import AuditResource
from pacemaker._cts.tests.base import CTSTest, RemoteDriver, SimulStartLite, SimulStopLite, StartTest, StopTest
AllTestClasses = [ ]
class FlipTest(CTSTest):
'''If it's running, stop it. If it's stopped start it.
Overthrow the status quo...
'''
def __init__(self, cm):
CTSTest.__init__(self,cm)
self.name = "Flip"
self._start = StartTest(cm)
self._stop = StopTest(cm)
def __call__(self, node):
'''Perform the 'Flip' test. '''
self.incr("calls")
if self._cm.ShouldBeStatus[node] == "up":
self.incr("stopped")
ret = self._stop(node)
type = "up->down"
# Give the cluster time to recognize it's gone...
time.sleep(self._env["StableTime"])
elif self._cm.ShouldBeStatus[node] == "down":
self.incr("started")
ret = self._start(node)
type = "down->up"
else:
return self.skipped()
self.incr(type)
if ret:
return self.success()
else:
return self.failure("%s failure" % type)
# Register FlipTest as a good test to run
AllTestClasses.append(FlipTest)
class RestartTest(CTSTest):
'''Stop and restart a node'''
def __init__(self, cm):
CTSTest.__init__(self,cm)
self.name = "Restart"
self._start = StartTest(cm)
self._stop = StopTest(cm)
self.benchmark = True
def __call__(self, node):
'''Perform the 'restart' test. '''
self.incr("calls")
self.incr("node:" + node)
ret1 = 1
if self._cm.StataCM(node):
self.incr("WasStopped")
if not self._start(node):
return self.failure("start (setup) failure: "+node)
self.set_timer()
if not self._stop(node):
return self.failure("stop failure: "+node)
if not self._start(node):
return self.failure("start failure: "+node)
return self.success()
# Register RestartTest as a good test to run
AllTestClasses.append(RestartTest)
class StonithdTest(CTSTest):
def __init__(self, cm):
CTSTest.__init__(self, cm)
self.name = "Stonithd"
self._startall = SimulStartLite(cm)
self.benchmark = True
def __call__(self, node):
self.incr("calls")
if len(self._env["nodes"]) < 2:
return self.skipped()
ret = self._startall(None)
if not ret:
return self.failure("Setup failed")
is_dc = self._cm.is_node_dc(node)
watchpats = []
watchpats.append(self.templates["Pat:Fencing_ok"] % node)
watchpats.append(self.templates["Pat:NodeFenced"] % node)
if not self._env["at-boot"]:
self.debug("Expecting %s to stay down" % node)
self._cm.ShouldBeStatus[node] = "down"
else:
self.debug("Expecting %s to come up again %d" % (node, self._env["at-boot"]))
watchpats.append("%s.* S_STARTING -> S_PENDING" % node)
watchpats.append("%s.* S_PENDING -> S_NOT_DC" % node)
watch = self.create_watch(watchpats, 30 + self._env["DeadTime"] + self._env["StableTime"] + self._env["StartTime"])
watch.set_watch()
origin = self._env.random_gen.choice(self._env["nodes"])
(rc, _) = self._rsh(origin, "stonith_admin --reboot %s -VVVVVV" % node)
if rc == 124: # CRM_EX_TIMEOUT
# Look for the patterns, usually this means the required
# device was running on the node to be fenced - or that
# the required devices were in the process of being loaded
# and/or moved
#
# Effectively the node committed suicide so there will be
# no confirmation, but pacemaker should be watching and
# fence the node again
self._logger.log("Fencing command on %s to fence %s timed out" % (origin, node))
elif origin != node and rc != 0:
self.debug("Waiting for the cluster to recover")
self._cm.cluster_stable()
self.debug("Waiting for fenced node to come back up")
self._cm.ns.wait_for_all_nodes(self._env["nodes"], 600)
self._logger.log("Fencing command on %s failed to fence %s (rc=%d)" % (origin, node, rc))
elif origin == node and rc != 255:
# 255 == broken pipe, ie. the node was fenced as expected
self._logger.log("Locally originated fencing returned %d" % rc)
self.set_timer("fence")
matched = watch.look_for_all()
self.log_timer("fence")
self.set_timer("reform")
if watch.unmatched:
self._logger.log("Patterns not found: " + repr(watch.unmatched))
self.debug("Waiting for the cluster to recover")
self._cm.cluster_stable()
self.debug("Waiting for fenced node to come back up")
self._cm.ns.wait_for_all_nodes(self._env["nodes"], 600)
self.debug("Waiting for the cluster to re-stabilize with all nodes")
is_stable = self._cm.cluster_stable(self._env["StartTime"])
if not matched:
return self.failure("Didn't find all expected patterns")
elif not is_stable:
return self.failure("Cluster did not become stable")
self.log_timer("reform")
return self.success()
@property
def errors_to_ignore(self):
""" Return list of errors which should be ignored """
return [ self.templates["Pat:Fencing_start"] % ".*",
self.templates["Pat:Fencing_ok"] % ".*",
self.templates["Pat:Fencing_active"],
r"error.*: Operation 'reboot' targeting .* by .* for stonith_admin.*: Timer expired" ]
def is_applicable(self):
if not self.is_applicable_common():
return False
if "DoFencing" in list(self._env.keys()):
return self._env["DoFencing"]
return True
AllTestClasses.append(StonithdTest)
class StartOnebyOne(CTSTest):
'''Start all the nodes ~ one by one'''
def __init__(self, cm):
CTSTest.__init__(self,cm)
self.name = "StartOnebyOne"
self.stopall = SimulStopLite(cm)
self._start = StartTest(cm)
self.ns = NodeStatus(cm.Env)
def __call__(self, dummy):
'''Perform the 'StartOnebyOne' test. '''
self.incr("calls")
# We ignore the "node" parameter...
# Shut down all the nodes...
ret = self.stopall(None)
if not ret:
return self.failure("Test setup failed")
failed = []
self.set_timer()
for node in self._env["nodes"]:
if not self._start(node):
failed.append(node)
if len(failed) > 0:
return self.failure("Some node failed to start: " + repr(failed))
return self.success()
# Register StartOnebyOne as a good test to run
AllTestClasses.append(StartOnebyOne)
class SimulStart(CTSTest):
'''Start all the nodes ~ simultaneously'''
def __init__(self, cm):
CTSTest.__init__(self,cm)
self.name = "SimulStart"
self.stopall = SimulStopLite(cm)
self._startall = SimulStartLite(cm)
def __call__(self, dummy):
'''Perform the 'SimulStart' test. '''
self.incr("calls")
# We ignore the "node" parameter...
# Shut down all the nodes...
ret = self.stopall(None)
if not ret:
return self.failure("Setup failed")
if not self._startall(None):
return self.failure("Startall failed")
return self.success()
# Register SimulStart as a good test to run
AllTestClasses.append(SimulStart)
class SimulStop(CTSTest):
'''Stop all the nodes ~ simultaneously'''
def __init__(self, cm):
CTSTest.__init__(self,cm)
self.name = "SimulStop"
self._startall = SimulStartLite(cm)
self.stopall = SimulStopLite(cm)
def __call__(self, dummy):
'''Perform the 'SimulStop' test. '''
self.incr("calls")
# We ignore the "node" parameter...
# Start up all the nodes...
ret = self._startall(None)
if not ret:
return self.failure("Setup failed")
if not self.stopall(None):
return self.failure("Stopall failed")
return self.success()
# Register SimulStop as a good test to run
AllTestClasses.append(SimulStop)
class StopOnebyOne(CTSTest):
'''Stop all the nodes in order'''
def __init__(self, cm):
CTSTest.__init__(self,cm)
self.name = "StopOnebyOne"
self._startall = SimulStartLite(cm)
self._stop = StopTest(cm)
def __call__(self, dummy):
'''Perform the 'StopOnebyOne' test. '''
self.incr("calls")
# We ignore the "node" parameter...
# Start up all the nodes...
ret = self._startall(None)
if not ret:
return self.failure("Setup failed")
failed = []
self.set_timer()
for node in self._env["nodes"]:
if not self._stop(node):
failed.append(node)
if len(failed) > 0:
return self.failure("Some node failed to stop: " + repr(failed))
return self.success()
# Register StopOnebyOne as a good test to run
AllTestClasses.append(StopOnebyOne)
class RestartOnebyOne(CTSTest):
'''Restart all the nodes in order'''
def __init__(self, cm):
CTSTest.__init__(self,cm)
self.name = "RestartOnebyOne"
self._startall = SimulStartLite(cm)
def __call__(self, dummy):
'''Perform the 'RestartOnebyOne' test. '''
self.incr("calls")
# We ignore the "node" parameter...
# Start up all the nodes...
ret = self._startall(None)
if not ret:
return self.failure("Setup failed")
did_fail = []
self.set_timer()
self.restart = RestartTest(self._cm)
for node in self._env["nodes"]:
if not self.restart(node):
did_fail.append(node)
if did_fail:
return self.failure("Could not restart %d nodes: %s"
% (len(did_fail), repr(did_fail)))
return self.success()
# Register StopOnebyOne as a good test to run
AllTestClasses.append(RestartOnebyOne)
class PartialStart(CTSTest):
'''Start a node - but tell it to stop before it finishes starting up'''
def __init__(self, cm):
CTSTest.__init__(self,cm)
self.name = "PartialStart"
self._startall = SimulStartLite(cm)
self.stopall = SimulStopLite(cm)
self._stop = StopTest(cm)
def __call__(self, node):
'''Perform the 'PartialStart' test. '''
self.incr("calls")
ret = self.stopall(None)
if not ret:
return self.failure("Setup failed")
watchpats = []
watchpats.append("pacemaker-controld.*Connecting to .* cluster infrastructure")
watch = self.create_watch(watchpats, self._env["DeadTime"]+10)
watch.set_watch()
self._cm.StartaCMnoBlock(node)
ret = watch.look_for_all()
if not ret:
self._logger.log("Patterns not found: " + repr(watch.unmatched))
return self.failure("Setup of %s failed" % node)
ret = self._stop(node)
if not ret:
return self.failure("%s did not stop in time" % node)
return self.success()
@property
def errors_to_ignore(self):
""" Return list of errors which should be ignored """
# We might do some fencing in the 2-node case if we make it up far enough
return [ r"Executing reboot fencing operation",
r"Requesting fencing \([^)]+\) targeting node " ]
# Register StopOnebyOne as a good test to run
AllTestClasses.append(PartialStart)
class StandbyTest(CTSTest):
def __init__(self, cm):
CTSTest.__init__(self,cm)
self.name = "Standby"
self.benchmark = True
self._start = StartTest(cm)
self._startall = SimulStartLite(cm)
