os-autoinst-distri-rocky-mi.../main.pm

442 lines
17 KiB
Perl

# Copyright (C) 2014 SUSE Linux GmbH
# 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 <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() {
# CoreOS is special, so we handle that here
if (get_var("SUBVARIANT") eq "CoreOS") {
autotest::loadtest "tests/_coreos_install.pm";
return;
}
# 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";
}
else {
autotest::loadtest "tests/_anaconda_network_enable.pm";
}
## Kdump
if (get_var('ANACONDA_KDUMP') eq 'enabled') {
autotest::loadtest "tests/_anaconda_kdump_enable.pm";
}
else {
autotest::loadtest "tests/_anaconda_kdump_disable.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);
}
# We do not want to run this on Desktop installations or when
# the installation is interrupted on purpose.
unless (get_var("DESKTOP") || get_var("CRASH_REPORT")) {
_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") &! get_var("START_AFTER_TEST")) {
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) and we do not want it
# on crashed installations (hence ! CRASH_REPORT) 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("CRASH_REPORT") && (!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"));
# For each test in POSTINSTALL, load the test
foreach my $pi (@pis) {
autotest::loadtest "tests/${pi}.pm";
}
}
# If POSTINSTALL_PATH is set, we will load all available test files from that location
# as postinstall tests.
elsif (get_var("POSTINSTALL_PATH")) {
my $casedir = get_var("CASEDIR");
my $path = get_var("POSTINSTALL_PATH");
# Read the list of files on that path,
my @pis = glob "${casedir}/${path}/*.pm";
# and load each of them.
foreach my $pi (@pis) {
$pi = basename($pi);
autotest::loadtest "$path/$pi";
}
}
# 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("STORE_HDD_2") || 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("IMAGE_DEPLOY")) || get_var("INSTALL")) {
# for now we can assume START_AFTER_TEST and BOOTFROM mean the
# test picks up after an install, and IMAGE_DEPLOY means we're
# deploying a disk image (no installer) so in those cases 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: