#!/usr/bin/env python2 # # Parallel VM test case executor # Copyright (c) 2014-2015, Jouni Malinen # # This software may be distributed under the terms of the BSD license. # See README for more details. import curses import fcntl import logging import os import subprocess import sys import time logger = logging.getLogger() def get_failed(vm): failed = [] for i in range(num_servers): failed += vm[i]['failed'] return failed def vm_read_stdout(vm, i): global total_started, total_passed, total_failed, total_skipped global rerun_failures ready = False try: out = vm['proc'].stdout.read() except: return False logger.debug("VM[%d] stdout.read[%s]" % (i, out)) pending = vm['pending'] + out lines = [] while True: pos = pending.find('\n') if pos < 0: break line = pending[0:pos].rstrip() pending = pending[(pos + 1):] logger.debug("VM[%d] stdout full line[%s]" % (i, line)) if line.startswith("READY"): ready = True elif line.startswith("PASS"): ready = True total_passed += 1 elif line.startswith("FAIL"): ready = True total_failed += 1 name = line.split(' ')[1] logger.debug("VM[%d] test case failed: %s" % (i, name)) vm['failed'].append(name) elif line.startswith("NOT-FOUND"): ready = True total_failed += 1 logger.info("VM[%d] test case not found" % i) elif line.startswith("SKIP"): ready = True total_skipped += 1 elif line.startswith("START"): total_started += 1 vm['out'] += line + '\n' lines.append(line) vm['pending'] = pending return ready def show_progress(scr): global num_servers global vm global dir global timestamp global tests global first_run_failures global total_started, total_passed, total_failed, total_skipped total_tests = len(tests) logger.info("Total tests: %d" % total_tests) scr.leaveok(1) scr.addstr(0, 0, "Parallel test execution status", curses.A_BOLD) for i in range(0, num_servers): scr.addstr(i + 1, 0, "VM %d:" % (i + 1), curses.A_BOLD) scr.addstr(i + 1, 10, "starting VM") scr.addstr(num_servers + 1, 0, "Total:", curses.A_BOLD) scr.addstr(num_servers + 1, 20, "TOTAL={} STARTED=0 PASS=0 FAIL=0 SKIP=0".format(total_tests)) scr.refresh() completed_first_pass = False rerun_tests = [] while True: running = False first_running = False updated = False for i in range(0, num_servers): if completed_first_pass: continue if vm[i]['first_run_done']: continue if not vm[i]['proc']: continue if vm[i]['proc'].poll() is not None: vm[i]['proc'] = None scr.move(i + 1, 10) scr.clrtoeol() log = '{}/{}.srv.{}/console'.format(dir, timestamp, i + 1) with open(log, 'r') as f: if "Kernel panic" in f.read(): scr.addstr("kernel panic") logger.info("VM[%d] kernel panic" % i) else: scr.addstr("unexpected exit") logger.info("VM[%d] unexpected exit" % i) updated = True continue running = True first_running = True try: err = vm[i]['proc'].stderr.read() vm[i]['err'] += err logger.debug("VM[%d] stderr.read[%s]" % (i, err)) except: pass if vm_read_stdout(vm[i], i): scr.move(i + 1, 10) scr.clrtoeol() updated = True if not tests: vm[i]['first_run_done'] = True scr.addstr("completed first round") logger.info("VM[%d] completed first round" % i) continue else: name = tests.pop(0) vm[i]['proc'].stdin.write(name + '\n') scr.addstr(name) logger.debug("VM[%d] start test %s" % (i, name)) if not first_running and not completed_first_pass: logger.info("First round of testing completed") if tests: logger.info("Unexpected test cases remaining from first round: " + str(tests)) raise Exception("Unexpected test cases remaining from first round") completed_first_pass = True for name in get_failed(vm): if rerun_failures: rerun_tests.append(name) first_run_failures.append(name) for i in range(num_servers): if not completed_first_pass: continue if not vm[i]['proc']: continue if vm[i]['proc'].poll() is not None: vm[i]['proc'] = None scr.move(i + 1, 10) scr.clrtoeol() log = '{}/{}.srv.