# make sure the node is active
# set the node to standby mode
# check resources, none resource should be running on the node
# set the node to active mode
# check resouces, resources should have been migrated back (SHOULD THEY?)
def __call__(self, node):
self.incr("calls")
ret = self._startall(None)
if not ret:
return self.failure("Start all nodes failed")
self.debug("Make sure node %s is active" % node)
if self._cm.StandbyStatus(node) != "off":
if not self._cm.SetStandbyMode(node, "off"):
return self.failure("can't set node %s to active mode" % node)
self._cm.cluster_stable()
status = self._cm.StandbyStatus(node)
if status != "off":
return self.failure("standby status of %s is [%s] but we expect [off]" % (node, status))
self.debug("Getting resources running on node %s" % node)
rsc_on_node = self._cm.active_resources(node)
watchpats = []
watchpats.append(r"State transition .* -> S_POLICY_ENGINE")
watch = self.create_watch(watchpats, self._env["DeadTime"]+10)
watch.set_watch()
self.debug("Setting node %s to standby mode" % node)
if not self._cm.SetStandbyMode(node, "on"):
return self.failure("can't set node %s to standby mode" % node)
self.set_timer("on")
ret = watch.look_for_all()
if not ret:
self._logger.log("Patterns not found: " + repr(watch.unmatched))
self._cm.SetStandbyMode(node, "off")
return self.failure("cluster didn't react to standby change on %s" % node)
self._cm.cluster_stable()
status = self._cm.StandbyStatus(node)
if status != "on":
return self.failure("standby status of %s is [%s] but we expect [on]" % (node, status))
self.log_timer("on")
self.debug("Checking resources")
bad_run = self._cm.active_resources(node)
if len(bad_run) > 0:
rc = self.failure("%s set to standby, %s is still running on it" % (node, repr(bad_run)))
self.debug("Setting node %s to active mode" % node)
self._cm.SetStandbyMode(node, "off")
return rc
self.debug("Setting node %s to active mode" % node)
if not self._cm.SetStandbyMode(node, "off"):
return self.failure("can't set node %s to active mode" % node)
self.set_timer("off")
self._cm.cluster_stable()
status = self._cm.StandbyStatus(node)
if status != "off":
return self.failure("standby status of %s is [%s] but we expect [off]" % (node, status))
self.log_timer("off")
return self.success()
AllTestClasses.append(StandbyTest)
class ValgrindTest(CTSTest):
'''Check for memory leaks'''
def __init__(self, cm):
CTSTest.__init__(self,cm)
self.name = "Valgrind"
self.stopall = SimulStopLite(cm)
self._startall = SimulStartLite(cm)
self.is_valgrind = True
self.is_loop = True
def setup(self, node):
self.incr("calls")
ret = self.stopall(None)
if not ret:
return self.failure("Stop all nodes failed")
# @TODO Edit /etc/sysconfig/pacemaker on all nodes to enable valgrind,
# and clear any valgrind logs from previous runs. For now, we rely on
# the user to do this manually.
ret = self._startall(None)
if not ret:
return self.failure("Start all nodes failed")
return self.success()
def teardown(self, node):
# Return all nodes to normal
# @TODO Edit /etc/sysconfig/pacemaker on all nodes to disable valgrind
ret = self.stopall(None)
if not ret:
return self.failure("Stop all nodes failed")
return self.success()
def find_leaks(self):
# Check for leaks
# (no longer used but kept in case feature is restored)
leaked = []
self._stop = StopTest(self._cm)
for node in self._env["nodes"]:
rc = self._stop(node)
if not rc:
self.failure("Couldn't shut down %s" % node)
(rc, _) = self._rsh(node, "grep -e indirectly.*lost:.*[1-9] -e definitely.*lost:.*[1-9] -e (ERROR|error).*SUMMARY:.*[1-9].*errors %s" % self._logger.logPat)
if rc != 1:
leaked.append(node)
self.failure("Valgrind errors detected on %s" % node)
(_, output) = self._rsh(node, "grep -e lost: -e SUMMARY: %s" % self._logger.logPat, verbose=1)
for line in output:
self._logger.log(line)
(_, output) = self._rsh(node, "cat %s" % self._logger.logPat, verbose=1)
for line in output:
self.debug(line)
self._rsh(node, "rm -f %s" % self._logger.logPat, verbose=1)
return leaked
def __call__(self, node):
#leaked = self.find_leaks()
#if len(leaked) > 0:
# return self.failure("Nodes %s leaked" % repr(leaked))
return self.success()
@property
def errors_to_ignore(self):
""" Return list of errors which should be ignored """
return [ r"pacemaker-based.*: \*\*\*\*\*\*\*\*\*\*\*\*\*",
r"pacemaker-based.*: .* avoid confusing Valgrind",
r"HA_VALGRIND_ENABLED" ]
class StandbyLoopTest(ValgrindTest):
'''Check for memory leaks by putting a node in and out of standby for an hour'''
# @TODO This is not a useful test for memory leaks
def __init__(self, cm):
ValgrindTest.__init__(self,cm)
self.name = "StandbyLoop"
def __call__(self, node):
lpc = 0
delay = 2
failed = 0
done = time.time() + self._env["loop-minutes"] * 60
while time.time() <= done and not failed:
lpc = lpc + 1
time.sleep(delay)
if not self._cm.SetStandbyMode(node, "on"):
self.failure("can't set node %s to standby mode" % node)
failed = lpc
time.sleep(delay)
if not self._cm.SetStandbyMode(node, "off"):
self.failure("can't set node %s to active mode" % node)
failed = lpc
leaked = self.find_leaks()
if failed:
return self.failure("Iteration %d failed" % failed)
elif len(leaked) > 0:
return self.failure("Nodes %s leaked" % repr(leaked))
return self.success()
#AllTestClasses.append(StandbyLoopTest)
class BandwidthTest(CTSTest):
# Tests should not be cluster-manager-specific
# If you need to find out cluster manager configuration to do this, then
# it should be added to the generic cluster manager API.
'''Test the bandwidth which the cluster uses'''
def __init__(self, cm):
CTSTest.__init__(self, cm)
self.name = "Bandwidth"
self._start = StartTest(cm)
self.__setitem__("min",0)
self.__setitem__("max",0)
self.__setitem__("totalbandwidth",0)
(handle, self.tempfile) = tempfile.mkstemp(".cts")
os.close(handle)
self._startall = SimulStartLite(cm)
def __call__(self, node):
'''Perform the Bandwidth test'''
self.incr("calls")
if self._cm.upcount() < 1:
return self.skipped()
Path = self._cm.InternalCommConfig()
if "ip" not in Path["mediatype"]:
return self.skipped()
port = Path["port"][0]
port = int(port)
ret = self._startall(None)
if not ret:
return self.failure("Test setup failed")
time.sleep(5) # We get extra messages right after startup.
fstmpfile = "/var/run/band_estimate"
dumpcmd = "tcpdump -p -n -c 102 -i any udp port %d > %s 2>&1" \
% (port, fstmpfile)
(rc, _) = self._rsh(node, dumpcmd)
if rc == 0:
farfile = "root@%s:%s" % (node, fstmpfile)
self._rsh.copy(farfile, self.tempfile)
Bandwidth = self.countbandwidth(self.tempfile)
if not Bandwidth:
self._logger.log("Could not compute bandwidth.")
return self.success()
intband = int(Bandwidth + 0.5)
self._logger.log("...bandwidth: %d bits/sec" % intband)
self.Stats["totalbandwidth"] = self.Stats["totalbandwidth"] + Bandwidth
if self.Stats["min"] == 0:
self.Stats["min"] = Bandwidth
if Bandwidth > self.Stats["max"]:
self.Stats["max"] = Bandwidth
if Bandwidth < self.Stats["min"]:
self.Stats["min"] = Bandwidth
self._rsh(node, "rm -f %s" % fstmpfile)
os.unlink(self.tempfile)
return self.success()
else:
return self.failure("no response from tcpdump command [%d]!" % rc)
def countbandwidth(self, file):
fp = open(file, "r")
fp.seek(0)
count = 0
sum = 0
while 1:
line = fp.readline()
if not line:
return None
if re.search("udp",line) or re.search("UDP,", line):
count = count + 1
linesplit = line.split(" ")
for j in range(len(linesplit)-1):
if linesplit[j] == "udp": break
if linesplit[j] == "length:": break
try:
sum = sum + int(linesplit[j+1])
except ValueError:
self._logger.log("Invalid tcpdump line: %s" % line)
return None
T1 = linesplit[0]
timesplit = T1.split(":")
time2split = timesplit[2].split(".")
time1 = (int(timesplit[0])*60+int(timesplit[1]))*60+int(time2split[0])+int(time2split[1])*0.000001
break
while count < 100:
line = fp.readline()
if not line:
return None
if re.search("udp",line) or re.search("UDP,", line):
count = count+1
linessplit = line.split(" ")
for j in range(len(linessplit)-1):
if linessplit[j] == "udp": break
if linessplit[j] == "length:": break
try:
sum = int(linessplit[j+1]) + sum
except ValueError:
self._logger.log("Invalid tcpdump line: %s" % line)
return None
T2 = linessplit[0]
timesplit = T2.split(":")
time2split = timesplit[2].split(".")
time2 = (int(timesplit[0])*60+int(timesplit[1]))*60+int(time2split[0])+int(time2split[1])*0.000001
time = time2-time1
if (time <= 0):
return 0
return int((sum*8)/time)
def is_applicable(self):
'''BandwidthTest never applicable'''
return False
AllTestClasses.append(BandwidthTest)
###################################################################
class MaintenanceMode(CTSTest):
###################################################################
def __init__(self, cm):
CTSTest.__init__(self,cm)
self.name = "MaintenanceMode"
self._start = StartTest(cm)
self._startall = SimulStartLite(cm)
self.max = 30
self.benchmark = True
self.action = "asyncmon"
self.interval = 0
self.rid = "maintenanceDummy"
def toggleMaintenanceMode(self, node, action):
pats = []
pats.append(self.templates["Pat:DC_IDLE"])
# fail the resource right after turning Maintenance mode on
# verify it is not recovered until maintenance mode is turned off
if action == "On":
pats.append(self.templates["Pat:RscOpFail"] % (self.action, self.rid))
else:
pats.append(self.templates["Pat:RscOpOK"] % ("stop", self.rid))
pats.append(self.templates["Pat:RscOpOK"] % ("start", self.rid))
watch = self.create_watch(pats, 60)
watch.set_watch()
self.debug("Turning maintenance mode %s" % action)
self._rsh(node, self.templates["MaintenanceMode%s" % (action)])
if (action == "On"):
self._rsh(node, "crm_resource -V -F -r %s -H %s &>/dev/null" % (self.rid, node))
self.set_timer("recover%s" % (action))
watch.look_for_all()
self.log_timer("recover%s" % (action))
if watch.unmatched:
self.debug("Failed to find patterns when turning maintenance mode %s" % action)
return repr(watch.unmatched)
return ""
def insertMaintenanceDummy(self, node):
pats = []
pats.append(("%s.*" % node) + (self.templates["Pat:RscOpOK"] % ("start", self.rid)))
watch = self.create_watch(pats, 60)
watch.set_watch()
self._cm.AddDummyRsc(node, self.rid)
self.set_timer("addDummy")
watch.look_for_all()
self.log_timer("addDummy")
if watch.unmatched:
self.debug("Failed to find patterns when adding maintenance dummy resource")
return repr(watch.unmatched)
return ""
def removeMaintenanceDummy(self, node):
pats = []
pats.append(self.templates["Pat:RscOpOK"] % ("stop", self.rid))
watch = self.create_watch(pats, 60)
watch.set_watch()
self._cm.RemoveDummyRsc(node, self.rid)
self.set_timer("removeDummy")
watch.look_for_all()
self.log_timer("removeDummy")
if watch.unmatched:
self.debug("Failed to find patterns when removing maintenance dummy resource")
return repr(watch.unmatched)
return ""
def managedRscList(self, node):
rscList = []
(_, lines) = self._rsh(node, "crm_resource -c", verbose=1)
for line in lines:
if re.search("^Resource", line):
tmp = AuditResource(self._cm, line)
if tmp.managed:
rscList.append(tmp.id)
return rscList
def verifyResources(self, node, rscList, managed):
managedList = list(rscList)
managed_str = "managed"
if not managed:
managed_str = "unmanaged"
(_, lines) = self._rsh(node, "crm_resource -c", verbose=1)
for line in lines:
if re.search("^Resource", line):
tmp = AuditResource(self._cm, line)
if managed and not tmp.managed:
continue
elif not managed and tmp.managed:
continue
elif managedList.count(tmp.id):
managedList.remove(tmp.id)
if len(managedList) == 0:
self.debug("Found all %s resources on %s" % (managed_str, node))
return True
self._logger.log("Could not find all %s resources on %s. %s" % (managed_str, node, managedList))
return False
def __call__(self, node):
'''Perform the 'MaintenanceMode' test. '''
self.incr("calls")
verify_managed = False
verify_unmanaged = False
failPat = ""
ret = self._startall(None)
if not ret:
return self.failure("Setup failed")
