shorewall_code/Shorewall2/firewall

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#!/bin/sh
#
# The Shoreline Firewall (Shorewall) Packet Filtering Firewall - V2.1
#
# This program is under GPL [http://www.gnu.org/copyleft/gpl.htm]
#
# (c) 1999,2000,2001,2002,2003,2004 - 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
#
# 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.
#
# Mutual exclusion -- These functions are jackets for the mutual exclusion
# routines in $FUNCTIONS. They invoke
# the corresponding function in that file if the user did
# not specify "nolock" on the runline.
#
my_mutex_on() {
[ -n "$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 " Error: $@" >&2
if [ $COMMAND = check ]; then
[ -n "$TMP_DIR" ] && rm -rf $TMP_DIR
else
stop_firewall
fi
exit 2
}
#
# Fatal error during startup -- generate an error message and abend with
# altering the state of the firewall
#
startup_error() # $* = Error Message
{
echo " Error: $@" >&2
my_mutex_off
[ -n "$TMP_DIR" ] && rm -rf $TMP_DIR
[ -n "$RESTOREBASE" ] && rm -f $RESTOREBASE
kill $$
exit 2
}
#
# Send a message to STDOUT and the System Log
#
report () { # $* = message
echo "$@"
logger "$@"
}
#
# Write the passed args to $RESTOREBASE
#
save_command()
{
echo "$@" >> $RESTOREBASE
}
#
# Write a progress_message command to $RESTOREBASE
#
save_progress_message()
{
echo >> $RESTOREBASE
echo "progress_message \"$@\"" >> $RESTOREBASE
echo >> $RESTOREBASE
}
#
# Save the passed command in the restore script then run it -- returns the status of the command
# If the command involves file redirection then it must be enclosed in quotes as in:
#
# run_and_save_command "echo 1 > /proc/sys/net/ipv4/ip_forward"
#
run_and_save_command()
{
echo "$@" >> $RESTOREBASE
eval $*
}
#
# Run the passed command and if it succeeds, save it in the restore script. If it fails, stop the firewall and die
#
ensure_and_save_command()
{
if eval $* ; then
echo "$@" >> $RESTOREBASE
else
[ -z "$stopping" ] && { stop_firewall; exit 2; }
fi
}
#
# Append a file in $STATEDIR to $RESTOREBASE
#
append_file() # $1 = File Name
{
save_command "cat > $STATEDIR/$1 << __EOF__"
cat $STATEDIR/$1 >> $RESTOREBASE
save_command __EOF__
}
#
# Run iptables and if an error occurs, stop the firewall and quit
#
run_iptables() {
[ -n "$BRIDGING" ] && [ -f $TMP_DIR/physdev ] && rm -f $TMP_DIR/physdev
[ -n "$IPRANGE_MATCH" ] && [ -f $TMP_DIR/iprange ] && rm -f $TMP_DIR/iprange
if ! iptables $@ ; then
if [ -z "$stopping" ]; then
error_message "ERROR: Command \"iptables $@\" Failed"
stop_firewall
exit 2
fi
fi
}
#
# Version of 'run_iptables' that inserts white space after "!" in the arg list
#
run_iptables2() {
case "$@" in
*!*)
run_iptables $(fix_bang $@)
;;
*)
run_iptables $@
;;
esac
}
#
# Run ip and if an error occurs, stop the firewall and quit
#
run_ip() {
if ! ip $@ ; then
if [ -z "$stopping" ]; then
error_message "ERROR: Command \"ip $@\" Failed"
stop_firewall
exit 2
fi
fi
}
#
# Run tc and if an error occurs, stop the firewall and quit
#
run_tc() {
if ! tc $@ ; then
if [ -z "$stopping" ]; then
error_message "ERROR: Command \"tc $@\" Failed"
stop_firewall
exit 2
fi
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 exists_${1} and set its value to Yes to indicate that the chain now
# exists.
#
createchain() # $1 = chain name, $2 = If "yes", create default rules
{
local c=$(chain_base $1)
run_iptables -N $1
if [ $2 = yes ]; then
run_iptables -A $1 -m state --state ESTABLISHED,RELATED -j ACCEPT
[ -z "$NEWNOTSYN" ] && \
run_iptables -A $1 -m state --state NEW -p tcp ! --syn -j newnotsyn
fi
eval exists_${c}=Yes
}
createchain2() # $1 = chain name, $2 = If "yes", create default rules
{
local c=$(chain_base $1)
if iptables -N $1; then
if [ $2 = yes ]; then
run_iptables -A $1 -m state --state ESTABLISHED,RELATED -j ACCEPT
[ -z "$NEWNOTSYN" ] && \
run_iptables -A $1 -m state --state NEW -p tcp ! --syn -j newnotsyn
fi
eval exists_${c}=Yes
fi
}
#
# Determine if a chain exists
#
# When we create a chain "chain", we create a variable named exists_chain 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
{
local c=$(chain_base $1)
eval test \"\$exists_${c}\" = Yes
}
#
# Query NetFilter about the existence of a filter chain
#
chain_exists() # $1 = chain name
{
qt iptables -L $1 -n
}
#
# Query NetFilter about the existence of a mangle chain
#
mangle_chain_exists() # $1 = chain name
{
qt iptables -t mangle -L $1 -n
}
#
# Ensure that a chain exists (create it if it doesn't)
#
ensurechain() # $1 = chain name
{
havechain $1 || createchain $1 yes
}
ensurechain1() # $1 = chain name
{
havechain $1 || createchain $1 no
}
#
# 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 $@
}
addrule2() # $1 = chain name, remainder of arguments specify the rule
{
ensurechain $1
run_iptables2 -A $@
}
#
# Create a nat chain
#
# Create a variable exists_nat_${1} and set its value to Yes to indicate that
# the chain now exists.
#
createnatchain() # $1 = chain name
{
run_iptables -t nat -N $1
eval exists_nat_${1}=Yes
}
#
# Determine if a nat chain exists
#
# When we create a chain "chain", we create a variable named exists_nat_chain
# 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 \"\$exists_nat_${1}\" = Yes
}
#
# Ensure that a nat 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_iptables2 -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
}
#
# Determine if a chain is a policy chain
#
is_policy_chain() # $1 = name of chain
{
eval test \"\$${1}_is_policy\" = Yes
}
#
# 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
}
#
# Find interfaces to a given zone
#
# Search the variables representing the contents of 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
local z
local interface
for interface in $ALL_INTERFACES; do
eval z=\$$(chain_base $interface)_zone
[ "x${z}" = x${zne} ] && echo $interface
done
}
#
# 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
}
#
# MAC Verification Chain for an interface
#
mac_chain() # $1 = interface
{
echo $(chain_base $1)_mac
}
#
# Functions for creating dynamic zone rules
#
dynamic_fwd() # $1 = interface
{
echo $(chain_base $1)_dynf
}
dynamic_in() # $1 = interface
{
echo $(chain_base $1)_dyni
}
dynamic_out() # $1 = interface
{
echo $(chain_base $1)_dyno
}
dynamic_chains() #$1 = interface
{
local c=$(chain_base $1)
echo ${c}_dyni ${c}_dynf ${c}_dyno
}
#
# DNAT Chain from a zone
#
dnat_chain() # $1 = zone
{
echo ${1}_dnat
}
#
# SNAT Chain to a zone or from an interface
#
snat_chain() # $1 = zone or interface
{
echo $(chain_base $1)_snat
}
#
# ECN Chain to an interface
#
ecn_chain() # $1 = interface
{
echo $(chain_base $1)_ecn
}
#
# First chains for an interface
#
first_chains() #$1 = interface
{
local c=$(chain_base $1)
echo ${c}_fwd ${c}_in
}
#
# Horrible hack to work around an iptables limitation
#
iprange_echo()
