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use base "installedtest" ;
use strict ;
use testapi ;
use utils ;
# This test checks that the descriptions in /etc/os-release file are correct and that they
# match the current version.
sub strip_marks {
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# Remove the quotation marks from the string:
my $ string = shift ;
$ string =~ tr /"/ / d ;
return $ string ;
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}
sub run {
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# First, let us define some variables needed to run the program.
my $ self = shift ;
# The file to be checked
my $ filename = '/etc/os-release' ;
# Read the content of the file to compare. Let us parse the file
# and create a hash with those values, so that we can easily access
# them and assert them.
my $ infile = script_output "cat /etc/os-release" ;
my @ infile = split /\n/ , $ infile ;
my % content = ( ) ;
foreach ( @ infile ) {
chomp $ _ ;
my ( $ key , $ value ) = split /=/ , $ _ ;
$ content { $ key } = $ value ;
}
# Now, we have all the data ready and we can start testing, first let us get
# correct variables to compare the system data with.
# First, we know the basic stuff
# Should be "fedora"
my $ id = get_var ( "DISTRI" ) ;
# extract expected version components from ISO name for canned variants,
# which have their os-release rewritten by rpm-ostree, see:
# https://github.com/projectatomic/rpm-ostree/blob/master/docs/manual/treefile.md
# we use the ISO name because rpm-ostree uses elements from the compose
# ID for nightlies, but from the label for candidate composes; BUILD
# always gives us the compose ID, but the ISO name contains the compose
# ID for nightlies but the label for candidate composes, so it works for
# our purposes here.
my $ isovar = get_var ( "ISO" ) ;
# Split the ISO variable at "-" and read second-to-last (release
# number) and last (compose ID: date and respin, label: major and
# minor) fields.
my ( $ cannedver , $ cannednum ) = ( split /-/ , $ isovar ) [ - 2 , - 1 ] ;
# Get rid of the ".iso" part of the tag.
$ cannednum =~ s/\.iso//g ;
# Now, we merge the fields into one expression to create the correct canned tag
# that will contain both the version number and the build number.
my $ cannedtag = "$cannedver.$cannednum" ;
# If this is a CoreOS build, though, throw all that away and
# just use the build version
my $ build = get_var ( "BUILD" ) ;
if ( $ build =~ /^Fedora-CoreOS/ ) {
$ cannedtag = ( split /-/ , $ build ) [ - 1 ] ;
}
my $ name = ucfirst ( $ id ) ;
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my $ fullname = $ name . " Linux" ;
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my $ rawrel = get_var ( "RAWREL" , '' ) ;
# Should be the version number or Rawhide.
my $ version_id = get_var ( "VERSION" ) ;
# IoT has a branch that acts more or less like Rawhide, but has
# its version as the Rawhide release number, not 'Rawhide'. This
# handles that
$ version_id = 'Rawhide' if ( $ version_id eq $ rawrel ) ;
my $ varstr = spell_version_number ( $ version_id ) ;
my $ target = lc ( $ version_id ) ;
$ version_id = $ rawrel if ( $ version_id eq "Rawhide" ) ;
# the 'generic' os-release in fedora-release has no VARIANT or
# VARIANT_ID and the string used in values like VERSION, that in other
# cases is the VARIANT, is 'Rawhide' for Rawhide and the spelt version
# number for other releases. These are the values we'll see for an
# Everything image.
my $ variant_id = "" ;
my $ variant = "generic" ;
# now replace the values with the correct ones if we are testing a
# subvariant that maps to a known variant
my $ subvariant = get_var ( 'SUBVARIANT' ) ;
my % variants = (
Server = > [ "server" , "Server Edition" ] ,
Workstation = > [ "workstation" , "Workstation Edition" ] ,
AtomicHost = > [ "atomic.host" , "Atomic Host" ] ,
CoreOS = > [ "coreos" , "CoreOS" ] ,
KDE = > [ "kde" , "KDE Plasma" ] ,
Silverblue = > [ "silverblue" , "Silverblue" ] ,
IoT = > [ "iot" , "IoT Edition" ] ,
) ;
if ( exists ( $ variants { $ subvariant } ) ) {
( $ variant_id , $ variant ) = @ { $ variants { $ subvariant } } ;
$ varstr = $ variant ;
}
# If fedora-release-common release starts with a 0, we'll have
# "Prerelease" in varstr
my $ reltag = script_output 'rpm -q fedora-release-common --qf "%{RELEASE}\n"' ;
if ( index ( $ reltag , "0." ) == 0 ) {
$ varstr . = " Prerelease" ;
# ...however, we shouldn't just wave this through if we're
# an RC candidate or update compose, those should never be
# done with a 0.x fedora-release-common. so let's blow up
# here if so. unless it's IoT, because IoT is weird
my $ label = get_var ( "LABEL" ) ;
if ( $ label =~ /^(RC|Update)-/ && $ subvariant ne "IoT" ) {
die "RC candidate or update compose should not have 0.x versioned fedora-release!" ;
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}
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}
my $ version = "$version_id ($varstr)" ;
# for canned variants, we need to form a different string here by using
# the above created cannedtag. See earlier comment
if ( get_var ( "CANNED" ) ) {
$ version = "$cannedtag ($varstr)" ;
}
my $ platform_id = "platform:f$version_id" ;
my $ pretty = "$fullname $version_id ($varstr)" ;
