#!/usr/bin/env python2 import os import re import sys import copy import glob import time import uuid import random import itertools import traceback import ConfigParser import multiprocessing from multiprocessing import Process as MProcess from multiprocessing.managers import BaseManager as MBaseManager from Queue import Empty as QueueEmpty from Queue import Full as QueueFull from lib.test import FilteredStream from lib.preprocessor import TestState from lib.tarantool_server import TarantoolServer import logging logger = multiprocessing.log_to_stderr() logger.setLevel(logging.INFO) import pickle from StringIO import StringIO class ParallelManager(MBaseManager): pass ParallelManager.register('Queue', multiprocessing.Queue) class Gopher(MProcess): def __init__(self, **kwargs): if kwargs and 'target' in kwargs: del kwargs['target'] super(Gopher, self).__init__(**kwargs) def run(self): try: queuein = self._args[0] queueout = self._args[1] while True: logger.debug("||_process.run > getting job") obj = queuein.get() logger.debug("||_process.run > ok, it's great") assert obj assert len(obj) == 2 assert callable(obj[0]) assert isinstance(obj[1], (tuple, list)) retv = obj[0](*obj[1]) logger.debug("||_process.run > job is done, let's put into outqueue") queueout.put(retv) except EOFError: pass class GopherPoolException(Exception): def __init__(self, message): self.message = message class GopherPool(object): DEFAULT = -1 INITED = 0 POPULATED = 1 STARTED = 2 ENDED = 3 def __init__(self, **kwargs): self.status = GopherPool.DEFAULT self.pool = [] self.number = kwargs.get('processes', 1) self.manager = ParallelManager() self.manager.start() self.queuein = self.manager.Queue() self.queueout = self.manager.Queue() self.jobs_in = 0 self.jobs_out = 0 self.jobs_end = False self.status = GopherPool.INITED self._populate() def _populate(self): assert(self.status == GopherPool.INITED) for i in xrange(self.number): kwargs = { } self.pool.append(Gopher( group = None, name = 'Worker-%d' % i, args = [ self.queuein, self.queueout ] )) self.status = GopherPool.POPULATED def _repopulate(self): assert(self.status >= GopherPool.STARTED) logger.debug('||_pool.repopulate > Begin repopulation') for n, proc in enumerate(self.pool): if not proc.is_alive() and self.status != GopherPool.ENDED: logger.debug("Manager: Process %s is dead (code %s). Recreating", repr(proc.name), proc.exitcode) self.pool[n] = Gopher( group = None, name = proc.name, args = [ self.queuein, self.queueout ] ) self.jobs_out += 1 logger.debug('||_pool.repopulate > Ending repopulation') return 0 def fill(self, iterable=None): logger.debug('||_pool.fill > Entering') assert(self.status > GopherPool.INITED and self.status < GopherPool.ENDED) if iterable == None: raise GopherPoolException("Iterable must be defined \ for '||_pool.fill'") jobs = iterable target = 0 while True: self._repopulate() try: while (not self.queuein.full() and target < 10 and not self.queueout.full()): logger.debug("I'll put a job now") job = iterable.next() self.queuein.put(job) self.jobs_in += 1 target += 1 logger.debug("||_pool.fill > While stopped") except StopIteration: logger.debug("||_pool.fill > StopIteration") self.jobs_end = True raise StopIteration yield target = 0 def run(self): for proc in self.pool: proc.start() self.status = GopherPool.STARTED return Parallel_Iterator(self) class Parallel_Iterator(object): def __init__(self, pool): self.pool = pool def __iter__(self): return self def __next__(self): return self.next() def next(self, timeout=None): if self.pool.jobs_end == True and \ (self.pool.jobs_in == self.pool.jobs_out): raise StopIteration() else: ans = self.pool.queueout.get(block=True, timeout=timeout) self.pool.jobs_out += 1 return ans class Parallel_FilteredStream(object): def __init__(self): self.stream = StringIO() self.filters = [] def write(self, fragment): skipped = False for line in fragment.splitlines(True): original_len = len(line.strip()) for pattern, replacement in self.filters: line = pattern.sub(replacement, line) skipped = original_len and not line.strip() if skipped: break if not skipped: self.stream.write(line) def push_filter(self, pattern, replacement): self.filters.append([re.compile(pattern), replacement]) def pop_filter(self): self.filters.pop() def clear_all_filters(self): self.filters = [] def close(self): self.clear_all_filters() def getvalue(self): return self.stream.getvalue() class TestStatus(object): def __init__(self, status, reject = ''): if isinstance(status, basestring): status = status.lower() if (status == "pass"): status = 0 elif (status == "skip"): status = 1 elif (status == "new"): status = 2 else: status = 3 self.reject = reject self.status = status self.message = '' def set_message(self, msg): self.message = msg return self def generate_printable(self): pass class Supervisor(object): def __init__(self, suite_path, args): self.args = args self.tests = [] self.suite_path = suite_path self.ini = { 'core': 'tarantool', 'script': os.path.join(suite_path, 'parallel.lua'), } # read suite config config = ConfigParser.ConfigParser() config.read(os.path.join(suite_path, "suite.ini")) self.ini.update(dict(config.items("default"))) self.ini.update(self.args.