# Copyright 2017 The Chromium OS Authors. All rights reserved. # Use of this source code is governed by a BSD-style license that can be # found in the LICENSE file. """Check USB device by running linux command on CfM""" from __future__ import print_function import logging import re import time from autotest_lib.client.common_lib.cros.manual import get_usb_devices from autotest_lib.client.common_lib.cros import power_cycle_usb_util CORE_DIR_LINES = 3 ATRUS = '18d1:8001' def check_chrome_logfile(dut): """ Get the latest chrome log file. @param dut: The handle of the device under test. @returns: the latest chrome log file """ output = None logging.info('---Get the latest chrome log file') cmd = 'ls -latr /var/log/chrome/chrome' try: output = dut.run(cmd, ignore_status=True).stdout except Exception as e: logging.exception('Fail to run command %s.', cmd) return None logging.info('---cmd: %s', cmd) logging.info('---output: %s', output.lower().strip()) return output def check_last_reboot(dut): """ Get the last line of eventlog.txt @param dut: The handle of the device under test. @returns: the last line in eventlog.txt """ output = None cmd = 'tail -1 /var/log/eventlog.txt' logging.info('---Get the latest reboot log') try: output = dut.run(cmd, ignore_status=True).stdout except Exception as e: logging.exception('Fail to run command %s.', cmd) return None logging.info('---cmd: %s', cmd) logging.info('---output: %s', output.lower().strip()) return output def check_is_platform(dut, name): """ Check whether CfM is expected platform. @param dut: The handle of the device under test. @param name: The name of platform @returns: True, if CfM's platform is same as expected. False, if not. """ cmd = "mosys platform name" output = dut.run(cmd, ignore_status=True).stdout.strip() logging.info('---cmd: %s', cmd) logging.info('---output: %s', output.lower()) return output.lower() == name def get_mgmt_ipv4(dut): """ Get mgmt ipv4 address @param dut: The handle of the device under test. Should be initialized in autotest. @return: ipv4 address for mgmt interface. """ cmd = 'ifconfig -a | grep eth0 -A 2 | grep netmask' try: output = dut.run(cmd, ignore_status=True).stdout except Exception as e: logging.exception('Fail to run command %s.', cmd) return None ipv4 = re.findall(r"inet\s*([0-9.]+)\s*netmask.*", output)[0] return ipv4 def retrieve_usb_devices(dut): """ Populate output of usb-devices on CfM. @param dut: handle of CfM under test @returns dict of all usb devices detected on CfM. """ usb_devices = (dut.run('usb-devices', ignore_status=True). stdout.strip().split('\n\n')) usb_data = get_usb_devices.extract_usb_data( '\nUSB-Device\n'+'\nUSB-Device\n'.join(usb_devices)) return usb_data def extract_peripherals_for_cfm(usb_data): """ Check CfM has camera, speaker and Mimo connected. @param usb_data: dict extracted from output of "usb-devices" """ peripheral_map = {} speaker_list = get_usb_devices.get_speakers(usb_data) camera_list = get_usb_devices.get_cameras(usb_data) display_list = get_usb_devices.get_display_mimo(usb_data) controller_list = get_usb_devices.get_controller_mimo(usb_data) for pid_vid, device_count in speaker_list.iteritems(): if device_count > 0: peripheral_map[pid_vid] = device_count for pid_vid, device_count in camera_list.iteritems(): if device_count > 0: peripheral_map[pid_vid] = device_count for pid_vid, device_count in controller_list.iteritems(): if device_count > 0: peripheral_map[pid_vid] = device_count for pid_vid, device_count in display_list.iteritems(): if device_count > 0: peripheral_map[pid_vid] = device_count for pid_vid, device_count in peripheral_map.iteritems(): logging.info('---device: %s (%s), count: %d', pid_vid, get_usb_devices.get_device_prod(pid_vid), device_count) return peripheral_map def check_peripherals_for_cfm(peripheral_map): """ Check CfM has one and only one camera, one