# Same problem is when testing the PRETTY_NAME.
if ( get_var ( "CANNED" ) ) {
$ pretty = "$fullname $cannedtag ($varstr)" ;
# ...and FCOS uses a different format, sigh
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if ( $ build =~ /^Fedora-CoreOS/ ) {
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$ pretty = "Fedora CoreOS $cannedtag" ;
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}
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}
#Now. we can start testing the real values from the installed system.
my @ fails = ( ) ;
my $ failref = \ @ fails ;
# Test for name
my $ strip = strip_marks ( $ content { 'NAME' } ) ;
rec_log "NAME should be $fullname and is $strip" , $ strip eq $ fullname , $ failref ;
# Test for version.
$ strip = strip_marks ( $ content { 'VERSION' } ) ;
rec_log "VERSION should be $version and is $strip" , $ strip eq $ version , $ failref ;
# Test for version_id
rec_log "VERSION_ID should be $version_id and is $content{'VERSION_ID'}" , $ content { 'VERSION_ID' } eq $ version_id , $ failref ;
# Test for platform_id
$ strip = strip_marks ( $ content { 'PLATFORM_ID' } ) ;
rec_log "PLATFORM_ID should be $platform_id and is $strip" , $ strip eq $ platform_id , $ failref ;
# Test for pretty name
$ strip = strip_marks ( $ content { 'PRETTY_NAME' } ) ;
rec_log "PRETTY_NAME should be $pretty and is $strip" , $ strip eq $ pretty , $ failref ;
# Test for RH Bugzilla Product
$ strip = strip_marks ( $ content { 'REDHAT_BUGZILLA_PRODUCT' } ) ;
rec_log "REDHAT_BUGZILLA_PRODUCT should be $name and is $strip" , $ strip eq $ name , $ failref ;
# Test for RH Bugzilla Product Version
rec_log "REDHAT_BUGZILLA_PRODUCT_VERSION should be $target and is $content{'REDHAT_BUGZILLA_PRODUCT_VERSION'}" , $ content { 'REDHAT_BUGZILLA_PRODUCT_VERSION' } eq $ target , $ failref ;
# Test for RH Support Product
$ strip = strip_marks ( $ content { 'REDHAT_SUPPORT_PRODUCT' } ) ;
rec_log "REDHAT_SUPPORT_PRODUCT should be $name and is $strip" , $ strip eq $ name , $ failref ;
# Test for RH Support Product Version
rec_log "REDHAT_SUPPORT_PRODUCT_VERSION should be $target and is $content{'REDHAT_SUPPORT_PRODUCT_VERSION'}" , $ content { 'REDHAT_SUPPORT_PRODUCT_VERSION' } eq $ target , $ failref ;
# Test for Variant but only in case of Server or Workstation
if ( $ variant ne "generic" ) {
$ strip = strip_marks ( $ content { 'VARIANT' } ) ;
rec_log "VARIANT should be $variant and is $strip" , $ strip eq $ variant , $ failref ;
# Test for VARIANT_ID
rec_log "VARIANT_ID should be $variant_id and is $content{'VARIANT_ID'}" , $ content { 'VARIANT_ID' } eq $ variant_id , $ failref ;
}
else {
print "VARIANT was not tested because the compose is not Workstation or Server Edition.\n" ;
print "VARIANT_ID was not tested because the compose is not Workstation or Server Edition.\n" ;
}
# Check for fails, count them, collect their messages and die if something was found.
my $ failcount = scalar @ fails ;
script_run "echo \"There were $failcount failures in total.\" >> /tmp/os-release.log" ;
upload_logs "/tmp/os-release.log" , failok = > 1 ;
my $ failmessages = "" ;
foreach my $ fail ( @ fails ) {
$ failmessages . = "\n" . $ fail ;
}
die $ failmessages if ( $ failcount > 0 ) ;
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}
sub test_flags {
return { always_rollback = > 1 } ;
}
1 ;
# vim: set sw=4 et: