#*************************************************************************** # _ _ ____ _ # Project ___| | | | _ \| | # / __| | | | |_) | | # | (__| |_| | _ <| |___ # \___|\___/|_| \_\_____| # # Copyright (C) 1998 - 2012, Daniel Stenberg, <daniel@haxx.se>, et al. # # This software is licensed as described in the file COPYING, which # you should have received as part of this distribution. The terms # are also available at https://curl.haxx.se/docs/copyright.html. # # You may opt to use, copy, modify, merge, publish, distribute and/or sell # copies of the Software, and permit persons to whom the Software is # furnished to do so, under the terms of the COPYING file. # # This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY # KIND, either express or implied. # ########################################################################### #use strict; my @xml; my $warning=0; my $trace=0; sub decode_base64 { tr:A-Za-z0-9+/::cd; # remove non-base64 chars tr:A-Za-z0-9+/: -_:; # convert to uuencoded format my $len = pack("c", 32 + 0.75*length); # compute length byte return unpack("u", $len . $_); # uudecode and print } sub getpartattr { # if $part is undefined (ie only one argument) then # return the attributes of the section my ($section, $part)=@_; my %hash; my $inside=0; # print "Section: $section, part: $part\n"; for(@xml) { # print "$inside: $_"; if(!$inside && ($_ =~ /^ *\<$section/)) { $inside++; } if((1 ==$inside) && ( ($_ =~ /^ *\<$part([^>]*)/) || !(defined($part)) ) ) { $inside++; my $attr=$1; while($attr =~ s/ *([^=]*)= *(\"([^\"]*)\"|([^\> ]*))//) { my ($var, $cont)=($1, $2); $cont =~ s/^\"(.*)\"$/$1/; $hash{$var}=$cont; } last; } # detect end of section when part wasn't found elsif((1 ==$inside) && ($_ =~ /^ *\<\/$section\>/)) { last; } elsif((2 ==$inside) && ($_ =~ /^ *\<\/$part/)) { $inside--; } } return %hash; } sub getpart { my ($section, $part)=@_; my @this; my $inside=0; my $base64=0; # print "Section: $section, part: $part\n"; for(@xml) { # print "$inside: $_"; if(!$inside && ($_ =~ /^ *\<$section/)) { $inside++; } elsif(($inside >= 1) && ($_ =~ /^ *\<$part[ \>]/)) { if($inside > 1) { push @this, $_; } elsif($_ =~ /$part [^>]*base64=/) { # attempt to detect our base64 encoded part $base64=1; } $inside++; } elsif(($inside >= 2) && ($_ =~ /^ *\<\/$part[ \>]/)) { if($inside > 2) { push @this, $_; } $inside--; } elsif(($inside >= 1) && ($_ =~ /^ *\<\/$section/)) { if($trace && @this) { print STDERR "*** getpart.pm: $section/$part returned data!\n"; } if($warning && !@this) { print STDERR "*** getpart.pm: $section/$part returned empty!\n"; } if($base64) { # decode the whole array before returning it! for(@this) { my $decoded = decode_base64($_); $_ = $decoded; } } return @this; } elsif($inside >= 2) { push @this, $_; } } if($trace && @this) { # section/part has data but end of section not detected, # end of file implies end of section. print STDERR "*** getpart.pm: $section/$part returned data!\n"; } if($warning && !@this) { # section/part does not exist or has no data without an end of # section; end of file implies end of section. print STDERR "*** getpart.pm: $section/$part returned empty!\n"; } return @this; } sub partexists { my ($section, $part)=@_; my $inside = 0; for(@xml) { if(!$inside && ($_ =~ /^ *\<$section/)) { $inside++; } elsif((1 == $inside) && ($_ =~ /^ *\<$part[ \>]/)) { return 1; # exists } elsif((1 == $inside) && ($_ =~ /^ *\<\/$section/)) { return 0; # does not exist } } return 0; # does not exist } # Return entire document as list of lines sub getall { return @xml; } sub loadtest { my ($file)=@_; undef @xml; if(open(XML, "<$file")) { binmode XML; # for crapage systems, use binary while(<XML>) { push @xml, $_; } close(XML); } else { # failure if($warning) { print STDERR "file $file wouldn't open!\n"; } return 1; } return 0; } # # Strip off all lines that match the specified pattern and return # the new array. # sub striparray { my ($pattern, $arrayref) = @_; my @array; for(@$arrayref) { if($_ !~ /$pattern/) { push @array, $_; } } return @array; } # # pass array *REFERENCES* ! # sub compareparts { my ($firstref, $secondref)=@_; my $first = join("", @$firstref); my $second = join("", @$secondref); # we cannot compare arrays index per index since with the base64 chunks, # they may not be "evenly" distributed # NOTE: this no longer strips off carriage returns from the arrays. Is that # really necessary? It ruins the testing of newlines. I believe it was once # added to enable tests on win32. if($first ne $second) { return 1; } return 0; } # # Write a given array to the specified file # sub writearray { my ($filename, $arrayref)=@_; open(TEMP, ">$filename"); binmode(TEMP,":raw"); # cygwin fix by Kevin Roth for(@$arrayref) { print TEMP $_; } close(TEMP); } # # Load a specified file and return it as an array # sub loadarray { my ($filename)=@_; my @array; open(TEMP, "<$filename"); while(<TEMP>) { push @array, $_; } close(TEMP); return @array; } # Given two array references, this function will store them in two temporary # files, run 'diff' on them, store the result and return the diff output! sub showdiff { my ($logdir, $firstref, $secondref)=@_; my $file1="$logdir/check-generated"; my $file2="$logdir/check-expected"; open(TEMP, ">$file1"); for(@$firstref) { my $l = $_; $l =~ s/\r/[CR]/g; $l =~ s/\n/[LF]/g; print TEMP $l; print TEMP "\n"; } close(TEMP); open(TEMP, ">$file2"); for(@$secondref) { my $l = $_; $l =~ s/\r/[CR]/g; $l =~ s/\n/[LF]/g; print TEMP $l; print TEMP "\n"; } close(TEMP); my @out = `diff -u $file2 $file1 2>/dev/null`; if(!$out[0]) { @out = `diff -c $file2 $file1 2>/dev/null`; } return @out; } 1;