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 boot_decrypt check_release menu_launch_type repo_setup setup_workaround_repo cleanup_workaround_repo gnome_initial_setup anaconda_create_user check_desktop download_modularity_tests quit_firefox advisory_get_installed_packages advisory_check_nonmatching_packages start_with_launcher quit_with_shortcut lo_dismiss_tip disable_firefox_studies select_rescue_mode copy_devcdrom_as_isofile bypass_1691487 get_release_number check_left_bar check_top_bar check_prerelease check_version spell_version_number _assert_and_click is_branched rec_log click_unwanted_notifications repos_mirrorlist register_application get_registered_applications solidify_wallpaper/; # We introduce this global variable to hold the list of applications that have # registered during the apps_startstop_test when they have sucessfully run. our @application_list; sub run_with_error_check { my ($func, $error_screen) = @_; # Check screen does not work for serial console, so we need to use # different checking mechanism for it. if (testapi::is_serial_terminal) { # by using 'unless' and 'expect_not_found=>1' here we avoid # the web UI showing each failure to see the error message as # a 'failed match' die "Error screen appeared" unless (wait_serial($error_screen, timeout=>5, expect_not_found=>1)); $func->(); die "Error screen appeared" unless (wait_serial($error_screen, timeout=>5, expect_not_found=>1)); } else { 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); # similarity level 45 as there will commonly be a flashing # cursor and the default level (47) is slightly too tight wait_still_screen(stilltime=>2, similarity_level=>45); } # 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); # similarity level 45 as there will commonly be a flashing # cursor and the default level (47) is slightly too tight wait_still_screen(stilltime=>5, similarity_level=>45); } # Figure out what tty the desktop is on, switch to it. Assumes we're # at a root console sub desktop_vt { # use loginctl or ps to find the tty of test's session (loginctl) # or Xwayland or Xorg (ps); as of 2019-09 on F31 update tests # ps -C is giving 'tty?', so adding loginctl works around that my $xout; # don't fail test if we don't find any process, just guess tty1 eval { $xout = script_output ' loginctl | grep test; 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}"; # work around https://gitlab.gnome.org/GNOME/gnome-software/issues/582 # if it happens. As of 2019-05, seeing something similar on KDE too my $desktop = get_var('DESKTOP'); if (check_screen "auth_required", 10) { record_soft_failure "spurious 'auth required' - https://gitlab.gnome.org/GNOME/gnome-software/issues/582"; assert_and_click "auth_required" if ($desktop eq 'kde'); # bit sloppy but correct for both... type_very_safely "weakpassword\n"; # as of 2019-04 when we hit this bug it seems to ask for # auth *twice*, so handle that sleep 3; if (check_screen "auth_required", 1) { type_very_safely "weakpassword\n"; } } } # 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 = @_; $args{timeout} //= 300; if (testapi::is_serial_terminal) { # For serial console, just wait for the login prompt unless (wait_serial "login:", timeout=>$args{timeout}) { die "No login prompt shown on serial console."; } } else { # 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). # The following is true for non-serial console. my $count = 5; while (check_screen("login_screen", 3) && $count > 0) { sleep 5; $count -= 1; } assert_screen "login_screen", $args{timeout}; if (match_has_tag "graphical_login") { wait_still_screen 10, 30; assert_screen "login_screen"; } } } # Switch keyboard layouts at a console sub console_switch_layout { # switcher key combo differs between layouts, for console if (get_var("LANGUAGE", "") eq "russian") { send_key "ctrl-shift"; } } # switch to 'native' or 'ascii' input method in a graphical desktop # usually switched configs have one mode for inputting ascii-ish # characters (which may be 'us' keyboard layout, or a local layout for # inputting ascii like 'jp') and one mode for inputting native # characters (which may be another keyboard layout, like 'ru', or an # input method for more complex languages) # 'environment' can be a desktop name or 'anaconda' for anaconda # if not set, will use get_var('DESKTOP') or default 'anaconda' sub desktop_switch_layout { my ($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 { # The check differs according to the console used. if (testapi::is_serial_terminal) { unless (wait_serial("-bash-.