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# SPDX-License-Identifier: GPL-2.0-or-later package Amavis::Unpackers; use strict; use re 'taint'; use warnings; use warnings FATAL => qw(utf8 void); no warnings 'uninitialized'; # use warnings 'extra'; no warnings 'experimental::re_strict'; use re 'strict'; BEGIN { require Exporter; use vars qw(@ISA @EXPORT @EXPORT_OK %EXPORT_TAGS $VERSION); $VERSION = '2.412'; @ISA = qw(Exporter); @EXPORT_OK = qw(&init &decompose_part &determine_file_types); } use Amavis::Conf qw(:platform :confvars $file c cr ca); use Amavis::ProcControl qw(exit_status_str proc_status_ok run_command kill_proc collect_results collect_results_structured); use Amavis::Timing qw(section_time); use Amavis::Unpackers::MIME qw(mime_decode); use Amavis::Unpackers::NewFilename qw(consumed_bytes); use Amavis::Unpackers::Part; use Amavis::Util qw(untaint min max minmax ll do_log snmp_count prolong_timer rmdir_recursively add_entropy); BEGIN { use vars qw($filemagic); eval { require File::LibMagic; File::LibMagic->VERSION(1.00); import File::LibMagic; $filemagic = File::LibMagic->new; } or do { undef $filemagic; }; } use subs @EXPORT_OK; use Errno qw(ENOENT EACCES EINTR EAGAIN); use POSIX qw(SIGALRM); use IO::File qw(O_CREAT O_EXCL O_WRONLY); use Time::HiRes (); use File::Basename qw(basename); use Compress::Zlib 1.35; # avoid security vulnerability in <= 1.34 use Archive::Zip 1.14 qw(:CONSTANTS :ERROR_CODES); use Amavis::Lookup qw(lookup lookup2); # recursively descend into a directory $dir containing potentially unsafe # files with unpredictable names, soft links, etc., rename each regular # nonempty file to a directory $outdir giving it a generated name, # and discard all the rest, including the directory $dir. # Return a pair: number of bytes that 'sanitized' files now occupy, # and a number of parts-objects created. # sub flatten_and_tidy_dir($$$;$$); # prototype sub flatten_and_tidy_dir($$$;$$) { my($dir, $outdir, $parent_obj, $item_num_offset, $orig_names) = @_; do_log(4, 'flatten_and_tidy_dir: processing directory "%s"', $dir); my $consumed_bytes = 0; my $item_num = 0; my $parent_placement = $parent_obj->mime_placement; chmod(0750, $dir) or die "Can't change protection of \"$dir\": $!"; local(*DIR); opendir(DIR,$dir) or die "Can't open directory \"$dir\": $!"; # modifying a directory while traversing it can cause surprises, avoid; # avoid slurping the whole directory contents into memory my($f, @rmfiles, @renames, @recurse); while (defined($f = readdir(DIR))) { next if $f eq '.' || $f eq '..'; my $msg; my $fname = $dir . '/' . $f; my(@stat_list) = lstat($fname); my $errn = @stat_list ? 0 : 0+$!; if ($errn == ENOENT) { $msg = "does not exist" } elsif ($errn) { $msg = "inaccessible: $!" } if (defined $msg) { die "flatten_and_tidy_dir: \"$fname\" $msg," } add_entropy(@stat_list); my $newpart_obj = Amavis::Unpackers::Part->new($outdir,$parent_obj); $item_num++; $newpart_obj->mime_placement(sprintf("%s/%d", $parent_placement, $item_num+$item_num_offset) ); # save tainted original member name if available, or a tainted file name my $original_name = !ref($orig_names) ? undef : $orig_names->{$f}; $newpart_obj->name_declared(defined $original_name ? $original_name : $f); # untaint, but if $dir happens to still be tainted, we want to know and die $fname = $dir . '/' . untaint($f); if (-d _) { $newpart_obj->attributes_add('D'); push(@recurse, $fname); } elsif (-l _) { $newpart_obj->attributes_add('L'); push(@rmfiles, [$fname, 'soft link']); } elsif (!-f _) { $newpart_obj->attributes_add('S'); push(@rmfiles, [$fname, 'nonregular file']); } elsif (-z _) { push(@rmfiles, [$fname, 'empty file']); } else { chmod(0750, $fname) or die "Can't change protection of file \"$fname\": $!"; my $size = 0 + (-s _); $newpart_obj->size($size); $consumed_bytes += $size; my $newpart = $newpart_obj->full_name; push(@renames, [$fname, $newpart, $original_name]); } } closedir(DIR) or die "Error closing directory \"$dir\": $!"; my $cnt_u = scalar(@rmfiles); for my $pair (@rmfiles) { my($fname,$what) = @$pair; do_log(5,'flatten_and_tidy_dir: deleting %s "%s"', $what,$fname); unlink($fname) or die "Can't remove $what \"$fname\": $!"; } undef @rmfiles; my $cnt_r = scalar(@renames); for my $tuple (@renames) { my($fname,$newpart,$original_name) = @$tuple; ll(5) && do_log(5,'flatten_and_tidy_dir: renaming "%s"%s to %s', $fname, !defined $original_name ? '' : " ($original_name)", $newpart); rename($fname,$newpart) or die "Can't rename \"$fname\" to $newpart: $!"; } undef @renames; for my $fname (@recurse) { do_log(5,'flatten_and_tidy_dir: descending into subdir "%s"', $fname); my($bytes,$cnt) = flatten_and_tidy_dir($fname, $outdir, $parent_obj, $item_num+$item_num_offset, $orig_names); $consumed_bytes += $bytes; $item_num += $cnt; } rmdir($dir) or die "Can't remove directory \"$dir\": $!"; section_time("ren$cnt_r-unl$cnt_u-files$item_num"); ($consumed_bytes, $item_num); } sub determine_file_types($$) { my($tempdir, $partslist_ref) = @_; if ($filemagic) { determine_file_types_libmagic($tempdir, $partslist_ref); } elsif (defined $file && $file ne '') { determine_file_types_fileutility($tempdir, $partslist_ref); } else { die "Neither File::LibMagic nor Unix utility file(1) are available"; } } # associate full and short file content types with each part # based on libmagic (uses File::LibMagic module) # sub determine_file_types_libmagic($$) { my($tempdir, $partslist_ref) = @_; my(@all_part_list) = grep($_->exists, @$partslist_ref); my $initial_num_parts = scalar(@all_part_list); do_log(5, 'using File::LibMagic on %d files', $initial_num_parts); for my $part (@all_part_list) { my($type_long, $type_short); eval { $type_long = $filemagic->describe_filename($part->full_name); 1; } or do { my $eval_stat = $@ ne '' ? $@ : "errno=$!"; chomp $eval_stat; do_log(0, 'File::LibMagic::describe_filename failed on %s: %s', $part->base_name, $eval_stat); }; if (defined $type_long) { $type_short = lookup2(0,$type_long,\@map_full_type_to_short_type_maps); ll(4) && do_log(4, "File-type of %s: %s%s", $part->base_name, $type_long, (!defined $type_short ? '' : !ref $type_short ? "; ($type_short)" : '; (' . join(', ',@$type_short) . ')' ) ); $part->type_long($type_long); $part->type_short($type_short); $part->attributes_add('C') if !ref($type_short) ? $type_short eq 'pgp.enc' # encrypted? : grep($_ eq 'pgp.enc', @$type_short); } } section_time(sprintf('get-file-type%d', $initial_num_parts)); 1; } # call 'file(1)' utility for each part, # and associate full and short file content types with each part # sub determine_file_types_fileutility($$) { my($tempdir, $partslist_ref) = @_; defined $file && $file ne '' or die "Unix utility file(1) not available, but is needed"; my(@all_part_list) = grep($_->exists, @$partslist_ref); my $initial_num_parts = scalar(@all_part_list); my $cwd = "$tempdir/parts"; if (@all_part_list) { chdir($cwd) or die "Can't chdir to $cwd: $!" } my($proc_fh,$pid); my $eval_stat; eval { while (@all_part_list) { my(@part_list,@file_list); # collect reasonably small subset of filenames my $arglist_size = length($file); # size of a command name itself while (@all_part_list) { # collect as many args as safe, at least one my $nm = $all_part_list[0]->full_name; local($1); $nm =~ s{^\Q$cwd\E/(.*)\z}{$1}s; # remove cwd from filename # POSIX requires 4 kB as a minimum buffer size for program arguments last if @file_list && $arglist_size + length($nm) + 1 > 4000; push(@part_list, shift(@all_part_list)); # swallow the next one push(@file_list, $nm); $arglist_size += length($nm) + 1; } if (scalar(@file_list) < $initial_num_parts) { do_log(2, "running file(1) on %d (out of %d) files, arglist size %d", scalar(@file_list), $initial_num_parts, $arglist_size); } else { do_log(5, "running file(1) on %d files, arglist size %d", scalar(@file_list), $arglist_size); } ($proc_fh,$pid) = run_command(undef, '&1', $file, @file_list); my $index = 0; my $ln; for ($! = 0; defined($ln=$proc_fh->getline); $! = 0) { do_log(5, "result line from file(1): %s", $ln); chomp($ln); local($1,$2); if ($index > $#file_list) { do_log(-1,"NOTICE: Skipping unexpected output from file(1): %s",$ln); } else { my $part = $part_list[$index]; # walk through @part_list in sync my $expect = $file_list[$index]; # walk through @file_list in sync if ($ln !~ /^(\Q$expect\E):[ \t]*(.*)\z/s) { # split file name from type do_log(-1,"NOTICE: Skipping bad output from file(1) ". "at [%d, %s], got: %s", $index,$expect,$ln); } else { my $type_short; my $actual_name = $1; my $type_long = $2; $type_short = lookup2(0,$type_long,\@map_full_type_to_short_type_maps); ll(4) && do_log(4, "File-type of %s: %s%s", $part->base_name, $type_long, (!defined $type_short ? '' : !ref $type_short ? "; ($type_short)" : '; (' . join(', ',@$type_short) . ')' ) ); $part->type_long($type_long); $part->type_short($type_short); $part->attributes_add('C') if !ref($type_short) ? $type_short eq 'pgp.enc' # encrypted? : grep($_ eq 'pgp.enc', @$type_short); $index++; } } } defined $ln || $! == 0 || $! == EAGAIN or die "Error reading from file(1) utility: $!"; do_log(-1,"unexpected(file): %s",$!) if !defined($ln) && $! == EAGAIN; my $err = 0; $proc_fh->close or $err = $!; my $child_stat = defined $pid && waitpid($pid,0) > 0 ? $? : undef; undef $proc_fh; undef $pid; my(@errmsg); # exit status is 1 when result is 'ERROR: ...', accept it mercifully proc_status_ok($child_stat,$err, 0,1) or push(@errmsg, "failed, ".exit_status_str($child_stat,$err)); if ($index < @part_list) { push(@errmsg, sprintf("parsing failure - missing last %d results", @part_list - $index)); } !