#!/bin/sh RCDLINKS="2,S41 3,S41 6,K41" # # The Shoreline Firewall (Shorewall) Packet Filtering Firewall - V1.3 6/14/2002 # # This program is under GPL [http://www.gnu.org/copyleft/gpl.htm] # # (c) 1999,2000,2001,2002 - Tom Eastep (teastep@shorewall.net) # # On most distributions, this file should be called: # /etc/rc.d/init.d/shorewall or /etc/init.d/shorewall # # 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 # # If an error occurs while starting or restarting the firewall, the # firewall is automatically stopped. # # Commands are: # # shorewall start Starts the firewall # shorewall restart Restarts the firewall # shorewall stop Stops the firewall # shorewall status Displays firewall status # shorewall reset Resets iptabless packet and # byte counts # shorewall clear Remove all Shorewall chains # and rules/policies. # shorewall refresh . Rebuild the common chain # shorewall check Verify the more heavily-used # configuration files. #### BEGIN INIT INFO # Provides: shorewall # Required-Start: $network # Required-Stop: # Default-Start: 2 3 5 # Default-Stop: 0 1 6 # Description: starts and stops the shorewall firewall ### END INIT INFO # chkconfig: 2345 25 90 # description: Packet filtering firewall # ############################################################################### # Search a list looking for a match -- returns zero if a match found # # 1 otherwise # ############################################################################### list_search() # $1 = element to search for , $2-$n = list { local e=$1 while [ $# -gt 1 ]; do shift [ "x$e" = "x$1" ] && return 0 done return 1 } ############################################################################### # Mutual exclusion -- These functions are jackets for the mutual exclusion # # routines in /var/lib/shorewall/functions. They invoke # # the corresponding function in that file if the user did # # not specify "nolock" on the runline. # ############################################################################### my_mutex_on() { [ -n "$nolock" ] || { mutex_on; have_mutex=Yes; } } my_mutex_off() { [ -n "$have_mutex" ] && { mutex_off; have_mutex=; } } ############################################################################### # Message to stderr # ############################################################################### error_message() # $* = Error Message { echo " $@" >&2 } ############################################################################### # Fatal error -- stops the firewall after issuing the error message # ############################################################################### fatal_error() # $* = Error Message { echo " $@" >&2 stop_firewall exit 2 } ############################################################################### # Fatal error during startup -- generate an error message and abend with # # altering the state of the firewall # ############################################################################### startup_error() # $* = Error Message { echo " $@" >&2 my_mutex_off [ -n "$TMP_DIR" ] && rm -rf $TMP_DIR kill $$ exit 2 } ############################################################################### # Send a message to STDOUT and the System Log # ############################################################################### report () { # $* = message echo "$@" logger "$@" } ############################################################################### # Perform variable substitution on the passed argument and echo the result # ############################################################################### expand() # $1 = contents of variable which may be the name of another variable { eval echo \"$1\" } ############################################################################### # Perform variable substitition on the values of the passed list of variables # ############################################################################### expandv() # $* = list of variable names { local varval while [ $# -gt 0 ]; do eval varval=\$${1} eval $1=\"$varval\" shift done } ################################################################################ # Run iptables and if an error occurs, stop the firewall and quit # ################################################################################ run_iptables() { if ! iptables `echo $@ | sed 's/!/! /g'`; then [ -z "$stopping" ] && { stop_firewall; exit 2; } fi } ################################################################################ # Run ip and if an error occurs, stop the firewall and quit # ################################################################################ run_ip() { if ! ip $@ ; then [ -z "$stopping" ] && { stop_firewall; exit 2; } fi } ################################################################################ # Run arp and if an error occurs, stop the firewall and quit # ################################################################################ run_arp() { if ! arp $@ ; then [ -z "$stopping" ] && { stop_firewall; exit 2; } fi } ################################################################################ # Run tc and if an error occurs, stop the firewall and quit # ################################################################################ run_tc() { if ! tc $@ ; then [ -z "$stopping" ] && { stop_firewall; exit 2; } fi } ################################################################################ # Create a filter chain # # # # If the chain isn't one of the common chains then add a rule to the chain # # allowing packets that are part of an established connection. Create a # # variable ${1}_exists and set its value to Yes to indicate that the chain now # # exists. # ################################################################################ createchain() # $1 = chain name, $2 = If non-null, don't create default rules { run_iptables -N $1 if [ $# -eq 1 ]; then state="ESTABLISHED" [ -n "$ALLOWRELATED" ] && state="$state,RELATED" run_iptables -A $1 -m state --state $state -j ACCEPT fi eval ${1}_exists=Yes } ################################################################################ # Determine if a chain exists # # # # When we create a chain "chain", we create a variable named chain_exists and # # set its value to Yes. This function tests for the "_exists" variable # # corresponding to the passed chain having the value of "Yes". # ################################################################################ havechain() # $1 = name of chain { eval test \"\$${1}_exists\" = Yes } ################################################################################ # Ensure that a chain exists (create it if it doesn't) # ################################################################################ ensurechain() # $1 = chain name { havechain $1 || createchain $1 } ################################################################################ # Add a rule to a chain creating the chain if necessary # ################################################################################ addrule() # $1 = chain name, remainder of arguments specify the rule { ensurechain $1 run_iptables -A $@ } ################################################################################ # Create a nat chain # # # # Create a variable ${1}_nat_exists and set its value to Yes to indicate that # # the chain now exists. # ################################################################################ createnatchain() # $1 = chain name { run_iptables -t nat -N $1 eval ${1}_nat_exists=Yes } ################################################################################ # Determine if a nat chain exists # # # # When we create a chain "chain", we create a variable named chain_nat_exists # # and set its value to Yes. This function tests for the "_exists" variable # # corresponding to the passed chain having the value of "Yes". # ################################################################################ havenatchain() # $1 = name of chain { eval test \"\$${1}_nat_exists\" = Yes } ################################################################################ # Ensure that a chain exists (create it if it doesn't) # ################################################################################ ensurenatchain() # $1 = chain name { havenatchain $1 || createnatchain $1 } ################################################################################ # Add a rule to a nat chain creating the chain if necessary # ################################################################################ addnatrule() # $1 = chain name, remainder of arguments specify the rule { ensurenatchain $1 run_iptables -t nat -A $@ } ################################################################################ # Delete a chain if it exists # ################################################################################ deletechain() # $1 = name of chain { qt iptables -L $1 -n && qt iptables -F $1 && qt iptables -X $1 } ################################################################################ # Set a standard chain's policy # ################################################################################ setpolicy() # $1 = name of chain, $2 = policy { run_iptables -P $1 $2 } ################################################################################ # Set a standard chain to enable established connections # ################################################################################ setcontinue() # $1 = name of chain { run_iptables -A $1 -m state --state ESTABLISHED -j ACCEPT } ################################################################################ # Flush one of the NAT table chains # ################################################################################ flushnat() # $1 = name of chain { run_iptables -t nat -F $1 } ################################################################################ # Find interfaces to a given zone # # # # Read the interfaces file and for each record matching the passed ZONE, # # echo the expanded contents of the "INTERFACE" column # ################################################################################ find_interfaces() # $1 = interface zone { local zne=$1 while read z interface subnet options; do [ "x`expand $z`" = "x$zne" ] && echo `expand $interface` done < $TMP_DIR/interfaces } ################################################################################ # Chain name base for an interface # ################################################################################ chain_base() #$1 = interface { local c=${1%%+*} echo ${c:=common} } ################################################################################ # Forward Chain for an interface # ################################################################################ forward_chain() # $1 = interface { echo `chain_base $1`_fwd } ################################################################################ # Input Chain for an interface # ################################################################################ input_chain() # $1 = interface { echo `chain_base $1`_in } ################################################################################ # Output Chain for an interface # ################################################################################ output_chain() # $1 = interface { echo `chain_base $1`_out } ################################################################################ # Masquerade Chain for an interface # ################################################################################ masq_chain() # $1 = interface { echo `chain_base $1`_masq } ################################################################################ # DNAT Chain from a zone # ################################################################################ dnat_chain() # $1 = zone { echo ${1}_dnat } ################################################################################ # SNAT Chain to a zone # ################################################################################ snat_chain() # $1 = zone { echo ${1}_snat } ################################################################################ # First chains for an interface # ################################################################################ first_chains() #$1 = interface { local c=`chain_base $1` echo ${c}_fwd ${c}_in } ################################################################################ # Find hosts in a given zone # # # # Read hosts file and for each record matching the passed ZONE, # # echo the expanded contents of the "HOST(S)" column # ################################################################################ find_hosts() # $1 = host zone { local hosts while read z hosts options; do [ "x`expand $z`" = "x$1" ] && expandv hosts && echo `separate_list $hosts` done < $TMP_DIR/hosts } ################################################################################ # Determine the interfaces on the firewall # # # # For each zone, create a variable called ${zone}_interfaces. This # # variable contains a space-separated list of interfaces to the zone # ################################################################################ determine_interfaces() { for zone in $zones; do interfaces=`find_interfaces $zone` interfaces=`echo $interfaces` # Remove extra trash eval ${zone}_interfaces="\$interfaces" done } ################################################################################ # Determine the defined hosts in each zone and generate report # ################################################################################ determine_hosts() { do_a_zone() { eval interfaces=\$${zone}_interfaces for interface in $interfaces; do if [ -z "$hosts" ]; then hosts=$interface:0.0.0.0/0 else hosts="$hosts $interface:0.0.0.0/0" fi done } recalculate_interfaces() { interfaces= for host in $hosts; do interface=${host%:*} if ! list_search $interface $interfaces; then if [ -z "$interfaces" ]; then interfaces=$interface else interfaces="$interfaces $interface" fi fi done eval ${zone}_interfaces="\$interfaces" } for zone in $zones; do hosts=`find_hosts $zone` hosts=`echo $hosts` # Remove extra trash if [ -n "MERGE_HOSTS" ]; then #################################################################### # Zone will be the union of its host and interface definitions # do_a_zone recalculate_interfaces elif [ -n "$hosts" ]; then #################################################################### # Zone is defined in terms of hosts -- derive the interface list # from the host list # recalculate_interfacess else #################################################################### # If no hosts are defined for a zone then the zone consists of any # host that can send us messages via the interfaces to the zone # do_a_zone fi eval ${zone}_hosts="\$hosts" if [ -n "$hosts" ]; then eval display=\$${zone}_display display_list "$display Zone:" $hosts else error_message "Warning: Zone $zone is empty" fi done } ################################################################################ # Ensure that the passed zone is defined in the zones file or is the firewall # ################################################################################ validate_zone() # $1 = zone { list_search $1 $zones $FW } ################################################################################ # Validate the zone names and options in the interfaces file # ################################################################################ validate_interfaces_file() { while read z interface subnet options; do expandv z interface subnet options r="$z $interface $subnet $options" [ "x$z" = "x-" ] || validate_zone $z || startup_error "Invalid zone ($z) in record \"$r\"" list_search $interface $all_interfaces && \ startup_error "Error: Duplicate Interface $interface" all_interfaces="$all_interfaces $interface" for option in `separate_list $options`; do case $option in dhcp|noping|filterping|routestopped|norfc1918|multi) ;; routefilter|dropunclean|logunclean|blacklist|proxyarp|-) ;; *) error_message "Warning: Invalid option ($option) in record \"$r\"" ;; esac done [ -z "$all_interfaces" ] && startup_error "Error: No Interfaces Defined" done < $TMP_DIR/interfaces } ################################################################################ # Validate the zone names and options in the hosts file # ################################################################################ validate_hosts_file() { while read z hosts options; do expandv z hosts options r="$z $hosts $options" validate_zone $z || startup_error "Invalid zone ($z) in record \"$r\"" interface=${hosts%:*} list_search $interface $all_interfaces || \ startup_error "Unknown interface ($interface) in record \"$r\"" for option in `separate_list $options`; do case $option in routestopped|-) ;; *) error_message "Warning: Invalid option ($option) in record \"$r\"" ;; esac done done < $TMP_DIR/hosts } ################################################################################ # Format a match by the passed MAC address # # The passed address begins with "~" and uses "-" as a separator between bytes # # Example: ~01-02-03-04-05-06 # ################################################################################ mac_match() # $1 = MAC address formated as described above { echo "--match mac --mac-source `echo $1 | sed 's/~//;s/-/:/g'`" } ################################################################################ # validate a record from the rules file # # # # The caller has loaded the column contents from the record into the following # # variables: # # # # target clients servers protocol ports cports address # # # # and has loaded a space-separated list of their values in "rule". # ################################################################################ validate_rule() { ############################################################################ # Ensure that the passed comma-separated list has 15 or fewer elements # validate_list() { local temp=`separate_list $1` [ `echo $temp | wc -w` -le 15 ] } ############################################################################ # validate one rule # validate_a_rule() { ######################################################################## # Determine the format of the client # cli= [ -n "$client" ] && case "$client" in -) ;; ~*) cli=`mac_match $client` ;; [0-9]*|![0-9]*) # # IP Address, address or subnet # cli="-s $client" ;; *) # # Assume that this is a device name # cli="-i $client" ;; esac dest_interface= [ -n "$server" ] && case "$server" in -) serv= ;; [0-9]*|![0-9]*) serv=$server ;; ~*) fatal_error "Error: Rule \"$rule\" - Server may not be specified by MAC Address" ;; *) dest_interface="-o $server" serv= ;; esac ################################################################ # Setup PROTOCOL, PORT and STATE variables # sports="" dports="" state="-m state --state NEW" proto=$protocol addr=$address servport=$serverport case $proto in tcp|udp|TCP|UDP|6|17) [ -n "$port" ] && [ "x${port}" != "x-" ] && \ dports="--dport $port" [ -n "$cport" ] && [ "x${cport}" != "x-" ] && \ sports="--sport $cport" ;; icmp|ICMP|0) [ -n "$port" ] && dports="--icmp-type $port" state="" ;; related|RELATED) proto= state="-m state --state RELATED" ;; *) [ -n "$port" ] && [ "x${port}" != "x-" ] && \ startup_error "Port number not allowed with protocol " \ "\"$proto\"; rule: \"$rule\"" ;; esac proto="${proto:+-p $proto}" case "$logtarget" in REJECT) target=reject [ -n "$servport" ] && \ startup_error "Error: server port may not be specified in a REJECT rule;"\ "rule: \"$rule\"" ;; ACCEPT) [ -n "$servport" ] && \ startup_error "Error: server port may not be specified in an ACCEPT rule;"\ "rule: \"$rule\"" ;; REDIRECT) [ -n "$serv" ] && startup_error "Error: REDIRECT rules cannot"\ " specify a server IP; rule: \"$rule\"" servport=${servport:=$port} ;; DNAT) [ -n "$serv" ] || startup_error "Error: DNAT rules require a" \ " server address; rule: \"$rule\"" ;; esac if [ -z "$proto" -a -z "$cli" -a -z "$serv" -a -z "$servport" ]; then error_message "Warning -- Rule \"$rule\" is a POLICY" error_message " -- and should be moved to the policy file" fi if [ -n "${serv}${servport}" ]; then ################################################################## # Destination is a Specific Server or we're redirecting a port # if [ -n "$addr" -a "$addr" != "$serv" ]; then ############################################################## # Must use Prerouting DNAT # if [ -z "$NAT_ENABLED" ]; then startup_error \ "Error - Rule \"$rule\" requires NAT which is disabled" fi if [ "$target" != "ACCEPT" ]; then startup_error "Error - Only ACCEPT rules may specify " \ "port mapping; rule \"$rule\"" fi fi else [ -n "$addr" ] && startup_error \ "Error: An ADDRESS ($addr) is only allowed in" \ " a DNAT or REDIRECT rule: \"$rule\"" fi } ############################################################################ # V a l i d a t e _ R u l e S t a r t s H e r e ############################################################################ # Parse the Target and Clients columns # if [ "$target" = "${target%:*}" ]; then loglevel= else loglevel="${target#*:}" target="${target%:*}" expandv loglevel fi logtarget="$target" # # DNAT and REDIRECT targets were implemented in version 1.3 to replace # an older syntax. We simply map the new syntax into the old and proceed; # that way, people who have files with the old syntax don't need to # convert right away. # case $target in DNAT) target=ACCEPT address=${address:=detect} ;; REDIRECT) target=ACCEPT address=${address:=all} if [ "x-" = "x$servers" ]; then servers=$FW else servers="fw::$servers" fi ;; ACCEPT|DROP|REJECT) ;; *) startup_error "Error: Invalid target;" \ " rule: \"$rule\"" esac if [ "$clients" = "${clients%:*}" ]; then clientzone="$clients" clients= else clientzone="${clients%:*}" clients="${clients#*:}" [ -z "$clientzone" -o -z "$clients" ] && \ startup_error "Error: Empty source zone or qualifier: rule \"$rule\"" fi if [ "$clientzone" = "${clientzone%\!*}" ]; then excludezones= else excludezones="${clientzone#*\!