# get a list of all the managed resources. We use this list
# after enabling maintenance mode to verify all managed resources
# become un-managed. After maintenance mode is turned off, we use
# this list to verify all the resources become managed again.
managedResources = self.managedRscList(node)
if len(managedResources) == 0:
self._logger.log("No managed resources on %s" % node)
return self.skipped()
# insert a fake resource we can fail during maintenance mode
# so we can verify recovery does not take place until after maintenance
# mode is disabled.
failPat = failPat + self.insertMaintenanceDummy(node)
# toggle maintenance mode ON, then fail dummy resource.
failPat = failPat + self.toggleMaintenanceMode(node, "On")
# verify all the resources are now unmanaged
if self.verifyResources(node, managedResources, False):
verify_unmanaged = True
# Toggle maintenance mode OFF, verify dummy is recovered.
failPat = failPat + self.toggleMaintenanceMode(node, "Off")
# verify all the resources are now managed again
if self.verifyResources(node, managedResources, True):
verify_managed = True
# Remove our maintenance dummy resource.
failPat = failPat + self.removeMaintenanceDummy(node)
self._cm.cluster_stable()
if failPat != "":
return self.failure("Unmatched patterns: %s" % (failPat))
elif verify_unmanaged is False:
return self.failure("Failed to verify resources became unmanaged during maintenance mode")
elif verify_managed is False:
return self.failure("Failed to verify resources switched back to managed after disabling maintenance mode")
return self.success()
@property
def errors_to_ignore(self):
""" Return list of errors which should be ignored """
return [ r"Updating failcount for %s" % self.rid,
r"schedulerd.*: Recover\s+%s\s+\(.*\)" % self.rid,
r"Unknown operation: fail",
self.templates["Pat:RscOpOK"] % (self.action, self.rid),
r"(ERROR|error).*: Action %s_%s_%d .* initiated outside of a transition" % (self.rid, self.action, self.interval) ]
AllTestClasses.append(MaintenanceMode)
class ResourceRecover(CTSTest):
def __init__(self, cm):
CTSTest.__init__(self,cm)
self.name = "ResourceRecover"
self._start = StartTest(cm)
self._startall = SimulStartLite(cm)
self.max = 30
self.rid = None
self.rid_alt = None
self.benchmark = True
# these are the values used for the new LRM API call
self.action = "asyncmon"
self.interval = 0
def __call__(self, node):
'''Perform the 'ResourceRecover' test. '''
self.incr("calls")
ret = self._startall(None)
if not ret:
return self.failure("Setup failed")
# List all resources active on the node (skip test if none)
resourcelist = self._cm.active_resources(node)
if len(resourcelist) == 0:
self._logger.log("No active resources on %s" % node)
return self.skipped()
# Choose one resource at random
rsc = self.choose_resource(node, resourcelist)
if rsc is None:
return self.failure("Could not get details of resource '%s'" % self.rid)
if rsc.id == rsc.clone_id:
self.debug("Failing " + rsc.id)
else:
self.debug("Failing " + rsc.id + " (also known as " + rsc.clone_id + ")")
# Log patterns to watch for (failure, plus restart if managed)
pats = []
pats.append(self.templates["Pat:CloneOpFail"] % (self.action, rsc.id, rsc.clone_id))
if rsc.managed:
pats.append(self.templates["Pat:RscOpOK"] % ("stop", self.rid))
if rsc.unique:
pats.append(self.templates["Pat:RscOpOK"] % ("start", self.rid))
else:
# Anonymous clones may get restarted with a different clone number
pats.append(self.templates["Pat:RscOpOK"] % ("start", ".*"))
# Fail resource. (Ideally, we'd fail it twice, to ensure the fail count
# is incrementing properly, but it might restart on a different node.
# We'd have to temporarily ban it from all other nodes and ensure the
# migration-threshold hasn't been reached.)
if self.fail_resource(rsc, node, pats) is None:
return None # self.failure() already called
return self.success()
def choose_resource(self, node, resourcelist):
""" Choose a random resource to target """
self.rid = self._env.random_gen.choice(resourcelist)
self.rid_alt = self.rid
(_, lines) = self._rsh(node, "crm_resource -c", verbose=1)
for line in lines:
if line.startswith("Resource: "):
rsc = AuditResource(self._cm, line)
if rsc.id == self.rid:
# Handle anonymous clones that get renamed
self.rid = rsc.clone_id
return rsc
return None
def get_failcount(self, node):
""" Check the fail count of targeted resource on given node """
(rc, lines) = self._rsh(node,
"crm_failcount --quiet --query --resource %s "
"--operation %s --interval %d "
"--node %s" % (self.rid, self.action,
self.interval, node), verbose=1)
if rc != 0 or len(lines) != 1:
self._logger.log("crm_failcount on %s failed (%d): %s" % (node, rc,
" // ".join(map(str.strip, lines))))
return -1
try:
failcount = int(lines[0])
except (IndexError, ValueError):
self._logger.log("crm_failcount output on %s unparseable: %s" % (node,
' '.join(lines)))
return -1
return failcount
def fail_resource(self, rsc, node, pats):
""" Fail the targeted resource, and verify as expected """
orig_failcount = self.get_failcount(node)
watch = self.create_watch(pats, 60)
watch.set_watch()
self._rsh(node, "crm_resource -V -F -r %s -H %s &>/dev/null" % (self.rid, node))
self.set_timer("recover")
watch.look_for_all()
self.log_timer("recover")
self._cm.cluster_stable()
recovered = self._cm.ResourceLocation(self.rid)
if watch.unmatched:
return self.failure("Patterns not found: %s" % repr(watch.unmatched))
elif rsc.unique and len(recovered) > 1:
return self.failure("%s is now active on more than one node: %s"%(self.rid, repr(recovered)))
elif len(recovered) > 0:
self.debug("%s is running on: %s" % (self.rid, repr(recovered)))
elif rsc.managed:
return self.failure("%s was not recovered and is inactive" % self.rid)
new_failcount = self.get_failcount(node)
if new_failcount != (orig_failcount + 1):
return self.failure("%s fail count is %d not %d" % (self.rid,
new_failcount, orig_failcount + 1))
return 0 # Anything but None is success
@property
def errors_to_ignore(self):
""" Return list of errors which should be ignored """
return [ r"Updating failcount for %s" % self.rid,
r"schedulerd.*: Recover\s+(%s|%s)\s+\(.*\)" % (self.rid, self.rid_alt),
r"Unknown operation: fail",
self.templates["Pat:RscOpOK"] % (self.action, self.rid),
r"(ERROR|error).*: Action %s_%s_%d .* initiated outside of a transition" % (self.rid, self.action, self.interval) ]
AllTestClasses.append(ResourceRecover)
class ComponentFail(CTSTest):
def __init__(self, cm):
CTSTest.__init__(self,cm)
self.name = "ComponentFail"
self._startall = SimulStartLite(cm)
self.complist = cm.Components()
self.patterns = []
self.okerrpatterns = []
self.is_unsafe = True
def __call__(self, node):
'''Perform the 'ComponentFail' test. '''
self.incr("calls")
self.patterns = []
self.okerrpatterns = []
# start all nodes
ret = self._startall(None)
if not ret:
return self.failure("Setup failed")
if not self._cm.cluster_stable(self._env["StableTime"]):
return self.failure("Setup failed - unstable")
node_is_dc = self._cm.is_node_dc(node, None)
# select a component to kill
chosen = self._env.random_gen.choice(self.complist)
while chosen.dc_only and node_is_dc == 0:
chosen = self._env.random_gen.choice(self.complist)
self.debug("...component %s (dc=%d)" % (chosen.name, node_is_dc))
self.incr(chosen.name)
if chosen.name != "corosync":
self.patterns.append(self.templates["Pat:ChildKilled"] %(node, chosen.name))
self.patterns.append(self.templates["Pat:ChildRespawn"] %(node, chosen.name))
self.patterns.extend(chosen.pats)
if node_is_dc:
self.patterns.extend(chosen.dc_pats)
# @TODO this should be a flag in the Component
if chosen.name in [ "corosync", "pacemaker-based", "pacemaker-fenced" ]:
# Ignore actions for fence devices if fencer will respawn
# (their registration will be lost, and probes will fail)
self.okerrpatterns = [ self.templates["Pat:Fencing_active"] ]
(_, lines) = self._rsh(node, "crm_resource -c", verbose=1)
for line in lines:
if re.search("^Resource", line):
r = AuditResource(self._cm, line)
if r.rclass == "stonith":
self.okerrpatterns.append(self.templates["Pat:Fencing_recover"] % r.id)
self.okerrpatterns.append(self.templates["Pat:Fencing_probe"] % r.id)
# supply a copy so self.patterns doesn't end up empty
tmpPats = []
tmpPats.extend(self.patterns)
self.patterns.extend(chosen.badnews_ignore)
# Look for STONITH ops, depending on Env["at-boot"] we might need to change the nodes status
stonithPats = []
stonithPats.append(self.templates["Pat:Fencing_ok"] % node)
stonith = self.create_watch(stonithPats, 0)
stonith.set_watch()
# set the watch for stable
watch = self.create_watch(
tmpPats, self._env["DeadTime"] + self._env["StableTime"] + self._env["StartTime"])
watch.set_watch()
# kill the component
chosen.kill(node)
self.debug("Waiting for the cluster to recover")
self._cm.cluster_stable()
self.debug("Waiting for any fenced node to come back up")
self._cm.ns.wait_for_all_nodes(self._env["nodes"], 600)
self.debug("Waiting for the cluster to re-stabilize with all nodes")
self._cm.cluster_stable(self._env["StartTime"])
self.debug("Checking if %s was shot" % node)
shot = stonith.look(60)
if shot:
self.debug("Found: " + repr(shot))
self.okerrpatterns.append(self.templates["Pat:Fencing_start"] % node)
if not self._env["at-boot"]:
self._cm.ShouldBeStatus[node] = "down"
# If fencing occurred, chances are many (if not all) the expected logs
# will not be sent - or will be lost when the node reboots
return self.success()
# check for logs indicating a graceful recovery
matched = watch.look_for_all(allow_multiple_matches=True)
if watch.unmatched:
self._logger.log("Patterns not found: " + repr(watch.unmatched))
self.debug("Waiting for the cluster to re-stabilize with all nodes")
is_stable = self._cm.cluster_stable(self._env["StartTime"])
if not matched:
return self.failure("Didn't find all expected %s patterns" % chosen.name)
elif not is_stable:
return self.failure("Cluster did not become stable after killing %s" % chosen.name)
return self.success()
@property
def errors_to_ignore(self):
""" Return list of errors which should be ignored """