*[#\$]", timeout=>5, expect_not_found=>1)) { record_soft_failure "It looks like profile sourcing failed"; } } else { 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; # Since we do not test many serial console tests, and we probably # only want to test serial console on a minimal installation only, # let us not do all the magic to handle different console logins # and let us simplify the process. # We will check if we are logged in, and if so, we will log out to # enable a new proper login based on the user variable. if (get_var("SERIAL_CONSOLE")) { # Check for the usual prompt. if (wait_serial("~\][#\$]", timeout=>5, quiet=>1)) { type_string "logout\n"; # Wait a bit to let the logout properly finish. sleep 10; } # Do the new login. type_string $args{user}; type_string "\n"; sleep 2; type_string $args{password}; type_string "\n"; # Let's perform a simple login test. This is the same as # whoami, but has the advantage of existing in installer env assert_script_run "id -un"; unless (wait_serial $args{user}, timeout=>5) { die "Logging onto the serial console has failed."; } } else { # 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 $bad, 0) { # we don't want to 'wait' for this as it won't return script_run "exit", 0; sleep 2; } assert_screen [$good, 'text_console_login'], $args{timeout}; # if we're already logged in, all is good if (match_has_tag $good) { _console_login_finish(); return; } # otherwise, we saw the login prompt, type the username type_string("$args{user}\n"); assert_screen [$good, 'console_password_required'], 30; # on a live image, just the user name will be enough if (match_has_tag $good) { # clear the screen (so the remaining login prompt text # doesn't confuse subsequent runs of this) my $clearstr = "clear\n"; $clearstr = "cleqr\n" if (get_var("LANGUAGE") eq 'french'); type_string $clearstr; _console_login_finish(); return; } # otherwise, type the password type_string "$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 unless (check_screen($good, 30)) { # as of 2018-10 we have a bug in sssd which makes this take # unusually long in the FreeIPA tests, let's allow longer, # with a soft fail - RHBZ #1644919 record_soft_failure "Console login is taking a long time - #1644919?"; my $timeout = 30; # even an extra 30 secs isn't long enough on aarch64... $timeout = 90 if (get_var("ARCH") eq "aarch64"); assert_screen($good, $timeout); } # clear the screen (so the remaining login prompt text # doesn't confuse subsequent runs of this) my $clearstr = "clear\n"; $clearstr = "cleqr\n" if (get_var("LANGUAGE") eq 'french'); type_string $clearstr; } _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}); assert_screen $boottag, $args{timeout}; if ($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"; # we need to get to the 'linux' line here, and grub does # not have any easy way to do that. Depending on the arch # and the Fedora release, we may have to press 'down' 2 # times, or 13, or 12, or some other goddamn number. That # got painful to keep track of, so let's go bottom-up: # press 'down' 50 times to make sure we're at the bottom, # then 'up' twice to reach the 'linux' line. This seems to # work in every permutation I can think of to test. for (1 .. 50) { send_key 'down'; } sleep 1; send_key 'up'; sleep 1; send_key 'up'; 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 boot_decrypt { # decrypt storage during boot; arg is timeout (in seconds) my $timeout = shift || 60; assert_screen "boot_enter_passphrase", $timeout; 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 /etc/os-release"; 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 disable_firefox_studies { # create a config file that disables Firefox's dumb 'shield # studies' so they don't break tests: # https://bugzilla.mozilla.org/show_bug.cgi?id=1529626 # and also disables the password manager stuff so that doesn't # break password entry: # https://bugzilla.mozilla.org/show_bug.cgi?id=1635833 assert_script_run 'mkdir -p $(rpm --eval %_libdir)/firefox/distribution'; assert_script_run 'printf \'{"policies": {"DisableFirefoxStudies": true, "OfferToSaveLogins": false}}\' > $(rpm --eval %_libdir)/firefox/distribution/policies.json'; } sub repos_mirrorlist { # 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 my $files = shift; $files ||= "/etc/yum.repos.d/fedora*.repo"; assert_script_run "sed -i -e 's,metalink,mirrorlist,g' ${files}"; } sub cleanup_workaround_repo { # clean up the workaround repo (see next). script_run "rm -rf /opt/workarounds_repo"; script_run "rm -f /etc/yum.repos.d/workarounds.repo"; } sub setup_workaround_repo { # we periodically need to pull an update from updates-testing in # to fix some bug or other. so, here's an organized way to do it. # we do this here so the workaround packages are in the repo data # but *not* in the package lists generated above (those should # only include packages from the update under test). we'll define # a hash of releases and update IDs. if no workarounds are needed # for any release, the hash can be empty and this will do nothing my $version = shift || get_var("VERSION"); cleanup_workaround_repo; script_run "dnf -y install bodhi-client createrepo", 300; # write a repo config file, unless this is the support_server test # and it is running on a different release than the update is for # (in this case we need the repo to exist but do not want to use # it on the actual support_server system) unless (get_var("TEST") eq "support_server" && $version ne get_var("CURRREL")) { assert_script_run 'printf "[workarounds]\nname=Workarounds repo\nbaseurl=file:///opt/workarounds_repo\nenabled=1\nmetadata_expire=1\ngpgcheck=0" > /etc/yum.repos.d/workarounds.repo'; } assert_script_run "mkdir -p /opt/workarounds_repo"; assert_script_run "pushd /opt/workarounds_repo"; my %workarounds = ( "30" => [], "31" => [], # fix for lmod breaking console output tests, latest pki to # avoid broken FreeIPA upgrades (it can't go backwards) "32" => ["FEDORA-2020-755d29d4b0", "FEDORA-2020-5f05c3ec46"] ); # then we'll download each update for our release: my $advisories = $workarounds{$version}; foreach my $advisory (@$advisories) { assert_script_run "bodhi updates download --updateid=$advisory", 180; } # and create repo metadata assert_script_run "createrepo ."; assert_script_run "popd"; } 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"); return unless $location; assert_script_run 'dnf config-manager --set-disabled updates-testing updates'; # script_run returns the exit code, so 'unless' here means 'if the file exists' unless (script_run 'test -f /etc/yum.repos.d/fedora-updates-modular.repo') { assert_script_run 'dnf config-manager --set-disabled updates-testing-modular updates-modular'; } # we use script_run here as the rawhide and modular repo files # won't always exist and we don't want to bother testing or # predicting their existence; assert_script_run doesn't buy you # much with sed as it'll return 0 even if it replaced nothing script_run "sed -i -e 's,^metalink,#metalink,g' -e 's,^mirrorlist,#mirrorlist,g' -e 's,^#baseurl.*basearch,baseurl=${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"; # } } 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"; my $version = get_var("VERSION"); my $currrel = get_var("CURRREL", "0"); repos_mirrorlist(); # this can be used for debugging repo config if something is wrong # unless (script_run 'pushd /etc/yum.repos.d && tar czvf yumreposd.tar.gz * && popd') { # upload_logs "/etc/yum.repos.d/yumreposd.tar.gz"; # } if ($version > $currrel) { # 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"; } } # set up the workaround repo setup_workaround_repo; # Set up an additional repo containing the update or task 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"; # if NUMDISKS is above 1, assume we want to put the update repo on # the other disk (to avoid huge updates exhausting space on the main # disk) if (get_var("NUMDISKS") > 1) { # I think the disk will always be vdb. This creates a single large # partition. assert_script_run "echo 'type=83' | sfdisk /dev/vdb"; assert_script_run "mkfs.ext4 /dev/vdb1"; assert_script_run "echo '/dev/vdb1 /opt/update_repo ext4 defaults 1 2' >> /etc/fstab"; assert_script_run "mount /opt/update_repo"; } assert_script_run "cd /opt/update_repo"; script_run "dnf -y install bodhi-client git createrepo koji", 300; # download the packages if (get_var("ADVISORY_NVRS")) { # regular update case foreach my $nvr (split(/ /, get_var("ADVISORY_NVRS"))) { assert_script_run "koji download-build --arch=" . get_var("ARCH") . " --arch=noarch $nvr", 600; } } elsif (get_var("KOJITASK")) { # Koji task case (KOJITASK will be set) assert_script_run "koji download-task --arch=" . get_var("ARCH") . " --arch=noarch " . get_var("KOJITASK"), 600; } else { die "Neither ADVISORY_NVRS nor KOJITASK set! Don't know what to do"; } # 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"; # also log just the binary package names: this is so we can check # later whether any package from the update *should* have been # installed, but was not assert_script_run 'rpm -qp *.rpm --qf "%{NAME} " > /var/log/updatepkgnames.txt'; upload_logs "/var/log/updatepkgnames.txt"; # create the repo metadata assert_script_run "createrepo ."; # write a repo config file, unless this is the support_server test # and it is running on a different release than the update is for # (in this case we need the repo to exist but do not want to use # it on the actual support_server system) unless (get_var("TEST") eq "support_server" && $version ne get_var("CURRREL")) { 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", 900 unless (get_var("UPGRADE")); } # mark via a variable that we've set up the update/task repo and done # all the logging stuff above set_var('_ADVISORY_REPO_DONE', '1'); } sub repo_setup { # Run the appropriate sub-function for the job get_var("ADVISORY_OR_TASK") ? _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"; } 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 {$_ ne 'keyboard'} @nexts; @nexts = grep {$_ ne 'timezone'} @nexts; } 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; 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'; } } } unless (get_var("VNC_CLIENT")) { # click 'Skip' one time (this is the 'goa' screen). We don't # get it on VNC_CLIENT case as network isn't working (yet) 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", 45) { 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 $user_login = get_var("USER_LOGIN") || "test"; assert_and_click("anaconda_install_user_creation", timeout=>$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 { # Check we're at a desktop. We do this by looking for the "apps" # menu button ("Activities" button on GNOME, kicker button on # KDE). This is set up as a helper function because, for a while, # GNOME made the top bar translucent by default *and* we had an # animated background by default, which made doing this solely # with needle matches hard, so we had a workaround of trying to # open the overview with the super key and match on the app grid # icon. But GNOME has gone back to the top bar being a solid color # by default, so we don't have this problem any more and this is # back to just being a simple needle match. my %args = ( timeout => 30, @_ ); assert_screen "apps_menu_button", $args{timeout}; } sub download_modularity_tests { # Download the modularity test script, place in the system and then # modify the access rights to make it executable. my ($whitelist) = @_; # we need python3-yaml for the script to run assert_script_run 'dnf -y install python3-yaml', 180; assert_script_run 'curl -o /root/test.py https://pagure.io/fedora-qa/modularity_testing_scripts/raw/master/f/modular_functions.py'; if ($whitelist eq 'whitelist') { assert_script_run 'curl -o /root/whitelist https://pagure.io/fedora-qa/modularity_testing_scripts/raw/master/f/whitelist'; } assert_script_run 'chmod 755 /root/test.py'; } sub quit_firefox { # Quit Firefox, handling the 'close multiple tabs' warning screen if # it shows up send_key "ctrl-q"; # expect to get to either the tabs warning or a console if (check_screen ["user_console", "root_console", "firefox_close_tabs"], 30) { # if we hit the tabs warning, click it click_lastmatch if (match_has_tag "firefox_close_tabs"); } # it's a bit odd if we reach here, but could mean we quit to a # desktop, or the