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cos / mirrors / cros / chromiumos / third_party / autotest / ab41ec1bc4918629e811cd9055c76a5129007f1a / . / site_utils / deployment / cmdparse.py
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# Copyright 2015 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.
"""Command-line parsing for the DUT deployment tool.
This contains parsing for the legacy `repair_test` and `deployment_test`
commands, and for the new `deploy` command.
The syntax for the two legacy commands is identical; the difference in
the two commands is merely slightly different default options.
The full deployment flow performs all of the following actions:
* Stage the USB image: Install the DUT's assigned repair image onto
the Servo USB stick.
* Install firmware: Boot the DUT from the USB stick, and run
`chromeos-firmwareupdate` to install dev-signed RO and RW firmware.
The DUT must begin in dev-mode, with hardware write-protect
disabled. At successful completion, the DUT is in verified boot
mode.
* Install test image: Boot the DUT in recovery mode from the USB
stick, and run `chromeos-install` to install the OS.
The new `deploy` command chooses particular combinations of the steps
above based on a subcommand and options:
`deploy servo`: Only stage the USB image.
`deploy firmware`: Install both the firmware and the test image,
in that order. Optionally, first stage the USB image.
`deploy test-image`: Install the test image. Optionally, first
stage the USB image.
`deploy repair`: Equivalent to `deploy test-image`, except that
by default it doesn't upload its logs to storage.
This module exports two functions, `parse_deprecated_command()` (for the
two legacy commands) and `parse_command()` (for the new `deploy`
command). Although the functions parse slightly different syntaxes,
they return `argparse.Namespace` objects with identical fields, described
below.
The following fields represent parameter inputs to the underlying
deployment:
`web`: Server name (or URL) for the AFE RPC service.
`logdir`: The directory where logs are to be stored.
`board`: Specifies the board to be used when creating DUTs.
`build`: When provided, the repair image assigned to the board for
the target DUT will be updated to this value prior to staging
USB image. The build is in a form like 'R66-10447.0.0'.
`hostname_file`: Name of a file in CSV format with information
about the hosts and servos to be deployed/repaired.
`hostnames`: List of DUT host names.
The following fields specify options that are used to enable or disable
specific deployment steps:
`upload`: When true, logs will be uploaded to googlestorage after
the command completes.
`dry_run`: When true, disables operations with any kind of
side-effect. This option implicitly overrides and disables all
of the deployment steps below.
`stageusb`: When true, enable staging the USB image. Disabling
this will speed up operations when the stick is known to already
have the proper image.
`install_firmware`: When true, enable firmware installation.
`install_test_image`: When true, enable installing the test image via
send ctrl_u to boot into USB, which only apply to initial DUT deployment.
`reinstall test image`: when true, enable installing test image through
recover mode.
`labstation`: when true, deploy labstation instead of DUT.
The `dry_run` option is off by default. The `upload` option is on by
default, except for `deploy repair` and `repair_test`. The values for
all other options are determined by the subcommand.
"""
import argparse
import os
class _ArgumentParser(argparse.ArgumentParser):
"""`argparse.ArgumentParser` extended with boolean option pairs."""
def add_boolean_argument(self, name, default, **kwargs):
"""Add a pair of argument flags for a boolean option.
This add a pair of options, named `--<name>` and `--no<name>`.
The actions of the two options are 'store_true' and
'store_false', respectively, with the destination `<name>`.
If neither option is present on the command line, the default
value for destination `<name>` is given by `default`.
The given `kwargs` may be any arguments accepted by
`ArgumentParser.add_argument()`, except for `action` and `dest`.
@param name The name of the boolean argument, used to
construct the option names and destination field
name.
@param default Default setting for the option when not present
on the command line.
"""
exclusion_group = self.add_mutually_exclusive_group()
exclusion_group.add_argument('--%s' % name, action='store_true',
dest=name, **kwargs)
exclusion_group.add_argument('--no%s' % name, action='store_false',
dest=name, **kwargs)
self.set_defaults(**{name: bool(default)})
def _add_common_options(parser):
# frontend.AFE(server=None) will use the default web server,
# so default for --web is `None`.
parser.add_argument('-w', '--web', metavar='SERVER', default=None,
help='specify web server')
parser.add_argument('-d', '--dir', dest='logdir',
help='directory for logs')
parser.add_argument('-n', '--dry-run', action='store_true',
help='apply no changes, install nothing')
parser.add_argument('-i', '--build',
help='select stable test build version')
parser.add_argument('-f', '--hostname_file',
help='CSV file that contains a list of hostnames and '
'their details to install with.')
def _add_upload_option(parser, default):
"""Add a boolean option for whether to upload logs.
