diff --git a/cts/cts-exec.in b/cts/cts-exec.in index 6f00d68f01..dceab9ee36 100644 --- a/cts/cts-exec.in +++ b/cts/cts-exec.in @@ -1,922 +1,924 @@ #!@PYTHON@ """Regression tests for Pacemaker's pacemaker-execd.""" # pylint doesn't like the module name "cts-execd" which is an invalid complaint for this file # but probably something we want to continue warning about elsewhere # pylint: disable=invalid-name # pacemaker imports need to come after we modify sys.path, which pylint will complain about. # pylint: disable=wrong-import-position __copyright__ = "Copyright 2012-2024 the Pacemaker project contributors" __license__ = "GNU General Public License version 2 or later (GPLv2+) WITHOUT ANY WARRANTY" import argparse import os import stat import sys import subprocess import shutil import tempfile # Where to find test binaries # Prefer the source tree if available TEST_DIR = sys.path[0] # These imports allow running from a source checkout after running `make`. # Note that while this doesn't necessarily mean it will successfully run tests, # but being able to see --help output can be useful. if os.path.exists("@abs_top_srcdir@/python"): sys.path.insert(0, "@abs_top_srcdir@/python") # pylint: disable=comparison-of-constants,comparison-with-itself,condition-evals-to-constant if os.path.exists("@abs_top_builddir@/python") and "@abs_top_builddir@" != "@abs_top_srcdir@": sys.path.insert(0, "@abs_top_builddir@/python") from pacemaker.buildoptions import BuildOptions from pacemaker.exitstatus import ExitStatus from pacemaker._cts.corosync import Corosync from pacemaker._cts.process import killall, exit_if_proc_running, stdout_from_command from pacemaker._cts.test import Test, Tests # File permissions for executable scripts we create EXECMODE = stat.S_IRUSR | stat.S_IXUSR | stat.S_IRGRP | stat.S_IXGRP | stat.S_IROTH | stat.S_IXOTH def update_path(): # pylint: disable=protected-access """Set the PATH environment variable appropriately for the tests.""" new_path = os.environ['PATH'] if os.path.exists("%s/cts-exec.in" % TEST_DIR): print("Running tests from the source tree: %s (%s)" % (BuildOptions._BUILD_DIR, TEST_DIR)) # For pacemaker-execd, cts-exec-helper, and pacemaker-remoted new_path = "%s/daemons/execd:%s" % (BuildOptions._BUILD_DIR, new_path) new_path = "%s/tools:%s" % (BuildOptions._BUILD_DIR, new_path) # For crm_resource # For pacemaker-fenced new_path = "%s/daemons/fenced:%s" % (BuildOptions._BUILD_DIR, new_path) # For cts-support new_path = "%s/cts/support:%s" % (BuildOptions._BUILD_DIR, new_path) else: print("Running tests from the install tree: %s (not %s)" % (BuildOptions.DAEMON_DIR, TEST_DIR)) # For cts-exec-helper, cts-support, pacemaker-execd, pacemaker-fenced, # and pacemaker-remoted new_path = "%s:%s" % (BuildOptions.DAEMON_DIR, new_path) print('Using PATH="%s"' % new_path) os.environ['PATH'] = new_path class ExecTest(Test): """Executor for a single pacemaker-execd regression test.""" def __init__(self, name, description, **kwargs): """Create a new ExecTest instance. Arguments: name -- A unique name for this test. This can be used on the command line to specify that only a specific test should be executed. description -- A meaningful description for the test. Keyword arguments: tls -- Enable pacemaker-remoted. """ Test.__init__(self, name, description, **kwargs) self.tls = kwargs.get("tls", False) # If we are going to run the stonith resource tests, we will need to # launch and track Corosync and pacemaker-fenced. self._corosync = None self._fencer = None self._is_stonith_test = "stonith" in self.name if self.tls: self._daemon_location = "pacemaker-remoted" else: self._daemon_location = "pacemaker-execd" if self._is_stonith_test: self._corosync = Corosync(self.verbose, self.logdir, "cts-exec") self._test_tool_location = "cts-exec-helper" def _kill_daemons(self): killall([ "corosync", "pacemaker-fenced", "lt-pacemaker-fenced", "pacemaker-execd", "lt-pacemaker-execd", "cts-exec-helper", "lt-cts-exec-helper", "pacemaker-remoted", ]) def _start_daemons(self): if self._corosync: self._corosync.start(kill_first=True) # pylint: disable=consider-using-with self._fencer = subprocess.Popen(["pacemaker-fenced", "-s"]) cmd = [self._daemon_location, "-l", self.logpath] if self.verbose: cmd += ["-V"] # pylint: disable=consider-using-with self._daemon_process = subprocess.Popen(cmd) def clean_environment(self): """Clean up the host after running a test.""" if self._daemon_process: self._daemon_process.terminate() self._daemon_process.wait() if self.verbose: print("Daemon Output Start") with open(self.logpath, "rt", errors="replace", encoding="utf-8") as logfile: for line in logfile: print(line.strip()) print("Daemon Output End") if self._corosync: self._fencer.terminate() self._fencer.wait() self._corosync.stop() self._daemon_process = None self._fencer = None self._corosync = None def add_cmd(self, cmd=None, **kwargs): """Add a cts-exec-helper command to be executed as part of this test.""" if cmd is None: cmd = self._test_tool_location if cmd == self._test_tool_location: if self.verbose: kwargs["args"] += " -V " if self.tls: kwargs["args"] += " -S " kwargs["validate"] = False kwargs["check_rng"] = False kwargs["check_stderr"] = False Test.add_cmd(self, cmd, **kwargs) def run(self): """Execute this test.""" if self.tls and self._is_stonith_test: self._result_txt = "SKIPPED - '%s' - disabled when testing pacemaker_remote" % (self.name) print(self._result_txt) return Test.run(self) class ExecTests(Tests): """Collection of all pacemaker-execd regression tests.""" def __init__(self, **kwargs): """ Create a new ExecTests instance. Keyword arguments: tls -- Enable pacemaker-remoted. """ Tests.