#!./perl -wT # This tests plain 'use locale' and adorned 'use locale ":not_characters"' # Because these pragmas are compile time, and I (khw) am trying to test # without using 'eval' as much as possible, which might cloud the issue, the # crucial parts of the code are duplicated in a block for each pragma. # Unfortunately, many systems have defective locale definitions. This test # file looks for both perl bugs and bugs in the system's locale definitions. # It can be difficult to tease apart which is which. For the latter, there # are tests that are based on the POSIX standard. A character isn't supposed # to be both a space and graphic, for example. Another example is if a # character is the uppercase of another, that other should be the lowercase of # the first. Including tests for these allows you to test for defective # locales, as described in perllocale. The way this file distinguishes # between defective locales, and perl bugs is to see what percentage of # locales fail a given test. If it's a lot, then it's more likely to be a # perl bug; only a few, those particular locales are likely defective. In # that case the failing tests are marked TODO. (They should be reported to # the vendor, however; but it's not perl's problem.) In some cases, this # script has caused tickets to be filed against perl which turn out to be the # platform's bug, but a higher percentage of locales are failing than the # built-in cut-off point. For those platforms, code has been added to # increase the cut-off, so those platforms don't trigger failing test reports. # Ideally, the platforms would get fixed and that code would be changed to # only kick-in when run on versions that are earlier than the fixed one. But, # this rarely happens in practice. # To make a TODO test, add the string 'TODO' to its %test_names value my $is_ebcdic = ord("A") == 193; my $os = lc $^O; no warnings 'locale'; # We test even weird locales; and do some scary things # in ok locales binmode STDOUT, ':utf8'; binmode STDERR, ':utf8'; BEGIN { chdir 't' if -d 't'; @INC = '../lib'; unshift @INC, '.'; require './loc_tools.pl'; unless (locales_enabled('LC_CTYPE')) { print "1..0\n"; exit; } $| = 1; require Config; import Config; } use strict; use feature 'fc'; # =1 adds debugging output; =2 increases the verbosity somewhat our $debug = $ENV{PERL_DEBUG_FULL_TEST} // 0; # Certain tests have been shown to be problematical for a few locales. Don't # fail them unless at least this percentage of the tested locales fail. # On AIX machines, many locales call a no-break space a graphic. # (There aren't 1000 locales currently in existence, so 99.9 works) # EBCDIC os390 has more locales fail than normal, because it has locales that # move various critical characters like '['. my $acceptable_failure_percentage = ($os =~ / ^ ( aix ) $ /x) ? 99.9 : ($os =~ / ^ ( os390 ) $ /x) ? 10 : 5; # The list of test numbers of the problematic tests. my %problematical_tests; # If any %problematical_tests fails in one of these locales, it is # considered a TODO. my %known_bad_locales = ( irix => qr/ ^ (?: cs | hu | sk ) $/x, darwin => qr/ ^ lt_LT.ISO8859 /ix, os390 => qr/ ^ italian /ix, netbsd => qr/\bISO8859-2\b/i, # This may be the same bug as the cygwin below; it's # generating malformed UTF-8 on the radix being # mulit-byte solaris => qr/ ^ ( ar_ | pa_ ) /x, ); # cygwin isn't returning proper radix length in this locale, but supposedly to # be fixed in later versions. if ($os eq 'cygwin' && version->new(($Config{osvers} =~ /^(\d+(?:\.\d+)+)/)[0]) le v2.4.1) { $known_bad_locales{'cygwin'} = qr/ ^ ps_AF /ix; } use Dumpvalue; my $dumper = Dumpvalue->new( tick => qq{"}, quoteHighBit => 0, unctrl => "quote" ); sub debug { return unless $debug; my($mess) = join "", '# ', @_; chomp $mess; print STDERR $dumper->stringify($mess,1), "\n"; } sub note { local $debug = 1; debug @_; } sub debug_more { return unless $debug > 1; return debug(@_); } sub debugf { printf STDERR @_ if $debug; } $a = 'abc %9'; my $test_num = 0; sub ok { my ($result, $message) = @_; $message = "" unless defined $message; print 'not ' unless ($result); print "ok " . ++$test_num; print " $message"; print "\n"; return ($result) ? 1 : 0; } sub skip { return ok 1, "skipped: " . shift; } sub fail { return ok 0, shift; } # First we'll do a lot of taint checking for locales. # This is the easiest to test, actually, as any locale, # even the default locale will taint under 'use locale'. sub is_tainted { # hello, camel two. no warnings 'uninitialized' ; my $dummy; local $@; not eval { $dummy = join("", @_), kill 0; 1 } } sub check_taint ($;$) { my $message_tail = $_[1] // ""; # Extra blanks are so aligns with taint_not output $message_tail = ": $message_tail" if $message_tail; ok is_tainted($_[0]), "verify that is tainted$message_tail"; } sub check_taint_not ($;$) { my $message_tail = $_[1] // ""; $message_tail = ": $message_tail" if $message_tail; ok((not is_tainted($_[0])), "verify that isn't tainted$message_tail"); } foreach my $category (qw(ALL COLLATE CTYPE MESSAGES MONETARY NUMERIC TIME)) { my $short_result = locales_enabled($category); ok ($short_result == 0 || $short_result == 1, "Verify locales_enabled('$category') returns 0 or 1"); debug("locales_enabled('$category') returned '$short_result'"); my $long_result = locales_enabled("LC_$category"); if (! ok ($long_result == $short_result, " and locales_enabled('LC_$category') returns " . "the same value") ) { debug("locales_enabled('LC_$category') returned $long_result"); } } "\tb\t" =~ /^m?(\s)(.*)\1$/; check_taint_not $&, "not tainted outside 'use locale'"; ; use locale; # engage locale and therefore locale taint. # BE SURE TO COPY ANYTHING YOU ADD to these tests to the block below for # ":notcharacters" check_taint_not $a, '$a'; check_taint uc($a), 'uc($a)'; check_taint "\U$a", '"\U$a"'; check_taint ucfirst($a), 'ucfirst($a)'; check_taint "\u$a", '"\u$a"'; check_taint lc($a), 'lc($a)'; check_taint fc($a), 'fc($a)'; check_taint "\L$a", '"\L$a"'; check_taint "\F$a", '"\F$a"'; check_taint lcfirst($a), 'lcfirst($a)'; check_taint "\l$a", '"\l$a"'; check_taint_not sprintf('%e', 123.456), "sprintf('%e', 123.456)"; check_taint_not sprintf('%f', 123.456), "sprintf('%f', 123.456)"; check_taint_not sprintf('%g', 123.456), "sprintf('%g', 123.456)"; check_taint_not sprintf('%d', 123.456), "sprintf('%d', 123.456)"; check_taint_not sprintf('%x', 123.456), "sprintf('%x', 123.456)"; $_ = $a; # untaint $_ $_ = uc($a); # taint $_ check_taint $_, '$_ = uc($a)'; /(\w)/; # taint $&, $`, $', $+, $1. check_taint $&, "\$& from /(\\w)/"; check_taint $`, "\t\$`"; check_taint $', "\t\$'"; check_taint $+, "\t\$+"; check_taint $1, "\t\$1"; check_taint_not $2, "\t\$2"; /(.)/; # untaint $&, $`, $', $+, $1. check_taint_not $&, "\$& from /(.)/"; check_taint_not $`, "\t\$`"; check_taint_not $', "\t\$'"; check_taint_not $+, "\t\$+"; check_taint_not $1, "\t\$1"; check_taint_not $2, "\t\$2"; /(\W)/; # taint $&, $`, $', $+, $1. check_taint $&, "\$& from /(\\W)/"; check_taint $`, "\t\$`"; check_taint $', "\t\$'"; check_taint $+, "\t\$+"; check_taint $1, "\t\$1"; check_taint_not $2, "\t\$2"; /(.)/; # untaint $&, $`, $', $+, $1. check_taint_not $&, "\$& from /(.)/"; check_taint_not $`, "\t\$`"; check_taint_not $', "\t\$'"; check_taint_not $+, "\t\$+"; check_taint_not $1, "\t\$1"; check_taint_not $2, "\t\$2"; /(\s)/; # taint $&, $`, $', $+, $1. check_taint $&, "\$& from /(\\s)/"; check_taint $`, "\t\$`"; check_taint $', "\t\$'"; check_taint $+, "\t\$+"; check_taint $1, "\t\$1"; check_taint_not $2, "\t\$2"; /(.)/; # untaint $&, $`, $', $+, $1. check_taint_not $&, "\$& from /(.)/"; /(\S)/; # taint $&, $`, $', $+, $1. check_taint $&, "\$& from /(\\S)/"; check_taint $`, "\t\$`"; check_taint $', "\t\$'"; check_taint $+, "\t\$+"; check_taint $1, "\t\$1"; check_taint_not $2, "\t\$2"; /(.)/; # untaint $&, $`, $', $+, $1. check_taint_not $&, "\$& from /(.)/"; "0" =~ /(\d)/; # taint $&, $`, $', $+, $1. check_taint $&, "\$& from /(\\d)/"; check_taint $`, "\t\$`"; check_taint $', "\t\$'"; check_taint $+, "\t\$+"; check_taint $1, "\t\$1"; check_taint_not $2, "\t\$2"; /(.)/; # untaint $&, $`, $', $+, $1. check_taint_not $&, "\$& from /(.)/"; /(\D)/; # taint $&, $`, $', $+, $1. check_taint $&, "\$& from /(\\D)/"; check_taint $`, "\t\$`"; check_taint $', "\t\$'"; check_taint $+, "\t\$+"; check_taint $1, "\t\$1"; check_taint_not $2, "\t\$2"; /(.)/; # untaint $&, $`, $', $+, $1. check_taint_not $&, "\$& from /(.)/"; /([[:alnum:]])/; # taint $&, $`, $', $+, $1. check_taint $&, "\$& from /([[:alnum:]])/"; check_taint $`, "\t\$`"; check_taint $', "\t\$'"; check_taint $+, "\t\$+"; check_taint $1, "\t\$1"; check_taint_not $2, "\t\$2"; /(.)/; # untaint $&, $`, $', $+, $1. check_taint_not $&, "\$& from /(.)/"; /([[:^alnum:]])/; # taint $&, $`, $', $+, $1. check_taint $&, "\$& from /([[:^alnum:]])/"; check_taint $`, "\t\$`"; check_taint $', "\t\$'"; check_taint $+, "\t\$+"; check_taint $1, "\t\$1"; check_taint_not $2, "\t\$2"; "a" =~ /(a)|(\w)/; # taint $&, $`, $', $+, $1. check_taint $&, "\$& from /(a)|(\\w)/"; check_taint $`, "\t\$`"; check_taint $', "\t\$'"; check_taint $+, "\t\$+"; check_taint $1, "\t\$1"; ok($1 eq 'a', ("\t" x 5) . "\$1 is 'a'"); ok(! defined $2, ("\t" x 5) . "\$2 is undefined"); check_taint_not $2, "\t\$2"; check_taint_not $3, "\t\$3"; /(.)/; # untaint $&, $`, $', $+, $1. check_taint_not $&, "\$& from /(.)