# osmo_gsm_tester: test suite # # 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 . import os import sys import time import pprint from . import config, log, template, util, resource, schema, test from .event_loop import MainLoop from . import osmo_nitb, osmo_hlr, osmo_mgcpgw, osmo_mgw, osmo_msc, osmo_bsc, osmo_stp, osmo_ggsn, osmo_sgsn, modem, esme, osmocon class Timeout(Exception): pass class SuiteDefinition(log.Origin): '''A test suite reserves resources for a number of tests. Each test requires a specific number of modems, BTSs etc., which are reserved beforehand by a test suite. This way several test suites can be scheduled dynamically without resource conflicts arising halfway through the tests.''' CONF_FILENAME = 'suite.conf' def __init__(self, suite_dir): self.suite_dir = suite_dir super().__init__(log.C_CNF, os.path.basename(self.suite_dir)) self.read_conf() def read_conf(self): self.dbg('reading %s' % SuiteDefinition.CONF_FILENAME) if not os.path.isdir(self.suite_dir): raise RuntimeError('No such directory: %r' % self.suite_dir) self.conf = config.read(os.path.join(self.suite_dir, SuiteDefinition.CONF_FILENAME), resource.CONF_SCHEMA) self.load_test_basenames() def load_test_basenames(self): self.test_basenames = [] for basename in sorted(os.listdir(self.suite_dir)): if not basename.endswith('.py'): continue self.test_basenames.append(basename) class SuiteRun(log.Origin): UNKNOWN = 'UNKNOWN' PASS = 'PASS' FAIL = 'FAIL' trial = None status = None start_timestamp = None duration = None resources_pool = None reserved_resources = None objects_to_clean_up = None test_import_modules_to_clean_up = [] _resource_requirements = None _config = None _processes = None _run_dir = None def __init__(self, trial, suite_scenario_str, suite_definition, scenarios=[]): super().__init__(log.C_TST, suite_scenario_str) self.trial = trial self.definition = suite_definition self.scenarios = scenarios self.resources_pool = resource.ResourcesPool() self.status = SuiteRun.UNKNOWN self.load_tests() def load_tests(self): self.tests = [] for test_basename in self.definition.test_basenames: self.tests.append(test.Test(self, test_basename)) 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.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.log_exn() def mark_start(self): self.start_timestamp = time.time() self.duration = 0 self.status = SuiteRun.UNKNOWN def combined(self, conf_name): log.dbg(combining=conf_name) log.ctx(combining_scenarios=conf_name) combination = config.replicate_times(self.definition.conf.get(conf_name, {})) log.dbg(definition_conf=combination) for scenario in self.scenarios: log.ctx(combining_scenarios=conf_name, scenario=scenario.name()) c = config.replicate_times(scenario.get(conf_name, {})) log.dbg(scenario=scenario.name(), conf=c) if c is None: continue config.combine(combination, c) return combination def get_run_dir(self): if self._run_dir is None: self._run_dir = util.Dir(self.trial.get_run_dir().new_dir(self.name())) return self._run_dir def get_test_run_dir(self): if self.current_test: return self.current_test.get_run_dir() return self.get_run_dir() def resource_requirements(self): if self._resource_requirements is None: self._resource_requirements = self.combined('resources') return self._resource_requirements def config(self): if self._config is None: self._config = self.combined('config') return self._config def reserve_resources(self): if self.reserved_resources: raise RuntimeError('Attempt to reserve resources twice for a SuiteRun') self.log('reserving resources in', self.resources_pool.state_dir, '...') self.reserved_resources = self.resources_pool.reserve(self, self.resource_requirements()) def run_tests(self, names=None): suite_libdir = os.path.join(self.definition.suite_dir, 'lib') try: log.large_separator(self.trial.name(), self.name(), sublevel=2) self.mark_start() util.import_path_prepend(suite_libdir) MainLoop.register_poll_func(self.poll) if not self.reserved_resources: self.reserve_resources() for t in self.tests: if names and not t.name() in names: t.set_skip() continue self.current_test = t t.run() self.stop_processes() self.objects_cleanup() self.reserved_resources.put_all() except Exception: log.log_exn() except BaseException as e: # when the program is aborted by a signal (like Ctrl-C), escalate to abort all. self.err('SUITE RUN ABORTED: %s' % type(e).__name__) raise finally: # 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.free_resources() MainLoop.unregister_poll_func(self.poll) self.test_import_modules_cleanup() util.import_path_remove(suite_libdir) self.duration = time.time() - self.start_timestamp passed, skipped, failed = self.count_test_results() # if no tests ran, count it as failure if passed and not failed: self.status = SuiteRun.PASS else: self.status = SuiteRun.FAIL log.large_separator(self.trial.name(), self.name(), self.status, sublevel=2, space_above=False) def passed(self): return self.status == SuiteRun.PASS def count_test_results(self): passed = 0 skipped = 0 failed = 0 for t in self.tests: if t.status == test.Test.PASS: passed += 1 elif t.status == test.Test.FAIL: failed += 1 else: skipped += 1 return (passed, skipped, failed) 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.''' if