#!/usr/bin/perl # $OpenBSD: th,v 1.4 2022/10/16 08:49:03 kn Exp $ # # Test harness for pdksh tests. # # Example test: # name: a-test # description: # a test to show how tests are done # arguments: !-x!-f! # stdin: # echo -n * # false # expected-stdout: ! # * # expected-stderr: # + echo -n * # + false # expected-exit: 1 # --- # This runs the test-program (eg, pdksh) with the arguments -x and -f, # standard input is a file containing "echo hi*\nfalse\n". The program # is expected to produce "hi*" (no trailing newline) on standard output, # "+ echo hi*\n+false\n" on standard error, and an exit code of 1. # # # Format of test files: # - blank lines and lines starting with # are ignored # - a test file contains a series of tests # - a test is a series of tag:value pairs ended with a "---" line # (leading/trailing spaces are stripped from the first line of value) # - test tags are: # Tag Flag Description # ----- ---- ----------- # name r The name of the test; should be unique # description m What test does # arguments M Arguments to pass to the program; # default is no arguments. # script m Value is written to a file which # is passed as an argument to the program # (after the arguments arguments) # stdin m Value is written to a file which is # used as standard-input for the program; # default is to use /dev/null. # perl-setup m Value is a perl script which is executed # just before the test is run. Try to # avoid using this... # perl-cleanup m Value is a perl script which is executed # just after the test is run. Try to # avoid using this... # env-setup M Value is a list of NAME=VALUE elements # which are put in the environment before # the test is run. If the =VALUE is # missing, NAME is removed from the # environment. Programs are run with # the following minimal environment: # USER, LOGNAME, HOME, PATH, SHELL, # PROG # (values from the current environment # takes higher precedence). # PROG always contains the -p argument. # file-setup mps Used to create files, directories # and symlinks. First word is either # file, dir or symlink; second word is # permissions; this is followed by a # quoted word that is the name of the # file; the end-quote should be followed # by a newline, then the file data # (if any). The first word may be # preceded by a ! to strip the trailing # newline in a symlink. # file-result mps Used to verify a file, symlink or # directory is created correctly. # The first word is either # file, dir or symlink; second word is # expected permissions; third word # is user-id; fourth is group-id; # fifth is "exact" or "pattern" # indicating whether the file contents # which follow is to be matched exactly # or if it is a regular expression. # The fifth argument is the quoted name # of the file that should be created. # The end-quote should be followed # by a newline, then the file data # (if any). The first word may be # preceded by a ! to strip the trailing # newline in the file contents. # The permissions, user and group fields # may be * meaning accept any value. # time-limit Time limit - the program is sent a # SIGKILL N seconds. Default is no # limit. # expected-fail `yes' if the test is expected to fail. # expected-exit expected exit code. Can be a number, # or a C expression using the variables # e, s and w (exit code, termination # signal, and status