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os-autoinst-distri-fedora/check-needles.py
Lukáš Růžička ba90c70c8a Add several tests to test QA:Testcase_partitioning_custom_btrfs_preserve_home.
This PR adds the `install_btrfs_upload` to install the btrfs based
image, the `btrfs_preserve_home_extras` to prepare and test the data
on the home partition, as well as the `custom_btrfs_preserve_home` that
uses the preinstalled btrfs image and uses its current partitioning to
preserve the home partition and the data on it.
2021-01-20 16:50:39 +00:00

152 lines
5.4 KiB
Python
Executable File

#!/usr/bin/python3
# Copyright (C) 2020 Red Hat
#
# This file is part of os-autoinst-distri-fedora.
#
# os-autoinst-distri-fedora is free software; you can redistribute it
# and/or modify it under the terms of the GNU General Public License
# as published by the Free Software Foundation, either version 2 of
# the License, or (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
#
# Author: Adam Williamson <awilliam@redhat.com>
"""This is a check script which checks for unused needles. If none of
the tags a needle declares is referenced in the tests, it is
considered unused.
"""
import glob
import json
import os
import re
import sys
NEEDLEPATH = os.path.join(os.path.dirname(os.path.realpath(__file__)), "needles")
TESTSPATH = os.path.join(os.path.dirname(os.path.realpath(__file__)), "tests")
LIBPATH = os.path.join(os.path.dirname(os.path.realpath(__file__)), "lib")
# these don't account for escaping, but I don't think we're ever going
# to have an escaped quotation mark in a needle tag
DOUBLEQUOTERE = re.compile('"(.*?)"')
SINGLEQUOTERE = re.compile("'(.*?)'")
# first we're gonna build a big list of all string literals
testpaths = glob.glob(f"{TESTSPATH}/**/*.pm", recursive=True)
testpaths.extend(glob.glob(f"{LIBPATH}/**/*.pm", recursive=True))
testliterals = []
for testpath in testpaths:
# skip if it's a symlink
if os.path.islink(testpath):
continue
# otherwise, scan it for string literals
with open(testpath, "r") as testfh:
testtext = testfh.read()
for match in DOUBLEQUOTERE.finditer(testtext):
testliterals.append(match[1])
for match in SINGLEQUOTERE.finditer(testtext):
testliterals.append(match[1])
# now let's do some whitelisting, for awkward cases where we know that
# we concatenate string literals and stuff
# versioned backgrounds and release IDs
for rel in range(30, 100):
testliterals.append(f"{rel}_background")
testliterals.append(f"version_{rel}_ident")
# anaconda id needles, using tell_source
for source in ("workstation", "generic", "server"):
testliterals.append(f"leftbar_{source}")
testliterals.append(f"topbar_{source}")
# keyboard layout switching, using desktop_switch_layout
for environment in ("anaconda", "gnome"):
for layout in ("native", "ascii"):
testliterals.append(f"{environment}_layout_{layout}")
# package set selection, using get_var('PACKAGE_SET')
for pkgset in ("kde", "workstation", "minimal"):
testliterals.append(f"anaconda_{pkgset}_highlighted")
testliterals.append(f"anaconda_{pkgset}_selected")
# desktop_login stuff
for user in ("jack", "jim"):
testliterals.append(f"login_{user}")
testliterals.append(f"user_confirm_{user}")
# partitioning stuff, there's a bunch of this, all in anaconda.pm
# multiple things use this
for part in ("swap", "root", "efi", "boot", "home", "vda2"):
testliterals.append(f"anaconda_part_select_{part}")
testliterals.append(f"anaconda_blivet_part_inactive_{part}")
# select_disks
for num in range(1, 10):
testliterals.append(f"anaconda_install_destination_select_disk_{num}")
# custom_scheme_select
for scheme in ("standard", "lvmthin", "btrfs", "lvm"):
testliterals.append(f"anaconda_part_scheme_{scheme}")
# custom_blivet_add_partition
for dtype in ("lvm", "lvmthin", "raid"):
testliterals.append(f"anaconda_blivet_part_devicetype_{dtype}")
for fsys in ("ext3", "ext4", "xfs", "btrfs", "ppc_prep_boot", "swap", "efi_filesystem"):
testliterals.append(f"anaconda_blivet_part_fs_{fsys}")
testliterals.append(f"anaconda_blivet_part_fs_{fsys}_selected")
# this is variable-y in custom_change_type but we only actually have
# one value
testliterals.append("anaconda_part_device_type_raid")
# custom_change_fs
for fsys in ("ext3", "xfs", "ext4"):
testliterals.append(f"anaconda_part_fs_{fsys}")
testliterals.append(f"anaconda_part_fs_{fsys}_selected")
# variable-y in custom_change_device but we only have one value
testliterals.append("anaconda_part_device_sda")
# retcode tracker
ret = 0
# now let's scan our needles
unused = []
noimg = []
noneedle = []
needlepaths = glob.glob(f"{NEEDLEPATH}/**/*.json", recursive=True)
for needlepath in needlepaths:
# check we have a matching image file
imgpath = needlepath.replace(".json", ".png")
if not os.path.exists(imgpath):
noimg.append(needlepath)
with open(needlepath, "r") as needlefh:
needlejson = json.load(needlefh)
if any(tag in testliterals for tag in needlejson["tags"]):
continue
unused.append(needlepath)
# reverse check, for images without a needle file
imgpaths = glob.glob(f"{NEEDLEPATH}/**/*.png", recursive=True)
for imgpath in imgpaths:
needlepath = imgpath.replace(".png", ".json")
if not os.path.exists(needlepath):
noneedle.append(imgpath)
if unused:
ret += 1
print("Unused needle(s) found!")
for needle in unused:
print(needle)
if noimg:
ret += 2
print("Needle(s) without image(s) found!")
for needle in noimg:
print(needle)
if noneedle:
ret += 4
print("Image(s) without needle(s) found!")
for img in noneedle:
print(img)
sys.exit(ret)