}" clientzone="${clientzone%\!*}" [ "$logtarget" = DNAT ] || [ "$logtarget" = REDIRECT ] ||\ startup_error "Error: Exclude list only allowed with DNAT or REDIRECT" fi ############################################################################ # Validate the Source Zone if ! validate_zone $clientzone; then startup_error "Error: Undefined Client Zone in rule \"$rule\"" fi source=$clientzone [ $source = $FW ] && source_hosts= || eval source_hosts=\"\$${source}_hosts\" ############################################################################ # Parse the servers column # if [ "$servers" = "${servers%:*}" ] ; then serverzone="$servers" servers= serverport= else serverzone="${servers%%:*}" servers="${servers#*:}" if [ "$servers" != "${servers%:*}" ] ; then serverport="${servers#*:}" servers="${servers%:*}" [ -z "$serverzone" -o -z "$serverport" ] && \ startup_error "Error: Empty destination zone or server port: rule \"$rule\"" else serverport= [ -z "$serverzone" -o -z "$servers" ] && \ startup_error "Error: Empty destination zone or qualifier: rule \"$rule\"" fi fi ############################################################################ # Validate the destination zone # if ! validate_zone $serverzone; then startup_error "Error: Undefined Server Zone in rule \"$rule\"" fi dest=$serverzone ############################################################################ # Check length of port lists if MULTIPORT set # if [ -n "$MULTIPORT" ]; then validate_list $ports || error_message "Warning: Too many destination ports: Rule \"$rule\"" validate_list $cports || error_message "Warning: Too many source ports: Rule \"$rule\"" fi ############################################################################ # Iterate through the various lists validating individual rules # 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 validate_a_rule done done done done echo " Rule \"$rule\" validated." } ################################################################################ # validate the rules file # ################################################################################ validate_rules() # $1 = name of rules file { strip_file rules while read target clients servers protocol ports cports address; do expandv clients servers protocol ports cports address case "$target" in ACCEPT*|DROP*|REJECT*|DNAT*|REDIRECT*) rule="`echo $target $clients $servers $protocol $ports $cports $address`" validate_rule ;; *) rule="`echo $target $clients $servers $protocol $ports $cports $address`" startup_error "Error: Invalid Target - rule \"$rule\" ignored" ;; esac done < $TMP_DIR/rules } ################################################################################ # validate the policy file # ################################################################################ validate_policy() { strip_file policy $policy while read client server policy loglevel synparams; do expandv client server policy loglevel synparams case "$client" in all|ALL) ;; *) if ! validate_zone $client; then startup_error "Error: Undefined zone $client" fi esac case "$server" in all|ALL) ;; *) if ! validate_zone $server; then startup_error "Error: Undefined zone $server" fi esac case $policy in ACCEPT|REJECT|DROP|CONTINUE) ;; *) startup_error "Error: Invalid policy $policy" ;; esac done < $TMP_DIR/policy } ################################################################################ # Find broadcast addresses # ################################################################################ find_broadcasts() { while read z interface bcast options; do expandv interface bcast if [ "x$bcast" = "xdetect" ]; then addr="`ip addr show $interface 2> /dev/null`" if [ -n "`echo "$addr" | grep 'inet.*brd '`" ]; then addr="`echo "$addr" | \ grep "inet " | sed 's/^.* inet.*brd //;s/scope.*//'`" echo $addr | cut -d' ' -f 1 fi elif [ "x${bcast}" != "x-" ]; then echo `separate_list $bcast` fi done < $TMP_DIR/interfaces } ################################################################################ # Find interface address--returns the first IP address assigned to the passed # # device # ################################################################################ find_interface_address() # $1 = interface { # # get the line of output containing the first IP address # addr=`ip addr show $1 2> /dev/null | grep inet | head -n1` # # If there wasn't one, bail out now # [ -n "$addr" ] || fatal_error "Can't determine the IP address of $1" # # Strip off the trailing VLSM mask (or the peer IP in case of a P-t-P link) # along with everything else on the line # echo $addr | sed 's/inet //;s/\/.*//;s/ peer.*//' } ################################################################################ # Find interfaces that have the passed option specified # ################################################################################ find_interfaces_by_option() # $1 = option { while read ignore interface subnet options; do expandv options list_search $1 `separate_list $options` && \ echo `expand $interface` done < $TMP_DIR/interfaces } ################################################################################ # Find hosts with the passed option # ################################################################################ find_hosts_by_option() # $1 = option { while read ignore hosts options; do expandv options list_search $1 `separate_list $options` && \ echo `expand $hosts` done < $TMP_DIR/hosts while read ignore interface ignore1 options; do expandv options list_search $1 `separate_list $options` && \ echo `expand $interface`:0.0.0.0/0 done < $TMP_DIR/interfaces } ################################################################################ # Determine if there are interfaces of the given zone and option # # # # Returns zero if any such interfaces are found and returns one otherwise. # ################################################################################ have_interfaces_in_zone_with_option() # $1 = zone, $2 = option { local zne=$1 while read z interface broadcast options; do [ "x`expand $z`" = "x$zne" ] && expandv options && \ list_search $1 `separate_list $options` && \ return 0 done < $TMP_DIR/interfaces return 1 } ################################################################################ # Flush and delete all user-defined chains in the filter table # ################################################################################ deleteallchains() { run_iptables -F run_iptables -X } ################################################################################ # Source a user exit file if it exists # ################################################################################ run_user_exit() # $1 = file name { local user_exit=`find_file $1` if [ -f $user_exit ]; then echo "Processing $user_exit ..." . $user_exit fi } ################################################################################ # Stop the Firewall - # ################################################################################ stop_firewall() { stopping="Yes" deletechain shorewall run_user_exit stop [ -n "$MANGLE_ENABLED" ] && \ run_iptables -t mangle -F && \ run_iptables -t mangle -X [ -n "$NAT_ENABLED" ] && delete_nat delete_proxy_arp [ -n "$TC_ENABLED" ] && delete_tc setpolicy INPUT DROP setpolicy OUTPUT DROP setpolicy FORWARD DROP deleteallchains hosts="`find_hosts_by_option routestopped`" strip_file routestopped while read interface host; do expandv interface host [ "x$host" = "x-" ] && host= hosts="$hosts $interface:${host:-0.0.0.0/0}" done < $TMP_DIR/routestopped for host in $hosts; do interface=${host%:*} subnet=${host#*:} iptables -A INPUT -i $interface -s $subnet -j ACCEPT iptables -A OUTPUT -o $interface -d $subnet -j ACCEPT for host1 in $hosts; do [ "$host" != "$host1" ] && \ iptables -A FORWARD -i $interface -s $subnet \ -o ${host1%:*} -d ${host1#*:} -j ACCEPT done done iptables -A INPUT -i lo -j ACCEPT iptables -A OUTPUT -o lo -j ACCEPT for interface in `find_interfaces_by_option dhcp`; do iptables -A INPUT -p udp -i $interface --dport 67:68 -j ACCEPT iptables -A OUTPUT -p udp -o $interface --dport 67:68 -j ACCEPT done case "$IP_FORWARDING" in [Oo][Nn]) echo 1 > /proc/sys/net/ipv4/ip_forward ;; [Oo][Ff][Ff]) echo 0 > /proc/sys/net/ipv4/ip_forward ;; esac run_user_exit stopped logger "Shorewall Stopped" rm -rf $TMP_DIR case $command in stop|clear) ;; *) # # The firewall is being stopped when we were trying to do something # else. Remove the lock file and Kill the shell in case we're in a # subshell # my_mutex_off kill $$ ;; esac } ################################################################################ # Remove all rules and remove all user-defined chains # ################################################################################ clear_firewall() { stop_firewall run_iptables -F echo 1 > /proc/sys/net/ipv4/ip_forward setpolicy INPUT ACCEPT setpolicy FORWARD ACCEPT setpolicy OUTPUT ACCEPT run_user_exit clear logger "Shorewall Cleared" } ################################################################################ # Set up ipsec tunnels # ################################################################################ setup_tunnels() # $1 = name of tunnels file { local inchain local outchain setup_one_ipsec() # $1 = gateway $2 = gateway zone { options="-m state --state NEW -j ACCEPT" addrule $inchain -p 50 -s $1 $options addrule $outchain -p 50 -d $1 $options run_iptables -A $inchain -p 51 -s $1 $options run_iptables -A $outchain -p 51 -d $1 $options run_iptables -A $inchain -p udp -s $1 --sport 500 --dport 500 $options run_iptables -A $outchain -p udp -d $1 --dport 500 --sport 500 $options if [ -n "$2" ]; then if validate_zone $2; then addrule ${FW}2${2} -p udp --sport 500 --dport 500 $options else error_message "Warning: Invalid gateway zone ($2)" \ " -- Tunnel \"$tunnel\" may encounter keying problems" fi fi echo " IPSEC tunnel to $gateway defined." } setup_one_other() # $1 = TYPE, $2 = gateway, $3 = protocol { options="-m state --state NEW -j ACCEPT" addrule $inchain -p $3 -s $2 $options addrule $outchain -p $3 -d $2 $options echo " $1 tunnel to $gateway defined." } strip_file tunnels $1 while read kind z gateway z1; do expandv kind z gateway z1 tunnel="`echo $kind $z $gateway $z1`" if validate_zone $z; then inchain=${z}2${FW} outchain=${FW}2${z} case $kind in ipsec|IPSEC) setup_one_ipsec $gateway $z1 ;; ipip|IPIP) setup_one_other IPIP $gateway 4 ;; gre|GRE) setup_one_other GRE $gateway 47 ;; *) error_message "Tunnels of type $kind are not supported:" \ "Tunnel \"$tunnel\" Ignored" ;; esac else error_message "Invalid gateway zone ($z)" \ " -- Tunnel \"$tunnel\" Ignored" fi done < $TMP_DIR/tunnels } ################################################################################ # Setup Proxy ARP # ################################################################################ setup_proxy_arp() { print_error() { error_message "Invalid value for HAVEROUTE - ($haveroute)" error_message "Entry \"$address $interface $external $haveroute\" ignored" } setup_one_proxy_arp() { case $haveroute in [Nn][Oo]) haveroute= ;; [Yy][Ee][Ss]) ;; *) if [ -n "$haveroute" ]; then print_error return fi ;; esac [ -z "$haveroute" ] && run_ip route add $address dev $interface run_arp -Ds $address $external pub echo 1 > /proc/sys/net/ipv4/conf/$interface/proxy_arp echo 0 > /proc/sys/net/ipv4/conf/$external/proxy_arp echo $address $interface $external $haveroute >> ${STATEDIR}/proxyarp echo " Host $address connected to $interface added to ARP on $external" } > ${STATEDIR}/proxyarp strip_file proxyarp while read address interface external haveroute; do expandv address interface external haveroute setup_one_proxy_arp done < $TMP_DIR/proxyarp interfaces=`find_interfaces_by_option proxyarp` for interface in $interfaces; do if qt echo 1 > /proc/sys/net/ipv4/conf/$interface/proxy_arp; then echo " Enabled proxy ARP on $interface" else error_message "Warning: Unable to enable proxy ARP on $interface" fi done } ############################################################################### # Set up SYN flood protection # ############################################################################### setup_syn_flood_chain () # $1 = policy chain # $2 = synparams { local chain=$1 local limit=${2%:*} local limit_burst=${2#*:} run_iptables -N @$chain run_iptables -A @$chain \ -m limit --limit $limit --limit-burst $limit_burst \ -j RETURN run_iptables -A @$chain -j DROP } ################################################################################ # Enable SYN flood protection on a chain # # -----------------------------------------------------------------------------# # Insert a jump rule to the protection chain from the first chain. Inserted # # as the second rule and restrict the jump to SYN packets # ################################################################################ enable_syn_flood_protection() # $1 = chain, $2 = protection chain { run_iptables -I $1 2 -p tcp --syn -j @$2 echo " Enabled SYN flood protection" } ################################################################################ # Delete existing Proxy ARP # ################################################################################ delete_proxy_arp() { if [ -f ${STATEDIR}/proxyarp ]; then while read address interface external haveroute; do qt arp -i $external -d $address pub [ -z "$haveroute" ] && qt ip route del $address dev $interface done < ${STATEDIR}/proxyarp rm -f ${STATEDIR}/proxyarp fi [ -d ${STATEDIR} ] && touch ${STATEDIR}/proxyarp for f in `ls /proc/sys/net/ipv4/conf/*/proxy_arp`; do echo 0 > $f done } ################################################################################ # Setup Static Network Address Translation (NAT) # ################################################################################ setup_nat() { local allints # # At this point, we're just interested in the network translation # > ${STATEDIR}/nat strip_file nat echo "Setting up NAT..." while read external interface internal allints localnat; do expandv external interface internal allints localnat if [ -n "$ADD_IP_ALIASES" ]; then qt ip addr del $external dev $interface fi if [ -z "$allints" -o "$allints" = "Yes" \ -o "$allints" = "yes" ] then addnatrule nat_in -d $external -j DNAT --to-destination $internal addnatrule nat_out -s $internal -j SNAT --to-source $external if [ "$localnat" = "Yes" -o "$localnat" = "yes" ]; then run_iptables -t nat -A OUTPUT -d $external \ -j DNAT --to-destination $internal fi else addnatrule `input_chain $interface` \ -d $external -j DNAT --to-destination $internal addnatrule `output_chain $interface` \ -s $internal -j SNAT --to-source $external fi if [ -n "$ADD_IP_ALIASES" ]; then list_search $external $aliases_to_add || \ aliases_to_add="$aliases_to_add $external $interface" fi echo " Host $internal NAT $external on $interface" done < $TMP_DIR/nat } ################################################################################ # Delete existing Static NAT # ################################################################################ delete_nat() { run_iptables -t nat -F run_iptables -t nat -X if [ -f ${STATEDIR}/nat ]; then while read external interface; do qt ip addr del $external dev $interface done < ${STATEDIR}/nat rm -f {$STATEDIR}/nat fi [ -d ${STATEDIR} ] && touch ${STATEDIR}/nat } ################################################################################ # Process TC Rule # ################################################################################ process_tc_rule() { add_a_tc_rule() { r= chain=tcpre if [ "x$source" != "x-" ]; then case $source in [0-9]*) r="-s $source " ;; ~*) r=`mac_match $source` ;; $FW) chain=tcout ;; *) r="-i $source " ;; esac fi [ "x$dest" = "x-" ] || r="${r}-d $dest " [ "$proto" = "all" ] || r="${r}-p $proto " [ "x$port" = "x-" ] || r="${r}--dport $port " [ "x$sport" = "x-" ] || r="${r}--sport $sport " run_iptables -t mangle -A $chain $r -j MARK --set-mark $mark } for source in `separate_list ${sources:=-}`; do for dest in `separate_list ${dests:=-}`; do for port in `separate_list ${ports:=-}`; do for sport in `separate_list ${sports:=-}`; do add_a_tc_rule done done done done echo " TC Rule \"$rule\" added" } ################################################################################ # Setup queuing and classes # ################################################################################ setup_tc() { echo "Setting up Traffic Control Rules..." # # Create the TC mangle chains # run_iptables -t mangle -N tcpre run_iptables -t mangle -N tcout # # Process the TC Rules File # strip_file tcrules while read mark sources dests proto ports sports; do expandv mark sources dests proto ports sports rule=`echo "$mark $sources $dests $proto $ports $sports"` process_tc_rule done < $TMP_DIR/tcrules # # Link to the TC mangle chains from the main chains # run_iptables -t mangle -A PREROUTING -j tcpre run_iptables -t mangle -A OUTPUT -j tcout run_user_exit tcstart } ################################################################################ # Clear Traffic Shaping # ################################################################################ delete_tc() { clear_one_tc() { tc qdisc del dev $1 root 2> /dev/null tc qdisc del dev $1 ingress 2> /dev/null } run_user_exit tcclear run_ip link list | \ while read inx interface details; do case $inx in [0-9]*) clear_one_tc ${interface%:} ;; *) ;; esac done } ################################################################################ # Add a NAT rule - Helper function for the rules file processor # #------------------------------------------------------------------------------# # The caller has established the following variables: # # cli = Source IP, interface or MAC Specification # # serv = Destination IP Specification # # servport = Port the server is listening on # # dest_interface = Destination Interface Specification # # proto = Protocol Specification # # addr = Original Destination Address # # dports = Destination Port Specification. 'dports' may be changed # # by this function # # cport = Source Port Specification # # multiport = String to invoke multiport match if appropriate # ################################################################################ add_nat_rule() { local chain # Be sure NAT is enabled if [ -z "$NAT_ENABLED" ]; then fatal_error \ "Error - Rule \"$rule\" requires NAT which is disabled" fi # Onle ACCEPT (plus DNAT and REDIRECT) may result in NAT if [ "$target" != "ACCEPT" ]; then fatal_error "Error - Only DNAT and REDIRECT rules may specify " \ "port mapping; rule \"$rule\"" fi # Parse SNAT address if any if [ "$addr" != "${addr%:*}" ]; then snat="${addr#*:}" addr="${addr%:*}" else snat="" fi # Set original destination address case $addr in all) addr= ;; detect) addr= if [ -n "$DETECT_DNAT_IPADDRS" -a "$source" != "$FW" ]; then eval interfaces=\$${source}_interfaces for interface in $interfaces; do addr="`find_interface_address $interface` $addr" done fi ;; esac addr=${addr:-0.0.0.0/0} # Select target if [ -n "$serv" ]; then servport="${servport:+:$servport}" target1="DNAT --to-destination ${serv}${servport}" else target1="REDIRECT --to-port $servport" fi # Generate nat table rules if [ "$source" = "$FW" ]; then run_iptables -t nat -A OUTPUT $proto $sports -d addr $multiport $dports -j $target1 else chain=`dnat_chain $source` if [ -n "$excludezones" ]; then chain=nonat${nonat_seq} nonat_seq=$(($nonat_seq + 1)) createnatchain $chain addnatrule `dnat_chain $source` -j $chain for z in $excludezones; do eval hosts=\$${z}_hosts for host in $hosts; do for adr in $addr; do addnatrule $chain $proto -s ${host#*:} \ $multiport $sports -d $adr $dports -j RETURN done done done fi for adr in $addr; do addnatrule $chain $proto $cli $sports \ -d $adr $multiport $dports -j $target1 done fi # Replace destination port by the new destination port [ -n "$servport" ] && dports="--dport ${servport#*:}" # Handle SNAT if [ -n "$snat" ]; then if [ -n "$cli" ]; then addnatrule `snat_chain $dest` $proto $cli $multiport \ $sports -d $serv $dports -j SNAT --to-source $snat else for source_host in $source_hosts; do [ "x${source_host#*:}" = "x0.0.0.0/0" ] && \ error_message "Warning: SNAT will occur on all connections to this server and port - rule \"$rule\"" addnatrule `snat_chain $dest` \ -s ${source_host#*:} $proto $sports $multiport \ -d $serv $dports -j SNAT --to-source $snat done fi fi } ################################################################################ # Add one Filter Rule -- Helper function for the rules file processor # #------------------------------------------------------------------------------# # The caller has established the following variables: # # client = SOURCE IP or MAC # # server = DESTINATION IP or interface # # protocol = Protocol # # address = Original Destination Address # # port = Destination Port # # cport = Source Port # # multioption = String to invoke multiport match if appropriate # # servport = Port the server listens on # # chain = The canonical chain for this rule # ################################################################################ add_a_rule() { # Set source variables cli= [ -n "$client" ] && case "$client" in -) ;; [0-9]*|![0-9]*) cli="-s $client" ;; ~*) cli=`mac_match $client` ;; *) cli="-i $client" ;; esac # Set destination variables dest_interface= [ -n "$server" ] && case "$server" in -) serv= ;; [0-9]*|![0-9]*) serv=$server ;; *) dest_interface="-o $server" serv= ;; esac # Setup protocol and port variables sports= dports= state="-m state --state NEW" proto=$protocol addr=$address servport=$serverport multiport= case $proto in tcp|udp|TCP|UDP|6|17) if [ -n "$port" -a "x${port}" != "x-" ]; then [ -n "$multioption" ] && \ [ "$port" != "${port%,*}" ] && \ multiport="$multioption" dports="--dport $port" fi if [ -n "$cport" -a "x${cport}" != "x-" ]; then [ -n "$multioption" ] && \ [ -z "$multiport" ] && \ [ "$cport" != "${cport%,*}" ] && \ multiport="$multioption" sports="--sport $cport" fi ;; icmp|ICMP|1) [ -n "$port" ] && [ "x${port}" != "x-" ] && \ dports="--icmp-type $port" state= ;; all|ALL) [ -n "$port" ] && [ "x${port}" != "x-" ] && \ fatal_error "Port number not allowed with \"all\";" \ " rule: \"$rule\"" proto= ;; related|RELATED) proto= state="-m state --state RELATED" ;; *) [ -n "$port" ] && [ "x${port}" != "x-" ] && \ fatal_error "Port number not allowed with protocol " \ "\"$proto\"; rule: \"$rule\"" ;; esac proto="${proto:+-p $proto}" # Some misc. setup case "$logtarget" in REJECT) target=reject [ -n "$servport" ] && \ fatal_error "Error: server port may not be specified in a REJECT rule;"\ "rule: \"$rule\"" ;; REDIRECT) [ -n "$serv" ] && startup_error "Error: REDIRECT rules cannot"\ " specify a server IP; rule: \"$rule\"" [ -n "$servport" ] && \ startup_error "Error: server port may not be specified in an ACCEPT rule;" \ "rule: \"$rule\"" servport=${servport:=$port} ;; DNAT) [ -n "$serv" ] || fatal_error "Error: DNAT rules require a" \ " server address; rule: \"$rule\"" ;; esac # Complain if the rule is really a policy if [ -z "$proto" -a -z "$cli" -a -z "$serv" -a -z "$servport" ]; then error_message "Warning -- Rule \"$rule\" is a POLICY" error_message " -- and should be moved to the policy file" fi if [ -n "${serv}${servport}" ]; then # A specific server or server port given [ -n "$addr" -a "$addr" != "$serv" ] && add_nat_rule serv="${serv:+-d $serv}" [ -n "$loglevel" ] && run_iptables -A $chain $proto $multiport \ $state $cli $sports $serv $dports -j LOG $LOGPARMS \ --log-prefix "Shorewall:$chain:$logtarget:" \ --log-level $loglevel run_iptables -A $chain $proto $multiport $state $cli $sports \ $serv $dports -j $target else # Destination is a simple zone [ -n "$addr" ] && fatal_error \ "Error: An ADDRESS ($addr) is only allowed in" \ " a DNAT or REDIRECT: \"$rule\"" [ -n "$loglevel" ] && run_iptables -A $chain $proto $multiport \ $dest_interface $state $cli $sports $dports -j LOG \ $LOGPARMS --log-prefix "Shorewall:$chain:$logtarget:" \ --log-level $loglevel run_iptables -A $chain $proto $multiport $dest_interface $state \ $cli $sports $dports -j $target fi } ################################################################################ # Process a record from the rules file # # # # The caller has loaded the column contents from the record into the following # # variables: # # # # target clients servers protocol ports cports address # # # # and has loaded a space-separated list of their values in "rule". # # # # The 'multioption' variable has also been loaded appropriately to reflect # # the setting of the MULTIPORT option in /etc/shorewall/shorewall.conf # ################################################################################ process_rule() { # Function to count list elements list_count() { local temp=`separate_list $1` echo $temp | wc -w } # Function Body -- isolate log level if [ "$target" = "${target%:*}" ]; then loglevel= else loglevel="${target#*:}" target="${target%:*}" expandv loglevel fi logtarget="$target" # Convert 1.3 Rule formats to 1.2 format case $target in DNAT) target=ACCEPT address=${address:=detect} ;; REDIRECT) target=ACCEPT address=${address:=all} if [ "x-" = "x$servers" ]; then servers=$FW else servers="$FW::$servers" fi ;; esac # Parse and validate source if [ "$clients" = "${clients%:*}" ]; then clientzone="$clients" clients= else clientzone="${clients%:*}" clients="${clients#*:}" [ -z "$clientzone" -o -z "$clients" ] && \ fatal_error "Error: Empty source zone or qualifier: rule \"$rule\"" fi if [ "$clientzone" = "${clientzone%\!*}" ]; then excludezones= else excludezones="${clientzone#*\!}" clientzone="${clientzone%\!*}" [ "$logtarget" = DNAT ] || [ "$logtarget" = REDIRECT ] ||\ fatal_error "Error: Exclude list only allowed with DNAT or REDIRECT" fi if ! validate_zone $clientzone; then fatal_error "Error: Undefined Client Zone in rule \"$rule\"" fi # Parse and validate destination source=$clientzone [ $source = $FW ] && source_hosts= || eval source_hosts=\"\$${source}_hosts\" if [ "$servers" = "${servers%:*}" ] ; then serverzone="$servers" servers= serverport= else serverzone="${servers%%:*}" servers="${servers#*:}" if [ "$servers" != "${servers%:*}" ] ; then serverport="${servers#*:}" servers="${servers%:*}" [ -z "$serverzone" -o -z "$serverport" ] && \ fatal_error "Error: Empty destination zone or server port: rule \"$rule\"" else serverport= [ -z "$serverzone" -o -z "$servers" ] && \ startup_error "Error: Empty destination zone or qualifier: rule \"$rule\"" fi fi if ! validate_zone $serverzone; then fatal_error "Error: Undefined Server Zone in rule \"$rule\"" fi dest=$serverzone # Create canonical chain if necessary chain=${source}2${dest} ensurechain $chain # Generate Netfilter rule(s) if [ -n "$MULTIPORT" -a \ "$ports" = "${ports%:*}" -a \ "$cports" = "${cports%:*}" -a \ `list_count $ports` -le 15 -a \ `list_count $cports` -le 15 ] then multioption="-m multiport" for client in `separate_list ${clients:=-}`; do for server in `separate_list ${servers:=-}`; do port=${ports:=-} cport=${cports:=-} add_a_rule done done else 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 ${cports:=-}`; do add_a_rule done done done done fi echo " Rule \"$rule\" added." } ################################################################################ # Process the rules file # ################################################################################ process_rules() # $1 = name of rules file { strip_file rules while read target clients servers protocol ports cports address; do case "$target" in ACCEPT*|DROP*|REJECT*|DNAT*|REDIRECT*) expandv clients servers protocol ports cports address rule="`echo $target $clients $servers $protocol $ports $cports $address`" process_rule ;; *) rule="`echo $target $clients $servers $protocol $ports $cports $address`" fatal_error "Error: Invalid Target in rule \"$rule\"" ;; esac done < $TMP_DIR/rules } ################################################################################ # Process a record from the tos file # # # # The caller has loaded the column contents from the record into the following # # variables: # # # # src dst protocol sport dport tos # # # # and has loaded a space-separated list of their values in "rule". # ################################################################################ process_tos_rule() { ############################################################################ # Parse the contents of the 'src' variable # if [ "$src" = "${src%:*}" ]; then srczone="$src" src= else srczone="${src%:*}" src="${src#*:}" fi source= # # Validate the source zone # if validate_zone $srczone; then source=$srczone elif [ "$srczone" = "all" ]; then source="all" else error_message "Warning: Undefined Source Zone - rule \"$rule\" ignored" return fi [ -n "$src" ] && case "$src" in [0-9]*|![0-9]*) # # IP Address or subnet # src="-s $src" ;; ~*) src=`mac_match $src` ;; *) # # Assume that this is a device name # src="-i $src" ;; esac ############################################################################ # Parse the contents of the 'dst' variable # if [ "$dst" = "${dst%:*}" ]; then dstzone="$dst" dst= else dstzone="${dst%:*}" dst="${dst#*:}" fi dest= # # Validate the destination zone # if validate_zone $dstzone; then dest=$dstzone elif [ "$dstzone" = "all" ]; then dest="all" else error_message \ "Warning: Undefined Destination Zone - rule \"$rule\" ignored" return fi [ -n "$dst" ] && case "$dst" in [0-9]*|![0-9]*) # # IP Address or subnet # ;; *) # # Assume that this is a device name # error_message \ "Warning: Invalid Destination - rule \"$rule\" ignored" return ;; esac ############################################################################ # Setup PROTOCOL and PORT variables # sports="" dports="" case $protocol in tcp|udp|TCP|UDP|6|17) [ -n "$sport" ] && [ "x${sport}" != "x-" ] && \ sports="--sport $sport" [ -n "$dport" ] && [ "x${dport}" != "x-" ] && \ dports="--dport $dport" ;; icmp|ICMP|0) [ -n "$dport" ] && [ "x${dport}" != "x-" ] && \ dports="--icmp-type $dport" ;; all|ALL) protocol= ;; *) ;; esac protocol="${protocol:+-p $protocol}" tos="-j TOS --set-tos $tos" case "$dstzone" in all|ALL) dst=0.0.0.0/0 ;; *) [ -z "$dst" ] && eval dst=\$${dstzone}_hosts ;; esac for dest in $dst; do dest="-d $dest" case $srczone in $FW) run_iptables -t mangle -A outtos \ $protocol $dest $dports $sports $tos ;; all|ALL) run_iptables -t mangle -A outtos \ $protocol $dest $dports $sports $tos run_iptables -t mangle -A pretos \ $protocol $dest $dports $sports $tos ;; *) if [ -n "$src" ]; then run_iptables -t mangle -A pretos $src \ $protocol $dest $dports $sports $tos else eval interfaces=\$${srczone}_interfaces for interface in $interfaces; do run_iptables -t mangle -A pretos -i $interface \ $protocol $dest $dports $sports $tos done fi ;; esac done echo " Rule \"$rule\" added." } ################################################################################ # Process the tos file # ################################################################################ process_tos() # $1 = name of tos file { echo "Processing $1..." run_iptables -t mangle -N pretos run_iptables -t mangle -N outtos strip_file tos $1 while read src dst protocol sport dport tos; do expandv src dst protocol sport dport tos rule="`echo $src $dst $protocol $sport $dport $tos`" process_tos_rule done < $TMP_DIR/tos run_iptables -t mangle -A PREROUTING -j pretos run_iptables -t mangle -A OUTPUT -j outtos } ################################################################################ # Load a Kernel Module # ################################################################################ loadmodule() # $1 = module name, $2 - * arguments { local modulename=$1 local modulefile if [ -z "`lsmod | grep $modulename`" ]; then shift modulefile=$MODULESDIR/${modulename}.o if [ -f $modulefile ]; then insmod $modulefile $* return fi # # If the modules directory contains compressed modules then we'll # assume that insmod can load them # modulefile=${modulefile}.gz if [ -f $modulefile ]; then insmod $modulefile $* fi fi } ################################################################################ # Display elements of a list with leading white space # ################################################################################ display_list() # $1 = List Title, rest of $* = list to display { [ $# -gt 1 ] && echo " $*" } ################################################################################ # Add rules to the "common" chain to silently drop packets addressed to any of # # the passed addresses # ################################################################################ drop_broadcasts() # $* = broadcast addresses { while [ $# -gt 0 ]; do run_iptables -A common -d $1 -j DROP shift done } ################################################################################ # Add policy rule ( and possibly logging rule) to the passed chain # ################################################################################ policy_rules() # $1 = chain to add rules to # $2 = policy # $3 = loglevel { local target="$2" case "$target" in