@param parser _ArgumentParser instance.
@param default Default option value.
"""
parser.add_boolean_argument('upload', default,
help='whether to upload logs to GS bucket')
def _add_subcommand(subcommands, name, upload_default, description):
"""Add a subcommand plus standard arguments to the `deploy` command.
This creates a new argument parser for a subcommand (as for
`subcommands.add_parser()`). The parser is populated with the
standard arguments required by all `deploy` subcommands.
@param subcommands Subcommand object as returned by
`ArgumentParser.add_subcommands`
@param name Name of the new subcommand.
@param upload_default Default setting for the `--upload` option.
@param description Description for the subcommand, for help text.
@returns The argument parser for the new subcommand.
"""
subparser = subcommands.add_parser(name, description=description)
_add_common_options(subparser)
_add_upload_option(subparser, upload_default)
subparser.add_argument('-b', '--board', metavar='BOARD',
help='board for DUTs to be installed')
subparser.add_argument('-m', '--model', metavar='MODEL',
help='model for DUTs to be installed.')
subparser.add_argument('hostnames', nargs='*', metavar='HOSTNAME',
help='host names of DUTs to be installed')
return subparser
def _add_servo_subcommand(subcommands):
"""Add the `servo` subcommand to `subcommands`.
@param subcommands Subcommand object as returned by
`ArgumentParser.add_subcommands`
"""
subparser = _add_subcommand(
subcommands, 'servo', True,
'Test servo and install the image on the USB stick')
subparser.set_defaults(stageusb=True,
labstation=False,
install_firmware=False,
install_test_image=False,
reinstall_test_image=False)
def _add_stageusb_option(parser):
"""Add a boolean option for whether to stage an image to USB.
@param parser _ArgumentParser instance.
"""
parser.add_boolean_argument('stageusb', False,
help='Include USB stick setup')
def _add_firmware_subcommand(subcommands):
"""Add the `firmware` subcommand to `subcommands`.
@param subcommands Subcommand object as returned by
`ArgumentParser.add_subcommands`
"""
subparser = _add_subcommand(
subcommands, 'firmware', True,
'Install firmware and initial test image on DUT')
_add_stageusb_option(subparser)
subparser.add_argument(
'--using-servo', action='store_true',
help='Flash DUT firmware directly using servo')
subparser.set_defaults(labstation=False,
install_firmware=True,
install_test_image=True,
reinstall_test_image=False)
def _add_test_image_subcommand(subcommands):
"""Add the `test-image` subcommand to `subcommands`.
@param subcommands Subcommand object as returned by
`ArgumentParser.add_subcommands`
"""
subparser = _add_subcommand(
subcommands, 'test-image', True,
'Install initial test image on DUT from servo')
_add_stageusb_option(subparser)
subparser.set_defaults(labstation=False,
install_firmware=False,
install_test_image=True,
reinstall_test_image=False)
def _add_repair_subcommand(subcommands):
"""Add the `repair` subcommand to `subcommands`.
@param subcommands Subcommand object as returned by
`ArgumentParser.add_subcommands`
"""
subparser = _add_subcommand(
subcommands, 'repair', False,
'Re-install test image on DUT from servo')
_add_stageusb_option(subparser)
subparser.set_defaults(labstation=False,
install_firmware=False,
install_test_image=False,
reinstall_test_image=True)
def _add_labstation_subcommand(subcommands):
"""Add the `labstation` subcommand to `subcommands`.
@param subcommands Subcommand object as returned by
`ArgumentParser.add_subcommands`
"""
subparser = _add_subcommand(
subcommands, 'labstation', False,
'Deploy a labstation to autotest, the labstation must be already'
' imaged with a labstation test image.')
subparser.set_defaults(labstation=True,
install_firmware=False,
install_test_image=False,
reinstall_test_image=False)
def parse_command(argv):
"""Parse arguments for the `deploy` command.
Create an argument parser for the `deploy` command and its
subcommands. Then parse the command line arguments, and return an
`argparse.Namespace` object with the results.
@param argv Standard command line argument vector;
argv[0] is assumed to be the command name.
@return `Namespace` object with standard fields as described in the
module docstring.
"""
parser = _ArgumentParser(
prog=os.path.basename(argv[0]),
description='DUT deployment and repair operations')
subcommands = parser.add_subparsers()
_add_servo_subcommand(subcommands)
_add_firmware_subcommand(subcommands)
_add_test_image_subcommand(subcommands)
_add_repair_subcommand(subcommands)
_add_labstation_subcommand(subcommands)
return parser.parse_args(argv[1:])