/"; "\N{CYRILLIC SMALL LETTER A}" =~ /(\N{CYRILLIC CAPITAL LETTER A})/i; # no tainting because no locale dependence check_taint_not $&, "\$& from /(\\N{CYRILLIC CAPITAL LETTER A})/i"; check_taint_not $`, "\t\$`"; check_taint_not $', "\t\$'"; check_taint_not $+, "\t\$+"; check_taint_not $1, "\t\$1"; ok($1 eq "\N{CYRILLIC SMALL LETTER A}", ("\t" x 4) . "\t\$1 is 'small cyrillic a'"); check_taint_not $2, "\t\$2"; /(.)/; # untaint $&, $`, $', $+, $1. check_taint_not $&, "\$& from /./"; "(\N{KELVIN SIGN})" =~ /(\N{KELVIN SIGN})/i; # taints because depends on locale check_taint $&, "\$& from /(\\N{KELVIN SIGN})/i"; check_taint $`, "\t\$`"; check_taint $', "\t\$'"; check_taint $+, "\t\$+"; check_taint $1, "\t\$1"; check_taint_not $2, "\t\$2"; /(.)/; # untaint $&, $`, $', $+, $1. check_taint_not $&, "\$& from /(.)/"; "a:" =~ /(.)\b(.)/; # taint $&, $`, $', $+, $1. check_taint $&, "\$& from /(.)\\b(.)/"; check_taint $`, "\t\$`"; check_taint $', "\t\$'"; check_taint $+, "\t\$+"; check_taint $1, "\t\$1"; check_taint $2, "\t\$2"; check_taint_not $3, "\t\$3"; /(.)/; # untaint $&, $`, $', $+, $1. check_taint_not $&, "\$& from /./"; "aa" =~ /(.)\B(.)/; # taint $&, $`, $', $+, $1. check_taint $&, "\$& from /(.)\\B(.)/"; check_taint $`, "\t\$`"; check_taint $', "\t\$'"; check_taint $+, "\t\$+"; check_taint $1, "\t\$1"; check_taint $2, "\t\$2"; check_taint_not $3, "\t\$3"; /(.)/; # untaint $&, $`, $', $+, $1. check_taint_not $&, "\$& from /./"; "aaa" =~ /(.).(\1)/i; # notaint because not locale dependent check_taint_not $&, "\$ & from /(.).(\\1)/"; check_taint_not $`, "\t\$`"; check_taint_not $', "\t\$'"; check_taint_not $+, "\t\$+"; check_taint_not $1, "\t\$1"; check_taint_not $2, "\t\$2"; check_taint_not $3, "\t\$3"; /(.)/; # untaint $&, $`, $', $+, $1. check_taint_not $&, "\$ & from /./"; $_ = $a; # untaint $_ check_taint_not $_, 'untainting $_ works'; /(b)/; # this must not taint check_taint_not $&, "\$ & from /(b)/"; check_taint_not $`, "\t\$`"; check_taint_not $', "\t\$'"; check_taint_not $+, "\t\$+"; check_taint_not $1, "\t\$1"; check_taint_not $2, "\t\$2"; $_ = $a; # untaint $_ check_taint_not $_, 'untainting $_ works'; $b = uc($a); # taint $b s/(.+)/$b/; # this must taint only the $_ check_taint $_, '$_ (wasn\'t tainted) from s/(.+)/$b/ where $b is tainted'; check_taint_not $&, "\t\$&"; check_taint_not $`, "\t\$`"; check_taint_not $', "\t\$'"; check_taint_not $+, "\t\$+"; check_taint_not $1, "\t\$1"; check_taint_not $2, "\t\$2"; $_ = $a; # untaint $_ s/(.+)/b/; # this must not taint check_taint_not $_, '$_ (wasn\'t tainted) from s/(.+)/b/'; check_taint_not $&, "\t\$&"; check_taint_not $`, "\t\$`"; check_taint_not $', "\t\$'"; check_taint_not $+, "\t\$+"; check_taint_not $1, "\t\$1"; check_taint_not $2, "\t\$2"; $b = $a; # untaint $b ($b = $a) =~ s/\w/$&/; check_taint $b, '$b from ($b = $a) =~ s/\w/$&/'; # $b should be tainted. check_taint_not $a, '$a from ($b = $a) =~ s/\w/$&/'; # $a should be not. $_ = $a; # untaint $_ s/(\w)/\l$1/; # this must taint check_taint $_, '$_ (wasn\'t tainted) from s/(\w)/\l$1/,'; # this must taint check_taint $&, "\t\$&"; check_taint $`, "\t\$`"; check_taint $', "\t\$'"; check_taint $+, "\t\$+"; check_taint $1, "\t\$1"; check_taint_not $2, "\t\$2"; $_ = $a; # untaint $_ s/(\w)/\L$1/; # this must taint check_taint $_, '$_ (wasn\'t tainted) from s/(\w)/\L$1/,'; check_taint $&, "\t\$&"; check_taint $`, "\t\$`"; check_taint $', "\t\$'"; check_taint $+, "\t\$+"; check_taint $1, "\t\$1"; check_taint_not $2, "\t\$2"; $_ = $a; # untaint $_ s/(\w)/\u$1/; # this must taint check_taint $_, '$_ (wasn\'t tainted) from s/(\w)/\u$1/'; check_taint $&, "\t\$&"; check_taint $`, "\t\$`"; check_taint $', "\t\$'"; check_taint $+, "\t\$+"; check_taint $1, "\t\$1"; check_taint_not $2, "\t\$2"; $_ = $a; # untaint $_ s/(\w)/\U$1/; # this must taint check_taint $_, '$_ (wasn\'t tainted) from s/(\w)/\U$1/'; check_taint $&, "\t\$&"; check_taint $`, "\t\$`"; check_taint $', "\t\$'"; check_taint $+, "\t\$+"; check_taint $1, "\t\$1"; check_taint_not $2, "\t\$2"; # After all this tainting $a should be cool. check_taint_not $a, '$a still not tainted'; "a" =~ /([a-z])/; check_taint_not $1, '"a" =~ /([a-z])/'; "foo.bar_baz" =~ /^(.*)[._](.*?)$/; # Bug 120675 check_taint_not $1, '"foo.bar_baz" =~ /^(.*)[._](.*?)$/'; # BE SURE TO COPY ANYTHING YOU ADD to the block below { # This is just the previous tests copied here with a different # compile-time pragma. use locale ':not_characters'; # engage restricted locale with different # tainting rules check_taint_not $a, '$a'; check_taint_not uc($a), 'uc($a)'; check_taint_not "\U$a", '"\U$a"'; check_taint_not ucfirst($a), 'ucfirst($a)'; check_taint_not "\u$a", '"\u$a"'; check_taint_not lc($a), 'lc($a)'; check_taint_not fc($a), 'fc($a)'; check_taint_not "\L$a", '"\L$a"'; check_taint_not "\F$a", '"\F$a"'; check_taint_not lcfirst($a), 'lcfirst($a)'; check_taint_not "\l$a", '"\l$a"'; check_taint_not sprintf('%e', 123.456), "sprintf('%e', 123.456)"; check_taint_not sprintf('%f', 123.456), "sprintf('%f', 123.456)"; check_taint_not sprintf('%g', 123.456), "sprintf('%g', 123.456)"; check_taint_not sprintf('%d', 123.456), "sprintf('%d', 123.456)"; check_taint_not sprintf('%x', 123.456), "sprintf('%x', 123.456)"; $_ = $a; # untaint $_ $_ = uc($a); check_taint_not $_, '$_ = uc($a)'; /(\w)/; check_taint_not $&, "\$& from /(\\w)/"; check_taint_not $`, "\t\$`"; check_taint_not $', "\t\$'"; check_taint_not $+, "\t\$+"; check_taint_not $1, "\t\$1"; check_taint_not $2, "\t\$2"; /(.)/; # untaint $&, $`, $', $+, $1. check_taint_not $&, "\$& from /(.)/"; check_taint_not $`, "\t\$`"; check_taint_not $', "\t\$'"; check_taint_not $+, "\t\$+"; check_taint_not $1, "\t\$1"; check_taint_not $2, "\t\$2"; /(\W)/; check_taint_not $&, "\$& from /(\\W)/"; check_taint_not $`, "\t\$`"; check_taint_not $', "\t\$'"; check_taint_not $+, "\t\$+"; check_taint_not $1, "\t\$1"; check_taint_not $2, "\t\$2"; /(.)/; # untaint $&, $`, $', $+, $1. check_taint_not $&, "\$& from /(.)/"; check_taint_not $`, "\t\$`"; check_taint_not $', "\t\$'"; check_taint_not $+, "\t\$+"; check_taint_not $1, "\t\$1"; check_taint_not $2, "\t\$2"; /(\s)/; check_taint_not $&, "\$& from /(\\s)/"; check_taint_not $`, "\t\$`"; check_taint_not $', "\t\$'"; check_taint_not $+, "\t\$+"; check_taint_not $1, "\t\$1"; check_taint_not $2, "\t\$2"; /(.)/; # untaint $&, $`, $', $+, $1. check_taint_not $&, "\$& from /(.)/"; /(\S)/; check_taint_not $&, "\$& from /(\\S)/"; check_taint_not $`, "\t\$`"; check_taint_not $', "\t\$'"; check_taint_not $+, "\t\$+"; check_taint_not $1, "\t\$1"; check_taint_not $2, "\t\$2"; /(.)/; # untaint $&, $`, $', $+, $1. check_taint_not $&, "\$& from /(.)/"; "0" =~ /(\d)/; check_taint_not $&, "\$& from /(\\d)/"; check_taint_not $`, "\t\$`"; check_taint_not $', "\t\$'"; check_taint_not $+, "\t\$+"; check_taint_not $1, "\t\$1"; check_taint_not $2, "\t\$2"; /(.)/; # untaint $&, $`, $', $+, $1. check_taint_not $&, "\$& from /(.)/"; /(\D)/; check_taint_not $&, "\$& from /(\\D)/"; check_taint_not $`, "\t\$`"; check_taint_not $', "\t\$'"; check_taint_not $+, "\t\$+"; check_taint_not $1, "\t\$1"; check_taint_not $2, "\t\$2"; /(.)/; # untaint $&, $`, $', $+, $1. check_taint_not $&, "\$& from /(.)/"; /([[:alnum:]])/; check_taint_not $&, "\$& from /([[:alnum:]])/"; check_taint_not $`, "\t\$`"; check_taint_not $', "\t\$'"; check_taint_not $+, "\t\$+"; check_taint_not $1, "\t\$1"; check_taint_not $2, "\t\$2"; /(.)/; # untaint $&, $`, $', $+, $1. check_taint_not $&, "\$& from /(.)/"; /([[:^alnum:]])/; check_taint_not $&, "\$& from /([[:^alnum:]])/"; check_taint_not $`, "\t\$`"; check_taint_not $', "\t\$'"; check_taint_not $+, "\t\$+"; check_taint_not $1, "\t\$1"; check_taint_not $2, "\t\$2"; "a" =~ /(a)|(\w)/; check_taint_not $&, "\$& from /(a)|(\\w)/"; check_taint_not $`, "\t\$`"; check_taint_not $', "\t\$'"; check_taint_not $+, "\t\$+"; check_taint_not $1, "\t\$1"; ok($1 eq 'a', ("\t" x 5) . "\$1 is 'a'"); ok(! defined $2, ("\t" x 5) . "\$2 is undefined"); check_taint_not $2, "\t\$2"; check_taint_not $3, "\t\$3"; /(.)/; # untaint $&, $`, $', $+, $1. check_taint_not $&, "\$& from /(.)/"; "\N{CYRILLIC SMALL LETTER A}" =~ /(\N{CYRILLIC CAPITAL LETTER A})/i; check_taint_not $&, "\$& from /(\\N{CYRILLIC CAPITAL LETTER A})/i"; check_taint_not $`, "\t\$`"; check_taint_not $', "\t\$'"; check_taint_not $+, "\t\$+"; check_taint_not $1, "\t\$1"; ok($1 eq "\N{CYRILLIC SMALL LETTER A}", ("\t" x 4) . "\t\$1 is 'small cyrillic a'"); check_taint_not $2, "\t\$2"; /(.)/; # untaint $&, $`, $', $+, $1. check_taint_not $&, "\$& from /./"; "(\N{KELVIN SIGN})" =~ /(\N{KELVIN SIGN})/i; check_taint_not $&, "\$& from /(\\N{KELVIN SIGN})/i"; check_taint_not $`, "\t\$`"; check_taint_not $', "\t\$'"; check_taint_not $+, "\t\$+"; check_taint_not $1, "\t\$1"; check_taint_not $2, "\t\$2"; /(.)/; # untaint $&, $`, $', $+, $1. check_taint_not $&, "\$& from /(.)/"; "a:" =~ /(.)\b(.)/; check_taint_not $&, "\$& from /(.)\\b(.)/"; check_taint_not $`, "\t\$`"; check_taint_not $', "\t\$'"; check_taint_not $+, "\t\$+"; check_taint_not $1, "\t\$1"; check_taint_not $2, "\t\$2"; check_taint_not $3, "\t\$3"; /(.)/; # untaint $&, $`, $', $+, $1. check_taint_not $&, "\$& from /./"; "aa" =~ /(.)\B(.)/; check_taint_not $&, "\$& from /(.)\\B(.)/"; check_taint_not $`, "\t\$`"; check_taint_not $', "\t\$'"; check_taint_not $+, "\t\$+"; check_taint_not $1, "\t\$1"; check_taint_not $2, "\t\$2"; check_taint_not $3, "\t\$3"; /(.)/; # untaint $&, $`, $', $+, $1. check_taint_not $&, "\$& from /./"; "aaa" =~ /(.).