firefox_close_tabs needle went stale... } sub start_with_launcher { # Get the name of the needle with a launcher, find the launcher in the menu # and click on it to start the application. This function works for the # Gnome desktop. # $launcher holds the launcher needle, but some of the apps are hidden in a submenu # so this must be handled first to find the launcher needle. my ($launcher,$submenu,$group) = @_; $submenu //= ''; $group //= ''; my $desktop = get_var('DESKTOP'); my $item_to_check = $submenu || $launcher; # The following varies for different desktops. if ($desktop eq 'gnome') { # Start the Activities page send_key 'alt-f1'; wait_still_screen 5; # Click on the menu icon to come into the menus assert_and_click 'overview_app_grid'; wait_still_screen 5; # Find the application launcher in the current menu page. # If it cannot be found there, hit PageDown to go to another page. send_key_until_needlematch($item_to_check, 'pgdn', 5, 3); # If there was a submenu, click on that first. if ($submenu) { assert_and_click $submenu; wait_still_screen 5; } # Click on the launcher if (!check_screen($launcher)) { send_key_until_needlematch($launcher, 'down', 5, 6); } assert_and_click $launcher; wait_still_screen 5; } elsif ($desktop eq 'kde'){ # Click on the KDE launcher icon assert_and_click 'kde_menu_launcher'; wait_still_screen 2; # Select the appropriate submenu assert_and_click $submenu; wait_still_screen 2; # Select the appropriate menu subgroup where real launchers # are placed, but only if requested if ($group) { send_key_until_needlematch($group, 'down', 20, 3); send_key 'ret'; #assert_and_click $group; wait_still_screen 2; } # Find and click on the menu item to start the application send_key_until_needlematch($launcher, 'down', 40, 3); send_key 'ret'; wait_still_screen 5; } } sub quit_with_shortcut { # Quit the application using the Alt-F4 keyboard shortcut send_key 'alt-f4'; wait_still_screen 5; assert_screen 'workspace'; } sub lo_dismiss_tip { # identify and close a 'tip of the day' window that shows on start # of all LibreOffice apps. For the 'app startup' tests. assert_screen ["libreoffice_tip", "libreoffice_any"]; # we use check_screen here just in case both needles match and # libreoffice_any 'won' send_key 'esc' if (check_screen "libreoffice_tip", 2); } sub advisory_get_installed_packages { # For update tests (this only works if we've been through # _repo_setup_updates), figure out which packages from the update # are currently installed. This is here so we can do it both in # _advisory_post and post_fail_hook. return unless (get_var("_ADVISORY_REPO_DONE")); assert_script_run 'rpm -qa --qf "%{SOURCERPM} %{EPOCH} %{NAME}-%{VERSION}-%{RELEASE}\n" | sort -u > /tmp/allpkgs.txt'; # this finds lines which appear in both files # http://www.unix.com/unix-for-dummies-questions-and-answers/34549-find-matching-lines-between-2-files.html if (script_run 'comm -12 /tmp/allpkgs.txt /var/log/updatepkgs.txt > /var/log/testedpkgs.txt') { # occasionally, for some reason, it's unhappy about sorting; # we shouldn't fail the test in this case, just upload the # files so we can see why... upload_logs "/tmp/allpkgs.txt", failok=>1; upload_logs "/var/log/updatepkgs.txt", failok=>1; } # we'll try and upload the output even if comm 'failed', as it # does in fact still write it in some cases upload_logs "/var/log/testedpkgs.txt", failok=>1; } sub advisory_check_nonmatching_packages { # For update tests (this only works if we've been through # _repo_setup_updates), figure out if we have a different version # of any package from the update installed - this indicates a # problem, it likely means a dep issue meant dnf installed an # older version from the frozen release repo my %args = ( fatal => 1, @_ ); return unless (get_var("_ADVISORY_REPO_DONE")); # if this fails in advisory_post, we don't want to do it *again* # unnecessarily in post_fail_hook return if (get_var("_ACNMP_DONE")); script_run 'touch /tmp/installedupdatepkgs.txt'; # this creates /tmp/installedupdatepkgs.txt as a sorted list of installed # packages with the same name as packages from the update, in the same form # as /var/log/updatepkgs.txt. The 'tail -1' tries to handle the problem of # installonly packages like the