# Note that okerrpatterns refers to the last time we ran this test
# The good news is that this works fine for us...
self.okerrpatterns.extend(self.patterns)
return self.okerrpatterns
AllTestClasses.append(ComponentFail)
class SplitBrainTest(CTSTest):
'''It is used to test split-brain. when the path between the two nodes break
check the two nodes both take over the resource'''
def __init__(self,cm):
CTSTest.__init__(self,cm)
self.name = "SplitBrain"
self._start = StartTest(cm)
self._startall = SimulStartLite(cm)
self.is_experimental = True
def isolate_partition(self, partition):
other_nodes = []
other_nodes.extend(self._env["nodes"])
for node in partition:
try:
other_nodes.remove(node)
except ValueError:
self._logger.log("Node "+node+" not in " + repr(self._env["nodes"]) + " from " +repr(partition))
if len(other_nodes) == 0:
return 1
self.debug("Creating partition: " + repr(partition))
self.debug("Everyone else: " + repr(other_nodes))
for node in partition:
if not self._cm.isolate_node(node, other_nodes):
self._logger.log("Could not isolate %s" % node)
return 0
return 1
def heal_partition(self, partition):
other_nodes = []
other_nodes.extend(self._env["nodes"])
for node in partition:
try:
other_nodes.remove(node)
except ValueError:
self._logger.log("Node "+node+" not in " + repr(self._env["nodes"]))
if len(other_nodes) == 0:
return 1
self.debug("Healing partition: " + repr(partition))
self.debug("Everyone else: " + repr(other_nodes))
for node in partition:
self._cm.unisolate_node(node, other_nodes)
def __call__(self, node):
'''Perform split-brain test'''
self.incr("calls")
self.passed = True
partitions = {}
ret = self._startall(None)
if not ret:
return self.failure("Setup failed")
while 1:
# Retry until we get multiple partitions
partitions = {}
p_max = len(self._env["nodes"])
for node in self._env["nodes"]:
p = self._env.random_gen.randint(1, p_max)
if not p in partitions:
partitions[p] = []
partitions[p].append(node)
p_max = len(list(partitions.keys()))
if p_max > 1:
break
# else, try again
self.debug("Created %d partitions" % p_max)
for key in list(partitions.keys()):
self.debug("Partition["+str(key)+"]:\t"+repr(partitions[key]))
# Disabling STONITH to reduce test complexity for now
self._rsh(node, "crm_attribute -V -n stonith-enabled -v false")
for key in list(partitions.keys()):
self.isolate_partition(partitions[key])
count = 30
while count > 0:
if len(self._cm.find_partitions()) != p_max:
time.sleep(10)
else:
break
else:
self.failure("Expected partitions were not created")
# Target number of partitions formed - wait for stability
if not self._cm.cluster_stable():
self.failure("Partitioned cluster not stable")
# Now audit the cluster state
self._cm.partitions_expected = p_max
if not self.audit():
self.failure("Audits failed")
self._cm.partitions_expected = 1
# And heal them again
for key in list(partitions.keys()):
self.heal_partition(partitions[key])
# Wait for a single partition to form
count = 30
while count > 0:
if len(self._cm.find_partitions()) != 1:
time.sleep(10)
count -= 1
else:
break
else:
self.failure("Cluster did not reform")
# Wait for it to have the right number of members
count = 30
while count > 0:
members = []
partitions = self._cm.find_partitions()
if len(partitions) > 0:
members = partitions[0].split()
if len(members) != len(self._env["nodes"]):
time.sleep(10)
count -= 1
else:
break
else:
self.failure("Cluster did not completely reform")
# Wait up to 20 minutes - the delay is more preferable than
# trying to continue with in a messed up state
if not self._cm.cluster_stable(1200):
self.failure("Reformed cluster not stable")
if self._env["continue"]:
answer = "Y"
else:
try:
answer = input('Continue? [nY]')
except EOFError as e:
answer = "n"
if answer and answer == "n":
raise ValueError("Reformed cluster not stable")
# Turn fencing back on
if self._env["DoFencing"]:
self._rsh(node, "crm_attribute -V -D -n stonith-enabled")
self._cm.cluster_stable()
if self.passed:
return self.success()
return self.failure("See previous errors")
@property
def errors_to_ignore(self):
""" Return list of errors which should be ignored """
return [ r"Another DC detected:",
r"(ERROR|error).*: .*Application of an update diff failed",
r"pacemaker-controld.*:.*not in our membership list",
r"CRIT:.*node.*returning after partition" ]
def is_applicable(self):
if not self.is_applicable_common():
return False
return len(self._env["nodes"]) > 2
AllTestClasses.append(SplitBrainTest)
class Reattach(CTSTest):
def __init__(self, cm):
CTSTest.__init__(self,cm)
self.name = "Reattach"
self._startall = SimulStartLite(cm)
self.restart1 = RestartTest(cm)
self.stopall = SimulStopLite(cm)
self.is_unsafe = False
def _is_managed(self, node):
(_, is_managed) = self._rsh(node, "crm_attribute -t rsc_defaults -n is-managed -q -G -d true", verbose=1)
is_managed = is_managed[0].strip()
return is_managed == "true"
def _set_unmanaged(self, node):
self.debug("Disable resource management")
self._rsh(node, "crm_attribute -t rsc_defaults -n is-managed -v false")
def _set_managed(self, node):
self.debug("Re-enable resource management")
self._rsh(node, "crm_attribute -t rsc_defaults -n is-managed -D")
def setup(self, node):
attempt = 0
if not self._startall(None):
return None
# Make sure we are really _really_ stable and that all
# resources, including those that depend on transient node
# attributes, are started
while not self._cm.cluster_stable(double_check=True):
if attempt < 5:
attempt += 1
self.debug("Not stable yet, re-testing")
else:
self._logger.log("Cluster is not stable")
return None
return 1
def teardown(self, node):
# Make sure 'node' is up
start = StartTest(self._cm)
start(node)
if not self._is_managed(node):
self._logger.log("Attempting to re-enable resource management on %s" % node)
self._set_managed(node)
self._cm.cluster_stable()
if not self._is_managed(node):
self._logger.log("Could not re-enable resource management")
return 0
return 1
def can_run_now(self, node):
""" Return True if we can meaningfully run right now"""
- if self.find_ocfs2_resources(node):
+ if self._find_ocfs2_resources(node):
self._logger.log("Detach/Reattach scenarios are not possible with OCFS2 services present")
return False
return True
def __call__(self, node):
self.incr("calls")
pats = []
# Conveniently, the scheduler will display this message when disabling
# management, even if fencing is not enabled, so we can rely on it.
managed = self.create_watch(["No fencing will be done"], 60)
managed.set_watch()
self._set_unmanaged(node)
if not managed.look_for_all():
self._logger.log("Patterns not found: " + repr(managed.unmatched))
return self.failure("Resource management not disabled")
pats = []
pats.append(self.templates["Pat:RscOpOK"] % ("start", ".*"))
pats.append(self.templates["Pat:RscOpOK"] % ("stop", ".*"))
pats.append(self.templates["Pat:RscOpOK"] % ("promote", ".*"))
pats.append(self.templates["Pat:RscOpOK"] % ("demote", ".*"))
pats.append(self.templates["Pat:RscOpOK"] % ("migrate", ".*"))
watch = self.create_watch(pats, 60, "ShutdownActivity")
watch.set_watch()
self.debug("Shutting down the cluster")
ret = self.stopall(None)
if not ret:
self._set_managed(node)
return self.failure("Couldn't shut down the cluster")
self.debug("Bringing the cluster back up")
ret = self._startall(None)
time.sleep(5) # allow ping to update the CIB
if not ret:
self._set_managed(node)
return self.failure("Couldn't restart the cluster")
if self.local_badnews("ResourceActivity:", watch):
self._set_managed(node)
return self.failure("Resources stopped or started during cluster restart")
watch = self.create_watch(pats, 60, "StartupActivity")
watch.set_watch()
# Re-enable resource management (and verify it happened).
self._set_managed(node)
self._cm.cluster_stable()
if not self._is_managed(node):
return self.failure("Could not re-enable resource management")
# Ignore actions for STONITH resources
ignore = []
(_, lines) = self._rsh(node, "crm_resource -c", verbose=1)
for line in lines:
if re.search("^Resource", line):
r = AuditResource(self._cm, line)
if r.rclass == "stonith":
self.debug("Ignoring start actions for %s" % r.id)
ignore.append(self.templates["Pat:RscOpOK"] % ("start", r.id))
if self.local_badnews("ResourceActivity:", watch, ignore):
return self.failure("Resources stopped or started after resource management was re-enabled")
return ret
@property
def errors_to_ignore(self):
""" Return list of errors which should be ignored """
return [ r"resource( was|s were) active at shutdown" ]
def is_applicable(self):
return True
AllTestClasses.append(Reattach)
class SpecialTest1(CTSTest):
'''Set up a custom test to cause quorum failure issues for Andrew'''
def __init__(self, cm):
CTSTest.__init__(self,cm)
self.name = "SpecialTest1"
self._startall = SimulStartLite(cm)
self.restart1 = RestartTest(cm)
self.stopall = SimulStopLite(cm)
def __call__(self, node):
'''Perform the 'SpecialTest1' test for Andrew. '''
self.incr("calls")