(\1)/i; # notaint because not locale dependent check_taint_not $&, "\$ & from /(.).(\\1)/"; check_taint_not $`, "\t\$`"; check_taint_not $', "\t\$'"; check_taint_not $+, "\t\$+"; check_taint_not $1, "\t\$1"; check_taint_not $2, "\t\$2"; check_taint_not $3, "\t\$3"; /(.)/; # untaint $&, $`, $', $+, $1. check_taint_not $&, "\$ & from /./"; $_ = $a; # untaint $_ check_taint_not $_, 'untainting $_ works'; /(b)/; check_taint_not $&, "\$ & from /(b)/"; check_taint_not $`, "\t\$`"; check_taint_not $', "\t\$'"; check_taint_not $+, "\t\$+"; check_taint_not $1, "\t\$1"; check_taint_not $2, "\t\$2"; $_ = $a; # untaint $_ check_taint_not $_, 'untainting $_ works'; s/(.+)/b/; check_taint_not $_, '$_ (wasn\'t tainted) from s/(.+)/b/'; check_taint_not $&, "\t\$&"; check_taint_not $`, "\t\$`"; check_taint_not $', "\t\$'"; check_taint_not $+, "\t\$+"; check_taint_not $1, "\t\$1"; check_taint_not $2, "\t\$2"; $b = $a; # untaint $b ($b = $a) =~ s/\w/$&/; check_taint_not $b, '$b from ($b = $a) =~ s/\w/$&/'; check_taint_not $a, '$a from ($b = $a) =~ s/\w/$&/'; $_ = $a; # untaint $_ s/(\w)/\l$1/; check_taint_not $_, '$_ (wasn\'t tainted) from s/(\w)/\l$1/,'; # this must taint check_taint_not $&, "\t\$&"; check_taint_not $`, "\t\$`"; check_taint_not $', "\t\$'"; check_taint_not $+, "\t\$+"; check_taint_not $1, "\t\$1"; check_taint_not $2, "\t\$2"; $_ = $a; # untaint $_ s/(\w)/\L$1/; check_taint_not $_, '$_ (wasn\'t tainted) from s/(\w)/\L$1/,'; check_taint_not $&, "\t\$&"; check_taint_not $`, "\t\$`"; check_taint_not $', "\t\$'"; check_taint_not $+, "\t\$+"; check_taint_not $1, "\t\$1"; check_taint_not $2, "\t\$2"; $_ = $a; # untaint $_ s/(\w)/\u$1/; check_taint_not $_, '$_ (wasn\'t tainted) from s/(\w)/\u$1/'; check_taint_not $&, "\t\$&"; check_taint_not $`, "\t\$`"; check_taint_not $', "\t\$'"; check_taint_not $+, "\t\$+"; check_taint_not $1, "\t\$1"; check_taint_not $2, "\t\$2"; $_ = $a; # untaint $_ s/(\w)/\U$1/; check_taint_not $_, '$_ (wasn\'t tainted) from s/(\w)/\U$1/'; check_taint_not $&, "\t\$&"; check_taint_not $`, "\t\$`"; check_taint_not $', "\t\$'"; check_taint_not $+, "\t\$+"; check_taint_not $1, "\t\$1"; check_taint_not $2, "\t\$2"; # After all this tainting $a should be cool. check_taint_not $a, '$a still not tainted'; "a" =~ /([a-z])/; check_taint_not $1, '"a" =~ /([a-z])/'; "foo.bar_baz" =~ /^(.*)[._](.*?)$/; # Bug 120675 check_taint_not $1, '"foo.bar_baz" =~ /^(.*)[._](.*?)$/'; } # Here are in scope of 'use locale' # I think we've seen quite enough of taint. # Let us do some *real* locale work now, # unless setlocale() is missing (i.e. minitest). # The test number before our first setlocale() my $final_without_setlocale = $test_num; # Find locales. debug "Scanning for locales...\n"; require POSIX; import POSIX ':locale_h'; my $categories = [ 'LC_CTYPE', 'LC_NUMERIC', 'LC_ALL' ]; debug "Scanning for just compatible"; my @Locale = find_locales($categories); debug "Scanning for even incompatible"; my @include_incompatible_locales = find_locales($categories, 'even incompatible locales'); # The locales included in the incompatible list that aren't in the compatible # one. my @incompatible_locales; if (@Locale < @include_incompatible_locales) { my %seen; @seen{@Locale} = (); foreach my $item (@include_incompatible_locales) { push @incompatible_locales, $item unless exists $seen{$item}; } # For each bad locale, switch into it to find out why it's incompatible for my $bad_locale (@incompatible_locales) { my @warnings; use warnings 'locale'; local $SIG{__WARN__} = sub { my $warning = $_[0]; chomp $warning; push @warnings, ($warning =~ s/\n/\n# /sgr); }; debug "Trying incompatible $bad_locale"; my $ret = setlocale(&POSIX::LC_CTYPE, $bad_locale); my $message = "testing of locale '$bad_locale' is skipped"; if (@warnings) { skip $message . ":\n# " . join "\n# ", @warnings; } elsif (! $ret) { skip("$message:\n#" . " setlocale(&POSIX::LC_CTYPE, '$bad_locale') failed"); } else { fail $message . ", because it is was found to be incompatible with" . " Perl, but could not discern reason"; } } } debug "Locales =\n"; for ( @Locale ) { debug "$_\n"; } unless (@Locale) { print "1..$test_num\n"; exit; } setlocale(&POSIX::LC_ALL, "C"); my %posixes; my %Problem; my %Okay; my %Known_bad_locale; # Failed test for a locale known to be bad my %Testing; my @Added_alpha; # Alphas that aren't in the C locale. my %test_names; sub disp_chars { # This returns a display string denoting the input parameter @_, each # entry of which is a single character in the range 0-255. The first part # of the output is a string of the characters in @_ that are ASCII # graphics, and hence unambiguously displayable. They are given by code # point order. The second part is the remaining code points, the ordinals # of which are each displayed as 2-digit hex. Blanks are inserted so as # to keep anything from the first part looking like a 2-digit hex number. no locale; my @chars = sort { ord $a <=> ord $b } @_; my $output = ""; my $range_start; my $start_class; push @chars, chr(258); # This sentinel simplifies the loop termination # logic foreach my $i (0 .. @chars - 1) { my $char = $chars[$i]; my $range_end; my $class; # We avoid using [:posix:] classes, as these are being tested in this # file. Each equivalence class below is for things that can appear in # a range; those that can't be in a range have class -1. 0 for those # which should be output in hex; and >0 for the other ranges if ($char =~ /[A-Z]/) { $class = 2; } elsif ($char =~ /[a-z]/) { $class = 3; } elsif ($char =~ /[0-9]/) { $class = 4; } # Uncomment to get literal punctuation displayed instead of hex #elsif ($char =~ /[[\]!"#\$\%&\'()*+,.\/:\\;<=>?\@\^_`{|}~-]/) { # $class = -1; # Punct never appears in a range #} else { $class = 0; # Output in hex } if (! defined $range_start) { if ($class < 0) { $output .= " " . $char; } else { $range_start = ord $char; $start_class = $class; } } # A range ends if not consecutive, or the class-type changes elsif (ord $char != ($range_end = ord($chars[$i-1])) + 1 || $class != $start_class) { # Here, the current character is not in the range. This means the # previous character must have been. Output the range up through # that one. my $range_length = $range_end - $range_start + 1; if ($start_class > 0) { $output .= " " . chr($range_start); $output .= "-" . chr($range_end) if $range_length > 1; } else { $output .= sprintf(" %02X", $range_start); $output .= sprintf("-%02X", $range_end) if $range_length > 1; } # Handle the new current character, as potentially beginning a new # range undef $range_start; redo; } } $output =~ s/^ //; return $output; } sub disp_str ($) { my $string = shift; # Displays the string unambiguously. ASCII printables are always output # as-is, though perhaps separated by blanks from other characters. If # entirely printable ASCII, just returns the string. Otherwise if valid # UTF-8 it uses the character names for non-printable-ASCII. Otherwise it # outputs hex for each non-ASCII-printable byte. return $string if $string =~ / ^ [[:print:]]* $/xa; my $result = ""; my $prev_was_punct = 1; # Beginning is considered punct if (utf8::valid($string) && utf8::is_utf8($string)) { use charnames (); foreach my $char (split "", $string) { # Keep punctuation adjacent to other characters; otherwise # separate them with a blank if ($char =~ /[[:punct:]]/a) { $result .= $char; $prev_was_punct = 1; } elsif ($char =~ /[[:print:]]/a) { $result .= " " unless $prev_was_punct; $result .= $char; $prev_was_punct = 0; } else { $result .= " " unless $prev_was_punct; my $name = charnames::viacode(ord $char); $result .= (defined $name) ? $name : ':unknown:'; $prev_was_punct = 0; } } } else { use bytes; foreach my $char (split "", $string) { if ($char =~ /[[:punct:]]/a) { $result .= $char; $prev_was_punct = 1; } elsif ($char =~ /[[:print:]]/a) { $result .= " " unless $prev_was_punct; $result .= $char; $prev_was_punct = 0; } else { $result .= " " unless $prev_was_punct; $result .= sprintf("%02X", ord $char); $prev_was_punct = 0; } } } return $result; } sub report_result { my ($Locale, $i, $pass_fail, $message) = @_; if ($pass_fail) { push @{$Okay{$i}}, $Locale; } else { $message //= ""; $message = " ($message)" if $message; $Known_bad_locale{$i}{$Locale} = 1 if exists $known_bad_locales{$os} && $Locale =~ $known_bad_locales{$os}; $Problem{$i}{$Locale} = 1; debug "failed $i ($test_names{$i}) with locale '$Locale'$message\n"; } } sub report_multi_result { my ($Locale, $i, $results_ref) = @_; # $results_ref points to an array, each element of which is a character that was # in error for this test numbered '$i'. If empty, the test passed my $message = ""; if (@$results_ref) { $message = join " ", "for", disp_chars(@$results_ref); } report_result($Locale, $i, @$results_ref == 0, $message); } my $first_locales_test_number = $final_without_setlocale + 1 + @incompatible_locales; my $locales_test_number; my $not_necessarily_a_problem_test_number; my $first_casing_test_number; my %setlocale_failed; # List of locales that setlocale() didn't work on foreach my $Locale (@Locale) { $locales_test_number = $first_locales_test_number - 1; debug "\n"; debug "Locale = $Locale\n"; unless (setlocale(&POSIX::LC_ALL, $Locale)) { $setlocale_failed{$Locale} = $Locale; next; } # We test UTF-8 locales only under ':not_characters'; It is easier to # test them in other test files than here. Non- UTF-8 locales are tested # only under plain 'use locale', as otherwise we would have to convert # everything