コード例 #1
0
ファイル: test.py プロジェクト: davelxmos/test_framework
def runTest(args):
  """ The test program - needs to yield on each expect and be decorated
    with @inlineCallbacks
  """

  startup = AllOf([Expected(e, "PTP Role: Master", 30) for e in endpoints])

  ptpslave = OneOf([
      Sequence([Expected(e, "PTP Role: Slave", 5),
            Expected(e, "PTP sync locked", 1)])
      for e in endpoints
    ])

  talker_connections = [
      Sequence([Expected(e, "MAAP reserved Talker stream #0 address: 91:E0:F0:0", 30),
            Expected(e, "CONNECTING Talker stream #0", 10),
            Expected(e, "Talker stream #0 ready", 10),
            Expected(e, "Talker stream #0 on", 10)])
      for e in endpoints
    ]

  listener_connections = [
      Sequence([Expected(e, "CONNECTING Listener sink #0", 30),
            AllOf([Expected(e, "%d -> %d" % (n, n), 10) for n in range(4)]),
            AllOf([Expected(e, "Media output %d locked" % n, 10) for n in range(4)]),
            NoneOf([Expected(e, "lost lock", 10)])])
      for e in endpoints
    ]

  yield master.expect(startup)
  for name,process in base.getActiveProcesses().iteritems():
    process.registerErrorPattern("PTP Role: Master")
  yield master.expect(AllOf([ptpslave] + talker_connections + listener_connections))

  base.testComplete(reactor)
コード例 #2
0
ファイル: test.py プロジェクト: davelxmos/sw_avb_dc
def runTest(args):
  """ The test program - needs to yield on each expect and be decorated
    with @inlineCallbacks
  """
  for y in configure_generators():
    yield y

  for y in configure_analyzers():
    yield y

  for y in check_endpoint_startup():
    yield y

  expected = []
  for y in action_discover(args, generator.Command("discover"), expected, []):
    yield y
  for e in expected:
    yield args.master.expect(e)
  expected = []

  if not getEntities():
    base.testError("no entities found", critical=True)

  test_num = 1
  check_num = 1
  for test_step in test_steps:
    state.move_next_to_current()

    command = test_step.command
    print_title("Command %d: %s" % (test_num, command))
    test_num += 1

    action = command.split(' ')
    action_function = eval('action_%s' % action[0])
    for y in action_function(args, test_step, expected, action[1:]):
      yield y

    if test_step.checkpoint or test_step.checkpoint is None:
      print_title("Check: %d" % check_num)
      check_num += 1
      if expected:
        yield args.master.expect(AllOf(expected))
        expected = []

        # Ensure that any remaining output of a previous test step is flushed
        for process in getActiveProcesses():
          master.clearExpectHistory(process)

  # Allow everything time to settle (in case an error is being generated)
  yield base.sleep(5)
  base.testComplete(reactor)
コード例 #3
0
ファイル: test.py プロジェクト: henkmuller/sw_avb_dc
def runTest(args):
  """ The test program - needs to yield on each expect and be decorated
    with @inlineCallbacks
  """
  for y in configure_generators():
    yield y

  for y in configure_analyzers():
    yield y

  for y in check_endpoint_startup():
    yield y

  expected = []
  for y in action_discover(args, generator.Command("discover"), expected, []):
    yield y

  check_num = 1
  for test_step in test_steps:
    print_comment(test_step)
    state.move_next_to_current()

    command = test_step.get_command()
    if command is None:
      continue

    action = command.split(' ')
    action_function = eval('action_%s' % action[0])
    expected = []
    for y in action_function(args, test_step, expected, action[1:]):
      yield y
    if expected:
      args.master.addExpected(AllOf(expected))

    if (test_step.checkpoint or test_step.checkpoint is None) and args.master.nextExpected:
      print_title("Check: %d" % check_num)
      check_num += 1

      args.master.startNext()
      yield args.master.expect()

      # Ensure that any remaining output of a previous test step is flushed
      for process in getActiveProcesses():
        master.clearExpectHistory(process)

