#!/bin/sh # # Shorewall 3.2 -- /usr/share/shorewall/lib.actions # # This program is under GPL [http://www.gnu.org/copyleft/gpl.htm] # # (c) 1999,2000,2001,2002,2003,2004,2005,2006 - Tom Eastep (teastep@shorewall.net) # # Complete documentation is available at http://shorewall.net # # This program is free software; you can redistribute it and/or modify # it under the terms of Version 2 of the GNU General Public License # as published by the Free Software Foundation. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program; if not, write to the Free Software # Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA # # This library is loaded by /usr/share/shorewall/compiler when USE_ACTIONS=Yes # (either explicitly specified or defaulted). # # # Add one Filter Rule from an action -- Helper function for the action file processor # # The caller has established the following variables: # COMMAND = current command. # client = SOURCE IP or MAC # server = DESTINATION IP or interface # protocol = Protocol # address = Original Destination Address # port = Destination Port # cport = Source Port # multioption = String to invoke multiport match if appropriate # action = The chain for this rule # ratelimit = Optional rate limiting clause # userandgroup = owner match clause # logtag = Log tag # add_an_action() { local chain1 do_ports() { if [ -n "$port" ]; then dports="--dport" if [ -n "$multioption" -a "$port" != "${port%,*}" ]; then multiport="$multioption" dports="--dports" fi dports="$dports $port" fi if [ -n "$cport" ]; then sports="--sport" if [ -n "$multioption" -a "$cport" != "${cport%,*}" ]; then multiport="$multioption" sports="--sports" fi sports="$sports $cport" fi } interface_error() { fatal_error "Unknown interface $1 in rule: \"$rule\"" } action_interface_verify() { verify_interface $1 || interface_error $1 } handle_exclusion() { build_exclusion_chain chain1 filter "$excludesource" "$excludedest" run_iptables -A $chain $(fix_bang $cli $proto $sports $multiport $dports) $user -j $chain1 cli= proto= sports= multiport= dports= user= } do_ipp2p() { [ -n "$IPP2P_MATCH" ] || fatal_error "Your kernel and/or iptables does not have IPP2P match support. Rule: \"$rule\"" dports="-m ipp2p --${port:-ipp2p}" case $proto in ipp2p|IPP2P) proto=tcp port= do_ports ;; ipp2p:udpIPP2P:UDP) proto=udp port= do_ports ;; ipp2p:all|IPP2P:ALL) proto=all ;; esac } # Set source variables. The 'cli' variable will hold the client match predicate(s). cli= case "$client" in -) ;; *:*) action_interface_verify ${client%:*} cli="$(match_source_dev ${client%:*}) $(source_ip_range ${client#*:})" ;; *.*.*|+*|!+*) cli="$(source_ip_range $client)" ;; ~*|!~*) cli=$(mac_match $client) ;; *) if [ -n "$client" ]; then action_interface_verify $client cli="$(match_source_dev $client)" fi ;; esac # Set destination variables - 'serv' and 'dest_interface' hold the server match predicate(s). dest_interface= serv= case "$server" in -) ;; *.*.*|+*|!+*) serv=$server ;; ~*|!~*) fatal_error "Rule \"$rule\" - Destination may not be specified by MAC Address" ;; *) if [ -n "$server" ]; then action_interface_verify $server dest_interface="$(match_dest_dev $server)" fi ;; esac # Setup protocol and port variables sports= dports= proto=$protocol servport=$serverport multiport= chain1=$chain user="$userandgroup" [ x$port = x- ] && port= [ x$cport = x- ] && cport= case $proto in tcp|TCP|6) do_ports ;; tcp:syn) proto="$proto --syn" do_ports ;; udp|UDP|17) do_ports ;; icmp|ICMP|1) [ -n "$port" ] && dports="--icmp-type $port" ;; ipp2p|IPP2P|ipp2p:*|IPP2P:*) do_ipp2p ;; *) [ -n "$port" ] && \ fatal_error "Port number not allowed with protocol \"$proto\"; rule: \"$rule\"" ;; esac proto="${proto:+-p $proto}" # Some misc. setup case "$logtarget" in LOG) [ -z "$loglevel" ] && fatal_error "LOG requires log level" ;; esac if [ -n "${excludesource}${excludedest}" ]; then handle_exclusion fi if [ -n "${serv}" ]; then for serv1 in $(separate_list $serv); do for srv in $(firewall_ip_range $serv1); do if [ -n "$loglevel" ]; then log_rule_limit $loglevel $chain1 $action $logtarget "$ratelimit" "$logtag" -A $user \ $(fix_bang $proto $sports $multiport $cli $(dest_ip_range $srv) $dports) fi run_iptables2 -A $chain1 $proto $multiport $cli $sports \ $(dest_ip_range $srv) $dports $ratelimit $user -j $target done done else if [ -n "$loglevel" ]; then log_rule_limit $loglevel $chain1 $action $logtarget "$ratelimit" "$logtag" -A $user \ $(fix_bang $proto $sports $multiport $cli $dest_interface $dports) fi run_iptables2 -A $chain1 $proto $multiport $cli $dest_interface $sports \ $dports $ratelimit $user -j $target fi } # # Process a record from an action file # process_action() # $1 = chain (Chain to add the rules to) # $2 = action (The action name for logging purposes) # $3 = target (The (possibly modified) contents of the TARGET column) # $4 = clients # $5 = servers # $6 = protocol # $7 = ports # $8 = cports # $9 = ratelimit # $10 = userspec { local chain="$1" local action="$2" local target="$3" local clients="$4" local servers="$5" local protocol="$6" local ports="$7" local cports="$8" local ratelimit="$9" local userspec="${10}" local userandgroup= local logtag= if [ -n "$ratelimit" ]; then case $ratelimit in -) ratelimit= ;; *:*) ratelimit="-m limit --limit ${ratelimit%:*} --limit-burst ${ratelimit#*:}" ;; *) ratelimit="-m limit --limit $ratelimit" ;; esac fi [ "x$userspec" = "x-" ] && userspec= if [ -n "$userspec" ]; then userandgroup="-m owner" case "$userspec" in !*+*) if [ -n "${userspec#*+}" ]; then userandgroup="$userandgroup ! --cmd-owner ${userspec#*+}" fi userspec=${userspec%+*} ;; *+*) if [ -n "${userspec#*+}" ]; then userandgroup="$userandgroup --cmd-owner ${userspec#*+}" fi userspec=${userspec%+*} ;; esac case "$userspec" in !*:*) if [ "$userspec" != "!:" ]; then temp="${userspec#!}" temp="${temp%:*}" [ -n "$temp" ] && userandgroup="$userandgroup ! --uid-owner $temp" temp="${userspec#*:}" [ -n "$temp" ] && userandgroup="$userandgroup ! --gid-owner $temp" fi ;; *:*) if [ "$userspec" != ":" ]; then temp="${userspec%:*}" [ -n "$temp" ] && userandgroup="$userandgroup --uid-owner $temp" temp="${userspec#*:}" [ -n "$temp" ] && userandgroup="$userandgroup --gid-owner $temp" fi ;; !*) [ "$userspec" != "!" ] && userandgroup="$userandgroup ! --uid-owner ${userspec#!}" ;; *) [ -n "$userspec" ] && userandgroup="$userandgroup --uid-owner $userspec" ;; esac [ "$userandgroup" = "-m owner" ] && userandgroup= fi # Isolate log level if [ "$target" = "${target%:*}" ]; then loglevel= else loglevel="${target#*:}" target="${target%%:*}" expandv loglevel if [ "$loglevel" != "${loglevel%:*}" ]; then logtag="${loglevel#*:}" loglevel="${loglevel%:*}" expandv logtag fi case $loglevel in none*) loglevel= [ $target = LOG ] && return ;; esac loglevel=${loglevel%\!} fi logtarget="$target" case $target in REJECT) target=reject ;; CONTINUE) target=RETURN ;; *) ;; esac excludesource= case ${clients:=-} in *!*!*) fatal_error "Invalid SOURCE in rule \"$rule\"" ;; !*) if [ $(list_count $clients) -gt 1 ]; then excludesource=${clients#!} clients= fi ;; *!*) excludesource=${clients#*!} clients=${clients%!*} ;; esac excludedest= case ${servers:=-} in *!*!*) fatal_error "Invalid DEST in rule \"$rule\"" ;; !*) if [ $(list_count $servers) -gt 1 ]; then excludedest=${servers#*!} servers= fi ;; *!*) excludedest=${servers#*!} servers=${servers%!*} ;; esac # Generate Netfilter rule(s) [ "x$protocol" = "x-" ] && protocol=all || protocol=${protocol:=all} if [ -n "$XMULTIPORT" ] && \ ! list_search $protocol "icmp" "ICMP" "1" && \ [ $(( $(list_count $ports) + $(list_count1 $(split $ports ) ) )) -le 16 -a \ $(( $(list_count $cports) + $(list_count1 $(split $cports ) ) )) -le 16 ] then # # Extended MULTIPORT is enabled, and less than # 16 ports are listed (port ranges count as two ports) - use multiport match. # multioption="-m multiport" for client in $(separate_list $clients); do for server in $(separate_list $servers); do # # add_an_action() modifies these so we must set their values each time # port=${ports:=-} cport=${cports:=-} add_an_action done done elif [ -n "$MULTIPORT" ] && \ ! list_search $protocol "icmp" "ICMP" "1" && \ [ "$ports" = "${ports%:*}" -a \ "$cports" = "${cports%:*}" -a \ $(list_count $ports) -le 15 -a \ $(list_count $cports) -le 15 ] then # # MULTIPORT is enabled, there are no port ranges in the rule and less than # 16 ports are listed - use multiport match. # multioption="-m multiport" for client in $(separate_list $clients); do for server in $(separate_list $servers); do # # add_an_action() modifies these so we must set their values each time # port=${ports:=-} cport=${cports:=-} add_an_action done done else # # MULTIPORT is disabled or the rule isn't compatible with multiport match # multioption= for client in $(separate_list $clients); do for server in $(separate_list $servers); do for port in $(separate_list ${ports:=-}); do for cport in $(separate_list ${cports:=-}); do add_an_action done done done done fi # # Report Result # progress_message " Rule \"$rule\" $DONE." save_progress_message_short " Rule \\\"$rule\\\" added." } # # This function determines the logging for a subordinate action or a rule within a subordinate action # merge_levels() # $1=level at which superior action is called, $2=level at which the subordinate rule is called { local superior=$1 subordinate=$2 set -- $(split $1) case $superior in *:*:*) case $2 in 'none!') echo ${subordinate%%:*}:'none!':$3 return ;; *'!') echo ${subordinate%%:*}:$2:$3 return ;; *) case $subordinate in *:*:*) echo $subordinate return ;; *:*) echo $subordinate:$3 return ;; *) echo ${subordinate%%:*}:$2:$3 return ;; esac ;; esac ;; *:*) case $2 in 'none!') echo ${subordinate%%:*}:'none!' return ;; *'!') echo ${subordinate%%:*}:$2 return ;; *) case $subordinate in *:*) echo $subordinate return ;; *) echo ${subordinate%%:*}:$2 return ;; esac ;; esac ;; *) echo $subordinate ;; esac } # # The next three functions implement the three phases of action processing. # # The first phase (process_actions1) occurs before the rules file is processed. ${SHAREDIR}/actions.std # and ${CONFDIR}/actions are scanned (in that order) and for each action: # # a) The related action definition file is located and scanned. # b) Forward and unresolved action references are trapped as errors. # c) A dependency graph is created. For each , the variable 'requiredby_' lists the # action[:level[:tag]] of each action invoked by . # d) All actions are listed in the global variable ACTIONS. # e) Common actions are recorded (in variables of the name _common) and are added to the global # USEDACTIONS # # As the rules file is scanned, each action[:level[:tag]] is merged onto the USEDACTIONS list. When an # is merged onto this list, its action chain is created. Where logging is specified, a chain with the name # %n is used where the name is truncated on the right where necessary to ensure that the total # length of the chain name does not exceed 30 characters. # # The second phase (process_actions2) occurs after the rules file is scanned. The transitive closure of # USEDACTIONS is generated; again, as new actions are merged onto this list, their action chains are created. # # The final phase (process_actions3) is to traverse the USEDACTIONS list populating each chain appropriately # by reading the action definition files and creating rules. Note that a given action definition file is # processed once for each unique [:level[:tag]] applied to an invocation of the action. # process_actions1() { strip_file actions strip_file actions.std ${SHAREDIR}/actions.std for inputfile in actions.std actions; do while read xaction rest; do [ "x$rest" = x ] || fatal_error "Invalid Action: $xaction $rest" case $xaction in *:*) error_message "WARNING: Default Actions are now specified in /etc/shorewall/shorewall.conf" xaction=${xaction%:*} ;; esac [ -z "$xaction" ] && continue [ "$xaction" = "$(chain_base $xaction)" ] || fatal_error "Invalid Action Name: $xaction" if ! list_search $xaction $ACTIONS; then f=action.$xaction fn=$(find_file $f) eval requiredby_${action}= if [ -f $fn ]; then progress_message2 " Pre-processing $fn..." strip_file $f $fn while read xtarget xclients xservers xprotocol xports xcports xratelimit $xuserspec; do expandv xtarget temp="${xtarget%%:*}" case "$temp" in ACCEPT|DROP|REJECT|LOG|QUEUE|CONTINUE) ;; *) if list_search $temp $ACTIONS; then eval requiredby=\"\$requiredby_${xaction}\" list_search $xtarget $requiredby || eval requiredby_${xaction}=\"$requiredby $xtarget\" else temp=$(map_old_action $temp) case $temp in */*) param=${temp#*/} case $param in ACCEPT|DROP|REJECT|LOG|QUEUE|CONTINUE) ;; *) rule="$xtarget $xclients $xservers $xprotocol $xports $xcports $xratelimit $xuserspec" fatal_error "Invalid Macro Parameter in rule \"$rule\"" ;; esac temp=${temp%%/*} ;; esac f1=macro.${temp} fn=$(find_file $f1) if [ ! -f $TMP_DIR/$f1 ]; then # # We must only verify macros once to ensure that they don't invoke any non-standard actions # if [ -f $fn ]; then strip_file $f1 $fn progress_message " ..Expanding Macro $fn..." while read mtarget mclients mservers mprotocol mports mcports mratelimit muserspec; do expandv mtarget temp="${mtarget%%:*}" case "$temp" in ACCEPT|DROP|REJECT|LOG|QUEUE|CONTINUE|PARAM) ;; *) rule="$mtarget $mclients $mservers $mprotocol $mports $mcports $mratelimit $muserspec" fatal_error "Invalid TARGET in rule \"$rule\"" esac done < $TMP_DIR/$f1 progress_message " ..End Macro" else rule="$xtarget $xclients $xservers $xprotocol $xports $xcports $xratelimit $xuserspec" fatal_error "Invalid TARGET in rule \"$rule\"" fi fi fi ;; esac done < $TMP_DIR/$f else fatal_error "Missing Action File: $f" fi ACTIONS="$ACTIONS $xaction" fi done < $TMP_DIR/$inputfile done for action in $DROP_DEFAULT $REJECT_DEFAULT; do case $action in none) ;; *) if list_search $action $ACTIONS; then list_search $action $USEDACTIONS || USEDACTIONS="$USEDACTIONS $action" fi ;; esac done } process_actions2() { local interfaces="$(find_interfaces_by_option upnp)" if [ -n "$interfaces" ]; then if ! list_search forwardUPnP $USEDACTIONS; then error_message "WARNING:Missing forwardUPnP rule (required by 'upnp' interface option on $interfaces)" fi fi progress_message " Generating Transitive Closure of Used-action List..." changed=Yes while [ -n "$changed" ]; do changed= for xaction in $USEDACTIONS; do eval required=\"\$requiredby_${xaction%%:*}\" for xaction1 in $required; do # # Generate the action that will be passed to process_action by merging the # logging specified when the action was invoked with the logging in the # invocation of the subordinate action (usually no logging) # xaction2=$(merge_levels $xaction $xaction1) if ! list_search $xaction2 $USEDACTIONS; then # # We haven't seen this one before -- create and record a chain to handle it # USEDACTIONS="$USEDACTIONS $xaction2" createactionchain $xaction2 changed=Yes fi done done done } # # process_action3() is in the compiler. What follows is called from that function when the action # being processed is not a builtin. process_action3() { local f=action.$xaction1 progress_message2 "$DOING $(find_file $f) for Chain $xchain..." while read xtarget xclients xservers xprotocol xports xcports xratelimit xuserspec; do expandv xtarget # # Generate the target:level:tag to pass to process_action() # xaction2=$(merge_levels $xaction $xtarget) is_macro= param= xtarget1=${xaction2%%:*} case $xtarget1 in ACCEPT|DROP|REJECT|LOG|QUEUE|CONTINUE) # # Builtin target -- Nothing to do # ;; *) if list_search $xtarget1 $ACTIONS ; then # # An Action -- Replace the target from the file # -- with the one generated above xtarget=$xaction2 # # And locate the chain for that action:level:tag # xaction2=$(find_logactionchain $xtarget) else is_macro=yes fi ;; esac expandv xclients xservers xprotocol xports xcports xratelimit xuserspec if [ -n "$is_macro" ]; then xtarget1=$(map_old_action $xtarget1) case $xtarget1 in */*) param=${xtarget1#*/} xtarget1=${xtarget1%%/*} ;; esac progress_message "..Expanding Macro $(find_file macro.$xtarget1)..." while read mtarget mclients mservers mprotocol mports mcports mratelimit muserspec; do expandv mtarget mclients mservers mprotocol mports mcports mratelimit muserspec mtarget=$(merge_levels $xaction2 $mtarget) case $mtarget in PARAM|PARAM:*) [ -n "$param" ] && mtarget=$(substitute_action $param $mtarget) || fatal_error "PARAM requires that a parameter be supplied in macro invocation" ;; esac if [ -n "$mclients" ]; then case $mclients in -|SOURCE) mclients=${xclients} ;; DEST) mclients=${xservers} ;; *) mclients=$(merge_macro_source_dest $mclients $xclients) ;; esac else mclients=${xclients} fi if [ -n "$mservers" ]; then case $mservers in -|DEST) mservers=${xservers} ;; SOURCE) mservers=${xclients} ;; *) mservers=$(merge_macro_source_dest $mservers $xservers) ;; esac else mservers=${xserverss} fi [ -n "$xprotocol" ] && [ "x${xprotocol}" != x- ] && mprotocol=$xprotocol [ -n "$xports" ] && [ "x${xports}" != x- ] && mports=$xports [ -n "$xcports" ] && [ "x${xcports}" != x- ] && mcports=$xcports [ -n "$xratelimit" ] && [ "x${xratelimit}" != x- ] && mratelimit=$xratelimit [ -n "$xuserspec" ] && [ "x${xuserspec}" != x- ] && muserspec=$xuserspec rule="$mtarget ${mclients:=-} ${mservers:=-} ${mprotocol:=-} ${mports:=-} ${mcports:=-} ${mratelimit:-} ${muserspec:=-}" process_action $xchain $xaction1 $mtarget $mclients $mservers $mprotocol $mports $mcports $mratelimit $muserspec done < $TMP_DIR/macro.$xtarget1 progress_message "..End Macro" else rule="$xtarget $xclients $xservers $xprotocol $xports $xcports $xratelimit $xuserspec" process_action $xchain $xaction1 $xaction2 $xclients $xservers $xprotocol $xports $xcports $xratelimit $xuserspec fi done < $TMP_DIR/$f }