in them to Unicode. my %UPPER = (); # All alpha X for which uc(X) == X and lc(X) != X my %lower = (); # All alpha X for which lc(X) == X and uc(X) != X my %BoThCaSe = (); # All alpha X for which uc(X) == lc(X) == X my $is_utf8_locale = is_locale_utf8($Locale); debug "is utf8 locale? = $is_utf8_locale\n"; debug "radix = " . disp_str(localeconv()->{decimal_point}) . "\n"; if (! $is_utf8_locale) { use locale; @{$posixes{'word'}} = grep /\w/, map { chr } 0..255; @{$posixes{'digit'}} = grep /\d/, map { chr } 0..255; @{$posixes{'space'}} = grep /\s/, map { chr } 0..255; @{$posixes{'alpha'}} = grep /[[:alpha:]]/, map {chr } 0..255; @{$posixes{'alnum'}} = grep /[[:alnum:]]/, map {chr } 0..255; @{$posixes{'ascii'}} = grep /[[:ascii:]]/, map {chr } 0..255; @{$posixes{'blank'}} = grep /[[:blank:]]/, map {chr } 0..255; @{$posixes{'cntrl'}} = grep /[[:cntrl:]]/, map {chr } 0..255; @{$posixes{'graph'}} = grep /[[:graph:]]/, map {chr } 0..255; @{$posixes{'lower'}} = grep /[[:lower:]]/, map {chr } 0..255; @{$posixes{'print'}} = grep /[[:print:]]/, map {chr } 0..255; @{$posixes{'punct'}} = grep /[[:punct:]]/, map {chr } 0..255; @{$posixes{'upper'}} = grep /[[:upper:]]/, map {chr } 0..255; @{$posixes{'xdigit'}} = grep /[[:xdigit:]]/, map {chr } 0..255; @{$posixes{'cased'}} = grep /[[:upper:][:lower:]]/i, map {chr } 0..255; # Sieve the uppercase and the lowercase. for (@{$posixes{'word'}}) { if (/[^\d_]/) { # skip digits and the _ if (uc($_) eq $_) { $UPPER{$_} = $_; } if (lc($_) eq $_) { $lower{$_} = $_; } } } } else { use locale ':not_characters'; @{$posixes{'word'}} = grep /\w/, map { chr } 0..255; @{$posixes{'digit'}} = grep /\d/, map { chr } 0..255; @{$posixes{'space'}} = grep /\s/, map { chr } 0..255; @{$posixes{'alpha'}} = grep /[[:alpha:]]/, map {chr } 0..255; @{$posixes{'alnum'}} = grep /[[:alnum:]]/, map {chr } 0..255; @{$posixes{'ascii'}} = grep /[[:ascii:]]/, map {chr } 0..255; @{$posixes{'blank'}} = grep /[[:blank:]]/, map {chr } 0..255; @{$posixes{'cntrl'}} = grep /[[:cntrl:]]/, map {chr } 0..255; @{$posixes{'graph'}} = grep /[[:graph:]]/, map {chr } 0..255; @{$posixes{'lower'}} = grep /[[:lower:]]/, map {chr } 0..255; @{$posixes{'print'}} = grep /[[:print:]]/, map {chr } 0..255; @{$posixes{'punct'}} = grep /[[:punct:]]/, map {chr } 0..255; @{$posixes{'upper'}} = grep /[[:upper:]]/, map {chr } 0..255; @{$posixes{'xdigit'}} = grep /[[:xdigit:]]/, map {chr } 0..255; @{$posixes{'cased'}} = grep /[[:upper:][:lower:]]/i, map {chr } 0..255; for (@{$posixes{'word'}}) { if (/[^\d_]/) { # skip digits and the _ if (uc($_) eq $_) { $UPPER{$_} = $_; } if (lc($_) eq $_) { $lower{$_} = $_; } } } } # Ordered, where possible, in groups of "this is a subset of the next # one" debug ":upper: = ", disp_chars(@{$posixes{'upper'}}), "\n"; debug ":lower: = ", disp_chars(@{$posixes{'lower'}}), "\n"; debug ":cased: = ", disp_chars(@{$posixes{'cased'}}), "\n"; debug ":alpha: = ", disp_chars(@{$posixes{'alpha'}}), "\n"; debug ":alnum: = ", disp_chars(@{$posixes{'alnum'}}), "\n"; debug ' \w = ', disp_chars(@{$posixes{'word'}}), "\n"; debug ":graph: = ", disp_chars(@{$posixes{'graph'}}), "\n"; debug ":print: = ", disp_chars(@{$posixes{'print'}}), "\n"; debug ' \d = ', disp_chars(@{$posixes{'digit'}}), "\n"; debug ":xdigit: = ", disp_chars(@{$posixes{'xdigit'}}), "\n"; debug ":blank: = ", disp_chars(@{$posixes{'blank'}}), "\n"; debug ' \s = ', disp_chars(@{$posixes{'space'}}), "\n"; debug ":punct: = ", disp_chars(@{$posixes{'punct'}}), "\n"; debug ":cntrl: = ", disp_chars(@{$posixes{'cntrl'}}), "\n"; debug ":ascii: = ", disp_chars(@{$posixes{'ascii'}}), "\n"; foreach (keys %UPPER) { $BoThCaSe{$_}++ if exists $lower{$_}; } foreach (keys %lower) { $BoThCaSe{$_}++ if exists $UPPER{$_}; } foreach (keys %BoThCaSe) { delete $UPPER{$_}; delete $lower{$_}; } my %Unassigned; foreach my $ord ( 0 .. 255 ) { $Unassigned{chr $ord} = 1; } foreach my $class (keys %posixes) { foreach my $char (@{$posixes{$class}}) { delete $Unassigned{$char}; } } debug "UPPER = ", disp_chars(sort { ord $a <=> ord $b } keys %UPPER), "\n"; debug "lower = ", disp_chars(sort { ord $a <=> ord $b } keys %lower), "\n"; debug "BoThCaSe = ", disp_chars(sort { ord $a <=> ord $b } keys %BoThCaSe), "\n"; debug "Unassigned = ", disp_chars(sort { ord $a <=> ord $b } keys %Unassigned), "\n"; my @failures; my @fold_failures; foreach my $x (sort { ord $a <=> ord $b } keys %UPPER) { my $ok; my $fold_ok; if ($is_utf8_locale) { use locale ':not_characters'; $ok = $x =~ /[[:upper:]]/; $fold_ok = $x =~ /[[:lower:]]/i; } else { use locale; $ok = $x =~ /[[:upper:]]/; $fold_ok = $x =~ /[[:lower:]]/i; } push @failures, $x unless $ok; push @fold_failures, $x unless $fold_ok; } $locales_test_number++; $first_casing_test_number = $locales_test_number; $test_names{$locales_test_number} = 'Verify that /[[:upper:]]/ matches all alpha X for which uc(X) == X and lc(X) != X'; report_multi_result($Locale, $locales_test_number, \@failures); $locales_test_number++; $test_names{$locales_test_number} = 'Verify that /[[:lower:]]/i matches all alpha X for which uc(X) == X and lc(X) != X'; report_multi_result($Locale, $locales_test_number, \@fold_failures); undef @failures; undef @fold_failures; foreach my $x (sort { ord $a <=> ord $b } keys %lower) { my $ok; my $fold_ok; if ($is_utf8_locale) { use locale ':not_characters'; $ok = $x =~ /[[:lower:]]/; $fold_ok = $x =~ /[[:upper:]]/i; } else { use locale; $ok = $x =~ /[[:lower:]]/; $fold_ok = $x =~ /[[:upper:]]/i; } push @failures, $x unless $ok; push @fold_failures, $x unless $fold_ok; } $locales_test_number++; $test_names{$locales_test_number} = 'Verify that /[[:lower:]]/ matches all alpha X for which lc(X) == X and uc(X) != X'; report_multi_result($Locale, $locales_test_number, \@failures); $locales_test_number++; $test_names{$locales_test_number} = 'Verify that /[[:upper:]]/i matches all alpha X for which lc(X) == X and uc(X) != X'; report_multi_result($Locale, $locales_test_number, \@fold_failures); { # Find the alphabetic characters that are not considered alphabetics # in the default (C) locale. no locale; @Added_alpha = (); for (keys %UPPER, keys %lower, keys %BoThCaSe) { push(@Added_alpha, $_) if (/\W/); } } @Added_alpha = sort { ord $a <=> ord $b } @Added_alpha; debug "Added_alpha = ", disp_chars(@Added_alpha), "\n"; # Cross-check the whole 8-bit character set. ++$locales_test_number; my @f; $test_names{$locales_test_number} = 'Verify that \w and [:word:] are identical'; for (map { chr } 0..255) { if ($is_utf8_locale) { use locale ':not_characters'; push @f, $_ unless /[[:word:]]/ == /\w/; } else { push @f, $_ unless /[[:word:]]/ == /\w/; } } report_multi_result($Locale, $locales_test_number, \@f); ++$locales_test_number; undef @f; $test_names{$locales_test_number} = 'Verify that \d and [:digit:] are identical'; for (map { chr } 0..255) { if ($is_utf8_locale) { use locale ':not_characters'; push @f, $_ unless /[[:digit:]]/ == /\d/; } else { push @f, $_ unless /[[:digit:]]/ == /\d/; } } report_multi_result($Locale, $locales_test_number, \@f); ++$locales_test_number; undef @f; $test_names{$locales_test_number} = 'Verify that \s and [:space:] are identical'; for (map { chr } 0..255) { if ($is_utf8_locale) { use locale ':not_characters'; push @f, $_ unless /[[:space:]]/ == /\s/; } else { push @f, $_ unless /[[:space:]]/ == /\s/; } } report_multi_result($Locale, $locales_test_number, \@f); ++$locales_test_number; undef @f; $test_names{$locales_test_number} = 'Verify that [:posix:] and [:^posix:] are mutually exclusive'; for (map { chr } 0..255) { if ($is_utf8_locale) { use locale ':not_characters'; push @f, $_ unless (/[[:alpha:]]/ xor /[[:^alpha:]]/) || (/[[:alnum:]]/ xor /[[:^alnum:]]/) || (/[[:ascii:]]/ xor /[[:^ascii:]]/) || (/[[:blank:]]/ xor /[[:^blank:]]/) || (/[[:cntrl:]]/ xor /[[:^cntrl:]]/) || (/[[:digit:]]/ xor /[[:^digit:]]/) || (/[[:graph:]]/ xor /[[:^graph:]]/) || (/[[:lower:]]/ xor /[[:^lower:]]/) || (/[[:print:]]/ xor /[[:^print:]]/) || (/[[:space:]]/ xor /[[:^space:]]/) || (/[[:upper:]]/ xor /[[:^upper:]]/) || (/[[:word:]]/ xor /[[:^word:]]/) || (/[[:xdigit:]]/ xor /[[:^xdigit:]]/) || # effectively is what [:cased:] would be if it existed. (/[[:upper:][:lower:]]/i xor /[^[:upper:][:lower:]]/i); } else { push @f, $_ unless (/[[:alpha:]]/ xor /[[:^alpha:]]/) || (/[[:alnum:]]/ xor /[[:^alnum:]]/) || (/[[:ascii:]]/ xor /[[:^ascii:]]/) || (/[[:blank:]]/ xor /[[:^blank:]]/) || (/[[:cntrl:]]/ xor /[[:^cntrl:]]/) || (/[[:digit:]]/ xor /[[:^digit:]]/) || (/[[:graph:]]/ xor /[[:^graph:]]/) || (/[[:lower:]]/ xor /[[:^lower:]]/) || (/[[:print:]]/ xor /[[:^print:]]/) || (/[[:space:]]/ xor /[[:^space:]]/) || (/[[:upper:]]/ xor /[[:^upper:]]/) || (/[[:word:]]/ xor /[[:^word:]]/) || (/[[:xdigit:]]/ xor /[[:^xdigit:]]/) || (/[[:upper:][:lower:]]/i xor /[^[:upper:][:lower:]]/i); } } report_multi_result($Locale, $locales_test_number, \@f); # The rules for the relationships are given in: # http://www.opengroup.org/onlinepubs/009695399/basedefs/xbd_chap07.html ++$locales_test_number; undef @f; $test_names{$locales_test_number} = 'Verify that [:lower:] contains at least a-z'; for ('a' .. 'z') { if ($is_utf8_locale) { use locale ':not_characters'; push @f, $_ unless /[[:lower:]]/; } else { push @f, $_ unless /[[:lower:]]/; } } report_multi_result($Locale, $locales_test_number, \@f); ++$locales_test_number; undef @f; $test_names{$locales_test_number} = 'Verify that [:lower:] is a subset of [:alpha:]'; for (map { chr } 0..255) { if ($is_utf8_locale) { use locale ':not_characters'; push @f, $_ if /[[:lower:]]/ and ! /[[:alpha:]]/; } else { push @f, $_ if /[[:lower:]]/ and ! /[[:alpha:]]/; } } report_multi_result($Locale, $locales_test_number, \@f); ++$locales_test_number; undef @f; $test_names{$locales_test_number} = 'Verify that [:upper:] contains at least A-Z'; for ('A' .. 