  # Allow everything time to settle (in case an error is being generated)
  yield base.sleep(5)
  base.testComplete(reactor)
コード例 #4
0
ファイル: test.py プロジェクト: xcore/test_framework
def runTest(args):
  """ The test program - needs to yield on each expect and be decorated
    with @inlineCallbacks
  """

  startup = AllOf([Expected(e, "Started", 10) for e in endpoints])
  log_debug(startup)
  yield master.expect(startup)

  next_steps = AllOf([AllOf([Expected('ep0', "Next", 10)]), AllOf([Expected('ep1', "Next", 10)])])
  log_debug(next_steps)
  yield master.expect(next_steps)

  seq = AllOf([Sequence([Expected(e, "Count0", 10), Expected(e, "Count1", 10)]) for e in endpoints])
  log_debug(seq)
  yield master.expect(seq)

  base.testComplete(reactor)
コード例 #5
0
ファイル: test.py プロジェクト: grijalvap/sw_audio_analyzer
def runTest(args):
  master = xmos.test.master.Master()

  analysis_bin = os.path.join(rootDir, 'sw_audio_analyzer', 'app_audio_analyzer_avb',
                             'bin', 'audio_analyzer.xe')
  xrun = xrunProcess(master, args.adapter_id, "xrun", analysis_bin)

  controller_path = os.path.join(rootDir, 'sw_audio_analyzer', 'host_audio_analyzer')
  controller_id = 'controller'
  controller = process.Process(controller_id, master, output_file="controller.log", verbose=True)
  reactor.spawnProcess(controller, './audio_analyzer', ['./audio_analyzer'],
    env=os.environ, path=controller_path)

  # Wait for the controller to have started
  yield master.expect(Expected(controller_id, "^Starting I2S$", 10)) 

  # Allow time for everything to settle
  yield base.sleep(5)

  master.sendLine(controller_id, "d a")
  yield master.expect(Expected(controller_id, "Channel 0: disabled", 15))

  # There needs to be small delays to allow the audio signals to settle, otherwise
  # spurious glitches are detected.
  delay = 0.5
  test_frequencies = [1000, 2000, 4000, 8000]

  # Ensure that there is no glitch by default
  for freq in test_frequencies:
    master.sendLine(controller_id, "d 0")
    yield master.expect(Expected(controller_id, "Channel 0: disabled", 15))
    yield base.sleep(delay)
    master.sendLine(controller_id, "c 0 {freq}".format(freq=freq))
    yield master.expect(Expected(controller_id, "Generating sine table for chan 0", 15))
    yield base.sleep(delay)
    master.sendLine(controller_id, "e 0")
    yield master.expect(Sequence([
        Expected(controller_id, "Channel 0: enabled", 5),
        Expected(controller_id, "Channel 0: Signal detected", 10),
        Expected(controller_id, "Channel 0: Frequency %d" % freq, 5)]))
    yield master.expect(NoneOf([Expected(controller_id, "ERROR: Channel 0: glitch detected", 30)]))

  offset = 5000
  for freq in test_frequencies:
    log_info("-----------------")
    log_info("Test %d Hz" % freq)
    num_points = int(48000/freq);
    for period in range(0, num_points):
      log_info("Test for glitch at %d (%d/%d)" % (freq, period + 1, num_points))

      # Disable all channels
      master.sendLine(controller_id, "d 0")
      yield master.expect(Expected(controller_id, "Channel 0: disabled", 15))
      yield base.sleep(delay)
      master.sendLine(controller_id, "c 0 {freq} -1 0 {period}".format(freq=freq, period=period+offset))
      yield master.expect(Expected(controller_id, "Generating sine table for chan 0", 15))
      yield base.sleep(delay)
      master.sendLine(controller_id, "e 0")
      yield master.expect(Sequence([
          Expected(controller_id, "Channel 0: enabled", 5),
          Expected(controller_id, "Channel 0: Signal detected", 10),
          Expected(controller_id, "Channel 0: Frequency %d" % freq, 5)]))
      yield master.expect(Expected(controller_id, "ERROR: Channel 0: glitch detected", 15))
      yield base.sleep(delay)

  base.testComplete(reactor)