android-12.0.0_r34/s

# Lint as: python2, python3
# 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 collections
import re
import sys
import warnings

import common
from autotest_lib.server.cros import provision_actionables as actionables
from autotest_lib.utils import labellib
from autotest_lib.utils.labellib import Key


### Constants for label prefixes
CROS_VERSION_PREFIX = Key.CROS_VERSION
CROS_ANDROID_VERSION_PREFIX = Key.CROS_ANDROID_VERSION
FW_RW_VERSION_PREFIX = Key.FIRMWARE_RW_VERSION
FW_RO_VERSION_PREFIX = Key.FIRMWARE_RO_VERSION
FW_CR50_RW_VERSION_PREFIX = Key.FIRMWARE_CR50_RW_VERSION

# So far the word cheets is only way to distinguish between ARC and Android
# build.
_CROS_ANDROID_BUILD_REGEX = r'.+/cheets.*/P?([0-9]+|LATEST)'

# Special label to skip provision and run reset instead.
SKIP_PROVISION = 'skip_provision'

# Postfix -cheetsth to distinguish ChromeOS build during Cheets provisioning.
CHEETS_SUFFIX = '-cheetsth'

# ChromeOS image archive server address
CROS_IMAGE_ARCHIVE = 'gs://chromeos-image-archive'

# ChromeOS firmware branch directory name. %s is for a (base)board name.
FW_BRANCH_GLOB = 'firmware-%s-[0-9]*.B-firmwarebranch'

_Action = collections.namedtuple('_Action', 'name, value')


def _get_label_action(str_label):
    """Get action represented by the label.

    This is used for determine actions to perform based on labels, for
    example for provisioning or repair.

    @param str_label: label string
    @returns: _Action instance
    """
    try:
        keyval_label = labellib.parse_keyval_label(str_label)
    except ValueError:
        return _Action(str_label, None)
    else:
        return _Action(keyval_label.key, keyval_label.value)


### Helpers to convert value to label
def get_version_label_prefix(image):
    """
    Determine a version label prefix from a given image name.

    Parses `image` to determine what kind of image it refers
    to, and returns the corresponding version label prefix.

    Known version label prefixes are:
      * `CROS_VERSION_PREFIX` for Chrome OS version strings.
        These images have names like `cave-release/R57-9030.0.0`.
      * `CROS_ANDROID_VERSION_PREFIX` for Chrome OS Android version strings.
        These images have names like `git_nyc-arc/cheets_x86-user/3512523`.

    @param image: The image name to be parsed.
    @returns: A string that is the prefix of version labels for the type
              of image identified by `image`.

    """
    if re.match(_CROS_ANDROID_BUILD_REGEX, image, re.I):
        return CROS_ANDROID_VERSION_PREFIX
    else:
        return CROS_VERSION_PREFIX


def image_version_to_label(image):
    """
    Return a version label appropriate to the given image name.

    The type of version label is as determined described for
    `get_version_label_prefix()`, meaning the label will identify a
    CrOS or Android version.

    @param image: The image name to be parsed.
    @returns: A string that is the appropriate label name.

    """
    return get_version_label_prefix(image) + ':' + image


def fwro_version_to_label(image):
    """
    Returns the proper label name for a RO firmware build of |image|.

    @param image: A string of the form 'lumpy-release/R28-3993.0.0'
    @returns: A string that is the appropriate label name.

    """
    warnings.warn('fwro_version_to_label is deprecated', stacklevel=2)
    keyval_label = labellib.KeyvalLabel(Key.FIRMWARE_RO_VERSION, image)
    return labellib.format_keyval_label(keyval_label)


def fwrw_version_to_label(image):
    """
    Returns the proper label name for a RW firmware build of |image|.

    @param image: A string of the form 'lumpy-release/R28-3993.0.0'
    @returns: A string that is the appropriate label name.

    """
    warnings.warn('fwrw_version_to_label is deprecated', stacklevel=2)
    keyval_label = labellib.KeyvalLabel(Key.FIRMWARE_RW_VERSION, image)
    return labellib.format_keyval_label(keyval_label)


class _SpecialTaskAction(object):
    """
    Base class to give a template for mapping labels to tests.
    """

    # A dictionary mapping labels to test names.
    _actions = {}

    # The name of this special task to be used in output.
    name = None;

    # Some special tasks require to run before others, e.g., ChromeOS image
    # needs to be updated before firmware provision. List `_priorities` defines
    # the order of each label prefix. An element with a smaller index has higher
    # priority. Not listed ones have the lowest priority.
    # This property should be overriden in subclass to define its own priorities
    # across available label prefixes.
    _priorities = []


    @classmethod
    def acts_on(cls, label):
        """
        Returns True if the label is a label that we recognize as something we
        know how to act on, given our _actions.

        @param label: The label as a string.
        @returns: True if there exists a test to run for this label.
        """
        action = _get_label_action(label)
        return action.name in cls._actions


    @classmethod
    def run_task_actions(cls, job, host, labels):
        """
        Run task actions on host that correspond to the labels.

        Emits status lines for each run test, and INFO lines for each
        skipped label.

        @param job: A job object from a control file.
        @param host: The host to run actions on.
        @param labels: The list of job labels to work on.
        @raises: SpecialTaskActionException if a test fails.
        """
        unactionable = cls._filter_unactionable_labels(labels)
        for label in unactionable:
            job.record('INFO', None, cls.name,
                       "Can't %s label '%s'." % (cls.name, label))

        for action_item, value in cls._actions_and_values_iter(labels):
            success = action_item.execute(job=job, host=host, value=value)
            if not success:
                raise SpecialTaskActionException()


    @classmethod
    def _actions_and_values_iter(cls, labels):
        """Return sorted action and value pairs to run for labels.

        @params: An iterable of label strings.
        @returns: A generator of Actionable and value pairs.
        """
        actionable = cls._filter_actionable_labels(labels)
        keyval_mapping = labellib.LabelsMapping(actionable)
        sorted_names = sorted(keyval_mapping, key=cls._get_action_priority)
        for name in sorted_names:
            action_item = cls._actions[name]
            value = keyval_mapping[name]
            yield action_item, value


    @classmethod
    def _filter_unactionable_labels(cls, labels):
        """
        Return labels that we cannot act on.

        @param labels: A list of strings of labels.
        @returns: A set of unactionable labels
        """
        return {label for label in labels
                if not (label == SKIP_PROVISION or cls.acts_on(label))}


    @classmethod
    def _filter_actionable_labels(cls, labels):
        """
        Return labels that we can act on.

        @param labels: A list of strings of labels.
        @returns: A set of actionable labels
        """
        return {label for label in labels if cls.acts_on(label)}


    @classmethod
    def partition(cls, labels):
        """
        Filter a list of labels into two sets: those labels that we know how to
        act on and those that we don't know how to act on.

        @param labels: A list of strings of labels.
        @returns: A tuple where the first element is a set of unactionable
                  labels, and the second element is a set of the actionable
                  labels.
        """
        unactionable = set()
        actionable = set()

        for label in labels:
            if label == SKIP_PROVISION:
                # skip_provision is neither actionable or a capability label.
                # It doesn't need any handling.
                continue
            elif cls.acts_on(label):
                actionable.add(label)
            else:
                unactionable.add(label)

        return unactionable, actionable


    @classmethod
    def _get_action_priority(cls, name):
        """Return priority for the action with the given name."""
        if name in cls._priorities:
            return cls._priorities.index(name)
        else:
            return sys.maxsize


class Verify(_SpecialTaskAction):
    """
    Tests to verify that the DUT is in a sane, known good state that we can run
    tests on.  Failure to verify leads to running Repair.
    """

    _actions = {
        'modem_repair': actionables.TestActionable('cellular_StaleModemReboot'),
        # TODO(crbug.com/404421): set rpm action to power_RPMTest after the RPM
        # is stable in lab (destiny). The power_RPMTest failure led to reset job
        # failure and that left dut in Repair Failed. Since the test will fail
        # anyway due to the destiny lab issue, and test retry will retry the
        # test in another DUT.
        # This change temporarily disable the RPM check in reset job.
        # Another way to do this is to remove rpm dependency from tests' control
        # file. That will involve changes on multiple control files. This one
        # line change here is a simple temporary fix.
        'rpm': actionables.TestActionable('dummy_PassServer'),
    }

    name = 'verify'


class Provision(_SpecialTaskAction):
    """
    Provisioning runs to change the configuration of the DUT from one state to
    another.  It will only be run on verified DUTs.
    """