'Z') { if ($is_utf8_locale) { use locale ':not_characters'; push @f, $_ unless /[[:upper:]]/; } else { push @f, $_ unless /[[:upper:]]/; } } report_multi_result($Locale, $locales_test_number, \@f); ++$locales_test_number; undef @f; $test_names{$locales_test_number} = 'Verify that [:upper:] is a subset of [:alpha:]'; for (map { chr } 0..255) { if ($is_utf8_locale) { use locale ':not_characters'; push @f, $_ if /[[:upper:]]/ and ! /[[:alpha:]]/; } else { push @f, $_ if /[[:upper:]]/ and ! /[[:alpha:]]/; } } report_multi_result($Locale, $locales_test_number, \@f); ++$locales_test_number; undef @f; $test_names{$locales_test_number} = 'Verify that /[[:lower:]]/i is a subset of [:alpha:]'; for (map { chr } 0..255) { if ($is_utf8_locale) { use locale ':not_characters'; push @f, $_ if /[[:lower:]]/i and ! /[[:alpha:]]/; } else { push @f, $_ if /[[:lower:]]/i and ! /[[:alpha:]]/; } } report_multi_result($Locale, $locales_test_number, \@f); ++$locales_test_number; undef @f; $test_names{$locales_test_number} = 'Verify that [:alpha:] is a subset of [:alnum:]'; for (map { chr } 0..255) { if ($is_utf8_locale) { use locale ':not_characters'; push @f, $_ if /[[:alpha:]]/ and ! /[[:alnum:]]/; } else { push @f, $_ if /[[:alpha:]]/ and ! /[[:alnum:]]/; } } report_multi_result($Locale, $locales_test_number, \@f); ++$locales_test_number; undef @f; $test_names{$locales_test_number} = 'Verify that [:digit:] contains at least 0-9'; for ('0' .. '9') { if ($is_utf8_locale) { use locale ':not_characters'; push @f, $_ unless /[[:digit:]]/; } else { push @f, $_ unless /[[:digit:]]/; } } report_multi_result($Locale, $locales_test_number, \@f); ++$locales_test_number; undef @f; $test_names{$locales_test_number} = 'Verify that [:digit:] is a subset of [:alnum:]'; for (map { chr } 0..255) { if ($is_utf8_locale) { use locale ':not_characters'; push @f, $_ if /[[:digit:]]/ and ! /[[:alnum:]]/; } else { push @f, $_ if /[[:digit:]]/ and ! /[[:alnum:]]/; } } report_multi_result($Locale, $locales_test_number, \@f); ++$locales_test_number; undef @f; $test_names{$locales_test_number} = 'Verify that [:digit:] matches either 10 or 20 code points'; report_result($Locale, $locales_test_number, @{$posixes{'digit'}} == 10 || @{$posixes{'digit'}} == 20); ++$locales_test_number; undef @f; $test_names{$locales_test_number} = 'Verify that if there is a second set of digits in [:digit:], they are consecutive'; if (@{$posixes{'digit'}} == 20) { my $previous_ord; for (map { chr } 0..255) { next unless /[[:digit:]]/; next if /[0-9]/; if (defined $previous_ord) { if ($is_utf8_locale) { use locale ':not_characters'; push @f, $_ if ord $_ != $previous_ord + 1; } else { push @f, $_ if ord $_ != $previous_ord + 1; } } $previous_ord = ord $_; } } report_multi_result($Locale, $locales_test_number, \@f); ++$locales_test_number; undef @f; my @xdigit_digits; # :digit: & :xdigit: $test_names{$locales_test_number} = 'Verify that [:xdigit:] contains one or two blocks of 10 consecutive [:digit:] chars'; for (map { chr } 0..255) { if ($is_utf8_locale) { use locale ':not_characters'; # For utf8 locales, we actually use a stricter test: that :digit: # is a subset of :xdigit:, as we know that only 0-9 should match push @f, $_ if /[[:digit:]]/ and ! /[[:xdigit:]]/; } else { push @xdigit_digits, $_ if /[[:digit:]]/ and /[[:xdigit:]]/; } } if (! $is_utf8_locale) { # For non-utf8 locales, @xdigit_digits is a list of the characters # that are both :xdigit: and :digit:. Because :digit: is stored in # increasing code point order (unless the tests above failed), # @xdigit_digits is as well. There should be exactly 10 or # 20 of these. if (@xdigit_digits != 10 && @xdigit_digits != 20) { @f = @xdigit_digits; } else { # Look for contiguity in the series, adding any wrong ones to @f my @temp = @xdigit_digits; while (@temp > 1) { push @f, $temp[1] if ($temp[0] != $temp[1] - 1) # Skip this test for the 0th character of # the second block of 10, as it won't be # contiguous with the previous block && (! defined $xdigit_digits[10] || $temp[1] != $xdigit_digits[10]); shift @temp; } } } report_multi_result($Locale, $locales_test_number, \@f); ++$locales_test_number; undef @f; $test_names{$locales_test_number} = 'Verify that [:xdigit:] contains at least A-F, a-f'; for ('A' .. 'F', 'a' .. 'f') { if ($is_utf8_locale) { use locale ':not_characters'; push @f, $_ unless /[[:xdigit:]]/; } else { push @f, $_ unless /[[:xdigit:]]/; } } report_multi_result($Locale, $locales_test_number, \@f); ++$locales_test_number; undef @f; $test_names{$locales_test_number} = 'Verify that any additional members of [:xdigit:], are in groups of 6 consecutive code points'; my $previous_ord; my $count = 0; for my $chr (map { chr } 0..255) { next unless $chr =~ /[[:xdigit:]]/; if ($is_utf8_locale) { next if $chr =~ /[[:digit:]]/; } else { next if grep { $chr eq $_ } @xdigit_digits; } next if $chr =~ /[A-Fa-f]/; if (defined $previous_ord) { if ($is_utf8_locale) { use locale ':not_characters'; push @f, $chr if ord $chr != $previous_ord + 1; } else { push @f, $chr if ord $chr != $previous_ord + 1; } } $count++; if ($count == 6) { undef $previous_ord; } else { $previous_ord = ord $chr; } } report_multi_result($Locale, $locales_test_number, \@f); ++$locales_test_number; undef @f; $test_names{$locales_test_number} = 'Verify that [:xdigit:] is a subset of [:graph:]'; for (map { chr } 0..255) { if ($is_utf8_locale) { use locale ':not_characters'; push @f, $_ if /[[:xdigit:]]/ and ! /[[:graph:]]/; } else { push @f, $_ if /[[:xdigit:]]/ and ! /[[:graph:]]/; } } report_multi_result($Locale, $locales_test_number, \@f); # Note that xdigit doesn't have to be a subset of alnum ++$locales_test_number; undef @f; $test_names{$locales_test_number} = 'Verify that [:punct:] is a subset of [:graph:]'; for (map { chr } 0..255) { if ($is_utf8_locale) { use locale ':not_characters'; push @f, $_ if /[[:punct:]]/ and ! /[[:graph:]]/; } else { push @f, $_ if /[[:punct:]]/ and ! /[[:graph:]]/; } } report_multi_result($Locale, $locales_test_number, \@f); ++$locales_test_number; undef @f; $test_names{$locales_test_number} = 'Verify that the space character is not in [:graph:]'; if ($is_utf8_locale) { use locale ':not_characters'; push @f, " " if " " =~ /[[:graph:]]/; } else { push @f, " " if " " =~ /[[:graph:]]/; } report_multi_result($Locale, $locales_test_number, \@f); ++$locales_test_number; undef @f; $test_names{$locales_test_number} = 'Verify that [:space:] contains at least [\f\n\r\t\cK ]'; for (' ', "\f", "\n", "\r", "\t", "\cK") { if ($is_utf8_locale) { use locale ':not_characters'; push @f, $_ unless /[[:space:]]/; } else { push @f, $_ unless /[[:space:]]/; } } report_multi_result($Locale, $locales_test_number, \@f); ++$locales_test_number; undef @f; $test_names{$locales_test_number} = 'Verify that [:blank:] contains at least [\t ]'; for (' ', "\t") { if ($is_utf8_locale) { use locale ':not_characters'; push @f, $_ unless /[[:blank:]]/; } else { push @f, $_ unless /[[:blank:]]/; } } report_multi_result($Locale, $locales_test_number, \@f); ++$locales_test_number; undef @f; $test_names{$locales_test_number} = 'Verify that [:blank:] is a subset of [:space:]'; for (map { chr } 0..255) { if ($is_utf8_locale) { use locale ':not_characters'; push @f, $_ if /[[:blank:]]/ and ! /[[:space:]]/; } else { push @f, $_ if /[[:blank:]]/ and ! /[[:space:]]/; } } report_multi_result($Locale, $locales_test_number, \@f); ++$locales_test_number; undef @f; $test_names{$locales_test_number} = 'Verify that [:graph:] is a subset of [:print:]'; for (map { chr } 0..255) { if ($is_utf8_locale) { use locale ':not_characters'; push @f, $_ if /[[:graph:]]/ and ! /[[:print:]]/; } else { push @f, $_ if /[[:graph:]]/ and ! /[[:print:]]/; } } report_multi_result($Locale, $locales_test_number, \@f); ++$locales_test_number; undef @f; $test_names{$locales_test_number} = 'Verify that the space character is in [:print:]'; if ($is_utf8_locale) { use locale ':not_characters'; push @f, " " if " " !~ /[[:print:]]/; } else { push @f, " " if " " !~ /[[:print:]]/; } report_multi_result($Locale, $locales_test_number, \@f); ++$locales_test_number; undef @f; $test_names{$locales_test_number} = 'Verify that isn\'t both [:cntrl:] and [:print:]'; for (map { chr } 0..255) { if ($is_utf8_locale) { use locale ':not_characters'; push @f, $_ if (/[[:print:]]/ and /[[:cntrl:]]/); } else { push @f, $_ if (/[[:print:]]/ and /[[:cntrl:]]/); } } report_multi_result($Locale, $locales_test_number, \@f); ++$locales_test_number; undef @f; $test_names{$locales_test_number} = 'Verify that isn\'t both [:alpha:] and [:digit:]'; for (map { chr } 0..255) { if ($is_utf8_locale) { use locale ':not_characters'; push @f, $_ if /[[:alpha:]]/ and /[[:digit:]]/; } else { push @f, $_ if /[[:alpha:]]/ and /[[:digit:]]/; } } report_multi_result($Locale, $locales_test_number, \@f); ++$locales_test_number; undef @f; $test_names{$locales_test_number} = 'Verify that isn\'t both [:alnum:] and [:punct:]'; for (map { chr } 0..255) { if ($is_utf8_locale) { use locale ':not_characters'; push @f, $_ if /[[:alnum:]]/ and /[[:punct:]]/; } else { push @f, $_ if /[[:alnum:]]/ and /[[:punct:]]/; } } report_multi_result($Locale, $locales_test_number, \@f); ++$locales_test_number; undef @f; $test_names{$locales_test_number} = 'Verify that isn\'t both [:xdigit:] and [:punct:]'; for (map { chr } 0..255) { if ($is_utf8_locale) { use locale ':not_characters'; push @f, $_ if (/[[:punct:]]/ and /[[:xdigit:]]/); } else { push @f, $_ if (/[[:punct:]]/ and /[[:xdigit:]]/); } } report_multi_result($Locale, $locales_test_number, \@f); ++$locales_test_number; undef @f; $test_names{$locales_test_number} = 'Verify that isn\'t both [:graph:] and [:space:]'; for (map { chr } 0..255) { if ($is_utf8_locale) { use locale ':not_characters'; push @f, $_ if (/[[:graph:]]/ and /[[:space:]]/); } else { push @f, $_ if (/[[:graph:]]/ and /[[:space:]]/); } } report_multi_result($Locale, $locales_test_number, \@f); foreach ($first_casing_test_number..