{
if [ -f $TMP_DIR/iprange ]; then
echo $@
else
echo "-m iprange $@"
> $TMP_DIR/iprange
fi
}
#
# Source IP range
#
source_ip_range() # $1 = Address or Address Range
{
case $1 in
*.*.*.*-*.*.*.*)
case $1 in
!*)
iprange_echo "! --src-range ${1#!}"
;;
*)
iprange_echo "--src-range $1"
;;
esac
;;
*)
echo "-s $1"
;;
esac
}
#
# Destination IP range
#
dest_ip_range() # $1 = Address or Address Range
{
case $1 in
*.*.*.*-*.*.*.*)
case $1 in
!*)
iprange_echo "! --dst-range ${1#!}"
;;
*)
iprange_echo "--dst-range $1"
;;
esac
;;
*)
echo "-d $1"
;;
esac
}
both_ip_ranges() # $1 = Source address or range, $2 = dest address or range
{
local prefix= match=
case $1 in
*.*.*.*-*.*.*.*)
prefix="-m iprange"
match="--src-range $1"
;;
*)
match="-s $1"
;;
esac
case $2 in
*.*.*.*-*.*.*.*)
prefix="-m iprange"
match="$match --dst-range $2"
;;
*)
match="$match -d $2"
;;
esac
echo "$prefix $match"
}
#
# Horrible hack to work around an iptables limitation
#
physdev_echo()
{
if [ -f $TMP_DIR/physdev ]; then
echo $@
else
echo -m physdev $@
> $TMP_DIR/physdev
fi
}
#
# We allow hosts to be specified by IP address or by physdev. These two functions
# are used to produce the proper match in a netfilter rule.
#
match_source_hosts()
{
if [ -n "$BRIDGING" ]; then
case $1 in
*:*)
physdev_echo "--physdev-in ${1%:*} $(source_ip_range ${1#*:})"
;;
*.*.*.*)
echo $(source_ip_range $1)
;;
*)
physdev_echo "--physdev-in $1"
;;
esac
else
echo $(source_ip_range $1)
fi
}
match_dest_hosts()
{
if [ -n "$BRIDGING" ]; then
case $1 in
*:*)
physdev_echo "--physdev-out ${1%:*} $(dest_ip_range ${1#*:})"
;;
*.*.*.*)
echo $(dest_ip_range $1)
;;
*)
physdev_echo "--physdev-out $1"
;;
esac
else
echo $(dest_ip_range $1)
fi
}
#
# Similarly, the source or destination in a rule can be qualified by a device name. If
# the device is defined in /etc/shorewall/interfaces then a normal interface match is
# generated (-i or -o); otherwise, a physdev match is generated.
#-------------------------------------------------------------------------------------
#
# loosely match the passed interface with those in /etc/shorewall/interfaces.
#
known_interface() # $1 = interface name
{
local iface
for iface in $ALL_INTERFACES ; do
if if_match $iface $1 ; then
return 0
fi
done
return 1
}
match_source_dev()
{
if [ -n "$BRIDGING" ]; then
list_search $1 $all_ports && physdev_echo "--physdev-in $1" || echo -i $1
else
echo -i $1
fi
}
match_dest_dev()
{
if [ -n "$BRIDGING" ]; then
list_search $1 $all_ports && physdev_echo "--physdev-out $1" || echo -o $1
else
echo -o $1
fi
}
verify_interface()
{
known_interface $1 || { [ -n "$BRIDGING" ] && list_search $1 $all_ports ; }
}
#
# Determine if communication to/from a host is encrypted using IPSEC
#
is_ipsec_host() # $1 = zone, $2 = host
{
eval local is_ipsec=\$${1}_is_ipsec
eval local hosts=\"\$${1}_ipsec_hosts\"
test -n "$is_ipsec" || list_search $2 $hosts
}
#
# Generate a match for decrypted packets
#
match_ipsec_in() # $1 = zone, $2 = host
{
if is_ipsec_host $1 $2 ; then
eval local options=\"\$${1}_ipsec_options \$${1}_ipsec_in_options\"
echo "-m policy --pol ipsec --dir in $options"
elif [ -n "$POLICY_MATCH" ]; then
echo "-m policy --pol none --dir in"
fi
}
#
# Generate a match for packets that will be encrypted
#
match_ipsec_out() # $1 = zone, $2 = host
{
if is_ipsec_host $1 $2 ; then
eval local options=\"\$${1}_ipsec_options \$${1}_ipsec_out_options\"
echo "-m policy --pol ipsec --dir out $options"
elif [ -n "$POLICY_MATCH" ]; then
echo "-m policy --pol none --dir out"
fi
}
#
# Jacket for ip_range() that takes care of iprange match
#
firewall_ip_range() # $1 = IP address or range
{
[ -n "$IPRANGE_MATCH" ] && echo $1 || ip_range $1
}
#
#
# 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 interface address addresses
while read z hosts options; do
if [ "x$(expand $z)" = "x$1" ]; then
expandv hosts
interface=${hosts%%:*}
addresses=${hosts#*:}
for address in $(separate_list $addresses); do
echo $interface:$address
done
fi
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 if an interface has a given option
#
interface_has_option() # $1 = interface, #2 = option
{
local options
eval options=\$$(chain_base $1)_options
list_search $2 $options
}
#
# Determine the defined hosts in each zone and generate report
#
determine_hosts() {
for zone in $zones; do
hosts=$(find_hosts $zone)
hosts=$(echo $hosts) # Remove extra trash
eval interfaces=\$${zone}_interfaces
for interface in $interfaces; do
if interface_has_option $interface detectnets; then
networks=$(get_routed_networks $interface)
else
networks=0.0.0.0/0
fi
for networks in $networks; do
if [ -z "$hosts" ]; then
hosts=$interface:$networks
else
hosts="$hosts $interface:$networks"
fi
if interface_has_option $interface routeback; then
eval ${zone}_routeback=\"$interface:$networks \$${zone}_routeback\"
fi
done
done
interfaces=
for host in $hosts; do
interface=${host%:*}
if list_search $interface $interfaces; then
list_search $interface:0.0.0.0/0 $hosts && \
startup_error "Invalid zone definition for zone $zone"
list_search $interface:0/0 $hosts && \
startup_error "Invalid zone definition for zone $zone"
eval ${zone}_is_complex=Yes
else
if [ -z "$interfaces" ]; then
interfaces=$interface
else
interfaces="$interfaces $interface"
fi
fi
done
eval ${zone}_interfaces="\$interfaces"
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
}
#
# Ensure that the passed zone is defined in the zones file.
#
validate_zone1() # $1 = zone
{
list_search $1 $zones
}
#
# Validate the zone names and options in the interfaces file
#
validate_interfaces_file() {
local wildcard
local found_obsolete_option=
local z interface networks options r iface option
while read z interface networks options; do
expandv z interface networks options
r="$z $interface $networks $options"
[ "x$z" = "x-" ] && z=
if [ -n "$z" ]; then
validate_zone $z || startup_error "Invalid zone ($z) in record \"$r\""
fi
list_search $interface $ALL_INTERFACES && \
startup_error "Duplicate Interface $interface"
wildcard=
case $interface in
*:*|+)
startup_error "Invalid Interface Name: $interface"
;;
*+)
wildcard=Yes
;;
esac
ALL_INTERFACES="$ALL_INTERFACES $interface"
options=$(separate_list $options)
iface=$(chain_base $interface)
eval ${iface}_broadcast="$networks"
eval ${iface}_zone="$z"
eval ${iface}_options=\"$options\"
for option in $options; do
case $option in
dhcp|norfc1918|nobogons|tcpflags|newnotsyn|arp_filter|routefilter|logmartians|sourceroute|blacklist|proxyarp|maclist|nosmurfs|-)
;;
detectnets)
[ -n "$wildcard" ] && \
startup_error "The \"detectnets\" option may not be used with a wild-card interface"
;;
routeback)
[ -n "$z" ] || startup_error "The routeback option may not be specified on a multi-zone interface"
;;
*)
error_message "Warning: Invalid option ($option) in record \"$r\""
;;
esac
done
[ -z "$ALL_INTERFACES" ] && startup_error "No Interfaces Defined"
done < $TMP_DIR/interfaces
}
#
# Validate the zone names and options in the hosts file
#
validate_hosts_file() {