kernel, where we wind up with *multiple* # versions installed after the update; I'm hoping the last line of output # for any given package is the most recent version, i.e. the one in the # update. script_run 'for pkg in $(cat /var/log/updatepkgnames.txt); do rpm -q $pkg && rpm -q $pkg --qf "%{SOURCERPM} %{EPOCH} %{NAME}-%{VERSION}-%{RELEASE}\n" | tail -1 >> /tmp/installedupdatepkgs.txt; done'; script_run 'sort -u -o /tmp/installedupdatepkgs.txt /tmp/installedupdatepkgs.txt'; # if any line appears in installedupdatepkgs.txt but not updatepkgs.txt, # we have a problem. if (script_run 'comm -23 /tmp/installedupdatepkgs.txt /var/log/updatepkgs.txt > /var/log/installednotupdatedpkgs.txt') { # occasionally, for some reason, it's unhappy about sorting; # we shouldn't fail the test in this case, just upload the # files so we can see why... upload_logs "/tmp/installedupdatepkgs.txt", failok=>1; upload_logs "/var/log/updatepkgs.txt", failok=>1; } # this exits 1 if the file is zero-length, 0 if it's longer # if it's 0, that's *BAD*: we want to upload the file and fail unless (script_run 'test -s /var/log/installednotupdatedpkgs.txt') { upload_logs "/var/log/installednotupdatedpkgs.txt", failok=>1; upload_logs "/var/log/updatepkgs.txt", failok=>1; my $message = "Package(s) from update not installed when it should have been! See installednotupdatedpkgs.txt"; if ($args{fatal}) { set_var("_ACNMP_DONE", "1"); die $message; } else { # if we're already in post_fail_hook, we don't want to die again record_info $message; } } } sub select_rescue_mode { # handle bootloader screen assert_screen "bootloader", 30; if (get_var('OFW')) { # select "rescue system" directly send_key "down"; send_key "down"; send_key "ret"; } else { # select troubleshooting send_key "down"; send_key "ret"; # select "rescue system" if (get_var('UEFI')) { send_key "down"; # we need this on aarch64 till #1661288 is resolved if (get_var('ARCH') eq 'aarch64') { send_key "e"; # duped with do_bootloader, sadly... for (1 .. 50) { send_key 'down'; } sleep 1; send_key 'up'; sleep 1; send_key 'up'; send_key "end"; type_safely " console=tty0"; send_key "ctrl-x"; } else { send_key "ret"; } } else { type_string "r\n"; } } assert_screen "rescue_select", 120; # it takes time to start anaconda } sub copy_devcdrom_as_isofile { # copy /dev/cdrom as iso file and verify checksum is same # as cdrom previously retrieved from ISO_URL my $isoname = shift; assert_script_run "dd if=/dev/cdrom of=$isoname", 360; # verify iso checksum my $cdurl = get_var('ISO_URL'); # ISO_URL may not be set if we POSTed manually or something; just assume # we're OK in that case return unless $cdurl; my $cmd = </tmp/x sha256sum -c /tmp/x EOF assert_script_run($_) foreach (split /\n/, $cmd); } sub bypass_1691487 { if (script_run 'echo "expected command supposed to be typed without error."') { record_soft_failure 'brc#1691487 bypass'; script_run 'echo "trial bypass dup chars brc#1691487"'; } } sub get_release_number { # return the release number; so usually VERSION, but for Rawhide, # we return RAWREL. This allows us to avoid constantly doing stuff # like `if ($version eq "Rawhide" || $version > 30)`. my $version = get_var("VERSION"); my $rawrel = get_var("RAWREL", "Rawhide"); return $rawrel if ($version eq "Rawhide"); return $version } sub tell_source { # This helper function identifies the Subvariant of the tested system. # For the purposes of identification testing, we are only interested # if the system is Workstation, Server, or something else, because, # except Workstation and Server, there are no graphical differences # between various spins and isos. my $iso = get_var('SUBVARIANT'); if ($iso eq 'Workstation' or $iso eq 'Server') { $iso = lc($iso); } elsif ($iso eq 'AtomicHost') { $iso = 'atomic'; } elsif ($iso eq 'Silverblue') { $iso = 'workstation'; } else { $iso = 'generic'; } return $iso; } sub check_left_bar { # This method is used by identification tests to check whether the Anaconda # bar on the left side of the screen corresponds with the correct version. # It looks different for Server, Workstation and others. my $source = tell_source; assert_screen "leftbar_${source}"; } sub check_top_bar { # This method is used by identification tests