#!/bin/sh # # Shorewall 3.4 -- /usr/share/shorewall/lib.base # # This program is under GPL [http://www.gnu.org/copyleft/gpl.htm] # # (c) 1999,2000,2001,2002,2003,2004,2005,2006,2007 - 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 contains the code common to all Shorewall components. It is copied into # the compiled script with the -e compiler flag is specified and is loaded by # /sbin/shorewall, /usr/share/shorewall/compiler and /usr/share/shorewall/firewall. It # is also released as part of Shorewall Lite where it is used by /sbin/shorewall-lite # and /usr/share/shorewall-lite/shorecap. # SHOREWALL_LIBVERSION=30303 [ -n "${VARDIR:=/var/lib/shorewall}" ] [ -n "${SHAREDIR:=/usr/share/shorewall}" ] [ -n "${CONFDIR:=/etc/shorewall}" ] # # Message to stderr # error_message() # $* = Error Message { echo " $@" >&2 } # # Conditionally produce message # progress_message() # $* = Message { local timestamp= if [ $VERBOSE -gt 1 ]; then [ -n "$TIMESTAMP" ] && timestamp="$(date +%H:%M:%S) " echo "${timestamp}$@" fi } progress_message2() # $* = Message { local timestamp= if [ $VERBOSE -gt 0 ]; then [ -n "$TIMESTAMP" ] && timestamp="$(date +%H:%M:%S) " echo "${timestamp}$@" fi } progress_message3() # $* = Message { local timestamp= if [ $VERBOSE -ge 0 ]; then [ -n "$TIMESTAMP" ] && timestamp="$(date +%H:%M:%S) " echo "${timestamp}$@" fi } # # Split a colon-separated list into a space-separated list # split() { local ifs=$IFS IFS=: echo $* IFS=$ifs } # # 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$1" ] && return 0 done return 1 } # # Suppress all output for a command # qt() { "$@" >/dev/null 2>&1 } # # Determine if Shorewall is "running" # shorewall_is_started() { qt $IPTABLES -L shorewall -n } # # Echos the fully-qualified name of the calling shell program # my_pathname() { cd $(dirname $0) echo $PWD/$(basename $0) } # # 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 progress_message "Processing $user_exit ..." . $user_exit fi } # # 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 and related connections # setcontinue() # $1 = name of chain { run_iptables -A $1 -m state --state ESTABLISHED,RELATED -j ACCEPT } # # Flush one of the NAT table chains # flushnat() # $1 = name of chain { run_iptables -t nat -F $1 } # # Flush one of the Mangle table chains # flushmangle() # $1 = name of chain { run_iptables -t mangle -F $1 } # # Flush and delete all user-defined chains in the filter table # deleteallchains() { run_iptables -F run_iptables -X } # # Load a Kernel Module -- assumes that the variable 'moduledirectories' contains # a space-separated list of directories to search for # the module and that 'moduleloader' contains the # module loader command. # loadmodule() # $1 = module name, $2 - * arguments { local modulename=$1 local modulefile local suffix if ! list_search $modulename $MODULES ; then shift for suffix in $MODULE_SUFFIX ; do for directory in $moduledirectories; do modulefile=$directory/${modulename}.