self._processes is None: self._processes = [] self._processes.insert(0, (process, respawn)) def stop_processes(self): while self._processes: process, respawn = self._processes.pop() process.terminate() 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 free_resources(self): if self.reserved_resources is None: return self.reserved_resources.free() def ip_address(self, specifics=None): return self.reserved_resources.get(resource.R_IP_ADDRESS, specifics=specifics) def nitb(self, ip_address=None): if ip_address is None: ip_address = self.ip_address() return osmo_nitb.OsmoNitb(self, ip_address) def hlr(self, ip_address=None): if ip_address is None: ip_address = self.ip_address() return osmo_hlr.OsmoHlr(self, ip_address) def ggsn(self, ip_address=None): if ip_address is None: ip_address = self.ip_address() return osmo_ggsn.OsmoGgsn(self, ip_address) def sgsn(self, hlr, ggsn, ip_address=None): if ip_address is None: ip_address = self.ip_address() return osmo_sgsn.OsmoSgsn(self, hlr, ggsn, ip_address) def mgcpgw(self, ip_address=None, bts_ip=None): if ip_address is None: ip_address = self.ip_address() return osmo_mgcpgw.OsmoMgcpgw(self, ip_address, bts_ip) def mgw(self, ip_address=None): if ip_address is None: ip_address = self.ip_address() return osmo_mgw.OsmoMgw(self, ip_address) def msc(self, hlr, mgcpgw, stp, ip_address=None): if ip_address is None: ip_address = self.ip_address() return osmo_msc.OsmoMsc(self, hlr, mgcpgw, stp, ip_address) def bsc(self, msc, mgw, stp, ip_address=None): if ip_address is None: ip_address = self.ip_address() return osmo_bsc.OsmoBsc(self, msc, mgw, stp, ip_address) def stp(self, ip_address=None): if ip_address is None: ip_address = self.ip_address() return osmo_stp.OsmoStp(self, ip_address) def bts(self, specifics=None): bts = bts_obj(self, self.reserved_resources.get(resource.R_BTS, specifics=specifics)) bts.set_lac(self.lac()) bts.set_rac(self.rac()) bts.set_cellid(self.cellid()) bts.set_bvci(self.bvci()) self.register_for_cleanup(bts) return bts def modem(self, specifics=None): conf = self.reserved_resources.get(resource.R_MODEM, specifics=specifics) self.dbg('create Modem object', conf=conf) ms = modem.Modem(conf) self.register_for_cleanup(ms) return ms def modems(self, count): l = [] for i in range(count): l.append(self.modem()) return l def esme(self): esme_obj = esme.Esme(self.msisdn()) self.register_for_cleanup(esme_obj) return esme_obj def osmocon(self, specifics=None): conf = self.reserved_resources.get(resource.R_OSMOCON, specifics=specifics) osmocon_obj = osmocon.Osmocon(self, conf=conf) self.register_for_cleanup(osmocon_obj) return osmocon_obj def msisdn(self): msisdn = self.resources_pool.next_msisdn(self) self.log('using MSISDN', msisdn) return msisdn def lac(self): lac = self.resources_pool.next_lac(self) self.log('using LAC', lac) return lac def rac(self): rac = self.resources_pool.next_rac(self) self.log('using RAC', rac) return rac def cellid(self): cellid = self.resources_pool.next_cellid(self) self.log('using CellId', cellid) return cellid def bvci(self): bvci = self.resources_pool.next_bvci(self) self.log('using BVCI', bvci) return bvci def poll(self): if self._processes: for process, respawn in self._processes: if process.terminated(): if respawn == True: process.respawn() else: process.log_stdout_tail() process.log_stderr_tail() log.ctx(process) raise log.Error('Process ended prematurely: %s' % process.name()) 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 resource_status_str(self): return '\n'.join(('', 'SUITE RUN: %s' % self.origin_id(), 'ASKED FOR:', pprint.pformat(self._resource_requirements), 'RESERVED COUNT:', pprint.pformat(self.reserved_resources.counts()), 'RESOURCES STATE:', repr(self.reserved_resources))) loaded_suite_definitions = {} def load(suite_name): global loaded_suite_definitions suite = loaded_suite_definitions.get(suite_name) if suite is not None: return suite suites_dir = config.get_suites_dir() suite_dir = suites_dir.child(suite_name) if not suites_dir.exists(suite_name): raise RuntimeError('Suite not found: %r in %r' % (suite_name, suites_dir)) if not suites_dir.isdir(suite_name): raise RuntimeError('Suite name found, but not a directory: %r' % (suite_dir)) suite_def = SuiteDefinition(suite_dir) loaded_suite_definitions[suite_name] = suite_def return suite_def def parse_suite_scenario_str(suite_scenario_str): tokens = suite_scenario_str.split(':') if len(tokens) > 2: raise RuntimeError('invalid combination string: %r' % suite_scenario_str) suite_name = tokens[0] if len(tokens) <= 1: scenario_names = [] else: scenario_names = tokens[1].split('+') return suite_name, scenario_names def load_suite_scenario_str(suite_scenario_str): suite_name, scenario_names = parse_suite_scenario_str(suite_scenario_str) suite = load(suite_name) scenarios = [config.get_scenario(scenario_name, resource.CONF_SCHEMA) for scenario_name in scenario_names] return (suite_scenario_str, suite, scenarios) def bts_obj(suite_run, conf): bts_type = conf.get('type') log.dbg('create BTS object', type=bts_type) bts_class = resource.KNOWN_BTS_TYPES.get(bts_type) if bts_class is None: raise RuntimeError('No such BTS type is defined: %r' % bts_type) return bts_class(suite_run, conf) # vim: expandtab tabstop=4 shiftwidth=4