{}/console'.format(dir, timestamp, i + 1) with open(log, 'r') as f: if "Kernel panic" in f.read(): scr.addstr("kernel panic") logger.info("VM[%d] kernel panic" % i) else: scr.addstr("completed run") logger.info("VM[%d] completed run" % i) updated = True continue running = True try: err = vm[i]['proc'].stderr.read() vm[i]['err'] += err logger.debug("VM[%d] stderr.read[%s]" % (i, err)) except: pass ready = False if vm[i]['first_run_done']: vm[i]['first_run_done'] = False ready = True else: ready = vm_read_stdout(vm[i], i) if ready: scr.move(i + 1, 10) scr.clrtoeol() updated = True if not rerun_tests: vm[i]['proc'].stdin.write('\n') scr.addstr("shutting down") logger.info("VM[%d] shutting down" % i) else: name = rerun_tests.pop(0) vm[i]['proc'].stdin.write(name + '\n') scr.addstr(name + "(*)") logger.debug("VM[%d] start test %s (*)" % (i, name)) if not running: break if updated: scr.move(num_servers + 1, 10) scr.clrtoeol() scr.addstr("{} %".format(int(100.0 * (total_passed + total_failed + total_skipped) / total_tests))) scr.addstr(num_servers + 1, 20, "TOTAL={} STARTED={} PASS={} FAIL={} SKIP={}".format(total_tests, total_started, total_passed, total_failed, total_skipped)) failed = get_failed(vm) if len(failed) > 0: scr.move(num_servers + 2, 0) scr.clrtoeol() scr.addstr("Failed test cases: ") count = 0 for f in failed: count += 1 if count > 30: scr.addstr('...') scr.clrtoeol() break scr.addstr(f) scr.addstr(' ') scr.move(0, 35) scr.clrtoeol() if rerun_tests: scr.addstr("(RETRY FAILED %d)" % len(rerun_tests)) elif rerun_failures: pass elif first_run_failures: scr.addstr("(RETRY FAILED)") scr.refresh() time.sleep(0.25) scr.refresh() time.sleep(0.3) def main(): import argparse import os global num_servers global vm global dir global timestamp global tests global first_run_failures global total_started, total_passed, total_failed, total_skipped global rerun_failures total_started = 0 total_passed = 0 total_failed = 0 total_skipped = 0 debug_level = logging.INFO rerun_failures = True timestamp = int(time.time()) scriptsdir = os.path.dirname(os.path.realpath(sys.argv[0])) p = argparse.ArgumentParser(description='run multiple testing VMs in parallel') p.add_argument('num_servers', metavar='number of VMs', type=int, choices=range(1, 100), help="number of VMs to start") p.add_argument('-f', dest='testmodules', metavar='', help='execute only tests from these test modules', type=str, nargs='+') p.add_argument('-1', dest='no_retry', action='store_const', const=True, default=False, help="don't retry failed tests automatically") p.add_argument('--debug', dest='debug', action='store_const', const=True, default=False, help="enable debug logging") p.add_argument('--codecov', dest='codecov', action='store_const', const=True, default=False, help="enable code coverage collection") p.add_argument('--shuffle-tests', dest='shuffle', action='store_const', const=True, default=False, help="shuffle test cases to randomize order") p.add_argument('--long', dest='long', action='store_const', const=True, default=False, help="include long-duration test cases") p.add_argument('params', nargs='*') args = p.parse_args() num_servers = args.num_servers rerun_failures = not args.no_retry if args.debug: debug_level = logging.DEBUG extra_args = [] if args.long: extra_args += [ '--long' ] if args.codecov: print "Code coverage - build separate binaries" logdir = "/tmp/hwsim-test-logs/" + str(timestamp) os.makedirs(logdir) subprocess.check_call([os.path.join(scriptsdir, 'build-codecov.sh'), logdir]) codecov_args = ['--codecov_dir', logdir] codecov = True else: codecov_args = [] codecov = False first_run_failures = [] tests = [] cmd = [ os.path.join(os.path.dirname(scriptsdir), 'run-tests.py'), '-L' ] if args.testmodules: cmd += [ "-f" ] cmd += args.testmodules lst = subprocess.Popen(cmd, stdout=subprocess.PIPE) for l in lst.stdout.readlines(): name = l.split(' ')[0] tests.append(name) if len(tests) == 0: sys.exit("No test cases selected") dir = '/tmp/hwsim-test-logs' try: os.mkdir(dir) except: pass if args.shuffle: from random import shuffle shuffle(tests) elif num_servers > 2 and len(tests) > 100: # Move test cases with long duration to the beginning as an # optimization to avoid last part of the test execution running a long # duration