code). # expected-stdout m What the test should generate on stdout; # default is to expect no output. # expected-stdout-pattern m A perl pattern which matches the # expected output. # expected-stderr m What the test should generate on stderr; # default is to expect no output. # expected-stderr-pattern m A perl pattern which matches the # expected standard error. # category m Specify a comma separated list of # `categories' of program that the test # is to be run for. A category can be # negated by prefixing the name with a !. # The idea is that some tests in a # test suite may apply to a particular # program version and shouldn't be run # on other versions. The category(s) of # the program being tested can be # specified on the command line. # One category os:XXX is predefined # (XXX is the operating system name, # eg, linux, dec_osf). # Flag meanings: # r tag is required (eg, a test must have a name tag). # m value can be multiple lines. Lines must be prefixed with # a tab. If the value part of the initial tag:value line is # - empty: the initial blank line is stripped. # - a lone !: the last newline in the value is stripped; # M value can be multiple lines (prefixed by a tab) and consists # of multiple fields, delimited by a field separator character. # The value must start and end with the f-s-c. # p tag takes parameters (used with m). # s tag can be used several times. # use POSIX qw(EINTR); use Getopt::Std; use File::Temp qw/ :mktemp /; $os = defined $^O ? $^O : 'unknown'; ($prog = $0) =~ s#.*/##; $Usage = < 0): $opt_t\n" if $opt_t !~ /^\d+$/ || $opt_t <= 0; $default_time_limit = $opt_t; } $program_kludge = defined $opt_P ? $opt_P : 0; if (defined $opt_C) { foreach $c (split(',', $opt_C)) { $c =~ s/\s+//; die "$prog: categories can't be negated on the command line\n" if ($c =~ /^!/); $categories{$c} = 1; } } # Note which tests are to be run. %do_test = (); grep($do_test{$_} = 1, @ARGV); $all_tests = @ARGV == 0; # Set up a very minimal environment %new_env = (); foreach $env (('USER', 'LOGNAME', 'HOME', 'PATH', 'SHELL', 'PROG')) { $new_env{$env} = $ENV{$env} if defined $ENV{$env}; } if (defined $opt_e) { # XXX need a way to allow many -e arguments... if ($opt_e =~ /^([a-zA-Z_]\w*)(|=(.*))$/) { $new_env{$1} = $2 eq '' ? $ENV{$1} : $3; } else { die "$0: bad -e argument: $opt_e\n"; } } %old_env = %ENV; # The following doesn't work with perl5... Need to do it explicitly - yuck. #%ENV = %new_env; foreach $k (keys(%ENV)) { delete $ENV{$k}; } $ENV{$k} = $v while ($k,$v) = each %new_env; chop($pwd = `pwd 2> /dev/null`); die "$prog: couldn't get current working directory\n" if $pwd eq ''; die "$prog: couldn't cd to $pwd - $!\n" if !chdir($pwd); if (!$program_kludge) { $test_prog = "$pwd/$test_prog" if substr($test_prog, 0, 1) ne '/'; die "$prog: $test_prog is not executable - bye\n" if (! -x $test_prog && $os ne 'os2'); } @trap_sigs = ('TERM', 'QUIT', 'INT', 'PIPE', 'HUP'); @SIG{@trap_sigs} = ('cleanup_exit') x @trap_sigs; $child_kill_ok = 0; $SIG{'ALRM'} = 'catch_sigalrm'; $| = 1; # Create temp files ($fh, $temps) = mkstemp("${temp_dir}/rts.XXXXXXXX"); close($fh); ($fh, $tempi) = mkstemp("${temp_dir}/rti.XXXXXXXX"); close($fh); ($fh, $tempo) = mkstemp("${temp_dir}/rto.XXXXXXXX"); close($fh); ($fh, $tempe) = mkstemp("${temp_dir}/rte.XXXXXXXX"); close($fh); $tempdir = mkdtemp("${temp_dir}/rtd.XXXXXXXX"); if (-d $test_set) { $file_prefix_skip = length($test_set) + 1; $ret = &process_test_dir($test_set); } else { $file_prefix_skip = 0; $ret = &process_test_file($test_set); } &cleanup_exit() if !defined $ret; $tot_failed = $nfailed + $nxfailed; $tot_passed = $npassed + $nxpassed; if ($tot_failed || $tot_passed) { print "Total failed: $tot_failed"; print " ($nxfailed unexpected)" if $nxfailed; print " (as expected)" if $nfailed && !$nxfailed; print "\nTotal passed: $tot_passed"; print " ($nxpassed unexpected)" if $nxpassed; print "\n"; } &cleanup_exit($nxfailed ? '' : 'ok'); sub cleanup_exit { local($sig, $exitcode) = ('', 1); if ($_[0] eq 'ok') { $exitcode = 0; } elsif ($_[0] ne '') { $sig = $_[0]; } unlink($tempi, $tempo, $tempe, $temps); &scrub_dir($tempdir) if defined $tempdir; rmdir($tempdir) if defined $tempdir; if ($sig) { $SIG{$sig} = 'DEFAULT'; kill $sig, $$; return; } exit $exitcode; } sub catch_sigalrm { $SIG{'ALRM'} = 'catch_sigalrm'; kill(9, $child_pid) if $child_kill_ok; $child_killed = 1; } sub process_test_dir { local($dir) = @_; local($ret, $file); local(@todo) = (); if (!opendir(DIR, $dir)) { print STDERR "$prog: can't open directory $dir - $!\n"; return undef; } while (defined ($file = readdir(DIR))) { push(@todo, $file) if $file =~ /^[^.].*\.t$/; } closedir(DIR); foreach $file (@todo) { $file = "$dir/$file"; if (-d $file) { $ret = &process_test_dir($file); } elsif (-f _) { $ret = &process_test_file($file); } last if !defined $ret; } return $ret; } sub process_test_file { local($file) = @_; local($ret); if (!open(IN, $file)) { print STDERR "$prog: can't open $file - $!\n"; return undef; } while (1) { $ret = &read_test($file, IN, *test); last if !defined $ret || !$ret; next if !$all_tests && !$do_test{$test{'name'}}; next if !&category_check(*test); $ret = &run_test(*test); last if !defined $ret; } close(IN); return $ret; } sub run_test { local(*test) = @_; local($name) = $test{':full-name'}; #print "Running test $name...\n" if $verbose; return undef if !&scrub_dir($tempdir); if (defined $test{'stdin'}) { return undef if !&write_file($tempi, $test{'stdin'}); $ifile = $tempi; } else { $ifile = '/dev/null'; } if (defined $test{'script'}) { return undef if !&write_file($temps, $test{'script'}); } if (!chdir($tempdir)) { print STDERR "$prog: couldn't cd to $tempdir - $!\n"; return undef; } if (defined $test{'file-setup'}) { local($i); local($type, $perm, $rest, $c, $len, $name); for ($i = 0; $i < $test{'file-setup'}; $i++) { $val = $test{"file-setup:$i"}; # # format is: type perm "name" # ($type, $perm, $rest) = split(' ', $val, 3); $c = substr($rest, 0, 1); $len = index($rest, $c, 1) - 1; $name = substr($rest, 1, $len); $rest = substr($rest, 2 + $len); $perm = oct($perm) if $perm =~ /^\d+$/; if ($type eq 'file') { return undef if !&write_file($name, $rest); if (!chmod($perm, $name)) { print STDERR "$prog:$test{':long-name'}: can't chmod $perm $name - $!\n"; return undef; } } elsif ($type eq 'dir') { if (!mkdir($name, $perm)) { print STDERR "$prog:$test{':long-name'}: can't mkdir $perm $name - $!\n"; return undef; } } elsif ($type eq 'symlink') { local($oumask) = umask($perm); local($ret) = symlink($rest, $name); umask($oumask); if (!$ret) { print STDERR "$prog:$test{':long-name'}: couldn't create symlink $name - $!\n"; return undef; } } } } if (defined $test{'perl-setup'}) { eval $test{'perl-setup'}; if ($@ ne '') { print STDERR "$prog:$test{':long-name'}: error running perl-setup - $@\n"; return undef; } } $pid = fork; if (!defined $pid) { print STDERR "$prog: can't fork - $!\n"; return undef; } if (!$pid) { @SIG{@trap_sigs} = ('DEFAULT') x @trap_sigs; $SIG{'ALRM'} = 'DEFAULT'; $ENV{'PROG'} = $test_prog; if (defined $test{'env-setup'}) { local($var, $val, $i); foreach $var (split(substr($test{'env-setup'}, 0, 1), $test{'env-setup'})) { $i = index($var, '='); next if $i == 0 || $var eq ''; if ($i < 0) { delete $ENV{$var}; } else { $ENV{substr($var, 0, $i)} = substr($var, $i + 1); } } } if (!open(STDIN, "< $ifile")) { print STDERR "$prog: couldn't open $ifile in child - $!\n"; kill('TERM', $$); } if (!open(STDOUT, "> $tempo")) { print STDERR "$prog: couldn't open $tempo in child - $!\n"; kill('TERM', $$); } if (!open(STDERR, "> $tempe")) { print STDOUT "$prog: couldn't open $tempe in child - $!\n"; kill('TERM', $$); } if ($program_kludge) { @argv = split(' ', $test_prog); } else { @argv = ($test_prog); } if (defined $test{'arguments'}) { push(@argv, split(substr($test{'arguments'}, 0, 1), substr($test{'arguments'}, 1))); } push(@argv, $temps) if defined $test{'script'}; exec(@argv); print STDERR "$prog: couldn't execute $test_prog - $!\n"; kill('TERM', $$); exit(95); } $child_pid = $pid; $child_killed = 0; $child_kill_ok = 1; alarm($test{'time-limit'}) if defined $test{'time-limit'}; while (1) { $xpid = waitpid($pid, 0); $child_kill_ok = 0; if ($xpid < 0) { next if $! == EINTR; print STDERR "$prog: error waiting for child - $!\n"; return undef; } last; } $status = $?; alarm(0) if defined $test{'time-limit'}; $failed = 0; $why = ''; if ($child_killed) { $failed = 1; $why .= "\ttest timed out (limit of $test{'time-limit'} seconds)\n"; } $ret = &eval_exit($test{'long-name'}, $status, $test{'expected-exit'}); return undef if !defined $ret; if (!$ret) { local($expl); $failed = 1; if (($status & 0xff) == 0x7f) { $expl = "stopped"; } elsif (($status & 0xff)) { $expl = "signal " . ($status & 0x7f); } else { $expl = "exit-code " . (($status >> 8) & 0xff); } $why .= "\tunexpected exit status $status ($expl), expected $test{'expected-exit'}\n"; } $tmp = &check_output($test{'long-name'}, $tempo, 'stdout', $test{'expected-stdout'}, $test{'expected-stdout-pattern'}); return undef if !defined $tmp; if ($tmp ne '') { $failed = 1; $why .= $tmp; } $tmp = &check_output($test{'long-name'}, $tempe, 'stderr', $test{'expected-stderr'}, $test{'expected-stderr-pattern'}); return undef if !defined $tmp; if ($tmp ne '') { $failed = 1; $why .= $tmp; } $tmp = &check_file_result(*test); return undef if !defined $tmp; if ($tmp ne '') { $failed = 1; $why .= $tmp; } if (defined $test{'perl-cleanup'}) { eval $test{'perl-cleanup'}; if ($@ ne '') { print STDERR "$prog:$test{':long-name'}: error running perl-cleanup - $@\n"; return undef; } } if (!chdir($pwd)) { print STDERR "$prog: couldn't cd to $pwd - $!\n"; return undef; } if ($failed) { if (!$test{'expected-fail'}) { print "FAIL $name\n"; $nxfailed++; } else { print "fail $name (as expected)\n"; $nfailed++; } $why = "\tDescription" . &wrap_lines($test{'description'}, " (missing)\n") . $why; } elsif ($test{'expected-fail'}) { print "PASS $name (unexpectedly)\n"; $nxpassed++; } else { print "pass $name\n"; $npassed++; } print $why if $verbose; return 0; } sub category_check { local(*test) = @_; local($c); return 1 if (!defined $test{'category'}); local($ok) = 0; foreach $c (split(',', $test{'category'})) { $c =~ s/\s+//; if ($c =~ /^!/) { $c = $'; return 0 if (defined $categories{$c}); } else { $ok = 1 if (defined $categories{$c}); } } return $ok; } sub scrub_dir { local($dir) = @_; local(@todo) = (); local($file); if (!opendir(DIR, $dir)) { print STDERR "$prog: couldn't open directory $dir - $!\n"; return undef; } while (defined ($file = readdir(DIR))) { push(@todo, $file) if $file ne '.' && $file ne '..'; } closedir(DIR); foreach $file (@todo) { $file = "$dir/$file"; if (-d $file) { return undef if !&scrub_dir($file); if (!rmdir($file)) { print STDERR "$prog: couldn't rmdir $file - $!\n"; return undef; } } else { if (!unlink($file)) { print STDERR "$prog: couldn't unlink $file - $!\n"; return undef; } } } return 1; } sub write_file { local($file, $str) = @_; if (!open(TEMP, "> $file")) { print STDERR "$prog: can't open $file - $!\n"; return undef; } print TEMP $str; if (!close(TEMP)) { print STDERR "$prog: error writing $file - $!\n"; return undef; } return 1; } sub check_output { local($name, $file, $what, $expect, $expect_pat) = @_; local($got) = ''; local($why) = ''; local($ret); if (!open(TEMP, "< $file")) { print STDERR "$prog:$name($what): couldn't open $file after running program - $!\n"; return undef; } while () { $got .= $_; } close(TEMP); return compare_output($name, $what, $expect, $expect_pat, $got); } sub compare_output { local($name, $what, $expect, $expect_pat, $got) = @_; local($why) = ''; if (defined $expect_pat) { $_ = $got; $ret = eval "$expect_pat"; if ($@ ne '') { print STDERR "$prog:$name($what): error evaluating $what pattern: $expect_pat - $@\n"; return undef; } if (!$ret) { $why = "\tunexpected $what - wanted pattern"; $why .= &wrap_lines($expect_pat); $why .= "\tgot"; $why .= &wrap_lines($got); } } else { $expect = '' if !defined $expect; if ($got ne $expect) { $why .= "\tunexpected $what - " . &first_diff($expect, $got) . "\n"; $why .= "\twanted"; $why .= &wrap_lines($expect); $why .= "\tgot"; $why .= &wrap_lines($got); } } return $why; } sub wrap_lines { local($str, $empty) = @_; local($nonl) = substr($str, -1, 1) ne "\n"; return (defined $empty ? $empty : " nothing\n") if $str eq ''; substr($str, 0, 0) = ":\n"; $str =~ s/\n/\n\t\t/g; if ($nonl) { $str .= "\n\t[incomplete last line]\n"; } else { chop($str); chop($str); } return $str; } sub first_diff { local($exp, $got) = @_; local($lineno, $char) = (1, 1); local($i, $exp_len, $got_len); local($ce, $cg); $exp_len = length($exp); $got_len = length($got); if ($exp_len != $got_len) { if ($exp_len < $got_len) { if (substr($got, 0, $exp_len) eq $exp) { return "got too much output"; } } elsif (substr($exp, 0, $got_len) eq $got) { return "got too little output"; } } for ($i = 0; $i < $exp_len; $i++) { $ce = substr($exp, $i, 1); $cg = substr($got, $i, 1); last if $ce ne $cg; $char++; if ($ce eq "\n") { $lineno++; $char = 1; } } return "first difference: line $lineno, char $char (wanted '" . &format_char($ce) . "', got '" . &format_char($cg) . "'"; } sub format_char { local($ch, $s); $ch = ord($_[0]); if ($ch == 10) { return '\n'; } elsif ($ch == 13) { return '\r'; } elsif ($ch == 8) { return '\b'; } elsif ($ch == 9) { return '\t'; } elsif ($ch > 127) { $ch -= 127; $s = "M-"; } else { $s = ''; } if ($ch < 32) { $s .= '^'; $ch += ord('@'); } elsif ($ch == 127) { return $s . "^?"; } return $s . sprintf("%c", $ch); } sub eval_exit { local($name, $status, $expect) = @_; local($expr); local($w, $e, $s) = ($status, ($status >> 8) & 0xff, $status & 0x7f); $e = -1000 if $status & 0xff; $s = -1000 if $s == 0x7f; if (!defined $expect) { $expr = '$w == 0'; } elsif ($expect =~ /^(|-)\d+$/) { $expr = "\$e == $expect"; } else { $expr = $expect; $expr =~ s/\b([wse])\b/\$$1/g; $expr =~ s/\b(SIG[A-Z0-9]+)\b/&$1/g; } $w = eval $expr; if ($@ ne '') { print STDERR "$prog:$test{':long-name'}: bad expected-exit expression: $expect ($@)\n"; return undef; } return $w; } sub read_test { local($file, $in, *test) = @_; local($field, $val, $flags, $do_chop, $need_redo, $start_lineno); local(%cnt, $sfield); %test = (); %cnt = (); while (<$in>) { next if /^\s*$/; next if /^ *#/; last if /^\s*---\s*$/; $start_lineno = $. if !defined $start_lineno; if (!/^([-\w]+):\s*(|\S|\S.*\S)\s*$/) { print STDERR "$prog:$file:$.: unrecognized line\n"; return undef; } ($field, $val) = ($1, $2); $sfield = $field; $flags = $test_fields{$field}; if (!defined $flags) { print STDERR "$prog:$file:$.: unrecognized field \"$field\"\n"; return undef; } if ($flags =~ /s/) { local($cnt) = $cnt{$field}++; $test{$field} = $cnt{$field}; $cnt = 0 if $cnt eq ''; $sfield .= ":$cnt"; } elsif (defined $test{$field}) { print STDERR "$prog:$file:$.: multiple \"$field\" fields\n"; return undef; } $do_chop = $flags !~ /m/; $need_redo = 0; if ($val eq '' || $val eq '!' || $flags =~ /p/) { if ($flags =~ /[Mm]/) { if ($flags =~ /p/) { if ($val =~ /^!/) { $do_chop = 1; $val = $'; } else { $do_chop = 0; } if ($val eq '') { print STDERR "$prog:$file:$.: no parameters given for field \"$field\"\n"; return undef; } } else { if ($val eq '!') { $do_chop = 1; } $val = ''; } while (<$in>) { last if !/^\t/; $val .= $'; } chop $val if $do_chop; $do_chop = 1; $need_redo = 1; # # Syntax check on fields that can several instances # (can give useful line numbers this way) # if ($field eq 'file-setup') { local($type, $perm, $rest, $c, $len, $name); # # format is: type perm "name" # if ($val !~ /^[ \t]*(\S+)[ \t]+(\S+)[ \t]+([^ \t].*)/) { print STDERR "$prog:$file:$.: bad parameter line for file-setup field\n"; return undef; } ($type, $perm, $rest) = ($1, $2, $3); if ($type !~ /^(file|dir|symlink)$/) { print STDERR "$prog:$file:$.: bad file type for file-setup: $type\n"; return undef; } if ($perm !~ /^\d+$/) { print STDERR "$prog:$file:$.: bad permissions for file-setup: $type\n"; return undef; } $c = substr($rest, 0, 1); if (($len = index($rest, $c, 1) - 1) <= 0) { print STDERR "$prog:$file:$.: missing end quote for file name in file-setup: $rest\n"; return undef; } $name = substr($rest, 1, $len); if ($name =~ /^\// || $name =~ /(^|\/)\.\.(\/|$)/) { # Note: this is not a security thing - just a sanity # check - a test can still use symlinks to get at files # outside the test directory. print STDERR "$prog:$file:$.: file name in file-setup is absolute or contains ..: $name\n"; return undef; } } if ($field eq 'file-result') { local($type, $perm, $uid, $gid, $matchType, $rest, $c, $len, $name); # # format is: type perm uid gid matchType "name" # if ($val !~ /^\s*(\S+)\s+(\S+)\s+(\S+)\s+(\S+)\s+(\S+)\s+(\S.*)/) { print STDERR "$prog:$file:$.: bad parameter line for file-result field\n"; return undef; } ($type, $perm, $uid, $gid, $matchType, $rest) = ($1, $2, $3, $4, $5, $6); if ($type !~ /^(file|dir|symlink)$/) { print STDERR "$prog:$file:$.: bad file type for file-result: $type\n"; return undef; } if ($perm !~ /^\d+$/ && $perm ne '*') { print STDERR "$prog:$file:$.: bad permissions for file-result: $perm\n"; return undef; } if ($uid !~ /^\d+$/ && $uid ne '*') { print STDERR "$prog:$file:$.: bad user-id for file-result: $uid\n"; return undef; } if ($gid !~ /^\d+$/ && $gid ne '*') { print STDERR "$prog:$file:$.: bad group-id for file-result: $gid\n"; return undef; } if ($matchType !~ /^(exact|pattern)$/) { print STDERR "$prog:$file:$.: bad match type for file-result: $matchType\n"; return undef; } $c = substr($rest, 0, 1); if (($len = index($rest, $c, 1) - 1) <= 0) { print STDERR "$prog:$file:$.: missing end quote for file name in file-result: $rest\n"; return undef; } $name = substr($rest, 1, $len); if ($name =~ /^\// || $name =~ /(^|\/)\.\.(\/|$)/) { # Note: this is not a security thing - just a sanity # check - a test can still use symlinks to get at files # outside the test directory. print STDERR "$prog:$file:$.: file name in file-result is absolute or contains ..: $name\n"; return undef; } } } elsif ($val eq '') { print STDERR "$prog:$file:$.: no value given for field \"$field\"\n"; return undef; } } $val .= "\n" if !$do_chop; $test{$sfield} = $val; redo if $need_redo; } if ($_ eq '') { if (%test) { print STDERR "$prog:$file:$start_lineno: end-of-file while reading test\n"; return undef; } return 0; } while (($field, $val) = each %test_fields) { if ($val =~ /r/ && !defined $test{$field}) { print STDERR "$prog:$file:$start_lineno: required field \"$field\" missing\n"; return undef; } } $test{':full-name'} = substr($file, $file_prefix_skip) . ":$test{'name'}"; $test{':long-name'} = "$file:$start_lineno:$test{'name'}"; # Syntax check on specific fields if (defined $test{'expected-fail'}) { if ($test{'expected-fail'} !~ /^(yes|no)$/) { print STDERR "$prog:$test{':long-name'}: bad value for expected-fail field\n"; return undef; } $test{'expected-fail'} = $1 eq 'yes'; } else { $test{'expected-fail'} = 0; } if (defined $test{'arguments'}) { local($firstc) = substr($test{'arguments'}, 0, 1); if (substr($test{'arguments'}, -1, 1) ne $firstc) { print STDERR "$prog:$test{':long-name'}: arguments field doesn't start and end with the same character\n"; return undef; } } if (defined $test{'env-setup'}) { local($firstc) = substr($test{'env-setup'}, 0, 1); if (substr($test{'env-setup'}, -1, 1) ne $firstc) { print STDERR "$prog:$test{':long-name'}: env-setup field doesn't start and end with the same character\n"; return undef; } } if (defined $test{'expected-exit'}) { local($val) = $test{'expected-exit'}; if ($val =~ /^(|-)\d+$/) { if ($val < 0 || $val > 255) { print STDERR "$prog:$test{':long-name'}: expected-exit value $val not in 0..255\n"; return undef; } } elsif ($val !~ /^([\s<>+-=*%\/&|!