os-autoinst-distri-rocky-mi.../lib/utils.pm

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package utils;
use strict;
use base 'Exporter';
use Exporter;
use lockapi;
use testapi;
our @EXPORT = qw/run_with_error_check type_safely type_very_safely desktop_vt boot_to_login_screen console_login console_switch_layout desktop_switch_layout console_loadkeys_us do_bootloader get_milestone boot_decrypt check_release menu_launch_type start_cockpit repo_setup gnome_initial_setup anaconda_create_user check_desktop_clean download_modularity_tests/;
sub run_with_error_check {
my ($func, $error_screen) = @_;
die "Error screen appeared" if (check_screen $error_screen, 5);
$func->();
die "Error screen appeared" if (check_screen $error_screen, 5);
}
# high-level 'type this string quite safely but reasonably fast'
# function whose specific implementation may vary
sub type_safely {
my $string = shift;
type_string($string, wait_screen_change => 3, max_interval => 20);
wait_still_screen 2;
}
# high-level 'type this string extremely safely and rather slow'
# function whose specific implementation may vary
sub type_very_safely {
my $string = shift;
type_string($string, wait_screen_change => 1, max_interval => 1);
wait_still_screen 5;
}
# Figure out what tty the desktop is on, switch to it. Assumes we're
# at a root console
sub desktop_vt {
# use ps to find the tty of Xwayland or Xorg
my $xout;
# don't fail test if we don't find any process, just guess tty1
eval { $xout = script_output 'ps -C Xwayland,Xorg -o tty --no-headers'; };
my $tty = 1; # default
while ($xout =~ /tty(\d)/g) {
$tty = $1; # most recent match is probably best
}
send_key "ctrl-alt-f${tty}";
}
consolidate login waits, use postinstall not entrypoint for base Summary: I started out wanting to fix an issue I noticed today where graphical upgrade tests were failing because they didn't wait for the graphical login screen properly; the test was sitting at the 'full Fedora logo' state of plymouth for a long time, so the current boot_to_login_screen's wait_still_screen was triggered by it and the function wound up failing on the assert_screen, because it was still some time before the real login screen appeared. So I tweaked the boot_to_login_screen implementation to work slightly differently (look for a login screen match, *then* - if we're dealing with a graphical login - wait_still_screen to defeat the 'old GPU buffer showing login screen' problem and assert the login screen again). But while working on it, I figured we really should consolidate all the various places that handle the bootloader -> login, we were doing it quite differently in all sorts of different places. And as part of that, I converted the base tests to use POSTINSTALL (and thus go through the shared _wait_login tests) instead of handling boot themselves. As part of *that*, I tweaked main.pm to not require all POSTINSTALL tests have the _postinstall suffix on their names, as it really doesn't make sense, and renamed the tests. Test Plan: Run all tests, see if they work. Reviewers: jskladan, garretraziel Reviewed By: garretraziel Subscribers: tflink Differential Revision: https://phab.qadevel.cloud.fedoraproject.org/D1015
2016-09-27 18:48:15 +00:00
sub _grub_error_loop {
# this is a loop used in a few different places to work around
# RHBZ#1618928, a bug where grub displays some error or debug
# messages in a pager on boot. We match on *either* the tag
# we're really looking for ('good') *or* the tag for this pager,
# then if we matched the pager, we loop (a maximum 10 times)
# pressing 'space' as long as we still match on the pager. As
# soon as we match the needle we were actually looking for, we
# escape. timeout is the time we should wait for the *first*
# match, timeoutcap is a cap on timeout for the *subsequent*
# matches; several of the users need this behaviour.
my %args = (
good => "someneedle",
timeout => 300,
timeoutcap => 60,
@_
);
my $timeout = $args{timeout};
assert_screen [$args{good}, "grub_error_page"], $timeout;
my $loopcount = 10;
while (match_has_tag "grub_error_page") {
$timeout = $args{timeoutcap} if ($timeout > $args{timeoutcap});
send_key "spc";
$loopcount -= 1;
if ($loopcount == 0) {
# let's not loop forever...
assert_screen $args{good}, $timeout;
}
else {
assert_screen [$args{good}, "grub_error_page"], $timeout;
}
}
}
consolidate login waits, use postinstall not entrypoint for base Summary: I started out wanting to fix an issue I noticed today where graphical upgrade tests were failing because they didn't wait for the graphical login screen properly; the test was sitting at the 'full Fedora logo' state of plymouth for a long time, so the current boot_to_login_screen's wait_still_screen was triggered by it and the function wound up failing on the assert_screen, because it was still some time before the real login screen appeared. So I tweaked the boot_to_login_screen implementation to work slightly differently (look for a login screen match, *then* - if we're dealing with a graphical login - wait_still_screen to defeat the 'old GPU buffer showing login screen' problem and assert the login screen again). But while working on it, I figured we really should consolidate all the various places that handle the bootloader -> login, we were doing it quite differently in all sorts of different places. And as part of that, I converted the base tests to use POSTINSTALL (and thus go through the shared _wait_login tests) instead of handling boot themselves. As part of *that*, I tweaked main.pm to not require all POSTINSTALL tests have the _postinstall suffix on their names, as it really doesn't make sense, and renamed the tests. Test Plan: Run all tests, see if they work. Reviewers: jskladan, garretraziel Reviewed By: garretraziel Subscribers: tflink Differential Revision: https://phab.qadevel.cloud.fedoraproject.org/D1015
2016-09-27 18:48:15 +00:00
# Wait for login screen to appear. Handle the annoying GPU buffer
# problem where we see a stale copy of the login screen from the
# previous boot. Will suffer a ~30 second delay if there's a chance
# we're *already at* the expected login screen.
sub boot_to_login_screen {
my %args = @_;
$args{timeout} //= 300;
# we may start at a screen that matches one of the needles; if so,
# wait till we don't (e.g. when rebooting at end of live install,
# we match text_console_login until the console disappears)
my $count = 5;
while (check_screen("login_screen", 3) && $count > 0) {
sleep 5;
$count -= 1;
}
# we cap the timeouts inside this loop at 300 as it should always
# be the right number - if this is a post-upgrade case or the
# kickstart install case, that already finished by now
_grub_error_loop(good=>"login_screen", timeout=>$args{timeout}, timeoutcap=>300);
consolidate login waits, use postinstall not entrypoint for base Summary: I started out wanting to fix an issue I noticed today where graphical upgrade tests were failing because they didn't wait for the graphical login screen properly; the test was sitting at the 'full Fedora logo' state of plymouth for a long time, so the current boot_to_login_screen's wait_still_screen was triggered by it and the function wound up failing on the assert_screen, because it was still some time before the real login screen appeared. So I tweaked the boot_to_login_screen implementation to work slightly differently (look for a login screen match, *then* - if we're dealing with a graphical login - wait_still_screen to defeat the 'old GPU buffer showing login screen' problem and assert the login screen again). But while working on it, I figured we really should consolidate all the various places that handle the bootloader -> login, we were doing it quite differently in all sorts of different places. And as part of that, I converted the base tests to use POSTINSTALL (and thus go through the shared _wait_login tests) instead of handling boot themselves. As part of *that*, I tweaked main.pm to not require all POSTINSTALL tests have the _postinstall suffix on their names, as it really doesn't make sense, and renamed the tests. Test Plan: Run all tests, see if they work. Reviewers: jskladan, garretraziel Reviewed By: garretraziel Subscribers: tflink Differential Revision: https://phab.qadevel.cloud.fedoraproject.org/D1015
2016-09-27 18:48:15 +00:00
if (match_has_tag "graphical_login") {
wait_still_screen 10, 30;
assert_screen "login_screen";
}
}
# Switch keyboard layouts at a console
sub console_switch_layout {
# switcher key combo differs between layouts, for console
if (get_var("LANGUAGE", "") eq "russian") {
send_key "ctrl-shift";
}
}
# switch to 'native' or 'ascii' input method in a graphical desktop
# usually switched configs have one mode for inputting ascii-ish
# characters (which may be 'us' keyboard layout, or a local layout for
# inputting ascii like 'jp') and one mode for inputting native
# characters (which may be another keyboard layout, like 'ru', or an
# input method for more complex languages)
# 'environment' can be a desktop name or 'anaconda' for anaconda
# if not set, will use get_var('DESKTOP') or default 'anaconda'
sub desktop_switch_layout {
my ($layout, $environment) = @_;
$layout //= 'ascii';
$environment //= get_var("DESKTOP", "anaconda");
# if already selected, we're good
return if (check_screen "${environment}_layout_${layout}", 3);
# otherwise we need to switch
my $switcher = "alt-shift"; # anaconda
$switcher = "super-spc" if $environment eq 'gnome';
# KDE? not used yet
send_key $switcher;
assert_screen "${environment}_layout_${layout}", 3;
}
# this is used at the end of console_login to check if we got a prompt
# indicating that we got a bash shell, but sourcing of /etc/bashrc
# failed (the prompt looks different in this case). We treat this as
# a soft failure.
sub _console_login_finish {
if (match_has_tag "bash_noprofile") {
record_soft_failure "It looks like profile sourcing failed";
}
}
# this subroutine handles logging in as a root/specified user into console
# it requires TTY to be already displayed (handled by the root_console()
# method of distribution classes)
sub console_login {
my %args = (
user => "root",
password => get_var("ROOT_PASSWORD", "weakpassword"),
# default is 10 seconds, set below, 0 means 'default'
timeout => 0,
@_);
$args{timeout} ||= 10;
# There's a timing problem when we switch from a logged-in console
# to a non-logged in console and immediately call this function;
# if the switch lags a bit, this function will match one of the
# logged-in needles for the console we switched from, and get out
# of sync (e.g. https://openqa.stg.fedoraproject.org/tests/1664 )
# To avoid this, we'll sleep a few seconds before starting
sleep 4;
my $good = "";
my $bad = "";
if ($args{user} eq "root") {
$good = "root_console";
$bad = "user_console";
}
else {
$good = "user_console";
$bad = "root_console";
}
if (check_screen $bad, 0) {
# we don't want to 'wait' for this as it won't return
script_run "exit", 0;
sleep 2;
}
check_screen [$good, 'text_console_login'], $args{timeout};
# if we're already logged in, all is good
if (match_has_tag $good) {
_console_login_finish();
return;
}
# if we see the login prompt, type the username
type_string("$args{user}\n") if (match_has_tag 'text_console_login');
check_screen [$good, 'console_password_required'], 30;
# on a live image, just the user name will be enough
if (match_has_tag $good) {
_console_login_finish();
return;
}
# otherwise, type the password if we see the prompt
if (match_has_tag 'console_password_required') {
type_string "$args{password}";
if (get_var("SWITCHED_LAYOUT") and $args{user} ne "root") {
# see _do_install_and_reboot; when layout is switched
# user password is doubled to contain both US and native
# chars
console_switch_layout;
type_string "$args{password}";
console_switch_layout;
}
send_key "ret";
}
# make sure we reached the console
assert_screen($good, 30);
_console_login_finish();
}
# load US layout (from a root console)
sub console_loadkeys_us {
if (get_var('LANGUAGE') eq 'french') {
script_run "loqdkeys us", 0;
# might take a few secs
sleep 3;
}
elsif (get_var('LANGUAGE') eq 'japanese') {
script_run "loadkeys us", 0;
sleep 3;
}
}
sub do_bootloader {
# Handle bootloader screen. 'bootloader' is syslinux or grub.
# 'uefi' is whether this is a UEFI install, will get_var UEFI if
# not explicitly set. 'postinstall' is whether we're on an
# installed system or at the installer (this matters for how many
# times we press 'down' to find the kernel line when typing args).
# 'args' is a string of extra kernel args, if desired. 'mutex' is
# a parallel test mutex lock to wait for before proceeding, if
# desired. 'first' is whether to hit 'up' a couple of times to
# make sure we boot the first menu entry. 'timeout' is how long to
# wait for the bootloader screen.
my %args = (
postinstall => 0,
params => "",
mutex => "",
first => 1,
timeout => 30,
uefi => get_var("UEFI"),
ofw => get_var("OFW"),
@_
);
# if not postinstall not UEFI and not ofw, syslinux
$args{bootloader} //= ($args{uefi} || $args{postinstall} || $args{ofw}) ? "grub" : "syslinux";
# we use the firmware-type specific tags because we want to be
# sure we actually did a UEFI boot
my $boottag = "bootloader_bios";
$boottag = "bootloader_uefi" if ($args{uefi});
_grub_error_loop(good=>$boottag, timeout=>$args{timeout}, timeoutcap=>30);
if ($args{mutex}) {
# cancel countdown
send_key "left";
mutex_lock $args{mutex};
mutex_unlock $args{mutex};
}
if ($args{first}) {
# press up a couple of times to make sure we're at first entry
send_key "up";
send_key "up";
}
if ($args{params}) {
if ($args{bootloader} eq "syslinux") {
send_key "tab";
}
else {
send_key "e";
# 2 'downs' to reach the kernel line for UEFI installer,
# 13 'downs' on installed x86_64. 12 'downs' on installed
# ppc64, because it doesn't have a 'set gfxpayload=keep'
# line. installed aarch64 is tricky: it should be 13, I
# think - it has a set gfxpayload=keep line - but it seems
# that on F27 installs (i.e. support_server) there is a
# 'set root' line, but on F28+ installs there is not, so
# the count is 12. So we have to do something gross.
my $presses = 2;
if ($args{postinstall}) {
if (get_var('OFW') || (get_var('ARCH') eq 'aarch64' && get_var('TEST') ne 'support_server')) {
$presses = 12;
} else {
$presses = 13;
}
}
foreach my $i (1..$presses) {
sleep 1; # seems to have missed one down if too fast.
send_key "down";
}
send_key "end";
}
# Change type_string by type_safely because keyboard polling
# in SLOF usb-xhci driver failed sometimes in powerpc
type_safely " $args{params}";
}
save_screenshot; # for debug purpose
# ctrl-X boots from grub editor mode
send_key "ctrl-x";
# return boots all other cases
send_key "ret";
}
sub get_milestone {
# FIXME: we don't know how to do this with Pungi 4 yet.
return '';
}
sub boot_decrypt {
# decrypt storage during boot; arg is timeout (in seconds)
my $timeout = shift || 60;
_grub_error_loop(good=>"boot_enter_passphrase", timeout=>$timeout, timeoutcap=>60);
type_string get_var("ENCRYPT_PASSWORD");
send_key "ret";
}
sub check_release {
# Checks whether the installed release matches a given value. E.g.
# `check_release(23)` checks whether the installed system is
# Fedora 23. The value can be 'Rawhide' or a Fedora release
# number; often you will want to use `get_var('VERSION')`. Expects
# a console prompt to be active when it is called.
my $release = shift;
my $check_command = "grep SUPPORT_PRODUCT_VERSION /usr/lib/os.release.d/os-release-fedora";
validate_script_output $check_command, sub { $_ =~ m/REDHAT_SUPPORT_PRODUCT_VERSION=$release/ };
}
sub menu_launch_type {
# Launch an application in a graphical environment, by opening a
# launcher, typing the specified string and hitting enter. Pass
# the string to be typed to launch whatever it is you want.
my $app = shift;
# super does not work on KDE, because fml
send_key 'alt-f1';
# srsly KDE y u so slo
wait_still_screen 3;
type_very_safely $app;
send_key 'ret';
}
sub start_cockpit {
# Starting from a console, get to a browser with Cockpit (running
# on localhost) shown. If $login is truth-y, also log in. Assumes
# X and Firefox are installed.
my $login = shift || 0;
# https://bugzilla.redhat.com/show_bug.cgi?id=1439429
assert_script_run "sed -i -e 's,enable_xauth=1,enable_xauth=0,g' /usr/bin/startx";
# run firefox directly in X as root. never do this, kids!
type_string "startx /usr/bin/firefox -width 1024 -height 768 http://localhost:9090\n";
# As of 2018-08-24, X is starting slow in Rawhide, seemingly due
# to an SELinux denial...handle this, but softfail
unless (check_screen "cockpit_login", 30) {
record_soft_failure "X starting slowly! Maybe RHBZ#1622254";
assert_screen "cockpit_login", 30;
}
# this happened on early Modular Server composes...
record_soft_failure "Unbranded Cockpit" if (match_has_tag "cockpit_login_unbranded");
wait_still_screen 5;
if ($login) {
type_safely "root";
wait_screen_change { send_key "tab"; };
type_safely get_var("ROOT_PASSWORD", "weakpassword");
send_key "ret";
assert_screen "cockpit_main";
# wait for any animation or other weirdness
# can't use wait_still_screen because of that damn graph
sleep 3;
}
}
Add support for testing updates Summary: This adds an entirely new workflow for testing distribution updates. The `ADVISORY` variable is introduced: when set, `main.pm` will load an early post-install test that sets up a repository containing the packages from the specified update, runs `dnf -y update`, and reboots. A new templates file is added, `templates-updates`, which adds two new flavors called `updates-server` and `updates-workstation`, each containing job templates for appropriate post-install tests. Scheduler is expected to post `ADVISORY=(update ID) HDD_1=(base image) FLAVOR=updates-(server|workstation)`, where (base image) is one of the stable release base disk images produced by `createhdds` and usually used for upgrade testing. This will result in the appropriate job templates being loaded. We rejig postinstall test loading and static network config a bit so that this works for both the 'compose' and 'updates' test flows: we have to ensure we bring up networking for the tap tests before we try and install the updates, but still allow later adjustment of the configuration. We take advantage of the openQA feature that was added a few months back to run the same module multiple times, so the `_advisory_update` module can reboot after installing the updates and the modules that take care of bootloader, encryption and login get run again. This looks slightly wacky in the web UI, though - it doesn't show the later runs of each module. We also use the recently added feature to specify `+HDD_1` in the test suites which use a disk image uploaded by an earlier post-install test, so the test suite value will take priority over the value POSTed by the scheduler for those tests, and we will use the uploaded disk image (and not the clean base image POSTed by the scheduler) for those tests. My intent here is to enhance the scheduler, adding a consumer which listens out for critpath updates, and runs this test flow for each one, then reports the results to ResultsDB where Bodhi could query and display them. We could also add a list of other packages to have one or both sets of update tests run on it, I guess. Test Plan: Try a post something like: HDD_1=disk_f25_server_3_x86_64.img DISTRI=fedora VERSION=25 FLAVOR=updates-server ARCH=x86_64 BUILD=FEDORA-2017-376ae2b92c ADVISORY=FEDORA-2017-376ae2b92c CURRREL=25 PREVREL=24 Pick an appropriate `ADVISORY` (ideally, one containing some packages which might actually be involved in the tests), and matching `FLAVOR` and `HDD_1`. The appropriate tests should run, a repo with the update packages should be created and enabled (and dnf update run), and the tests should work properly. Also test a regular compose run to make sure I didn't break anything. Reviewers: jskladan, jsedlak Reviewed By: jsedlak Subscribers: tflink Differential Revision: https://phab.qa.fedoraproject.org/D1143
2017-01-25 16:16:12 +00:00
sub _repo_setup_compose {
# Appropriate repo setup steps for testing a compose
# disable updates-testing and updates and use the compose location
# as the target for fedora and rawhide rather than mirrorlist, so
# tools see only packages from the compose under test
my $location = get_var("LOCATION");
Add support for testing updates Summary: This adds an entirely new workflow for testing distribution updates. The `ADVISORY` variable is introduced: when set, `main.pm` will load an early post-install test that sets up a repository containing the packages from the specified update, runs `dnf -y update`, and reboots. A new templates file is added, `templates-updates`, which adds two new flavors called `updates-server` and `updates-workstation`, each containing job templates for appropriate post-install tests. Scheduler is expected to post `ADVISORY=(update ID) HDD_1=(base image) FLAVOR=updates-(server|workstation)`, where (base image) is one of the stable release base disk images produced by `createhdds` and usually used for upgrade testing. This will result in the appropriate job templates being loaded. We rejig postinstall test loading and static network config a bit so that this works for both the 'compose' and 'updates' test flows: we have to ensure we bring up networking for the tap tests before we try and install the updates, but still allow later adjustment of the configuration. We take advantage of the openQA feature that was added a few months back to run the same module multiple times, so the `_advisory_update` module can reboot after installing the updates and the modules that take care of bootloader, encryption and login get run again. This looks slightly wacky in the