$locales_test_number) { $problematical_tests{$_} = 1; } # Test for read-only scalars' locale vs non-locale comparisons. { no locale; my $ok; $a = "qwerty"; if ($is_utf8_locale) { use locale ':not_characters'; $ok = ($a cmp "qwerty") == 0; } else { use locale; $ok = ($a cmp "qwerty") == 0; } report_result($Locale, ++$locales_test_number, $ok); $test_names{$locales_test_number} = 'Verify that cmp works with a read-only scalar; no- vs locale'; } { my ($from, $to, $lesser, $greater, @test, %test, $test, $yes, $no, $sign); ++$locales_test_number; $test_names{$locales_test_number} = 'Verify that "le", "ne", etc work'; $not_necessarily_a_problem_test_number = $locales_test_number; for (0..9) { # Select a slice. $from = int(($_*@{$posixes{'word'}})/10); $to = $from + int(@{$posixes{'word'}}/10); $to = $#{$posixes{'word'}} if ($to > $#{$posixes{'word'}}); $lesser = join('', @{$posixes{'word'}}[$from..$to]); # Select a slice one character on. $from++; $to++; $to = $#{$posixes{'word'}} if ($to > $#{$posixes{'word'}}); $greater = join('', @{$posixes{'word'}}[$from..$to]); if ($is_utf8_locale) { use locale ':not_characters'; ($yes, $no, $sign) = ($lesser lt $greater ? (" ", "not ", 1) : ("not ", " ", -1)); } else { use locale; ($yes, $no, $sign) = ($lesser lt $greater ? (" ", "not ", 1) : ("not ", " ", -1)); } # all these tests should FAIL (return 0). Exact lt or gt cannot # be tested because in some locales, say, eacute and E may test # equal. @test = ( $no.' ($lesser le $greater)', # 1 'not ($lesser ne $greater)', # 2 ' ($lesser eq $greater)', # 3 $yes.' ($lesser ge $greater)', # 4 $yes.' ($lesser ge $greater)', # 5 $yes.' ($greater le $lesser )', # 7 'not ($greater ne $lesser )', # 8 ' ($greater eq $lesser )', # 9 $no.' ($greater ge $lesser )', # 10 'not (($lesser cmp $greater) == -($sign))' # 11 ); @test{@test} = 0 x @test; $test = 0; for my $ti (@test) { if ($is_utf8_locale) { use locale ':not_characters'; $test{$ti} = eval $ti; } else { # Already in 'use locale'; $test{$ti} = eval $ti; } $test ||= $test{$ti} } report_result($Locale, $locales_test_number, $test == 0); if ($test) { debug "lesser = '$lesser'\n"; debug "greater = '$greater'\n"; debug "lesser cmp greater = ", $lesser cmp $greater, "\n"; debug "greater cmp lesser = ", $greater cmp $lesser, "\n"; debug "(greater) from = $from, to = $to\n"; for my $ti (@test) { debugf("# %-40s %-4s", $ti, $test{$ti} ? 'FAIL' : 'ok'); if ($ti =~ /\(\.*(\$.+ +cmp +\$[^\)]+)\.*\)/) { debugf("(%s == %4d)", $1, eval $1); } debugf("\n#"); } last; } } use locale; my @sorted_controls; ++$locales_test_number; $test_names{$locales_test_number} = 'Skip in locales where there are no controls;' . ' otherwise verify that \0 sorts before any (other) control'; if (! $posixes{'cntrl'}) { report_result($Locale, $locales_test_number, 1); # We use all code points for the tests below since there aren't # any controls push @sorted_controls, chr $_ for 1..255; @sorted_controls = sort @sorted_controls; } else { @sorted_controls = @{$posixes{'cntrl'}}; push @sorted_controls, "\0", unless grep { $_ eq "\0" } @sorted_controls; @sorted_controls = sort @sorted_controls; my $output = ""; for my $control (@sorted_controls) { $output .= " " . disp_chars($control); } debug "sorted :cntrl: (plus NUL) = $output\n"; my $ok = $sorted_controls[0] eq "\0"; report_result($Locale, $locales_test_number, $ok); shift @sorted_controls if $ok; } my $lowest_control = $sorted_controls[0]; ++$locales_test_number; $test_names{$locales_test_number} = 'Skip in locales where all controls have primary sorting weight; ' . 'otherwise verify that \0 doesn\'t have primary sorting weight'; if ("a${lowest_control}c" lt "ab") { report_result($Locale, $locales_test_number, 1); } else { my $ok = "ab" lt "a\0c"; report_result($Locale, $locales_test_number, $ok); } ++$locales_test_number; $test_names{$locales_test_number} = 'Verify that strings with embedded NUL collate'; my $ok = "a\0a\0a" lt "a${lowest_control}a${lowest_control}a"; report_result($Locale, $locales_test_number, $ok); ++$locales_test_number; $test_names{$locales_test_number} = 'Verify that strings with embedded NUL and ' . 'extra trailing NUL collate'; $ok = "a\0a\0" lt "a${lowest_control}a${lowest_control}"; report_result($Locale, $locales_test_number, $ok); ++$locales_test_number; $test_names{$locales_test_number} = 'Verify that empty strings collate'; $ok = "" le ""; report_result($Locale, $locales_test_number, $ok); ++$locales_test_number; $test_names{$locales_test_number} = "Skip in non-UTF-8 locales; otherwise verify that UTF8ness " . "doesn't matter with collation"; if (! $is_utf8_locale) { report_result($Locale, $locales_test_number, 1); } else { # khw can't think of anything better. Start with a string that is # higher than its UTF-8 representation in both EBCDIC and ASCII my $string = chr utf8::unicode_to_native(0xff); my $utf8_string = $string; utf8::upgrade($utf8_string); # 8 should be lt 9 in all locales (except ones that aren't # ASCII-based, which might fail this) $ok = ("a${string}8") lt ("a${utf8_string}9"); report_result($Locale, $locales_test_number, $ok); } ++$locales_test_number; $test_names{$locales_test_number} = "Skip in UTF-8 locales; otherwise verify that single byte " . "collates before 0x100 and above"; if ($is_utf8_locale) { report_result($Locale, $locales_test_number, 1); } else { my $max_collating = chr 0; # Find byte that collates highest for my $i (0 .. 255) { my $char = chr $i; $max_collating = $char if $char gt $max_collating; } $ok = $max_collating lt chr 0x100; report_result($Locale, $locales_test_number, $ok); } ++$locales_test_number; $test_names{$locales_test_number} = "Skip in UTF-8 locales; otherwise verify that 0x100 and " . "above collate in code point order"; if ($is_utf8_locale) { report_result($Locale, $locales_test_number, 1); } else { $ok = chr 0x100 lt chr 0x101; report_result($Locale, $locales_test_number, $ok); } } my $ok1; my $ok2; my $ok3; my $ok4; my $ok5; my $ok6; my $ok7; my $ok8; my $ok9; my $ok10; my $ok11; my $ok12; my $ok13; my $ok14; my $ok14_5; my $ok15; my $ok16; my $ok17; my $ok18; my $ok19; my $ok20; my $ok21; my $c; my $d; my $e; my $f; my $g; my $h; my $i; my $j; if (! $is_utf8_locale) { use locale; my ($x, $y) = (1.23, 1.23); $a = "$x"; printf ''; # printf used to reset locale to "C" $b = "$y"; $ok1 = $a eq $b; $c = "$x"; my $z = sprintf ''; # sprintf used to reset locale to "C" $d = "$y"; $ok2 = $c eq $d; { use warnings; my $w = 0; local $SIG{__WARN__} = sub { print "# @_\n"; $w++; }; # The == (among other ops) used to warn for locales # that had something else than "." as the radix character. $ok3 = $c == 1.23; $ok4 = $c == $x; $ok5 = $c == $d; { no locale; $e = "$x"; $ok6 = $e == 1.23; $ok7 = $e == $x; $ok8 = $e == $c; } $f = "1.23"; $g = 2.34; $h = 1.5; $i = 1.25; $j = "$h:$i"; $ok9 = $f == 1.23; $ok10 = $f == $x; $ok11 = $f == $c; $ok12 = abs(($f + $g) - 3.57) < 0.01; $ok13 = $w == 0; $ok14 = $ok14_5 = $ok15 = $ok16 = 1; # Skip for non-utf8 locales } { no locale; $ok17 = "1.5:1.25" eq sprintf("%g:%g", $h, $i); } $ok18 = $j eq sprintf("%g:%g", $h, $i); } else { use locale ':not_characters'; my ($x, $y) = (1.23, 1.23); $a = "$x"; printf ''; # printf used to reset locale to "C" $b = "$y"; $ok1 = $a eq $b; $c = "$x"; my $z = sprintf ''; # sprintf used to reset locale to "C" $d = "$y"; $ok2 = $c eq $d; { use warnings; my $w = 0; local $SIG{__WARN__} = sub { print "# @_\n"; $w++; }; $ok3 = $c == 1.23; $ok4 = $c == $x; $ok5 = $c == $d; { no locale; $e = "$x"; $ok6 = $e == 1.23; $ok7 = $e == $x; $ok8 = $e == $c; } $f = "1.23"; $g = 2.34; $h = 1.5; $i = 1.25; $j = "$h:$i"; $ok9 = $f == 1.23; $ok10 = $f == $x; $ok11 = $f == $c; $ok12 = abs(($f + $g) - 3.57) < 0.01; $ok13 = $w == 0; # Look for non-ASCII error messages, and verify that the first # such is in UTF-8 (the others almost certainly will be like the # first). This is only done if the current locale has LC_MESSAGES $ok14 = 1; $ok14_5 = 1; if ( locales_enabled('LC_MESSAGES') && setlocale(&POSIX::LC_MESSAGES, $Locale)) { foreach my $err (keys %!) { use Errno; $! = eval "&Errno::$err"; # Convert to strerror() output my $errnum = 0+$!; my $strerror = "$!"; if ("$strerror" =~ /\P{ASCII}/) { $ok14 = utf8::is_utf8($strerror); no locale; $ok14_5 = "$!" !