# Shut down all the nodes...
ret = self.stopall(None)
if not ret:
return self.failure("Could not stop all nodes")
# Test config recovery when the other nodes come up
self._rsh(node, "rm -f " + BuildOptions.CIB_DIR + "/cib*")
# Start the selected node
ret = self.restart1(node)
if not ret:
return self.failure("Could not start "+node)
# Start all remaining nodes
ret = self._startall(None)
if not ret:
return self.failure("Could not start the remaining nodes")
return self.success()
@property
def errors_to_ignore(self):
""" Return list of errors which should be ignored """
# Errors that occur as a result of the CIB being wiped
return [ r"error.*: v1 patchset error, patch failed to apply: Application of an update diff failed",
r"error.*: Resource start-up disabled since no STONITH resources have been defined",
r"error.*: Either configure some or disable STONITH with the stonith-enabled option",
r"error.*: NOTE: Clusters with shared data need STONITH to ensure data integrity" ]
AllTestClasses.append(SpecialTest1)
class HAETest(CTSTest):
'''Set up a custom test to cause quorum failure issues for Andrew'''
def __init__(self, cm):
CTSTest.__init__(self,cm)
self.name = "HAETest"
self.stopall = SimulStopLite(cm)
self._startall = SimulStartLite(cm)
self.is_loop = True
def setup(self, node):
# Start all remaining nodes
ret = self._startall(None)
if not ret:
return self.failure("Couldn't start all nodes")
return self.success()
def teardown(self, node):
# Stop everything
ret = self.stopall(None)
if not ret:
return self.failure("Couldn't stop all nodes")
return self.success()
def wait_on_state(self, node, resource, expected_clones, attempts=240):
while attempts > 0:
active = 0
(rc, lines) = self._rsh(node, "crm_resource -r %s -W -Q" % resource, verbose=1)
# Hack until crm_resource does the right thing
if rc == 0 and lines:
active = len(lines)
if len(lines) == expected_clones:
return 1
elif rc == 1:
self.debug("Resource %s is still inactive" % resource)
elif rc == 234:
self._logger.log("Unknown resource %s" % resource)
return 0
elif rc == 246:
self._logger.log("Cluster is inactive")
return 0
elif rc != 0:
self._logger.log("Call to crm_resource failed, rc=%d" % rc)
return 0
else:
self.debug("Resource %s is active on %d times instead of %d" % (resource, active, expected_clones))
attempts -= 1
time.sleep(1)
return 0
def find_dlm(self, node):
self.r_dlm = None
(_, lines) = self._rsh(node, "crm_resource -c", verbose=1)
for line in lines:
if re.search("^Resource", line):
r = AuditResource(self._cm, line)
if r.rtype == "controld" and r.parent != "NA":
self.debug("Found dlm: %s" % self.r_dlm)
self.r_dlm = r.parent
return 1
return 0
def find_hae_resources(self, node):
self.r_dlm = None
- self.r_o2cb = None
- self.r_ocfs2 = []
+ self._r_o2cb = None
+ self._r_ocfs2 = []
if self.find_dlm(node):
- self.find_ocfs2_resources(node)
+ self._find_ocfs2_resources(node)
def is_applicable(self):
if not self.is_applicable_common():
return False
if self._env["Schema"] == "hae":
return True
return None
class HAERoleTest(HAETest):
def __init__(self, cm):
'''Lars' mount/unmount test for the HA extension. '''
HAETest.__init__(self,cm)
self.name = "HAERoleTest"
def change_state(self, node, resource, target):
(rc, _) = self._rsh(node, "crm_resource -V -r %s -p target-role -v %s --meta" % (resource, target))
return rc
def __call__(self, node):
self.incr("calls")
lpc = 0
failed = 0
delay = 2
done = time.time() + self._env["loop-minutes"]*60
self.find_hae_resources(node)
clone_max = len(self._env["nodes"])
while time.time() <= done and not failed:
lpc = lpc + 1
self.change_state(node, self.r_dlm, "Stopped")
if not self.wait_on_state(node, self.r_dlm, 0):
self.failure("%s did not go down correctly" % self.r_dlm)
failed = lpc
self.change_state(node, self.r_dlm, "Started")
if not self.wait_on_state(node, self.r_dlm, clone_max):
self.failure("%s did not come up correctly" % self.r_dlm)
failed = lpc
- if not self.wait_on_state(node, self.r_o2cb, clone_max):
- self.failure("%s did not come up correctly" % self.r_o2cb)
+ if not self.wait_on_state(node, self._r_o2cb, clone_max):
+ self.failure("%s did not come up correctly" % self._r_o2cb)
failed = lpc
- for fs in self.r_ocfs2:
+ for fs in self._r_ocfs2:
if not self.wait_on_state(node, fs, clone_max):
self.failure("%s did not come up correctly" % fs)
failed = lpc
if failed:
return self.failure("iteration %d failed" % failed)
return self.success()
AllTestClasses.append(HAERoleTest)
class HAEStandbyTest(HAETest):
'''Set up a custom test to cause quorum failure issues for Andrew'''
def __init__(self, cm):
HAETest.__init__(self,cm)
self.name = "HAEStandbyTest"
def change_state(self, node, resource, target):
(rc, _) = self._rsh(node, "crm_standby -V -l reboot -v %s" % (target))
return rc
def __call__(self, node):
self.incr("calls")
lpc = 0
failed = 0
done = time.time() + self._env["loop-minutes"]*60
self.find_hae_resources(node)
clone_max = len(self._env["nodes"])
while time.time() <= done and not failed:
lpc = lpc + 1
self.change_state(node, self.r_dlm, "true")
if not self.wait_on_state(node, self.r_dlm, clone_max-1):
self.failure("%s did not go down correctly" % self.r_dlm)
failed = lpc
self.change_state(node, self.r_dlm, "false")
if not self.wait_on_state(node, self.r_dlm, clone_max):
self.failure("%s did not come up correctly" % self.r_dlm)
failed = lpc
- if not self.wait_on_state(node, self.r_o2cb, clone_max):
- self.failure("%s did not come up correctly" % self.r_o2cb)
+ if not self.wait_on_state(node, self._r_o2cb, clone_max):
+ self.failure("%s did not come up correctly" % self._r_o2cb)
failed = lpc
- for fs in self.r_ocfs2:
+ for fs in self._r_ocfs2:
if not self.wait_on_state(node, fs, clone_max):
self.failure("%s did not come up correctly" % fs)
failed = lpc
if failed:
return self.failure("iteration %d failed" % failed)
return self.success()
AllTestClasses.append(HAEStandbyTest)
class NearQuorumPointTest(CTSTest):
'''
This test brings larger clusters near the quorum point (50%).
In addition, it will test doing starts and stops at the same time.
Here is how I think it should work:
- loop over the nodes and decide randomly which will be up and which
will be down Use a 50% probability for each of up/down.
- figure out what to do to get into that state from the current state
- in parallel, bring up those going up and bring those going down.
'''
def __init__(self, cm):
CTSTest.__init__(self,cm)
self.name = "NearQuorumPoint"
def __call__(self, dummy):
'''Perform the 'NearQuorumPoint' test. '''
self.incr("calls")
startset = []
stopset = []
stonith = self._cm.prepare_fencing_watcher("NearQuorumPoint")
#decide what to do with each node
for node in self._env["nodes"]:
action = self._env.random_gen.choice(["start","stop"])
#action = self._env.random_gen.choice(["start","stop","no change"])
if action == "start" :
startset.append(node)
elif action == "stop" :
stopset.append(node)
self.debug("start nodes:" + repr(startset))
self.debug("stop nodes:" + repr(stopset))
#add search patterns
watchpats = [ ]
for node in stopset:
if self._cm.ShouldBeStatus[node] == "up":
watchpats.append(self.templates["Pat:We_stopped"] % node)
for node in startset:
if self._cm.ShouldBeStatus[node] == "down":
#watchpats.append(self.templates["Pat:NonDC_started"] % node)
watchpats.append(self.templates["Pat:Local_started"] % node)
else:
for stopping in stopset:
if self._cm.ShouldBeStatus[stopping] == "up":
watchpats.append(self.templates["Pat:They_stopped"] % (node, self._cm.key_for_node(stopping)))
if len(watchpats) == 0:
return self.skipped()
if len(startset) != 0:
watchpats.append(self.templates["Pat:DC_IDLE"])
watch = self.create_watch(watchpats, self._env["DeadTime"]+10)
watch.set_watch()
#begin actions
for node in stopset:
if self._cm.ShouldBeStatus[node] == "up":
self._cm.StopaCMnoBlock(node)
for node in startset:
if self._cm.ShouldBeStatus[node] == "down":
self._cm.StartaCMnoBlock(node)
#get the result
if watch.look_for_all():
self._cm.cluster_stable()
self._cm.fencing_cleanup("NearQuorumPoint", stonith)
return self.success()
self._logger.log("Warn: Patterns not found: " + repr(watch.unmatched))
#get the "bad" nodes
upnodes = []
for node in stopset:
if self._cm.StataCM(node) == 1:
upnodes.append(node)
downnodes = []
for node in startset:
if self._cm.StataCM(node) == 0:
downnodes.append(node)
self._cm.fencing_cleanup("NearQuorumPoint", stonith)
if upnodes == [] and downnodes == []:
self._cm.cluster_stable()
# Make sure they're completely down with no residule
for node in stopset:
self._rsh(node, self.templates["StopCmd"])
return self.success()
if len(upnodes) > 0:
self._logger.log("Warn: Unstoppable nodes: " + repr(upnodes))
if len(downnodes) > 0:
self._logger.log("Warn: Unstartable nodes: " + repr(downnodes))
return self.failure()
def is_applicable(self):
return True
AllTestClasses.append(NearQuorumPointTest)
class RollingUpgradeTest(CTSTest):
'''Perform a rolling upgrade of the cluster'''
def __init__(self, cm):
CTSTest.__init__(self,cm)
self.name = "RollingUpgrade"
self._start = StartTest(cm)
self._stop = StopTest(cm)
self.stopall = SimulStopLite(cm)
self._startall = SimulStartLite(cm)
def setup(self, node):
# Start all remaining nodes
ret = self.stopall(None)
if not ret:
return self.failure("Couldn't stop all nodes")
for node in self._env["nodes"]:
if not self.downgrade(node, None):
return self.failure("Couldn't downgrade %s" % node)
ret = self._startall(None)
if not ret:
return self.failure("Couldn't start all nodes")
return self.success()
def teardown(self, node):
# Stop everything
ret = self.stopall(None)
if not ret:
return self.failure("Couldn't stop all nodes")
for node in self._env["nodes"]:
if not self.upgrade(node, None):
return self.failure("Couldn't upgrade %s" % node)
return self.success()
def install(self, node, version, start=1, flags="--force"):
target_dir = "/tmp/rpm-%s" % version
src_dir = "%s/%s" % (self._env["rpm-dir"], version)
self._logger.log("Installing %s on %s with %s" % (version, node, flags))
if not self._stop(node):
return self.failure("stop failure: "+node)
self._rsh(node, "mkdir -p %s" % target_dir)
self._rsh(node, "rm -f %s/*.rpm" % target_dir)
(_, lines) = self._rsh(node, "ls -1 %s/*.rpm" % src_dir, verbose=1)
for line in lines:
line = line[:-1]
rc = self._rsh.copy("%s" % (line), "%s:%s/" % (node, target_dir))
self._rsh(node, "rpm -Uvh %s %s/*.rpm" % (flags, target_dir))
if start and not self._start(node):
return self.failure("start failure: "+node)
return self.success()
def upgrade(self, node, start=1):
return self.install(node, self._env["current-version"], start)
def downgrade(self, node, start=1):
return self.install(node, self._env["previous-version"], start, "--force --nodeps")
def __call__(self, node):
'''Perform the 'Rolling Upgrade' test. '''
self.incr("calls")
for node in self._env["nodes"]:
if self.upgrade(node):
return self.failure("Couldn't upgrade %s" % node)
self._cm.cluster_stable()
return self.success()
def is_applicable(self):
if not self.is_applicable_common():
return None
if not "rpm-dir" in list(self._env.keys()):
return None
if not "current-version" in list(self._env.keys()):
return None
if not "previous-version" in list(self._env.keys()):
return None
return 1
# Register RestartTest as a good test to run
AllTestClasses.append(RollingUpgradeTest)
class BSC_AddResource(CTSTest):
'''Add a resource to the cluster'''
def __init__(self, cm):
CTSTest.__init__(self, cm)
self.name = "AddResource"
self.resource_offset = 0
self.cib_cmd = """cibadmin -C -o %s -X '%s' """
def __call__(self, node):
self.incr("calls")
self.resource_offset = self.resource_offset + 1
r_id = "bsc-rsc-%s-%d" % (node, self.resource_offset)
start_pat = "pacemaker-controld.*%s_start_0.*confirmed.*ok"
patterns = []
patterns.append(start_pat % r_id)
watch = self.create_watch(patterns, self._env["DeadTime"])
watch.set_watch()
ip = self.NextIP()
if not self.make_ip_resource(node, r_id, "ocf", "IPaddr", ip):
return self.failure("Make resource %s failed" % r_id)
failed = 0
watch_result = watch.look_for_all()
if watch.unmatched:
for regex in watch.unmatched:
self._logger.log ("Warn: Pattern not found: %s" % (regex))
failed = 1
if failed:
return self.failure("Resource pattern(s) not found")
if not self._cm.cluster_stable(self._env["DeadTime"]):
return self.failure("Unstable cluster")
return self.success()
def NextIP(self):
ip = self._env["IPBase"]
if ":" in ip:
fields = ip.rpartition(":")
fields[2] = str(hex(int(fields[2], 16)+1))
print(str(hex(int(f[2], 16)+1)))
else:
fields = ip.rpartition('.')