to check whether the # top bar in Anaconda corresponds with the correct version of the spin. my $source = tell_source; assert_screen "topbar_${source}"; } sub check_prerelease { # This method is used by identification tests to check if # Anaconda shows the PRERELEASE tag on various screens. These are # the rules anaconda follows for deciding whether to do this, as # of 2020-05-07: # 1. If there's a /.buildstamp and/or /tmp/product/.buildstamp file # the installer environment, and/or the environment variable # PRODBUILDPATH is set and points to a file that exists, it reads # config from those file(s), in that order of precedence, and if # the key 'IsFinal' exists in the section 'Main', its value is # used as anaconda's `product.isFinal`. Installer images built by # lorax have this buildstamp file, and it always sets IsFinal: if # --isfinal was passed to lorax it is set to True, if not it is set # to False. Whether lorax is run with --isfinal can be specified # in the Pungi config, but there's also a heuristic: it usually # defaults to False, but if the compose has a label and it's an # 'RC' or 'Update' or 'SecurityFix' compose (see definition of # SUPPORTED_MILESTONES in productmd.composeinfo), the default is # True. AFAICS, Fedora's pungi configs don't explicitly set this, # but rely on the heuristic. So for installer images, we expect # isFinal to be True for RC candidate composes and post-release # nightly Cloud, IoT etc. composes (these are also marked as 'RC' # composes), but False for Rawhide and Branched nightly composes # and Beta candidate composes. For installer images built by our # own _installer_build test, we control whether --isfinal is set # or not; we pass it if the update is for a stable release, we do # not pass it if the update is for Branched. Live images do not # have the buildstamp file. # 2. If there's no buildstamp file, the value of the environment # variable ANACONDA_ISFINAL is used as `product.isFinal`, default # of False if that environment var is not set. The live installer # wrapper script sets ANACONDA_ISFINAL based on the release field # of whatever package provides system-release: if it starts with # "0.", it sets ANACONA_ISFINAL to "false", otherwise it sets it # to "true". So for live images, we expect isFinal to be True # unless the fedora-release-common package release starts with 0. # 3. If `product.isFinal` is False, the pre-release warning and # tags are shown; if it is False, they are not shown. # We don't really need to check this stuff for update tests, as # the only installer images we test on updates are ones we build # ourselves; there's no value to this check for those really. # For compose tests, we will expect to see the pre-release tags if # the compose is Rawhide, or a Beta candidate, or it's a nightly # and we're checking an installer image. If it's an RC or Updates # candidate, or a respin release, we expect NOT to see the tags. # If it's a nightly and we're checking a live image, we don't do # the check. # bail if this is an update test return if (get_var("ADVISORY OR TASK")); # 0 means "tags MUST NOT be shown", 1 means "tags MUST be shown", # any other value means we don't care my $prerelease = 10; # if this is RC or update compose we absolutely *MUST NOT* see tags my $label = get_var("LABEL"); $prerelease = 0 if ($label =~ /^(RC|Update)-/); # if it's a Beta compose we *MUST* see tags $prerelease = 1 if ($label =~ /^Beta-/); my $version = get_var('VERSION'); # if it's Rawhide we *MUST* see tags $prerelease = 1 if ($version eq "Rawhide"); my $build = get_var('BUILD'); # if it's a nightly installer image we should see tags $prerelease = 1 if ($build =~ /\.n\.