Mercurial > notdcc
view cgi-bin/common.in @ 1:9b8d79ac0dc3
blindly adding debian patch for old version
author | Peter Gervai <grin@grin.hu> |
---|---|
date | Tue, 10 Mar 2009 14:25:08 +0100 |
parents | c7f6b056b673 |
children |
line wrap: on
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#! @PERL@ -wT # get local DCC parameters for DCC whitelist CGI scripts. # Copyright (c) 2008 by Rhyolite Software, LLC # # This agreement is not applicable to any entity which sells anti-spam # solutions to others or provides an anti-spam solution as part of a # security solution sold to other entities, or to a private network # which employs the DCC or uses data provided by operation of the DCC # but does not provide corresponding data to other users. # # Permission to use, copy, modify, and distribute this software without # changes for any purpose with or without fee is hereby granted, provided # that the above copyright notice and this permission notice appear in all # copies and any distributed versions or copies are either unchanged # or not called anything similar to "DCC" or "Distributed Checksum # Clearinghouse". # # Parties not eligible to receive a license under this agreement can # obtain a commercial license to use DCC by contacting Rhyolite Software # at sales@rhyolite.com. # # A commercial license would be for Distributed Checksum and Reputation # Clearinghouse software. That software includes additional features. This # free license for Distributed ChecksumClearinghouse Software does not in any # way grant permision to use Distributed Checksum and Reputation Clearinghouse # software # # THE SOFTWARE IS PROVIDED "AS IS" AND RHYOLITE SOFTWARE, LLC DISCLAIMS ALL # WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES # OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL RHYOLITE SOFTWARE, LLC # BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES # OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, # WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, # ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS # SOFTWARE. # Rhyolite Software DCC 1.3.103-1.89 $Revision$ # @configure_input@ # check this file by running it separately use strict 'subs'; use integer; use 5.004; use Fcntl qw(:DEFAULT :flock); use POSIX qw(strftime); # quiet Perl taint checks with a path that should work everywhere for # the few commands these scripts use. $ENV{PATH}="/sbin:/bin:/usr/sbin:/usr/bin"; # global variables # $DCCM_USERDIRS, # from dcc_conf # $whiteclnt, # path to the per-user whitelist file # %query, # $thold_cks, # checksums that can have thresholds # $user, # $hostname, # $user_dir, # $edit_url, # $list_log_url, # $list_log_link, # $list_msg_link, # $edit_url, $edit_link, # $passwd_url, $passwd_link, # $logoutID, # $url_ques, $url_suffix, # $sub_white, # 'subsitute' headers from dcc_conf # $form_hidden # state for main form # so this file can be used with do('@cgibin@/common') # besides, check_user() must be called before html_head() return check_user(); sub debug_time { my($label) = @_; return if (!$query{debug}); my(@ts, $ts); require 'sys/syscall.ph'; $ts = pack("LL", ()); syscall(&SYS_gettimeofday, $ts, 0); @ts = unpack("LL", $ts); chomp($label); printf STDERR "%38s", $label; print STDERR strftime(" %X", localtime($ts[0])); printf STDERR ".%03d", $ts[1]/1000; printf STDERR " %.3f", $_ foreach times; print STDERR "\n"; } sub debug_printf { my($label, $str) = @_; return if (!$query{debug}); $str =~ s/\n/\\n/g; print STDERR "$label='$str'\n"; } # emit HTTP/HTML header sub html_head { my($title, # title of the web page $refresh_url) = @_; # next step in re-login sequence if not null my($header, $style); print <<EOF; Content-type: text/html; charset=iso-8859-1 Expires: Thu, 01 Dec 1994 16:00:00 GMT pragma: no-cache <!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN"> <HTML> <HEAD> <TITLE>$title</TITLE> <META HTTP-EQUIV="Content-Type" CONTENT="text/html; charset=iso-8859-1"> <META HTTP-EQUIV="Content-Style-Type" CONTENT="text/css"> EOF print "<META HTTP-EQUIV=refresh content=\"1;url=$refresh_url\">\n" if ($refresh_url); # Use header if supplied # it is mostly text for the start of the <BODY>, # but it can also contain either <LINK rel="stylesheet"... # or <STYLE>...</STYLE> $header = "\n"; if (open(HEADER, "$user_dir/header") || open(HEADER, "@cgibin@/header")) { my $line; $header .= $line while ($line = <HEADER>); close(HEADER); } # Use our style style if the supplied header has none if ($header =~ s/([ \t]*<STYLE[^>]*>.*<\/STYLE>\s*)//si) { $style = $1; } elsif ($header =~ s/([ \t]*<link[^>]*rel=['"]?stylesheet[^>]*>)//si) { $style = $1; } else { $style = <<EOF; <STYLE type="text/css"> <!-- BODY {background-color:white; color:black} .warn {color:red} .mono {font-family:monospace} .small {font-size:smaller} .strong {font-weight:bolder} .nopad {margin:0; padding:0} INPUT.selected {font-size:smaller; font-weight:bolder; color:blue} TABLE {white-space:nowrap} TD.first {text-align:right; vertical-align:baseline} IMG.logo {width:6em; vertical-align:middle} ADDRESS {font-size:smaller} --> </STYLE> EOF } print <<EOF; $style </HEAD> <BODY> <H2>$title</H2> $header EOF } sub html_footer { if (open(FOOTER, "$user_dir/footer") || open(FOOTER, "@cgibin@/footer")) { my $line; print $line while ($line = <FOOTER>); close(FOOTER); } } sub common_buttons { my($msg, $cur, $list_log, $edit, $passwd, $id); $msg = $query{msg} ? "${url_ques}msg=$query{msg}" : ""; $cur = "$ENV{SCRIPT_NAME}$url_suffix"; $list_log = ($cur ne $list_log_url ? "$list_log_link$msg\">Log</A>" : "List Log"); $edit = ($cur ne $edit_url ? "$edit_link\">Settings</A>" : "Settings"); $passwd = ($cur ne $passwd_url ? "$passwd_link\">Password</A>" : "Password"); print <<EOF; <TABLE> <TR><TD>$list_log <TD>$edit <TD>$passwd <TD><A HREF="$cur${url_ques}logoutID=$logoutID">LogOut/In</A> EOF } # give up, but not entirely, with an HTML whine sub html_whine { my($msg) = @_; html_head("Internal Error"); common_buttons(); print <<EOF; </TABLE> <H1>Internal Error</H1> <P class=warn>$msg <P><HR> $ENV{SERVER_SIGNATURE} </BODY> </HTML> EOF exit; } # die with an HTML whine sub html_die { my($msg) = @_; # put the message into the httpd error log print STDERR "DCC CGI script internal error: $msg\n"; html_head("Internal Error"); print <<EOF; <P class=warn>$msg <P><HR> $ENV{SERVER_SIGNATURE} </BODY> </HTML> EOF exit; } # punt to some other web page, perhaps after the logout/in kludge # this cannot be used after html_head() sub punt2 { my($msg, # message saying why $url) = @_; # the other web page # don't punt a punt html_die($msg) if ($query{result}); $url = ((($ENV{HTTPS} && $ENV{HTTPS} eq "on") ? "https://" : "http://") . $ENV{SERVER_NAME} . $url); $url .