ACCEPT) ;; DROP) run_iptables -A $1 -j common ;; REJECT) run_iptables -A $1 -j common target=reject ;; CONTINUE) target= ;; *) fatal_error "Invalid policy ($policy) for $1" ;; esac [ $# -eq 3 ] && [ "x${3}" != "x-" ] && run_iptables -A $1 -j LOG $LOGPARMS \ --log-prefix "Shorewall:${1}:${2}:" --log-level $3 [ -n "$target" ] && run_iptables -A $1 -j $target } ################################################################################ # Generate default policy & log level rules for the passed client & server # # zones # #------------------------------------------------------------------------------# # This function is only called when the canonical chain for this client/server # # pair is known to exist. If the default policy for this pair specifies the # # same chain then we add the policy (and logging) rule to the canonical chain; # # otherwise add a rule to the canonical chain to jump to the appropriate # # policy chain. # ################################################################################ default_policy() # $1 = client $2 = server { local chain="${1}2${2}" local policy= local loglevel= local chain1 jump_to_policy_chain() { ######################################################################## # Add a jump to from the canonical chain to the policy chain. On return, # $chain is set to the name of the policy chain # run_iptables -A $chain -j $chain1 chain=$chain1 } apply_default() { ######################################################################## # Add the appropriate rules to the canonical chain ($chain) to enforce # the specified policy #----------------------------------------------------------------------- # Construct policy chain name # chain1=${client}2${server} if [ "$chain" = "$chain1" ]; then #################################################################### # The policy chain is the canonical chain; add policy rule to it # The syn flood jump has already been added if required. # policy_rules $chain $policy $loglevel else #################################################################### # The policy chain is different from the canonical chain -- approach # depends on the policy # case $policy in ACCEPT) if [ -n "$synparams" ]; then ############################################################ # To avoid double-counting SYN packets, enforce the policy # in this chain. # enable_syn_flood_protection $chain $chain1 policy_rules $chain $policy $loglevel else ############################################################ # No problem with double-counting so just jump to the # policy chain. # jump_to_policy_chain fi ;; CONTINUE) ################################################################ # Silly to jump to the policy chain -- add any logging # rules and enable SYN flood protection if requested # [ -n "$synparams" ] && \ enable_syn_flood_protection $chain $chain1 policy_rules $chain $policy $loglevel ;; *) ################################################################ # DROP or REJECT policy -- enforce in the policy chain and # enable SYN flood protection if requested. # [ -n "$synparams" ] && \ enable_syn_flood_protection $chain $chain1 jump_to_policy_chain ;; esac fi echo " Policy $policy for $1 to $2 using chain $chain" } while read client server policy loglevel synparams; do expandv client server policy loglevel synparams case "$client" in all|ALL) if [ "$server" = "$2" -o "$server" = "all" ]; then apply_default $1 $2 return fi ;; *) if [ "$client" = "$1" ] && \ [ "$server" = "all" -o "$server" = "$2" ] then apply_default $1 $2 return fi ;; esac done < $TMP_DIR/policy fatal_error "Error: No default policy for zone $1 to zone $2" } ################################################################################ # Complete a standard chain # # - run any supplied user exit # - search the policy file for an applicable policy and add rules as # appropriate # - If no applicable policy is found, add rules for an assummed # policy of DROP INFO ################################################################################ complete_standard_chain() # $1 = chain, $2 = source zone, $3 = destination zone { local policy= local loglevel= run_user_exit $1 while read client server policy loglevel synparams; do expandv client server policy loglevelsynparams [ "x$loglevel" = "x-" ] && loglevel= case "$client" in all|ALL) if [ "$server" = "$3" -o "$server" = "all" ]; then policy_rules $1 $policy $loglevel return fi ;; *) if [ "$client" = "$2" ] && \ [ "$server" = "all" -o "$server" = "$3" ] then policy_rules $1 $policy $loglevel return fi ;; esac done < $TMP_DIR/policy policy_rules $1 DROP INFO } ################################################################################ # Find the appropriate chain to pass packets from a source zone to a # # destination zone # # # # If the canonical chain for this zone pair exists, echo it's name; otherwise # # locate and echo the name of the appropriate policy chain # ################################################################################ rules_chain() # $1 = source zone, $2 = destination zone { local chain=${1}2${2} havechain $chain && { echo $chain; return; } while read client server policy loglevel ; do expandv client server policy loglevel case "$client" in all|ALL) if [ "$server" = "$2" -o "$server" = "all" ]; then echo all2${server} return fi ;; *) if [ "$client" = "$1" -a "$server" = "all" ]; then echo ${client}2${server} return fi ;; esac done < $TMP_DIR/policy fatal_error "Error: No appropriate chain for zone $1 to zone $2" } ################################################################################ # Set up Source NAT (including masquerading) # ################################################################################ setup_masq() { setup_one() { local using if [ "$interface" = "${interface%:*}" ]; then destnet="0.0.0.0/0" else destnet="${interface#*:}" interface="${interface%:*}" fi if [ "$subnet" = "${subnet%!*}" ]; then nomasq= else nomasq="${subnet#*!}" subnet="${subnet%!*}" fi chain=`masq_chain $interface` iface= case $subnet in [0-9]*|![0-9]*) source="$subnet" subnet="-s $subnet" ;; -) # # Note: This only works if you have the LOCAL NAT patches in the # kernel and in the iptables utility # chain=OUTPUT subnet= source=$FW iface="-o $interface" ;; *) ipaddr="`run_ip addr show $subnet | grep 'inet '`" source="$subnet" if [ -z "$ipaddr" ]; then fatal_error \ "Interface $subnet must be up before Shorewall starts" fi subnet="`echo $ipaddr | sed s/" "// | cut -d' ' -f2`" [ -z "`echo "$subnet" | grep '/'`" ] && subnet="${subnet}/32" subnet="-s $subnet" ;; esac if [ -n "$address" -a -n "$ADD_SNAT_ALIASES" ]; then list_search $address $aliases_to_add || \ aliases_to_add="$aliases_to_add $external $address" fi destination=$destnet if [ -n "$nomasq" ]; then newchain=masq${masq_seq} run_iptables -t nat -N $newchain addnatrule $chain -d $destnet $iface $subnet -j $newchain masq_seq=$(($masq_seq + 1)) chain=$newchain subnet= iface= destnet= for addr in `separate_list $nomasq`; do addnatrule $chain -s $addr -j RETURN done else destnet="-d $destnet" fi if [ -n "$address" ]; then addnatrule $chain $subnet $destnet $iface \ -j SNAT --to-source $address using=" using $address" else addnatrule $chain $subnet $destnet $iface -j MASQUERADE using= fi [ -n "$nomasq" ] && source="$source except $nomasq" echo " To $destination from $source through ${interface}${using}" } strip_file masq $1 [ -n "$NAT_ENABLED" ] && echo "Masqueraded Subnets and Hosts:" while read interface subnet address; do expandv interface subnet address [ -n "$NAT_ENABLED" ] && setup_one || \ error_message "Warning: NAT disabled; masq rule ignored" done < $TMP_DIR/masq } ################################################################################ # Setup Intrazone chain if appropriate # ################################################################################ setup_intrazone() # $1 = zone { eval hosts=\$${1}_hosts if [ "$hosts" != "${hosts% *}" ] || \ have_interfaces_in_zone_with_option $1 multi then ensurechain ${1}2${1} fi } ############################################################################### # Process a record from the blacklist file # # # # $subnet = address/subnet # ############################################################################### process_blacklist_rec() { local source local addr for addr in `separate_list $subnet`; do case $addr in ~*) addr=`echo $addr | sed 's/~//;s/-/:/g'` source="--match mac --mac-source $addr" ;; *) source="-s $addr" ;; esac [ -n "$BLACKLIST_LOGLEVEL" ] && \ run_iptables -A blacklst $source -j LOG $LOGPARMS --log-prefix \ "Shorewall:blacklst:$BLACKLIST_DISPOSITION:" \ --log-level $BLACKLIST_LOGLEVEL run_iptables -A blacklst $source -j $disposition echo " $addr added to Black List" done } ############################################################################### # Setup the Black List # ############################################################################### setup_blacklist() { local interfaces=`find_interfaces_by_option blacklist` local f=`find_file blacklist` local disposition=$BLACKLIST_DISPOSITION if [ -n "$interfaces" -a -f $f ]; then echo "Setting up Blacklisting..." strip_file blacklist $f createchain blacklst no for interface in $interfaces; do for chain in `first_chains $interface`; do run_iptables -A $chain -j blacklst done echo " Blacklisting enabled on $interface" done [ "$disposition" = REJECT ] && disposition=reject while read subnet; do expandv subnet process_blacklist_rec done < $TMP_DIR/blacklist fi } ############################################################################### # Refresh the Black List # ############################################################################### refresh_blacklist() { local f=`find_file blacklist` local disposition=$BLACKLIST_DISPOSITION if qt iptables -L blacklst -n ; then echo "Refreshing Black List..." strip_file blacklist $f [ "$disposition" = REJECT ] && disposition=reject run_iptables -F blacklst while read subnet; do expandv subnet process_blacklist_rec done < $TMP_DIR/blacklist fi } ############################################################################### # Verify that kernel has netfilter support # ############################################################################### verify_os_version() { osversion=`uname -r` case $osversion in 2.4.*|2.5.*) ;; *) startup_error "Shorewall version $version does not work with kernel version $osversion" ;; esac } ################################################################################ # Add IP Aliases # ################################################################################ add_ip_aliases() # $* = addresses and devices { do_one() { # # Folks feel uneasy if they don't see all of the same # decoration on these IP addresses that they see when their # distro's net config tool adds them. In an attempt to reduce # the anxiety level, we have the following code which sets # the VLSM and BRD from the primary address # # Get all of the lines that contain inet addresses with broadcast # val=`ip addr show $interface | grep 'inet.