#!/usr/bin/python3 # Copyright 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 . # # Author: Adam Williamson """This is a check script which checks for: 1. Unused needles - if none of the tags a needle declares is referenced in the tests, it is considered unused. 2. Tag assertions with no needle - if a test seems to be asserting or checking for a tag, but there is no needle with that tag. The code to decide what string literals in the tests are tags is not perfect. If a literal that *is* a tag is not being counted as one, you may need to rejig the code, or add `# testtag` to the end of the line to cue this script to consider it a tag. If a tag does not have a - or _ in it, it must be added to the `knowns` list. 3. Image files in the needles directory with no matching JSON file. 4. JSON files in the needles directory with no matching image file. """ 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 that look # like they're needle tags testpaths = glob.glob(f"{TESTSPATH}/**/*.pm", recursive=True) testpaths.extend(glob.glob(f"{LIBPATH}/**/*.pm", recursive=True)) testtags = [] 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: testlines = testfh.readlines() for line in testlines: # ignore comments if line.strip().startswith("#"): continue matchfuncs = ( "assert_screen", "assert_and_click", "assert_and_dclick", "check_screen", "start_with_launcher", "send_key_until_needlematch", "# testtag" ) for matchfunc in matchfuncs: if matchfunc == "# testtag" and matchfunc in line: # for the comment tag we should take all literals from # the whole line start = 0 else: # for match functions we should only take literals # after the function name start = line.find(matchfunc) # fortunately `find` returns -1 for 'no match' if start > -1: matcharea = line[start:] if matchfunc == "send_key_until_needlematch": # this needs some special handling - we need # to leave out the key to press, which should # come after the first comma matcharea = matcharea.split(",")[0] for match in DOUBLEQUOTERE.finditer(matcharea): testtags.append(match[1]) for match in SINGLEQUOTERE.finditer(matcharea): testtags.append(match[1]) # filter the list a bit for matches that aren't tags. Almost all our # tags have a - or an _ in them, except a small number of weirdos; # this filters out a lot of false matches (like keypresses) knowns = ("_", "-", "bootloader", "browser", "firefox") testtags = [tag for tag in testtags if tag and not tag.isdigit() and not tag.isupper() and any(known in tag for known in knowns)] # keep this around for the tagnoneedle check later; we can't use # the 'synthetic' tags in that check as some of them we know don't # have needles (e.g. the range(30,100) background tags, most of those # don't exist yet) realtesttags = set(tag for tag in testtags if "$" not in tag) # 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): testtags.append(f"{rel}_background") testtags.append(f"{rel}_background_dark") testtags.append(f"version_{rel}_ident") # anaconda id needles, using tell_source for source in ("workstation", "generic", "server"): testtags.append(f"leftbar_{source}") testtags.append(f"topbar_{source}") # keyboard layout switching, using desktop_switch_layout for environment in ("anaconda", "gnome"): for layout in ("native", "ascii"): testtags.append(f"{environment}_layout_{layout}") # package set selection, using get_var('PACKAGE_SET') for pkgset in ("kde", "workstation", "minimal"): testtags.append(f"anaconda_{pkgset}_highlighted") testtags.append(f"anaconda_{pkgset}_selected") # desktop_login stuff for user in ("jack", "jim"): testtags.append(f"login_{user}") testtags.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", "bootefi", "home"): testtags.append(f"anaconda_part_select_{part}") testtags.append(f"anaconda_blivet_part_inactive_{part}") # select_disks for num in range(1, 10): testtags.append(f"anaconda_install_destination_select_disk_{num}") # custom_scheme_select for scheme in ("standard", "lvmthin", "btrfs", "lvm"): testtags.append(f"anaconda_part_scheme_{scheme}") # custom_blivet_add_partition for dtype in ("lvmvg", "lvmlv", "lvmthin", "raid"): testtags.append(f"anaconda_blivet_part_devicetype_{dtype}") for fsys in ("ext4", "xfs", "btrfs", "ppc_prep_boot", "swap", "efi_filesystem", "biosboot"): testtags.append(f"anaconda_blivet_part_fs_{fsys}") testtags.append(f"anaconda_blivet_part_fs_{fsys}_selected") # this is variable-y in custom_blivet_resize_partition but we only # call it with 'GiB' (in disk_custom_blivet_resize_lvm.pm) testtags.append("anaconda_blivet_size_unit_GiB") # this is variable-y in custom_change_type but we only actually have # one value testtags.append("anaconda_part_device_type_raid") # custom_change_fs for fsys in ("xfs", "ext4"): testtags.append(f"anaconda_part_fs_{fsys}") testtags.append(f"anaconda_part_fs_{fsys}_selected") # Needles for Help viewer for section in ("desktop", "networking", "sound", "files", "user", "hardware", "accessibility", "tipstricks", "morehelp"): testtags.append(f"help_section_{section}") testtags.append(f"help_section_content_{section}") # Needles for Calculator for button in ("div", "divider", "zero", "one", "two", "three", "four", "five", "six","seven", "eight", "nine", "mod", "percent", "pi", "root", "square", "sub"): testtags.append(f"calc_button_{button}") testtags.append(f"kcalc_button_{button}") for result in ("BokZw", "Czo4s", "O9qsL", "WIxiR", "b5y2B", "h7MfO", "qxuBK", "tWshx", "uC8Ul", "3LAG3"): testtags.append(f"calc_result_{result}") testtags.append(f"kcalc_result_{result}") # Needles for Contacts for hashname in ("jlJmL", "7XGzO", "ps61y", "OvXj~", "GqYOp", "VEFrP"): testtags.append(f"contacts_name_{hashname}") testtags.append(f"contacts_contact_listed_{hashname}") testtags.append(f"contacts_contact_existing_{hashname}") testtags.append(f"contacts_contact_doubled_{hashname}") testtags.append(f"contacts_contact_altered_{hashname}") testtags.append(f"contacts_contact_added_{hashname}") for info in ("home", "personal", "work"): testtags.append(f"contacts_label_{info}") # Needles for Maps for location in ("vilnius", "denali", "wellington", "poysdorf", "pune"): testtags.append(f"maps_select_{location}") testtags.append(f"maps_found_{location}") testtags.append(f"maps_info_{location}") # Needles for Gnome Panel for percentage in ("zero", "fifty", "hundred"): testtags.append(f"panel_volume_bar_{percentage}") testtags.append(f"panel_volume_indicator_{percentage}") # Needles for Disks for number in ("one", "two", "three"): testtags.append(f"disks_partition_{number}_formatted") testtags.append(f"disks_partition_{number}_selected") testtags.append(f"disks_partition_mounted_{number}") testtags.append(f"disks_partition_identifier_{number}") testtags.append(f"disks_partition_select_{number}") testtags.append(f"disks_select_partition_{number}") testtags.append(f"disks_partition_formatted_{number}") testtags.append(f"disks_partition_identifier_{number}") for name in ("primavolta", "secondavolta", "terciavolta", "boot", "root", "home", "renamed"): testtags.append(f"disks_partition_created_{name}") testtags.append(f"disks_fstype_changed_{name}") for typus in ("swap", "ext4", "xfs", "linuxroot"): testtags.append(f"disks_select_{typus}") testtags.append(f"disks_select_filesystem_{typus}") testtags.append(f"disks_parttype_changed_{typus}") # Needles for konversation/neochat for app in ("neochat", "konversation"): testtags.append(f"{app}_runs") testtags.extend(("konversation_connect", "konversation_confirm_close")) # variable-y in custom_change_device but we only have one value testtags.append("anaconda_part_device_sda") # For language needles for lang in ("english", "russian", "chinese", "arabic", "japanese", "turkish", "french"): testtags.append(f"gis_lang_{lang}_select") testtags.append(f"gis_lang_{lang}_selected") # for Anaconda help related needles. testtags.extend(f"anaconda_help_{fsys}" for fsys in ('install_destination', 'installation_progress', 'keyboard_layout', 'language_support', 'network_host_name', 'root_password', 'select_packages', 'installation_source', 'time_date', 'user_creation', 'language_selection', 'language', 'summary_link')) # for Gnome navigation test for app in ("calculator", "clocks", "files", "terminal", "texteditor"): testtags.append(f"navigation_navibar_{app}") testtags.append("navigation_terminal_fullscreen") testtags.extend(f"anaconda_main_hub_{fsys}" for fsys in ('language_support', 'selec_packages', 'time_date', 'create_user','keyboard_layout')) for selection in ("hide", "maximize", "restore"): testtags.append(f"calculator_context_{selection}") # retcode tracker ret = 0 # now let's scan our needles unused = [] noimg = [] noneedle = [] needletags = set() 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) needletags.update(needlejson["tags"]) if any(tag in testtags for tag in needlejson["tags"]): continue unused.append(needlepath) # check for tags with no needle tagnoneedle = realtesttags - needletags # allowlist # this is a weird one: we theoretically know this needle exists but we # don't know what it looks like because the function has been broken # as long as the test has existed. once # https://gitlab.gnome.org/GNOME/gnome-font-viewer/-/issues/64 is # fixed we can create this needle and drop this entry tagnoneedle.discard("fonts_c059_installed") # 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) if tagnoneedle: ret += 8 print("Tag(s) without needle(s) found!") for tag in tagnoneedle: print(tag) sys.exit(ret)