local z hosts options r interface host option port ports
check_bridge_port()
{
list_search $1 $ports || ports="$ports $1"
list_search ${interface}:${1} $zports || zports="$zports ${interface}:${1}"
list_search $1 $all_ports || all_ports="$all_ports $1"
}
while read z hosts options; do
expandv z hosts options
r="$z $hosts $options"
validate_zone1 $z || startup_error "Invalid zone ($z) in record \"$r\""
interface=${hosts%%:*}
iface=$(chain_base $interface)
list_search $interface $ALL_INTERFACES || \
startup_error "Unknown interface ($interface) in record \"$r\""
hosts=${hosts#*:}
eval ports=\$${iface}_ports
eval zports=\$${z}_ports
for host in $(separate_list $hosts); do
if [ -n "$BRIDGING" ]; then
case $host in
*:*)
known_interface ${host%:*} && \
startup_error "Bridged interfaces may not be defined in /etc/shorewall/interfaces: $host"
check_bridge_port ${host%%:*}
;;
*.*.*.*)
;;
*)
known_interface $host && \
startup_error "Bridged interfaces may not be defined in /etc/shorewall/interfaces: $host"
check_bridge_port $host
;;
esac
fi
for option in $(separate_list $options) ; do
case $option in
maclist|norfc1918|nobogons|blacklist|tcpflags|nosmurfs|newnotsyn|-)
;;
ipsec)
[ -n "$POLICY_MATCH" ] || \
startup_error "Your kernel and/or iptables does not support policy match: ipsec"
eval ${z}_ipsec_hosts=\"\$${z}_ipsec_hosts $interface:$host\"
eval ${z}_is_complex=Yes
;;
routeback)
[ -z "$ports" ] && \
eval ${z}_routeback=\"$interface:$host \$${z}_routeback\"
;;
*)
error_message "Warning: Invalid option ($option) in record \"$r\""
;;
esac
done
done
if [ -n "$ports" ]; then
eval ${iface}_ports=\"$ports\"
eval ${z}_ports=\"$zports\"
fi
done < $TMP_DIR/hosts
[ -n "$all_ports" ] && echo " Bridge ports are: $all_ports"
}
#
# 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 the policy file
#
validate_policy()
{
local clientwild
local serverwild
local zone
local zone1
local pc
local chain
local policy
local loglevel
local synparams
print_policy() # $1 = source zone, $2 = destination zone
{
[ $COMMAND != check ] || \
[ $1 = $2 ] || \
[ $1 = all ] || \
[ $2 = all ] || \
progress_message " Policy for $1 to $2 is $policy using chain $chain"
}
all_policy_chains=
strip_file policy
while read client server policy loglevel synparams; do
expandv client server policy loglevel synparams
clientwild=
serverwild=
case "$client" in
all|ALL)
clientwild=Yes
;;
*)
if ! validate_zone $client; then
startup_error "Undefined zone $client"
fi
esac
case "$server" in
all|ALL)
serverwild=Yes
;;
*)
if ! validate_zone $server; then
startup_error "Undefined zone $server"
fi
esac
case $policy in
ACCEPT|REJECT|DROP|CONTINUE)
;;
NONE)
[ "$client" = "$FW" -o "$server" = "$FW" ] && \
startup_error " $client $server $policy $loglevel $synparams: NONE policy not allowed to/from the $FW zone"
[ -n "$clientwild" -o -n "$serverwild" ] && \
startup_error " $client $server $policy $loglevel $synparams: NONE policy not allowed with \"all\""
;;
*)
startup_error "Invalid policy $policy"
;;
esac
chain=${client}2${server}
if is_policy_chain $chain ; then
startup_error "Duplicate policy $policy"
fi
[ "x$loglevel" = "x-" ] && loglevel=
[ $policy = NONE ] || all_policy_chains="$all_policy_chains $chain"
eval ${chain}_is_policy=Yes
eval ${chain}_policy=$policy
eval ${chain}_loglevel=$loglevel
eval ${chain}_synparams=$synparams
if [ -n "${clientwild}" ]; then
if [ -n "${serverwild}" ]; then
for zone in $zones $FW all; do
for zone1 in $zones $FW all; do
eval pc=\$${zone}2${zone1}_policychain