${suffix} if [ -f $modulefile ]; then case $moduleloader in insmod) insmod $modulefile $* ;; *) modprobe $modulename $* ;; esac break 2 fi done done fi } # # Reload the Modules # reload_kernel_modules() { local save_modules_dir=$MODULESDIR local directory local moduledirectories= local moduleloader=modprobe if ! qt mywhich modprobe; then moduleloader=insmod fi [ -z "$MODULESDIR" ] && MODULESDIR=/lib/modules/$(uname -r)/kernel/net/ipv4/netfilter:/lib/modules/$(uname -r)/kernel/net/netfilter MODULES=$(lsmod | cut -d ' ' -f1) for directory in $(split $MODULESDIR); do [ -d $directory ] && moduledirectories="$moduledirectories $directory" done [ -n "$moduledirectories" ] && while read command; do eval $command done MODULESDIR=$save_modules_dir } # # Load kernel modules required for Shorewall # load_kernel_modules() # $1 = Yes, if we are to save moduleinfo in $VARDIR { local save_modules_dir=$MODULESDIR local directory local moduledirectories= local moduleloader=modprobe local savemoduleinfo=${1:-Yes} # So old compiled scripts still work if ! qt mywhich modprobe; then moduleloader=insmod fi [ -z "$MODULESDIR" ] && \ MODULESDIR=/lib/modules/$(uname -r)/kernel/net/ipv4/netfilter:/lib/modules/$(uname -r)/kernel/net/netfilter for directory in $(split $MODULESDIR); do [ -d $directory ] && moduledirectories="$moduledirectories $directory" done modules=$(find_file modules) if [ -f $modules -a -n "$moduledirectories" ]; then MODULES=$(lsmod | cut -d ' ' -f1) progress_message "Loading Modules..." . $modules if [ $savemoduleinfo = Yes ]; then [ -d ${VARDIR} ] || mkdir -p ${VARDIR} echo MODULESDIR="$MODULESDIR" > ${VARDIR}/.modulesdir cp -f $modules ${VARDIR}/.modules fi elif [ $savemoduleinfo = Yes ]; then [ -d ${VARDIR} ] || mkdir -p ${VARDIR} > ${VARDIR}/.modulesdir > ${VARDIR}/.modules fi MODULESDIR=$save_modules_dir } # # Call this function to assert mutual exclusion with Shorewall. If you invoke the # /sbin/shorewall program while holding mutual exclusion, you should pass "nolock" as # the first argument. Example "shorewall nolock refresh" # # This function uses the lockfile utility from procmail if it exists. # Otherwise, it uses a somewhat race-prone algorithm to attempt to simulate the # behavior of lockfile. # mutex_on() { local try=0 local lockf=${VARDIR}/lock MUTEX_TIMEOUT=${MUTEX_TIMEOUT:-60} if [ $MUTEX_TIMEOUT -gt 0 ]; then [ -d ${VARDIR} ] || mkdir -p ${VARDIR} if qt mywhich lockfile; then lockfile -${MUTEX_TIMEOUT} -r1 ${lockf} else while [ -f ${lockf} -a ${try} -lt ${MUTEX_TIMEOUT} ] ; do sleep 1 try=$((${try} + 1)) done if [ ${try} -lt ${MUTEX_TIMEOUT} ] ; then # Create the lockfile echo $$ > ${lockf} else echo "Giving up on lock file ${lockf}" >&2 fi fi fi } # # Call this function to release mutual exclusion # mutex_off() { rm -f ${VARDIR}/lock } # # Load an optional library # lib_load() # $1 = Name of the Library, $2 = Error Message heading if the library cannot be found { local lib=${SHAREDIR}/lib.$1 local loaded eval loaded=\$LIB_${1}_LOADED if [ -z "$loaded" ]; then if [ -f $lib ]; then progress_message "Loading library $lib..." . $lib eval LIB_${1}_LOADED=Yes else startup_error "$2 requires the Shorewall library $1 ($lib) which is not installed" fi fi } # # Determine if an optional library is available # lib_avail() # $1 = Name of the Library { [ -f ${SHAREDIR}/lib.$1 ] } # # Note: The following set of IP address manipulation functions have anomalous # behavior when the shell only supports 32-bit signed arithmatic and # the IP address is 128.0.0.0 or 128.0.0.1. # LEFTSHIFT='<<' # # Validate an IP address # valid_address() { local x y local ifs=$IFS IFS=. for x in $1; do case $x in [0-9]|[0-9][0-9]|[1-2][0-9][0-9]) [ $x -lt 256 ] || { IFS=$ifs; return 2; } ;; *) IFS=$ifs return 2 ;; esac done IFS=$ifs return 0 } # # Convert an IP address in dot quad format to an integer # decodeaddr() { local x local temp=0 local ifs=$IFS IFS=. for x in $1; do temp=$(( $(( $temp $LEFTSHIFT 8 )) | $x )) done echo $temp IFS=$ifs } # # convert an integer to dot quad format # encodeaddr() { addr=$1 local x local y=$(($addr & 255)) for x in 1 2 3 ; do addr=$(($addr >> 8)) y=$(($addr & 255)).$y done echo $y } # # Enumerate the members of an IP range -- When using a shell supporting only # 32-bit signed arithmetic, the range cannot span 128.0.0.0. # # Comes in two flavors: # # ip_range() - produces a mimimal list of network/host addresses that spans # the range. # # ip_range_explicit() - explicitly enumerates the range. # ip_range() { local first last l x y z vlsm case $1 in !*) # # Let iptables complain if it's a range # echo $1 return ;; [0-9]*.*.*.*-*.*.*.*) ;; *) echo $1 return ;; esac first=$(decodeaddr ${1%-*}) last=$(decodeaddr ${1#*-}) if [ $first -gt $last ]; then fatal_error "Invalid IP address range: $1" fi l=$(( $last + 1 )) while [ $first -le $last ]; do vlsm= x=31 y=2 z=1 while [ $(( $first % $y )) -eq 0 -a $(( $first + $y )) -le $l ]; do vlsm=/$x x=$(( $x - 1 )) z=$y y=$(( $y * 2 )) done echo $(encodeaddr $first)$vlsm first=$(($first + $z)) done } ip_range_explicit() { local first last case $1 in [0-9]*.*.*.*-*.*.*.*) ;; *) echo $1 return ;; esac first=$(decodeaddr ${1%-*}) last=$(decodeaddr ${1#*-}) if [ $first -gt $last ]; then fatal_error "Invalid IP address range: $1" fi while [ $first -le $last ]; do echo $(encodeaddr $first) first=$(($first + 1)) done } # # Netmask from CIDR # ip_netmask() { local vlsm=${1#*/} [ $vlsm -eq 0 ] && echo 0 || echo $(( -1 $LEFTSHIFT $(( 32 - $vlsm )) )) } # # Network address from CIDR # ip_network() { local decodedaddr=$(decodeaddr ${1%/*}) local netmask=$(ip_netmask $1) echo $(encodeaddr $(($decodedaddr & $netmask))) } # # The following hack is supplied to compensate for the fact that many of # the popular light-weight Bourne shell derivatives don't support XOR ("^"). # ip_broadcast() { local x=$(( 32 - ${1#*/} )) [ $x -eq 32 ] && echo -1 || echo $(( $(( 1 $LEFTSHIFT $x )) - 1 )) } # # Calculate broadcast address from CIDR # broadcastaddress() { local decodedaddr=$(decodeaddr ${1%/*}) local netmask=$(ip_netmask $1) local broadcast=$(ip_broadcast $1) echo $(encodeaddr $(( $(($decodedaddr & $netmask)) | $broadcast ))) } # # Test for network membership # in_network() # $1 = IP address, $2 = CIDR network { local netmask=$(ip_netmask $2) test $(( $(decodeaddr $1) & $netmask)) -eq $(( $(decodeaddr ${2%/*}) & $netmask )) } # # Netmask to VLSM # ip_vlsm() { local mask=$(decodeaddr $1) local vlsm=0 local x=$(( 128 << 24 )) # 0x80000000 while [ $(( $x & $mask )) -ne 0 ]; do [ $mask -eq $x ] && mask=0 || mask=$(( $mask $LEFTSHIFT 1 )) # Not all shells shift 0x80000000 left properly. vlsm=$(($vlsm + 1)) done if [ $(( $mask & 2147483647 )) -ne 0 ]; then # 2147483647 = 0x7fffffff echo "Invalid net mask: $1" >&2 else echo $vlsm fi } # # Chain name base for an interface -- replace all periods with underscores in the passed name. # The result is echoed (less trailing "+"). # chain_base() #$1 = interface { local c=${1%%+} while true; do case $c in @*) c=at_${c#@} ;; *.