fields[2] = str(int(fields[2])+1)
ip = fields[0] + fields[1] + fields[3];
self._env["IPBase"] = ip
return ip.strip()
def make_ip_resource(self, node, id, rclass, type, ip):
self._logger.log("Creating %s:%s:%s (%s) on %s" % (rclass,type,id,ip,node))
rsc_xml="""
""" % (id, rclass, type, id, id, ip)
node_constraint = """
""" % (id, id, id, id, node)
rc = 0
(rc, _) = self._rsh(node, self.cib_cmd % ("constraints", node_constraint), verbose=1)
if rc != 0:
self._logger.log("Constraint creation failed: %d" % rc)
return None
(rc, _) = self._rsh(node, self.cib_cmd % ("resources", rsc_xml), verbose=1)
if rc != 0:
self._logger.log("Resource creation failed: %d" % rc)
return None
return 1
def is_applicable(self):
if self._env["DoBSC"]:
return True
return None
AllTestClasses.append(BSC_AddResource)
def TestList(cm, audits):
result = []
for testclass in AllTestClasses:
bound_test = testclass(cm)
if bound_test.is_applicable():
bound_test.audits = audits
result.append(bound_test)
return result
class RemoteLXC(CTSTest):
def __init__(self, cm):
CTSTest.__init__(self,cm)
self.name = "RemoteLXC"
self._start = StartTest(cm)
self._startall = SimulStartLite(cm)
self.num_containers = 2
self.is_container = True
self.fail_string = ""
def start_lxc_simple(self, node):
# restore any artifacts laying around from a previous test.
self._rsh(node, "/usr/share/pacemaker/tests/cts/lxc_autogen.sh -s -R &>/dev/null")
# generate the containers, put them in the config, add some resources to them
pats = [ ]
watch = self.create_watch(pats, 120)
watch.set_watch()
pats.append(self.templates["Pat:RscOpOK"] % ("start", "lxc1"))
pats.append(self.templates["Pat:RscOpOK"] % ("start", "lxc2"))
pats.append(self.templates["Pat:RscOpOK"] % ("start", "lxc-ms"))
pats.append(self.templates["Pat:RscOpOK"] % ("promote", "lxc-ms"))
self._rsh(node, "/usr/share/pacemaker/tests/cts/lxc_autogen.sh -g -a -m -s -c %d &>/dev/null" % self.num_containers)
self.set_timer("remoteSimpleInit")
watch.look_for_all()
self.log_timer("remoteSimpleInit")
if watch.unmatched:
self.fail_string = "Unmatched patterns: %s" % (repr(watch.unmatched))
self.failed = True
def cleanup_lxc_simple(self, node):
pats = [ ]
# if the test failed, attempt to clean up the cib and libvirt environment
# as best as possible
if self.failed:
# restore libvirt and cib
self._rsh(node, "/usr/share/pacemaker/tests/cts/lxc_autogen.sh -s -R &>/dev/null")
return
watch = self.create_watch(pats, 120)
watch.set_watch()
pats.append(self.templates["Pat:RscOpOK"] % ("stop", "container1"))
pats.append(self.templates["Pat:RscOpOK"] % ("stop", "container2"))
self._rsh(node, "/usr/share/pacemaker/tests/cts/lxc_autogen.sh -p &>/dev/null")
self.set_timer("remoteSimpleCleanup")
watch.look_for_all()
self.log_timer("remoteSimpleCleanup")
if watch.unmatched:
self.fail_string = "Unmatched patterns: %s" % (repr(watch.unmatched))
self.failed = True
# cleanup libvirt
self._rsh(node, "/usr/share/pacemaker/tests/cts/lxc_autogen.sh -s -R &>/dev/null")
def __call__(self, node):
'''Perform the 'RemoteLXC' test. '''
self.incr("calls")
ret = self._startall(None)
if not ret:
return self.failure("Setup failed, start all nodes failed.")
(rc, _) = self._rsh(node, "/usr/share/pacemaker/tests/cts/lxc_autogen.sh -v &>/dev/null")
if rc == 1:
self.log("Environment test for lxc support failed.")
return self.skipped()
self.start_lxc_simple(node)
self.cleanup_lxc_simple(node)
self.debug("Waiting for the cluster to recover")
self._cm.cluster_stable()
if self.failed:
return self.failure(self.fail_string)
return self.success()
@property
def errors_to_ignore(self):
""" Return list of errors which should be ignored """
return [ r"Updating failcount for ping",
r"schedulerd.*: Recover\s+(ping|lxc-ms|container)\s+\(.*\)",
# The orphaned lxc-ms resource causes an expected transition error
# that is a result of the scheduler not having knowledge that the
# promotable resource used to be a clone. As a result, it looks like that
# resource is running in multiple locations when it shouldn't... But in
# this instance we know why this error is occurring and that it is expected.
r"Calculated [Tt]ransition .*pe-error",
r"Resource lxc-ms .* is active on 2 nodes attempting recovery",
r"Unknown operation: fail",
r"VirtualDomain.*ERROR: Unable to determine emulator" ]
AllTestClasses.append(RemoteLXC)
class RemoteBasic(RemoteDriver):
def __init__(self, cm):
RemoteDriver.__init__(self, cm)
self.name = "RemoteBasic"
def __call__(self, node):
'''Perform the 'RemoteBaremetal' test. '''
if not self.start_new_test(node):
return self.failure(self.fail_string)
self.test_attributes(node)
self.cleanup_metal(node)
self.debug("Waiting for the cluster to recover")
self._cm.cluster_stable()
if self.failed:
return self.failure(self.fail_string)
return self.success()
AllTestClasses.append(RemoteBasic)
class RemoteStonithd(RemoteDriver):
def __init__(self, cm):
RemoteDriver.__init__(self, cm)
self.name = "RemoteStonithd"
def __call__(self, node):
'''Perform the 'RemoteStonithd' test. '''
if not self.start_new_test(node):
return self.failure(self.fail_string)
self.fail_connection(node)
self.cleanup_metal(node)
self.debug("Waiting for the cluster to recover")
self._cm.cluster_stable()
if self.failed:
return self.failure(self.fail_string)
return self.success()
def is_applicable(self):
if not RemoteDriver.is_applicable(self):
return False
if "DoFencing" in list(self._env.keys()):
return self._env["DoFencing"]
return True
@property
def errors_to_ignore(self):
""" Return list of errors which should be ignored """
return [ r"Lost connection to Pacemaker Remote node",
r"Software caused connection abort",
r"pacemaker-controld.*:\s+error.*: Operation remote-.*_monitor",
r"pacemaker-controld.*:\s+error.*: Result of monitor operation for remote-.*",
r"schedulerd.*:\s+Recover\s+remote-.*\s+\(.*\)",
r"error: Result of monitor operation for .* on remote-.*: Internal communication failure" ] + super().errors_to_ignore
AllTestClasses.append(RemoteStonithd)
class RemoteMigrate(RemoteDriver):
def __init__(self, cm):
RemoteDriver.__init__(self, cm)
self.name = "RemoteMigrate"
def __call__(self, node):
'''Perform the 'RemoteMigrate' test. '''
if not self.start_new_test(node):
return self.failure(self.fail_string)
self.migrate_connection(node)
self.cleanup_metal(node)
self.debug("Waiting for the cluster to recover")
self._cm.cluster_stable()
if self.failed:
return self.failure(self.fail_string)
return self.success()
def is_applicable(self):
if not RemoteDriver.is_applicable(self):
return 0
# This test requires at least three nodes: one to convert to a
# remote node, one to host the connection originally, and one
# to migrate the connection to.
if len(self._env["nodes"]) < 3:
return 0
return 1
AllTestClasses.append(RemoteMigrate)
class RemoteRscFailure(RemoteDriver):
def __init__(self, cm):
RemoteDriver.__init__(self, cm)
self.name = "RemoteRscFailure"
def __call__(self, node):
'''Perform the 'RemoteRscFailure' test. '''
if not self.start_new_test(node):
return self.failure(self.fail_string)
# This is an important step. We are migrating the connection
# before failing the resource. This verifies that the migration
# has properly maintained control over the remote-node.
self.migrate_connection(node)
self.fail_rsc(node)
self.cleanup_metal(node)
self.debug("Waiting for the cluster to recover")
self._cm.cluster_stable()
if self.failed:
return self.failure(self.fail_string)
return self.success()
@property
def errors_to_ignore(self):
""" Return list of errors which should be ignored """
return [ r"schedulerd.*: Recover\s+remote-rsc\s+\(.*\)",
r"Dummy.*: No process state file found" ] + super().errors_to_ignore
def is_applicable(self):
if not RemoteDriver.is_applicable(self):
return 0
# This test requires at least three nodes: one to convert to a
# remote node, one to host the connection originally, and one
# to migrate the connection to.
if len(self._env["nodes"]) < 3:
return 0
return 1
AllTestClasses.append(RemoteRscFailure)
# vim:ts=4:sw=4:et:
diff --git a/python/pacemaker/_cts/tests/base.py b/python/pacemaker/_cts/tests/base.py
index 9e883aa5cd..27e647f99a 100644
--- a/python/pacemaker/_cts/tests/base.py
+++ b/python/pacemaker/_cts/tests/base.py
@@ -1,949 +1,951 @@
""" Base classes for CTS tests """
__all__ = ["CTSTest", "RemoteDriver", "SimulStartLite", "SimulStopLite", "StartTest", "StopTest"]
__copyright__ = "Copyright 2000-2023 the Pacemaker project contributors"
__license__ = "GNU General Public License version 2 or later (GPLv2+) WITHOUT ANY WARRANTY"
#
# SPECIAL NOTE:
#
# Tests may NOT implement any cluster-manager-specific code in them.
# EXTEND the ClusterManager object to provide the base capabilities
# the test needs if you need to do something that the current CM classes
# do not. Otherwise you screw up the whole point of the object structure
# in CTS.
#
# Thank you.
#
import os
import re
import time
import subprocess
import tempfile
from pacemaker._cts.audits import AuditConstraint, AuditResource
from pacemaker._cts.environment import EnvFactory
from pacemaker._cts.logging import LogFactory
from pacemaker._cts.patterns import PatternSelector
from pacemaker._cts.remote import RemoteFactory
from pacemaker._cts.watcher import LogWatcher
# Disable various pylint warnings that occur in so many places throughout this
# file it's easiest to just take care of them globally. This does introduce the
# possibility that we'll miss some other cause of the same warning, but we'll
# just have to be careful.
# pylint doesn't understand that self._rsh is callable.
# pylint: disable=not-callable
# pylint doesn't understand that self._env is subscriptable.
# pylint: disable=unsubscriptable-object
class CTSTest:
'''
A Cluster test.
We implement the basic set of properties and behaviors for a generic
cluster test.
Cluster tests track their own statistics.
We keep each of the kinds of counts we track as separate {name,value}
pairs.
'''
def __init__(self, cm):
# pylint: disable=invalid-name
self.Stats = {"calls":0
, "success":0
, "failure":0
, "skipped":0
, "auditfail":0}
self.audits = []
self.name = None
self.templates = PatternSelector(cm["Name"])
self.timer = {} # timers
self._cm = cm
self._env = EnvFactory().getInstance()
+ self._r_o2cb = None
+ self._r_ocfs2 = []
self._rsh = RemoteFactory().getInstance()
self._logger = LogFactory()
self.benchmark = True # which tests to benchmark
self.failed = False
self.is_container = False
self.is_experimental = False
self.is_loop = False
self.is_unsafe = False
self.is_valgrind = False
self.passed = True
def log(self, args):
self._logger.log(args)
def debug(self, args):
self._logger.debug(args)
def has_key(self, key):
return key in self.Stats
def __setitem__(self, key, value):
self.Stats[key] = value
def __getitem__(self, key):
if str(key) == "0":
raise ValueError("Bad call to 'foo in X', should reference 'foo in X.Stats' instead")
if key in self.Stats:
return self.Stats[key]
return None
def log_mark(self, msg):
self.debug("MARK: test %s %s %d" % (self.name,msg,time.time()))
def get_timer(self,key = "test"):
try:
return self.timer[key]
except KeyError:
return 0
def set_timer(self,key = "test"):
self.timer[key] = time.time()
return self.timer[key]
def log_timer(self,key = "test"):
elapsed = 0
if key in self.timer:
elapsed = time.time() - self.timer[key]
s = "%s:%s" % (self.name, key)
self.debug("%s runtime: %.2f" % (s, elapsed))
del self.timer[key]
return elapsed
def incr(self, name):
'''Increment (or initialize) the value associated with the given name'''
if not name in self.Stats:
self.Stats[name] = 0
self.Stats[name] += 1
# Reset the test passed boolean
if name == "calls":
self.passed = True
def failure(self, reason="none"):
'''Increment the failure count'''
self.passed = False
self.incr("failure")
self._logger.log(("Test %s" % self.name).ljust(35) + " FAILED: %s" % reason)
return None
def success(self):
'''Increment the success count'''
self.incr("success")
return 1
def skipped(self):
'''Increment the skipped count'''
self.incr("skipped")
return 1
def __call__(self, node):
""" Perform the given test """
raise NotImplementedError
def audit(self):
passed = 1
for audit in self.audits:
if not audit():
self._logger.log("Internal %s Audit %s FAILED." % (self.name, audit.name))
self.incr("auditfail")
passed = 0
return passed
def setup(self, node):
'''Setup the given test'''
# node is used in subclasses
# pylint: disable=unused-argument
return self.success()
def teardown(self, node):
'''Tear down the given test'''
# node is used in subclasses
# pylint: disable=unused-argument
return self.success()
def create_watch(self, patterns, timeout, name=None):
if not name:
name = self.name
return LogWatcher(self._env["LogFileName"], patterns, self._env["nodes"], self._env["LogWatcher"], name, timeout)
def local_badnews(self, prefix, watch, local_ignore=None):
errcount = 0
if not prefix:
prefix = "LocalBadNews:"
ignorelist = [" CTS: ", prefix]
if local_ignore:
ignorelist += local_ignore
while errcount < 100:
match = watch.look(0)
if match:
add_err = True
for ignore in ignorelist:
if add_err and re.search(ignore, match):
add_err = False
if add_err:
self._logger.log("%s %s" % (prefix, match))
errcount += 1
else:
break
else:
self._logger.log("Too many errors!")