()]|\b[wse]\b|\bSIG[A-Z0-9]+\b)+$/) { print STDERR "$prog:$test{':long-name'}: bad expected-exit expression: $val\n"; return undef; } } else { $test{'expected-exit'} = 0; } if (defined $test{'expected-stdout'} && defined $test{'expected-stdout-pattern'}) { print STDERR "$prog:$test{':long-name'}: can't use both expected-stdout and expected-stdout-pattern\n"; return undef; } if (defined $test{'expected-stderr'} && defined $test{'expected-stderr-pattern'}) { print STDERR "$prog:$test{':long-name'}: can't use both expected-stderr and expected-stderr-pattern\n"; return undef; } if (defined $test{'time-limit'}) { if ($test{'time-limit'} !~ /^\d+$/ || $test{'time-limit'} == 0) { print STDERR "$prog:$test{':long-name'}: bad value for time-limit field\n"; return undef; } } elsif (defined $default_time_limit) { $test{'time-limit'} = $default_time_limit; } if (defined $known_tests{$test{'name'}}) { print STDERR "$prog:$test{':long-name'}: warning: duplicate test name ${test{'name'}}\n"; } $known_tests{$test{'name'}} = 1; return 1; } sub tty_msg { local($msg) = @_; open(TTY, "> /dev/tty") || return 0; print TTY $msg; close(TTY); return 1; } sub never_called_funcs { return 0; &tty_msg("hi\n"); &never_called_funcs(); &catch_sigalrm(); $old_env{'foo'} = 'bar'; $internal_test_fields{'foo'} = 'bar'; } sub check_file_result { local(*test) = @_; return '' if (!defined $test{'file-result'}); local($why) = ''; local($i); local($type, $perm, $uid, $gid, $rest, $c, $len, $name); local(@stbuf); for ($i = 0; $i < $test{'file-result'}; $i++) { $val = $test{"file-result:$i"}; # # format is: type perm "name" # ($type, $perm, $uid, $gid, $matchType, $rest) = split(' ', $val, 6); $c = substr($rest, 0, 1); $len = index($rest, $c, 1) - 1; $name = substr($rest, 1, $len); $rest = substr($rest, 2 + $len); $perm = oct($perm) if $perm =~ /^\d+$/; @stbuf = lstat($name); if (!@stbuf) { $why .= "\texpected $type \"$name\" not created\n"; next; } if ($perm ne '*' && ($stbuf[2] & 07777) != $perm) { $why .= "\t$type \"$name\" has unexpected permissions\n"; $why .= sprintf("\t\texpected 0%o, found 0%o\n", $perm, $stbuf[2] & 07777); } if ($uid ne '*' && $stbuf[4] != $uid) { $why .= "\t$type \"$name\" has unexpected user-id\n"; $why .= sprintf("\t\texpected %d, found %d\n", $uid, $stbuf[4]); } if ($gid ne '*' && $stbuf[5] != $gid) { $why .= "\t$type \"$name\" has unexpected group-id\n"; $why .= sprintf("\t\texpected %d, found %d\n", $gid, $stbuf[5]); } if ($type eq 'file') { if (-l _ || ! -f _) { $why .= "\t$type \"$name\" is not a regular file\n"; } else { local $tmp = &check_output($test{'long-name'}, $name, "$type contents in \"$name\"", $matchType eq 'exact' ? $rest : undef $matchType eq 'pattern' ? $rest : undef); return undef if (!defined $tmp); $why .= $tmp; } } elsif ($type eq 'dir') { if ($rest !~ /^\s*$/) { print STDERR "$prog:$test{':long-name'}: file-result test for directory $name should not have content specified\n"; return undef; } if (-l _ || ! -d _) { $why .= "\t$type \"$name\" is not a directory\n"; } } elsif ($type eq 'symlink') { if (!-l _) { $why .= "\t$type \"$name\" is not a symlink\n"; } else { local $content = readlink($name); if (!defined $content) { print STDERR "$prog:$test{':long-name'}: file-result test for $type $name failed - could not readlink - $!\n"; return undef; } local $tmp = &compare_output($test{'long-name'}, "$type contents in \"$name\"", $matchType eq 'exact' ? $rest : undef $matchType eq 'pattern' ? $rest : undef); return undef if (!defined $tmp); $why .= $tmp; } } } return $why; } sub HELP_MESSAGE { print STDERR $Usage; exit 0; }