__init__(self, **kwargs) self.tls = kwargs.get("tls", False) self._action_timeout = " -t 9000 " self._installed_files = [] self._rsc_classes = self._setup_rsc_classes() print("Testing resource classes %r" % self._rsc_classes) if "lsb" in self._rsc_classes: service_agent = "LSBDummy" elif "systemd" in self._rsc_classes: service_agent = "pacemaker-cts-dummyd@3" else: service_agent = "unsupported" self._common_cmds = { "ocf_reg_line": '-c register_rsc -r ocf_test_rsc ' + self._action_timeout + ' -C ocf -P pacemaker -T Dummy', "ocf_reg_event": '-l "NEW_EVENT event_type:register rsc_id:ocf_test_rsc action:none rc:ok op_status:Done"', "ocf_unreg_line": '-c unregister_rsc -r ocf_test_rsc ' + self._action_timeout, "ocf_unreg_event": '-l "NEW_EVENT event_type:unregister rsc_id:ocf_test_rsc action:none rc:ok op_status:Done"', "ocf_start_line": '-c exec -r ocf_test_rsc -a start ' + self._action_timeout, "ocf_start_event": '-l "NEW_EVENT event_type:exec_complete rsc_id:ocf_test_rsc action:start rc:ok op_status:Done" ', "ocf_stop_line": '-c exec -r ocf_test_rsc -a stop ' + self._action_timeout, "ocf_stop_event": '-l "NEW_EVENT event_type:exec_complete rsc_id:ocf_test_rsc action:stop rc:ok op_status:Done" ', "ocf_monitor_line": '-c exec -r ocf_test_rsc -a monitor -i 2s ' + self._action_timeout, "ocf_monitor_event": '-l "NEW_EVENT event_type:exec_complete rsc_id:ocf_test_rsc action:monitor rc:ok op_status:Done" ' + self._action_timeout, "ocf_cancel_line": '-c cancel -r ocf_test_rsc -a monitor -i 2s ' + self._action_timeout, "ocf_cancel_event": '-l "NEW_EVENT event_type:exec_complete rsc_id:ocf_test_rsc action:monitor rc:ok op_status:Cancelled" ', "systemd_reg_line": '-c register_rsc -r systemd_test_rsc ' + self._action_timeout + ' -C systemd -T pacemaker-cts-dummyd@3', "systemd_reg_event": '-l "NEW_EVENT event_type:register rsc_id:systemd_test_rsc action:none rc:ok op_status:Done"', "systemd_unreg_line": '-c unregister_rsc -r systemd_test_rsc ' + self._action_timeout, "systemd_unreg_event": '-l "NEW_EVENT event_type:unregister rsc_id:systemd_test_rsc action:none rc:ok op_status:Done"', "systemd_start_line": '-c exec -r systemd_test_rsc -a start ' + self._action_timeout, "systemd_start_event": '-l "NEW_EVENT event_type:exec_complete rsc_id:systemd_test_rsc action:start rc:ok op_status:Done" ', "systemd_stop_line": '-c exec -r systemd_test_rsc -a stop ' + self._action_timeout, "systemd_stop_event": '-l "NEW_EVENT event_type:exec_complete rsc_id:systemd_test_rsc action:stop rc:ok op_status:Done" ', "systemd_monitor_line": '-c exec -r systemd_test_rsc -a monitor -i 2s ' + self._action_timeout, "systemd_monitor_event": '-l "NEW_EVENT event_type:exec_complete rsc_id:systemd_test_rsc action:monitor rc:ok op_status:Done" -t 15000 ', "systemd_cancel_line": '-c cancel -r systemd_test_rsc -a monitor -i 2s ' + self._action_timeout, "systemd_cancel_event": '-l "NEW_EVENT event_type:exec_complete rsc_id:systemd_test_rsc action:monitor rc:ok op_status:Cancelled" ', "service_reg_line": '-c register_rsc -r service_test_rsc ' + self._action_timeout + ' -C service -T %s' % service_agent, "service_reg_event": '-l "NEW_EVENT event_type:register rsc_id:service_test_rsc action:none rc:ok op_status:Done"', "service_unreg_line": '-c unregister_rsc -r service_test_rsc ' + self._action_timeout, "service_unreg_event": '-l "NEW_EVENT event_type:unregister rsc_id:service_test_rsc action:none rc:ok op_status:Done"', "service_start_line": '-c exec -r service_test_rsc -a start ' + self._action_timeout, "service_start_event": '-l "NEW_EVENT event_type:exec_complete rsc_id:service_test_rsc action:start rc:ok op_status:Done" ', "service_stop_line": '-c exec -r service_test_rsc -a stop ' + self._action_timeout, "service_stop_event": '-l "NEW_EVENT event_type:exec_complete rsc_id:service_test_rsc action:stop rc:ok op_status:Done" ', "service_monitor_line": '-c exec -r service_test_rsc -a monitor -i 2s ' + self._action_timeout, "service_monitor_event": '-l "NEW_EVENT event_type:exec_complete rsc_id:service_test_rsc action:monitor rc:ok op_status:Done" ' + self._action_timeout, "service_cancel_line": '-c cancel -r service_test_rsc -a monitor -i 2s ' + self._action_timeout, "service_cancel_event": '-l "NEW_EVENT event_type:exec_complete rsc_id:service_test_rsc action:monitor rc:ok op_status:Cancelled" ', "lsb_reg_line": '-c register_rsc -r lsb_test_rsc ' + self._action_timeout + ' -C lsb -T LSBDummy', "lsb_reg_event": '-l "NEW_EVENT event_type:register rsc_id:lsb_test_rsc action:none rc:ok op_status:Done" ', "lsb_unreg_line": '-c unregister_rsc -r lsb_test_rsc ' + self._action_timeout, "lsb_unreg_event": '-l "NEW_EVENT event_type:unregister rsc_id:lsb_test_rsc action:none rc:ok op_status:Done"', "lsb_start_line": '-c exec -r lsb_test_rsc -a start ' + self._action_timeout, "lsb_start_event": '-l "NEW_EVENT event_type:exec_complete rsc_id:lsb_test_rsc action:start rc:ok op_status:Done" ', "lsb_stop_line": '-c exec -r lsb_test_rsc -a stop ' + self._action_timeout, "lsb_stop_event": '-l "NEW_EVENT event_type:exec_complete rsc_id:lsb_test_rsc action:stop rc:ok op_status:Done" ', "lsb_monitor_line": '-c exec -r lsb_test_rsc -a status -i 2s ' + self._action_timeout, "lsb_monitor_event": '-l "NEW_EVENT event_type:exec_complete rsc_id:lsb_test_rsc action:status rc:ok op_status:Done" ' + self._action_timeout, "lsb_cancel_line": '-c cancel -r lsb_test_rsc -a status -i 2s ' + self._action_timeout, "lsb_cancel_event": '-l "NEW_EVENT event_type:exec_complete rsc_id:lsb_test_rsc action:status rc:ok op_status:Cancelled" ', "stonith_reg_line": '-c register_rsc -r stonith_test_rsc ' + self._action_timeout + ' -C stonith -P pacemaker -T fence_dummy', "stonith_reg_event": '-l "NEW_EVENT event_type:register rsc_id:stonith_test_rsc action:none rc:ok op_status:Done" ', "stonith_unreg_line": '-c unregister_rsc -r stonith_test_rsc ' + self._action_timeout, "stonith_unreg_event": '-l "NEW_EVENT event_type:unregister rsc_id:stonith_test_rsc action:none rc:ok op_status:Done"', "stonith_start_line": '-c exec -r stonith_test_rsc -a start ' + self._action_timeout, "stonith_start_event": '-l "NEW_EVENT event_type:exec_complete rsc_id:stonith_test_rsc action:start rc:ok op_status:Done" ', "stonith_stop_line": '-c exec -r stonith_test_rsc -a stop ' + self._action_timeout, "stonith_stop_event": '-l "NEW_EVENT event_type:exec_complete rsc_id:stonith_test_rsc action:stop rc:ok op_status:Done" ', "stonith_monitor_line": '-c exec -r stonith_test_rsc -a monitor -i 2s ' + self._action_timeout, "stonith_monitor_event": '-l "NEW_EVENT event_type:exec_complete rsc_id:stonith_test_rsc action:monitor rc:ok op_status:Done" ' + self._action_timeout, "stonith_cancel_line": '-c cancel -r stonith_test_rsc -a monitor -i 2s ' + self._action_timeout, "stonith_cancel_event": '-l "NEW_EVENT event_type:exec_complete rsc_id:stonith_test_rsc action:monitor rc:ok op_status:Cancelled" ', } def _setup_rsc_classes(self): """Determine which resource classes are supported.""" classes = stdout_from_command(["crm_resource", "--list-standards"]) # Strip trailing empty line classes = classes[:-1] if self.tls: classes.remove("stonith") if "systemd" in classes: try: # This code doesn't need this import, but pacemaker-cts-dummyd # does, so ensure the dependency is available rather than cause # all systemd tests to fail. # pylint: disable=import-outside-toplevel,unused-import import systemd.daemon except ImportError: print("Python systemd bindings not found.") print("The tests for systemd class are not going to be run.") classes.remove("systemd") return classes def new_test(self, name, description): """Create a named test.""" test = ExecTest(name, description, verbose=self.verbose, tls=self.tls, timeout=self.timeout, force_wait=self.force_wait, logdir=self.logdir) self._tests.append(test) return test def setup_environment(self): """Prepare the host before executing any tests.""" if BuildOptions.REMOTE_ENABLED: os.system("service pacemaker_remote stop") self.cleanup_environment() - if self.tls and not os.path.isfile("/etc/pacemaker/authkey"): - print("Installing /etc/pacemaker/authkey ...") - os.system("mkdir -p /etc/pacemaker") - os.system("dd if=/dev/urandom of=/etc/pacemaker/authkey bs=4096 count=1") - self._installed_files.append("/etc/pacemaker/authkey") + # @TODO Support the option of using specified existing certificates + authkey = "%s/authkey" % BuildOptions.PACEMAKER_CONFIG_DIR + if self.tls and not os.path.isfile(authkey): + print("Installing %s ..." % authkey) + os.system("mkdir -p %s" % BuildOptions.PACEMAKER_CONFIG_DIR) + os.system("dd if=/dev/urandom of=%s bs=4096 count=1" % authkey) + self._installed_files.append(authkey) # If we're in build directory, install agents if not already installed # pylint: disable=protected-access if os.path.exists("%s/cts/cts-exec.in" % BuildOptions._BUILD_DIR): if not os.path.exists("%s/pacemaker" % BuildOptions.OCF_RA_INSTALL_DIR): # @TODO remember which components were created and remove them os.makedirs("%s/pacemaker" % BuildOptions.OCF_RA_INSTALL_DIR, 0o755) for agent in ["Dummy", "Stateful", "ping"]: agent_source = "%s/extra/resources/%s" % (BuildOptions._BUILD_DIR, agent) agent_dest = "%s/pacemaker/%s" % (BuildOptions.OCF_RA_INSTALL_DIR, agent) if not os.path.exists(agent_dest): print("Installing %s ..." % agent_dest) shutil.copyfile(agent_source, agent_dest) os.chmod(agent_dest, EXECMODE) self._installed_files.append(agent_dest) subprocess.call(["cts-support", "install"]) def cleanup_environment(self): """Clean up the host after executing desired tests.""" for installed_file in self._installed_files: print("Removing %s ..." % installed_file) os.remove(installed_file) subprocess.call(["cts-support", "uninstall"]) def _build_cmd_str(self, rsc, ty): """Construct a command string for the given resource and type.""" return "%s %s" % (self._common_cmds["%s_%s_line" % (rsc, ty)], self._common_cmds["%s_%s_event" % (rsc, ty)]) def build_generic_tests(self): """Register tests that apply to all resource classes.""" common_cmds = self._common_cmds # register/unregister tests for rsc in self._rsc_classes: test = self.new_test("generic_registration_%s" % rsc, "Simple resource registration test for %s standard" % rsc) test.add_cmd(args=self._build_cmd_str(rsc, "reg")) test.add_cmd(args=self._build_cmd_str(rsc, "unreg")) # start/stop tests for rsc in self._rsc_classes: test = self.new_test("generic_start_stop_%s" % rsc, "Simple start and stop test for %s standard" % rsc) test.add_cmd(args=self._build_cmd_str(rsc, "reg")) test.add_cmd(args=self._build_cmd_str(rsc, "start")) test.add_cmd(args=self._build_cmd_str(rsc, "stop")) test.add_cmd(args=self._build_cmd_str(rsc, "unreg")) # monitor cancel test for rsc in self._rsc_classes: test = self.new_test("generic_monitor_cancel_%s" % rsc, "Simple monitor cancel test for %s standard" % rsc) test.add_cmd(args=self._build_cmd_str(rsc, "reg")) test.add_cmd(args=self._build_cmd_str(rsc, "start")) test.add_cmd(args=self._build_cmd_str(rsc, "monitor")) # If this fails, that means the monitor may not be getting rescheduled test.add_cmd(args=common_cmds["%s_monitor_event" % rsc]) # If this fails, that means the monitor may not be getting rescheduled test.add_cmd(args=common_cmds["%s_monitor_event" % rsc]) test.add_cmd(args=self._build_cmd_str(rsc, "cancel")) # If this happens the monitor did not actually cancel correctly test.add_cmd(args=common_cmds["%s_monitor_event" % rsc], expected_exitcode=ExitStatus.TIMEOUT) # If this happens the monitor did not actually cancel correctly test.add_cmd(args=common_cmds["%s_monitor_event" % rsc], expected_exitcode=ExitStatus.TIMEOUT) test.add_cmd(args=self._build_cmd_str(rsc, "stop")) test.add_cmd(args=self._build_cmd_str(rsc, "unreg")) # monitor duplicate test for rsc in self._rsc_classes: test = self.new_test("generic_monitor_duplicate_%s" % rsc, "Test creation and canceling of duplicate monitors for %s standard" % rsc) test.add_cmd(args=self._build_cmd_str(rsc, "reg")) test.add_cmd(args=self._build_cmd_str(rsc, "start")) test.add_cmd(args=self._build_cmd_str(rsc, "monitor")) # If this fails, that means the monitor may not be getting rescheduled test.add_cmd(args=common_cmds["%s_monitor_event" % rsc]) # If this fails, that means the monitor may not be getting rescheduled test.add_cmd(args=common_cmds["%s_monitor_event" % rsc]) # Add the duplicate monitors test.add_cmd(args=self._build_cmd_str(rsc, "monitor")) test.add_cmd(args=self._build_cmd_str(rsc, "monitor")) test.add_cmd(args=self._build_cmd_str(rsc, "monitor")) test.add_cmd(args=self._build_cmd_str(rsc, "monitor")) # verify we still get update events # If this fails, that means the monitor may not be getting rescheduled test.add_cmd(args=common_cmds["%s_monitor_event" % rsc]) # cancel the monitor, if the duplicate merged with the original, we should no longer see monitor updates test.add_cmd(args=self._build_cmd_str(rsc, "cancel")) # If this happens the monitor did not actually cancel correctly test.add_cmd(args=common_cmds["%s_monitor_event" % rsc], expected_exitcode=ExitStatus.TIMEOUT) # If this happens the monitor did not actually cancel correctly test.add_cmd(args=common_cmds["%s_monitor_event" % rsc], expected_exitcode=ExitStatus.TIMEOUT) test.add_cmd(args=self._build_cmd_str(rsc, "stop")) test.add_cmd(args=self._build_cmd_str(rsc, "unreg")) # stop implies cancel test for rsc in self._rsc_classes: test = self.new_test("generic_stop_implies_cancel_%s" % rsc, "Verify stopping a resource implies cancel of recurring ops for %s standard" % rsc) test.add_cmd(args=self._build_cmd_str(rsc, "reg")) test.add_cmd(args=self._build_cmd_str(rsc, "start")) test.add_cmd(args=self._build_cmd_str(rsc, "monitor")) # If this fails, that means the monitor may not be getting rescheduled test.add_cmd(args=common_cmds["%s_monitor_event" % rsc]) # If this fails, that means the monitor may not be getting rescheduled test.add_cmd(args=common_cmds["%s_monitor_event" % rsc]) test.add_cmd(args=self._build_cmd_str(rsc, "stop")) # If this happens the monitor did not actually cancel correctly test.add_cmd(args=common_cmds["%s_monitor_event" % rsc], expected_exitcode=ExitStatus.TIMEOUT) # If this happens the monitor did not actually cancel correctly test.add_cmd(args=common_cmds["%s_monitor_event" % rsc], expected_exitcode=ExitStatus.TIMEOUT) test.add_cmd(args=self._build_cmd_str(rsc, "unreg")) def build_multi_rsc_tests(self): """Register complex tests that involve managing multiple resouces of different types.""" common_cmds = self._common_cmds # do not use service and systemd at the same time, it is the same resource. # register start monitor stop unregister resources of each type at the same time test = self.new_test("multi_rsc_start_stop_all_including_stonith", "Start, monitor, and stop resources of multiple types and classes") for rsc in self._rsc_classes: test.add_cmd(args=self._build_cmd_str(rsc, "reg")) for rsc in self._rsc_classes: test.add_cmd(args=self._build_cmd_str(rsc, "start")) for rsc in self._rsc_classes: test.add_cmd(args=self._build_cmd_str(rsc, "monitor")) for rsc in self._rsc_classes: # If this fails, that means the monitor is not being rescheduled test.add_cmd(args=common_cmds["%s_monitor_event" % rsc]) for rsc in self._rsc_classes: test.add_cmd(args=self._build_cmd_str(rsc, "cancel")) for rsc in self._rsc_classes: test.add_cmd(args=self._build_cmd_str(rsc, "stop")) for rsc in self._rsc_classes: test.add_cmd(args=self._build_cmd_str(rsc, "unreg")) def build_negative_tests(self): """Register tests related to how pacemaker-execd handles failures.""" # ocf start timeout test test = self.new_test("ocf_start_timeout", "Force start timeout to occur, verify start failure.") test.add_cmd(args='-c register_rsc -r test_rsc -C ocf -P pacemaker -T Dummy ' + self._action_timeout + '-l "NEW_EVENT event_type:register rsc_id:test_rsc action:none rc:ok op_status:Done" ') # -t must be less than self._action_timeout test.add_cmd(args='-c exec -r test_rsc -a start -k op_sleep -v 5 -t 1000 -w') test.add_cmd(args='-l "NEW_EVENT event_type:exec_complete rsc_id:test_rsc action:start rc:Error occurred op_status:Timed out" ' + self._action_timeout) test.add_cmd(args='-c exec -r test_rsc -a stop ' + self._action_timeout + '-l "NEW_EVENT event_type:exec_complete rsc_id:test_rsc action:stop rc:ok op_status:Done" ') test.add_cmd(args='-c unregister_rsc -r test_rsc ' + self._action_timeout + '-l "NEW_EVENT event_type:unregister rsc_id:test_rsc action:none rc:ok op_status:Done" ') # stonith start timeout test test = self.new_test("stonith_start_timeout", "Force start timeout to occur, verify start failure.") test.add_cmd(args='-c register_rsc -r test_rsc -C stonith -P pacemaker -T fence_dummy ' + self._action_timeout + '-l "NEW_EVENT event_type:register rsc_id:test_rsc action:none rc:ok op_status:Done"') # -t must be less than self._action_timeout test.add_cmd(args='-c exec -r test_rsc -a start -k monitor_delay -v 30 -t 1000 -w') test.add_cmd(args='-l "NEW_EVENT event_type:exec_complete rsc_id:test_rsc action:start rc:Error occurred op_status:Timed out" ' + self._action_timeout) test.add_cmd(args='-c exec -r test_rsc -a stop ' + self._action_timeout + '-l "NEW_EVENT event_type:exec_complete rsc_id:test_rsc action:stop rc:ok op_status:Done" ') test.add_cmd(args='-c unregister_rsc -r test_rsc ' + self._action_timeout + '-l "NEW_EVENT event_type:unregister rsc_id:test_rsc action:none rc:ok op_status:Done" ') # stonith component fail test = self.new_test("stonith_component_fail", "Kill stonith component after pacemaker-execd connects") test.add_cmd(args=self._build_cmd_str("stonith", "reg")) test.add_cmd(args=self._build_cmd_str("stonith", "start")) test.add_cmd(args='-c exec -r stonith_test_rsc -a monitor -i 600s ' '-l "NEW_EVENT event_type:exec_complete rsc_id:stonith_test_rsc action:monitor rc:ok op_status:Done" ' + self._action_timeout) test.add_cmd(args='-l "NEW_EVENT event_type:exec_complete rsc_id:stonith_test_rsc action:monitor rc:Error occurred op_status:error" -t 15000', kill="killall -9 -q pacemaker-fenced lt-pacemaker-fenced") test.add_cmd(args=self._build_cmd_str("stonith", "unreg")) # monitor fail for ocf resources test = self.new_test("monitor_fail_ocf", "Force ocf monitor to fail, verify failure is reported.") test.add_cmd(args='-c register_rsc -r test_rsc -C ocf -P pacemaker -T Dummy ' + self._action_timeout + '-l "NEW_EVENT event_type:register rsc_id:test_rsc action:none rc:ok op_status:Done" ') test.add_cmd(args='-c exec -r test_rsc -a start ' + self._action_timeout + '-l "NEW_EVENT event_type:exec_complete rsc_id:test_rsc action:start rc:ok op_status:Done" ') test.add_cmd(args='-c exec -r test_rsc -a start ' + self._action_timeout + '-l "NEW_EVENT event_type:exec_complete rsc_id:test_rsc action:start rc:ok op_status:Done" ') test.add_cmd(args='-c exec -r test_rsc -a monitor -i 1s ' + self._action_timeout + '-l "NEW_EVENT event_type:exec_complete rsc_id:test_rsc action:monitor rc:ok op_status:Done"') test.add_cmd(args='-l "NEW_EVENT event_type:exec_complete rsc_id:test_rsc action:monitor rc:ok op_status:Done"' + self._action_timeout) test.add_cmd(args='-l "NEW_EVENT event_type:exec_complete rsc_id:test_rsc action:monitor rc:ok op_status:Done"' + self._action_timeout) test.add_cmd(args='-l "NEW_EVENT event_type:exec_complete rsc_id:test_rsc action:monitor rc:not running op_status:Done" ' + self._action_timeout, kill="rm -f %s/run/Dummy-test_rsc.state" % BuildOptions.LOCAL_STATE_DIR) test.add_cmd(args='-c cancel -r test_rsc -a monitor -i 1s ' + self._action_timeout + '-l "NEW_EVENT event_type:exec_complete rsc_id:test_rsc action:monitor rc:not running op_status:Cancelled" ') test.add_cmd(args='-l "NEW_EVENT event_type:exec_complete rsc_id:test_rsc action:monitor rc:not running op_status:Done" ' + self._action_timeout, expected_exitcode=ExitStatus.TIMEOUT) test.add_cmd(args='-l "NEW_EVENT event_type:exec_complete rsc_id:test_rsc action:monitor rc:ok op_status:Done" ' + self._action_timeout, expected_exitcode=ExitStatus.TIMEOUT) test.add_cmd(args='-c unregister_rsc -r test_rsc ' + self._action_timeout + '-l "NEW_EVENT event_type:unregister rsc_id:test_rsc action:none rc:ok op_status:Done" ') # verify notify changes only for monitor operation test = self.new_test("monitor_changes_only", "Verify when flag is set, only monitor changes are notified.") test.add_cmd(args='-c register_rsc -r test_rsc -C ocf -P pacemaker -T Dummy ' + self._action_timeout + '-l "NEW_EVENT event_type:register rsc_id:test_rsc action:none rc:ok op_status:Done" ') test.add_cmd(args='-c exec -r test_rsc -a start ' + self._action_timeout + ' -o ' '-l "NEW_EVENT event_type:exec_complete rsc_id:test_rsc action:start rc:ok op_status:Done" ') test.add_cmd(args='-c exec -r test_rsc -a monitor -i 1s ' + self._action_timeout + ' -o -l "NEW_EVENT event_type:exec_complete rsc_id:test_rsc action:monitor rc:ok op_status:Done" ') test.add_cmd(args='-l "NEW_EVENT event_type:exec_complete rsc_id:test_rsc action:monitor rc:ok op_status:Done" ' + self._action_timeout, expected_exitcode=ExitStatus.TIMEOUT) test.add_cmd(args='-l "NEW_EVENT event_type:exec_complete rsc_id:test_rsc action:monitor rc:not running op_status:Done"' + self._action_timeout, kill='rm -f %s/run/Dummy-test_rsc.state' % BuildOptions.LOCAL_STATE_DIR) test.add_cmd(args='-c cancel -r test_rsc -a monitor -i 1s' + self._action_timeout + '-l "NEW_EVENT event_type:exec_complete rsc_id:test_rsc action:monitor rc:not running op_status:Cancelled" ') test.add_cmd(args='-l "NEW_EVENT event_type:exec_complete rsc_id:test_rsc action:monitor rc:not running op_status:Done" ' + self._action_timeout, expected_exitcode=ExitStatus.TIMEOUT) test.add_cmd(args='-l "NEW_EVENT event_type:exec_complete rsc_id:test_rsc action:monitor rc:ok op_status:Done" ' + self._action_timeout, expected_exitcode=ExitStatus.TIMEOUT) test.add_cmd(args='-c unregister_rsc -r test_rsc ' + self._action_timeout + '-l "NEW_EVENT event_type:unregister rsc_id:test_rsc action:none rc:ok op_status:Done"') # monitor fail for systemd resource if "systemd" in self._rsc_classes: test = self.new_test("monitor_fail_systemd", "Force systemd monitor to fail, verify failure is reported..") test.add_cmd(args='-c register_rsc -r test_rsc -C systemd -T pacemaker-cts-dummyd@3 ' + self._action_timeout + '-l "NEW_EVENT event_type:register rsc_id:test_rsc action:none rc:ok op_status:Done" ') test.add_cmd(args='-c exec -r test_rsc -a start ' + self._action_timeout + '-l "NEW_EVENT event_type:exec_complete rsc_id:test_rsc action:start rc:ok op_status:Done" ') test.add_cmd(args='-c exec -r test_rsc -a start ' + self._action_timeout + '-l "NEW_EVENT event_type:exec_complete rsc_id:test_rsc action:start rc:ok op_status:Done" ') test.add_cmd(args='-c exec -r test_rsc -a monitor -i 1s ' + self._action_timeout + '-l "NEW_EVENT event_type:exec_complete rsc_id:test_rsc action:monitor rc:ok op_status:Done" ') test.add_cmd(args='-l "NEW_EVENT event_type:exec_complete rsc_id:test_rsc action:monitor rc:ok op_status:Done" ' + self._action_timeout) test.add_cmd(args='-l "NEW_EVENT event_type:exec_complete rsc_id:test_rsc action:monitor rc:ok op_status:Done" ' + self._action_timeout) test.add_cmd(args='-l "NEW_EVENT event_type:exec_complete rsc_id:test_rsc action:monitor rc:not running op_status:Done"' + self._action_timeout, kill="pkill -9 -f pacemaker-cts-dummyd") test.add_cmd(args='-c cancel -r test_rsc -a monitor -i 1s' + self._action_timeout + '-l "NEW_EVENT event_type:exec_complete rsc_id:test_rsc action:monitor rc:not running op_status:Cancelled" ') test.add_cmd(args='-l "NEW_EVENT event_type:exec_complete rsc_id:test_rsc action:monitor rc:not running op_status:Done" ' + self._action_timeout, expected_exitcode=ExitStatus.TIMEOUT) test.add_cmd(args='-l "NEW_EVENT event_type:exec_complete rsc_id:test_rsc action:monitor rc:ok op_status:Done" ' + self._action_timeout, expected_exitcode=ExitStatus.TIMEOUT) test.add_cmd(args='-c unregister_rsc -r test_rsc ' + self._action_timeout + '-l "NEW_EVENT event_type:unregister rsc_id:test_rsc action:none rc:ok op_status:Done" ') # Cancel non-existent operation on a resource test = self.new_test("cancel_non_existent_op", "Attempt to cancel the wrong monitor operation, verify expected failure") test.add_cmd(args='-c register_rsc -r test_rsc -C ocf -P pacemaker -T Dummy ' + self._action_timeout + '-l "NEW_EVENT event_type:register rsc_id:test_rsc action:none rc:ok op_status:Done" ') test.add_cmd(args='-c exec -r test_rsc -a start ' + self._action_timeout + '-l "NEW_EVENT event_type:exec_complete rsc_id:test_rsc action:start rc:ok op_status:Done" ') test.add_cmd(args='-c exec -r test_rsc -a start ' + self._action_timeout + '-l "NEW_EVENT event_type:exec_complete rsc_id:test_rsc action:start rc:ok op_status:Done" ') test.add_cmd(args='-c exec -r test_rsc -a monitor -i 1s ' + self._action_timeout + '-l "NEW_EVENT event_type:exec_complete rsc_id:test_rsc action:monitor rc:ok op_status:Done" ') test.add_cmd(args='-l "NEW_EVENT event_type:exec_complete rsc_id:test_rsc action:monitor rc:ok op_status:Done" ' + self._action_timeout) # interval is wrong, should fail test.add_cmd(args='-c cancel -r test_rsc -a monitor -i 2s' + self._action_timeout + ' -l "NEW_EVENT event_type:exec_complete rsc_id:test_rsc action:monitor rc:not running op_status:Cancelled" ', expected_exitcode=ExitStatus.ERROR) # action name is wrong, should fail test.add_cmd(args='-c cancel -r test_rsc -a stop -i 1s' + self._action_timeout + '-l "NEW_EVENT event_type:exec_complete rsc_id:test_rsc action:monitor rc:not running op_status:Cancelled" ', expected_exitcode=ExitStatus.ERROR) test.add_cmd(args='-c unregister_rsc -r test_rsc ' + self._action_timeout + '-l "NEW_EVENT event_type:unregister rsc_id:test_rsc action:none rc:ok op_status:Done" ') # Attempt