= $url_ques."result=".url_encode($msg) if ($msg); print "Status: 302 Moved Temporarily\nLocation: $url\n"; html_head("redirect to $url"); print "redirecting to $url\n</BODY>\n</HTML>\n"; exit; } # Check authentication and gather system parameters. # Require a user name as well as one that can't be used as a sneaky path. sub check_user { my($sub_args, $cks, $thold, $line, $var); if ($ENV{HTTP_NAME}) { $hostname = $ENV{HTTP_NAME}; } elsif ($ENV{SERVER_NAME}){ $hostname = $ENV{SERVER_NAME}; } else { $hostname=`hostname`; chop($hostname); } $user = $ENV{REMOTE_USER}; if (!$user){ $user = ''; html_die("no user name") } # allow the user name to be a subdirectory html_die("user name $user is invalid") if ($user =~ /\.\./ || $user !~ /^([-\/.,#_%a-z0-9]+)$/i); $user = $1; # stop Perl taint warnings # convert the user name to lower case because sendmail likes to $user =~ tr/A-Z/a-z/; # rely on the /var/dcc/dcc_conf configuration file for almost everything $DCC_HOMEDIR = "@prefix@"; # unneeded except for compatibility $DCCM_USERDIRS = "userdirs"; $DCCM_ENABLE = "on"; $DCCIFD_ENABLE = "off"; open(CONF, '2>/dev/null sh -c \'. @prefix@/dcc_conf; echo DCCM_ENABLE="$DCCM_ENABLE"; echo DCCM_USERDIRS="$DCCM_USERDIRS"; echo DCCM_ARGS="$DCCM_ARGS"; echo DCCM_REJECT_AT="$DCCM_REJECT_AT"; echo DCCM_CKSUMS="$DCCM_CKSUMS"; echo DCCIFD_USERDIRS="$DCCIFD_USERDIRS"; echo DCCIFD_ENABLE="$DCCIFD_ENABLE"; echo DCCIFD_ARGS="$DCCIFD_ARGS"; echo DCCIFD_REJECT_AT="$DCCIFD_REJECT_AT"; echo DCCIFD_CKSUMS="$DCCIFD_CKSUMS"; echo GREY_CLIENT_ARGS="$GREY_CLIENT_ARGS"; echo DNSBL_ARGS="$DNSBL_ARGS"; \'|') || html_die("cannot get DCC configuration"); while ($line = <CONF>) { chomp($line); if ($line !~ s/(^[A-Z_]+)=//) { print STDERR "unrecognized dcc_conf line $line"; next; } $var = $1; if ($line =~ /^([-0-9,.\/a-z_]*)$/i) { ${$var} = $1; # suppress taint warnings on good paths } else { ${$1} = $line; } } close(CONF); $main_whiteclnt = "@prefix@/whiteclnt"; if ($DCCM_ENABLE eq "off" && $DCCIFD_ENABLE eq "on") { $sub_args = $DCCIFD_ARGS; $cks = $DCCIFD_CKSUMS; $thold = $DCCIFD_REJECT_AT; $logout_tmpdir = "@prefix@/$DCCIFD_USERDIRS/tmp"; # Assume "name" per-user directory for simple dccifd user names. $user_dir = "@prefix@/$DCCIFD_USERDIRS/$user"; } else { $sub_args = $DCCM_ARGS; $cks = $DCCM_CKSUMS; $thold = $DCCM_REJECT_AT; $logout_tmpdir = "@prefix@/$DCCM_USERDIRS/tmp"; # Assume "local/name" per-user directory for simple dccm user names. $user_dir = ($user =~ /\//) ? $user : "local/$user"; $user_dir = "@prefix@/$DCCM_USERDIRS/$user_dir"; } html_die("no user directory $user_dir") if (! -d $user_dir) ; $logdir = "$user_dir/log"; $whiteclnt = "$user_dir/whiteclnt"; # Figure out which substitute headers are turned on # This does not detect all possible SMTP "field names," but it also # won't get Perl confused with field names such as 'foo[bar]'. $sub_hdrs = ""; $sub_hdrs .= "|$1" while ($sub_args && $sub_args =~ s/(?:-[VdbxANQW]*S\s*) ((?i:[-a-z_0-9]+)) ($|\s+) /$2/x); $sub_white = $sub_hdrs; # pattern matching optional or substitute SMTP headers $sub_hdrs =~ s/^\|+//; # pattern matching optional or substitute checksum types $sub_white =~ s/\|/)|(substitute\\s+/g; $sub_white =~ s/^[|)(]*/(/; $sub_white .= ')'; # names of checksums whose thresholds can be set $thold_cks_cmn = 'Body,Fuz1,Fuz2'; $thold_cks = $thold_cks_cmn; # all checksums including those not kept by (almost all) DCC servers #$thold_cks_all = 'IP,env_From,From,env_To,Message-ID,' . $thold_cks; # compute default checksum thresholds if ($thold) { $cks = $thold_cks_cmn if (!$cks); foreach my $ck (split(/,/,$cks)) { my ($t,$v) = ($ck, $thold); $conf_cks_tholds{$t} = "<STRONG>$v</STRONG> <SMALL>by default in @prefix@/dcc_conf</SMALL>" if (parse_thold_value($t, $v)); } } $cgibin = $ENV{SCRIPT_NAME}; # trim the name of our script from the path $cgibin =~ s!/+[^/]+$!!; # trim extra leading /s that can mess up our generated links $cgibin =~ s!^/{2,}!/!; get_query(); return 1; } # Get user's parameters sub get_query { my($buffer, $name, $value); if ($ENV{REQUEST_METHOD} && $ENV{REQUEST_METHOD} =~ /GET|HEAD/) { $buffer = $ENV{'QUERY_STRING'}; } elsif (!$ENV{CONTENT_LENGTH}) { $buffer = ''; } else { read(STDIN, $buffer, $ENV{CONTENT_LENGTH}); } $buffer =~ tr/+/ /; foreach my $pair (split(/&/, $buffer)) { ($name, $value) = split(/=/, $pair); $name =~ s/%([a-fA-F0-9]{2})/pack("C", hex($1))/eg; if ($value) { $value =~ s/%([a-fA-F0-9]{2})/pack("C", hex($1))/eg; } else { $value = ""; } $query{$name} = $value; } if (!$query{debug} || $query{debug} !~ /^\d+$/) { $url_ques = "?"; $url_suffix = ""; $form_hidden = ""; } else { if ($query{debug} > 1) { debug_time("start $ENV{SCRIPT_NAME}"); print STDERR " $_=\"$query{$_}\"\n" foreach (keys %query); print STDERR " AuthName=\"$ENV{AuthName}\"\n" if ($ENV{AuthName}); print STDERR " SCRIPT_NAME=\"$ENV{SCRIPT_NAME}\"\n" if ($ENV{SCRIPT_NAME}); } $url_suffix = "?debug=$query{debug}"; $url_ques = '&'; $form_hidden = "\n <INPUT type=hidden name=debug value=$query{debug}>"; } $list_log_url = "$cgibin/list-log$url_suffix"; $list_log_link = "<A HREF=\"$list_log_url"; $list_msg_link = "<A HREF=\"$cgibin/list-msg$url_suffix"; $edit_url = "$cgibin/edit-whiteclnt$url_suffix"; $edit_link = "<A HREF=\"$edit_url"; $passwd_url = "$cgibin/chgpasswd$url_suffix"; $passwd_link = "<A HREF=\"$passwd_url${url_ques}goback=$ENV{SCRIPT_NAME}"; $logoutID = $ENV{UNIQUE_ID}; # do the best we can if Apache mod_unique_id is not present $logoutID = "$ENV{REMOTE_ADDR}-$ENV{REMOTE_PORT}-$$-" . time() if (!$logoutID); $logoutID = url_encode($logoutID); # kludge to handle "logout" button including recognizing that we have # already handled it. The usual tactic of requiring the user to # specifying a new username and then using a cookie seems ugly. $tfile = $query{logoutID}; if ($tfile && $tfile =~ /^([-.A-Za-z0-9@]+)$/) { $tfile = "$logout_tmpdir/logout.$1"; # delete any old logout marker files my($old_tfiles) = `find $logout_tmpdir -name 'logout.*' -mtime +1`; if ($old_tfiles && $old_tfiles =~ /^(.+)\s*$/) { $old_tfiles = $1; # untaint my @old_tfiles = split /\s/,$old_tfiles; print "unlink($old_tfiles): $!\n" if ($#old_tfiles >= unlink @old_tfiles); } # Look for our logout marker file. if (-f $tfile) { # If it exists, then we have been here before, so just delete it. # and refresh unlink $tfile; punt2("", "$ENV{SCRIPT_NAME}$url_suffix"); } else { # If it does not exist, create it & force a cycle of authentication. if (!open(TFILE, "> $tfile")) { print STDERR "open($tfile): $!