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mirror of https://pagure.io/fedora-qa/os-autoinst-distri-fedora.git synced 2024-11-22 22:13:08 +00:00
os-autoinst-distri-fedora/main.pm
Adam Williamson 214f2cc8eb Add fifloader tests, template schemas, update README
This adds a test suite for fifloader (renamed fifloader.py for
test sanity). It adds JSON Schema form schemas for both FIF and
upstream openQA template data, and has fifloader (optionally,
but by default) validate both input and output data against the
schemas. It also adds a tox.ini configured to run the fifloader
tests, use fifloader to validate the template files, and do diff
coverage and lint checks. It also adjusts the Zuul config to run
tox instead of the test job.

There are also some pylint cleanups, since the new tests run
pylint.

fifcheck, fifconverter and tojson.pm are removed, as they were
mainly only needed for one-time conversion of the old format
templates; now they are in the git history we can always recover
them if we need them.

Along with all this I updated the README a bit to explain some
of it (and explain FIF better), and to explicitly state that this
repo is GPLv2+ licensed, and added GPL headers to some of the
files.

Signed-off-by: Adam Williamson <awilliam@redhat.com>
2020-01-29 22:45:38 -08:00

409 lines
16 KiB
Perl

# Copyright (C) 2014 SUSE Linux GmbH
# 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/>.
use strict;
use testapi;
use autotest;
use needle;
use File::Basename;
# distribution-specific implementations of expected methods
my $distri = testapi::get_var("CASEDIR") . '/lib/fedoradistribution.pm';
require $distri;
testapi::set_distribution(fedoradistribution->new());
## UTILITY SUBROUTINES
# Stolen from openSUSE.
sub unregister_needle_tags($) {
my $tag = shift;
my @a = @{ needle::tags($tag) };
for my $n (@a) { $n->unregister(); }
}
# The purpose of this function is to un-register all needles which have
# at least one tag that starts with a given string (the 'prefix'), if
# it does not have any tag that matches the pattern 'prefix-value', for
# any of the values given in an array. The first argument passed must
# be the prefix; the second must be a reference to the array of values.
# For instance, if the 'prefix' is LANGUAGE and the 'values' are
# ENGLISH and FRENCH, this function would un-reference a needle which
# had only the tag 'LANGUAGE-DUTCH', but it would keep a needle which
# had the tag 'LANGUAGE-ENGLISH', or a needle with no tag starting in
# 'LANGUAGE-' at all.
sub unregister_prefix_tags {
my ($prefix, $valueref) = @_;
NEEDLE: for my $needle ( needle::all() ) {
my $unregister = 0;
for my $tag ( @{$needle->{'tags'}} ) {
if ($tag =~ /^\Q$prefix/) {
# We have at least one tag matching the prefix, so we
# *MAY* want to un-register the needle
$unregister = 1;
for my $value ( @{$valueref} ) {
# At any point if we hit a prefix-value match, we
# know we need to keep this needle and can skip
# to the next
next NEEDLE if ($tag eq "$prefix-$value");
}
}
}
# We get here if we hit no prefix-value match, but we only want
# to unregister the needle if we hit any prefix match, i.e. if
# 'unregister' is 1.
$needle->unregister() if ($unregister);
}
}
sub cleanup_needles() {
if (!get_var('LIVE') and !get_var('CANNED')) {
## Unregister smaller hub needles. Live and 'canned' installers have
## a smaller hub with no repository spokes. On other images we want
## to wait for repository setup to complete, but if we match that
## spoke's "ready" icon, it breaks live and canned because they
## don't have that spoke. So we have a needle which doesn't match
## on that icon, but we unregister it for other installs so they
## don't match on it too soon.
unregister_needle_tags("INSTALLER-smallhub");
}
# Unregister desktop needles of other desktops when DESKTOP is specified
if (get_var('DESKTOP')) {
unregister_prefix_tags('DESKTOP', [ get_var('DESKTOP') ])
}
# Unregister non-language-appropriate needles. See unregister_except_
# tags for details; basically all needles with at least one LANGUAGE-
# tag will be unregistered unless they match the current langauge.
my $langref = [ get_var('LANGUAGE') || 'english' ];
unregister_prefix_tags('LANGUAGE', $langref);
}
$needle::cleanuphandler = \&cleanup_needles;
## TEST LOADING SUBROUTINES
sub load_upgrade_tests() {
# all upgrade tests include: boot phase (where bootloader and
# encryption are handled if necessary), preinstall phase (where
# packages are upgraded and dnf-plugin-system-upgrade installed),
# run phase (where upgrade is run) and postinstall phase (where
# is checked if fedora was upgraded successfully). The PREUPGRADE
# variable can be used to specify additional test modules to run
# after the preinstall phase but before the run phase, and the
# POSTINSTALL variable can be used to specify additional test
# modules to run after the upgrade postinstall phase.
autotest::loadtest "tests/upgrade_boot.pm";
# if static networking config is needed we must do it at this point
if (get_var("POST_STATIC")) {
autotest::loadtest "tests/_post_network_static.pm";
}
autotest::loadtest "tests/upgrade_preinstall.pm";
# generic pre-upgrade test load
if (get_var("PREUPGRADE")) {
my @pus = split(/ /, get_var("PREUPGRADE"));
foreach my $pu (@pus) {
autotest::loadtest "tests/${pu}.pm";
}
}
autotest::loadtest "tests/upgrade_run.pm";
# handle additional postinstall tests
if (get_var("POSTINSTALL")) {
set_var('POSTINSTALL', "upgrade_postinstall " . get_var("POSTINSTALL"));
}
else {
set_var('POSTINSTALL', "upgrade_postinstall");
}
}
sub load_install_tests() {
# normal installation test consists of several phases, from which some of them are
# loaded automatically and others are loaded based on what env variables are set
# generally speaking, install test consists of: boot phase, customization phase, installation
# and reboot phase, postinstall phase
# boot phase is loaded automatically every time
autotest::loadtest "tests/_boot_to_anaconda.pm";
# if this is a kickstart or VNC install, that's all folks
return if (get_var("KICKSTART") || get_var("VNC_SERVER"));
# Root password and user creation spokes are suppressed on
# Workstation live install and Silverblue DVD install, so we do
# not want to try and use them. Setting this in the templates is
# tricky as it gets set for post-install tests too that way, and
# we don't want that
if ((get_var('LIVE') || get_var('CANNED')) && get_var('DESKTOP') eq 'gnome') {
set_var('INSTALLER_NO_ROOT', '1');
# this is effectively a forced install_no_user
set_var('INSTALL_NO_USER', '1');
}
if (get_var('ANACONDA_TEXT')) {
# since it differs much, handle text installation separately
autotest::loadtest "tests/install_text.pm";
return;
}
## Networking
if (get_var('ANACONDA_STATIC')) {
autotest::loadtest "tests/_anaconda_network_static.pm";
}
## Installation source
if (get_var('MIRRORLIST_GRAPHICAL') || get_var("REPOSITORY_GRAPHICAL")) {
autotest::loadtest "tests/install_source_graphical.pm";
autotest::loadtest "tests/_check_install_source.pm";
}
if (get_var("REPOSITORY_VARIATION") || get_var("ADD_REPOSITORY_VARIATION")) {
autotest::loadtest "tests/_check_install_source.pm";
}
## Select package set. Minimal is the default, if 'default' is specified, skip selection.
autotest::loadtest "tests/_software_selection.pm";
