# Copyright (c) 2009 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. import logging, os, re, socket, subprocess, tempfile, threading, time from autotest_lib.client.common_lib import error from autotest_lib.server import autotest, hosts, test class WolWake(threading.Thread): """Class to allow waking of DUT via Wake-on-LAN capabilities (WOL).""" def __init__(self, hostname, mac_addr, sleep_secs): """Constructor for waking DUT. Args: mac_addr: string of mac address tuple sleep_secs: seconds to sleep prior to attempting WOL """ threading.Thread.__init__(self) self._hostname = hostname self._mac_addr = mac_addr self._sleep_secs = sleep_secs # TODO(tbroch) Borrowed from class ServoTest. Refactor for code re-use def _ping_test(self, hostname, timeout=5): """Verify whether a host responds to a ping. Args: hostname: Hostname to ping. timeout: Time in seconds to wait for a response. Returns: True if success False otherwise """ with open(os.devnull, 'w') as fnull: ping_good = False elapsed_time = 0 while not ping_good and elapsed_time < timeout: ping_good = subprocess.call( ['ping', '-c', '1', '-W', str(timeout), str(hostname)], stdout=fnull, stderr=fnull) == 0 time.sleep(1) elapsed_time += 1 return ping_good def _send_wol_magic_packet(self): """Perform Wake-on-LAN magic wake. WOL magic packet consists of: 0xff repeated for 6 bytes repeated 16 times Sent as a broadcast packet. """ mac_tuple = self._mac_addr.split(':') assert len(mac_tuple) == 6 magic = '\xff' * 6 submagic = ''.join("%c" % int(value, 16) for value in mac_tuple) magic += submagic * 16 assert len(magic) == 102 sock=socket.socket(socket.AF_INET, socket.SOCK_DGRAM) sock.setsockopt(socket.SOL_SOCKET, socket.SO_BROADCAST, 1) sock.sendto(magic, ('', 7)) sock.close() logging.info("Wake thread sent WOL wakeup") def run(self): # ping device to make sure its network is off presumably from suspend # not another malfunction. ping_secs = 0 while self._ping_test(self._hostname, timeout=2) and \ ping_secs < self._sleep_secs: time.sleep(1) ping_secs += 1 self._send_wol_magic_packet() class network_EthCapsServer(test.test): """test class""" version = 1 def _parse_ifconfig(self, filename): """Retrieve ifconfig information. Raises error.TestError if unable to parse mac address """ self._mac_addr = None fd = open(filename) re_mac = re.compile(r'.*(HWaddr|ether)\s+(\S+:\S+:\S+:\S+:\S+:\S+).*') for ln in fd.readlines(): logging.debug(ln) mat = re.match(re_mac, ln) if mat: self._mac_addr = mat.group(2) logging.info("mac addr = %s", self._mac_addr) break fd.close() if not self._mac_addr: raise error.TestError("Unable to find mac addresss") def _client_cmd(self, cmd, results=None): """Execute a command on the client. Args: results: string of filename to save results on client. Returns: string of filename on server side with stdout results of command """ if results: client_tmpdir = self._client.get_tmp_dir() client_results = os.path.join(client_tmpdir, "%s" % results) cmd = "%s > %s 2>&1" % (cmd, client_results) logging.info("Client cmd = %s", cmd) self._client.run(cmd) if results: server_tmpfile = tempfile.NamedTemporaryFile(delete=False) server_tmpfile.close() self._client.get_file(client_results, server_tmpfile.name) return server_tmpfile.name return None def run_once(self, client_ip=None, ethname='eth0'): """Run the test. Args: client_ip: string of client's ip address ethname: string of ethernet device under test """ if not client_ip: raise error.TestError("Must provide client's IP address to test") sleep_secs = 20 self._ethname = ethname self._client_ip = client_ip self._client = hosts.create_host(client_ip) client_at = autotest.Autotest(self._client) # retrieve ifconfig info for mac address of client cmd = "ifconfig %s" % self._ethname ifconfig_filename = self._client_cmd(cmd, results="ifconfig.log") self._parse_ifconfig(ifconfig_filename) # thread to wake the device using WOL wol_wake = WolWake(self._client_ip, self._mac_addr, sleep_secs) wol_wake.start() # create and run client test to prepare and suspend device client_at.run_test("network_EthCaps", ethname=ethname, threshold_secs=sleep_secs * 2) wol_wake.join()