\n"; html_whine("open($tfile): $!", $edit_url); } while (($name,$value) = each %ENV) { print TFILE "$name=$value\n"; } # Demand a new user name and password my($AuthName) = $ENV{AuthName} ? $ENV{AuthName} : "DCC user"; print <<EOF; WWW-authenticate: Basic realm="$AuthName" Status: 401 Unauthorized EOF html_head("Access Failure"); print "<P class=warn>\n"; print $msg ? $msg : "Access Failure"; print "\n</BODY></HTML>\n"; exit; } } } ########################################################################## # %-encode text for a URL sub url_encode { my($out) = @_; $out =~ s/([^-_.+!*(),0-9a-zA-Z])/sprintf("%%%02X",ord($1))/eg; return $out; } # encode text for ordinary HTML to avoid special HTML flags such as '<' # retain newlines sub html_str_encode { my($out) = @_; $out =~ s/&/&/g; $out =~ s/</</g; $out =~ s/>/>/g; $out =~ s/([\00-\10\13-\17\42\47\177-\377])/sprintf("&#%d;",ord($1))/eg; return $out; } # encode text for HTML, and replace newlines with <BR> sub html_text_encode { my($out) = html_str_encode(@_); $out =~ s/\n/<BR>\n/g; return $out; } # encode text for HTML, trimmed to at most 32 characters with the end replaced # by an ellipsis if too long sub hdr_trim_encode { my($out) = @_; return " " if (!$out); return html_str_encode($out) if (length($out) <= 32); $out = substr($out, 0, 28) if ($out !~ s/(^.{20,28}[^<>.@\t ])[<>.@\t ].*/$1/); $out = html_str_encode($out); $out .= " ..."; return $out; } ########################################################################## # Open and parse a log message # sets these globals # $msg_date # envelope # $msg_helo # envelope # $msg_ip # envelope # $msg_client_name # envelope # $msg_env_from # envelope # @msg_env_to # envelope # $msg_mail_host # envelope # $msg_from # header # $msg_subject # $msg_hdrs # $msg_body # $msg_cksums # $msg_result # globals # %msgs_cache, # key=compressed name, [0]=mtime [1]=i-number # $cache_line_len, # $cache_pack, # $cache_version, # $msg_encode_str, # %msgs_cache_state, # key=day, value=1 if good # %msgs_date, %msgs_result, # %msgs_from, %msgs_subject, # $msg_day_first, $msg_day_last, # $msg_first, $msg_last, # $msg_newer, $msg_part_num, # @msgs_num # compressed names sorted by mtime sub parse_log_msg { my($msg, $no_body) = @_; my(@error, $path, $line, $num_hdrs, $cur_hdr, $hdr_type, $misc_hdr, $seen_message_id, $ise_msg, $cksum_marker, $cksum_marker_p); undef $msg_date; undef $msg_helo; undef $msg_ip; undef $msg_client_name; undef $msg_env_from; undef @msg_env_to; undef $msg_mail_host; undef $msg_from; undef $msg_subject; $msg_hdrs = ''; $msg_body = ''; $msg_cksums = ''; $msg_result = ': '; $num_hdrs = 0; $ise_msg = "Internal Server Error"; $cksum_marker = "### end of message body ########################\n"; $cksum_marker_p = qr/^### end of message body ########################\s*$/; $no_body = "" if ($no_body && $no_body ne "no body"); $path = msg2path($msg); sysopen(MSG, $path, O_RDONLY, 0) || return ($ise_msg, "open($path): $!"); return ($ise_msg, "empty $path") if (!($msg_date = <MSG>)); if ($msg_date !~ /^VERSION/) { close(MSG); return ($ise_msg, "format of $path unrecognized"); } if (!($msg_date = <MSG>)) { close(MSG); return ($ise_msg, "$path truncated after VERSION line"); } if (!($msg_date =~ s/^DATE: +(.*) +[^ ]+/$1/)) { close(MSG); return ($ise_msg, "unrecognized DATE line $msg_date in message $msg"); } if (!($msg_ip = <MSG>)) { close(MSG); return ($ise_msg, "message $msg truncated in envelope"); } if ($msg_ip =~ /^IP: ([^ :]*) *([:.0-9a-fA-F]*) *$/) { $msg_ip = $2; $msg_client_name = $1; $msg_ip =~ s/^::ffff://i; $msg_client_name =~ s/^\[.*]$//; $msg_client_name = ' ' if ($msg_client_name eq ''); if (!($msg_helo = <MSG>)) { close(MSG); return ($ise_msg, "message $msg truncated in envelope"); } chop($msg_helo); } else { # no IP line $msg_helo = $msg_ip; undef $msg_ip; } if (!($msg_helo =~ s/^HELO: //)) { # no HELO line $msg_env_from = $msg_helo; undef($msg_helo); } else { if (!($msg_env_from = <MSG>)) { close(MSG); return ($ise_msg, "message $msg truncated after HELO line"); } chop($msg_env_from); } if (!($msg_env_from =~ s/^env_From: //)) { # no env_from line $line = $msg_env_from; undef($msg_env_from); } else { $msg_mail_host = $msg_env_from; $msg_mail_host =~ s/.*mail_host=(.*)/$1/; $msg_env_from =~ s/<?([^\t> ]*).*/$1/; $line = <MSG>; } # Save the envelope env_To lines. for (;;) { if (!$line) { close(MSG); return ($ise_msg, "message $msg truncated in envelope"); } last if ($line =~ /^[\r\n]*$/); if ($line eq "abort\n") { close(MSG); return ("aborted transaction", ""); } push(@msg_env_to, $1) if ($line =~ /env_To:[\t ]*<?([^\t> ]+).*/); $line = <MSG>; } # Look for header lines that get checksums as we collect the whole message. $new_hdr = ""; undef($hdr_type); for (;;) { if (!($line = <MSG>)) { close(MSG); return ($ise_msg, "message $msg truncated in headers"); } # dccifd logs header lines with <CR><LF> but dccm uses <LF> $line =~ s/\r\n$/\n/; # deal with header continuation if ($line =~ /^[\t ]+/) { $new_hdr .= $line; $$cur_hdr .= $line if ($cur_hdr); next; } if ($cur_hdr) { # end a preceding interesting header $$cur_hdr =~ s/[\t ]*\n[\r\s]*/ /g; $$cur_hdr =~ s/^\s+//; $$cur_hdr =~ s/\s+$//; # emit a link if (!$no_body) { if ($hdr_type) { $msg_hdrs .= "$edit_link${url_ques}type=$hdr_type&val="; $msg_hdrs .= url_encode($$cur_hdr); $msg_hdrs .= "&msg=$msg&auto=1#cur_key\">"; chop($new_hdr); $msg_hdrs .= html_str_encode($new_hdr); $msg_hdrs .= "</A>\n"; undef($hdr_type); } else { $msg_hdrs .= html_str_encode($new_hdr); } } undef $cur_hdr; } else { # end preceding boring header $msg_hdrs .= html_str_encode($new_hdr); } # stop after the headers last if ($line eq "\n"); ++$num_hdrs; $new_hdr = $line; # Start an interesting header if ($line =~ s/^from:\s*//i) { $hdr_type = "from"; $msg_from = $line; $cur_hdr = \$msg_from; next; } if ($line =~ s/^(Message-ID):\s*//i) { $hdr_type = "Message-ID"; $misc_hdr = $line; $cur_hdr = \$misc_hdr; $seen_message_id = 1; next; } if ($line =~ s/^subject:\s*//i && 'subject:' =~ /^($sub_hdrs):/i) { $hdr_type = url_encode("substitute subject"); $msg_subject = $line; $cur_hdr = \$msg_subject; next; } if (!$no_body && $line =~ s/^($sub_hdrs):\s*//i) { $hdr_type = $1; $hdr_type =~ tr/A-Z/a-z/; $hdr_type = url_encode("substitute $hdr_type"); $misc_hdr = $line; $cur_hdr = \$misc_hdr; next; } } # fake empty Message-ID if required if (!$seen_message_id && $num_hdrs) { $msg_hdrs .= "$edit_link${url_ques}type="; $msg_hdrs .= "Message-ID"; $msg_hdrs .= "&val=%3c%3e&msg=$msg&auto=1#cur_key\">missing Message-ID</A>\n"; } # copy the body of the message for (;;) { if (!($line = <MSG>)) { close(MSG); return ($ise_msg, "message $msg truncated in body"); } last if ($line =~ $cksum_marker_p); $line =~ s/[ \t\r]+$//mg; $msg_body .= html_text_encode($line) if (!$no_body); } # copy the checksums while ($line = <MSG>) { # notice quoted checksums that are part of the body if ($line =~ $cksum_marker_p) { if (!$no_body) { $msg_body .= "<PRE class=mono>\n"; $msg_body .= $cksum_marker; $msg_body .= $msg_cksums; $msg_body .= "</PRE>\n"; } $msg_cksums = ''; $msg_result = ': '; next; } $msg_cksums .= $line; # Build a string of all of the reasons why the message should # have been accepted or rejected as we build the list of checksums. # Use italics for disabled checks. $msg_result .= "MTA " if ($line =~ /\bMTA-->spam(|\(first\))\b/); $msg_result .= "MTA-OK " if ($line =~ /\bMTA-->OK(|\(first\))\b/); $msg_result .= "BL " if ($line =~ /\bwlist-->spam\b/); $msg_result .= "WL " if ($line =~ /\bwlist-->OK\b/); $msg_result .= "DCC " if ($line =~ /\bDCC-->spam\b/); $msg_result .= "<I>DCC</I> " if ($line =~ /\bDCC-->spam\(off\)\b/); $msg_result .= "OK-DCC " if ($line =~ /\bDCC-->OK\b/); $msg_result .= "<I>OK-DCC</I> " if ($line =~ /\bDCC-->OK\(off\)\b/); $msg_result .= "Rep " if ($line =~ /\bRep-->spam\b/); $msg_result .= "<I>Rep</I> " if ($line =~ /\bRep-->spam\(off\)\b/); $msg_result .= "$1 " while ($line =~ s/\b(DNSBL\d?)-->spam\b//); $msg_result .= "<I>$1</I> " if ($line =~ s/\b(DNSBL\d?)-->spam\(off\)\b// ); # Prefix the string of reasons with what was done. if ($line =~ /^result: temporary greylist embargo/) { $msg_result = "Grey" . $msg_result; } elsif ($line =~ /^result: accept after greylist embargo/) { $msg_result = "OK-Grey" . $msg_result; } elsif ($line =~ /^result: accept/) { $msg_result = "OK" . $msg_result; } elsif ($line =~ /^result: reject temporarily/) { $msg_result = "Delay" . $msg_result; } elsif ($line =~ /^result: reject/) { $msg_result = "Reject" . $msg_result; } elsif ($line =~ /^result: discard/) { $msg_result = "Discard" . $msg_result; } elsif ($line =~ /^result: .*abort/) { $msg_result = "abort"; } } $msg_result =~ s/^: //; $msg_cksums = html_str_encode($msg_cksums) if (!$no_body); close(MSG); return undef; } sub decode_msg_name { my($str) = @_; my($val, $i, $c); use integer; $val = 0; for ($i = 0; $i < length($str); ++$i) { $c = ord(substr($str, $i, 1)); if ($c >= ord('a')) { $c = $c - ord('a') + 10; } elsif ($c >= ord('A')) { $c = $c - ord('A') + 10+26; } else { $c -= ord('0'); } $val = ($val * (10+26+26)) + $c; } return $val; } sub msg2path { my($msg, $path) = @_; $path = $logdir . '/' if (!defined $path); if (length($msg) >= 8) { $path .= sprintf("%03d/", decode_msg_name(substr($msg, 6, 2))); if (length($msg) >= 9) { $path .= sprintf("%02d/", decode_msg_name(substr($msg, 8, 1))); if (length($msg) >= 10) { $path .= sprintf("%02d/", decode_msg_name(substr($msg, 9, 1))); } } } return $path . 'msg.' . substr($msg, 0, 6); } # flush one cache file sub cache_write_file { my($buf, $cnum) = @_; my($tmp, $cfname, $date); $tmp = "msg.cache." . "new." . $$; if (!sysopen(CFILE, $tmp, O_WRONLY | O_CREAT, 0660)){ print STDERR "open($tmp): $!\n"; return undef; } if (syswrite(CFILE, $cache_version) != length($cache_version) || syswrite(CFILE, $buf) != length($buf)) { print STDERR "syswrite $tmp: $!\n"; close(CFILE); unlink($tmp); return undef; } close(CFILE); $cnum =~ /(\d+)/; $cnum = $1; # suppress Perl taint warning $date = $cnum * (24*3600); if ($date <= time) { utime($date, $date, $tmp) || print STDERR "utime($date, $date, $tmp): $!\n"; } $cfname = "msg.cache." . $cnum; if (!rename($tmp, $cfname)) { print STDERR "rename($tmp, $cfname): $!\n"; unlink($tmp); return undef; } $msgs_cache_state{$cnum} = 1; return 1; } # flush the cache files sub cache_flush { my($cache_files, $log_files, $cnum, $cfname, $state, $new_cnum, $msg, $buf, $buf_start); if (! -w ".") { my $marker = "$logout_tmpdir/msg.$user-nocache"; if (! -f $marker || (stat(_))[9] < time()-(4*3600)) { if (!open(CFILE,">>",$marker)){ print STDERR "open($marker): $!\n"; } else { print CFILE "$logdir not writable for cache files\n"; close CFILE; } print STDERR "$logdir not writable for cache files\n"; } return; } $cache_files = 0; $log_files = 0; $buf_start = 0; $cnum = 0; foreach $msg (@msgs_num) { # one cache file per day, so pick the cache for this log file # note that the files are sorted by mtime $new_cnum = $msgs_cache{$msg}[0] / (24*3600); # skip this log file if its cache file is good next if ($msgs_cache_state{$new_cnum}); # close the current cache file if we are dealing with a new day # and so a new cache file if ($cnum != $new_cnum) { if ($log_files - $buf_start > 10) { ++$cache_files; return if (!cache_write_file($buf, $cnum)); $buf_start = $log_files; } else { # forget the cache file if it would be tiny $log_files= $buf_start; } undef $buf; $cnum = $new_cnum; } $buf .= pack($cache_pack, $msgs_cache{$msg}[0], $msgs_cache{$msg}[1], $msg); ++$log_files; } if ($log_files - $buf_start > 10) { ++$cache_files; cache_write_file($buf, $cnum); } else { $log_files= $buf_start; } # delete junk cache files while (($cnum, $state) = each %msgs_cache_state) { next if ($state); $cfname = "msg.cache." . $cnum; if (-f $cfname && !unlink($cfname)) { print STDERR "unlink($cfname): $!\n"; return; } } debug_time("flushed $cache_files cache files with $log_files files"); } # get the list of messages # The first arg is the current file # Try to limit the size of the table to the second arg # divide days worth of files to fit the page size if it is <0 # # sets globals %msgs_date, %msgs_result, %msgs_from, %msgs_subject, # $msg_day_first, $msg_day_last, $msg_first, $msg_last, # $msg_newer, $msg_part_num, @msgs_num sub get_log_msgs { my($page_msg, # target log message $page_size, # log files / web page $mode # 0=old, 1=reverse sort & divide days ) = @_; my($cache_len, $need_flush, $cache_parse_limit, $dir_len, $line, $msg, $entry, $days, $sort_order, $msg_tgt, $date_tgt, $date_cur, $date1, $msg_num, $msg_num_prev, $start); $cache_parse_limit = 100; $cache_version = "DCC msg.cache version 3\n"; $cache_pack = "LLA10"; $cache_line_len = length(pack($cache_pack, 0)); $msg_encode_str = ("0123456789" . "abcdefghijklmnopqrstuvwxyz" . "ABCDEFGHIJKLMNOPQRSTUVWXYZ"); # reverse the sort for old callers $sort_order = !$mode ? -1 : 1; # Build a list of log file names and dates # Use cache files of names and dates. Validate the cache # files by checking i-numbers. Use the `ls` command because the # the Perl readdir() function does not provide d_ino/d_fileno. chdir($logdir) || html_whine("chdir($logdir): $!"); # ls -ifC1 would be faster, but it does not work on files on Solaris html_whine("ls -iC1 $logdir: $!") if (!open(DIR, "find . -name 'msg.