\d+/ && !get_var("LIVE")); # if it's a respin compose we *MUST NOT* see tags $prerelease = 0 if ($build =~ /Respin/); # we *could* go to a console and parse fedora-release-common # to decide if a nightly live image should have tags or not, but # it seems absurd as we're almost reinventing the code that # decides whether to show the tags, at that point, and it's not # really a big deal either way whether a nightly live image has # the tags or not. So we don't. # For all prerelease requiring ISOs, assert that prerelease is there. if ($prerelease == 1) { assert_screen "prerelease_note"; } elsif ($prerelease == 0) { # If the prerelease note is shown, where it should not be, die! if (check_screen "prerelease_note") { die "The PRERELEASE tag is shown, but it should NOT be."; } } } sub check_version { # This function checks if the correct version is display during installation # in Anaconda, i.e. nonlive media showing Rawhide when Rawhide and version numbers # when not Rawhide, while live media always showing version numbers. my $version = lc(get_var('VERSION')); if ($version eq 'rawhide' && get_var('LIVE')) { $version = get_var('RAWREL'); } assert_screen "version_${version}_ident"; } sub spell_version_number { my $version = shift; # spelt version of Rawhide is...Rawhide return "Rawhide" if ($version eq 'Rawhide'); my %ones = ( "0" => "Zero", "1" => "One", "2" => "Two", "3" => "Three", "4" => "Four", "5" => "Five", "6" => "Six", "7" => "Seven", "8" => "Eight", "9" => "Nine", ); my %tens = ( "2" => "Twenty", "3" => "Thirty", "4" => "Fourty", "5" => "Fifty", "6" => "Sixty", "7" => "Seventy", "8" => "Eighty", "9" => "Ninety", ); my $ten = substr($version, 0, 1); my $one = substr($version, 1, 1); my $speltnum = ""; if ($one eq "0") { $speltnum = "$tens{$ten}"; } else { $speltnum = "$tens{$ten} $ones{$one}"; } return $speltnum; } sub rec_log { my ($line, $condition, $failref, $filename) = @_; $filename ||= '/tmp/os-release.log'; if ($condition) { $line = "${line} - SUCCEEDED\n"; } else { push @$failref, $line; $line = "${line} - FAILED\n"; } script_run "echo \"$line\" >> $filename"; } sub click_unwanted_notifications { # there are a few KDE tests where at some point we want to click # on all visible 'update available' notifications (there can be # more than one, thanks to # https://bugzilla.redhat.com/show_bug.cgi?id=1730482 ) and the # buggy 'akonadi_migration_agent_running' popup if it's showing - # https://bugzilla.redhat.com/show_bug.cgi?id=1716005 # Returns an array indicating which notifications it closed wait_still_screen 5; my $count = 10; my @closed; while ($count > 0 && check_screen "desktop_update_notification_popup", 5) { $count -= 1; push (@closed, 'update'); click_lastmatch; } if (check_screen "akonadi_migration_agent_running", 5) { click_lastmatch; push (@closed, 'akonadi'); } return @closed; } # In each application test, when the application is started successfully, it # will register to the list of applications. sub register_application { my $application = shift; push(@application_list, $application); print("APPLICATION REGISTERED: $application \n"); } # The KDE desktop tests are very difficult to maintain, because the transparency # of the menu requires a lot of different needles to cover the elements. # Therefore it is useful to change the background to a solid colour. # Since many needles have been already created with a black background # we will keep it that way. The following code has been taken from the # KDE startstop tests but it is good to have it here, because it will be # needed more often now, it seems. sub solidify_wallpaper { my $desktop = get_var("DESKTOP"); if ($desktop eq "kde") { # Run the Desktop settings hold_key 'alt'; send_key 'd'; send_key 's'; release_key 'alt'; # Select type of background assert_and_click "deskset_select_type"; wait_still_screen 2; # Select plain color type assert_and_click "deskset_plain_color"; wait_still_screen 2; # Open colors selection assert_and_click "deskset_select_color"; wait_still_screen 2; # Select black assert_and_click "deskset_select_black"; wait_still_screen 2; # Confirm assert_and_click "kde_ok"; wait_still_screen 2; # Close the application assert_and_click "kde_ok"; } elsif ($desktop eq "gnome") { # Start the terminal to set up backgrounds. menu_launch_type "gnome-terminal"; # wait to be sure it's fully open wait_still_screen 5; # When the application opens, run command in it to set the background to black type_very_safely "gsettings set org.gnome.desktop.background picture-uri ''"; send_key 'ret'; wait_still_screen 2; type_very_safely "gsettings set org.gnome.desktop.background primary-color '#000000'"; send_key 'ret'; wait_still_screen 2; quit_with_shortcut(); # check that is has changed color assert_screen 'apps_settings_screen_black'; } } 1;