watch.end()
return errcount
def is_applicable(self):
return self.is_applicable_common()
def is_applicable_common(self):
'''Return True if we are applicable in the current test configuration'''
if self.is_loop and not self._env["loop-tests"]:
return False
if self.is_unsafe and not self._env["unsafe-tests"]:
return False
if self.is_valgrind and not self._env["valgrind-tests"]:
return False
if self.is_experimental and not self._env["experimental-tests"]:
return False
if self.is_container and not self._env["container-tests"]:
return False
if self._env["benchmark"] and not self.benchmark:
return False
return True
- def find_ocfs2_resources(self, node):
- self.r_o2cb = None
- self.r_ocfs2 = []
+ def _find_ocfs2_resources(self, node):
+ self._r_o2cb = None
+ self._r_ocfs2 = []
(_, lines) = self._rsh(node, "crm_resource -c", verbose=1)
for line in lines:
if re.search("^Resource", line):
r = AuditResource(self._cm, line)
if r.rtype == "o2cb" and r.parent != "NA":
- self.debug("Found o2cb: %s" % self.r_o2cb)
- self.r_o2cb = r.parent
+ self.debug("Found o2cb: %s" % self._r_o2cb)
+ self._r_o2cb = r.parent
if re.search("^Constraint", line):
c = AuditConstraint(self._cm, line)
- if c.type == "rsc_colocation" and c.target == self.r_o2cb:
- self.r_ocfs2.append(c.rsc)
+ if c.type == "rsc_colocation" and c.target == self._r_o2cb:
+ self._r_ocfs2.append(c.rsc)
- self.debug("Found ocfs2 filesystems: %s" % self.r_ocfs2)
- return len(self.r_ocfs2)
+ self.debug("Found ocfs2 filesystems: %s" % self._r_ocfs2)
+ return len(self._r_ocfs2)
def can_run_now(self, node):
""" Return True if we can meaningfully run right now """
# node is used in subclasses
# pylint: disable=unused-argument
return True
@property
def errors_to_ignore(self):
""" Return list of errors which should be ignored """
return []
class RemoteDriver(CTSTest):
def __init__(self, cm):
CTSTest.__init__(self,cm)
self.name = "RemoteDriver"
self._corosync_enabled = False
self._pacemaker_enabled = False
self._remote_node = None
self._remote_rsc = "remote-rsc"
self._start = StartTest(cm)
self._startall = SimulStartLite(cm)
self._stop = StopTest(cm)
self.reset()
def reset(self):
self.failed = False
self.fail_string = ""
self._pcmk_started = False
self._remote_node_added = False
self._remote_rsc_added = False
self._remote_use_reconnect_interval = self._env.random_gen.choice([True,False])
def fail(self, msg):
""" Mark test as failed. """
self.failed = True
# Always log the failure.
self._logger.log(msg)
# Use first failure as test status, as it's likely to be most useful.
if not self.fail_string:
self.fail_string = msg
def _get_other_node(self, node):
for othernode in self._env["nodes"]:
if othernode == node:
# we don't want to try and use the cib that we just shutdown.
# find a cluster node that is not our soon to be remote-node.
continue
return othernode
def _del_rsc(self, node, rsc):
othernode = self._get_other_node(node)
(rc, _) = self._rsh(othernode, "crm_resource -D -r %s -t primitive" % rsc)
if rc != 0:
self.fail("Removal of resource '%s' failed" % rsc)
def _add_rsc(self, node, rsc_xml):
othernode = self._get_other_node(node)
(rc, _) = self._rsh(othernode, "cibadmin -C -o resources -X '%s'" % rsc_xml)
if rc != 0:
self.fail("resource creation failed")
def _add_primitive_rsc(self, node):
rsc_xml = """
""" % { "node": self._remote_rsc }
self._add_rsc(node, rsc_xml)
if not self.failed:
self._remote_rsc_added = True
def _add_connection_rsc(self, node):
rsc_xml = """
""" % { "node": self._remote_node, "server": node }
if self._remote_use_reconnect_interval:
# Set reconnect interval on resource
rsc_xml += """
""" % self._remote_node
rsc_xml += """
""" % { "node": self._remote_node }
self._add_rsc(node, rsc_xml)
if not self.failed:
self._remote_node_added = True
def _disable_services(self, node):
self._corosync_enabled = self._env.service_is_enabled(node, "corosync")
if self._corosync_enabled:
self._env.disable_service(node, "corosync")
self._pacemaker_enabled = self._env.service_is_enabled(node, "pacemaker")
if self._pacemaker_enabled:
self._env.disable_service(node, "pacemaker")
def _enable_services(self, node):
if self._corosync_enabled:
self._env.enable_service(node, "corosync")
if self._pacemaker_enabled:
self._env.enable_service(node, "pacemaker")
def _stop_pcmk_remote(self, node):
# disable pcmk remote
for _ in range(10):
(rc, _) = self._rsh(node, "service pacemaker_remote stop")
if rc != 0:
time.sleep(6)
else:
break
def _start_pcmk_remote(self, node):
for _ in range(10):
(rc, _) = self._rsh(node, "service pacemaker_remote start")
if rc != 0:
time.sleep(6)
else:
self._pcmk_started = True
break
def _freeze_pcmk_remote(self, node):
""" Simulate a Pacemaker Remote daemon failure. """
# We freeze the process.
self._rsh(node, "killall -STOP pacemaker-remoted")
def _resume_pcmk_remote(self, node):
# We resume the process.
self._rsh(node, "killall -CONT pacemaker-remoted")
def _start_metal(self, node):
# Cluster nodes are reused as remote nodes in remote tests. If cluster
# services were enabled at boot, in case the remote node got fenced, the
# cluster node would join instead of the expected remote one. Meanwhile
# pacemaker_remote would not be able to start. Depending on the chances,
# the situations might not be able to be orchestrated gracefully any more.
#
# Temporarily disable any enabled cluster serivces.
self._disable_services(node)
# make sure the resource doesn't already exist for some reason
self._rsh(node, "crm_resource -D -r %s -t primitive" % self._remote_rsc)
self._rsh(node, "crm_resource -D -r %s -t primitive" % self._remote_node)
if not self._stop(node):
self.fail("Failed to shutdown cluster node %s" % node)
return
self._start_pcmk_remote(node)
if not self._pcmk_started:
self.fail("Failed to start pacemaker_remote on node %s" % node)
return
# Convert node to baremetal now that it has shutdown the cluster stack
pats = [ self.templates["Pat:RscOpOK"] % ("start", self._remote_node),
self.templates["Pat:DC_IDLE"] ]
watch = self.create_watch(pats, 120)
watch.set_watch()
self._add_connection_rsc(node)
self.set_timer("remoteMetalInit")
watch.look_for_all()
self.log_timer("remoteMetalInit")
if watch.unmatched:
self.fail("Unmatched patterns: %s" % watch.unmatched)
def migrate_connection(self, node):
if self.failed:
return
pats = [ self.templates["Pat:RscOpOK"] % ("migrate_to", self._remote_node),
self.templates["Pat:RscOpOK"] % ("migrate_from", self._remote_node),
self.templates["Pat:DC_IDLE"] ]
watch = self.create_watch(pats, 120)
watch.set_watch()
(rc, _) = self._rsh(node, "crm_resource -M -r %s" % self._remote_node, verbose=1)
if rc != 0:
self.fail("failed to move remote node connection resource")
return
self.set_timer("remoteMetalMigrate")
watch.look_for_all()
self.log_timer("remoteMetalMigrate")
if watch.unmatched:
self.fail("Unmatched patterns: %s" % watch.unmatched)
return
def fail_rsc(self, node):
if self.failed:
return
watchpats = [ self.templates["Pat:RscRemoteOpOK"] % ("stop", self._remote_rsc, self._remote_node),
self.templates["Pat:RscRemoteOpOK"] % ("start", self._remote_rsc, self._remote_node),
self.templates["Pat:DC_IDLE"] ]
watch = self.create_watch(watchpats, 120)
watch.set_watch()
self.debug("causing dummy rsc to fail.")
self._rsh(node, "rm -f /var/run/resource-agents/Dummy*")
self.set_timer("remoteRscFail")
watch.look_for_all()
self.log_timer("remoteRscFail")
if watch.unmatched:
self.fail("Unmatched patterns during rsc fail: %s" % watch.unmatched)
def fail_connection(self, node):
if self.failed:
return
watchpats = [ self.templates["Pat:Fencing_ok"] % self._remote_node,
self.templates["Pat:NodeFenced"] % self._remote_node ]
watch = self.create_watch(watchpats, 120)
watch.set_watch()
# freeze the pcmk remote daemon. this will result in fencing
self.debug("Force stopped active remote node")
self._freeze_pcmk_remote(node)
self.debug("Waiting for remote node to be fenced.")
self.set_timer("remoteMetalFence")
watch.look_for_all()
self.log_timer("remoteMetalFence")
if watch.unmatched:
self.fail("Unmatched patterns: %s" % watch.unmatched)
return
self.debug("Waiting for the remote node to come back up")
self._cm.ns.wait_for_node(node, 120)
pats = [ self.templates["Pat:RscOpOK"] % ("start", self._remote_node) ]
if self._remote_rsc_added:
pats.append(self.templates["Pat:RscRemoteOpOK"] % ("start", self._remote_rsc, self._remote_node))
watch = self.create_watch([], 240)
watch.set_watch()
# start the remote node again watch it integrate back into cluster.
self._start_pcmk_remote(node)
if not self._pcmk_started:
self.fail("Failed to start pacemaker_remote on node %s" % node)
return
self.debug("Waiting for remote node to rejoin cluster after being fenced.")