web UI, though - it doesn't show the later runs of each module. We also use the recently added feature to specify `+HDD_1` in the test suites which use a disk image uploaded by an earlier post-install test, so the test suite value will take priority over the value POSTed by the scheduler for those tests, and we will use the uploaded disk image (and not the clean base image POSTed by the scheduler) for those tests. My intent here is to enhance the scheduler, adding a consumer which listens out for critpath updates, and runs this test flow for each one, then reports the results to ResultsDB where Bodhi could query and display them. We could also add a list of other packages to have one or both sets of update tests run on it, I guess. Test Plan: Try a post something like: HDD_1=disk_f25_server_3_x86_64.img DISTRI=fedora VERSION=25 FLAVOR=updates-server ARCH=x86_64 BUILD=FEDORA-2017-376ae2b92c ADVISORY=FEDORA-2017-376ae2b92c CURRREL=25 PREVREL=24 Pick an appropriate `ADVISORY` (ideally, one containing some packages which might actually be involved in the tests), and matching `FLAVOR` and `HDD_1`. The appropriate tests should run, a repo with the update packages should be created and enabled (and dnf update run), and the tests should work properly. Also test a regular compose run to make sure I didn't break anything. Reviewers: jskladan, jsedlak Reviewed By: jsedlak Subscribers: tflink Differential Revision: https://phab.qa.fedoraproject.org/D1143
2017-01-25 16:16:12 +00:00
return unless $location;
assert_script_run 'dnf config-manager --set-disabled updates-testing updates';
# script_run returns the exit code, so 'unless' here means 'if the file exists'
unless (script_run 'test -f /etc/yum.repos.d/fedora-updates-modular.repo') {
assert_script_run 'dnf config-manager --set-disabled updates-testing-modular updates-modular';
}
# we use script_run here as the rawhide and modular repo files
# won't always exist and we don't want to bother testing or
# predicting their existence; assert_script_run doesn't buy you
# much with sed as it'll return 0 even if it replaced nothing
Use mirrorlist instead of baseurl for updates tests The reason we have all this horrible code to use the commented- out baseurl lines in the repo files instead of the metalinks that are usually used is a timing issue with the metalink system. As a protection against stale mirrors, the metalink system sends the package manager a list of mirrors *and a list of recent checksums for the repo metadata*. The package manager goes out and gets the metadata from the first mirror on the list, then checksums it; if the checksum isn't on the list of checksums it got from mirrormanager, it assumes that means the mirror is stale, and tries the next on the list instead. The problem is that MM's list of checksums is currently only updated once an hour (by a cron job). So we kept running into a problem where, when a test ran just after one of the repos had been regenerated, the infra mirror it's supposed to use would be rejected because the checksum wasn't on the list - but not because the mirror was stale, but because it was too fresh, it had got the new packages and metadata but mirrormanager's list of checksums hadn't been updated to include the checksum for the latest metadata. All this baseurl munging code was getting ridiculous, though, what with the tests getting more complicated and errors showing up in the actual repo files and stuff. It occurred to me that instead of using the baseurl we can just use the 'mirrorlist' system instead of 'metalink'. mirrorlist is the dumber, older system which just provides the package manager a list of mirrors and nothing else - the whole stale-mirror-detection-checksum thing does not happen with mirrorlists, the package manager just tries all the mirrors in order and uses the first that works. And happily, it's very easy to convert the metalink URLs into mirrorlist URLs, and it saves all that faffing around trying to fix up baseurls. Also, adjust upgrade_boot to do the s/metalink/mirrorlist/ substitution, so upgrade tests don't run into the timing issue in the steps before the main repo_setup run is done by upgrade_run, and adjust repo_setup_compose to sub this line out later. Signed-off-by: Adam Williamson <awilliam@redhat.com>
2018-05-09 19:35:59 +00:00
script_run "sed -i -e 's,^metalink,#metalink,g' -e 's,^mirrorlist,#mirrorlist,g' -e 's,^#baseurl.*basearch,baseurl=${location}/Everything/\$basearch,g' -e 's,^#baseurl.*source,baseurl=${location}/Everything/source,g' /etc/yum.repos.d/{fedora,fedora-rawhide}.repo", 0;
script_run "sed -i -e 's,^metalink,#metalink,g' -e 's,^mirrorlist,#mirrorlist,g' -e 's,^#baseurl.*basearch,baseurl=${location}/Modular/\$basearch,g' -e 's,^#baseurl.*source,baseurl=${location}/Modular/source,g' /etc/yum.repos.d/{fedora-modular,fedora-rawhide-modular}.repo", 0;
# this can be used for debugging if something is going wrong
# unless (script_run 'pushd /etc/yum.repos.d && tar czvf yumreposd.tar.gz * && popd') {
# upload_logs "/etc/yum.repos.d/yumreposd.tar.gz";
# }
}
Add support for testing updates Summary: This adds an entirely new workflow for testing distribution updates. The `ADVISORY` variable is introduced: when set, `main.pm` will load an early post-install test that sets up a repository containing the packages from the specified update, runs `dnf -y update`, and reboots. A new templates file is added, `templates-updates`, which adds two new flavors called `updates-server` and `updates-workstation`, each containing job templates for appropriate post-install tests. Scheduler is expected to post `ADVISORY=(update ID) HDD_1=(base image) FLAVOR=updates-(server|workstation)`, where (base image) is one of the stable release base disk images produced by `createhdds` and usually used for upgrade testing. This will result in the appropriate job templates being loaded. We rejig postinstall test loading and static network config a bit so that this works for both the 'compose' and 'updates' test flows: we have to ensure we bring up networking for the tap tests before we try and install the updates, but still allow later adjustment of the configuration. We take advantage of the openQA feature that was added a few months back to run the same module multiple times, so the `_advisory_update` module can reboot after installing the updates and the modules that take care of bootloader, encryption and login get run again. This looks slightly wacky in the web UI, though - it doesn't show the later runs of each module. We also use the recently added feature to specify `+HDD_1` in the test suites which use a disk image uploaded by an earlier post-install test, so the test suite value will take priority over the value POSTed by the scheduler for those tests, and we will use the uploaded disk image (and not the clean base image POSTed by the scheduler) for those tests. My intent here is to enhance the scheduler, adding a consumer which listens out for critpath updates, and runs this test flow for each one, then reports the results to ResultsDB where Bodhi could query and display them. We could also add a list of other packages to have one or both sets of update tests run on it, I guess. Test Plan: Try a post something like: HDD_1=disk_f25_server_3_x86_64.img DISTRI=fedora VERSION=25 FLAVOR=updates-server ARCH=x86_64 BUILD=FEDORA-2017-376ae2b92c ADVISORY=FEDORA-2017-376ae2b92c CURRREL=25 PREVREL=24 Pick an appropriate `ADVISORY` (ideally, one containing some packages which might actually be involved in the tests), and matching `FLAVOR` and `HDD_1`. The appropriate tests should run, a repo with the update packages should be created and enabled (and dnf update run), and the tests should work properly. Also test a regular compose run to make sure I didn't break anything. Reviewers: jskladan, jsedlak Reviewed By: jsedlak Subscribers: tflink Differential Revision: https://phab.qa.fedoraproject.org/D1143
2017-01-25 16:16:12 +00:00
sub _repo_setup_updates {
# Appropriate repo setup steps for testing a Bodhi update
# Check if we already ran, bail if so
return unless script_run "test -f /etc/yum.repos.d/advisory.repo";
Use mirrorlist instead of baseurl for updates tests The reason we have all this horrible code to use the commented- out baseurl lines in the repo files instead of the metalinks that are usually used is a timing issue with the metalink system. As a protection against stale mirrors, the metalink system sends the package manager a list of mirrors *and a list of recent checksums for the repo metadata*. The package manager goes out and gets the metadata from the first mirror on the list, then checksums it; if the checksum isn't on the list of checksums it got from mirrormanager, it assumes that means the mirror is stale, and tries the next on the list instead. The problem is that MM's list of checksums is currently only updated once an hour (by a cron job). So we kept running into a problem where, when a test ran just after one of the repos had been regenerated, the infra mirror it's supposed to use would be rejected because the checksum wasn't on the list - but not because the mirror was stale, but because it was too fresh, it had got the new packages and metadata but mirrormanager's list of checksums hadn't been updated to include the checksum for the latest metadata. All this baseurl munging code was getting ridiculous, though, what with the tests getting more complicated and errors showing up in the actual repo files and stuff. It occurred to me that instead of using the baseurl we can just use the 'mirrorlist' system instead of 'metalink'. mirrorlist is the dumber, older system which just provides the package manager a list of mirrors and nothing else - the whole stale-mirror-detection-checksum thing does not happen with mirrorlists, the package manager just tries all the mirrors in order and uses the first that works. And happily, it's very easy to convert the metalink URLs into mirrorlist URLs, and it saves all that faffing around trying to fix up baseurls. Also, adjust upgrade_boot to do the s/metalink/mirrorlist/ substitution, so upgrade tests don't run into the timing issue in the steps before the main repo_setup run is done by upgrade_run, and adjust repo_setup_compose to sub this line out later. Signed-off-by: Adam Williamson <awilliam@redhat.com>
2018-05-09 19:35:59 +00:00
# Use mirrorlist not metalink so we don't hit the timing issue where
# the infra repo is updated but mirrormanager metadata checksums
# have not been updated, and the infra repo is rejected as its
# metadata checksum isn't known to MM
Use mirrorlist instead of baseurl for updates tests The reason we have all this horrible code to use the commented- out baseurl lines in the repo files instead of the metalinks that are usually used is a timing issue with the metalink system. As a protection against stale mirrors, the metalink system sends the package manager a list of mirrors *and a list of recent checksums for the repo metadata*. The package manager goes out and gets the metadata from the first mirror on the list, then checksums it; if the checksum isn't on the list of checksums it got from mirrormanager, it assumes that means the mirror is stale, and tries the next on the list instead. The problem is that MM's list of checksums is currently only updated once an hour (by a cron job). So we kept running into a problem where, when a test ran just after one of the repos had been regenerated, the infra mirror it's supposed to use would be rejected because the checksum wasn't on the list - but not because the mirror was stale, but because it was too fresh, it had got the new packages and metadata but mirrormanager's list of checksums hadn't been updated to include the checksum for the latest metadata. All this baseurl munging code was getting ridiculous, though, what with the tests getting more complicated and errors showing up in the actual repo files and stuff. It occurred to me that instead of using the baseurl we can just use the 'mirrorlist' system instead of 'metalink'. mirrorlist is the dumber, older system which just provides the package manager a list of mirrors and nothing else - the whole stale-mirror-detection-checksum thing does not happen with mirrorlists, the package manager just tries all the mirrors in order and uses the first that works. And happily, it's very easy to convert the metalink URLs into mirrorlist URLs, and it saves all that faffing around trying to fix up baseurls. Also, adjust upgrade_boot to do the s/metalink/mirrorlist/ substitution, so upgrade tests don't run into the timing issue in the steps before the main repo_setup run is done by upgrade_run, and adjust repo_setup_compose to sub this line out later. Signed-off-by: Adam Williamson <awilliam@redhat.com>
2018-05-09 19:35:59 +00:00
assert_script_run "sed -i -e 's,metalink,mirrorlist,g' /etc/yum.repos.d/fedora*.repo";
if (get_var("DEVELOPMENT")) {
# Disable updates-testing so other bad updates don't break us
# this will do nothing on upgrade tests as we're on a stable
# release at this point, but it won't *hurt* anything, so no
# need to except that case really
assert_script_run "dnf config-manager --set-disabled updates-testing";
# same for Modular, if appropriate
unless (script_run 'test -f /etc/yum.repos.d/fedora-updates-modular.repo') {
assert_script_run "dnf config-manager --set-disabled updates-testing-modular";
}
}
Use mirrorlist instead of baseurl for updates tests The reason we have all this horrible code to use the commented- out baseurl lines in the repo files instead of the metalinks that are usually used is a timing issue with the metalink system. As a protection against stale mirrors, the metalink system sends the package manager a list of mirrors *and a list of recent checksums for the repo metadata*. The package manager goes out and gets the metadata from the first mirror on the list, then checksums it; if the checksum isn't on the list of checksums it got from mirrormanager, it assumes that means the mirror is stale, and tries the next on the list instead. The problem is that MM's list of checksums is currently only updated once an hour (by a cron job). So we kept running into a problem where, when a test ran just after one of the repos had been regenerated, the infra mirror it's supposed to use would be rejected because the checksum wasn't on the list - but not because the mirror was stale, but because it was too fresh, it had got the new packages and metadata but mirrormanager's list of checksums hadn't been updated to include the checksum for the latest metadata. All this baseurl munging code was getting ridiculous, though, what with the tests getting more complicated and errors showing up in the actual repo files and stuff. It occurred to me that instead of using the baseurl we can just use the 'mirrorlist' system instead of 'metalink'. mirrorlist is the dumber, older system which just provides the package manager a list of mirrors and nothing else - the whole stale-mirror-detection-checksum thing does not happen with mirrorlists, the package manager just tries all the mirrors in order and uses the first that works. And happily, it's very easy to convert the metalink URLs into mirrorlist URLs, and it saves all that faffing around trying to fix up baseurls. Also, adjust upgrade_boot to do the s/metalink/mirrorlist/ substitution, so upgrade tests don't run into the timing issue in the steps before the main repo_setup run is done by upgrade_run, and adjust repo_setup_compose to sub this line out later. Signed-off-by: Adam Williamson <awilliam@redhat.com>
2018-05-09 19:35:59 +00:00
Add support for testing updates Summary: This adds an entirely new workflow for testing distribution updates. The `ADVISORY` variable is introduced: when set, `main.pm` will load an early post-install test that sets up a repository containing the packages from the specified update, runs `dnf -y update`, and reboots. A new templates file is added, `templates-updates`, which adds two new flavors called `updates-server` and `updates-workstation`, each containing job templates for appropriate post-install tests. Scheduler is expected to post `ADVISORY=(update ID) HDD_1=(base image) FLAVOR=updates-(server|workstation)`, where (base image) is one of the stable release base disk images produced by `createhdds` and usually used for upgrade testing. This will result in the appropriate job templates being loaded. We rejig postinstall test loading and static network config a bit so that this works for both the 'compose' and 'updates' test flows: we have to ensure we bring up networking for the tap tests before we try and install the updates, but still allow later adjustment of the configuration. We take advantage of the openQA feature that was added a few months back to run the same module multiple times, so the `_advisory_update` module can reboot after installing the updates and the modules that take care of bootloader, encryption and login get run again. This looks slightly wacky in the web UI, though - it doesn't show the later runs of each module. We also use the recently added feature to specify `+HDD_1` in the test suites which use a disk image uploaded by an earlier post-install test, so the test suite value will take priority over the value POSTed by the scheduler for those tests, and we will use the uploaded disk image (and not the clean base image POSTed by the scheduler) for those tests. My intent here is to enhance the scheduler, adding a consumer which listens out for critpath updates, and runs this test flow for each one, then reports the results to ResultsDB where Bodhi could query and display them. We could also add a list of other packages to have one or both sets of update tests run on it, I guess. Test Plan: Try a post something like: HDD_1=disk_f25_server_3_x86_64.img DISTRI=fedora VERSION=25 FLAVOR=updates-server ARCH=x86_64 BUILD=FEDORA-2017-376ae2b92c ADVISORY=FEDORA-2017-376ae2b92c CURRREL=25 PREVREL=24 Pick an appropriate `ADVISORY` (ideally, one containing some packages which might actually be involved in the tests), and matching `FLAVOR` and `HDD_1`. The appropriate tests should run, a repo with the update packages should be created and enabled (and dnf update run), and the tests should work properly. Also test a regular compose run to make sure I didn't break anything. Reviewers: jskladan, jsedlak Reviewed By: jsedlak Subscribers: tflink Differential Revision: https://phab.qa.fedoraproject.org/D1143
2017-01-25 16:16:12 +00:00
# Set up an additional repo containing the update packages. We do
# this rather than simply running a one-time update because it may
# be the case that a package from the update isn't installed *now*
# but will be installed by one of the tests; by setting up a repo
# containing the update and enabling it here, we ensure all later
# 'dnf install' calls will get the packages from the update.
assert_script_run "mkdir -p /opt/update_repo";
assert_script_run "cd /opt/update_repo";
assert_script_run "dnf -y install bodhi-client git createrepo koji", 300;
Add support for testing updates Summary: This adds an entirely new workflow for testing distribution updates. The `ADVISORY` variable is introduced: when set, `main.pm` will load an early post-install test that sets up a repository containing the packages from the specified update, runs `dnf -y update`, and reboots. A new templates file is added, `templates-updates`, which adds two new flavors called `updates-server` and `updates-workstation`, each containing job templates for appropriate post-install tests. Scheduler is expected to post `ADVISORY=(update ID) HDD_1=(base image) FLAVOR=updates-(server|workstation)`, where (base image) is one of the stable release base disk images produced by `createhdds` and usually used for upgrade testing. This will result in the appropriate job templates being loaded. We rejig postinstall test loading and static network config a bit so that this works for both the 'compose' and 'updates' test flows: we have to ensure we bring up networking for the tap tests before we try and install the updates, but still allow later adjustment of the configuration. We take advantage of the openQA feature that was added a few months back to run the same module multiple times, so the `_advisory_update` module can reboot after installing the updates and the modules that take care of bootloader, encryption and login get run again. This looks slightly wacky in the web UI, though - it doesn't show the later runs of each module. We also use the recently added feature to specify `+HDD_1` in the test suites which use a disk image uploaded by an earlier post-install test, so the test suite value will take priority over the value POSTed by the scheduler for those tests, and we will use the uploaded disk image (and not the clean base image POSTed by the scheduler) for those tests. My intent here is to enhance the scheduler, adding a consumer which listens out for critpath updates, and runs this test flow for each one, then reports the results to ResultsDB where Bodhi could query and display them. We could also add a list of other packages to have one or both sets of update tests run on it, I guess. Test Plan: Try a post something like: HDD_1=disk_f25_server_3_x86_64.img DISTRI=fedora VERSION=25 FLAVOR=updates-server ARCH=x86_64 BUILD=FEDORA-2017-376ae2b92c ADVISORY=FEDORA-2017-376ae2b92c CURRREL=25 PREVREL=24 Pick an appropriate `ADVISORY` (ideally, one containing some packages which might actually be involved in the tests), and matching `FLAVOR` and `HDD_1`. The appropriate tests should run, a repo with the update packages should be created and enabled (and dnf update run), and the tests should work properly. Also test a regular compose run to make sure I didn't break anything. Reviewers: jskladan, jsedlak Reviewed By: jsedlak Subscribers: tflink Differential Revision: https://phab.qa.fedoraproject.org/D1143
2017-01-25 16:16:12 +00:00
# download the packages
assert_script_run "bodhi updates download --updateid " . get_var("ADVISORY"), 600;
# for upgrade tests, we want to do the 'development' changes *after* we
# set up the update repo. We don't do the f28 fixups as we don't have
# f28 fedora-repos.
# this can be used for debugging if something is going wrong
# unless (script_run 'pushd /etc/yum.repos.d && tar czvf yumreposd.tar.gz * && popd') {
# upload_logs "/etc/yum.repos.d/yumreposd.tar.gz";
# }
# log the exact packages in the update at test time, with their
# source packages and epochs
assert_script_run 'rpm -qp *.rpm --qf "%{SOURCERPM} %{EPOCH} %{NAME}-%{VERSION}-%{RELEASE}\n" | sort -u > /var/log/updatepkgs.txt';
upload_logs "/var/log/updatepkgs.txt";
Add support for testing updates Summary: This adds an entirely new workflow for testing distribution updates. The `ADVISORY` variable is introduced: when set, `main.pm` will load an early post-install test that sets up a repository containing the packages from the specified update, runs `dnf -y update`, and reboots. A new templates file is added, `templates-updates`, which adds two new flavors called `updates-server` and `updates-workstation`, each containing job templates for appropriate post-install tests. Scheduler is expected to post `ADVISORY=(update ID) HDD_1=(base image) FLAVOR=updates-(server|workstation)`, where (base image) is one of the stable release base disk images produced by `createhdds` and usually used for upgrade testing. This will result in the appropriate job templates being loaded. We rejig postinstall test loading and static network config a bit so that this works for both the 'compose' and 'updates' test flows: we have to ensure we bring up networking for the tap tests before we try and install the updates, but still allow later adjustment of the configuration. We take advantage of the openQA feature that was added a few months back to run the same module multiple times, so the `_advisory_update` module can reboot after installing the updates and the modules that take care of bootloader, encryption and login get run again. This looks slightly wacky in the web UI, though - it doesn't show the later runs of each module. We also use the recently added feature to specify `+HDD_1` in the test suites which use a disk image uploaded by an earlier post-install test, so the test suite value will take priority over the value POSTed by the scheduler for those tests, and we will use the uploaded disk image (and not the clean base image POSTed by the scheduler) for those tests. My intent here is to enhance the scheduler, adding a consumer which listens out for critpath updates, and runs this test flow for each one, then reports the results to ResultsDB where Bodhi could query and display them. We could also add a list of other packages to have one or both sets of update tests run on it, I guess. Test Plan: Try a post something like: HDD_1=disk_f25_server_3_x86_64.img DISTRI=fedora VERSION=25 FLAVOR=updates-server ARCH=x86_64 BUILD=FEDORA-2017-376ae2b92c ADVISORY=FEDORA-2017-376ae2b92c CURRREL=25 PREVREL=24 Pick an appropriate `ADVISORY` (ideally, one containing some packages which might actually be involved in the tests), and matching `FLAVOR` and `HDD_1`. The appropriate tests should run, a repo with the update packages should be created and enabled (and dnf update run), and the tests should work properly. Also test a regular compose run to make sure I didn't break anything. Reviewers: jskladan, jsedlak Reviewed By: jsedlak Subscribers: tflink Differential Revision: https://phab.qa.fedoraproject.org/D1143
2017-01-25 16:16:12 +00:00
# create the repo metadata
assert_script_run "createrepo .";
# write a repo config file
assert_script_run 'printf "[advisory]\nname=Advisory repo\nbaseurl=file:///opt/update_repo\nenabled=1\nmetadata_expire=3600\ngpgcheck=0" > /etc/yum.repos.d/advisory.repo';
# run an update now (except for upgrade tests)
script_run "dnf -y update", 600 unless (get_var("UPGRADE"));
Add support for testing updates Summary: This adds an entirely new workflow for testing distribution updates. The `ADVISORY` variable is introduced: when set, `main.pm` will load an early post-install test that sets up a repository containing the packages from the specified update, runs `dnf -y update`, and reboots. A new templates file is added, `templates-updates`, which adds two new flavors called `updates-server` and `updates-workstation`, each containing job templates for appropriate post-install tests. Scheduler is expected to post `ADVISORY=(update ID) HDD_1=(base image) FLAVOR=updates-(server|workstation)`, where (base image) is one of the stable release base disk images produced by `createhdds` and usually used for upgrade testing. This will result in the appropriate job templates being loaded. We rejig postinstall test loading and static network config a bit so that this works for both the 'compose' and 'updates' test flows: we have to ensure we bring up networking for the tap tests before we try and install the updates, but still allow later adjustment of the configuration. We take advantage of the openQA feature that was added a few months back to run the same module multiple times, so the `_advisory_update` module can reboot after installing the updates and the modules that take care of bootloader, encryption and login get run again. This looks slightly wacky in the web UI, though - it doesn't show the later runs of each module. We also use the recently added feature to specify `+HDD_1` in the test suites which use a disk image uploaded by an earlier post-install test, so the test suite value will take priority over the value POSTed by the scheduler for those tests, and we will use the uploaded disk image (and not the clean base image POSTed by the scheduler) for those tests. My intent here is to enhance the scheduler, adding a consumer which listens out for critpath updates, and runs this test flow for each one, then reports the results to ResultsDB where Bodhi could query and display them. We could also add a list of other packages to have one or both sets of update tests run on it, I guess. Test Plan: Try a post something like: HDD_1=disk_f25_server_3_x86_64.img DISTRI=fedora VERSION=25 FLAVOR=updates-server ARCH=x86_64 BUILD=FEDORA-2017-376ae2b92c ADVISORY=FEDORA-2017-376ae2b92c CURRREL=25 PREVREL=24 Pick an appropriate `ADVISORY` (ideally, one containing some packages which might actually be involved in the tests), and matching `FLAVOR` and `HDD_1`. The appropriate tests should run, a repo with the update packages should be created and enabled (and dnf update run), and the tests should work properly. Also test a regular compose run to make sure I didn't break anything. Reviewers: jskladan, jsedlak Reviewed By: jsedlak Subscribers: tflink Differential Revision: https://phab.qa.fedoraproject.org/D1143
2017-01-25 16:16:12 +00:00
}
sub repo_setup {
# Run the appropriate sub-function for the job
get_var("ADVISORY") ? _repo_setup_updates : _repo_setup_compose;
# This repo does not always exist for Rawhide or Branched, and
# some things (at least realmd) try to update the repodata for
# it even though it is disabled, and fail. At present none of the
# tests needs it, so let's just unconditionally nuke it.
assert_script_run "rm -f /etc/yum.repos.d/fedora-cisco-openh264.repo";
Add support for testing updates Summary: This adds an entirely new workflow for testing distribution updates. The `ADVISORY` variable is introduced: when set, `main.pm` will load an early post-install test that sets up a repository containing the packages from the specified update, runs `dnf -y update`, and reboots. A new templates file is added, `templates-updates`, which adds two new flavors called `updates-server` and `updates-workstation`, each containing job templates for appropriate post-install tests. Scheduler is expected to post `ADVISORY=(update ID) HDD_1=(base image) FLAVOR=updates-(server|workstation)`, where (base image) is one of the stable release base disk images produced by `createhdds` and usually used for upgrade testing. This will result in the appropriate job templates being loaded. We rejig postinstall test loading and static network config a bit so that this works for both the 'compose' and 'updates' test flows: we have to ensure we bring up networking for the tap tests before we try and install the updates, but still allow later adjustment of the configuration. We take advantage of the openQA feature that was added a few months back to run the same module multiple times, so the `_advisory_update` module can reboot after installing the updates and the modules that take care of bootloader, encryption and login get run again. This looks slightly wacky in the web UI, though - it doesn't show the later runs of each module. We also use the recently added feature to specify `+HDD_1` in the test suites which use a disk image uploaded by an earlier post-install test, so the test suite value will take priority over the value POSTed by the scheduler for those tests, and we will use the uploaded disk image (and not the clean base image POSTed by the scheduler) for those tests. My intent here is to enhance the scheduler, adding a consumer which listens out for critpath updates, and runs this test flow for each one, then reports the results to ResultsDB where Bodhi could query and display them. We could also add a list of other packages to have one or both sets of update tests run on it, I guess. Test Plan: Try a post something like: HDD_1=disk_f25_server_3_x86_64.img DISTRI=fedora VERSION=25 FLAVOR=updates-server ARCH=x86_64 BUILD=FEDORA-2017-376ae2b92c ADVISORY=FEDORA-2017-376ae2b92c CURRREL=25 PREVREL=24 Pick an appropriate `ADVISORY` (ideally, one containing some packages which might actually be involved in the tests), and matching `FLAVOR` and `HDD_1`. The appropriate tests should run, a repo with the update packages should be created and enabled (and dnf update run), and the tests should work properly. Also test a regular compose run to make sure I didn't break anything. Reviewers: jskladan, jsedlak Reviewed By: jsedlak Subscribers: tflink Differential Revision: https://phab.qa.fedoraproject.org/D1143
2017-01-25 16:16:12 +00:00
}
sub gnome_initial_setup {
# Handle gnome-initial-setup, with variations for the pre-login
# mode (when no user was created during install) and post-login
# mode (when user was created during install)
my %args = (
prelogin => 0,
timeout => 120,
@_
);
my $version = lc(get_var("VERSION"));