*) c="${c%.*}_${c##*.}" ;; *-*) c="${c%-*}_${c##*-}" ;; *%*) c="${c%\%*}_${c##*%}" ;; *@*) c="${c%@*}_${c##*@}" ;; *) echo ${c:=common} return ;; esac done } # # Query NetFilter about the existence of a filter chain # chain_exists() # $1 = chain name { qt $IPTABLES -L $1 -n } # # Find the value 'dev' in the passed arguments then echo the next value # find_device() { while [ $# -gt 1 ]; do [ "x$1" = xdev ] && echo $2 && return shift done } # # Find the value 'via' in the passed arguments then echo the next value # find_gateway() { while [ $# -gt 1 ]; do [ "x$1" = xvia ] && echo $2 && return shift done } # # Find the value 'mtu' in the passed arguments then echo the next value # find_mtu() { while [ $# -gt 1 ]; do [ "x$1" = xmtu ] && echo $2 && return shift done } # # Find the value 'peer' in the passed arguments then echo the next value up to # "/" # find_peer() { while [ $# -gt 1 ]; do [ "x$1" = xpeer ] && echo ${2%/*} && return shift done } # # Find the interfaces that have a route to the passed address - the default # route is not used. # find_rt_interface() { ip route ls | while read addr rest; do case $addr in */*) in_network ${1%/*} $addr && echo $(find_device $rest) ;; default) ;; *) if [ "$addr" = "$1" -o "$addr/32" = "$1" ]; then echo $(find_device $rest) fi ;; esac done } # # Try to find the gateway through an interface looking for 'nexthop' find_nexthop() # $1 = interface { echo $(find_gateway `ip route ls | grep "[[:space:]]nexthop.* $1"`) } # # Find the default route's interface # find_default_interface() { ip route ls | while read first rest; do [ "$first" = default ] && echo $(find_device $rest) && return done } # # Echo the name of the interface(s) that will be used to send to the # passed address # find_interface_by_address() { local dev="$(find_rt_interface $1)" local first rest [ -z "$dev" ] && dev=$(find_default_interface) [ -n "$dev" ] && echo $dev } # # Find the interface with the passed MAC address # find_interface_by_mac() { local mac=$1 first second rest dev ip link ls | while read first second rest; do case $first in *:) dev=$second ;; *) if [ "$second" = $mac ]; then echo ${dev%:} return fi esac done } # # Determine if Interface is up # interface_is_up() { [ -n "$(ip link ls dev $1 | grep -e '[<,]UP[,>]')" ] } # # Find interface address--returns the first IP address assigned to the passed # device # find_first_interface_address() # $1 = interface { # # get the line of output containing the first IP address # addr=$(ip -f inet addr show $1 2> /dev/null | grep 'inet .* global' | head -n1) # # If there wasn't one, bail out now # [ -n "$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/\s*inet //;s/\/.*//;s/ peer.*//' } find_first_interface_address_if_any() # $1 = interface { # # get the line of output containing the first IP address # addr=$(ip -f inet addr show $1 2> /dev/null | grep 'inet .* global' | head -n1) # # Strip off the trailing VLSM mask (or the peer IP in case of a P-t-P link) # along with everything else on the line # [ -n "$addr" ] && echo $addr | sed 's/\s*inet //;s/\/.*//;s/ peer.*//' || echo 0.0.0.0 } # # Determine if interface is usable from a Netfilter prespective # interface_is_usable() # $1 = interface { interface_is_up $1 && [ "$(find_first_interface_address_if_any $1)" != 0.0.0.0 ] } # # Find interface addresses--returns the set of addresses assigned to the passed # device # find_interface_addresses() # $1 = interface { ip -f inet addr show $1 | grep inet\ | sed 's/\s*inet //;s/\/.*//;s/ peer.*//' } # # echo the list of networks routed out of a given interface # get_routed_networks() # $1 = interface name, $2-n = Fatal error message { local address local rest ip route show dev $1 2> /dev/null | while read address rest; do if [ "x$address" = xdefault ]; then if [ $# -gt 1 ]; then shift fatal_error "$@" else "WARNING: default route ignored on interface $1" fi else [ "$address" = "${address%/*}" ] && address="${address}/32" echo $address fi done } # # Internal version of 'which' # mywhich() { local dir for dir in $(split $PATH); do if [ -x $dir/$1 ]; then echo $dir/$1 return 0 fi done return 2 } # # Set default config path # ensure_config_path() { local F=${SHAREDIR}/configpath if [ -z "$CONFIG_PATH" ]; then [ -f $F ] || { echo " ERROR: $F does not exist"; exit 2; } . $F fi if [ -n "$SHOREWALL_DIR" ]; then [ "${CONFIG_PATH%%:*}" = "$SHOREWALL_DIR" ] || CONFIG_PATH=$SHOREWALL_DIR:$CONFIG_PATH fi } # # Find a File -- For relative file name, look in each ${CONFIG_PATH} then ${CONFDIR} # find_file() { local saveifs= directory case $1 in /*) echo $1 ;; *) for directory in $(split $CONFIG_PATH); do if [ -f $directory/$1 ]; then echo $directory/$1 return fi done echo ${CONFDIR}/$1 ;; esac } # # Get fully-qualified name of file # resolve_file() # $1 = file name { local pwd=$PWD case $1 in /*) echo $1 ;; .) echo $pwd ;; ./*) echo ${pwd}${1#.} ;; ..) cd .. echo $PWD cd $pwd ;; ../*) cd .. resolve_file ${1#../} cd $pwd ;; *) echo $pwd/$1 ;; esac } # # Set the Shorewall state # set_state () # $1 = state { echo "$1 ($(date))" > ${VARDIR}/state } # # Determine which optional facilities are supported by iptables/netfilter # determine_capabilities() { qt $IPTABLES -t nat -L -n && NAT_ENABLED=Yes || NAT_ENABLED= qt $IPTABLES -t mangle -L -n && MANGLE_ENABLED=Yes || MANGLE_ENABLED= CONNTRACK_MATCH= MULTIPORT= XMULTIPORT= POLICY_MATCH= PHYSDEV_MATCH= IPRANGE_MATCH= RECENT_MATCH= OWNER_MATCH= IPSET_MATCH= CONNMARK= XCONNMARK= CONNMARK_MATCH= XCONNMARK_MATCH= RAW_TABLE= IPP2P_MATCH= LENGTH_MATCH= CLASSIFY_TARGET= ENHANCED_REJECT= USEPKTTYPE= KLUDGEFREE= MARK= XMARK= MANGLE_FORWARD= COMMENTS= qt $IPTABLES -N fooX1234 qt $IPTABLES -A fooX1234 -m conntrack --ctorigdst 192.168.1.1 -j ACCEPT && CONNTRACK_MATCH=Yes qt $IPTABLES -A fooX1234 -p tcp -m multiport --dports 21,22 -j ACCEPT && MULTIPORT=Yes qt $IPTABLES -A fooX1234 -p tcp -m multiport --dports 21:22 -j ACCEPT && XMULTIPORT=Yes qt $IPTABLES -A fooX1234 -m policy --pol ipsec --mode tunnel --dir in -j ACCEPT && POLICY_MATCH=Yes if qt $IPTABLES -A fooX1234 -m physdev --physdev-in eth0 -j ACCEPT; then PHYSDEV_MATCH=Yes fi if qt $IPTABLES -A fooX1234 -m iprange --src-range 192.168.1.5-192.168.1.124 -j ACCEPT; then IPRANGE_MATCH=Yes if [ -z "${KLUDGEFREE}" ]; then qt $IPTABLES -A fooX1234 -m iprange --src-range 192.168.1.5-192.168.1.124 -m iprange --dst-range 192.168.1.5-192.168.1.124 -j ACCEPT && KLUDGEFREE=Yes fi fi qt $IPTABLES -A fooX1234 -m recent --update -j ACCEPT && RECENT_MATCH=Yes qt $IPTABLES -A fooX1234 -m owner --uid-owner 0 -j ACCEPT && OWNER_MATCH=Yes if qt $IPTABLES -A fooX1234 -m connmark --mark 2 -j ACCEPT; then