# osmo_gsm_tester: context for individual test runs # # Copyright (C) 2016-2017 by sysmocom - s.f.m.c. GmbH # # Author: Neels Hofmeyr # # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as # published by the Free Software Foundation, either version 3 of the # License, or (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see . # These will be initialized before each test run. # A test script can thus establish its context by doing: # from osmo_gsm_tester.testenv import * import sys from .core import util from .core import process from .core import template from .core import log as log_module from .core import process as process_module from .core import resource from .core.event_loop import MainLoop test = None suite = None log = None dbg = None err = None wait = None wait_no_raise = None sleep = None poll = None prompt = None Sms = None process = None tenv = None print = None class Timeout(Exception): pass class TestEnv(log_module.Origin): def __init__(self, suite_run, test): super().__init__(log_module.C_TST, test.name()) self.suite_run = suite_run self._test = test self._processes = [] self.test_import_modules_to_clean_up = [] self.objects_to_clean_up = None MainLoop.register_poll_func(self.poll) if self._test.timeout is not None: # aimed at firing once MainLoop.register_poll_func(self._timeout_expired, timestep=self._test.timeout) def test(self): return self._test def suite(self): return self.suite_run def remember_to_stop(self, process, respawn=False): '''Ask suite to monitor and manage lifecycle of the Process object. If a process managed by suite finishes before cleanup time, the current test will be marked as FAIL and end immediatelly. If respwan=True, then suite will respawn() the process instead.''' self._processes.insert(0, (process, respawn)) def stop_processes(self): if len(self._processes) == 0: return strategy = process_module.ParallelTerminationStrategy() while self._processes: proc, _ = self._processes.pop() strategy.add_process(proc) strategy.terminate_all() def stop_process(self, process): 'Remove process from monitored list and stop it' for proc_respawn in self._processes: proc, respawn = proc_respawn if proc == process: self._processes.remove(proc_respawn) proc.terminate() def register_for_cleanup(self, *obj): assert all([hasattr(o, 'cleanup') for o in obj]) self.objects_to_clean_up = self.objects_to_clean_up or [] self.objects_to_clean_up.extend(obj) def objects_cleanup(self): while self.objects_to_clean_up: obj = self.objects_to_clean_up.pop() try: obj.cleanup() except Exception: log_module.log_exn() def test_import_modules_register_for_cleanup(self, mod): ''' Tests are required to call this API for any module loaded from its own lib subdir, because they are loaded in the global namespace. Otherwise later tests importing modules with the same name will re-use an already loaded module. ''' if mod not in self.test_import_modules_to_clean_up: self.dbg('registering module %r for cleanup' % mod) self.test_import_modules_to_clean_up.append(mod) def test_import_modules_cleanup(self): while self.test_import_modules_to_clean_up: mod = self.test_import_modules_to_clean_up.pop() try: self.dbg('Cleaning up module %r' % mod) del sys.modules[mod.__name__] del mod except Exception: log_module.log_exn() def _timeout_expired(self): # Avoid timeout being called several times: MainLoop.unregister_poll_func(self._timeout_expired) raise log_module.Error('Test Timeout triggered: %d seconds elapsed' % self._test.elapsed_time()) def poll(self): for proc, respawn in self._processes: if proc.terminated(): if respawn == True: proc.respawn() else: proc.log_stdout_tail() proc.log_stderr_tail() log_module.ctx(proc) raise log_module.Error('Process ended prematurely: %s' % proc.name()) def stop(self): # if sys.exit() called from signal handler (e.g. SIGINT), SystemExit # base exception is raised. Make sure to stop processes in this # finally section. Resources are automatically freed with 'atexit'. self.stop_processes() self.objects_cleanup() self.suite_run.reserved_resources.put_all() MainLoop.unregister_poll_func(self.poll) MainLoop.unregister_poll_func(self._timeout_expired) self.test_import_modules_cleanup() self.set_overlay_template_dir(None) def config_suite_specific(self): return self.suite_run.config_suite_specific() def config_test_specific(self): return self._test.config_test_specific() def set_overlay_template_dir(self, template_dir=None): '''Overlay a directory on top of default one when looking for directories. It must be called everytime a template file is updated.''' if template_dir is None: template.set_templates_dir(template.default_templates_dir()) else: self.dbg('template dir overlay set: %s' % template_dir) template.set_templates_dir(template_dir, template.default_templates_dir()) def prompt(self, *msgs, **msg_details): 'ask for user interaction. Do not use in tests that should run automatically!' if msg_details: msgs = list(msgs) msgs.append('{%s}' % (', '.join(['%s=%r' % (k,v) for k,v in sorted(msg_details.items())]))) msg = ' '.join(msgs) or 'Hit Enter to continue' self.log('prompt:', msg) sys.__stdout__.write('\n\n--- PROMPT ---\n') sys.__stdout__.write(msg) sys.__stdout__.write('\n') sys.