@errmsg or die join(", ",@errmsg); # even though exit status 1 is accepted, log a warning nevertheless proc_status_ok($child_stat,$err) or do_log(-1, "file utility failed: %s", exit_status_str($child_stat,$err)); } 1; } or do { $eval_stat = $@ ne '' ? $@ : "errno=$!"; chomp $eval_stat; kill_proc($pid,$file,1,$proc_fh,$eval_stat) if defined $pid; }; chdir($tempdir) or die "Can't chdir to $tempdir: $!"; section_time(sprintf('get-file-type%d', $initial_num_parts)); if (defined $eval_stat) { do_log(-2, "file(1) utility (%s) FAILED: %s", $file,$eval_stat); # die "file(1) utility ($file) error: $eval_stat"; } 1; } sub decompose_mail($$) { my($tempdir,$file_generator_object) = @_; my $hold; my(@parts); my $depth = 1; my($any_undecipherable, $any_encrypted, $over_levels, $ambiguous) = (0,0,0,0); my $which_section = "parts_decode"; # fetch all not-yet-visited part names, and start a new cycle TIER: while (@parts = @{$file_generator_object->parts_list}) { if ($MAXLEVELS > 0 && $depth > $MAXLEVELS) { $over_levels = 1; $hold = "Maximum decoding depth ($MAXLEVELS) exceeded"; last; } $file_generator_object->parts_list_reset; # new cycle of names # clip to avoid very long log entries my(@chopped_parts) = @parts > 5 ? @parts[0..4] : @parts; ll(4) && do_log(4,"decode_parts: level=%d, #parts=%d : %s", $depth, scalar(@parts), join(', ', (map($_->base_name, @chopped_parts)), (@chopped_parts >= @parts ? () : "...")) ); for my $part (@parts) { # test for existence of all expected files my $fname = $part->full_name; my $errn = 0; if ($fname eq '') { $errn = ENOENT } else { my(@stat_list) = lstat($fname); if (@stat_list) { add_entropy(@stat_list) } else { $errn = 0+$! } } if ($errn == ENOENT) { $part->exists(0); # $part->type_short('no-file') if !defined $part->type_short; } elsif ($errn) { die "decompose_mail: inaccessible file $fname: $!"; } elsif (!-f _) { # not a regular file my $what = -l _ ? 'symlink' : -d _ ? 'directory' : 'non-regular file'; do_log(-1, "WARN: decompose_mail: removing unexpected %s %s", $what,$fname); if (-d _) { rmdir_recursively($fname) } else { unlink($fname) or die "Can't delete $what $fname: $!" } $part->exists(0); $part->type_short(-l _ ? 'symlink' : -d _ ? 'dir' : 'special') if !defined $part->type_short; } elsif (-z _) { # empty file unlink($fname) or die "Can't remove \"$fname\": $!"; $part->exists(0); $part->type_short('empty') if !defined $part->type_short; $part->type_long('empty') if !defined $part->type_long; } else { $part->exists(1); } } if (!defined $file || $file eq '') { do_log(5,'utility file(1) not available, skipping determine_file_types'); } else { determine_file_types($tempdir, \@parts); } for my $part (@parts) { if ($part->exists && !defined($hold)) { my($hold_tmp, $over_levels_tmp) = decompose_part($part, $tempdir); $hold = $hold_tmp if $hold_tmp; $over_levels ||= $over_levels_tmp; } my $attr = $part->attributes; if (defined $attr) { $any_undecipherable++ if index($attr, 'U') >= 0; $any_encrypted++ if index($attr, 'C') >= 0; $ambiguous++ if index($attr, 'B') >= 0; } } last TIER if defined $hold; $depth++; } section_time($which_section); prolong_timer($which_section); ($hold, $any_undecipherable, $any_encrypted, $over_levels, $ambiguous); } # Decompose one part # sub decompose_part($$) { my($part, $tempdir) = @_; # possible return values from eval: # 0 - truly atomic or unknown or archiver failure; consider atomic # 1 - some archive, successfully unpacked, result replaces original # 2 - probably unpacked, but keep the original (eg self-extracting archive) my $hold; my $eval_stat; my($sts, $any_called, $over_levels) = (0,0,0); eval { my $type_short = $part->type_short; my(@ts) = !defined $type_short ? () : !ref $type_short ? ($type_short) : @$type_short; if (@ts) { # when one or more short types are known snmp_count("OpsDecType-".join('.',@ts)); for my $dec_tuple (@{ca('decoders')}) { # first matching decoder wins next if !defined $dec_tuple; my($short_types, $code, @args) = @$dec_tuple; if ($code && grep(ref $short_types ? $short_types->{$_} : $_ eq $short_types, @ts)) { $any_called = 1; $sts = &$code($part,$tempdir,@args); last; } } } 1; } or do { $eval_stat = $@ ne '' ? $@ : "errno=$!"; chomp $eval_stat; my $ll = -1; if ($eval_stat =~ /\bExceeded storage quota\b.*\bbytes by/ || $eval_stat =~ /\bMaximum number of files\b.*\bexceeded/) { $hold = $eval_stat; $ll = 1; $over_levels = 1; } do_log($ll,"Decoding of %s (%s) failed, leaving it unpacked: %s", $part->base_name, $part->type_long, $eval_stat); $sts = 2; # keep the original, along with possible decoded files }; if ($any_called) { chdir($tempdir) or die "Can't chdir to $tempdir: $!"; # just in case } if ($sts == 1 && lookup2(0,$part->type_long,\@keep_decoded_original_maps)) { # don't trust this file type or unpacker, # keep both the original and the unpacked file ll(4) && do_log(4,"file type is %s, retain original %s", $part->type_long, $part->base_name); $sts = 2; # keep the original, along with possible decoded files } if ($sts == 1) { ll(5) && do_log(5,"decompose_part: deleting %s", $part->full_name); unlink($part->full_name) or die sprintf("Can't unlink %s: %s", $part->full_name, $!); } ll(4) && do_log(4,"decompose_part: %s - %s", $part->base_name, ['atomic','archive, unpacked','source retained']->[$sts]); section_time('decompose_part') if $any_called; die $eval_stat if $eval_stat =~ /^timed out\b/; # resignal timeout ($hold, $over_levels); } # a trivial wrapper around mime_decode() to adjust arguments and result # sub do_mime_decode($$) { my($part, $tempdir) = @_; mime_decode($part,$tempdir,$part); 2; # probably unpacked, but keep the original mail }; # # Uncompression/unarchiving routines # Possible return codes: # 0 - truly atomic or unknown or archiver failure; consider atomic # 1 - some archiver format, successfully unpacked, result replaces original # 2 - probably unpacked, but keep the original (eg self-extracting archive) # if ASCII text, try multiple decoding methods as provided by UUlib # (uuencoded, xxencoded, BinHex, yEnc, Base64, Quoted-Printable) # use vars qw($have_uulib_module); sub do_ascii($$) { my($part, $tempdir) = @_; ll(4) && do_log(4,"do_ascii: Decoding part %s", $part->base_name); if (!defined $have_uulib_module) { eval { require Convert::UUlib && ($have_uulib_module = 1); # avoid an exploitable security hole in Convert::UUlib 1.04 and older Convert::UUlib->VERSION(1.05); # 1.08 or newer is preferred! $have_uulib_module; } or do { $have_uulib_module = 0; chomp $@; $@ =~ s/ \(you may need to install the .*\z//i; do_log(5,"do_ascii: module Convert::UULIB unavailable: %s", $@); }; } return 0 if !$have_uulib_module; snmp_count('OpsDecByUUlibAttempt'); # prevent uunconc.c/UUDecode() from trying to create a temp file in '/' my $old_env_tmpdir = $ENV{TMPDIR}; $ENV{TMPDIR} = "$tempdir/parts"; my $any_errors = 0; my $any_decoded = 0; alarm(0); # stop the timer local($SIG{ALRM}); my($sigset,$action,$oldaction); if ($] < 5.008) { # in old Perl signals could be delivered at any time $SIG{ALRM} = sub { die "timed out\n" }; } elsif ($] < 5.008001) { # Perl 5.8.0 # 5.8.0 does not have POSIX::SigAction::safe but uses safe signals, which # means a runaway uulib can't be aborted; tough luck, upgrade your Perl! $SIG{ALRM} = sub { die "timed out\n" }; # old way, but won't abort } else { # Perl >= 5.8.0 has 'safe signals', and SigAction::safe available # POSIX::sigaction can bypass safe Perl signals on request; # alternatively, use Perl module Sys::SigAction $sigset = POSIX::SigSet->new(SIGALRM); $oldaction = POSIX::SigAction->new; $action = POSIX::SigAction->new(sub { die "timed out\n" }, $sigset, &POSIX::SA_RESETHAND); $action->safe(1); POSIX::sigaction(SIGALRM,$action,$oldaction) or die "Can't set ALRM handler: $!"; do_log(4,"do_ascii: Setting sigaction handler, was %d", $oldaction->safe); } my $eval_stat; eval { # must not go away without calling Convert::UUlib::CleanUp ! my($sts,$count); prolong_timer('do_ascii_pre'); # restart timer $sts = Convert::UUlib::Initialize(); $sts = 0 if !defined $sts; # avoid Use of uninit. value in numeric eq (==) $sts == Convert::UUlib::RET_OK() or die "Convert::UUlib::Initialize failed: ". Convert::UUlib::strerror($sts); my $uulib_version = Convert::UUlib::GetOption(Convert::UUlib::OPT_VERSION()); !Convert::UUlib::SetOption(Convert::UUlib::OPT_IGNMODE(), 1) or die "bad uulib OPT_IGNMODE"; # !Convert::UUlib::SetOption(Convert::UUlib::OPT_DESPERATE(), 1) # or die "bad uulib OPT_DESPERATE"; if (defined $action) { $action->safe(0); # bypass safe Perl signals POSIX::sigaction(SIGALRM,$action) or die "Can't set ALRM handler: $!"; } # may take looong time on malformed messages, allow it to be interrupted ($sts, $count) = Convert::UUlib::LoadFile($part->full_name); if (defined $action) { $action->safe(1); # re-establish safe signal handling POSIX::sigaction(SIGALRM,$action) or die "Can't set ALRM handler: $!"; } if ($sts != Convert::UUlib::RET_OK()) { my $errmsg = Convert::UUlib::strerror($sts) . ": $!"; $errmsg .= ", (???" . Convert::UUlib::strerror( Convert::UUlib::GetOption(Convert::UUlib::OPT_ERRNO()))."???)" if $sts == Convert::UUlib::RET_IOERR(); die "Convert::UUlib::LoadFile (uulib V$uulib_version) failed: $errmsg"; } ll(4) && do_log(4,"do_ascii: Decoding part %s (%d items), uulib V%s", $part->base_name, $count, $uulib_version); my $uu; my $item_num = 0; my $parent_placement = $part->mime_placement; for (my $j = 0; $uu = Convert::UUlib::GetFileListItem($j); $j++) { $item_num++; ll(4) && do_log(4, "do_ascii(%d): state=0x%02x, enc=%s%s, est.size=%s, name=%s", $j, $uu->state, Convert::UUlib::strencoding($uu->uudet), ($uu->mimetype ne '' ? ", mimetype=" . $uu->mimetype : ''), $uu->size, $uu->filename); if (!($uu->state & Convert::UUlib::FILE_OK())) { $any_errors = 1; do_log(1,"do_ascii: Convert::UUlib info: %s not decodable, %s", $j,$uu->state); } else { my $newpart_obj = Amavis::Unpackers::Part->new("$tempdir/parts",$part); $newpart_obj->mime_placement("$parent_placement/$item_num"); $newpart_obj->name_declared($uu->filename); my $newpart = $newpart_obj->full_name; if (defined $action) { $action->safe(0); # bypass safe Perl signals POSIX::sigaction(SIGALRM,$action) or die "Can't set ALRM handlr: $!"; } $! = 0; $sts = $uu->decode($newpart); # decode to file $newpart my $err_decode = "$!"; if (defined $action) { $action->safe(1); # re-establish safe signal handling POSIX::sigaction(SIGALRM,$action) or die "Can't set ALRM handlr: $!"; } chmod(0750, $newpart) or $! == ENOENT # chmod, don't panic if no file or die "Can't change protection of \"$newpart\": $!"; my $statmsg; my $errn = lstat($newpart) ? 0 : 0+$!; if ($errn == ENOENT) { $statmsg = "does not exist" } elsif ($errn) { $statmsg = "inaccessible: $!" } elsif ( -l _) { $statmsg = "is a symlink" } elsif ( -d _) { $statmsg = "is a directory" } elsif (!-f _) { $statmsg = "not a regular file" } if (defined $statmsg) { $statmsg = "; file status: $newpart $statmsg" } my $size = 0 + (-s _); $newpart_obj->size($size); consumed_bytes($size, 'do_ascii'); if ($sts == Convert::UUlib::RET_OK() && $errn==0) { $any_decoded = 1; do_log(4,"do_ascii: RET_OK%s", $statmsg) if defined $statmsg; } elsif ($sts == Convert::UUlib::RET_NODATA() || $sts == Convert::UUlib::RET_NOEND()) { $any_errors = 1; do_log(-1,"do_ascii: Convert::UUlib error: %s%s", Convert::UUlib::strerror($sts), $statmsg); } else { $any_errors = 1; my $errmsg = Convert::UUlib::strerror($sts) . ":: $err_decode"; $errmsg .= ", " . Convert::UUlib::strerror( Convert::UUlib::GetOption(Convert::UUlib::OPT_ERRNO()) ) if $sts == Convert::UUlib::RET_IOERR(); die("Convert::UUlib failed: " . $errmsg . $statmsg); } } } 1; } or do { $eval_stat = $@ ne '' ? $@ : "errno=$!" }; prolong_timer('do_ascii'); # restart timer if (defined $oldaction) { POSIX::sigaction(SIGALRM,$oldaction) or die "Can't restore ALRM handler: $!"; } Convert::UUlib::CleanUp(); snmp_count('OpsDecByUUlib') if $any_decoded; if (defined $old_env_tmpdir) { $ENV{TMPDIR} = $old_env_tmpdir } else { delete $ENV{TMPDIR} } if (defined $eval_stat) { chomp $eval_stat; die "do_ascii: $eval_stat\n" } $any_errors ? 2 : $any_decoded ? 1 : 0; } # use Archive-Zip # sub do_unzip($$;$$) { my($part, $tempdir, $archiver_dummy, $testing_for_sfx) = @_; ll(4) && do_log(4, "Unzipping %s", $part->base_name); # avoid DoS vulnerability in < 2.017, CVE-2009-1391 # Compress::Raw::Zlib->VERSION(2.017); # module not loaded snmp_count('OpsDecByArZipAttempt'); my $zip = Archive::Zip->new; my(@err_nm) = qw(AZ_OK AZ_STREAM_END AZ_ERROR AZ_FORMAT_ERROR AZ_IO_ERROR); my $retval = 1; # need to set up a temporary minimal error handler Archive::Zip::setErrorHandler(sub { return 5 }); my $sts = $zip->read($part->full_name); Archive::Zip::setErrorHandler(sub { die @_ }); my($any_unsupp_compmeth,$any_zero_length); my($encryptedcount,$extractedcount) = (0,0); if ($sts != AZ_OK) { # not a zip? corrupted zip file? other errors? if ($testing_for_sfx && $sts == AZ_FORMAT_ERROR) { # a normal status for executable that is not a self extracting archive do_log(4, "do_unzip: ok, exe is not a zip sfx: %s (%s)", $err_nm[$sts], $sts); } else { do_log(-1, "do_unzip: not a zip: %s (%s)", $err_nm[$sts], $sts); # $part->attributes_add('U'); # perhaps not, it flags as **UNCHECKED** too # # many bounces containing chopped-off zip } $retval = 0; } else { my $item_num = 0; my $parent_placement = $part->mime_placement; for my $mem ($zip->members) { my $newpart_obj = Amavis::Unpackers::Part->new("$tempdir/parts",$part); $item_num++; $newpart_obj->mime_placement("$parent_placement/$item_num"); $newpart_obj->name_declared($mem->fileName); my $compmeth = $mem->compressionMethod; if ($compmeth!=COMPRESSION_DEFLATED && $compmeth!=COMPRESSION_STORED) { $any_unsupp_compmeth = $compmeth; $newpart_obj->attributes_add('U'); } elsif ($mem->isEncrypted) { $encryptedcount++; $newpart_obj->attributes_add('U','C'); } elsif ($mem->isDirectory) { $newpart_obj->attributes_add('D'); } else { # want to read uncompressed - set to COMPRESSION_STORED my $oldc = $mem->desiredCompressionMethod(COMPRESSION_STORED); $sts = $mem->rewindData; $sts == AZ_OK or die sprintf("%s: error rew. member data: %s (%s)", $part->base_name, $err_nm[$sts], $sts); my $newpart = $newpart_obj->full_name; my $outpart = IO::File->new; # O_WRONLY etc. can become tainted in Perl5.8.9 [perlbug #62502] $outpart->open($newpart, untaint(O_CREAT|O_EXCL|O_WRONLY), 0640) or die "Can't create file $newpart: $!"; binmode($outpart) or die "Can't set file $newpart to binmode: $!"; my $size = 0; while ($sts == AZ_OK) { my $buf_ref; ($buf_ref, $sts) = $mem->readChunk; $sts == AZ_OK || $sts == AZ_STREAM_END or die sprintf("%s: error reading member: %s (%s)", $part->base_name, $err_nm[$sts], $sts); my $buf_len = length($$buf_ref); if ($buf_len > 0) { $size += $buf_len; $outpart->print($$buf_ref) or die "Can't write to $newpart: $!"; consumed_bytes($buf_len, 'do_unzip'); } } $any_zero_length = 1 if $size == 0; $newpart_obj->size($size); $outpart->close or die "Error closing $newpart: $!"; $mem->desiredCompressionMethod($oldc); $mem->endRead; $extractedcount++; } } snmp_count('OpsDecByArZip'); } if ($any_unsupp_compmeth) { $retval = 2; do_log(-1, "do_unzip: %s, unsupported compression method: %s", $part->base_name, $any_unsupp_compmeth); } elsif ($any_zero_length) { # possible zip vulnerability exploit $retval = 2; do_log(1, "do_unzip: %s, members of zero length, archive retained", $part->base_name); } elsif ($encryptedcount) { $retval = 2; do_log(1, "do_unzip: %s, %d members are encrypted, %s extracted, archive retained", $part->base_name, $encryptedcount, !$extractedcount ? 'none' : $extractedcount); } $retval; } # use external decompressor program from the compress/gzip/bzip2/xz/lz4 family # sub do_uncompress($$$) { my($part, $tempdir, $decompressor) = @_; ll(4) && do_log(4,"do_uncompress %s by %s", $part->base_name,$decompressor); my $decompressor_name = basename((split(' ',$decompressor))[0]); snmp_count("OpsDecBy\u${decompressor_name}"); my $newpart_obj = Amavis::Unpackers::Part->new("$tempdir/parts",$part); $newpart_obj->mime_placement($part->mime_placement."/1"); my $newpart = $newpart_obj->full_name; my($type_short, $name_declared) = ($part->type_short, $part->name_declared); local($1); my(@rn); # collect recommended file names push(@rn,$1) if $part->type_long =~ /^\S+\s+compressed data, was "(.+)"(\z|, from\b)/; for my $name_d (!ref $name_declared ? ($name_declared) : @$name_declared) { next if $name_d eq ''; my $name = $name_d; for (!ref $type_short ? ($type_short) : @$type_short) { $_ eq 'F' and $name=~s/\.F\z//; $_ eq 'Z' and $name=~s/\.Z\z// || $name=~s/\.tg?z\z/.tar/; $_ eq 'gz' and $name=~s/\.gz\z// || $name=~s/\.tgz\z/.tar/; $_ eq 'bz' and $name=~s/\.bz\z// || $name=~s/\.tbz\z/.tar/; $_ eq 'bz2' and $name=~s/\.bz2?\z// || $name=~s/\.tbz2?