~ /\P{ASCII}/; debug( disp_str( "non-ASCII \$! for error $errnum='$strerror'")) if ! $ok14_5; last; } } } # Similarly, we verify that a non-ASCII radix is in UTF-8. This # also catches if there is a disparity between sprintf and # stringification. my $string_g = "$g"; my $sprintf_g = sprintf("%g", $g); $ok15 = $string_g =~ / ^ \p{ASCII}+ $ /x || utf8::is_utf8($string_g); $ok16 = $sprintf_g eq $string_g; } { no locale; $ok17 = "1.5:1.25" eq sprintf("%g:%g", $h, $i); } $ok18 = $j eq sprintf("%g:%g", $h, $i); } $ok19 = $ok20 = 1; if (setlocale(&POSIX::LC_TIME, $Locale)) { # These tests aren't affected by # :not_characters my @times = CORE::localtime(); use locale; $ok19 = POSIX::strftime("%p", @times) ne "%p"; # [perl #119425] my $date = POSIX::strftime("'%A' '%B' '%Z' '%p'", @times); debug("'Day' 'Month' 'TZ' 'am/pm' = ", disp_str($date)); # If there is any non-ascii, it better be UTF-8 in a UTF-8 locale, and # not UTF-8 if the locale isn't UTF-8. $ok20 = $date =~ / ^ \p{ASCII}+ $ /x || $is_utf8_locale == utf8::is_utf8($date); } $ok21 = 1; if (locales_enabled('LC_MESSAGES')) { foreach my $err (keys %!) { no locale; use Errno; $! = eval "&Errno::$err"; # Convert to strerror() output my $strerror = "$!"; if ($strerror =~ /\P{ASCII}/) { $ok21 = 0; debug(disp_str("non-ASCII strerror=$strerror")); last; } } } report_result($Locale, ++$locales_test_number, $ok1); $test_names{$locales_test_number} = 'Verify that an intervening printf doesn\'t change assignment results'; my $first_a_test = $locales_test_number; debug "$first_a_test..$locales_test_number: \$a = $a, \$b = $b, Locale = $Locale\n"; report_result($Locale, ++$locales_test_number, $ok2); $test_names{$locales_test_number} = 'Verify that an intervening sprintf doesn\'t change assignment results'; my $first_c_test = $locales_test_number; $test_names{++$locales_test_number} = 'Verify that a different locale radix works when doing "==" with a constant'; report_result($Locale, $locales_test_number, $ok3); $problematical_tests{$locales_test_number} = 1; $test_names{++$locales_test_number} = 'Verify that a different locale radix works when doing "==" with a scalar'; report_result($Locale, $locales_test_number, $ok4); $problematical_tests{$locales_test_number} = 1; report_result($Locale, ++$locales_test_number, $ok5); $test_names{$locales_test_number} = 'Verify that a different locale radix works when doing "==" with a scalar and an intervening sprintf'; $problematical_tests{$locales_test_number} = 1; debug "$first_c_test..$locales_test_number: \$c = $c, \$d = $d, Locale = $Locale\n"; report_result($Locale, ++$locales_test_number, $ok6); $test_names{$locales_test_number} = 'Verify that can assign stringified under inner no-locale block'; my $first_e_test = $locales_test_number; report_result($Locale, ++$locales_test_number, $ok7); $test_names{$locales_test_number} = 'Verify that "==" with a scalar still works in inner no locale'; $test_names{++$locales_test_number} = 'Verify that "==" with a scalar and an intervening sprintf still works in inner no locale'; report_result($Locale, $locales_test_number, $ok8); $problematical_tests{$locales_test_number} = 1; debug "$first_e_test..$locales_test_number: \$e = $e, no locale\n"; report_result($Locale, ++$locales_test_number, $ok9); $test_names{$locales_test_number} = 'Verify that after a no-locale block, a different locale radix still works when doing "==" with a constant'; $problematical_tests{$locales_test_number} = 1; my $first_f_test = $locales_test_number; report_result($Locale, ++$locales_test_number, $ok10); $test_names{$locales_test_number} = 'Verify that after a no-locale block, a different locale radix still works when doing "==" with a scalar'; $problematical_tests{$locales_test_number} = 1; $test_names{++$locales_test_number} = 'Verify that after a no-locale block, a different locale radix still works when doing "==" with a scalar and an intervening sprintf'; report_result($Locale, $locales_test_number, $ok11); $problematical_tests{$locales_test_number} = 1; report_result($Locale, ++$locales_test_number, $ok12); $test_names{$locales_test_number} = 'Verify that after a no-locale block, a different locale radix can participate in an addition and function call as numeric'; $problematical_tests{$locales_test_number} = 1; report_result($Locale, ++$locales_test_number, $ok13); $test_names{$locales_test_number} = 'Verify that don\'t get warning under "==" even if radix is not a dot'; $problematical_tests{$locales_test_number} = 1; report_result($Locale, ++$locales_test_number, $ok14); $test_names{$locales_test_number} = 'Verify that non-ASCII UTF-8 error messages are in UTF-8'; report_result($Locale, ++$locales_test_number, $ok14_5); $test_names{$locales_test_number} = '... and are ASCII outside "use locale"'; report_result($Locale, ++$locales_test_number, $ok15); $test_names{$locales_test_number} = 'Verify that a number with a UTF-8 radix has a UTF-8 stringification'; $problematical_tests{$locales_test_number} = 1; report_result($Locale, ++$locales_test_number, $ok16); $test_names{$locales_test_number} = 'Verify that a sprintf of a number with a UTF-8 radix yields UTF-8'; $problematical_tests{$locales_test_number} = 1; report_result($Locale, ++$locales_test_number, $ok17); $test_names{$locales_test_number} = 'Verify that a sprintf of a number outside locale scope uses a dot radix'; report_result($Locale, ++$locales_test_number, $ok18); $test_names{$locales_test_number} = 'Verify that a sprintf of a number back within locale scope uses locale radix'; $problematical_tests{$locales_test_number} = 1; report_result($Locale, ++$locales_test_number, $ok19); $test_names{$locales_test_number} = 'Verify that strftime doesn\'t return "%p" in locales where %p is empty'; report_result($Locale, ++$locales_test_number, $ok20); $test_names{$locales_test_number} = 'Verify that strftime returns date with UTF-8 flag appropriately set'; $problematical_tests{$locales_test_number} = 1; # This is broken in # OS X 10.9.3 report_result($Locale, ++$locales_test_number, $ok21); $test_names{$locales_test_number} = '"$!" is ASCII-only outside of locale scope'; debug "$first_f_test..$locales_test_number: \$f = $f, \$g = $g, back to locale = $Locale\n"; # Does taking lc separately differ from taking # the lc "in-line"? (This was the bug 19990704.002 (#965), change #3568.) # The bug was in the caching of the 'o'-magic. if (! $is_utf8_locale) { use locale; sub lcA { my $lc0 = lc $_[0]; my $lc1 = lc $_[1]; return $lc0 cmp $lc1; } sub lcB { return lc($_[0]) cmp lc($_[1]); } my $x = "ab"; my $y = "aa"; my $z = "AB"; report_result($Locale, ++$locales_test_number, lcA($x, $y) == 1 && lcB($x, $y) == 1 || lcA($x, $z) == 0 && lcB($x, $z) == 0); } else { use locale ':not_characters'; sub lcC { my $lc0 = lc $_[0]; my $lc1 = lc $_[1]; return $lc0 cmp $lc1; } sub lcD { return lc($_[0]) cmp lc($_[1]); } my $x = "ab"; my $y = "aa"; my $z = "AB"; report_result($Locale, ++$locales_test_number, lcC($x, $y) == 1 && lcD($x, $y) == 1 || lcC($x, $z) == 0 && lcD($x, $z) == 0); } $test_names{$locales_test_number} = 'Verify "lc(foo) cmp lc(bar)" is the same as using intermediaries for the cmp'; # Does lc of an UPPER (if different from the UPPER) match # case-insensitively the UPPER, and does the UPPER match # case-insensitively the lc of the UPPER. And vice versa. { use locale; no utf8; my $re = qr/[\[\(\{\*\+\?\|\^\$\\]/; my @f = (); ++$locales_test_number; $test_names{$locales_test_number} = 'Verify case insensitive matching works'; foreach my $x (sort { ord $a <=> ord $b } keys %UPPER) { if (! $is_utf8_locale) { my $y = lc $x; next unless uc $y eq $x; debug_more( "UPPER=", disp_chars(($x)), "; lc=", disp_chars(($y)), "; ", "; fc=", disp_chars((fc $x)), "; ", disp_chars(($x)), "=~/", disp_chars(($y)), "/i=", $x =~ /\Q$y/i ? 1 : 0, "; ", disp_chars(($y)), "=~/", disp_chars(($x)), "/i=", $y =~ /\Q$x/i ? 1 : 0, "\n"); # # If $x and $y contain regular expression characters # AND THEY lowercase (/i) to regular expression characters, # regcomp() will be mightily confused. No, the \Q doesn't # help here (maybe regex engine internal lowercasing # is done after the \Q?) An example of this happening is # the bg_BG (Bulgarian) locale under EBCDIC (OS/390 USS): # the chr(173) (the "[") is the lowercase of the chr(235). # # Similarly losing EBCDIC locales include cs_cz, cs_CZ, # el_gr, el_GR, en_us.IBM-037 (!), en_US.IBM-037 (!), # et_ee, et_EE, hr_hr, hr_HR, hu_hu, hu_HU, lt_LT, # mk_mk, mk_MK, nl_nl.IBM-037, nl_NL.IBM-037, # pl_pl, pl_PL, ro_ro, ro_RO, ru_ru, ru_RU, # sk_sk, sk_SK, sl_si, sl_SI, tr_tr, tr_TR. # # Similar things can happen even under (bastardised) # non-EBCDIC locales: in many European countries before the # advent of ISO 8859-x nationally customised versions of # ISO 646 were devised, reusing certain punctuation # characters for modified characters needed by the # country/language. For example, the "|" might have # stood for U+00F6 or LATIN SMALL LETTER O WITH DIAERESIS. # if ($x =~ $re || $y =~ $re) { print "# Regex characters in '$x' or '$y', skipping test $locales_test_number for locale '$Locale'\n"; next; } push @f, $x unless $x =~ /\Q$y/i && $y =~ /\Q$x/i; # fc is not a locale concept, so Perl uses lc for it. push @f, $x unless lc $x eq fc $x; } else { use locale ':not_characters'; my $y = lc $x; next unless uc $y eq $x; debug_more( "UPPER=", disp_chars(($x)), "; lc=", disp_chars(($y)), "; ", "; fc=", disp_chars((fc $x)), "; ", disp_chars(($x)), "=~/", disp_chars(($y)), "/i=", $x =~ /\Q$y/i ? 1 : 0, "; ", disp_chars(($y)), "=~/", disp_chars(($x)), "/i=", $y =~ /\Q$x/i ? 