to invoke non-existent rsc id test = self.new_test("invoke_non_existent_rsc", "Attempt to perform operations on a non-existent rsc id.") test.add_cmd(args='-c exec -r test_rsc -a start ' + self._action_timeout + '-l "NEW_EVENT event_type:exec_complete rsc_id:test_rsc action:start rc:error op_status:Done" ', expected_exitcode=ExitStatus.ERROR) test.add_cmd(args='-c exec -r test_rsc -a stop ' + self._action_timeout + '-l "NEW_EVENT event_type:exec_complete rsc_id:test_rsc action:stop rc:ok op_status:Done" ', expected_exitcode=ExitStatus.ERROR) test.add_cmd(args='-c exec -r test_rsc -a monitor -i 6s ' + self._action_timeout + '-l "NEW_EVENT event_type:exec_complete rsc_id:test_rsc action:monitor rc:ok op_status:Done" ', expected_exitcode=ExitStatus.ERROR) test.add_cmd(args='-c cancel -r test_rsc -a start ' + self._action_timeout + '-l "NEW_EVENT event_type:exec_complete rsc_id:test_rsc action:start rc:ok op_status:Cancelled" ', expected_exitcode=ExitStatus.ERROR) test.add_cmd(args='-c unregister_rsc -r test_rsc ' + self._action_timeout + '-l "NEW_EVENT event_type:unregister rsc_id:test_rsc action:none rc:ok op_status:Done" ') # Register and start a resource that doesn't exist, systemd if "systemd" in self._rsc_classes: test = self.new_test("start_uninstalled_systemd", "Register uninstalled systemd agent, try to start, verify expected failure") test.add_cmd(args='-c register_rsc -r test_rsc -C systemd -T this_is_fake1234 ' + self._action_timeout + '-l "NEW_EVENT event_type:register rsc_id:test_rsc action:none rc:ok op_status:Done" ') test.add_cmd(args='-c exec -r test_rsc -a start ' + self._action_timeout + '-l "NEW_EVENT event_type:exec_complete rsc_id:test_rsc action:start rc:not installed op_status:Not installed" ') test.add_cmd(args='-c unregister_rsc -r test_rsc ' + self._action_timeout + '-l "NEW_EVENT event_type:unregister rsc_id:test_rsc action:none rc:ok op_status:Done" ') # Register and start a resource that doesn't exist, ocf test = self.new_test("start_uninstalled_ocf", "Register uninstalled ocf agent, try to start, verify expected failure.") test.add_cmd(args='-c register_rsc -r test_rsc -C ocf -P pacemaker -T this_is_fake1234 ' + self._action_timeout + '-l "NEW_EVENT event_type:register rsc_id:test_rsc action:none rc:ok op_status:Done" ') test.add_cmd(args='-c exec -r test_rsc -a start ' + self._action_timeout + '-l "NEW_EVENT event_type:exec_complete rsc_id:test_rsc action:start rc:not installed op_status:Not installed" ') test.add_cmd(args='-c unregister_rsc -r test_rsc ' + self._action_timeout + '-l "NEW_EVENT event_type:unregister rsc_id:test_rsc action:none rc:ok op_status:Done" ') # Register ocf with non-existent provider test = self.new_test("start_ocf_bad_provider", "Register ocf agent with a non-existent provider, verify expected failure.") test.add_cmd(args='-c register_rsc -r test_rsc -C ocf -P pancakes -T Dummy ' + self._action_timeout + '-l "NEW_EVENT event_type:register rsc_id:test_rsc action:none rc:ok op_status:Done" ') test.add_cmd(args='-c exec -r test_rsc -a start ' + self._action_timeout + '-l "NEW_EVENT event_type:exec_complete rsc_id:test_rsc action:start rc:not installed op_status:Not installed" ') test.add_cmd(args='-c unregister_rsc -r test_rsc ' + self._action_timeout + '-l "NEW_EVENT event_type:unregister rsc_id:test_rsc action:none rc:ok op_status:Done" ') # Register ocf with empty provider field test = self.new_test("start_ocf_no_provider", "Register ocf agent with a no provider, verify expected failure.") test.add_cmd(args='-c register_rsc -r test_rsc -C ocf -T Dummy ' + self._action_timeout + '-l "NEW_EVENT event_type:register rsc_id:test_rsc action:none rc:ok op_status:Done" ', expected_exitcode=ExitStatus.ERROR) test.add_cmd(args='-c exec -r test_rsc -a start ' + self._action_timeout + '-l "NEW_EVENT event_type:exec_complete rsc_id:test_rsc action:start rc:ok op_status:Error" ', expected_exitcode=ExitStatus.ERROR) test.add_cmd(args='-c unregister_rsc -r test_rsc ' + self._action_timeout + '-l "NEW_EVENT event_type:unregister rsc_id:test_rsc action:none rc:ok op_status:Done" ') def build_stress_tests(self): """Register stress tests.""" timeout = "-t 20000" iterations = 25 test = self.new_test("ocf_stress", "Verify OCF agent handling works under load") for i in range(iterations): test.add_cmd(args='-c register_rsc -r rsc_%s %s -C ocf -P heartbeat -T Dummy -l "NEW_EVENT event_type:register rsc_id:rsc_%s action:none rc:ok op_status:Done"' % (i, timeout, i)) test.add_cmd(args='-c exec -r rsc_%s -a start %s -l "NEW_EVENT event_type:exec_complete rsc_id:rsc_%s action:start rc:ok op_status:Done"' % (i, timeout, i)) test.add_cmd(args='-c exec -r rsc_%s -a monitor %s -i 1s ' '-l "NEW_EVENT event_type:exec_complete rsc_id:rsc_%s action:monitor rc:ok op_status:Done"' % (i, timeout, i)) for i in range(iterations): test.add_cmd(args='-c exec -r rsc_%s -a stop %s -l "NEW_EVENT event_type:exec_complete rsc_id:rsc_%s action:stop rc:ok op_status:Done"' % (i, timeout, i)) test.add_cmd(args='-c unregister_rsc -r rsc_%s %s -l "NEW_EVENT event_type:unregister rsc_id:rsc_%s action:none rc:ok op_status:Done"' % (i, timeout, i)) if "systemd" in self._rsc_classes: test = self.new_test("systemd_stress", "Verify systemd dbus connection works under load") for i in range(iterations): test.add_cmd(args='-c register_rsc -r rsc_%s %s -C systemd -T pacemaker-cts-dummyd@3 -l "NEW_EVENT event_type:register rsc_id:rsc_%s action:none rc:ok op_status:Done"' % (i, timeout, i)) test.add_cmd(args='-c exec -r rsc_%s -a start %s -l "NEW_EVENT event_type:exec_complete rsc_id:rsc_%s action:start rc:ok op_status:Done"' % (i, timeout, i)) test.add_cmd(args='-c exec -r rsc_%s -a monitor %s -i 1s ' '-l "NEW_EVENT event_type:exec_complete rsc_id:rsc_%s action:monitor rc:ok op_status:Done"' % (i, timeout, i)) for i in range(iterations): test.add_cmd(args='-c exec -r rsc_%s -a stop %s -l "NEW_EVENT event_type:exec_complete rsc_id:rsc_%s action:stop rc:ok op_status:Done"' % (i, timeout, i)) test.add_cmd(args='-c unregister_rsc -r rsc_%s %s -l "NEW_EVENT event_type:unregister rsc_id:rsc_%s action:none rc:ok op_status:Done"' % (i, timeout, i)) iterations = 9 timeout = "-t 30000" # Verify recurring op in-flight collision is handled in series properly test = self.new_test("rsc_inflight_collision", "Verify recurring ops do not collide with other operations for the same rsc.") test.add_cmd(args='-c register_rsc -r test_rsc -P pacemaker -C ocf -T Dummy ' '-l "NEW_EVENT event_type:register rsc_id:test_rsc action:none rc:ok op_status:Done" ' + self._action_timeout) test.add_cmd(args='-c exec -r test_rsc -a start %s -k op_sleep -v 1 -l "NEW_EVENT event_type:exec_complete rsc_id:test_rsc action:start rc:ok op_status:Done"' % timeout) for i in range(iterations): test.add_cmd(args='-c exec -r test_rsc -a monitor %s -i 100%dms -k op_sleep -v 2 ' '-l "NEW_EVENT event_type:exec_complete rsc_id:test_rsc action:monitor rc:ok op_status:Done"' % (timeout, i)) test.add_cmd(args='-c exec -r test_rsc -a stop %s -l "NEW_EVENT event_type:exec_complete rsc_id:test_rsc action:stop rc:ok op_status:Done"' % timeout) test.add_cmd(args='-c unregister_rsc -r test_rsc %s -l "NEW_EVENT event_type:unregister rsc_id:test_rsc action:none rc:ok op_status:Done"' % timeout) def build_custom_tests(self): """Register tests that target specific cases.""" # verify resource temporary folder is created and used by OCF agents test = self.new_test("rsc_tmp_dir", "Verify creation and use of rsc temporary state directory") test.add_cmd("ls", args="-al %s" % BuildOptions.RSC_TMP_DIR) test.add_cmd(args='-c register_rsc -r test_rsc -P heartbeat -C ocf -T Dummy ' '-l "NEW_EVENT event_type:register rsc_id:test_rsc action:none rc:ok op_status:Done" ' + self._action_timeout) test.add_cmd(args='-c exec -r test_rsc -a start -t 4000') test.add_cmd("ls", args="-al %s" % BuildOptions.RSC_TMP_DIR) test.add_cmd("ls", args="%s/Dummy-test_rsc.state" % BuildOptions.RSC_TMP_DIR) test.add_cmd(args='-c exec -r test_rsc -a stop -t 4000') test.add_cmd(args='-c unregister_rsc -r test_rsc ' + self._action_timeout + '-l "NEW_EVENT event_type:unregister rsc_id:test_rsc action:none rc:ok op_status:Done" ') # start delay then stop test test = self.new_test("start_delay", "Verify start delay works as expected.") test.add_cmd(args='-c register_rsc -r test_rsc -P pacemaker -C ocf -T Dummy ' '-l "NEW_EVENT event_type:register rsc_id:test_rsc action:none rc:ok op_status:Done" ' + self._action_timeout) test.add_cmd(args='-c exec -r test_rsc -s 6000 -a start -w -t 6000') test.add_cmd(args='-l "NEW_EVENT event_type:exec_complete rsc_id:test_rsc action:start rc:ok op_status:Done" -t 2000', expected_exitcode=ExitStatus.TIMEOUT) test.add_cmd(args='-l "NEW_EVENT event_type:exec_complete rsc_id:test_rsc action:start rc:ok op_status:Done" -t 6000') test.add_cmd(args='-c exec -r test_rsc -a stop ' + self._action_timeout + '-l "NEW_EVENT event_type:exec_complete rsc_id:test_rsc action:stop rc:ok op_status:Done" ') test.add_cmd(args='-c unregister_rsc -r test_rsc ' + self._action_timeout + '-l "NEW_EVENT event_type:unregister rsc_id:test_rsc action:none rc:ok op_status:Done" ') # start delay, but cancel before it gets a chance to start test = self.new_test("start_delay_cancel", "Using start_delay, start a rsc, but cancel the start op before execution.") test.add_cmd(args='-c register_rsc -r test_rsc -P pacemaker -C ocf -T Dummy ' '-l "NEW_EVENT event_type:register rsc_id:test_rsc action:none rc:ok op_status:Done" ' + self._action_timeout) test.add_cmd(args='-c exec -r test_rsc -s 5000 -a start -w -t 4000') test.add_cmd(args='-c cancel -r test_rsc -a start ' + self._action_timeout + '-l "NEW_EVENT event_type:exec_complete rsc_id:test_rsc action:start rc:ok op_status:Cancelled" ') test.add_cmd(args='-l "NEW_EVENT event_type:exec_complete rsc_id:test_rsc action:start rc:ok op_status:Done" -t 5000', expected_exitcode=ExitStatus.TIMEOUT) test.add_cmd(args='-c unregister_rsc -r test_rsc ' + self._action_timeout + '-l "NEW_EVENT event_type:unregister rsc_id:test_rsc action:none rc:ok op_status:Done" ') # Register a bunch of resources, verify we can get info on them test = self.new_test("verify_get_rsc_info", "Register multiple resources, verify retrieval of rsc info.") if "systemd" in self._rsc_classes: test.add_cmd(args='-c register_rsc -r rsc1 -C systemd -T pacemaker-cts-dummyd@3 ' + self._action_timeout) test.add_cmd(args='-c get_rsc_info -r rsc1 ') test.add_cmd(args='-c unregister_rsc -r rsc1 ' + self._action_timeout) test.add_cmd(args='-c get_rsc_info -r rsc1 ', expected_exitcode=ExitStatus.ERROR) test.add_cmd(args='-c register_rsc -r rsc2 -C ocf -T Dummy -P pacemaker ' + self._action_timeout) test.add_cmd(args='-c get_rsc_info -r rsc2 ') test.add_cmd(args='-c unregister_rsc -r rsc2 ' + self._action_timeout) test.add_cmd(args='-c get_rsc_info -r rsc2 ', expected_exitcode=ExitStatus.ERROR) # Register duplicate, verify only one entry exists and can still be removed test = self.new_test("duplicate_registration", "Register resource multiple times, verify only one entry exists and can be removed.") test.add_cmd(args='-c register_rsc -r rsc2 -C ocf -T Dummy -P pacemaker ' + self._action_timeout) test.add_cmd(args="-c get_rsc_info -r rsc2 ", stdout_match="id:rsc2 class:ocf provider:pacemaker type:Dummy") test.add_cmd(args='-c register_rsc -r rsc2 -C ocf -T Dummy -P pacemaker ' + self._action_timeout) test.add_cmd(args="-c get_rsc_info -r rsc2 ", stdout_match="id:rsc2 class:ocf provider:pacemaker type:Dummy") test.add_cmd(args='-c register_rsc -r rsc2 -C ocf -T Stateful -P pacemaker ' + self._action_timeout) test.add_cmd(args="-c get_rsc_info -r rsc2 ", stdout_match="id:rsc2 class:ocf provider:pacemaker type:Stateful") test.add_cmd(args='-c unregister_rsc -r rsc2 ' + self._action_timeout) test.add_cmd(args='-c get_rsc_info -r rsc2 ', expected_exitcode=ExitStatus.ERROR) # verify the option to only send notification to the original client test = self.new_test("notify_orig_client_only", "Verify option to only send notifications to the client originating the action.") test.add_cmd(args='-c register_rsc -r test_rsc -C ocf -P pacemaker -T Dummy ' + self._action_timeout + '-l "NEW_EVENT event_type:register rsc_id:test_rsc action:none rc:ok op_status:Done" ') test.add_cmd(args='-c exec -r test_rsc -a start ' + self._action_timeout + '-l "NEW_EVENT event_type:exec_complete rsc_id:test_rsc action:start rc:ok op_status:Done" ') test.add_cmd(args='-c exec -r test_rsc -a monitor -i 1s ' + self._action_timeout + ' -n ' '-l "NEW_EVENT event_type:exec_complete rsc_id:test_rsc