and only one speaker, or one and only one mimo. @param peripheral_map: dict for connected camera, speaker, or mimo. @returns: True if check passes, False if check fails. """ peripherals = peripheral_map.keys() type_camera = set(peripherals).intersection(get_usb_devices.CAMERA_LIST) type_speaker = set(peripherals).intersection(get_usb_devices.SPEAKER_LIST) type_controller = set(peripherals).intersection(\ get_usb_devices.TOUCH_CONTROLLER_LIST) type_panel = set(peripherals).intersection(\ get_usb_devices.TOUCH_DISPLAY_LIST) # check CfM have one, and only one type camera, huddly and mimo if len(type_camera) == 0: logging.info('No camera is found on CfM.') return False if not len(type_camera) == 1: logging.info('More than one type of cameras are found on CfM.') return False if len(type_speaker) == 0: logging.info('No speaker is found on CfM.') return False if not len(type_speaker) == 1: logging.info('More than one type of speakers are found on CfM.') return False if len(type_controller) == 0: logging.info('No controller is found on CfM.') return False if not len(type_controller) == 1: logging.info('More than one type of controller are found on CfM.') return False if len(type_panel) == 0: logging.info('No Display is found on CfM.') return False if not len(type_panel) == 1: logging.info('More than one type of displays are found on CfM.') return False # check CfM have only one camera, huddly and mimo for pid_vid, device_count in peripheral_map.iteritems(): if device_count > 1: logging.info('Number of device %s connected to CfM : %d', get_usb_devices.get_device_prod(pid_vid), device_count) return False return True def check_usb_enumeration(dut, puts): """ Check USB enumeration for devices @param dut: the handle of CfM under test @param puts: the list of peripherals under test @returns True, none if test passes False, errMsg if test test fails """ usb_data = retrieve_usb_devices(dut) if not usb_data: logging.warning('No usb devices found on DUT') return False, 'No usb device found on DUT.' else: usb_device_list = extract_peripherals_for_cfm(usb_data) logging.info('---usb device = %s', usb_device_list) if not set(puts).issubset(set(usb_device_list.keys())): logging.info('Detect device fails for usb enumeration') logging.info('Expect enumerated devices: %s', puts) logging.info('Actual enumerated devices: %s', usb_device_list.keys()) return False, 'Some usb devices are not found.' return True, None def check_usb_interface_initializion(dut, puts): """ Check CfM shows valid interface for all peripherals connected. @param dut: the handle of CfM under test @param puts: the list of peripherals under test @returns True, none if test passes False, errMsg if test test fails """ usb_data = retrieve_usb_devices(dut) for put in puts: number, health = get_usb_devices.is_usb_device_ok(usb_data, put) logging.info('---device interface = %d, %s for %s', number, health, get_usb_devices.get_device_prod(put)) if '0' in health: logging.warning('Device %s has invalid interface', put) return False, 'Device {} has invalid interface.'.format(put) return True, None def clear_core_file(dut): """clear core files""" cmd = "rm -rf /var/spool/crash/*.*" try: dut.run_output(cmd) except Exception as e: logging.exception('Fail to clean core files under ' '/var/spool/crash') logging.exception('Fail to execute %s :', cmd) def check_process_crash(dut, cdlines): """Check whether there is core file.""" cmd = 'ls -latr /var/spool/crash' try: core_files_output = dut.run_output(cmd).splitlines() except Exception as e: logging.exception('Can not find file under /var/spool/crash.') logging.exception('Fail to execute %s:', cmd) return True, CORE_DIR_LINES logging.info('---%s\n---%s', cmd, core_files_output) if len(core_files_output) - cdlines <= 0: logging.info('---length of files: %d', len(core_files_output)) return True, len(core_files_output) else: return False, len(core_files_output) def gpio_usb_test(dut, gpio_list, device_list, pause, board): """ Run GPIO test to powercycle usb port. @parama dut: handler of CfM, @param gpio_list: the list of gpio ports, @param device_list: the list of usb devices, @param pause: time needs to wait before restoring power to usb port, in seconds @param board: board name for CfM @returns True """ for device in device_list: vid, pid = device.split(':') logging.info('---going to powercyle device %s:%s', vid, pid) try: power_cycle_usb_util.power_cycle_usb_vidpid(dut, board, vid, pid, pause) except Exception as e: errmsg = 'Fail to power cycle device.' logging.exception('%s.', errmsg) return False, errmsg return True, None def reboot_test(dut, pause): """ Reboot CfM. @parama dut: handler of CfM, @param pause: time needs to wait after issuing reboot command, in seconds, """ try: dut.reboot() except Exception as e: logging.exception('Fail to reboot CfM.') return False logging.info('---reboot done') time.sleep(pause) return True def find_last_log(dut, speaker): """ Get the lastlast_lines line for log files. @param dut: handler of CfM @param speaker: vidpid if speaker. @returns: the list of string of the last line of logs. """ last_lines = { 'messages':[], 'chrome':[], 'ui': [], 'atrus': [] } logging.debug('Get the last line of log file, speaker %s', speaker) try: cmd = "tail -1 /var/log/messages | awk -v N=1 '{print $N}'" last_lines['messages'] = dut.run_output(cmd).strip().split()[0] cmd = "tail -1 /var/log/chrome/chrome | awk -v N=1 '{print $N}'" last_lines['chrome'] = dut.run_output(cmd).strip().split()[0] cmd = "tail -1 /var/log/ui/ui.LATEST | awk -v N=1 '{print $N}'" last_lines['ui']= dut.run_output(cmd) if speaker == ATRUS and check_is_platform(dut, 'guado'): logging.info('---atrus speaker %s connected to CfM', speaker) cmd = 'tail -1 /var/log/atrus.log | awk -v N=1 "{print $N}"' last_lines['atrus'] = dut.run_output(cmd).strip().split()[0] except Exception as e: logging.exception('Fail to get the last line from log files.') for item, timestamp in last_lines.iteritems(): logging.debug('---%s: %s', item, timestamp) return last_lines def collect_log_since_last_check(dut, lastlines, logfile): """Collect log file since last check.""" output = None if logfile == "messages": cmd ='awk \'/{}/,0\' /var/log/messages'.format(lastlines[logfile]) if logfile == "chrome": cmd ='awk \'/{}/,0\' /var/log/chrome/chrome'.format(lastlines[logfile]) if logfile == "ui": cmd ='awk \'/{}/,0\' /var/log/ui/ui.LATEST'.format(lastlines[logfile]) if logfile == 'atrus': cmd ='awk \'/{}/,0\' /var/log/atrus.log'.format(lastlines[logfile]) logging.info('---cmd = %s', cmd) try: output = dut.run_output(cmd).split('\n') except Exception as e: logging.exception('Fail to get output from log files.') logging.info('---length of log: %d', len(output)) if not output: logging.info('--fail to find match log, check the latest log.') if not output: if logfile == "messages": cmd ='cat /var/log/messages' if logfile == "chrome": cmd ='cat /var/log/chrome/chrome' if logfile == "ui": cmd ='cat /var/log/ui/ui.LATEST' if logfile == 'atrus': cmd ='cat /var/log/atrus.log' output = dut.run_output(cmd).split('\n') logging.info('---length of log: %d', len(output)) return output def check_log(dut, timestamp, error_list, checkitem, logfile): """ Check logfile does not contain any element in error_list[checkitem]. """ error_log_list = [] logging.info('---now check log %s in file %s', checkitem, logfile) output = collect_log_since_last_check(dut, timestamp, logfile) for _error in error_list[checkitem]: error_log_list.extend([s for s in output if _error in str(s)]) if not error_log_list: return True, None else: tempmsg = '\n'.join(error_log_list) errmsg = 'Error_Found:in_log_file:{}:{}.'.format(logfile, tempmsg) logging.info('---%s', errmsg) return False, errmsg