1 : 0, "\n"); push @f, $x unless $x =~ /\Q$y/i && $y =~ /\Q$x/i; # The places where Unicode's lc is different from fc are # skipped here by virtue of the 'next unless uc...' line above push @f, $x unless lc $x eq fc $x; } } foreach my $x (sort { ord $a <=> ord $b } keys %lower) { if (! $is_utf8_locale) { my $y = uc $x; next unless lc $y eq $x; debug_more( "lower=", disp_chars(($x)), "; uc=", disp_chars(($y)), "; ", "; fc=", disp_chars((fc $x)), "; ", disp_chars(($x)), "=~/", disp_chars(($y)), "/i=", $x =~ /\Q$y/i ? 1 : 0, "; ", disp_chars(($y)), "=~/", disp_chars(($x)), "/i=", $y =~ /\Q$x/i ? 1 : 0, "\n"); if ($x =~ $re || $y =~ $re) { # See above. print "# Regex characters in '$x' or '$y', skipping test $locales_test_number for locale '$Locale'\n"; next; } push @f, $x unless $x =~ /\Q$y/i && $y =~ /\Q$x/i; push @f, $x unless lc $x eq fc $x; } else { use locale ':not_characters'; my $y = uc $x; next unless lc $y eq $x; debug_more( "lower=", disp_chars(($x)), "; uc=", disp_chars(($y)), "; ", "; fc=", disp_chars((fc $x)), "; ", disp_chars(($x)), "=~/", disp_chars(($y)), "/i=", $x =~ /\Q$y/i ? 1 : 0, "; ", disp_chars(($y)), "=~/", disp_chars(($x)), "/i=", $y =~ /\Q$x/i ? 1 : 0, "\n"); push @f, $x unless $x =~ /\Q$y/i && $y =~ /\Q$x/i; push @f, $x unless lc $x eq fc $x; } } report_multi_result($Locale, $locales_test_number, \@f); $problematical_tests{$locales_test_number} = 1; } # [perl #109318] { my @f = (); ++$locales_test_number; $test_names{$locales_test_number} = 'Verify atof with locale radix and negative exponent'; $problematical_tests{$locales_test_number} = 1; my $radix = POSIX::localeconv()->{decimal_point}; my @nums = ( "3.14e+9", "3${radix}14e+9", "3.14e-9", "3${radix}14e-9", "-3.14e+9", "-3${radix}14e+9", "-3.14e-9", "-3${radix}14e-9", ); if (! $is_utf8_locale) { use locale; for my $num (@nums) { push @f, $num unless sprintf("%g", $num) =~ /3.+14/; } } else { use locale ':not_characters'; for my $num (@nums) { push @f, $num unless sprintf("%g", $num) =~ /3.+14/; } } report_result($Locale, $locales_test_number, @f == 0); if (@f) { print "# failed $locales_test_number locale '$Locale' numbers @f\n" } } } my $final_locales_test_number = $locales_test_number; # Recount the errors. TEST_NUM: foreach $test_num ($first_locales_test_number..$final_locales_test_number) { my $has_non_global_failure = $Problem{$test_num} || ! defined $Okay{$test_num} || ! @{$Okay{$test_num}}; print "not " if %setlocale_failed || $has_non_global_failure; print "ok $test_num"; $test_names{$test_num} = "" unless defined $test_names{$test_num}; # If TODO is in the test name, make it thus my $todo = $test_names{$test_num} =~ s/\s*TODO\s*//; print " $test_names{$test_num}"; if ($todo) { print " # TODO\n"; } elsif (%setlocale_failed || ! $has_non_global_failure) { print "\n"; } elsif ($has_non_global_failure) { # If there are any locales that pass this test, or are known-bad, it # may be that there are enough passes that we TODO the failure, but # only for tests that we have decided can be problematical. if ( ($Okay{$test_num} || $Known_bad_locale{$test_num}) && grep { $_ == $test_num } keys %problematical_tests) { # Don't count the known-bad failures when calculating the # percentage that fail. my $known_failures = (exists $Known_bad_locale{$test_num}) ? scalar(keys $Known_bad_locale{$test_num}->%*) : 0; my $adjusted_failures = scalar(keys $Problem{$test_num}->%*) - $known_failures; # Specially handle failures where only known-bad locales fail. # This makes the diagnositics clearer. if ($adjusted_failures <= 0) { print " # TODO fails only on known bad locales: ", join " ", keys $Known_bad_locale{$test_num}->%*, "\n"; next TEST_NUM; } # Round to nearest .1% my $percent_fail = (int(.5 + (1000 * $adjusted_failures / scalar(@Locale)))) / 10; $todo = $percent_fail < $acceptable_failure_percentage; print " # TODO" if $todo; print "\n"; if ($debug) { print "# $percent_fail% of locales (", scalar(keys $Problem{$test_num}->%*), " of ", scalar(@Locale), ") fail the above test (TODO cut-off is ", $acceptable_failure_percentage, "%)\n"; } elsif ($todo) { print "# ", 100 - $percent_fail, "% of locales not known to be problematic on this platform\n"; print "# pass the above test, so it is likely that the failures\n"; print "# are errors in the locale definitions. The test is marked TODO, as the\n"; print "# problem is not likely to be Perl's\n"; } } if ($debug) { print "# The code points that had this failure are given above. Look for lines\n"; print "# that match 'failed $test_num'\n"; } else { print "# For more details, rerun, with environment variable PERL_DEBUG_FULL_TEST=1.\n"; print "# Then look at that output for lines that match 'failed $test_num'\n"; } if (defined $not_necessarily_a_problem_test_number && $test_num == $not_necessarily_a_problem_test_number) { print "# The failure of test $not_necessarily_a_problem_test_number is not necessarily fatal.\n"; print "# It usually indicates a problem in the environment,\n"; print "# not in Perl itself.\n"; } } } $test_num = $final_locales_test_number; unless ( $os =~ m!^(dragonfly|openbsd|bitrig|mirbsd)$! ) { # perl #115808 use warnings; my $warned = 0; local $SIG{__WARN__} = sub { $warned = $_[0] =~ /uninitialized/; }; my $z = "y" . setlocale(&POSIX::LC_ALL, "xyzzy"); ok($warned, "variable set to setlocale(BAD LOCALE) is considered uninitialized"); } # Test that tainting and case changing works on utf8 strings. These tests are # placed last to avoid disturbing the hard-coded test numbers that existed at # the time these were added above this in this file. # This also tests that locale overrides unicode_strings in the same scope for # non-utf8 strings. setlocale(&POSIX::LC_ALL, "C"); { use locale; use feature 'unicode_strings'; foreach my $function ("uc", "ucfirst", "lc", "lcfirst", "fc") { my @list; # List of code points to test for $function # Used to calculate the changed case for ASCII characters by using the # ord, instead of using one of the functions under test. my $ascii_case_change_delta; my $above_latin1_case_change_delta; # Same for the specific ords > 255 # that we use # We test an ASCII character, which should change case; # a Latin1 character, which shouldn't change case under this C locale, # an above-Latin1 character that when the case is changed would cross # the 255/256 boundary, so doesn't change case # (the \x{149} is one of these, but changes into 2 characters, the # first one of which doesn't cross the boundary. # the final one in each list is an above-Latin1 character whose case # does change. The code below uses its position in its list as a # marker to indicate that it, unlike the other code points above # ASCII, has a successful case change # # All casing operations under locale (but not :not_characters) should # taint if ($function =~ /^u/) { @list = ("", "a", chr(utf8::unicode_to_native(0xe0)), chr(utf8::unicode_to_native(0xff)), "\x{fb00}", "\x{149}", "\x{101}"); $ascii_case_change_delta = ($is_ebcdic) ? +64 : -32; $above_latin1_case_change_delta = -1; } else { @list = ("", "A", chr(utf8::unicode_to_native(0xC0)), "\x{17F}", "\x{100}"); $ascii_case_change_delta = ($is_ebcdic) ? -64 : +32; $above_latin1_case_change_delta = +1; } foreach my $is_utf8_locale (0 .. 1) { foreach my $j (0 .. $#list) { my $char = $list[$j]; for my $encoded_in_utf8 (0 .. 1) { my $should_be; my $changed; if (! $is_utf8_locale) { no warnings 'locale'; $should_be = ($j == $#list) ? chr(ord($char) + $above_latin1_case_change_delta) : (length $char == 0 || utf8::native_to_unicode(ord($char)) > 127) ? $char : chr(ord($char) + $ascii_case_change_delta); # This monstrosity is in order to avoid using an eval, # which might perturb the results $changed = ($function eq "uc") ? uc($char) : ($function eq "ucfirst") ? ucfirst($char) : ($function eq "lc") ? lc($char) : ($function eq "lcfirst") ? lcfirst($char) : ($function eq "fc") ? fc($char) : die("Unexpected function \"$function\""); } else { { no locale; # For utf8-locales the case changing functions # should work just like they do outside of locale. # Can use eval here because not testing it when # not in locale. $should_be = eval "$function('$char')"; die "Unexpected eval error $@ from 'eval \"$function('$char')\"'" if $@; } use locale ':not_characters'; $changed = ($function eq "uc") ? uc($char) : ($function eq "ucfirst") ? ucfirst($char) : ($function eq "lc") ? lc($char) : ($function eq "lcfirst") ? lcfirst($char) : ($function eq "fc") ? fc($char) : die("Unexpected function \"$function\""); } ok($changed eq $should_be, "$function(\"$char\") in C locale " . (($is_utf8_locale) ? "(use locale ':not_characters'" : "(use locale") . (($encoded_in_utf8) ? "; encoded in utf8)" : "; not encoded in utf8)") . " should be \"$should_be\", got \"$changed\""); # Tainting shouldn't happen for use locale :not_character # (a utf8 locale) (! $is_utf8_locale) ? check_taint($changed) : check_taint_not($changed); # Use UTF-8 next time through the loop utf8::upgrade($char); } } } } } # Give final advice. my $didwarn = 0; foreach ($first_locales_test_number..$final_locales_test_number) { if ($Problem{$_}) { my @f = sort keys %{ $Problem{$_} }; # Don't list the failures caused by known-bad locales. if (exists $known_bad_locales{$os}) { @f = grep { $_ !~ $known_bad_locales{$os} } @f; next unless @f; } my $f = join(" ", @f); $f =~ s/(.{50,60}) /$1\n#\t/g; print "#\n", "# The locale ", (@f == 1 ? "definition" : "definitions"), "\n#\n", "#\t", $f, "\n#\n", "# on your system may have errors because the locale test $_\n", "# \"$test_names{$_}\"\n", "# failed in ", (@f == 1 ? "that locale" : "those locales"), ".\n"; print <