action:monitor rc:ok op_status:Done"') # this will fail because the monitor notifications should only go to the original caller, which no longer exists. test.add_cmd(args='-l "NEW_EVENT event_type:exec_complete rsc_id:test_rsc action:monitor rc:ok op_status:Done" ' + self._action_timeout, expected_exitcode=ExitStatus.TIMEOUT) test.add_cmd(args='-c cancel -r test_rsc -a monitor -i 1s -t 6000 ') test.add_cmd(args='-c unregister_rsc -r test_rsc ' + self._action_timeout + '-l "NEW_EVENT event_type:unregister rsc_id:test_rsc action:none rc:ok op_status:Done" ') # get metadata test = self.new_test("get_ocf_metadata", "Retrieve metadata for a resource") test.add_cmd(args="-c metadata -C ocf -P pacemaker -T Dummy", stdout_match="resource-agent name=\"Dummy\"") test.add_cmd(args="-c metadata -C ocf -P pacemaker -T Stateful") test.add_cmd(args="-c metadata -P pacemaker -T Stateful", expected_exitcode=ExitStatus.ERROR) test.add_cmd(args="-c metadata -C ocf -P pacemaker -T fake_agent", expected_exitcode=ExitStatus.ERROR) # get stonith metadata test = self.new_test("get_stonith_metadata", "Retrieve stonith metadata for a resource") test.add_cmd(args="-c metadata -C stonith -P pacemaker -T fence_dummy", stdout_match="resource-agent name=\"fence_dummy\"") # get lsb metadata if "lsb" in self._rsc_classes: test = self.new_test("get_lsb_metadata", "Retrieve metadata for an LSB resource") test.add_cmd(args="-c metadata -C lsb -T LSBDummy", stdout_match="resource-agent name='LSBDummy'") # get metadata if "systemd" in self._rsc_classes: test = self.new_test("get_systemd_metadata", "Retrieve metadata for a resource") test.add_cmd(args="-c metadata -C systemd -T pacemaker-cts-dummyd@", stdout_match="resource-agent name=\"pacemaker-cts-dummyd@\"") # get ocf providers test = self.new_test("list_ocf_providers", "Retrieve list of available resource providers, verifies pacemaker is a provider.") test.add_cmd(args="-c list_ocf_providers ", stdout_match="pacemaker") test.add_cmd(args="-c list_ocf_providers -T ping", stdout_match="pacemaker") # Verify agents only exist in their lists test = self.new_test("verify_agent_lists", "Verify the agent lists contain the right data.") if "ocf" in self._rsc_classes: test.add_cmd(args="-c list_agents ", stdout_match="Stateful") test.add_cmd(args="-c list_agents -C ocf", stdout_match="Stateful", stdout_no_match="pacemaker-cts-dummyd@|fence_dummy") if "service" in self._rsc_classes: test.add_cmd(args="-c list_agents -C service", stdout_match="", stdout_no_match="Stateful|fence_dummy") if "lsb" in self._rsc_classes: test.add_cmd(args="-c list_agents", stdout_match="LSBDummy") test.add_cmd(args="-c list_agents -C lsb", stdout_match="LSBDummy", stdout_no_match="pacemaker-cts-dummyd@|Stateful|fence_dummy") test.add_cmd(args="-c list_agents -C service", stdout_match="LSBDummy") if "systemd" in self._rsc_classes: test.add_cmd(args="-c list_agents ", stdout_match="pacemaker-cts-dummyd@") # systemd test.add_cmd(args="-c list_agents -C systemd", stdout_match="", stdout_no_match="Stateful") # should not exist test.add_cmd(args="-c list_agents -C systemd", stdout_match="pacemaker-cts-dummyd@") test.add_cmd(args="-c list_agents -C systemd", stdout_match="", stdout_no_match="fence_dummy") # should not exist if "stonith" in self._rsc_classes: test.add_cmd(args="-c list_agents -C stonith", stdout_match="fence_dummy") # stonith test.add_cmd(args="-c list_agents -C stonith", stdout_match="", # should not exist stdout_no_match="pacemaker-cts-dummyd@") test.add_cmd(args="-c list_agents -C stonith", stdout_match="", stdout_no_match="Stateful") # should not exist test.add_cmd(args="-c list_agents ", stdout_match="fence_dummy") def build_options(): """Handle command line arguments.""" parser = argparse.ArgumentParser(formatter_class=argparse.RawDescriptionHelpFormatter, description="Run pacemaker-execd regression tests", epilog="Example: Run only the test 'start_stop'\n" "\t " + sys.argv[0] + " --run-only start_stop\n\n" "Example: Run only the tests with the string 'systemd' present in them\n" "\t " + sys.argv[0] + " --run-only-pattern systemd") parser.add_argument("-l", "--list-tests", action="store_true", help="Print out all registered tests") parser.add_argument("-p", "--run-only-pattern", metavar='PATTERN', help="Run only tests matching the given pattern") parser.add_argument("-r", "--run-only", metavar='TEST', help="Run a specific test") parser.add_argument("-t", "--timeout", type=float, default=2, help="Up to how many seconds each test case waits for the daemon to " "be initialized. Defaults to 2. The value 0 means no limit.") parser.add_argument("-w", "--force-wait", action="store_true", help="Each test case waits the default/specified --timeout for the " "daemon without tracking the log") if BuildOptions.REMOTE_ENABLED: parser.add_argument("-R", "--pacemaker-remote", action="store_true", help="Test pacemaker-remoted binary instead of pacemaker-execd") parser.add_argument("-V", "--verbose", action="store_true", help="Verbose output") args = parser.parse_args() return args def main(): """Run pacemaker-execd regression tests as specified by arguments.""" update_path() # Ensure all command output is in portable locale for comparison os.environ['LC_ALL'] = "C" opts = build_options() if opts.pacemaker_remote: exit_if_proc_running("pacemaker-remoted") else: exit_if_proc_running("corosync") exit_if_proc_running("pacemaker-execd") exit_if_proc_running("pacemaker-fenced") # Create a temporary directory for log files (the directory will # automatically be erased when done) with tempfile.TemporaryDirectory(prefix="cts-exec-") as logdir: tests = ExecTests(verbose=opts.verbose, tls=opts.pacemaker_remote, timeout=opts.timeout, force_wait=opts.force_wait, logdir=logdir) tests.build_generic_tests() tests.build_multi_rsc_tests() tests.build_negative_tests() tests.build_custom_tests() tests.build_stress_tests() if opts.list_tests: tests.print_list() sys.exit(ExitStatus.OK) print("Starting ...") tests.setup_environment() if opts.run_only_pattern: tests.run_tests_matching(opts.run_only_pattern) tests.print_results() elif opts.run_only: tests.run_single(opts.run_only) tests.print_results() else: tests.run_tests() tests.print_results() tests.cleanup_environment() tests.exit() if __name__ == "__main__": main()