# the pages we *may* need to click 'next' on. *NOTE*: 'language'
# is the 'welcome' page, and is in fact never truly skipped; if
# it's configured to be skipped, it just shows without the language
# selection widget (so it's a bare 'welcome' page). Current openQA
# tests never see 'eula' or 'network'. You can find the upstream
# list in gnome-initial-setup/gnome-initial-setup.c , and the skip
# config file for Fedora is vendor.conf in the package repo.
my @nexts = ('language', 'keyboard', 'privacy', 'timezone', 'software');
# now, we're going to figure out how many of them this test will
# *actually* see...
if ($args{prelogin}) {
# 'language', 'keyboard' and 'timezone' are skipped on F28+ in
# the 'new user' mode by
# https://fedoraproject.org//wiki/Changes/ReduceInitialSetupRedundancy
# https://bugzilla.redhat.com/show_bug.cgi?id=1474787 ,
# except 'language' is never *really* skipped (see above)
@nexts = grep {$_ ne 'keyboard'} @nexts if ($version eq 'rawhide' || $version > 27);
@nexts = grep {$_ ne 'timezone'} @nexts if ($version eq 'rawhide' || $version > 27);
}
else {
# 'timezone' and 'software' are suppressed for the 'existing user'
# form of g-i-s
@nexts = grep {$_ ne 'software'} @nexts;
@nexts = grep {$_ ne 'timezone'} @nexts;
}
# 'additional software sources' screen does not display on F28+:
# https://bugzilla.gnome.org/show_bug.cgi?id=794825
@nexts = grep {$_ ne 'software'} @nexts if ($version eq 'rawhide' || $version > 27);
assert_screen "next_button", $args{timeout};
# wait a bit in case of animation
wait_still_screen 3;
# GDM 3.24.1 dumps a cursor in the middle of the screen here...
mouse_hide if ($args{prelogin});
for my $n (1..scalar(@nexts)) {
# click 'Next' $nexts times, moving the mouse to avoid
# highlight problems, sleeping to give it time to get
# to the next screen between clicks
mouse_set(100, 100);
wait_screen_change { assert_and_click "next_button"; };
# for Japanese, we need to workaround a bug on the keyboard
# selection screen
if ($n == 1 && get_var("LANGUAGE") eq 'japanese') {
if (!check_screen 'initial_setup_kana_kanji_selected', 5) {
record_soft_failure 'kana kanji not selected: bgo#776189';
assert_and_click 'initial_setup_kana_kanji';
}
}
}
# click 'Skip' one time (this is the 'goa' screen)
mouse_set(100,100);
wait_screen_change { assert_and_click "skip_button"; };
send_key "ret";
if ($args{prelogin}) {
# create user
my $user_login = get_var("USER_LOGIN") || "test";
my $user_password = get_var("USER_PASSWORD") || "weakpassword";
type_very_safely $user_login;
wait_screen_change { assert_and_click "next_button"; };
type_very_safely $user_password;
send_key "tab";
type_very_safely $user_password;
wait_screen_change { assert_and_click "next_button"; };
send_key "ret";
}
else {
# wait for the stupid 'help' screen to show and kill it
if (check_screen "getting_started", 30) {
send_key "alt-f4";
wait_still_screen 5;
}
else {
record_soft_failure "'getting started' missing (probably BGO#790811)";
}
# don't do it again on second load
}
set_var("_setup_done", 1);
}
sub _type_user_password {
# convenience function used by anaconda_create_user, not meant
# for direct use
my $user_password = get_var("USER_PASSWORD") || "weakpassword";
if (get_var("SWITCHED_LAYOUT")) {
# we double the password, the second time using the native
# layout, so the password has both ASCII and native characters
desktop_switch_layout "ascii", "anaconda";
type_very_safely $user_password;
desktop_switch_layout "native", "anaconda";
type_very_safely $user_password;
}
else {
type_very_safely $user_password;
}
}
sub anaconda_create_user {
# Create a user, in the anaconda interface. This is here because
# the same code works both during install and for initial-setup,
# which runs post-install, so we can share it.
my %args = (
timeout => 90,
@_
);
my $user_login = get_var("USER_LOGIN") || "test";
assert_and_click "anaconda_install_user_creation", '', $args{timeout};
assert_screen "anaconda_install_user_creation_screen";
# wait out animation
wait_still_screen 2;
type_very_safely $user_login;
type_very_safely "\t\t\t\t";
_type_user_password();
wait_screen_change { send_key "tab"; };
wait_still_screen 2;
_type_user_password();
# even with all our slow typing this still *sometimes* seems to
# miss a character, so let's try again if we have a warning bar.
# But not if we're installing with a switched layout, as those
# will *always* result in a warning bar at this point (see below)
if (!get_var("SWITCHED_LAYOUT") && check_screen "anaconda_warning_bar", 3) {
wait_screen_change { send_key "shift-tab"; };
wait_still_screen 2;
_type_user_password();
wait_screen_change { send_key "tab"; };
wait_still_screen 2;
_type_user_password();
}
assert_and_click "anaconda_install_user_creation_make_admin";
assert_and_click "anaconda_spoke_done";
# since 20170105, we will get a warning here when the password
# contains non-ASCII characters. Assume only switched layouts
# produce non-ASCII characters, though this isn't strictly true
if (get_var('SWITCHED_LAYOUT') && check_screen "anaconda_warning_bar", 3) {
wait_still_screen 1;
assert_and_click "anaconda_spoke_done";
}
}
sub check_desktop_clean {
# Check we're at a 'clean' desktop. This used to be a simple
# needle check, but Rawhide's default desktop is now one which
# changes over time, and the GNOME top bar is now translucent
# by default; together these changes mean it's impossible to
# make a reliable needle, so we need something more tricksy to
# cover that case. 'tries' is the amount of check cycles to run
# before giving up and failing; each cycle should take ~3 secs.
my %args = (
tries => 10,
@_
);
foreach my $i (1..$args{tries}) {
# we still *do* the needle check, for all cases it covers
return if (check_screen "graphical_desktop_clean", 1);
# now do the special GNOME case
if (get_var("DESKTOP") eq "gnome") {
send_key "super";
if (check_screen "overview_app_grid", 2) {
send_key "super";
wait_still_screen 3;
# go back to the desktop, if we're still at the app
# grid (can be a bit fuzzy depending on response lag)
while (check_screen "overview_app_grid", 1) {
send_key "super";
wait_still_screen 3;
}
return;
}
}
else {
# to keep the timing equal
sleep 2;
}
}
die "Clean desktop not reached!";
}
sub download_modularity_tests {
# Download the modularity test script, place in the system and then
# modify the access rights to make it executable.
assert_script_run 'curl -o /root/test.py https://pagure.io/fedora-qa/modularity_testing_scripts/raw/master/f/modular_functions.py';
assert_script_run 'chmod 755 /root/test.py';
}