*' | @DCC_XARGS@ /bin/ls -iC1 |")); $dir_len = 0; while ($line = <DIR>) { # find simple log files as well as log files in DDD, DDD/HH, and # DDD/HH/MM subdirectories if ($line =~ /^\s*(\d+)\s+\.\/((\d\d\d)(\/(\d\d))?(\/(\d\d))?\/)?msg\.([A-Za-z\d]{6})\s*$/) { my ($filename, $subdir); $filename = $8; if (defined $3) { # encode the subdirectory next if ($3 > 366); use integer; $filename .= (substr($msg_encode_str, $3 / length($msg_encode_str), 1) . substr($msg_encode_str, $3 % length($msg_encode_str), 1)); if (defined $5) { next if ($5 >= 24); $filename .= substr($msg_encode_str, $5, 1); if (defined $7) { next if ($7 >= 60); $filename .= substr($msg_encode_str, $7, 1); } } } $msgs_cache{$filename}[1] = $1; ++$dir_len; next; } # notice cache files if ($line =~ /^\s*\d+\s+\.\/(msg\.cache\.(\d{5}))\s*$/ && -f $1 && (((stat(_))[7] - length($cache_version)) % $cache_line_len) == 0) { $msgs_cache_state{$2} = 0; next; } } close(DIR); debug_time("$dir_len files found"); # load the cache files # Because cache files are named with dates, are read in sorted # order, and have sorted contents, we do not need to sort # what we read from them. $cache_len = 0; $need_flush = 0; foreach my $cnum (sort keys(%msgs_cache_state)) { my($total, $good, $date_lo, $date_hi); next if (!open(CFILE, "msg.cache." . $cnum)); if (!read(CFILE, $buf, length($cache_version)) || $buf ne $cache_version) { close CFILE; next; } # the names in a cache file are for a single day $date_lo = $cnum * 24*3600; $date_hi = $date_lo + 24*3600 - 1; $good = $total = 0; while (read(CFILE, $buf, $cache_line_len)) { my($date, $ino, $msg) = unpack($cache_pack, $buf); ++$total; # a cache file is bogus if it contains bad dates last if ($date < $date_lo || $date > $date_hi); # skip deleted log files next if (!exists($msgs_cache{$msg})); # skip cached file names that have been recycled next if ($msgs_cache{$msg}[1] != $ino); $msgs_cache{$msg}[0] = $date; push @msgs_num, $msg; ++$good; } close(CFILE); if ($good == 0 || $good+20 < $total) { $need_flush = 1; } elsif ($good == $total) { $msgs_cache_state{$cnum} = 1; } $cache_len += $good; } debug_time("$cache_len files cached"); # If there are any new log files, # then we must get their dates and then sort all of the names if ($cache_len != $dir_len) { $need_flush = 1 if ($dir_len > $cache_len+100); $msg_num = 0; while (($msg, $entry) = each %msgs_cache) { next if (@$entry[0]); # we know about this file from cache my $date = (stat msg2path($msg))[9]; if (!$date) { # forget this file if we cannot stat() it delete $msgs_cache{$msg}; next; } @$entry[0] = $date; $msgs_cache_state{$date / (24*3600)} = 0; ++$msg_num; } debug_time("$msg_num files dated"); # this is obscure but much faster than using comparison functions that # do hash lookups for each comparison of the sort @msgs_num = map {my @a = unpack("NA10",$_); $a[1]} (sort map pack("NA10", $msgs_cache{$_}[0]*$sort_order, $_), keys %msgs_cache); debug_time("sorted " . ($#msgs_num+1) . " files"); } # find the target message that must be listed $msg_tgt = ($sort_order > 0 && $#msgs_num >= 0) ? $#msgs_num : 0; if ($page_msg) { for ($msg_num = 0; $msg_num <= $#msgs_num; ++$msg_num) { if ($msgs_num[$msg_num] eq $page_msg) { $msg_tgt = $msg_num; last; } } debug_time("found #" . $msg_tgt); } # we are finished if the caller only wanted the list of files # perhaps for URLs pointing to previous and next files if (!$page_size || $page_size < 1 || $#msgs_num < 0) { cache_flush() if ($need_flush); $msg_first = $msg_tgt; $msg_last = $#msgs_num; $msg_newer = $#msgs_num; $msg_part_num = 0; $msgs_mtime{$page_msg} = 1 if (!$mode && $page_msg); return; } # Get summary information from all of the files on the target day, the # last file on the previous day, and on the first file on the next day. # # walk backward from the target to the first log file of the target day $date_tgt = $date_cur = (localtime $msgs_cache{$msgs_num[$msg_tgt]}[0])[7]; for ($msg_day_first = $msg_tgt; $msg_day_first > 0; $msg_day_first = $msg_num) { $msg_num = $msg_day_first-1; $date_cur = (localtime $msgs_cache{$msgs_num[$msg_num]}[0])[7]; last if ($date_cur != $date_tgt); } if (!$mode) { $msg_part_num = 0; $msg_first = $msg_day_first; } else { $msg_part_num = ($msg_tgt - $msg_day_first) / $page_size; $msg_first = $msg_day_first + ($msg_part_num * $page_size); } # walk forward to the end of the day or $page_size files $days = 0; # count space used by date headings $msg_last = $msg_first + $page_size-1; $msg_last = $#msgs_num if ($msg_last > $#msgs_num); $msg_newer = $msg_first + $page_size; $msg_newer = $#msgs_num if ($msg_newer > $#msgs_num); $msg_day_last = $#msgs_num; $date1 = $date_tgt; for ($msg_num = $msg_tgt+1; $msg_num <= $#msgs_num; ++$msg_num) { $date_cur = (localtime $msgs_cache{$msgs_num[$msg_num]}[0])[7]; next if ($date_cur == $date1); ++$days; if ($date1 == $date_tgt) { $msg_day_last = $msg_num-1; # the "newer" link goes to the first file of the next day if # the current day fits on the web page $msg_newer = $msg_num if (!$msg_newer || $msg_num < $msg_newer); } if ($msg_num > $msg_first + $page_size - $days) { $msg_last = $msg_num-1 if (!$mode); last; } $msg_last = $msg_num-1 if ($#msgs_num > $msg_first+$page_size-$days); $date1 = $date_cur; } if ($mode) { ++$msg_part_num if ($msg_part_num != 0 || $msg_first + $page_size <= $msg_day_last); # overlap the parts of a day by a line ++$msg_last if ($msg_part_num != 0 && $msg_last < $msg_day_last); } # parse the log files to get the data for ($msg_num = $msg_first; $msg_num <= $msg_last; ++$msg_num) { $msg = $msgs_num[$msg_num]; my(@error) = parse_log_msg($msg, "no body"); if (defined $error[0]) { $msgs_date{$msg} = strftime("%x %X", localtime($msgs_cache{$msg}[0])) if (!$msgs_date{$msg} && $msgs_cache{$msg}[0]); $msgs_from{$msg} = "<STRONG class=warn>$error[0]</STRONG>"; $msgs_result{$msg} = ''; $msgs_subject{$msg} = "<STRONG class=warn>$error[1]</STRONG>"; } else { $msgs_date{$msg} = $msg_date; $msgs_from{$msg} = hdr_trim_encode($msg_from ? $msg_from : $msg_env_from); $msgs_result{$msg} = $msg_result ? $msg_result : " "; $msgs_subject{$msg} = hdr_trim_encode($msg_subject); } } debug_time(($msg_last - $msg_first + 1) . " log files parsed"); cache_flush() if ($need_flush); } ########################################################################## # whiteclnt file functions # The file is represented as an array or list of references to 3-tuples. # The first of the three is the whitelist entry in a canonical form # as a key uniquely identifying the entry. # The second is a comment string of zero or more comment lines. # The third is the DCC whiteclnt entry. # # The canonical form and the whiteclnt line of the first 3-tuple for a file # are null, because it contains the comments, if any, before the file's # preamble of dans when the file has been changed and flags. # The file[1] is an empty slot for adding option settings. # The last triple in a file may also lack a whitelist entry. # There is a hash or dictionary of references to entries in the list # lock, read, and parse the file sub read_whiteclnt { my($file_ref, $dict_ref) = @_; my($entry, $prev_entry, $comment); @$file_ref = (); %$dict_ref = (); # Creating the file here is usually a waste of effort, because # it must be writable by both the HTTP server and dccm or dccifd. # They are probably not in any common group. # Let the @libexecdir@/newwebuser script create the per-user # directories and files. # Because whitelists might be a little sensitive, they should not be # readable by "other" html_whine("open($whiteclnt): $!") if (!sysopen(WHITECLNT, $whiteclnt, O_RDWR | O_CREAT, 0660)); chmod(0660, $whiteclnt); html_whine("flock($whiteclnt): $!") if (!flock(WHITECLNT, LOCK_EX | LOCK_NB)); $comment = ""; while ($entry = <WHITECLNT>) { # end the last line properly even if the file doesn't $entry .= "\n" if (substr($entry,-1) ne "\n"); # collect lines until we get a non-comment if ($entry =~ /^\s*(#|$)/) { $comment .= $entry; next; } # use the previous count if the current value is missing, # because that is what dcclib/parse_whitefile.c does. $entry = "$1$entry" if ($entry =~ /^[ \t]/ && $#$file_ref > 0 && ($prev_entry = ${${$file_ref}[$#$file_ref]}[2]) && $prev_entry =~ /^(\S+)/); add_white_entry($file_ref, $dict_ref, $comment, $entry); $comment = ""; } # save a non-trivial trailing comment add_white_entry($file_ref, $dict_ref, $comment, "") if ($comment && $comment !~ /^\s*$/); } # read the main whiteclnt file to determine the default option settings sub read_whitedefs { my($def_ref) = @_; my(@sb1, @sb2, $line, @parsed, $bydef); # these defaults for the defaults must match dcclib/parse_whitefile.c # or elsewhere in the DCC client source (e.g. for discardok) %$def_ref = (); $bydef = " <SMALL>by default</SMALL>"; ${$def_ref}{dccenable} = "<STRONG>on</STRONG>$bydef"; ${$def_ref}{greyfilter} = "<STRONG>on</STRONG>$bydef"; ${$def_ref}{greylog} = "<STRONG>on</STRONG>$bydef"; ${$def_ref}{mtafirst} = "<STRONG>last</STRONG>$bydef"; ${$def_ref}{rep} = "<STRONG>off</STRONG>$bydef"; ${$def_ref}{dnsbl1} = "<STRONG>off</STRONG>$bydef"; ${$def_ref}{dnsbl2} = "<STRONG>off</STRONG>$bydef"; ${$def_ref}{dnsbl3} = "<STRONG>off</STRONG>$bydef"; ${$def_ref}{logall} = "<STRONG>off</STRONG>$bydef"; ${$def_ref}{discardok} = "<STRONG>delay mail</STRONG>$bydef"; foreach my $ck (split(/,/,$thold_cks)) { my $nm = "thold-$ck"; if (!$conf_cks_tholds{$ck}) { ${$def_ref}{$nm} = "<STRONG>Never</STRONG>$bydef"; } else { ${$def_ref}{$nm} = $conf_cks_tholds{$ck}; } } if (!sysopen(MAINWHITE, $main_whiteclnt, O_RDONLY, 0)) { print STDERR "open(${main_whiteclnt}: $!\n"; return; } if (!(@sb1 = stat(MAINWHITE))) { print STDERR "stat(${main_whiteclnt}: $!\n"; } elsif (!(@sb2 = stat(WHITECLNT))) { print STDERR "stat(${$whiteclnt}: $!\n"; } elsif ($sb1[0] == $sb2[0] && $sb1[1] == $sb2[1]) { # ignore it if we are somehow working on the main file } else { while ($line = <MAINWHITE>) { # skip everything except option settings next if ($line !~ /^\s*option\s+/i); @parsed = parse_white_entry($line, "option"); next if (!$parsed[1]); ${$def_ref}{$parsed[0]} = "<STRONG>$parsed[2]</STRONG> <SMALL>by default in $main_whiteclnt</SMALL>"; } } close(MAINWHITE); } # add an entry to our image of the file # sets the globals: # $whiteclnt_version, #webuser version ... # $whiteclnt_notify, #webuser mail-notify=X mailbox=Y # $whiteclnt_notify_pat, #regex for #webuser mail-notify=X mailbox=Y # $whiteclnt_lock, #webuser (un)locked # $whiteclnt_cur_key #editing position in the file # $whiteclnt_change_log, #list of dates when file was changed sub add_white_entry { my($file_ref, $dict_ref, $comment, $line) = @_; my(@parsed); # trim unneeded white space $line =~ s/\s+$//; $comment =~ s/[ \t]+$//mg; # deal with the preamble. # The preamble consists of the comments that start the file. if (! @$file_ref) { my($preamble, @buf); # remove the change-history, version, and parameters from the preamble $whiteclnt_version = "#webuser version 1.0\n"; while ($comment =~ s/^#webuser version ([0-9.]+)\n/ \n/m) { # for now, insist on version 1.0 html_whine("unrecognized version $1 in $whiteclnt") if ($1 ne "1.0"); } $whiteclnt_notify_pat = '(#webuser mail-notify=)(on|off)( mailbox=)([-_a-z0-9]*)'; $whiteclnt_notify = "#webuser mail-notify=off mailbox=\n"; while ($comment =~ s/^$whiteclnt_notify_pat\n/ \n/im) { $whiteclnt_notify = "$1$2$3$4\n"; } $whiteclnt_lock = "#webuser unlocked\n"; while ($comment =~ s/^#\s*webuser\s+unlocked\n/ \n/im) { } while ($comment =~ s/^#\s*webuser\s+locked\n/ \n/im) { $whiteclnt_lock = "#webuser locked\n"; } $whiteclnt_cur_key = ""; while ($comment =~ s/^#\s*webuser\s+cur_key\s+(.*)\n/ \n/im) { $whiteclnt_cur_key = $1; } $whiteclnt_change_log = ""; while ($comment =~ s/^#\s*webuser created\s+(.+\n)/ \n/im) { $whiteclnt_change_log = "#webuser created $1"; } undef(@buf); while ($comment =~ s/^#webuser\s+changed\s+(.+\n)/ \n/im) { push(@buf, "#webuser changed $1"); } # keep only the last 20 dates of change if (@buf) { my($start); $start = $#buf-20; $start = 0 if ($start < 0); $whiteclnt_change_log .= join('', @buf[$start .. $#buf]); } # We have removed the parameter lines from the first comment of the # file and replaced them with " \n" # Before starting we remove blanks from the ends of lines. # The first block of comments must now be divided between (1) comments # about the file and (2) comments about the first real line of the file. if ($comment =~ s/^(.* \n)//s) { # Take the comment lines through the last marker if there were any. # Add the first blank line after the markers if present. $preamble = $1; $preamble .= "\n" if ($comment =~ s/^\n//); # remove the markers for detected parameter lines $preamble =~ s/ \n//g; } else { # without parameters, take lines through the first blank line as (1) $preamble = ($comment =~ s/(.*?\n\n)//s || $comment =~ s/(.*?\n[# \t]+\n)//s) ? $1 : ""; } # start the memory copy of the file with the preamble # and the spare slot for option changes @$file_ref = ([undef, $preamble, ""], ["", undef, undef]); # finished if the file has no entries, return if (!