*brd '` 2> /dev/null if [ -n "$val" ] ; then # # Hack off the leading 'inet ' (actually cut off the # "/" as well but add it back in). # val="/${val#*/}" # # Now get the VLSM, "brd" and the broadcast address # val=${val%% scope*} fi run_ip addr add ${external}${val} dev $interface echo "$external $interface" >> ${STATEDIR}/nat echo " IP Address $external added to interface $interface" } while [ $# -gt 0 ]; do external=$1 interface=$2 shift;shift do_one done } ################################################################################ # Load kernel modules required for Shorewall # ################################################################################ load_kernel_modules() { [ -z "$MODULESDIR" ] && MODULESDIR=/lib/modules/$osversion/kernel/net/ipv4/netfilter modules=`find_file modules` if [ -f $modules -a -d $MODULESDIR ]; then echo "Loading Modules..." . $modules fi } ################################################################################ # Perform Initialization # # - Delete all old rules # # - Delete all user chains # # - Set the POLICY on all standard chains and add a rule to allow packets# # that are part of established connections. # # - Determine the zones ################################################################################ initialize_netfilter () { echo "Determining Zones..." determine_zones [ -z "$zones" ] && startup_error "ERROR: No Zones Defined" display_list "Zones:" $zones echo "Validating interfaces file..." validate_interfaces_file echo "Validating hosts file..." validate_hosts_file echo "Validating Policy file..." validate_policy echo "Determining Hosts in Zones..." determine_interfaces determine_hosts deletechain shorewall [ -n "$NAT_ENABLED" ] && delete_nat delete_proxy_arp [ -n "$MANGLE_ENABLED" ] && \ run_iptables -t mangle -F && \ run_iptables -t mangle -X [ -n "$TC_ENABLED" ] && delete_tc run_user_exit init echo "Deleting user chains..." setpolicy INPUT DROP setpolicy OUTPUT DROP setpolicy FORWARD DROP deleteallchains setcontinue FORWARD setcontinue INPUT setcontinue OUTPUT [ -n "$CLAMPMSS" ] && \ run_iptables -A FORWARD -p tcp \ --tcp-flags SYN,RST SYN -j TCPMSS --clamp-mss-to-pmtu createchain icmpdef no createchain common no createchain reject no createchain dynamic no if [ -f /var/lib/shorewall/save ]; then echo "Restoring dynamic rules..." while read target ignore1 ignore2 address rest; do case $target in DROP|reject) run_iptables -A dynamic -s $address -j $target ;; *) ;; esac done < /var/lib/shorewall/save fi echo "Creating input Chains..." for interface in $all_interfaces; do createchain `forward_chain $interface` no run_iptables -A `forward_chain $interface` -j dynamic createchain `input_chain $interface` no run_iptables -A `input_chain $interface` -j dynamic done } ################################################################################ # Construct zone-independent rules # ################################################################################ add_common_rules() { logdisp() # $1 = Chain Name { echo "LOG --log-prefix "Shorewall:${1}:DROP:" --log-level info" } ############################################################################ # Reject Rules # run_iptables -A reject -p tcp -j REJECT --reject-with tcp-reset run_iptables -A reject -j REJECT ############################################################################ # dropunclean rules # interfaces="`find_interfaces_by_option dropunclean`" if [ -n "$interfaces" ]; then createchain badpkt no if [ -n "$LOGUNCLEAN" ]; then logoptions="$LOGPARAMS --log-prefix Shorewall:badpkt:DROP:" logoptions="$logoptions --log-level $LOGUNCLEAN --log-ip-options" run_iptables -A badpkt -p tcp -j LOG $logoptions --log-tcp-options run_iptables -A badpkt -p !tcp -j LOG $logoptions fi run_iptables -A badpkt -j DROP echo "Mangled/Invalid Packet filtering enabled on:" for interface in $interfaces; do for chain in `first_chains $interface`; do run_iptables -A $chain --match unclean -j badpkt done echo " $interface" done fi ############################################################################ # logunclean rules # interfaces="`find_interfaces_by_option logunclean`" if [ -n "$interfaces" ]; then createchain logpkt no [ -z"$LOGUNCLEAN" ] && LOGUNCLEAN=info logoptions="$LOGPARAMS --log-prefix Shorewall:logpkt:LOG:" logoptions="$logoptions --log-level $LOGUNCLEAN --log-ip-options" run_iptables -A logpkt -p tcp -j LOG $logoptions --log-tcp-options run_iptables -A logpkt -p !tcp -j LOG $logoptions echo "Mangled/Invalid Packet Logging enabled on:" for interface in $interfaces; do for chain in `first_chains $interface`; do run_iptables -A $chain --match unclean -j logpkt done echo " $interface" done fi ############################################################################ # Common ICMP rules # icmpdef=`find_file icmpdef` if [ -f $icmpdef ]; then . $icmpdef else . `find_file icmp.def` fi ############################################################################ # Common rules in each chain # common=`find_file common` if [ -f $common ]; then . $common else . `find_file common.def` fi ########################################################################### # BROADCASTS # drop_broadcasts `find_broadcasts` ########################################################################### # RFC 1918 # norfc1918_interfaces="`find_interfaces_by_option norfc1918`" if [ -n "$norfc1918_interfaces" ]; then echo "Enabling RFC1918 Filtering" strip_file rfc1918 createchain rfc1918 no createchain logdrop no run_iptables -A logdrop -j `logdisp rfc1918` run_iptables -A logdrop -j DROP if [ -n "$MANGLE_ENABLED" ]; then #################################################################### # Mangling is enabled -- create a chain in the mangle table to # filter RFC1918 destination addresses. This must be done in the # mangle table before we apply any DNAT rules in the nat table # # Also add a chain to log and drop any RFC1918 packets that we find # run_iptables -t mangle -N man1918 run_iptables -t mangle -N logdrop run_iptables -t mangle -A logdrop -j `logdisp man1918` run_iptables -t mangle -A logdrop -j DROP fi while read subnet target; do case $target in logdrop|DROP|RETURN) ;; *) fatal_error " Error:Illegal target ($target) for $subnet" ;; esac run_iptables -A rfc1918 -s $subnet -j $target #################################################################### # If packet mangling is enabled, trap packets with an # RFC1918 destination # if [ -n "$MANGLE_ENABLED" ]; then run_iptables -t mangle -A man1918 -d $subnet -j $target fi done < $TMP_DIR/rfc1918 for interface in $norfc1918_interfaces; do for chain in `first_chains $interface`; do run_iptables -A $chain -j rfc1918 done [ -n "$MANGLE_ENABLED" ] && \ run_iptables -t mangle -A PREROUTING -i $interface -j man1918 done fi ############################################################################ # Process Black List # setup_blacklist ############################################################################ # Enable the Loopback interface # run_iptables -A INPUT -i lo -j ACCEPT run_iptables -A OUTPUT -o lo -j ACCEPT ############################################################################ # Enable icmp output # run_iptables -A OUTPUT -m state --state ! INVALID -p icmp -j ACCEPT ############################################################################ # Route Filtering # for f in /proc/sys/net/ipv4/conf/*/rp_filter; do echo 0 > $f done interfaces="`find_interfaces_by_option routefilter`" if [ -n "$interfaces" -o -n "$ROUTE_FILTER" ]; then echo "Setting up Kernel Route Filtering..." if [ -n "$ROUTE_FILTER" ]; then echo 1 > /proc/sys/net/ipv4/conf/all/rp_filter else echo 0 > /proc/sys/net/ipv4/conf/all/rp_filter for interface in $interfaces; do file=/proc/sys/net/ipv4/conf/$interface/rp_filter if [ -f $file ]; then echo 1 > $file else error_message \ "Warning: Cannot set route filtering on $interface" fi done fi fi ############################################################################ # IP Forwarding # case "$IP_FORWARDING" in [Oo][Nn]) echo 1 > /proc/sys/net/ipv4/ip_forward echo "IP Forwarding Enabled" ;; [Oo][Ff][Ff]) echo 0 > /proc/sys/net/ipv4/ip_forward echo "IP Forwarding Disabled!" ;; esac } ################################################################################ # Scan the policy file defining the necessary chains # # Add the appropriate policy rule(s) to the end of each canonical chain # ################################################################################ apply_policy_rules() { ############################################################################ # Create policy chains # while read client server policy loglevel synparams; do expandv client server policy loglevel synparams chain=${client}2${server} [ -n "$synparams" ] && setup_syn_flood_chain $chain $synparams if havechain $chain; then [ -n "$synparams" ] && \ run_iptables -I $chain 2 -p tcp --syn -j @$chain else # # A wild-card rule. Create the chain and add policy # rules # # We must include the ESTABLISHED and RELATED state # rule here to account for replys and reverse # related sessions associated with sessions going # in the other direction # createchain $chain [ "$client" = "all" -o "$server" = "all" ] && \ policy_rules $chain $policy $loglevel [ -n "$synparams" ] && \ [ $policy = ACCEPT -o $policy = CONTINUE ] && \ run_iptables -I $chain 2 -p tcp --syn -j @$chain fi done < $TMP_DIR/policy ############################################################################ # Add policy rules to canonical chains # for zone in $FW $zones; do setup_intrazone $zone for zone1 in $FW $zones; do chain=${zone}2${zone1} if havechain $chain; then run_user_exit $chain default_policy $zone $zone1 fi done done } ################################################################################ # Activate the rules # ################################################################################ activate_rules() { local PREROUTING_rule=1 local POSTROUTING_rule=1 ############################################################################ # Jump to a NAT chain from one of the builtin nat chains # addnatjump() # $1 = BUILTIN chain, $2 = user chain, $3 - * other arguments { local sourcechain=$1 destchain=$2 shift shift havenatchain $destchain && \ run_iptables -t nat -A $sourcechain $@ -j $destchain } ############################################################################ # Jump to a RULES chain from one of the builtin nat chains #--------------------------------------------------------------------------- # If NAT_BEFORE_RULES then append the rule to the chain; otherwise, insert # the jump near the front of the builtin chain # addrulejump() # $1 = BUILTIN chain, $2 = user chain, $3 - * other arguments { local sourcechain=$1 destchain=$2 shift shift if havenatchain $destchain; then if [ -n "$NAT_BEFORE_RULES" ]; then run_iptables -t nat -A $sourcechain $@ -j $destchain else eval run_iptables -t nat -I $sourcechain \ \$${sourcechain}_rule $@ -j $destchain eval ${sourcechain}_rule=\$\(\(\$${sourcechain}_rule + 1\)\) fi fi } # # Add jumps from the builtin chains to the nat chains # addnatjump PREROUTING nat_in addnatjump POSTROUTING nat_out for interface in $all_interfaces; do addnatjump PREROUTING `input_chain $interface` -i $interface addnatjump POSTROUTING `output_chain $interface` -o $interface done multi_interfaces=`find_interfaces_by_option multi` for zone in $zones; do eval source_hosts=\$${zone}_hosts for host in $source_hosts; do interface=${host%:*} subnet=${host#*:} run_iptables -A OUTPUT -o \ $interface -d $subnet -j `rules_chain $FW $zone` # # Add jumps from the builtin chains for DNAT and SNAT rules # addrulejump PREROUTING `dnat_chain $zone` -i $interface -s $subnet addrulejump POSTROUTING `snat_chain $zone` -o $interface -d $subnet run_iptables -A `input_chain $interface` -s $subnet \ -j `rules_chain $zone $FW` done for zone1 in $zones; do eval dest_hosts=\$${zone1}_hosts chain="`rules_chain $zone $zone1`" for host in $source_hosts; do interface=${host%:*} subnet=${host#*:} chain1=`forward_chain $interface` case $interface in *+*) multi=yes ;; *) list_search $interface $multi_interfaces && multi=yes || multi= ;; esac for host1 in $dest_hosts; do interface1=${host1%:*} subnet1=${host1#*:} if [ $interface != $interface1 -o -n "$multi" ]; then run_iptables -A $chain1 -s $subnet \ -o $interface1 -d $subnet1 -j $chain fi done done done done for interface in $all_interfaces; do run_iptables -A FORWARD -i $interface -j `forward_chain $interface` run_iptables -A INPUT -i $interface -j `input_chain $interface` addnatjump POSTROUTING `masq_chain $interface` -o $interface done complete_standard_chain INPUT all $FW complete_standard_chain OUTPUT $FW all complete_standard_chain FORWARD all all run_iptables -D INPUT 1 run_iptables -D OUTPUT 1 run_iptables -D FORWARD 1 } ################################################################################ # Start/Restart the Firewall # ################################################################################ define_firewall() # $1 = Command (Start or Restart) { echo "${1}ing Shorewall..." verify_os_version load_kernel_modules echo "Initializing..." initialize_netfilter echo "Configuring Proxy ARP" setup_proxy_arp setup_nat echo "Adding Common Rules" add_common_rules tunnels=`find_file tunnels` [ -f $tunnels ] && \ echo "Processing $tunnels..." && setup_tunnels $tunnels rules=`find_file rules` echo "Processing $rules..." process_rules $rules echo "Adding rules for DHCP" for interface in `find_interfaces_by_option dhcp`; do run_iptables -A `input_chain $interface` -p udp --dport 67:68 -j ACCEPT run_iptables -A OUTPUT -o $interface -p udp --dport 67:68 -j ACCEPT done echo "Setting up ICMP Echo handling..." filterping_interfaces="`find_interfaces_by_option filterping`" noping_interfaces="`find_interfaces_by_option noping`" for interface in $all_interfaces; do if ! list_search $interface $filterping_interfaces; then if list_search $interface $noping_interfaces; then target=DROP else target=ACCEPT fi run_iptables -A `input_chain $interface` \ -p icmp --icmp-type echo-request -j $target fi done policy=`find_file policy` echo "Processing $policy..." apply_policy_rules masq=`find_file masq` [ -f $masq ] && setup_masq $masq tos=`find_file tos` [ -f $tos ] && [ -n "$MANGLE_ENABLED" ] && process_tos $tos [ -n "$TC_ENABLED" ] && setup_tc echo "Activating Rules..." activate_rules [ -n "$aliases_to_add" ] && \ echo "Adding IP Addresses..." && \ add_ip_aliases $aliases_to_add run_user_exit start createchain shorewall no date > /var/lib/shorewall/restarted report "Shorewall ${1}ed" rm -rf $TMP_DIR } ################################################################################ # Check the configuration # ################################################################################ check_config() { echo "Verifying Configuration..." verify_os_version load_kernel_modules echo "Determining Zones..." determine_zones [ -z "$zones" ] && startup_error "ERROR: No Zones Defined" display_list "Zones:" $zones echo "Validating interfaces file..." validate_interfaces_file echo "Validating hosts file..." validate_hosts_file echo "Determining Hosts in Zones..." determine_interfaces determine_hosts echo "Validating rules file..." validate_rules echo "Validating policy file..." validate_policy rm -rf $TMP_DIR echo "Configuration Validated" } ################################################################################ # Rebuild the common chain # ################################################################################ refresh_firewall() { echo "Refreshing Shorewall..." echo "Determining Zones and Interfaces..." determine_zones [ -z "$zones" ] && startup_error "ERROR: No Zones Defined" determine_interfaces run_user_exit refresh run_iptables -F common echo "Adding Common Rules" ############################################################################ # Common rules in each chain # common=`find_file common` if [ -f $common ]; then . $common else . `find_file common.def` fi ########################################################################### # BROADCASTS # drop_broadcasts `find_broadcasts` ########################################################################### # Blacklist # refresh_blacklist report "Shorewall Refreshed" rm -rf $TMP_DIR } ################################################################################ # Determine the value for a parameter that defaults to Yes # ################################################################################ added_param_value_yes() # $1 = Parameter Name, $2 = Parameter value { local val="$2" if [ -z "$val" ]; then echo "Yes" else case $val in [Yy][Ee][Ss]) echo "Yes" ;; [Nn][Oo]) echo "" ;; *) startup_error "Invalid value ($val) for $1" ;; esac fi } ################################################################################ # Determine the value for a parameter that defaults to No # ################################################################################ added_param_value_no() # $1 = Parameter Name, $2 = Parameter value { local val="$2" if [ -z "$val" ]; then echo "" else case $val in [Yy][Ee][Ss]) echo "Yes" ;; [Nn][Oo]) echo "" ;; *) startup_error "Invalid value ($val) for $1" ;; esac fi } ################################################################################ # Initialize this program # ################################################################################ do_initialize() { # Run all utility programs using the C locale # # Thanks to Vincent Planchenault for this tip # export LC_ALL=C PATH=/sbin:/bin:/usr/sbin:/usr/bin:/usr/local/sbin:/usr/local/bin ############################################################################ # Clear all configuration variables # version= FW= SUBSYSLOCK= STATEDIR= ALLOWRELATED= LOGRATE= LOGBURST= LOGPARMS= NAT_ENABLED= MANGLE_ENABLED= ADD_IP_ALIASES= ADD_SNAT_ALIASES= TC_ENABLED= LOGUNCLEAN= BLACKLIST_DISPOSITION= BLACKLIST_LOGLEVEL= CLAMPMSS= ROUTE_FILTER= NAT_BEFORE_RULES= MULTIPORT= DETECT_DNAT_IPADDRS= MERGE_HOSTS= MUTEX_TIMEOUT= stopping= have_mutex= masq_seq=1 nonat_seq=1 aliases_to_add= TMP_DIR=/tmp/shorewall-$$ rm -rf $TMP_DIR mkdir -p $TMP_DIR && chmod 700 $TMP_DIR || \ startup_error "Can't create $TMP_DIR" trap "rm -rf $TMP_DIR; my_mutex_off; exit 2" 1 2 3 4 5 6 9 functions=/var/lib/shorewall/functions if [ -f $functions ]; then . $functions else startup_error "$functions does not exist!" fi version_file=/var/lib/shorewall/version [ -f $version_file ] && version=`cat $version_file` # # Strip the files that we use often # strip_file interfaces strip_file hosts run_user_exit shorewall.conf run_user_exit params [ -z "${STATEDIR}" ] && STATEDIR=/var/state/shorewall [ -d $STATEDIR ] || mkdir -p $STATEDIR [ -z "$FW" ] && FW=fw ALLOWRELATED="`added_param_value_yes ALLOWRELATED $ALLOWRELATED`" NAT_ENABLED="`added_param_value_yes NAT_ENABLED $NAT_ENABLED`" MANGLE_ENABLED="`added_param_value_yes MANGLE_ENABLED $MANGLE_ENABLED`" ADD_IP_ALIASES="`added_param_value_yes ADD_IP_ALIASES $ADD_IP_ALIASES`" TC_ENABLED="`added_param_value_yes TC_ENABLED $TC_ENABLED`" if [ -n "${LOGRATE}${LOGBURST}" ]; then LOGPARMS="--match limit" [ -n "$LOGRATE" ] && LOGPARMS="$LOGPARMS --limit $LOGRATE" [ -n "$LOGBURST" ] && LOGPARMS="$LOGPARMS --limit-burst $LOGBURST" fi if [ -n "$IP_FORWARDING" ]; then case "$IP_FORWARDING" in [Oo][Nn]|[Oo][Ff][Ff]|[Kk][Ee][Ee][Pp]) ;; *) startup_error "Invalid value ($IP_FORWARDING) for IP_FORWARDING" ;; esac else IP_FORWARDING=On fi if [ -n "$TC_ENABLED" -a -z "$MANGLE_ENABLED" ]; then startup_error "Traffic Control requires Mangle" fi [ -z "$BLACKLIST_DISPOSITION" ] && BLACKLIST_DISPOSITION=DROP CLAMPMSS=`added_param_value_no CLAMPMSS $CLAMPMSS` ADD_SNAT_ALIASES=`added_param_value_no ADD_SNAT_ALIASES $ADD_SNAT_ALIASES` ROUTE_FILTER=`added_param_value_no ROUTE_FILTER $ROUTE_FILTER` NAT_BEFORE_RULES=`added_param_value_yes NAT_BEFORE_RULES $NAT_BEFORE_RULES` MULTIPORT=`added_param_value_no MULTIPORT $MULTIPORT` DETECT_DNAT_IPADDRS=`added_param_value_no DETECT_DNAT_IPADDRS $DETECT_DNAT_IPADDRS` MERGE_HOSTS=`added_param_value_no MERGE_HOSTS $MERGE_HOSTS` } ################################################################################ # Give Usage Information # ################################################################################ usage() { echo "Usage: $0 [debug] {start|stop|reset|restart|status|refresh|clear]}" exit 1 } ################################################################################ # E X E C U T I O N B E G I N S H E R E # ################################################################################ # # Start trace if first arg is "debug" # [ $# -gt 1 ] && [ "$1" = "debug" ] && { set -x ; shift ; } nolock= [ $# -gt 1 ] && [ "$1" = "nolock" ] && { nolock=Yes; shift ; } [ $# -ne 1 ] && usage command="$1" case "$command" in stop) do_initialize my_mutex_on echo -n "Stopping Shorewall..." determine_zones stop_firewall [ -n "$SUBSYSLOCK" ] && rm -f $SUBSYSLOCK echo "done." my_mutex_off ;; start) do_initialize my_mutex_on if qt iptables -L shorewall -n ; then [ -n "$SUBSYSLOCK" ] && touch $SUBSYSLOCK echo "Shorewall Already Started" my_mutex_off exit 0; fi define_firewall "Start" && [ -n "$SUBSYSLOCK" ] && touch $SUBSYSLOCK my_mutex_off ;; restart) do_initialize my_mutex_on if qt iptables -L shorewall -n ; then define_firewall "Restart" else echo "Shorewall Not Currently Running" define_firewall "Start" fi [ $? -eq 0 ] && [ -n "$SUBSYSLOCK" ] && touch $SUBSYSLOCK my_mutex_off ;; status) echo -e "Shorewall-$version Status at $HOSTNAME - `date`\\n" iptables -L -n -v ;; reset) iptables -L -n -Z -v report "Shorewall Counters Reset" date > /var/lib/shorewall/restarted ;; refresh) do_initialize my_mutex_on if ! qt iptables -L shorewall -n ; then echo "Shorewall Not Started" my_mutex_off exit 2; fi refresh_firewall; my_mutex_off ;; clear) do_initialize my_mutex_on echo -n "Clearing Shorewall..." determine_zones clear_firewall [ -n "$SUBSYSLOCK" ] && rm -f $SUBSYSLOCK echo "done." my_mutex_off ;; check) do_initialize check_config ;; *) usage ;; esac