#! /usr/bin/env perl # Copyright 2018-2023 The OpenSSL Project Authors. All Rights Reserved. # # Licensed under the Apache License 2.0 (the "License"). You may not use # this file except in compliance with the License. You can obtain a copy # in the file LICENSE in the source distribution or at # https://www.openssl.org/source/license.html package OpenSSL::Util; use strict; use warnings; use Carp; use Exporter; use vars qw($VERSION @ISA @EXPORT @EXPORT_OK %EXPORT_TAGS); $VERSION = "0.1"; @ISA = qw(Exporter); @EXPORT = qw(cmp_versions quotify1 quotify_l fixup_cmd_elements fixup_cmd dump_data); @EXPORT_OK = qw(); =head1 NAME OpenSSL::Util - small OpenSSL utilities =head1 SYNOPSIS use OpenSSL::Util; $versiondiff = cmp_versions('1.0.2k', '3.0.1'); # $versiondiff should be -1 $versiondiff = cmp_versions('1.1.0', '1.0.2a'); # $versiondiff should be 1 $versiondiff = cmp_versions('1.1.1', '1.1.1'); # $versiondiff should be 0 =head1 DESCRIPTION =over =item B Compares VERSION1 with VERSION2, paying attention to OpenSSL versioning. Returns 1 if VERSION1 is greater than VERSION2, 0 if they are equal, and -1 if VERSION1 is less than VERSION2. =back =cut # Until we're rid of everything with the old version scheme, # we need to be able to handle older style x.y.zl versions. # In terms of comparison, the x.y.zl and the x.y.z schemes # are compatible... mostly because the latter starts at a # new major release with a new major number. sub _ossl_versionsplit { my $textversion = shift; return $textversion if $textversion eq '*'; my ($major,$minor,$edit,$letter) = $textversion =~ /^(\d+)\.(\d+)\.(\d+)([a-z]{0,2})$/; return ($major,$minor,$edit,$letter); } sub cmp_versions { my @a_split = _ossl_versionsplit(shift); my @b_split = _ossl_versionsplit(shift); my $verdict = 0; while (@a_split) { # The last part is a letter sequence (or a '*') if (scalar @a_split == 1) { $verdict = $a_split[0] cmp $b_split[0]; } else { $verdict = $a_split[0] <=> $b_split[0]; } shift @a_split; shift @b_split; last unless $verdict == 0; } return $verdict; } # It might be practical to quotify some strings and have them protected # from possible harm. These functions primarily quote things that might # be interpreted wrongly by a perl eval. =over 4 =item quotify1 STRING This adds quotes (") around the given string, and escapes any $, @, \, " and ' by prepending a \ to them. =back =cut sub quotify1 { my $s = shift @_; $s =~ s/([\$\@\\"'])/\\$1/g; '"'.$s.'"'; } =over 4 =item quotify_l LIST For each defined element in LIST (i.e. elements that aren't undef), have it quotified with 'quotify1'. Undefined elements are ignored. =cut sub quotify_l { map { if (!defined($_)) { (); } else { quotify1($_); } } @_; } =over 4 =item fixup_cmd_elements LIST Fixes up the command line elements given by LIST in a platform specific manner. The result of this function is a copy of LIST with strings where quotes and escapes have been injected as necessary depending on the content of each LIST string. This can also be used to put quotes around the executable of a command. I =back =cut sub fixup_cmd_elements { # A formatter for the command arguments, defaulting to the Unix setup my $arg_formatter = sub { $_ = shift; ($_ eq '' || /\s|[\{\}\\\$\[\]\*\?\|\&:;<>]/) ? "'$_'" : $_ }; if ( $^O eq "VMS") { # VMS setup $arg_formatter = sub { $_ = shift; if ($_ eq '' || /\s|[!"[:upper:]]/) { s/"/""/g; '"'.$_.'"'; } else { $_; } }; } elsif ( $^O eq "MSWin32") { # MSWin setup $arg_formatter = sub { $_ = shift; if ($_ eq '' || /\s|["\|\&\*\;<>]/) { s/(["\\])/\\$1/g; '"'.