## Disk partitioning.
# If PARTITIONING is set, we pick the storage test
# to run based on the value (usually we run the test with the name
# that matches the value, except for a couple of commented cases).
my $storage = '';
my $partitioning = get_var('PARTITIONING');
# if PARTITIONING is unset, or one of [...], use disk_guided_empty,
# which is the simplest / 'default' case.
if (! $partitioning || $partitioning ~~ ['guided_empty', 'guided_free_space']) {
$storage = "tests/disk_guided_empty.pm";
}
else {
$storage = "tests/disk_".$partitioning.".pm";
}
autotest::loadtest $storage;
if (get_var("ENCRYPT_PASSWORD")){
autotest::loadtest "tests/disk_guided_encrypted.pm";
}
# Start installation, set user & root passwords, reboot
# install and reboot phase is loaded automatically every time (except when KICKSTART is set)
autotest::loadtest "tests/_do_install_and_reboot.pm";
}
sub _load_instance {
# loads a specific 'instance' of a given test. See next function
# for more details.
my ($test, $instance) = @_;
$test .= "_${instance}" if $instance;
autotest::loadtest "${test}.pm";
}
sub _load_early_postinstall_tests {
# Early post-install test loading. Split out as a separate sub
# because we do this all twice on update tests.
# openQA isn't very good at handling jobs where the same module
# is loaded more than once, and fixing that will be a bit complex
# and no-one got around to it yet. So for now, we use a bit of a
# hack: for modules we know may get loaded multiple times, we have
# symlinks named _2, _3 etc. This function can be passed an arg
# specifying which 'instance' of the tests to use.
my ($instance) = @_;
$instance //= 0;
# Unlock encrypted storage volumes, if necessary. The test name here
# follows the 'storage post-install' convention, but must be run earlier.
if (get_var("ENCRYPT_PASSWORD")) {
_load_instance("tests/disk_guided_encrypted_postinstall", $instance);
}
# For now, there's no possibility to get a graphical desktop on
# Modular composes, so short-circuit here for those
if (get_var("MODULAR")) {
_load_instance("tests/_console_wait_login", $instance);
return;
}
# Appropriate login method for install type
if (get_var("DESKTOP")) {
_load_instance("tests/_graphical_wait_login", $instance);
}
# Test non-US input at this point, on language tests
if (get_var("SWITCHED_LAYOUT") || get_var("INPUT_METHOD")) {
_load_instance("tests/_graphical_input", $instance);
}
unless (get_var("DESKTOP")) {
_load_instance("tests/_console_wait_login", $instance);
}
}
sub load_postinstall_tests() {
# special case for the memory check test, as it doesn't need to boot
# the installed system: just load its test and return
if (get_var("MEMCHECK")) {
autotest::loadtest "tests/_memcheck.pm";
return;
}
# VNC client test's work is done once install is complete
if (get_var("VNC_CLIENT")) {
return;
}
# load the early tests
_load_early_postinstall_tests();
# do standard post-install static network config if the var is set
# and this is not an upgrade test (this is done elsewhere in the
# upgrade workflow)
# this is here not in early_postinstall_tests as there's no need
# to do it twice
if (get_var("POST_STATIC") && !get_var("UPGRADE")) {
autotest::loadtest "tests/_post_network_static.pm";
}
# if scheduler passed an advisory or task ID, update packages from that
# advisory or task ID (intended for the updates testing workflow, so we
# install the updates to be tested). Don't do this for UPGRADE tests, as
# the update gets installed as part of the upgrade in that case and we
# don't need the extra reboot. Don't do this for INSTALL test(s); these
# are checking that an installer image built from the update works and do
# not install the update themselves in this manner
if (get_var("ADVISORY_OR_TASK") && !get_var("UPGRADE") && !get_var("INSTALL")) {
autotest::loadtest "tests/_advisory_update.pm";
# now load the early boot tests again, as _advisory_update reboots
_load_early_postinstall_tests(2);
}