__stdout__.flush() entered = util.input_polling('> ', MainLoop.poll) self.log('prompt entered:', repr(entered)) return entered def get_reserved_resource(self, resource_class_str, specifics=None): return self.suite_run.get_reserved_resource(resource_class_str, specifics) def ip_address(self, specifics=None): return self.get_reserved_resource(resource.R_IP_ADDRESS, specifics) def nitb(self, ip_address=None): from .obj.nitb_osmo import OsmoNitb if ip_address is None: ip_address = self.ip_address() nitb_obj = OsmoNitb(self, ip_address) self.register_for_cleanup(nitb_obj) return nitb_obj def hlr(self, ip_address=None): from .obj.hlr_osmo import OsmoHlr if ip_address is None: ip_address = self.ip_address() return OsmoHlr(self, ip_address) def ggsn(self, ip_address=None): from .obj.ggsn_osmo import OsmoGgsn if ip_address is None: ip_address = self.ip_address() return OsmoGgsn(self, ip_address) def sgsn(self, hlr, ggsn, ip_address=None): from .obj import sgsn_osmo if ip_address is None: ip_address = self.ip_address() return sgsn_osmo.OsmoSgsn(self, hlr, ggsn, ip_address) def mgcpgw(self, ip_address=None, bts_ip=None): from .obj.mgcpgw_osmo import OsmoMgcpgw if ip_address is None: ip_address = self.ip_address() return OsmoMgcpgw(self, ip_address, bts_ip) def mgw(self, ip_address=None): from .obj.mgw_osmo import OsmoMgw if ip_address is None: ip_address = self.ip_address() return OsmoMgw(self, ip_address) def msc(self, hlr, mgcpgw, stp, ip_address=None): from .obj import msc_osmo if ip_address is None: ip_address = self.ip_address() msc_obj = msc_osmo.OsmoMsc(self, hlr, mgcpgw, stp, ip_address) self.register_for_cleanup(msc_obj) return msc_obj def bsc(self, msc, mgw, stp, ip_address=None): from .obj.bsc_osmo import OsmoBsc if ip_address is None: ip_address = self.ip_address() bsc_obj = OsmoBsc(self, msc, mgw, stp, ip_address) self.register_for_cleanup(bsc_obj) return bsc_obj def stp(self, ip_address=None): from .obj.stp_osmo import OsmoStp if ip_address is None: ip_address = self.ip_address() return OsmoStp(self, ip_address) def ms_driver(self): from .obj.ms_driver import MsDriver ms = MsDriver(self) self.register_for_cleanup(ms) return ms def bts(self, specifics=None): from .obj.bts import Bts bts_obj = Bts.get_instance_by_type(self, self.get_reserved_resource(resource.R_BTS, specifics=specifics)) bts_obj.set_lac(self.lac()) bts_obj.set_rac(self.rac()) bts_obj.set_cellid(self.cellid()) bts_obj.set_bvci(self.bvci()) self.register_for_cleanup(bts_obj) return bts_obj def modem(self, specifics=None): from .obj.ms import MS conf = self.get_reserved_resource(resource.R_MODEM, specifics=specifics) ms_obj = MS.get_instance_by_type(self, conf) self.register_for_cleanup(ms_obj) return ms_obj def modems(self, count): l = [] for i in range(count): l.append(self.modem()) return l def all_resources(self, resource_func): """Returns all yielded resource.""" l = [] while True: try: l.append(resource_func()) except resource.NoResourceExn: return l def esme(self): from .obj.esme import Esme esme_obj = Esme(self.msisdn()) self.register_for_cleanup(esme_obj) return esme_obj def run_node(self, specifics=None): from .obj.run_node import RunNode return RunNode.from_conf(self.get_reserved_resource(resource.R_RUN_NODE, specifics=specifics)) def enb(self, specifics=None): from .obj.enb import eNodeB enb_obj = eNodeB.get_instance_by_type(self, self.get_reserved_resource(resource.R_ENB, specifics=specifics)) self.register_for_cleanup(enb_obj) return enb_obj def epc(self, run_node=None): from .obj.epc import EPC if run_node is None: run_node = self.run_node() epc_obj = EPC.get_instance_by_type(self, run_node) self.register_for_cleanup(epc_obj) return epc_obj def osmocon(self, specifics=None): from .obj.osmocon import Osmocon conf = self.get_reserved_resource(resource.R_OSMOCON, specifics=specifics) osmocon_obj = Osmocon(self, conf=conf) self.register_for_cleanup(osmocon_obj) return osmocon_obj def iperf3srv(self, ip_address=None): from .obj.iperf3 import IPerf3Server if ip_address is None: ip_address = self.ip_address() iperf3srv_obj = IPerf3Server(self, ip_address) return iperf3srv_obj def stress(self, run_node=None): from .obj.stress import StressTool stress_obj = StressTool(self, run_node) return stress_obj def msisdn(self): msisdn = self.suite_run.resource_pool().next_msisdn(self) self.log('using MSISDN', msisdn) return msisdn def lac(self): lac = self.suite_run.resource_pool().next_lac(self) self.log('using LAC', lac) return lac def rac(self): rac = self.suite_run.resource_pool().next_rac(self) self.log('using RAC', rac) return rac def cellid(self): cellid = self.suite_run.resource_pool().next_cellid(self) self.log('using CellId', cellid) return cellid def bvci(self): bvci = self.suite_run.resource_pool().next_bvci(self) self.log('using BVCI', bvci) return bvci def print(self, *messages, **named_items): log_module.log(*messages, _origin=self.test(), _src=3, **named_items) def setup(suite_run, _test): from .core.event_loop import MainLoop from .obj.sms import Sms as Sms_class global test, log, dbg, err, wait, wait_no_raise, sleep, poll, prompt, Sms, process, tenv, print test = _test log = test.log dbg = test.dbg err = test.err tenv = TestEnv(suite_run, _test) wait = MainLoop.wait wait_no_raise = MainLoop.wait_no_raise sleep = MainLoop.sleep poll = MainLoop.poll Sms = Sms_class process = process_module prompt = tenv.prompt print = tenv.print return tenv # vim: expandtab tabstop=4 shiftwidth=4