$line && !$comment); # or deal with the first entry } # If the line makes sense, remember where it will be. # Treat the line as a comment if it makes no sense @parsed = parse_white_entry($line, ""); if (!$parsed[1]) { $comment .= $line; $comment .= "\n" if ($comment !~ /\n$/); push @$file_ref, [undef, $comment, ""]; } else { my($cur_key, $entry, $i, $k); $cur_key = $parsed[0]; $entry = [$cur_key, $comment, $parsed[1]]; push @$file_ref, $entry; if (${$dict_ref}{$cur_key}) { $i = 0; # mark duplicate values for eventual deletion # keep the last setting in the file while (${$dict_ref}{$k = "DUP-$i-$cur_key"}) { ++$i; } ${$dict_ref}{$k} = ${$dict_ref}{$cur_key}; } ${$dict_ref}{$cur_key} = $entry; } } # check the syntax of IP addresses and CIDR blocks # return undef if ok but an error string if not sub check_ip { my($value) = @_; return "blank or missing IP address" if (!$value); my $addr = $value; if ($addr =~ s/(.*)\/(\d+)/$1/) { my $cidr = $2; $cidr += 96 if ($addr =~ /:/); return "\"$value\" is not a valid CIDR block" if ($cidr > 128 || $cidr <= 0); } # it would be better to use some library to parse the IP address, # but in 2005, there was no Perl module that could handle IPv6 # addresses and is almost always available return "\"$value\" is not a valid IP address" if ($addr !~ /^[.:0-9a-f]+$/); if ($addr =~ /:/) { # IPv6 my $colons = $addr; $colons =~ s/[^:]+//g; $colons = length($colons); if ($addr =~ /^::/ && $colons <= 7) { ++$colons while ($colons < 7 && $addr =~ s/^::/::0:/); $addr =~ s/^::/0:/ if ($colons == 7); } elsif ($addr =~ /::$/ && $colons <= 7) { ++$colons while ($colons < 7 && $addr =~ s/::$/:0::/); $addr =~ s/::$/:0/ if ($colons == 7); } else { ++$colons while ($colons < 7 && $addr =~ s/::/::0:/); $addr =~ s/::/:0:/ if ($colons == 7); } return "$value is not a valid IP address" if ($colons > 7); $addr =~ s/^([0-9a-f]{1,4}:)+//; $addr =~ s/^[0-9a-f]{1,4}$/127.0.0.1/; return "\"$value\" is not a valid IP address" if ($addr =~ /:/); # stop looking at IPv6 address with either the IPv4 trailing part #or a fake 127.0.0.1 } my $quads = 0; while ($addr =~ s/^(\d{1,3})\.//) { return "\"$value\" is not a valid IP address" if ($1 > 255); ++$quads; } return "$value is not a valid IP address" if ($addr > 255 || $quads > 3); # we should now check for collisions among addresses return undef; } sub check_present { my($type, $value) = @_; # dcc_str2ck() via dcc_parse_ck() ignores outside quotes and <>, # whitespace, and upper/lower case, and trailing periods. So our key must # also. # The value for the line in the file need not be as clean. $value =~ s/^\s+//; $value =~ s/\s+$//; $value =~ s/^<\s*(.+)\s*>$/$1/ if ($value !~ s/^"\s*(.+)\s*"$/$1/); $value =~ s/\.+$//; return ($type, $value) if ($value); return ($type, "<>", "blank or missing $type value"); } sub check_hex { my($type, $value) = @_; return ($type, $value, "blank or missing $type value") if (!$value); return ($type, $value) if ($value =~ s/([0-9a-f]{8})\s+([0-9a-f]{8}) \s+([0-9a-f]{8})\s+([0-9a-f]{8})$ /$1 $2 $3 $4/ix); return ($type, $value, "\"$value\" is an invalid $type checksum"); } # canonicalize a whitelist checksum "type value" string # return a (type, value) pair or (x, x, "error string") triple sub parse_type_value { my $value = $_[0]; # Check for type # Don't support received checksums. # Body checksums must be hex. $value =~ s/\s+$//; return ("IP", $value, check_ip($value)) if ($value =~ s/^IP:?(\s*|$)//i); return check_present("env_From", $value) if ($value =~ s/^env[-_]from:?(\s+|$)//i); return check_present("env_To", $value) if ($value =~ s/^env[-_]To:?(\s+|$)//i); return check_present("From", $value) if ($value =~ s/^from:?(\s+|$)//i); return check_present("Message-ID", $value) if ($value =~ s/^message[-_]id:?(\s+|$)//i); # don't worry much about substitute types. return check_present("substitute $1", $value) if ($value =~ s/^substitute\s+([-a-z_0-9]+)+:?(\s+|$)//i); return check_hex("hex Body", $value) if ($value =~ s/^hex\s+body:?(\s+|$)//i); return check_hex("hex Fuz$1", $value) if ($value =~ s/^hex\s+fuz([12]):?(\s+|$)//i); return (undef, undef, "unrecognized whiteclnt value \"$value\""); } # canonicalize a threshold setting sub parse_thold_value { my($pat, $type, $val); # check the name of the checksum by converting it into a pattern # and matching it against the list of checksum types that can have # per-user thresholds $pat = ",($_[0]),"; $pat =~ s/[-_]/[-_]/g; $type = ',' . $thold_cks . ','; return 0 if ($type !~ /$pat/i); $type = $1; # check the threshold value if ($_[1] =~ /^Never$/i) { $val = 'Never'; } elsif ($_[1] =~ /^many/i) { # reputation threshold is a % and reputation total is finite return 0 if ($type =~ /^rep/); $val = "many"; } elsif ($_[1] =~ /^\d+$/) { $val = $_[1]; if ($type =~ /^rep$/i) { return 0 if ($val > 100); $val .= '%'; } } elsif ($_[1] =~ /^(\d+)%$/) { # reputation threshold is a % return 0 if ($1 > 100 || $type !~ /^rep$/i); $val = $_[1]; } else { return 0; } $_[0] = $type; $_[1] = $val; return 1; } # See if a whiteclnt line makes sense # If so, return a list of key and canonicalized line. # If it is an option setting, return a third string that is the value # for the edit form. # If not, return only an error message. sub parse_white_entry { my($line, # line to parse $mode # ''=accept from file, # 'option'=new option setting # 'strict'=new whitelist entry ) = @_; my($count, $key, $type, $value, $emsg); # recognize options if (!$mode || $mode eq "option") { return ("dccenable", "option dcc-$1\n", "$1") if ($line =~ /^\s*option\s+DCC-(on|off)\s*$/i); return ("greyfilter", "option greylist-$1\n", "$1") if ($line =~ /^\s*option\s+greylist-(on|off)\s*$/i); return ("greylog", "option greylist-log-$1\n", "$1") if ($line =~ /^\s*option\s+greylist-log-(on|off)\s*$/i); return ("mtafirst", "option MTA-$1\n", "$1") if ($line =~ /^\s*option\s+MTA-(first|last)\s*$/i); return ("rep", "option DCC-rep-$1\n", "$1") if ($line =~ /^\s*option\s+DCC-reps?