$_.'"'; } else { $_; } }; } return ( map { $arg_formatter->($_) } @_ ); } =over 4 =item fixup_cmd LIST This is a sibling of fixup_cmd_elements() that expects the LIST to be a complete command line. It does the same thing as fixup_cmd_elements(), expect that it treats the first LIST element specially on VMS. =back =cut sub fixup_cmd { return fixup_cmd_elements(@_) unless $^O eq 'VMS'; # The rest is VMS specific my $cmd = shift; # Prefix to be applied as needed. Essentially, we need to determine # if the command is an executable file (something.EXE), and invoke it # with the MCR command in that case. MCR is an old PDP-11 command that # stuck around. my @prefix; if ($cmd =~ m|^\@|) { # The command is an invocation of a command procedure (also known as # "script"), no modification needed. @prefix = (); } elsif ($cmd =~ m|^MCR$|) { # The command is MCR, so there's nothing much to do apart from # making sure that the file name following it isn't treated with # fixup_cmd_elements(), 'cause MCR doesn't like strings. @prefix = ( $cmd ); $cmd = shift; } else { # All that's left now is to check whether the command is an executable # file, and if it's not, simply assume that it is a DCL command. # Make sure we have a proper file name, i.e. add the default # extension '.exe' if there isn't one already. my $executable = ($cmd =~ m|.[a-z0-9\$]*$|) ? $cmd : $cmd . '.exe'; if (-e $executable) { # It seems to be an executable, so we make sure to prefix it # with MCR, for proper invocation. We also make sure that # there's a directory specification, or otherwise, MCR will # assume that the executable is in SYS$SYSTEM: @prefix = ( 'MCR' ); $cmd = '[]' . $cmd unless $cmd =~ /^(?:[\$a-z0-9_]+:)?[<\[]/i; } else { # If it isn't an executable, then we assume that it's a DCL # command, and do no further processing, apart from argument # fixup. @prefix = (); } } return ( @prefix, $cmd, fixup_cmd_elements(@_) ); } =item dump_data REF, OPTS Dump the data from REF into a string that can be evaluated into the same data by Perl. OPTS is the rest of the arguments, expected to be pairs formed with C<< => >>. The following OPTS keywords are understood: =over 4 =item B 0 | 1> Include the outer delimiter of the REF type in the resulting string if C<1>, otherwise not. =item B num> The indentation of the caller, i.e. an initial value. If not given, there will be no indentation at all, and the string will only be one line. =back =cut sub dump_data { my $ref = shift; # Available options: # indent => callers indentation ( undef for no indentation, # an integer otherwise ) # delimiters => 1 if outer delimiters should be added my %opts = @_; my $indent = $opts{indent} // 1; # Indentation of the whole structure, where applicable my $nlindent1 = defined $opts{indent} ? "\n" . ' ' x $indent : ' '; # Indentation of individual items, where applicable my $nlindent2 = defined $opts{indent} ? "\n" . ' ' x ($indent + 4) : ' '; my %subopts = (); $subopts{delimiters} = 1; $subopts{indent} = $opts{indent} + 4 if defined $opts{indent}; my $product; # Finished product, or reference to a function that # produces a string, given $_ # The following are only used when $product is a function reference my $delim_l; # Left delimiter of structure my $delim_r; # Right delimiter of structure my $separator; # Item separator my @items; # Items to iterate over if (ref($ref) eq "ARRAY") { if (scalar @$ref == 0) { $product = $opts{delimiters} ? '[]' : ''; } else { $product = sub { dump_data(\$_, %subopts) }; $delim_l = ($opts{delimiters} ? '[' : '').$nlindent2; $delim_r = $nlindent1.($opts{delimiters} ? ']' : ''); $separator = ",$nlindent2"; @items = @$ref; } } elsif (ref($ref) eq "HASH") { if (scalar keys %$ref == 0) { $product = $opts{delimiters} ? '{}' : ''; } else { $product = sub { quotify1($_) . " => " . dump_data($ref->{$_}, %subopts); }; $delim_l = ($opts{delimiters} ? '{' : '').$nlindent2; $delim_r = $nlindent1.($opts{delimiters} ? '}' : ''); $separator = ",$nlindent2"; @items = sort keys %$ref; } } elsif (ref($ref) eq "SCALAR") { $product = defined $$ref ? quotify1 $$ref : "undef"; } else { $product = defined $ref ? quotify1 $ref : "undef"; } if (ref($product) eq "CODE") { $delim_l . join($separator, map { &$product } @items) . $delim_r; } else { $product; } } =back =cut 1;