CONNMARK_MATCH=Yes qt $IPTABLES -A fooX1234 -m connmark --mark 2/0xFF -j ACCEPT && XCONNMARK_MATCH=Yes fi qt $IPTABLES -A fooX1234 -p tcp -m ipp2p --ipp2p -j ACCEPT && IPP2P_MATCH=Yes qt $IPTABLES -A fooX1234 -m length --length 10:20 -j ACCEPT && LENGTH_MATCH=Yes qt $IPTABLES -A fooX1234 -j REJECT --reject-with icmp-host-prohibited && ENHANCED_REJECT=Yes qt $IPTABLES -A fooX1234 -j ACCEPT -m comment --comment "This is a comment" && COMMENTS=Yes if [ -n "$MANGLE_ENABLED" ]; then qt $IPTABLES -t mangle -N fooX1234 if qt $IPTABLES -t mangle -A fooX1234 -j MARK --set-mark 1; then MARK=Yes qt $IPTABLES -t mangle -A fooX1234 -j MARK --and-mark 0xFF && XMARK=Yes fi if qt $IPTABLES -t mangle -A fooX1234 -j CONNMARK --save-mark; then CONNMARK=Yes qt $IPTABLES -t mangle -A fooX1234 -j CONNMARK --save-mark --mask 0xFF && XCONNMARK=Yes fi qt $IPTABLES -t mangle -A fooX1234 -j CLASSIFY --set-class 1:1 && CLASSIFY_TARGET=Yes qt $IPTABLES -t mangle -F fooX1234 qt $IPTABLES -t mangle -X fooX1234 qt $IPTABLES -t mangle -L FORWARD -n && MANGLE_FORWARD=Yes fi qt $IPTABLES -t raw -L -n && RAW_TABLE=Yes if qt mywhich ipset; then qt ipset -X fooX1234 # Just in case something went wrong the last time if qt ipset -N fooX1234 iphash ; then if qt $IPTABLES -A fooX1234 -m set --set fooX1234 src -j ACCEPT; then qt $IPTABLES -D fooX1234 -m set --set fooX1234 src -j ACCEPT IPSET_MATCH=Yes fi qt ipset -X fooX1234 fi fi qt $IPTABLES -A fooX1234 -m pkttype --pkt-type broadcast -j ACCEPT && USEPKTTYPE=Yes qt $IPTABLES -F fooX1234 qt $IPTABLES -X fooX1234 } report_capabilities() { report_capability() # $1 = Capability Description , $2 Capability Setting (if any) { local setting= [ "x$2" = "xYes" ] && setting="Available" || setting="Not available" echo " " $1: $setting } if [ $VERBOSE -gt 1 ]; then echo "Shorewall has detected the following iptables/netfilter capabilities:" report_capability "NAT" $NAT_ENABLED report_capability "Packet Mangling" $MANGLE_ENABLED report_capability "Multi-port Match" $MULTIPORT [ -n "$MULTIPORT" ] && report_capability "Extended Multi-port Match" $XMULTIPORT report_capability "Connection Tracking Match" $CONNTRACK_MATCH report_capability "Packet Type Match" $USEPKTTYPE report_capability "Policy Match" $POLICY_MATCH report_capability "Physdev Match" $PHYSDEV_MATCH report_capability "Packet length Match" $LENGTH_MATCH report_capability "IP range Match" $IPRANGE_MATCH report_capability "Recent Match" $RECENT_MATCH report_capability "Owner Match" $OWNER_MATCH report_capability "Ipset Match" $IPSET_MATCH report_capability "CONNMARK Target" $CONNMARK [ -n "$CONNMARK" ] && report_capability "Extended CONNMARK Target" $XCONNMARK report_capability "Connmark Match" $CONNMARK_MATCH [ -n "$CONNMARK_MATCH" ] && report_capability "Extended Connmark Match" $XCONNMARK_MATCH report_capability "Raw Table" $RAW_TABLE report_capability "IPP2P Match" $IPP2P_MATCH report_capability "CLASSIFY Target" $CLASSIFY_TARGET report_capability "Extended REJECT" $ENHANCED_REJECT report_capability "Repeat match" $KLUDGEFREE report_capability "MARK Target" $MARK [ -n "$MARK" ] && report_capability "Extended MARK Target" $XMARK report_capability "Mangle FORWARD Chain" $MANGLE_FORWARD report_capability "Comments" $COMMENTS fi [ -n "$PKTTYPE" ] || USEPKTTYPE= } report_capabilities1() { report_capability1() # $1 = Capability { eval echo $1=\$$1 } echo "#" echo "# Shorewall $VERSION detected the following iptables/netfilter capabilities - $(date)" echo "#" report_capability1 NAT_ENABLED report_capability1 MANGLE_ENABLED report_capability1 MULTIPORT report_capability1 XMULTIPORT report_capability1 CONNTRACK_MATCH report_capability1 USEPKTTYPE report_capability1 POLICY_MATCH report_capability1 PHYSDEV_MATCH report_capability1 LENGTH_MATCH report_capability1 IPRANGE_MATCH report_capability1 RECENT_MATCH report_capability1 OWNER_MATCH report_capability1 IPSET_MATCH report_capability1 CONNMARK report_capability1 XCONNMARK report_capability1 CONNMARK_MATCH report_capability1 XCONNMARK_MATCH report_capability1 RAW_TABLE report_capability1 IPP2P_MATCH report_capability1 CLASSIFY_TARGET report_capability1 ENHANCED_REJECT report_capability1 KLUDGEFREE report_capability1 MARK report_capability1 XMARK report_capability1 MANGLE_FORWARD report_capability1 COMMENTS } # # Delete IP address # del_ip_addr() # $1 = address, $2 = interface { [ $(find_first_interface_address_if_any $2) = $1 ] || qt ip addr del $1 dev $2 } # Add IP Aliases # add_ip_aliases() # $* = List of addresses { local addresses external interface inet cidr rest val arping=$(mywhich arping) address_details() { # # 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 an existing address in the same networks # # Get all of the lines that contain inet addresses with broadcast # ip -f inet addr show $interface 2> /dev/null | grep 'inet.*brd' | while read inet cidr rest ; do case $cidr in */*) if in_network $external $cidr; then echo "/${cidr#*/} brd $(broadcastaddress $cidr)" break fi ;; esac done } do_one() { val=$(address_details) ip addr add ${external}${val} dev $interface $label [ -n "$arping" ] && qt $arping -U -c 2 -I $interface $external echo "$external $interface" >> $STATEDIR/nat [ -n "$label" ] && label="with $label" progress_message " IP Address $external added to interface $interface $label" } progress_message "Adding IP Addresses..." while [ $# -gt 0 ]; do external=$1 interface=$2 label= if [ "$interface" != "${interface%:*}" ]; then label="${interface#*:}" interface="${interface%:*}" label="label $interface:$label" fi shift 2 list_search $external $(find_interface_addresses $interface) || do_one done } detect_gateway() # $1 = interface { local interface=$1 # # First assume that this is some sort of point-to-point interface # gateway=$( find_peer $(ip addr ls $interface ) ) # # Maybe there's a default route through this gateway already # [ -n "$gateway" ] || gateway=$(find_gateway $(ip route ls dev $interface)) # # Last hope -- is there a load-balancing route through the interface? # [ -n "$gateway" ] || gateway=$(find_nexthop $interface) # # Be sure we found one # [ -n "$gateway" ] && echo $gateway } # # Disable IPV6 # disable_ipv6() { local foo="$(ip -f inet6 addr ls 2> /dev/null)" if [ -n "$foo" ]; then if qt mywhich ip6tables; then ip6tables -P FORWARD DROP ip6tables -P INPUT DROP ip6tables -P OUTPUT DROP ip6tables -F ip6tables -X ip6tables -A OUTPUT -o lo -j ACCEPT ip6tables -A INPUT -i lo -j ACCEPT else error_message "WARNING: DISABLE_IPV6=Yes in shorewall.conf but this system does not appear to have ip6tables" fi fi } # # Add a logging rule. # do_log_rule_limit() # $1 = log level, $2 = chain, $3 = display Chain $4 = disposition , $5 = rate limit $6=log tag $7=command $... = predicates for the rule { local level=$1 local chain=$2 local displayChain=$3 local disposition=$4 local rulenum= local limit= local tag= local command= local prefix local base=$(chain_base $displayChain) local pf limit="${5:-$LOGLIMIT}" # Do this here rather than in the declaration above to appease /bin/ash. tag=${6:+$6 } command=${7:--A} shift 7 if [ -n "$tag" -a -n "$LOGTAGONLY" ]; then displayChain=$tag tag= fi if [ -n "$LOGRULENUMBERS" ]; then # # Hack for broken printf on some lightweight shells # [ $(printf "%d" 1) = "1" ] && pf=printf || pf=$(mywhich printf) eval rulenum=\$${base}_logrules rulenum=${rulenum:-1} prefix="$($pf "$LOGFORMAT" $displayChain $rulenum $disposition)${tag}" rulenum=$(($rulenum + 1)) eval ${base}_logrules=$rulenum else prefix="$(printf "$LOGFORMAT" $displayChain $disposition)${tag}" fi if [ ${#prefix} -gt 29 ]; then prefix="$(echo $prefix | truncate 29)" error_message "WARNING: Log Prefix shortened to \"$prefix\"" fi case $level in ULOG) $IPTABLES $command $chain $@ $limit -j ULOG $LOGPARMS --ulog-prefix "$prefix" ;; *) $IPTABLES $command $chain $@ $limit -j LOG $LOGPARMS --log-level $level --log-prefix "$prefix" ;; esac if [ $? -ne 0 ] ; then [ -z "$STOPPING" ] && { stop_firewall; exit 2; } fi } do_log_rule() # $1 = log level, $2 = chain, $3 = disposition , $... = predicates for the rule { local level=$1 local chain=$2 local disposition=$3 shift 3 do_log_rule_limit $level $chain $chain $disposition "$LOGLIMIT" "" -A $@ } delete_tc1() { 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 } # # Detect a device's MTU # get_device_mtu() # $1 = device { local output="$(ip link ls dev $1 2> /dev/null)" # quotes required for /bin/ash if [ -n "$output" ]; then echo $(find_mtu $output) else echo 1500 fi } # # Undo changes to routing # undo_routing() { if [ -z "$NOROUTES" ]; then # # Restore rt_tables database # if [ -f ${VARDIR}/rt_tables ]; then cp -f ${VARDIR}/rt_tables /etc/iproute2/ && progress_message "/etc/iproute2/rt_tables database restored" rm -f ${VARDIR}/rt_tables fi # # Restore the rest of the routing table # if [ -f ${VARDIR}/undo_routing ]; then . ${VARDIR}/undo_routing progress_message "Shorewall-generated routing tables and routing rules removed" rm -f ${VARDIR}/undo_routing fi fi } restore_default_route() { if [ -z "$NOROUTES" -a -f ${VARDIR}/default_route ]; then local default_route= route while read route ; do case $route in default*) if [ -n "$default_route" ]; then case "$default_route" in *metric*) # # Don't restore a route with a metric -- we only replace the one with metric == 0 # qt ip route delete default metric 0 && \ progress_message "Default Route with metric 0 deleted" ;; *) qt ip route replace $default_route && \ progress_message "Default Route (${default_route# }) restored" ;; esac break fi default_route="$default_route $route" ;; *) default_route="$default_route $route" ;; esac done < ${VARDIR}/default_route rm -f ${VARDIR}/default_route fi } # # Determine how to do "echo -e" # find_echo() { local result result=$(echo "a\tb") [ ${#result} -eq 3 ] && { echo echo; return; } result=$(echo -e "a\tb") [ ${#result} -eq 3 ] && { echo "echo -e"; return; } result=$(which echo) [ -n "$result" ] && { echo "$result -e"; return; } echo echo }