test case on a single VM while all other VMs have already # completed their work. long = [ "ap_roam_open", "wpas_mesh_password_mismatch_retry", "wpas_mesh_password_mismatch", "hostapd_oom_wpa2_psk_connect", "ap_hs20_fetch_osu_stop", "ap_roam_wpa2_psk", "ibss_wpa_none_ccmp", "nfc_wps_er_handover_pk_hash_mismatch_sta", "go_neg_peers_force_diff_freq", "p2p_cli_invite", "sta_ap_scan_2b", "ap_pmf_sta_unprot_deauth_burst", "ap_bss_add_remove_during_ht_scan", "wext_scan_hidden", "autoscan_exponential", "nfc_p2p_client", "wnm_bss_keep_alive", "ap_inactivity_disconnect", "scan_bss_expiration_age", "autoscan_periodic", "discovery_group_client", "concurrent_p2pcli", "ap_bss_add_remove", "wpas_ap_wps", "wext_pmksa_cache", "ibss_wpa_none", "ap_ht_40mhz_intolerant_ap", "ibss_rsn", "discovery_pd_retries", "ap_wps_setup_locked_timeout", "ap_vht160", "dfs_radar", "dfs", "grpform_cred_ready_timeout", "hostapd_oom_wpa2_eap_connect", "wpas_ap_dfs", "ap_wps_pbc_timeout" ] for l in long: if l in tests: tests.remove(l) tests.insert(0, l) logger.setLevel(debug_level) log_handler = logging.FileHandler('parallel-vm.log') log_handler.setLevel(debug_level) fmt = "%(asctime)s %(levelname)s %(message)s" log_formatter = logging.Formatter(fmt) log_handler.setFormatter(log_formatter) logger.addHandler(log_handler) vm = {} for i in range(0, num_servers): print("\rStarting virtual machine {}/{}".format(i + 1, num_servers)), logger.info("Starting virtual machine {}/{}".format(i + 1, num_servers)) cmd = [os.path.join(scriptsdir, 'vm-run.sh'), '--delay', str(i), '--timestamp', str(timestamp), '--ext', 'srv.%d' % (i + 1), '-i'] + codecov_args + extra_args vm[i] = {} vm[i]['first_run_done'] = False vm[i]['proc'] = subprocess.Popen(cmd, stdin=subprocess.PIPE, stdout=subprocess.PIPE, stderr=subprocess.PIPE) vm[i]['out'] = "" vm[i]['pending'] = "" vm[i]['err'] = "" vm[i]['failed'] = [] for stream in [ vm[i]['proc'].stdout, vm[i]['proc'].stderr ]: fd = stream.fileno() fl = fcntl.fcntl(fd, fcntl.F_GETFL) fcntl.fcntl(fd, fcntl.F_SETFL, fl | os.O_NONBLOCK) print curses.wrapper(show_progress) with open('{}/{}-parallel.log'.format(dir, timestamp), 'w') as f: for i in range(0, num_servers): f.write('VM {}\n{}\n{}\n'.format(i, vm[i]['out'], vm[i]['err'])) failed = get_failed(vm) if first_run_failures: print "Failed test cases:" for f in first_run_failures: print f, logger.info("Failed: " + f) print double_failed = [] for name in failed: double_failed.append(name) for test in first_run_failures: double_failed.remove(test) if not rerun_failures: pass elif failed and not double_failed: print "All failed cases passed on retry" logger.info("All failed cases passed on retry") elif double_failed: print "Failed even on retry:" for f in double_failed: print f, logger.info("Failed on retry: " + f) print res = "TOTAL={} PASS={} FAIL={} SKIP={}".format(total_started, total_passed, total_failed, total_skipped) print(res) logger.info(res) print "Logs: " + dir + '/' + str(timestamp) logger.info("Logs: " + dir + '/' + str(timestamp)) for i in range(0, num_servers): if len(vm[i]['pending']) > 0: logger.info("Unprocessed stdout from VM[%d]: '%s'" % (i, vm[i]['pending'])) log = '{}/{}.srv.{}/console'.format(dir, timestamp, i + 1) with open(log, 'r') as f: if "Kernel panic" in f.read(): print "Kernel panic in " + log logger.info("Kernel panic in " + log) if codecov: print "Code coverage - preparing report" for i in range(num_servers): subprocess.check_call([os.path.join(scriptsdir, 'process-codecov.sh'), logdir + ".srv.%d" % (i + 1), str(i)]) subprocess.check_call([os.path.join(scriptsdir, 'combine-codecov.sh'), logdir]) print "file://%s/index.html" % logdir logger.info("Code coverage report: file://%s/index.html" % logdir) if double_failed or (failed and not rerun_failures): logger.info("Test run complete - failures found") sys.exit(2) if failed: logger.info("Test run complete - failures found on first run; passed on retry") sys.exit(1) logger.info("Test run complete - no failures") sys.exit(0) if __name__ == "__main__": main()