__dict__) self.jobs = int(self.ini.get('jobs', 1)) self.count = int(self.ini.get('count', 0)) for i in ["script"]: self.ini[i] = os.path.join(suite_path, self.ini[i]) if i in self.ini else None self.server = TarantoolServer(self.ini) self.pool = None self.iterator = None def find_tests(self): self.tests += [Parallel_PythonTest(k) \ for k in sorted(glob.glob(os.path.join(self.suite_path, "*.test.py" )))] def take_rand(self): if self.count != 0: for test in self.tests: sql = self.server.sql.clone() admin = self.server.admin.clone() yield [test, [sql, admin]] else: while True: sql = self.server.sql.clone() admin = self.server.admin.clone() yield [random.choice(self.tests), [sql, admin]] def run_all(self): self.find_tests() if self.count != 0: self.tests *= self.count random.shuffle(self.tests) self.pool = GopherPool(processes = self.jobs) self.iterator = self.pool.run() self.filler = self.pool.fill(self.take_rand()) try: self.server.cleanup() logger.info("Tarantool.Instance > Server cleaned up") logger.info("Tarantool.Instance > Server's path: %s", self.server.binary) self.server.deploy() logger.info("Tarantool.Instance > Server deployed") try: while True: self.filler.next() logger.debug("BigBrother.run > Jobs filled %d %d" % (self.pool.queuein.qsize(), self.pool.queueout.qsize())) while True: try: logger.debug("BigBrother.run > waiting for task") task = self.iterator.next(1) logger.debug("BigBrother.run > took task") if task is None: logger.info('>>>> Test return NONE') continue stat = task.get_status() if stat.status != 3: logger.info('>>>> Test %s finished' % repr(task.name)) else: logger.error('>>>> Test %s failed with %s (%s)' % (repr(task.name), stat.message, stat.reject)) except (QueueEmpty, StopIteration): break except StopIteration: pass finally: self.server.stop() logger.info("Tarantool.Instance > Server stopped") class Parallel_Test(object): def __init__(self, name): rg = re.compile('.test.*') self.name = name self.reject = None self.id = None logger.debug("||_Test.__init__ > Entering test '%s'" % self.name) self.result = rg.sub('.result', name) self.is_executed = False self.is_executed_ok = False self.is_equal_result = False self.is_new = False def passed(self): return self.is_executed and self.is_executed_ok and self.is_equal_result def execute(self, server, sql, admin): pass def run(self, sql, admin): self.id = uuid.uuid1().get_hex().replace('-', '')[0:6] self.reject = re.sub('.test.*', '.reject_%s' % self.id, self.name) self.diagnostics = "unknown" save_stdout = sys.stdout self.test_stdout = Parallel_FilteredStream() try: sys.stdout = self.test_stdout logger.debug("Entering") self.execute(sql, admin) self.is_executed_ok = True except Exception as e: logger.error("||_Test.run > Exception '%s' was thrown for '%s'" % (type(e), str(e))) #logger.error(traceback.format_exc()) with open(self.reject, 'a') as reject: traceback.print_exc(e, reject) self.diagnostics = str(e) finally: sys.stdout = save_stdout self.is_executed = True if not os.path.isfile(self.result): self.is_new = True with open(self.result, 'w') as result: result.write(self.test_stdout.getvalue()) if self.is_executed_ok and not self.is_new: self.is_equal_result = \ (open(self.result, 'r').read() == self.test_stdout.getvalue()) if not self.is_equal_result: with open(self.reject, 'a') as reject: reject.write(self.test_stdout.getvalue()) return self def get_status(self): if self.is_executed_ok and self.is_equal_result: return TestStatus("pass") elif (self.is_executed_ok and not self.is_equal_result and self.is_new): return TestStatus("new") else: where = "" if not self.is_executed_ok: where = "test execution aborted, reason '{0}'".format(self.diagnostics) elif not self.is_equal_result: where = "wrong test output" return TestStatus("fail", self.reject).set_message(where) def __call__(self, sql, admin): try: logger.debug("||_Test.__call__ > Entering test '%s'" % self.name) return self.run(sql, admin) except Exception as e: logger.error("||_Test.__call__ > Exception '%s' was thrown for '%s'" % (type(e), str(e))) logger.error(traceback.format_exc()) class Parallel_FuncTest(Parallel_Test): def execute(self, sql, admin): execfile(self.name, dict(locals(), sql=sql, admin=admin)) class Parallel_PythonTest(Parallel_FuncTest): pass