\z/.tar/; $_ eq 'xz' and $name=~s/\.xz\z// || $name=~s/\.txz\z/.tar/; $_ eq 'lzma' and $name=~s/\.lzma\z// || $name=~s/\.tlz\z/.tar/; $_ eq 'lrz' and $name=~s/\.lrz\z//; $_ eq 'lzo' and $name=~s/\.lzo\z//; $_ eq 'lz4' and $name=~s/\.lz4\z//; $_ eq 'rpm' and $name=~s/\.rpm\z/.cpio/; $_ eq 'zst' and $name=~s/\.zst\z//; } push(@rn,$name) if !grep($_ eq $name, @rn); } $newpart_obj->name_declared(@rn==1 ? $rn[0] : \@rn) if @rn; my($proc_fh,$pid); my $retval = 1; prolong_timer('do_uncompress_pre'); # restart timer my $eval_stat; eval { ($proc_fh,$pid) = run_command($part->full_name, '/dev/null', split(' ',$decompressor)); my($rv,$err) = run_command_copy($newpart,$proc_fh,$pid); # may die undef $proc_fh; undef $pid; if (!proc_status_ok($rv,$err)) { # unlink($newpart) or die "Can't unlink $newpart: $!"; my $msg = sprintf('Error running decompressor %s on %s, %s', $decompressor, $part->base_name, exit_status_str($rv,$err)); # bzip2 and gzip use status 2 as a warning about corrupted file if (proc_status_ok($rv,$err, 2)) {do_log(0,"%s",$msg)} else {die $msg} } 1; } or do { $eval_stat = $@ ne '' ? $@ : "errno=$!" }; prolong_timer('do_uncompress'); # restart timer if (defined $eval_stat) { $retval = 0; chomp $eval_stat; kill_proc($pid,$decompressor,1,$proc_fh,$eval_stat) if defined $pid; undef $proc_fh; undef $pid; die "do_uncompress: $eval_stat\n"; # propagate failure } $retval; } # use Compress::Zlib to inflate # sub do_gunzip($$) { my($part, $tempdir) = @_; my $retval = 0; do_log(4, "Inflating gzip archive %s", $part->base_name); snmp_count('OpsDecByZlib'); my $gz = Amavis::IO::Zlib->new; $gz->open($part->full_name,'rb') or die("do_gunzip: Can't open gzip file ".$part->full_name.": $!"); my $newpart_obj = Amavis::Unpackers::Part->new("$tempdir/parts",$part); $newpart_obj->mime_placement($part->mime_placement."/1"); my $newpart = $newpart_obj->full_name; my $outpart = IO::File->new; # O_WRONLY etc. can become tainted in Perl5.8.9 [perlbug #62502] $outpart->open($newpart, untaint(O_CREAT|O_EXCL|O_WRONLY), 0640) or die "Can't create file $newpart: $!"; binmode($outpart) or die "Can't set file $newpart to binmode: $!"; my($nbytes,$buff); my $size = 0; while (($nbytes=$gz->read($buff,16384)) > 0) { $outpart->print($buff) or die "Can't write to $newpart: $!"; $size += $nbytes; consumed_bytes($nbytes, 'do_gunzip'); } my $err = defined $nbytes ? 0 : $!; $newpart_obj->size($size); $outpart->close or die "Error closing $newpart: $!"; undef $buff; # release storage my(@rn); # collect recommended file name my $name_declared = $part->name_declared; for my $name_d (!ref $name_declared ? ($name_declared) : @$name_declared) { next if $name_d eq ''; my $name = $name_d; $name=~s/\.(gz|Z)\z// || $name=~s/\.tgz\z/.tar/; push(@rn,$name) if !grep($_ eq $name, @rn); } $newpart_obj->name_declared(@rn==1 ? $rn[0] : \@rn) if @rn; if (defined $nbytes && $nbytes==0) { $retval = 1 } # success else { do_log(-1, "do_gunzip: Error reading file %s: %s", $part->full_name,$err); unlink($newpart) or die "Can't unlink $newpart: $!"; $newpart_obj->size(undef); $retval = 0; } $gz->close or die "Error closing gzipped file: $!"; $retval; } # DROPED SUPPORT for Archive::Tar; main drawback of this module is: it either # loads an entire tar into memory (horrors!), or when using extract_archive() # it does not relativize absolute paths (which makes it possible to store # members in any directory writable by uid), and does not provide a way to # capture contents of members with the same name. Use pax program instead! # #use Archive::Tar; #sub do_tar($$) { # my($part, $tempdir) = @_; # snmp_count('OpsDecByArTar'); # # Work around bug in Archive-Tar # my $tar = eval { Archive::Tar->new($part->full_name) }; # if (!defined($tar)) { # chomp $@; # do_log(4, "Faulty archive %s: %s", $part->full_name, $@); # die $@ if $@ =~ /^timed out\b/; # resignal timeout # return 0; # } # do_log(4,"Untarring %s", $part->base_name); # my $item_num = 0; my $parent_placement = $part->mime_placement; # my(@list) = $tar->list_files; # for (@list) { # next if m{/\z}; # ignore directories # # this is bad (reads whole file into scalar) # # need some error handling, too # my $data = $tar->get_content($_); # my $newpart_obj = Amavis::Unpackers::Part->new("$tempdir/parts",$part); # $item_num++; $newpart_obj->mime_placement("$parent_placement/$item_num"); # my $newpart = $newpart_obj->full_name; # my $outpart = IO::File->new; # # O_WRONLY etc. can become tainted in Perl5.8.9 [perlbug #62502] # $outpart->open($newpart, untaint(O_CREAT|O_EXCL|O_WRONLY), 0640) # or die "Can't create file $newpart: $!"; # binmode($outpart) or die "Can't set file $newpart to binmode: $!"; # $outpart->print($data) or die "Can't write to $newpart: $!"; # $newpart_obj->size(length($data)); # consumed_bytes(length($data), 'do_tar'); # $outpart->close or die "Error closing $newpart: $!"; # } # 1; #} # use external program to expand 7-Zip archives # sub do_7zip($$$;$) { my($part, $tempdir, $archiver, $testing_for_sfx) = @_; ll(4) && do_log(4, "Expanding 7-Zip archive %s", $part->base_name); my $decompressor_name = basename((split(' ',$archiver))[0]); snmp_count("OpsDecBy\u${decompressor_name}Attempt"); my $last_line; my $any_encrypted; my $bytes = 0; my $mem_cnt = 0; my $retval = 1; my($proc_fh,$pid); my $fn = $part->full_name; prolong_timer('do_7zip_pre'); # restart timer my $eval_stat; eval { ($proc_fh,$pid) = run_command(undef, '&1', $archiver, 'l', '-slt', "-w$tempdir/parts", '--', $fn); my @list; my $ln; my($name,$size,$attr,$enc); my $entries_cnt = 0; for ($! = 0; defined($ln=$proc_fh->getline); $! = 0) { $last_line = $ln if $ln =~ /\S/; # keep last nonempty line chomp($ln); local($1); if ($ln !~ /\S/) { # empty line separates members if (defined $attr && $attr =~ /^D/) { do_log(5,'do_7zip: member: %s "%s", (skipped directory)', $attr,$name); } elsif (defined $enc && defined $name) { do_log(5,'do_7zip: member: %s "%s", %s bytes (skipped encrypted)', $attr,$name,$size); # make a phantom entry - carrying only name and attributes my $parent_placement = $part->mime_placement; my $newpart_obj = Amavis::Unpackers::Part->new("$tempdir/parts",$part); $newpart_obj->mime_placement("$parent_placement/$entries_cnt"); $newpart_obj->name_declared($name); $newpart_obj->attributes_add('U','C'); } elsif (defined $name || defined $size) { do_log(5,'do_7zip: member: %s "%s", %s bytes', $attr, $name, defined $size ? $size : '?'); if ($entries_cnt++, $MAXFILES && $entries_cnt > $MAXFILES) { die "Maximum number of files ($MAXFILES) exceeded"; } if (defined $size && $size > 0) { push(@list, untaint($name)); $bytes += $size; $mem_cnt++; } } undef $name; undef $size; undef $attr; undef $enc; } elsif ($ln =~ /^Path = (.*)\z/s) { $name = $1 } elsif ($ln =~ /^Size = ([0-9]+)\z/s) { $size = $1 } elsif ($ln =~ /^Attributes = (.*)\z/s) { $attr = $1 } elsif ($ln =~ /^Encrypted = \+\z/s) { $enc = $any_encrypted = 1 } elsif ($ln =~ /^ERROR:.* Can not open encrypted archive\. Wrong password\?\z/s) { do_log(5,'do_7zip: archive is encrypted'); $part->attributes_add('U','C'); } } defined $ln || $! == 0 || $! == EAGAIN or die "Error reading (1): $!"; do_log(-1,"unexpected(do_7zip_1): %s",$!) if !defined($ln) && $! == EAGAIN; if (defined $name || defined $size) { do_log(5,'do_7zip: member: %s "%s", %s bytes', $attr,$name,$size); if (defined $size && $size > 0) { $bytes += $size; $mem_cnt++ } } # consume all remaining output to avoid broken pipe for ($! = 0; defined($ln=$proc_fh->getline); $! = 0) { $last_line = $ln if $ln =~ /\S/; } defined $ln || $! == 0 || $! == EAGAIN or die "Error reading (2): $!"; do_log(-1,"unexpected(do_7zip_2): %s",$!) if !defined($ln) && $! == EAGAIN; my $err = 0; $proc_fh->close or $err = $!; my $rv = defined $pid && waitpid($pid,0) > 0 ? $? : undef; undef $proc_fh; undef $pid; local($1,$2); if (proc_status_ok($rv,$err,1) && $mem_cnt > 0 && $bytes > 0) { # just warn do_log(4,"do_7zip: warning, %s", exit_status_str($rv,$err)); } elsif (!proc_status_ok($rv,$err)) { die sprintf("can't get a list of archive members: %s; %s", exit_status_str($rv,$err), $last_line); } if ($mem_cnt > 0 || $bytes > 0) { consumed_bytes($bytes, 'do_7zip-pre', 1); # pre-check on estimated size snmp_count("OpsDecBy\u${decompressor_name}"); if (!$any_encrypted) { # supplying an empty list extracts all files, avoids exceeding the # argv size limit as there is no need to exclude excrypted members # (which would result in 7z returning a nonzero status) @list = (); } ($proc_fh,$pid) = run_command(undef, '&1', $archiver, 'x', '-bd', '-y', "-w$tempdir/parts", "-o$tempdir/parts/7zip", '--', $fn, @list); collect_results($proc_fh,$pid,$archiver,16384,[0,1]); undef $proc_fh; undef $pid; my $errn = lstat("$tempdir/parts/7zip") ? 0 : 0+$!; if ($errn != ENOENT) { my $b = flatten_and_tidy_dir("$tempdir/parts/7zip", "$tempdir/parts", $part); consumed_bytes($b, 'do_7zip'); } } 1; } or do { $eval_stat = $@ ne '' ? $@ : "errno=$!" }; prolong_timer('do_7zip'); # restart timer if (defined $eval_stat) { $retval = 0; chomp $eval_stat; kill_proc($pid,$archiver,1,$proc_fh,$eval_stat) if defined $pid; undef $proc_fh; undef $pid; # if ($testing_for_sfx) { die "do_7zip: $eval_stat" } # else { do_log(-1, "do_7zip: %s", $eval_stat) }; die "do_7zip: $eval_stat\n" # propagate failure } $retval; } # use external program to expand RAR archives # sub do_unrar($$$;$) { my($part, $tempdir, $archiver, $testing_for_sfx) = @_; ll(4) && do_log(4, "Expanding RAR archive %s", $part->base_name); my $decompressor_name = basename((split(' ',$archiver))[0]); snmp_count("OpsDecBy\u${decompressor_name}Attempt"); # unrar exit codes: SUCCESS=0, WARNING=1, FATAL_ERROR=2, CRC_ERROR=3, # LOCK_ERROR=4, WRITE_ERROR=5, OPEN_ERROR=6, USER_ERROR=7, MEMORY_ERROR=8, # CREATE_ERROR=9, USER_BREAK=255 my(@list); my $hypcount = 0; my $encryptedcount = 0; my $encryptedmeta = 0; my $lcnt = 0; my $member_name; my $bytes = 0; my $last_line; my $item_num = 0; my $parent_placement = $part->mime_placement; my $retval = 1; my $fn = $part->full_name; my($proc_fh,$pid); my $unrarvers = 5; my(@common_rar_switches) = qw(-c- -p- -idcdp); # -av- prolong_timer('do_unrar_pre'); # restart timer my $eval_stat; eval { ($proc_fh,$pid) = run_command(undef, '&1', $archiver, 'v',@common_rar_switches,'--',$fn); # jump hoops because there is no simple way to just list all the files my $ln; my $entries_cnt = 0; for ($! = 0; defined($ln=$proc_fh->getline); $! = 0) { $last_line = $ln if $ln !~ /^\s*$/; # keep last nonempty line chomp; if ($ln =~ /^unexpected end of archive/) { last; } elsif ($ln =~ /^------/) { $hypcount++; last if $hypcount >= 2; } elsif ($hypcount < 1 && $ln =~ /^Details: RAR [45], (?:SFX, )?encrypted headers/) { do_log(4,"do_unrar: %s", $ln); $part->attributes_add('U','C'); $encryptedmeta = 1; last; } elsif ($hypcount < 1 && $ln =~ /^Encrypted file:/) { do_log(4,"do_unrar: %s", $ln); $part->attributes_add('U','C'); } elsif ($hypcount < 1 && $ln =~ /^\s+Size\s+Packed Ratio\s+Date\s+Time\s+Attr\s+CRC/) { do_log(5,"do_unrar: found unrar version < 5"); $unrarvers = 4; } elsif ($hypcount == 1) { if ($unrarvers >= 5) { local($1,$2,$3,$4,$5); if ($entries_cnt++, $MAXFILES && $entries_cnt > $MAXFILES) { die "Maximum number of files ($MAXFILES) exceeded" } if ($ln !~ /^ ([* ]) \s* \S+ \s+ (\d+) \s+ (\d+) \s+ ( \d+ % | --> | <-- | <-> ) \s+ \S+ \s+ \S+ \s+ \S+ \s+ (.*)/xs) { do_log($testing_for_sfx ? 4 : -1, "do_unrar: can't parse info line for \"%s\" %s", $member_name,$ln); } else { $member_name = $5; if ($1 eq '*') { # member is encrypted $encryptedcount++; $item_num++; # make a phantom entry - carrying only name and attributes my $newpart_obj = Amavis::Unpackers::Part->new("$tempdir/parts",$part); $newpart_obj->mime_placement("$parent_placement/$item_num"); $newpart_obj->name_declared($member_name); $newpart_obj->attributes_add('U','C'); } else { # makes no sense extracting encrypted files do_log(5,'do_unrar: member: "%s", size: %s', $member_name,$2); if ($2 > 0) { $bytes += $2; push(@list, $member_name) } } undef $member_name; } } else { # old version of unrar $lcnt++; local($1,$2,$3); if ($lcnt % 2 == 0) { # information line (every other line) if ($entries_cnt++, $MAXFILES && $entries_cnt > $MAXFILES) { die "Maximum number of files ($MAXFILES) exceeded" } if ($ln !~ /^ \s+ (\d+) \s+ (\d+) \s+ ( \d+% | --> | <-- | <-> )/xs) { do_log($testing_for_sfx ? 4 : -1, "do_unrar: can't parse info line for \"%s\" %s", $member_name,$ln); } elsif (defined $member_name) { do_log(5,'do_unrar: member: "%s", size: %s', $member_name,$1); if ($1 > 0) { $bytes += $1; push(@list, $member_name) } } undef $member_name; } elsif ($ln =~ /^(.)(.*)\z/s) { $member_name = $2; # all but the first character (space or '*') if ($1 eq '*') { # member is encrypted $encryptedcount++; $item_num++; # make a phantom entry - carrying only name and attributes my $newpart_obj = Amavis::Unpackers::Part->new("$tempdir/parts",$part); $newpart_obj->mime_placement("$parent_placement/$item_num"); $newpart_obj->name_declared($member_name); $newpart_obj->attributes_add('U','C'); undef $member_name; # makes no sense extracting encrypted files } } } } } defined $ln || $! == 0 || $! == EAGAIN or die "Error reading (1): $!"; do_log(-1,"unexpected(unrar_1): %s",$!) if !defined($ln) && $! == EAGAIN; $ln = undef; # consume all remaining output to avoid broken pipe for ($! = 0; defined($ln=$proc_fh->getline); $! = 0) { $last_line = $ln if $ln !~ /^\s*$/ } defined $ln || $! == 0 || $! == EAGAIN or die "Error reading (2): $!"; do_log(-1,"unexpected(unrar_2): %s",$!) if !defined($ln) && $! == EAGAIN; my $err = 0; $proc_fh->close or $err = $!; my $rv = defined $pid && waitpid($pid,0) > 0 ? $? : undef; undef $proc_fh; undef $pid; local($1,$2); if (proc_status_ok($rv,$err, 7)) { # USER_ERROR die printf("perhaps this %s does not recognize switches ". "-av- and -idcdp, it is probably too old. Upgrade: %s", $archiver, 'http://www.rarlab.com/'); } elsif (proc_status_ok($rv,$err, 3)) { # CRC_ERROR # NOTE: password protected files in the archive cause CRC_ERROR do_log(4,"do_unrar: CRC_ERROR - undecipherable, %s", exit_status_str($rv,$err)); $part->attributes_add('U'); } elsif (proc_status_ok($rv,$err, 1) && @list && $bytes > 0) { # WARNING, probably still ok do_log(4,"do_unrar: warning, %s", exit_status_str($rv,$err)); } elsif ($encryptedmeta == 1) { do_log(1, "do_unrar: %s, archive metadata is encrypted, archive retained", $part->base_name); $retval = 2; } elsif (!proc_status_ok($rv,$err)) { die("can't get a list of archive members: " . exit_status_str($rv,$err) ."; ".$last_line); } elsif (!$bytes && $last_line =~ /^\Q$fn\E is not RAR archive$/) { chomp($last_line); die $last_line; } elsif ($last_line !~ /^\s*(\d+)\s+(\d+)/s) { do_log(-1,"do_unrar: unable to obtain orig total size: %s", $last_line); } else { do_log(4,"do_unrar: summary size: %d, sum of sizes: %d", $2,$bytes) if abs($bytes - $2) > 100; $bytes = $2 if $2 > $bytes; } consumed_bytes($bytes, 'do_unrar-pre', 1); # pre-check on estimated size if (!@list) { do_log(4,"do_unrar: no archive members, or not an archive at all"); if ($testing_for_sfx) { return $encryptedmeta } else { $part->attributes_add('U') } } else { snmp_count("OpsDecBy\u${decompressor_name}"); # unrar/rar can make a dir by itself, but can't hurt (sparc64 problem?) mkdir("$tempdir/parts/rar", 0750) or die "Can't mkdir $tempdir/parts/rar: $!"; ($proc_fh,$pid) = run_command(undef, '&1', $archiver, qw(x -inul -ver -o- -kb), @common_rar_switches, '--', $fn, "$tempdir/parts/rar/"); collect_results($proc_fh,$pid,$archiver,16384, [0,1,3] ); # one of: SUCCESS, WARNING, CRC undef $proc_fh; undef $pid; my $errn = lstat("$tempdir/parts/rar") ? 0 : 0+$!; if ($errn != ENOENT) { my $b = flatten_and_tidy_dir("$tempdir/parts/rar", "$tempdir/parts", $part); consumed_bytes($b, 'do_unrar'); } } 1; } or do { $eval_stat = $@ ne '' ? $@ : "errno=$!" }; prolong_timer('do_unrar'); # restart timer if ($encryptedcount) { do_log(1, "do_unrar: %s, %d members are encrypted, %s extracted, archive retained", $part->base_name, $encryptedcount, !@list ? 'none' : scalar(@list) ); $retval = 2; } if (defined $eval_stat) { $retval = 0; chomp $eval_stat; kill_proc($pid,$archiver,1,$proc_fh,$eval_stat) if defined $pid; undef $proc_fh; undef $pid; # if ($testing_for_sfx) { die "do_unrar: $eval_stat" } # else { do_log(-1, "do_unrar: %s", $eval_stat) }; die "do_unrar: $eval_stat\n" # propagate failure } $retval; } # use external program to expand LHA archives # sub do_lha($$$;$) { my($part, $tempdir, $archiver, $testing_for_sfx) = @_; ll(4) && do_log(4, "Expanding LHA archive %s", $part->base_name); my $decompressor_name = basename((split(' ',$archiver))[0]); snmp_count("OpsDecBy\u${decompressor_name}Attempt"); # lha needs extension .exe to understand SFX! # the downside is that in this case it only sees MS files in an archive my $fn = $part->full_name; symlink($fn, $fn.".exe") or die sprintf("Can't symlink %s %s.exe: %s", $fn, $fn, $!); my(@list); my(@checkerr); my $retval = 1; my($proc_fh,$pid); prolong_timer('do_lha_pre'); # restart timer my $eval_stat; eval { # ($proc_fh,$pid) = run_command(undef, '&1', $archiver, 'lq', $fn); ($proc_fh,$pid) = run_command(undef, '&1', $archiver, 'lq', $fn.".exe"); my $ln; my $entries_cnt = 0; for ($! = 0; defined($ln=$proc_fh->getline); $! = 0) { chomp($ln); local($1); if ($entries_cnt++, $MAXFILES && $entries_cnt > $MAXFILES) { die "Maximum number of files ($MAXFILES) exceeded" } if ($ln =~ m{/\z}) { # ignore directories } elsif ($ln =~ /^LHa: (Warning|Fatal error): /) { push(@checkerr,$ln) if @checkerr < 3; } elsif ($ln=~m{^(?:\S+\s+\d+/\d+|.{23})(?:\s+\S+){5}\s*(\S.*?)\s*\z}s) { my $name = $1; $name = $1 if $name =~ m{^(.*) -> (.*)\z}s; # symlink push(@list, $name); } else { do_log(5,"do_lha: skip: %s", $ln) } } defined $ln || $! == 0 || $! == EAGAIN or die "Error reading: $!"; do_log(-1,"unexpected(do_lha): %s",$!) if !defined($ln) && $! == EAGAIN; my $err = 0; $proc_fh->close or $err = $!; my $child_stat = defined $pid && waitpid($pid,0) > 0 ? $? : undef; undef $proc_fh; undef $pid; if (!proc_status_ok($child_stat,$err) || @checkerr) { die('(' . join(", ",@checkerr) .') ' .exit_status_str($child_stat,$err)); } elsif (!@list) { $part->attributes_add('U') if !$testing_for_sfx; die "no archive members, or not an archive at all"; } 1; } or do { $eval_stat = $@ ne '' ? $@ : "errno=$!" }; prolong_timer('do_lha'); # restart timer if (defined $eval_stat) { unlink($fn.".exe") or do_log(-1, "Can't unlink %s.exe: %s", $fn,$!); $retval = 0; chomp $eval_stat; kill_proc($pid,$archiver,1,$proc_fh,$eval_stat) if defined $pid; undef $proc_fh; undef $pid; # if ($testing_for_sfx) { die "do_lha: $eval_stat" } # else { do_log(-1, "do_lha: %s", $eval_stat) }; die "do_lha: $eval_stat\n"; # propagate failure } else { # preliminary archive traversal done, now extract files snmp_count("OpsDecBy\u${decompressor_name}"); my $rv; eval { # store_mgr may die, make sure we unlink the .exe file $rv = store_mgr($tempdir, $part, \@list, $archiver, 'pq', $fn.".exe"); 1; } or do { $eval_stat = $@ ne '' ? $@ : "errno=$!" }; unlink($fn.".exe") or do_log(-1, "Can't unlink %s.exe: %s", $fn,$!); if (defined $eval_stat) { die "do_lha: $eval_stat\n" } # propagate failure $rv==0 or die exit_status_str($rv); } $retval; } # use external program to expand ARC archives; # works with original arc, or a GPL licensed 'nomarch' # (http://rus.members.beeb.net/nomarch.html) # sub do_arc($$$) { my($part, $tempdir, $archiver) = @_; my $decompressor_name = basename((split(' ',$archiver))[0]); snmp_count("OpsDecBy\u${decompressor_name}"); my $is_nomarch = $archiver =~ /nomarch/i; ll(4) && do_log(4,"Unarcing %s, using %s", $part->base_name, ($is_nomarch ? "nomarch" : "arc") ); my $cmdargs = ($is_nomarch ? '-l -U' : 'ln') . ' ' . $part->full_name; my($proc_fh,$pid) = run_command(undef, '/dev/null', $archiver, split(' ',$cmdargs)); my(@list); my $ln; my $entries_cnt = 0; for ($! = 0; defined($ln=$proc_fh->getline); $! = 0) { if ($entries_cnt++, $MAXFILES && $entries_cnt > $MAXFILES) { die "Maximum number of files ($MAXFILES) exceeded" } push(@list,$ln); } defined $ln || $! == 0 || $! == EAGAIN or die "Error reading: $!"; do_log(-1,"unexpected(do_arc): %s",$!) if !defined($ln) && $! == EAGAIN; my $err = 0; $proc_fh->close or $err = $!; my $child_stat = defined $pid && waitpid($pid,0) > 0 ? $? : undef; undef $proc_fh; undef $pid; proc_status_ok($child_stat,$err) or do_log(-1, 'do_arc: %s',exit_status_str($child_stat,$err)); #*** no spaces in filenames allowed??? local($1); s/^([^ \t\r\n]*).*\z/$1/s for @list; # keep only filenames if (@list) { # store_mgr may die, allow failure to propagate my $rv = store_mgr($tempdir, $part, \@list, $archiver, ($is_nomarch ? ('-p', '-U') : 'p'), $part->full_name); do_log(-1, 'arc %', exit_status_str($rv)) if $rv; } 1; } # use external program to expand ZOO archives # sub do_zoo($$$) { my($part, $tempdir, $archiver) = @_; my $is_unzoo = $archiver =~ m{\bunzoo[^/]*\z}i ? 1 : 0; ll(4) && do_log(4,"Expanding ZOO archive %s, using %s", $part->base_name, ($is_unzoo ? "unzoo" : "zoo") ); my $decompressor_name = basename((split(' ',$archiver))[0]); snmp_count("OpsDecBy\u${decompressor_name}"); my(@list); my $separ_count = 0; my $bytes = 0; my($ln,$last_line); my $retval = 1; my $fn = $part->full_name; my($proc_fh,$pid); symlink($fn, "$fn.zoo") # Zoo needs extension of .zoo! or die sprintf("Can't symlink %s %s.zoo: %s", $fn,$fn,$!); prolong_timer('do_zoo_pre'); # restart timer my $eval_stat; my $entries_cnt = 0; eval { ($proc_fh,$pid) = run_command(undef, '&1', $archiver, $is_unzoo ? qw(-l) : qw(l), "$fn.zoo"); for ($! = 0; defined($ln=$proc_fh->getline); $! = 0) { $last_line = $ln if $ln !~ /^\s*$/; # keep last nonempty line if ($ln =~ /^------/) { $separ_count++ } elsif ($separ_count == 1) { local($1,$2); if ($entries_cnt++, $MAXFILES && $entries_cnt > $MAXFILES) { die "Maximum number of files ($MAXFILES) exceeded" } if ($ln !~ /^\s*(\d+)(?:\s+\S+){6}\s+(?:[0-7]{3,})?\s*(.*)$/) { do_log(3,"do_zoo: can't parse line %s", $ln); } else { do_log(5,'do_zoo: member: "%s", size: %s', $2,$1); if ($1 > 0) { $bytes += $1; push(@list,$2) } } } } defined $ln || $! == 0 || $! == EAGAIN or die "Error reading: $!"; do_log(-1,"unexpected(do_zoo): %s",$!) if !defined($ln) && $! == EAGAIN; my $err = 0; $proc_fh->close or $err = $!; my $rv = defined $pid && waitpid($pid,0) > 0 ? $? : undef; undef $proc_fh; undef $pid; local($1); if (!proc_status_ok($rv,$err)) { die("can't get a list of archive members: " . exit_status_str($rv,$err) ."; ".$last_line); } elsif ($last_line !~ /^\s*(\d+)\s+\d+%\s+\d+/s) { do_log(-1,"do_zoo: unable to obtain orig total size: %s", $last_line); } else { do_log(4,"do_zoo: summary size: %d, sum of sizes: %d", $1,$bytes) if abs($bytes - $1) > 100; $bytes = $1 if $1 > $bytes; } consumed_bytes($bytes, 'do_zoo-pre', 1); # pre-check on estimated size $retval = 0 if @list; if (!$is_unzoo) { # unzoo cannot cleanly extract to stdout without prepending a clutter # store_mgr may die my $rv = store_mgr($tempdir,$part,\@list,$archiver,'xpqqq:',"$fn.zoo"); do_log(-1,"do_zoo (store_mgr) %s", exit_status_str($rv)) if $rv; } else { # this code section can handle zoo and unzoo # but zoo is unsafe in this mode (and so is unzoo, a little less so) my $cwd = "$tempdir/parts/zoo"; mkdir($cwd, 0750) or die "Can't mkdir $cwd: $!"; chdir($cwd) or die "Can't chdir to $cwd: $!"; # don't use "-j ./" in unzoo, it does not protect from relative paths! # "-j X" is less bad, but: "unzoo: 'X/h/user/01.lis' cannot be created" ($proc_fh,$pid) = run_command(undef, '&1', $archiver, $is_unzoo ? qw(-x -j X) : qw(x), "$fn.zoo", $is_unzoo ? '*;*' : () ); collect_results($proc_fh,$pid,$archiver,16384,[0]); undef $proc_fh; undef $pid; my $b = flatten_and_tidy_dir("$tempdir/parts/zoo", "$tempdir/parts", $part); consumed_bytes($b, 'do_zoo'); } 1; } or do { $eval_stat = $@ ne '' ? $@ : "errno=$!" }; prolong_timer('do_zoo'); # restart timer if (defined $eval_stat) { $retval = 0; chomp $eval_stat; kill_proc($pid,$archiver,1,$proc_fh,$eval_stat) if defined $pid; undef $proc_fh; undef $pid; do_log(-1,"do_zoo: %s", $eval_stat); } chdir($tempdir) or die "Can't chdir to $tempdir: $!"; unlink("$fn.zoo") or die "Can't unlink $fn.zoo: $!"; if (defined $eval_stat) { die "do_zoo: $eval_stat\n" } # propagate failure $retval; } # use external program to expand ARJ archives # sub do_unarj($$$;$) { my($part, $tempdir, $archiver, $testing_for_sfx) = @_; do_log(4, "Expanding ARJ archive %s", $part->base_name); my $decompressor_name = basename((split(' ',$archiver))[0]); snmp_count("OpsDecBy\u${decompressor_name}Attempt"); # options to arj, ignored by unarj # provide some password in -g to turn fatal error into 'bad password' error $ENV{ARJ_SW} = "-i -jo -b5 -2h -jyc -ja1 -gsecret -w$tempdir/parts"; # unarj needs extension of .arj! my $fn = $part->full_name; symlink($part->full_name, $fn.".arj") or die sprintf("Can't symlink %s %s.arj: %s", $fn, $fn, $!); my $retval = 1; my($proc_fh,$pid); prolong_timer('do_unarj_pre'); # restart timer my $eval_stat; eval { # obtain total original size of archive members from the index/listing ($proc_fh,$pid) = run_command(undef, '&1', $archiver, 'l', $fn.".arj"); my $last_line; my $ln; for ($! = 0; defined($ln=$proc_fh->getline); $! = 0) { $last_line = $ln if $ln !~ /^\s*$/ } defined $ln || $! == 0 || $! == EAGAIN or die "Error reading (1): $!"; do_log(-1,"unexpected(do_unarj_1): %s",$!) if !defined($ln) && $! == EAGAIN; my $err = 0; $proc_fh->close or $err = $!; my $rv = defined $pid && waitpid($pid,0) > 0 ? $? : undef; undef $proc_fh; undef $pid; if (!proc_status_ok($rv,$err, 0,1,3)) { # one of: success, warn, CRC err $part->attributes_add('U') if !$testing_for_sfx; die "not an ARJ archive? ".exit_status_str($rv,$err); } elsif ($last_line =~ /^\Q$fn\E.arj is not an ARJ archive$/) { die "last line: $last_line"; } elsif ($last_line !~ /^\s*(\d+)\s*files\s*(\d+)/s) { $part->attributes_add('U') if !$testing_for_sfx; die "unable to obtain orig size of files: $last_line, ". exit_status_str($rv,$err); } else { consumed_bytes($2, 'do_unarj-pre', 1); # pre-check on estimated size } # unarj has very limited extraction options, arj is much better! mkdir("$tempdir/parts/arj",0750) or die "Can't mkdir $tempdir/parts/arj: $!"; chdir("$tempdir/parts/arj") or die "Can't chdir to $tempdir/parts/arj: $!"; snmp_count("OpsDecBy\u${decompressor_name}"); ($proc_fh,$pid) = run_command(undef, '&1', $archiver, 'e', $fn.".arj"); my($encryptedcount,$skippedcount,$entries_cnt) = (0,0,0); for ($! = 0; defined($ln=$proc_fh->getline); $! = 0) { if ($entries_cnt++, $MAXFILES && $entries_cnt > $MAXFILES) { die "Maximum number of files ($MAXFILES) exceeded" } $encryptedcount++ if $ln =~ /^(Extracting.*\bBad file data or bad password|File is password encrypted, Skipped)\b/s; $skippedcount++ if $ln =~ /(\bexists|^File is password encrypted|^Unsupported .*), Skipped\b/s; } defined $ln || $! == 0 || $! == EAGAIN or die "Error reading (2): $!"; do_log(-1,"unexpected(do_unarj_2): %s",$!) if !defined($ln) && $! == EAGAIN; $err = 0; $proc_fh->close or $err = $!; $rv = defined $pid && waitpid($pid,0) > 0 ? $? : undef; undef $proc_fh; undef $pid; chdir($tempdir) or die "Can't chdir to $tempdir: $!"; if (proc_status_ok($rv,$err, 0,1)) {} # success, warn elsif (proc_status_ok($rv,$err, 3)) # CRC err { $part->attributes_add('U') if !$testing_for_sfx } else { do_log(0, "unarj: error extracting: %s",exit_status_str($rv,$err)) } # add attributes to the parent object, because we didn't remember names # of its scrambled members $part->attributes_add('U') if $encryptedcount || $skippedcount; $part->attributes_add('C') if $encryptedcount; my $errn = lstat("$tempdir/parts/arj") ? 0 : 0+$!; if ($errn != ENOENT) { my $b = flatten_and_tidy_dir("$tempdir/parts/arj", "$tempdir/parts",$part); consumed_bytes($b, 'do_unarj'); snmp_count("OpsDecBy\u${decompressor_name}"); } proc_status_ok($rv,$err, 0,1,3) # one of: success, warn, CRC err or die "unarj: can't extract archive members: ". exit_status_str($rv,$err); if ($encryptedcount || $skippedcount) { do_log(1, "do_unarj: %s, %d members are encrypted, %d skipped, archive retained", $part->base_name, $encryptedcount, $skippedcount); $retval = 2; } 1; } or do { $eval_stat = $@ ne '' ? $@ : "errno=$!" }; prolong_timer('do_unarj'); # restart timer unlink($fn.".arj") or die "Can't unlink $fn.arj: $!"; if (defined $eval_stat) { $retval = 0; chomp $eval_stat; kill_proc($pid,$archiver,1,$proc_fh,$eval_stat) if defined $pid; undef $proc_fh; undef $pid; # if ($testing_for_sfx) { die "do_unarj: $eval_stat" } # else { do_log(-1, "do_unarj: %s", $eval_stat) }; die "do_unarj: $eval_stat\n" # propagate failure } $retval; } # use external program to expand TNEF archives # sub do_tnef_ext($$$) { my($part, $tempdir, $archiver) = @_; do_log(4, "Extracting from TNEF encapsulation (ext) %s", $part->base_name); my $archiver_name = basename((split(' ',$archiver))[0]); snmp_count("OpsDecBy\u${archiver_name}"); mkdir("$tempdir/parts/tnef",0750) or die "Can't mkdir $tempdir/parts/tnef: $!"; my $retval = 1; my($proc_fh,$pid); prolong_timer('do_tnef_ext_pre'); # restart timer my $rem_quota = max(10*1024, untaint(consumed_bytes(0,'do_tnef_ext'))); my $eval_stat; eval { ($proc_fh,$pid) = run_command(undef, '&1', $archiver, '--number-backups', '-x', "$rem_quota", '-C', "$tempdir/parts/tnef", '-f', $part->full_name); collect_results($proc_fh,$pid,$archiver,16384,[0]); undef $proc_fh; undef $pid; 1; } or do { $eval_stat = $@ ne '' ? $@ : "errno=$!" }; prolong_timer('do_tnef_ext'); # restart timer if (defined $eval_stat) { $retval = 0; chomp $eval_stat; do_log(-1, "tnef_ext: %s", $eval_stat); } my $b = flatten_and_tidy_dir("$tempdir/parts/tnef","$tempdir/parts",$part); if ($b > 0) { do_log(4, "tnef_ext extracted %d bytes from a tnef container", $b); consumed_bytes($b, 'do_tnef_ext'); } if (defined $eval_stat) { die "do_tnef_ext: $eval_stat\n" } # propagate $retval; } # use Convert-TNEF # use vars qw($have_tnef_module); sub do_tnef($$) { my($part, $tempdir) = @_; do_log(4, "Extracting from TNEF encapsulation (int) %s", $part->base_name); if (!defined $have_tnef_module) { eval { require Convert::TNEF && ($have_tnef_module = 1); } or do { $have_tnef_module = 0; chomp $@; $@ =~ s/ \(you may need to install the .*\z//i; do_log(5,"module Convert::TNEF unavailable: %s", $@); }; } return 0 if !$have_tnef_module; snmp_count('OpsDecByTnef'); my $tnef = Convert::TNEF->read_in($part->full_name, {output_dir=>"$tempdir/parts", buffer_size=>16384, ignore_checksum=>1}); defined $tnef or die "Convert::TNEF failed: ".$Convert::TNEF::errstr; my $item_num = 0; my $parent_placement = $part->mime_placement; for my $a ($tnef->message, $tnef->attachments) { for my $attr_name ('AttachData','Attachment') { my $dh = $a->datahandle($attr_name); if (defined $dh) { my $newpart_obj = Amavis::Unpackers::Part->new("$tempdir/parts",$part); $item_num++; $newpart_obj->mime_placement("$parent_placement/$item_num"); $newpart_obj->name_declared([$a->name, $a->longname]); my $newpart = $newpart_obj->full_name; my $outpart = IO::File->new; # O_WRONLY etc. can become tainted in Perl5.8.9 [perlbug #62502] $outpart->open($newpart, untaint(O_CREAT|O_EXCL|O_WRONLY), 0640) or die "Can't create file $newpart: $!"; binmode($outpart) or die "Can't set file $newpart to binmode: $!"; my $filepath = $dh->path; my $size = 0; if (defined $filepath) { my($io,$nbytes,$buff); $dh->binmode(1); $io = $dh->open("r") or die "Can't open MIME::Body handle: $!"; while (($nbytes=$io->read($buff,16384)) > 0) { $outpart->print($buff) or die "Can't write to $newpart: $!"; $size += $nbytes; consumed_bytes($nbytes, 'do_tnef_1'); } defined $nbytes or die "Error reading from MIME::Body handle: $!"; $io->close or die "Error closing MIME::Body handle: $!"; undef $buff; # release storage } else { my $buff = $dh->as_string; my $nbytes = length($buff); $outpart->print($buff) or die "Can't write to $newpart: $!"; $size += $nbytes; consumed_bytes($nbytes, 'do_tnef_2'); } $newpart_obj->size($size); $outpart->close or die "Error closing $newpart: $!"; } } } $tnef->purge if defined $tnef; 1; } # The pax and cpio utilities usually support the following archive formats: # cpio, bcpio, sv4cpio, sv4crc, tar (old tar), ustar (POSIX.2 tar). # The utilities from http://heirloom.sourceforge.net/ support # several other tar/cpio variants such as SCO, Sun, DEC, Cray, SGI # sub do_pax_cpio($$$) { my($part, $tempdir, $archiver) = @_; my $archiver_name = basename((split(' ',$archiver))[0]); snmp_count("OpsDecBy\u${archiver_name}"); ll(4) && do_log(4,"Expanding archive %s, using %s", $part->base_name,$archiver_name); my $is_pax = $archiver_name =~ /^cpio/i ? 0 : 1; do_log(-1,"WARN: Using %s instead of pax can be a security ". "risk; please add: \$pax='pax'; to amavisd.conf and check that ". "the pax(1) utility is available on the system!", $archiver_name) if !$is_pax; my(@cmdargs) = $is_pax ? qw(-v) : qw(-i -t -v); my($proc_fh,$pid) = run_command($part->full_name, '/dev/null', $archiver, @cmdargs); my $bytes = 0; local($1,$2); local($_); my $entries_cnt = 0; for ($! = 0; defined($_=$proc_fh->getline); $! = 0) { chomp; next if /^\d+ blocks\z/; last if /^(cpio|pax): (.*bytes read|End of archive volume)/; if ($entries_cnt++, $MAXFILES && $entries_cnt > $MAXFILES) { die "Maximum number of files ($MAXFILES) exceeded" } if (!/^ (?: \S+\s+ ){4} (\d+) \s+ (.+) \z/xs) { do_log(-1,"do_pax_cpio: can't parse toc line: %s", $_); } else { my($size,$mem) = ($1,$2); if ($mem =~ /^( (?: \s* \S+ ){3} (?: \s+ \d{4}, )? ) \s+ (.+)\z/xs) { $mem = $2; # strip away time and date } elsif ($mem =~ /^\S \s+ (.+)\z/xs) { # -rwxr-xr-x 1 1121 users 3135 C errorReport.sh $mem = $1; # strip away a letter in place of a date (?) } $mem = $1 if $is_pax && $mem =~ /^(.*) =[=>] (.*)\z/; # hard or soft link do_log(5,'do_pax_cpio: size: %5s, member: "%s"', $size,$mem); $bytes += $size if $size > 0; } } defined $_ || $! == 0 || $! == EAGAIN or die "Error reading (1): $!"; do_log(-1,"unexpected(pax_cpio_1): %s",$!) if !defined($_) && $! == EAGAIN; # consume remaining output to avoid broken pipe collect_results($proc_fh,$pid,'do_pax_cpio/1',16384,[0]); undef $proc_fh; undef $pid; consumed_bytes($bytes, 'do_pax_cpio/pre', 1); # pre-check on estimated size mkdir("$tempdir/parts/arch", 0750) or die "Can't mkdir $tempdir/parts/arch: $!"; my $name_clash = 0; my(%orig_names); # maps filenames to archive member names when possible prolong_timer('do_pax_cpio_pre'); # restart timer my $eval_stat; eval { chdir("$tempdir/parts/arch") or die "Can't chdir to $tempdir/parts/arch: $!"; my(@cmdargs) = $is_pax ? qw(-r -k -p am -s /[^A-Za-z0-9_]/-/gp) : qw(-i -d --no-absolute-filenames --no-preserve-owner); ($proc_fh,$pid) = run_command($part->full_name, '&1', $archiver, @cmdargs); my $output = ''; my $ln; my $entries_cnt = 0; for ($! = 0; defined($ln=$proc_fh->getline); $! = 0) { chomp($ln); if ($entries_cnt++, $MAXFILES && $entries_cnt > $MAXFILES) { die "Maximum number of files ($MAXFILES) exceeded" } if (!$is_pax || $ln !~ /^(.*) >> (\S*)\z/) { $output .= $ln."\n" } else { # parse output from pax -s///p my($member_name,$file_name) = ($1,$2); if (!exists $orig_names{$file_name}) { $orig_names{$file_name} = $member_name; } else { do_log(0,'do_pax_cpio: member "%s" is hidden by a '. 'previous archive member "%s", file: %s', $member_name, $orig_names{$file_name}, $file_name); undef $orig_names{$file_name}; # cause it to exist but undefined $name_clash = 1; } } } defined $ln || $! == 0 || $! == EAGAIN or die "Error reading (2): $!"; do_log(-1,"unexpected(pax_cpio_2): %s",$!) if !defined($ln) && $! == EAGAIN; my $err = 0; $proc_fh->close or $err = $!; my $child_stat = defined $pid && waitpid($pid,0) > 0 ? $? : undef; undef $proc_fh; undef $pid; chomp($output); proc_status_ok($child_stat,$err) or die(exit_status_str($child_stat,$err).' '.$output); 1; } or do { $eval_stat = $@ ne '' ? $@ : "errno=$!" }; prolong_timer('do_pax_cpio'); # restart timer chdir($tempdir) or die "Can't chdir to $tempdir: $!"; my $b = flatten_and_tidy_dir("$tempdir/parts/arch", "$tempdir/parts", $part, 0, \%orig_names); consumed_bytes($b, 'do_pax_cpio'); if (defined $eval_stat) { chomp $eval_stat; kill_proc($pid,$archiver,1,$proc_fh,$eval_stat) if defined $pid; undef $proc_fh; undef $pid; die "do_pax_cpio: $eval_stat\n"; # propagate failure } $name_clash ? 2 : 1; } # command line unpacker from stuffit.com for Linux # decodes Macintosh StuffIt archives and others # (but it appears the Linux version is buggy and a security risk, not to use!) # sub do_unstuff($$$) { my($part, $tempdir, $archiver) = @_; my $archiver_name = basename((split(' ',$archiver))[0]); snmp_count("OpsDecBy\u${archiver_name}"); do_log(4,"Expanding archive %s, using %s", $part->base_name,$archiver_name); mkdir("$tempdir/parts/unstuff", 0750) or die "Can't mkdir $tempdir/parts/unstuff: $!"; my($proc_fh,$pid) = run_command(undef, '&1', $archiver, # '-q', "-d=$tempdir/parts/unstuff", $part->full_name); collect_results($proc_fh,$pid,$archiver,16384,[0]); undef $proc_fh; undef $pid; my $b = flatten_and_tidy_dir("$tempdir/parts/unstuff", "$tempdir/parts", $part); consumed_bytes($b, 'do_unstuff'); 1; } # ar is a standard Unix binary archiver, also used by Debian packages # sub do_ar($$$) { my($part, $tempdir, $archiver) = @_; ll(4) && do_log(4,"Expanding Unix ar archive %s", $part->full_name); my $archiver_name = basename((split(' ',$archiver))[0]); snmp_count("OpsDecBy\u${archiver_name}"); my($proc_fh,$pid) = run_command(undef, '/dev/null', $archiver, 'tv', $part->full_name); my $ln; my $bytes = 0; local($1,$2,$3); my $entries_cnt = 0; for ($! = 0; defined($ln=$proc_fh->getline); $! = 0) { chomp($ln); if ($entries_cnt++, $MAXFILES && $entries_cnt > $MAXFILES) { die "Maximum number of files ($MAXFILES) exceeded" } if ($ln !~ /^(?:\S+\s+){2}(\d+)\s+((?:\S+\s+){3}\S+)\s+(.*)\z/) { do_log(-1,"do_ar: can't parse contents listing line: %s", $ln); } else { do_log(5,"do_ar: member: \"%s\", size: %s", $3,$1); $bytes += $1 if $1 > 0; } } defined $ln || $! == 0 || $! == EAGAIN or die "Error reading: $!"; do_log(-1,"unexpected(do_ar): %s",$!) if !defined($ln) && $! == EAGAIN; # consume remaining output to avoid broken pipe collect_results($proc_fh,$pid,'ar-1',16384,[0]); undef $proc_fh; undef $pid; consumed_bytes($bytes, 'do_ar-pre', 1); # pre-check on estimated size mkdir("$tempdir/parts/ar", 0750) or die "Can't mkdir $tempdir/parts/ar: $!"; chdir("$tempdir/parts/ar") or die "Can't chdir to $tempdir/parts/ar: $!"; ($proc_fh,$pid) = run_command(undef, '&1', $archiver, 'x', $part->full_name); collect_results($proc_fh,$pid,'ar-2',16384,[0]); undef $proc_fh; undef $pid; chdir($tempdir) or die "Can't chdir to $tempdir: $!"; my $b = flatten_and_tidy_dir("$tempdir/parts/ar","$tempdir/parts",$part); consumed_bytes($b, 'do_ar'); 1; } sub do_cabextract($$$) { my($part, $tempdir, $archiver) = @_; do_log(4, "Expanding cab archive %s", $part->base_name); my $archiver_name = basename((split(' ',$archiver))[0]); snmp_count("OpsDecBy\u${archiver_name}"); my($proc_fh,$pid) = run_command(undef, '/dev/null', $archiver, '-l', $part->full_name); local($1,$2); my $bytes = 0; my $ln; my $entries_cnt = 0; for ($! = 0; defined($ln=$proc_fh->getline); $! = 0) { chomp($ln); next if $ln =~ /^(?: ?File size|----|Viewing cabinet:|\z)/s; next if $ln =~ /^\s*All done, no errors/s; if ($entries_cnt++, $MAXFILES && $entries_cnt > $MAXFILES) { die "Maximum number of files ($MAXFILES) exceeded" } if ($ln !~ /^\s* (\d+) \s* \| [^|]* \| \s (.*) \z/x) { do_log(-1, "do_cabextract: can't parse toc line: %s", $ln); } else { do_log(5, 'do_cabextract: member: "%s", size: %s', $2,$1); $bytes += $1 if $1 > 0; } } defined $ln || $! == 0 || $! == EAGAIN or die "Error reading: $!"; do_log(-1,"unexpected(cabextract): %s",$!) if !defined($ln) && $! == EAGAIN; # consume remaining output to avoid broken pipe (just in case) collect_results($proc_fh,$pid,'cabextract-1',16384,[0]); undef $proc_fh; undef $pid; mkdir("$tempdir/parts/cab",0750) or die "Can't mkdir $tempdir/parts/cab: $!"; ($proc_fh,$pid) = run_command(undef, '/dev/null', $archiver, '-q', '-d', "$tempdir/parts/cab", $part->full_name); collect_results($proc_fh,$pid,'cabextract-2',16384,[0]); undef $proc_fh; undef $pid; my $b = flatten_and_tidy_dir("$tempdir/parts/cab", "$tempdir/parts", $part); consumed_bytes($b, 'do_cabextract'); 1; } sub do_ole($$$) { my($part, $tempdir, $archiver) = @_; do_log(4,"Expanding MS OLE document %s", $part->base_name); my $archiver_name = basename((split(' ',$archiver))[0]); snmp_count("OpsDecBy\u${archiver_name}"); mkdir("$tempdir/parts/ole",0750) or die "Can't mkdir $tempdir/parts/ole: $!"; my($proc_fh,$pid) = run_command(undef, '&1', $archiver, '-v', '-i', $part->full_name, '-d',"$tempdir/parts/ole"); # Not all Microsoft documents contain embedded objects, and we won't know # until we look. The ripOLE program knows how to check if we do in fact # have an OLE document; but it exits with code 102 if we don't. This isn't # really an error, so we add "102" to the list of successful exit codes. collect_results($proc_fh,$pid,$archiver,16384,[0,102]); undef $proc_fh; undef $pid; my $b = flatten_and_tidy_dir("$tempdir/parts/ole", "$tempdir/parts", $part); if ($b > 0) { do_log(4, "ripOLE extracted %d bytes from an OLE document", $b); consumed_bytes($b, 'do_ole'); } 2; # always keep the original OLE document } # Check for self-extracting archives. Note that we do not depend on # file magic here since it's not reliable. Instead we will try each # archiver. # sub do_executable($$@) { my($part, $tempdir, $unrar, $lha, $unarj) = @_; ll(4) && do_log(4,"Check whether %s is a self-extracting archive", $part->base_name); # # ZIP? # return 2 if eval { do_unzip($part,$tempdir,undef,1) }; # chomp $@; # do_log(3, "do_executable: not a ZIP sfx, ignoring: %s", $@) if $@ ne ''; # RAR? return 2 if defined $unrar && eval { do_unrar($part,$tempdir,$unrar,1) }; chomp $@; do_log(3, "do_executable: not a RAR sfx, ignoring: %s", $@) if $@ ne ''; # # LHA? not safe, tends to crash # return 2 if defined $lha && eval { do_lha($part,$tempdir,$lha,1) }; # chomp $@; # do_log(3, "do_executable: not an LHA sfx, ignoring: %s", $@) if $@ ne ''; # ARJ? return 2 if defined $unarj && eval { do_unarj($part,$tempdir,$unarj,1) }; chomp $@; do_log(3, "do_executable: not an ARJ sfx, ignoring: %s", $@) if $@ ne ''; 0; } # my($k,$v,$fn); # while (($k,$v) = each(%::)) { # local(*e)=$v; $fn=fileno(\*e); # printf STDOUT ("%-10s %-10s %s\n",$k,$v,$fn) if defined $fn; # } # Given a file handle (typically opened pipe to a subprocess, as returned # by run_command), copy from it to a specified output file in binary mode. # sub run_command_copy($$$) { my($outfile, $ifh, $pid) = @_; my $ofh = IO::File->new; # O_WRONLY etc. can become tainted in Perl5.8.9 [perlbug #62502] $ofh->open($outfile, untaint(O_CREAT|O_EXCL|O_WRONLY), 0640) # calls sysopen or die "Can't create file $outfile: $!"; binmode($ofh) or die "Can't set file $outfile to binmode: $!"; binmode($ifh) or die "Can't set binmode on pipe: $!"; my($eval_stat, $rv, $rerr); $rerr = 0; eval { my($nread, $nwrite, $tosend, $offset, $inbuf); for (;;) { $nread = sysread($ifh, $inbuf, 65536); if (!defined($nread)) { if ($! == EAGAIN || $! == EINTR) { Time::HiRes::sleep(0.1); # just in case } else { die "Error reading: $!"; } } elsif ($nread < 1) { # sysread returns 0 at eof last; } else { consumed_bytes($nread, 'run_command_copy'); $tosend = $nread; $offset = 0; while ($tosend > 0) { # handle partial writes $nwrite = syswrite($ofh, $inbuf, $tosend, $offset); if (!defined($nwrite)) { if ($! == EAGAIN || $! == EINTR) { Time::HiRes::sleep(0.1); # just in case } else { die "Error writing to $outfile: $!"; } } elsif ($nwrite < 1) { Time::HiRes::sleep(0.1); # just in case } else { $tosend -= $nwrite; $offset += $nwrite; } } } } $ifh->close or $rerr = $!; $rv = defined $pid && waitpid($pid,0) > 0 ? $? : undef; $ofh->close or die "Error closing $outfile: $!"; 1; } or do { $eval_stat = $@ ne '' ? $@ : "errno=$!"; chomp $eval_stat; # remember error, close socket ignoring status $rerr = $!; $ifh->close; $rv = defined $pid && waitpid($pid,0) > 0 ? $? : undef; do_log(-1, "run_command_copy: %s", $eval_stat); $ofh->close or do_log(-1, "Error closing %s: %s", $outfile,$!); }; if (defined $eval_stat) { die "run_ccpy: $eval_stat\n" } # propagate failure ($rv,$rerr); # return subprocess termination status and reading/close errno } # extract listed files from archive and store each in a new file # sub store_mgr($$$@) { my($tempdir, $parent_obj, $list, $archiver, @args) = @_; my $item_num = 0; my $parent_placement = $parent_obj->mime_placement; my $retval = 0; my($proc_fh,$pid); prolong_timer('store_mgr_pre'); # restart timer my $eval_stat; eval { for my $f (@$list) { next if $f =~ m{/\z}; # ignore directories my $newpart_obj = Amavis::Unpackers::Part->new("$tempdir/parts",$parent_obj); $item_num++; $newpart_obj->mime_placement("$parent_placement/$item_num"); $newpart_obj->name_declared($f); # store tainted name my $newpart = $newpart_obj->full_name; ll(5) && do_log(5,'store_mgr: extracting "%s" to file %s using %s', $f, $newpart, $archiver); if ($f =~ m{^\.?[A-Za-z0-9_][A-Za-z0-9/._=~-]*\z}) { #presumably safe arg } else { # this is not too bad, as run_command does not use shell do_log(1, 'store_mgr: NOTICE: suspicious file name "%s"', $f); } ($proc_fh,$pid) = run_command(undef, '/dev/null', $archiver, @args, untaint($f)); my($rv,$err) = run_command_copy($newpart,$proc_fh,$pid); # may die my $ll = proc_status_ok($rv,$err) ? 5 : 1; ll($ll) && do_log($ll,"store_mgr: extracted by %s, %s", $archiver, exit_status_str($rv,$err)); $retval = $rv if $retval == 0 && $rv != 0; } 1; } or do { $eval_stat = $@ ne '' ? $@ : "errno=$!" }; prolong_timer('store_mgr'); # restart timer if (defined $eval_stat) { $retval = 0; chomp $eval_stat; kill_proc($pid,$archiver,1,$proc_fh,$eval_stat) if defined $pid; undef $proc_fh; undef $pid; die "store_mgr: $eval_stat\n"; # propagate failure } $retval; # return the first nonzero status (if any), or 0 } 1;