-(on|off)\s*$/i); return ("dnsbl1", "option dnsbl1-$1\n", "$1") if ($line =~ /^\s*option\s+dnsbl-(on|off)\s*$/i); return ("dnsbl$1", "option dnsbl$1-$2\n", "$2") if ($line =~ /^\s*option\s+dnsbl([123])-(on|off)\s*$/i); return ("logall", "option log-all\n", "on") if ($line =~ /^\s*option\s+log-all\s*$/i); return ("logall", "option log-normal\n", "off") if ($line =~ /^\s*option\s+log-normal\s*$/i); return ("logsubdir", "option log-subdirectory-$1\n", "$1") if ($line =~ /^\s*option\s+log-subdirectory-(day|hour|minute)\s*$/i); return ("discardok", "option forced-discard-ok\n", "discard spam") if ($line =~ /^\s*option\s+forced-discard-ok\s*$/i); return ("discardok", "option no-forced-discard\n", "delay mail") if ($line =~ /^\s*option\s+no-forced-discard\s*$/i || $line =~ /^\s*option\s+forced-discard-nok\s*$/i); # obsolete if ($line =~ /^\s*option\s+threshold\s+(\S+),(\S+)\s*$/i) { $type = $1; $value = $2; return ("thold-$type", "option threshold $type,$value\n", "$value") if (parse_thold_value($type, $value)); } # recognize old logging options return ("greylog", "option greylist-log-on\n", "on") if ($line =~ /^\s*log\s+all-grey\s*$/i); return ("greylog", "option greylist-log-off\n", "off") if ($line =~ /^\s*log\s+no-grey\s*$/i); # we are finished if only parsing a new option line we know is ok return "unrecognized option line" if ($mode && $mode eq "option"); } # must be "" with a bad option or "strict" when we should see an option return "unrecognized option line" if ($line =~/^log/i || $line =~ /^option/i); return "unrecognized line" if ($line !~ /^(\S+)\s+(.*)/); $count = $1; $value = $2; return "unrecognized count \"$count\"" if ($count !~ /many|ok|ok2/i); ($type, $value, $emsg) = parse_type_value($value); return $emsg if ($emsg); # build the whiteclnt line $line = "$count\t$type"; $line .= (length($type) < 8) ? "\t" : ' '; $line .= "$value\n"; $value =~ s/\s//g; $value =~ tr/A-Z/a-z/; $key = "$type $value"; return ($key, $line); } # check a proposed entry # return an array of the error message if the proposed entry is bogus # or an array of (key, comment, line) if it make sense sub ck_new_white_entry { my($comment, $count, $type, $value) = @_; my(@parsed, @entry); return "missing comment" if (!defined($comment)); return "missing count" if (!$count); return "missing type" if (!$type); return "missing value" if (!$value); # trim trailing whitespace from the comment lines $comment =~ s/\s+\n/\n/g; # ensure comment lines start with '#' $comment =~ s/^([ \t]*[^# \t\n])/#$1/gm; # trim trailing blank lines from the comment $comment =~ s/\s+$//s; $comment .= "\n" if (length($comment) != 0); @parsed = parse_white_entry("$count $type $value", "strict"); return ($parsed[0]) if (!defined($parsed[1])); $entry[0] = $parsed[0]; $entry[2] = $parsed[1]; $entry[1] = $comment; return @entry; } # add, change, or delete a whitelist entry # write our image of the file to disk, changing it as we go # then read the file sub chg_white_entry { my($file_ref, # the file in memory $dict_ref, # dictionary for the file $cur_key, # change or delete this entry $entry_ref, # change this if not null $add_pos # add before this if defined ) = @_; my($msg, $i, $k, @file); return "$whiteclnt locked" if ($whiteclnt_lock =~ /\blocked/); @file = @$file_ref; if (!${$dict_ref}{$cur_key}) { # it is a new entry if it exists if ($entry_ref) { # add it to the list that will go to the disk ${$dict_ref}{$cur_key} = @$entry_ref; if (!$add_pos || $add_pos > $#file) { # append to the file without a good position push @file, $entry_ref; } else { # insert at the right position @file = (@file[0 .. $add_pos-1], $entry_ref, @file[$add_pos .. $#file]); } } } else { # changing or deleting existing entry, so delete duplicates $i = 0; while (${$dict_ref}{$k = "DUP-$i-$cur_key"}) { ${$dict_ref}{$k}[1] = undef; ++$i; } if (!$entry_ref) { # delete an entry ${$dict_ref}{$cur_key}[1] = undef; } else { # change an entry @{${$dict_ref}{$cur_key}} = @$entry_ref; } } # put the changes on the disk $msg = write_whiteclnt(@file); return $msg if ($msg); # set the web form that includes the response read_whiteclnt($file_ref, $dict_ref); return undef; } # write a new version of the file sub write_whiteclnt { # return undef or error message my(@file) = @_; local(*DIR, *BAK); my(@baks, $bak, $buf, $entry, $preamble); # delete old backup files and find the name of the next one # keep only the last few and fairly recent revisions opendir(DIR, "$user_dir") or html_whine("opendir($user_dir): $!"); @baks = map("$user_dir/$_", sort grep {/^(whiteclnt\.bak\d+$)/ && -f "$user_dir/$1"} readdir(DIR)); closedir(DIR); while ($#baks > 1 && ($baks[0] =~ /(.*\/whiteclnt\.bak\d+$)/) && ((-M $1) >= 1 || $#baks >= 19)) { unlink $1; # suppress taint warning shift(@baks); } if ($#baks >= 0) { $baks[$#baks] =~ /\/whiteclnt\.bak(\d+)$/; $bak = sprintf("%s/whiteclnt.bak%06d", $user_dir, $1+1); } else { $bak = "$whiteclnt.bak000000"; } # create the undo file and copy the real file to it # It could be smoother to rename the current file, but we might # not have permission to create the new file with the correct owner. # There are also dangers with symbolic links and rename(). return "cannot create $bak: $!" if (!sysopen(BAK, $bak, O_WRONLY | O_CREAT | O_EXCL, 0660)); return "seek($whiteclnt): $!" if (!seek(WHITECLNT, 0, 0)); while (read(WHITECLNT, $buf, 8*1024)) { return "write($bak): $!" if (!syswrite(BAK, $buf)); } close(BAK); # rewrite the real file return "seek($whiteclnt): $!" if (!seek(WHITECLNT, 0, 0)); return "truncate($whiteclnt): $!" if (!truncate(WHITECLNT, 0)); $preamble = 0; foreach $entry (@file) { # skip deleted entries, next if (!defined($$entry[1])); # put the parameters in the preamble if (!$preamble) { $preamble = $$entry[1]; $whiteclnt_change_log .= strftime("#webuser changed %x %X%n", localtime); $preamble =~ s/\n(\n?)$/\n/; $whiteclnt_change_log .= $1; print WHITECLNT $preamble; print WHITECLNT $whiteclnt_version; print WHITECLNT $whiteclnt_notify; print WHITECLNT $whiteclnt_lock; print WHITECLNT "#webuser cur_key $whiteclnt_cur_key\n" if ($whiteclnt_cur_key); print WHITECLNT $whiteclnt_change_log; } else { print WHITECLNT $$entry[1]; print WHITECLNT $$entry[2]; } } return undef; } # undo the most recent operation by copying from the newest backup sub undo_whiteclnt { my($bak, $buf); local(*BAK); return "$whiteclnt locked" if ($whiteclnt_lock =~ /\blocked/); $bak = newest_whiteclnt_bak(); return "nothing undone" if (!$bak); return "open($bak): $!" if (!open(BAK, "< $bak")); return "seek($whiteclnt): $!" if (!seek(WHITECLNT, 0, 0)); return "truncate($whiteclnt): $!" if (!truncate(WHITECLNT, 0)); while (read(BAK, $buf, 8*1024)) { return "write($whiteclnt): $!" if (!print(WHITECLNT $buf)); } return "unlink($bak): $!" if (!unlink($bak)); return undef; } # find the newest backup file sub newest_whiteclnt_bak { local(*DIR); my(@baks, $bak); opendir(DIR, "$user_dir") || return undef; @baks = sort grep {/^whiteclnt\.bak\d+/ && -f "$user_dir/$_"} readdir(DIR); closedir(DIR); return undef if ($#baks < 0); $bak = "$user_dir/$baks[$#baks]"; return undef if (-M $bak >= 1); return undef # suppress taint warning if ($bak !~ /(.*\/whiteclnt\.bak\d+$)/); return $1; }