self.set_timer("remoteMetalRestart")
watch.look_for_all()
self.log_timer("remoteMetalRestart")
if watch.unmatched:
self.fail("Unmatched patterns: %s" % watch.unmatched)
return
def _add_dummy_rsc(self, node):
if self.failed:
return
# verify we can put a resource on the remote node
pats = [ self.templates["Pat:RscRemoteOpOK"] % ("start", self._remote_rsc, self._remote_node),
self.templates["Pat:DC_IDLE"] ]
watch = self.create_watch(pats, 120)
watch.set_watch()
# Add a resource that must live on remote-node
self._add_primitive_rsc(node)
# force that rsc to prefer the remote node.
(rc, _) = self._cm.rsh(node, "crm_resource -M -r %s -N %s -f" % (self._remote_rsc, self._remote_node), verbose=1)
if rc != 0:
self.fail("Failed to place remote resource on remote node.")
return
self.set_timer("remoteMetalRsc")
watch.look_for_all()
self.log_timer("remoteMetalRsc")
if watch.unmatched:
self.fail("Unmatched patterns: %s" % watch.unmatched)
def test_attributes(self, node):
if self.failed:
return
# This verifies permanent attributes can be set on a remote-node. It also
# verifies the remote-node can edit its own cib node section remotely.
(rc, line) = self._cm.rsh(node, "crm_attribute -l forever -n testattr -v testval -N %s" % self._remote_node, verbose=1)
if rc != 0:
self.fail("Failed to set remote-node attribute. rc:%s output:%s" % (rc, line))
return
(rc, _) = self._cm.rsh(node, "crm_attribute -l forever -n testattr -q -N %s" % self._remote_node, verbose=1)
if rc != 0:
self.fail("Failed to get remote-node attribute")
return
(rc, _) = self._cm.rsh(node, "crm_attribute -l forever -n testattr -D -N %s" % self._remote_node, verbose=1)
if rc != 0:
self.fail("Failed to delete remote-node attribute")
return
def cleanup_metal(self, node):
self._enable_services(node)
if not self._pcmk_started:
return
pats = [ ]
watch = self.create_watch(pats, 120)
watch.set_watch()
if self._remote_rsc_added:
pats.append(self.templates["Pat:RscOpOK"] % ("stop", self._remote_rsc))
if self._remote_node_added:
pats.append(self.templates["Pat:RscOpOK"] % ("stop", self._remote_node))
self.set_timer("remoteMetalCleanup")
self._resume_pcmk_remote(node)
if self._remote_rsc_added:
# Remove dummy resource added for remote node tests
self.debug("Cleaning up dummy rsc put on remote node")
self._rsh(self._get_other_node(node), "crm_resource -U -r %s" % self._remote_rsc)
self._del_rsc(node, self._remote_rsc)
if self._remote_node_added:
# Remove remote node's connection resource
self.debug("Cleaning up remote node connection resource")
self._rsh(self._get_other_node(node), "crm_resource -U -r %s" % self._remote_node)
self._del_rsc(node, self._remote_node)
watch.look_for_all()
self.log_timer("remoteMetalCleanup")
if watch.unmatched:
self.fail("Unmatched patterns: %s" % watch.unmatched)
self._stop_pcmk_remote(node)
self.debug("Waiting for the cluster to recover")
self._cm.cluster_stable()
if self._remote_node_added:
# Remove remote node itself
self.debug("Cleaning up node entry for remote node")
self._rsh(self._get_other_node(node), "crm_node --force --remove %s" % self._remote_node)
def _setup_env(self, node):
self._remote_node = "remote-%s" % node
# we are assuming if all nodes have a key, that it is
# the right key... If any node doesn't have a remote
# key, we regenerate it everywhere.
if self._rsh.exists_on_all("/etc/pacemaker/authkey", self._env["nodes"]):
return
# create key locally
(handle, keyfile) = tempfile.mkstemp(".cts")
os.close(handle)
subprocess.check_call(["dd", "if=/dev/urandom", "of=%s" % keyfile, "bs=4096", "count=1"],
stdout=subprocess.DEVNULL, stderr=subprocess.DEVNULL)
# sync key throughout the cluster
for n in self._env["nodes"]:
self._rsh(n, "mkdir -p --mode=0750 /etc/pacemaker")
self._rsh.copy(keyfile, "root@%s:/etc/pacemaker/authkey" % n)
self._rsh(n, "chgrp haclient /etc/pacemaker /etc/pacemaker/authkey")
self._rsh(n, "chmod 0640 /etc/pacemaker/authkey")
os.unlink(keyfile)
def is_applicable(self):
if not self.is_applicable_common():
return False
for node in self._env["nodes"]:
(rc, _) = self._rsh(node, "which pacemaker-remoted >/dev/null 2>&1")
if rc != 0:
return False
return True
def start_new_test(self, node):
self.incr("calls")
self.reset()
ret = self._startall(None)
if not ret:
return self.failure("setup failed: could not start all nodes")
self._setup_env(node)
self._start_metal(node)
self._add_dummy_rsc(node)
return True
def __call__(self, node):
""" Perform the given test """
raise NotImplementedError
@property
def errors_to_ignore(self):
""" Return list of errors which should be ignored """
return [ r"""is running on remote.*which isn't allowed""",
r"""Connection terminated""",
r"""Could not send remote""" ]
class SimulStartLite(CTSTest):
'''Start any stopped nodes ~ simultaneously'''
def __init__(self, cm):
CTSTest.__init__(self,cm)
self.name = "SimulStartLite"
def __call__(self, dummy):
'''Perform the 'SimulStartList' setup work. '''
self.incr("calls")
self.debug("Setup: %s" % self.name)
# We ignore the "node" parameter...
node_list = []
for node in self._env["nodes"]:
if self._cm.ShouldBeStatus[node] == "down":
self.incr("WasStopped")
node_list.append(node)
self.set_timer()
while len(node_list) > 0:
# Repeat until all nodes come up
uppat = self.templates["Pat:NonDC_started"]
if self._cm.upcount() == 0:
uppat = self.templates["Pat:Local_started"]
watchpats = [ self.templates["Pat:DC_IDLE"] ]
for node in node_list:
watchpats.extend([uppat % node,
self.templates["Pat:InfraUp"] % node,
self.templates["Pat:PacemakerUp"] % node])
# Start all the nodes - at about the same time...
watch = self.create_watch(watchpats, self._env["DeadTime"]+10)
watch.set_watch()
stonith = self._cm.prepare_fencing_watcher(self.name)
for node in node_list:
self._cm.StartaCMnoBlock(node)
watch.look_for_all()
node_list = self._cm.fencing_cleanup(self.name, stonith)
if node_list is None:
return self.failure("Cluster did not stabilize")
# Remove node_list messages from watch.unmatched
for node in node_list:
self._logger.debug("Dealing with stonith operations for %s" % node_list)
if watch.unmatched:
try:
watch.unmatched.remove(uppat % node)
except ValueError:
self.debug("Already matched: %s" % (uppat % node))
try:
watch.unmatched.remove(self.templates["Pat:InfraUp"] % node)
except ValueError:
self.debug("Already matched: %s" % (self.templates["Pat:InfraUp"] % node))
try:
watch.unmatched.remove(self.templates["Pat:PacemakerUp"] % node)
except ValueError:
self.debug("Already matched: %s" % (self.templates["Pat:PacemakerUp"] % node))
if watch.unmatched:
for regex in watch.unmatched:
self._logger.log ("Warn: Startup pattern not found: %s" % regex)
if not self._cm.cluster_stable():
return self.failure("Cluster did not stabilize")
did_fail = False
unstable = []
for node in self._env["nodes"]:
if self._cm.StataCM(node) == 0:
did_fail = True
unstable.append(node)
if did_fail:
return self.failure("Unstarted nodes exist: %s" % unstable)
unstable = []
for node in self._env["nodes"]:
if not self._cm.node_stable(node):
did_fail = True
unstable.append(node)
if did_fail:
return self.failure("Unstable cluster nodes exist: %s" % unstable)
return self.success()
def is_applicable(self):
'''SimulStartLite is a setup test and never applicable'''
return False
class SimulStopLite(CTSTest):
'''Stop any active nodes ~ simultaneously'''
def __init__(self, cm):
CTSTest.__init__(self,cm)
self.name = "SimulStopLite"
def __call__(self, dummy):
'''Perform the 'SimulStopLite' setup work. '''
self.incr("calls")
self.debug("Setup: %s" % self.name)
# We ignore the "node" parameter...
watchpats = []
for node in self._env["nodes"]:
if self._cm.ShouldBeStatus[node] == "up":
self.incr("WasStarted")
watchpats.append(self.templates["Pat:We_stopped"] % node)
if len(watchpats) == 0:
return self.success()
# Stop all the nodes - at about the same time...
watch = self.create_watch(watchpats, self._env["DeadTime"]+10)
watch.set_watch()
self.set_timer()
for node in self._env["nodes"]:
if self._cm.ShouldBeStatus[node] == "up":
self._cm.StopaCMnoBlock(node)
if watch.look_for_all():
# Make sure they're completely down with no residule
for node in self._env["nodes"]:
self._rsh(node, self.templates["StopCmd"])
return self.success()
did_fail = False
up_nodes = []
for node in self._env["nodes"]:
if self._cm.StataCM(node) == 1:
did_fail = True
up_nodes.append(node)
if did_fail:
return self.failure("Active nodes exist: %s" % up_nodes)
self._logger.log("Warn: All nodes stopped but CTS didn't detect: %s" % watch.unmatched)
return self.failure("Missing log message: %s " % watch.unmatched)
def is_applicable(self):
'''SimulStopLite is a setup test and never applicable'''
return False
class StartTest(CTSTest):
'''Start (activate) the cluster manager on a node'''
def __init__(self, cm, debug=None):
CTSTest.__init__(self,cm)
self.name = "Start"
self.debug = debug
def __call__(self, node):
'''Perform the 'start' test. '''
self.incr("calls")
if self._cm.upcount() == 0:
self.incr("us")
else:
self.incr("them")
if self._cm.ShouldBeStatus[node] != "down":
return self.skipped()
if self._cm.StartaCM(node):
return self.success()
return self.failure("Startup %s on node %s failed"
% (self._env["Name"], node))
class StopTest(CTSTest):
'''Stop (deactivate) the cluster manager on a node'''
def __init__(self, cm):
CTSTest.__init__(self, cm)
self.name = "Stop"
def __call__(self, node):
'''Perform the 'stop' test. '''
self.incr("calls")
if self._cm.ShouldBeStatus[node] != "up":
return self.skipped()
# Technically we should always be able to notice ourselves stopping
patterns = [ self.templates["Pat:We_stopped"] % node ]
# Any active node needs to notice this one left
# (note that this won't work if we have multiple partitions)
for other in self._env["nodes"]:
if self._cm.ShouldBeStatus[other] == "up" and other != node:
patterns.append(self.templates["Pat:They_stopped"] %(other, self._cm.key_for_node(node)))
watch = self.create_watch(patterns, self._env["DeadTime"])
watch.set_watch()
if node == self._cm.OurNode:
self.incr("us")
else:
if self._cm.upcount() <= 1:
self.incr("all")
else:
self.incr("them")
self._cm.StopaCM(node)
watch.look_for_all()
failreason = None
unmatched_str = "||"
if watch.unmatched:
(_, output) = self._rsh(node, "/bin/ps axf", verbose=1)
for line in output:
self.debug(line)
(_, output) = self._rsh(node, "/usr/sbin/dlm_tool dump 2>/dev/null", verbose=1)
for line in output:
self.debug(line)
for regex in watch.unmatched:
self._logger.log ("ERROR: Shutdown pattern not found: %s" % regex)
unmatched_str += "%s||" % regex
failreason = "Missing shutdown pattern"
self._cm.cluster_stable(self._env["DeadTime"])
if not watch.unmatched or self._cm.upcount() == 0:
return self.success()
if len(watch.unmatched) >= self._cm.upcount():
return self.failure("no match against (%s)" % unmatched_str)
if failreason is None:
return self.success()
return self.failure(failreason)