# from now on, we have fully installed and booted system with root/specified user logged in
# If there is a post-install test to verify storage configuration worked
# correctly, run it. Again we determine the test name based on the value
# of PARTITIONING
my $storagepost = '';
if (get_var('PARTITIONING')) {
my $casedir = get_var("CASEDIR");
my $loc = "tests/disk_" . get_var('PARTITIONING') . "_postinstall.pm";
$storagepost = $loc if (-e "$casedir/$loc");
}
autotest::loadtest $storagepost if ($storagepost);
if (get_var("UEFI") &! get_var("NO_UEFI_POST")) {
autotest::loadtest "tests/uefi_postinstall.pm";
}
# console avc / crash check
# it makes no sense to run this after logging in on most post-
# install tests (hence ! BOOTFROM) but we *do* want to run it on
# upgrade tests after upgrading (hence UPGRADE)
# desktops have specific tests for this (hence !DESKTOP). For
# desktop upgrades we should really upload a disk image at the end
# of upgrade and run all the desktop post-install tests on that
if (!get_var("DESKTOP") && (!get_var("BOOTFROM") || get_var("UPGRADE"))) {
autotest::loadtest "tests/_console_avc_crash.pm";
}
# generic post-install test load
if (get_var("POSTINSTALL")) {
my @pis = split(/ /, get_var("POSTINSTALL"));
foreach my $pi (@pis) {
autotest::loadtest "tests/${pi}.pm";
}
}
# load the ADVISORY / KOJITASK post-install test - this records which
# update or task packages were actually installed during the test. Don't
# do this for INSTALL test(s); these are checking that an installer image
# built from the update works and do not install the update themselves.
if (get_var("ADVISORY_OR_TASK") && !get_var("INSTALL")) {
# don't do this for support server unless the update is for the same
# release as the support server disk image, as we don't install the
# updates on support server when they differ
unless (get_var("TEST") eq "support_server" && get_var("VERSION") ne get_var("CURRREL")) {
autotest::loadtest "tests/_advisory_post.pm";
}
}
# we should shut down before uploading disk images
if (get_var("STORE_HDD_1") || get_var("PUBLISH_HDD_1")) {
autotest::loadtest "tests/_console_shutdown.pm";
}
}
## LOADING STARTS HERE
# if user set ENTRYPOINT, run required test directly
# (good for tests where it doesn't make sense to use _boot_to_anaconda, _software_selection etc.)
# if you want to run more than one test via ENTRYPOINT, separate them with space
if (get_var("ENTRYPOINT")) {
my @entrs = split(/ /, get_var("ENTRYPOINT"));
foreach my $entr (@entrs) {
autotest::loadtest "tests/${entr}.pm";
}
}
elsif (get_var("UPGRADE")) {
load_upgrade_tests;
}
elsif ((!get_var("START_AFTER_TEST") && !get_var("BOOTFROM")) || get_var("INSTALL")) {
# for now we can assume START_AFTER_TEST and BOOTFROM mean the
# test picks up after an install, so we skip to post-install,
# unless the override INSTALL var is set
if (get_var("PREINSTALL")) {
# specified module supposed to first boot to rescue mode
# do any required actions before to exit rescue mode (triggering reboot).
# reboot will run through next normal install steps of load_install_tests.
my @pis = split(/ /, get_var("PREINSTALL"));
foreach my $pi (@pis) {
autotest::loadtest "tests/${pi}.pm";
}
}
load_install_tests;
}
if (!get_var("ENTRYPOINT")) {
load_postinstall_tests;
}
# load application start-stop tests
if (get_var("STARTSTOP")) {
my $desktop = get_var('DESKTOP');
my $casedir = get_var('CASEDIR');
if ($desktop eq 'gnome') {
# Run this test to preset the environment
autotest::loadtest "tests/apps_gnome_preset.pm";
}
# Find all tests from a directory defined by the DESKTOP variable
my @apptests = glob "${casedir}/tests/apps_startstop/${desktop}/*.pm";
# Now load them
foreach my $filepath (@apptests) {
my $file = basename($filepath);
autotest::loadtest "tests/apps_startstop/${desktop}/${file}";
}
if ($desktop eq 'gnome') {
# Run this test to check if required application have registered.
autotest::loadtest "tests/workstation_core_applications.pm";
}
}
1;
# vim: set sw=4 et: