| # Copyright (c) 2013 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 re |
| |
| from autotest_lib.client.common_lib import error |
| from autotest_lib.client.common_lib.cros import path_utils |
| |
| |
| class ArpingRunner(object): |
| """Delegate to run arping on a remote host.""" |
| |
| DEFAULT_COUNT = 10 |
| SSH_TIMEOUT_MARGIN = 120 |
| |
| |
| def __init__(self, host, ping_interface): |
| self._host = host |
| self._arping_command = path_utils.must_be_installed( |
| '/usr/bin/arping', host=host) |
| self._ping_interface = ping_interface |
| |
| |
| def arping(self, target_ip, count=None, timeout_seconds=None): |
| """Run arping on a remote host. |
| |
| @param target_ip: string IP address to use as the ARP target. |
| @param count: int number of ARP packets to send. The command |
| will take roughly |count| seconds to complete, since arping |
| sends a packet out once a second. |
| @param timeout_seconds: int number of seconds to wait for arping |
| to complete. Override the default of one second per packet. |
| Note that this doesn't change packet spacing. |
| |
| """ |
| if count is None: |
| count = self.DEFAULT_COUNT |
| if timeout_seconds is None: |
| timeout_seconds = count |
| command_pieces = [self._arping_command] |
| command_pieces.append('-b') # Default to only sending broadcast ARPs. |
| command_pieces.append('-w %d' % timeout_seconds) |
| command_pieces.append('-c %d' % count) |
| command_pieces.append('-I %s %s' % (self._ping_interface, target_ip)) |
| result = self._host.run( |
| ' '.join(command_pieces), |
| timeout=timeout_seconds + self.SSH_TIMEOUT_MARGIN, |
| ignore_status=True) |
| return ArpingResult(result.stdout) |
| |
| |
| class ArpingResult(object): |
| """Can parse raw arping output and present a summary.""" |
| |
| DEFAULT_LOSS_THRESHOLD = 30.0 |
| |
| |
| def __init__(self, stdout): |
| """Construct an ArpingResult from the stdout of arping. |
| |
| A successful run looks something like this: |
| |
| ARPING 192.168.2.193 from 192.168.2.254 eth0 |
| Unicast reply from 192.168.2.193 [14:7D:C5:E1:53:83] 2.842ms |
| Unicast reply from 192.168.2.193 [14:7D:C5:E1:53:83] 5.851ms |
| Unicast reply from 192.168.2.193 [14:7D:C5:E1:53:83] 2.565ms |
| Unicast reply from 192.168.2.193 [14:7D:C5:E1:53:83] 2.595ms |
| Unicast reply from 192.168.2.193 [14:7D:C5:E1:53:83] 2.534ms |
| Unicast reply from 192.168.2.193 [14:7D:C5:E1:53:83] 3.217ms |
| Unicast request from 192.168.2.193 [14:7D:C5:E1:53:83] 748.657ms |
| Sent 6 probes (6 broadcast(s)) |
| Received 7 response(s) (1 request(s)) |
| |
| @param stdout string raw stdout of arping command. |
| |
| """ |
| latencies = [] |
| responders = set() |
| num_sent = None |
| regex = re.compile(r'(([0-9]{1,3}\.){3}[0-9]{1,3}) ' |
| r'\[(([0-9A-Fa-f]{1,2}:){5}[0-9A-Fa-f]{1,2})\] +' |
| r'([0-9\.]+)ms') |
| requests = 0 |
| for line in stdout.splitlines(): |
| if line.find('Unicast reply from') == 0: |
| match = re.search(regex, line.strip()) |
| if match is None: |
| raise error.TestError('arping result parsing code failed ' |
| 'to anticipate line: ' % line) |
| |
| responder_ip = match.group(1) # Maybe useful in the future? |
| responder_mac = match.group(3) |
| latency = float(match.group(5)) |
| latencies.append(latency) |
| responders.add(responder_mac) |
| if line.find('Unicast request from') == 0: |
| # We don't care about these really, but they mess up our |
| # primitive line counting. |
| requests += 1 |
| elif line.find('Sent ') == 0: |
| num_sent = int(line.split()[1]) |
| elif line.find('Received ') == 0: |
| count = int(line.split()[1]) |
| if count != len(latencies) + requests: |
| raise error.TestFail('Failed to parse accurate latencies ' |
| 'from stdout: %r. Got %d, ' |
| 'wanted %d.' % (stdout, len(latencies), |
| count)) |
| if num_sent is None: |
| raise error.TestFail('Failed to parse number of arpings sent ' |
| 'from %r' % stdout) |
| |
| if num_sent < 1: |
| raise error.TestFail('No arpings sent.') |
| |
| self.loss = 100.0 * float(num_sent - len(latencies)) / num_sent |
| self.average_latency = 0.0 |
| if latencies: |
| self.average_latency = sum(latencies) / len(latencies) |
| self.latencies = latencies |
| self.responders = responders |
| |
| |
| def was_successful(self, max_average_latency=None, valid_responders=None, |
| max_loss=DEFAULT_LOSS_THRESHOLD): |
| """Checks if the arping was some definition of successful. |
| |
| @param max_average_latency float maximum value for average latency in |
| milliseconds. |
| @param valid_responders iterable object of responder MAC addresses. |
| We'll check that we got only responses from valid responders. |
| @param max_loss float maximum loss expressed as a percentage. |
| @return True iff all criterion set to not None values hold. |
| |
| """ |
| if (max_average_latency is not None and |
| self.average_latency > max_average_latency): |
| return False |
| |
| if (valid_responders is not None and |
| self.responders.difference(valid_responders)): |
| return False |
| |
| if max_loss is not None and self.loss > max_loss: |
| return False |
| |
| return True |
| |
| |
| def __repr__(self): |
| return ('%s(loss=%r, average_latency=%r, latencies=%r, responders=%r)' % |
| (self.__class__.__name__, self.loss, self.average_latency, |
| self.latencies, self.responders)) |