    # ChromeOS update must happen before firmware install, so the dut has the
    # correct ChromeOS version label when firmware install occurs. The ChromeOS
    # version label is used for firmware update to stage desired ChromeOS image
    # on to the servo USB stick.
    _priorities = [CROS_VERSION_PREFIX,
                   CROS_ANDROID_VERSION_PREFIX,
                   FW_RO_VERSION_PREFIX,
                   FW_RW_VERSION_PREFIX,
                   FW_CR50_RW_VERSION_PREFIX]

    # TODO(milleral): http://crbug.com/249555
    # Create some way to discover and register provisioning tests so that we
    # don't need to hand-maintain a list of all of them.
    _actions = {
            CROS_VERSION_PREFIX:
            actionables.TestActionable(
                    'provision_QuickProvision',
                    extra_kwargs={
                            'disable_sysinfo': False,
                            'disable_before_test_sysinfo': False,
                            'disable_before_iteration_sysinfo': True,
                            'disable_after_test_sysinfo': True,
                            'disable_after_iteration_sysinfo': True
                    }),
            CROS_ANDROID_VERSION_PREFIX:
            actionables.TestActionable('provision_CheetsUpdate'),
            FW_RO_VERSION_PREFIX:
            actionables.TestActionable('provision_FirmwareUpdate'),
            FW_RW_VERSION_PREFIX:
            actionables.TestActionable('provision_FirmwareUpdate',
                                       extra_kwargs={
                                               'rw_only': True,
                                               'tag': 'rw_only'
                                       }),
            FW_CR50_RW_VERSION_PREFIX:
            actionables.TestActionable('provision_Cr50TOT')
    }

    name = 'provision'


class Cleanup(_SpecialTaskAction):
    """
    Cleanup runs after a test fails to try and remove artifacts of tests and
    ensure the DUT will be in a sane state for the next test run.
    """

    _actions = {
        'cleanup-reboot': actionables.RebootActionable(),
    }

    name = 'cleanup'


# TODO(ayatane): This class doesn't do anything.  It's safe to remove
# after all references to it are removed (after some buffer time to be
# safe, like a few release cycles).
class Repair(_SpecialTaskAction):
    """
    Repair runs when one of the other special tasks fails.  It should be able
    to take a component of the DUT that's in an unknown state and restore it to
    a good state.
    """

    _actions = {
    }

    name = 'repair'


# TODO(milleral): crbug.com/364273
# Label doesn't really mean label in this context.  We're putting things into
# DEPENDENCIES that really aren't DEPENDENCIES, and we should probably stop
# doing that.
def is_for_special_action(label):
    """
    If any special task handles the label specially, then we're using the label
    to communicate that we want an action, and not as an actual dependency that
    the test has.

    @param label: A string label name.
    @return True if any special task handles this label specially,
            False if no special task handles this label.
    """
    return (Verify.acts_on(label) or
            Provision.acts_on(label) or
            Cleanup.acts_on(label) or
            Repair.acts_on(label) or
            label == SKIP_PROVISION)


def join(provision_type, provision_value):
    """
    Combine the provision type and value into the label name.

    @param provision_type: One of the constants that are the label prefixes.
    @param provision_value: A string of the value for this provision type.
    @returns: A string that is the label name for this (type, value) pair.

    >>> join(CROS_VERSION_PREFIX, 'lumpy-release/R27-3773.0.0')
    'cros-version:lumpy-release/R27-3773.0.0'

    """
    return '%s:%s' % (provision_type, provision_value)


class SpecialTaskActionException(Exception):
    """
    Exception raised when a special task fails to successfully run a test that
    is required.

    This is also a literally meaningless exception.  It's always just discarded.
    """