if [ -z "$pc" ]; then
eval ${zone}2${zone1}_policychain=$chain
eval ${zone}2${zone1}_policy=$policy
print_policy $zone $zone1
fi
done
done
else
for zone in $zones $FW all; do
eval pc=\$${zone}2${server}_policychain
if [ -z "$pc" ]; then
eval ${zone}2${server}_policychain=$chain
eval ${zone}2${server}_policy=$policy
print_policy $zone $server
fi
done
fi
elif [ -n "$serverwild" ]; then
for zone in $zones $FW all; do
eval pc=\$${client}2${zone}_policychain
if [ -z "$pc" ]; then
eval ${client}2${zone}_policychain=$chain
eval ${client}2${zone}_policy=$policy
print_policy $client $zone
fi
done
else
eval ${chain}_policychain=${chain}
print_policy $client $server
fi
done < $TMP_DIR/policy
}
#
# Find broadcast addresses
#
find_broadcasts() {
for interface in $ALL_INTERFACES; do
eval bcast=\$$(chain_base $interface)_broadcast
if [ "x$bcast" = "xdetect" ]; then
ip -f inet addr show $interface 2> /dev/null | grep 'inet.*brd' | sed 's/inet.*brd //; s/scope.*//;' | sort -u
elif [ "x${bcast}" != "x-" ]; then
echo $(separate_list $bcast)
fi
done
}
#
# 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 | 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
{
for interface in $ALL_INTERFACES; do
eval options=\$$(chain_base $interface)_options
list_search $1 $options && echo $interface
done
}
#
# Find hosts with the passed option
#
find_hosts_by_option() # $1 = option
{
local ignore hosts interface address addresses options ipsec= list
while read ignore hosts options; do
expandv options
list=$(separate_list $options)
if list_search $1 $list; then
list_search ipsec $list && ipsec=ipsec || ipsec=none
expandv hosts
interface=${hosts%%:*}
addresses=${hosts#*:}
for address in $(separate_list $addresses); do
echo ${ipsec}^$interface:$address
done
fi
done < $TMP_DIR/hosts
for interface in $ALL_INTERFACES; do
interface_has_option $interface $1 && \
echo none^${interface}:0.0.0.0/0
done
}
#
# 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
progress_message "Processing $user_exit ..."
. $user_exit
fi
}
#
# Add a logging rule.
#
log_rule_limit() # $1 = log level, $2 = chain, $3 = display Chain $4 = disposition , $5 = rate limit $6=log tag $... = predicates for the rule
{
local level=$1
local chain=$2
local displayChain=$3
local disposition=$4
local rulenum=
local limit="${5:-$LOGLIMIT}"
local tag=${6:+$6 }
local prefix
local base=$(chain_base $displayChain)
shift;shift;shift;shift;shift
if [ -n "$tag" -a -n "$LOGTAGONLY" ]; then
displayChain=$tag
tag=
fi
if [ -n "$LOGRULENUMBERS" ]; then
eval rulenum=\$${base}_logrules
rulenum=${rulenum:-1}
prefix="$(printf "$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 -A $chain $@ $limit -j ULOG $LOGPARMS --ulog-prefix "$prefix"
;;
*)
iptables -A $chain $@ $limit -j LOG $LOGPARMS --log-level $level --log-prefix "$prefix"
;;
esac
if [ $? -ne 0 ] ; then
[ -z "$stopping" ] && { stop_firewall; exit 2; }
fi
}
log_rule() # $1 = log level, $2 = chain, $3 = disposition , $... = predicates for the rule
{
local level=$1
local chain=$2
local disposition=$3
shift;shift;shift
log_rule_limit $level $chain $chain $disposition "$LOGLIMIT" "" $@
}
#
# Set /proc/sys/net/ipv4/ip_forward based on $IP_FORWARDING
#
setup_forwarding() {
save_progress_message "Restoring IP Forwarding..."
case "$IP_FORWARDING" in
[Oo][Nn])
run_and_save_command "echo 1 > /proc/sys/net/ipv4/ip_forward"
echo "IP Forwarding Enabled"
;;
[Oo][Ff][Ff])
run_and_save_command "echo 0 > /proc/sys/net/ipv4/ip_forward"
echo "IP Forwarding Disabled!"
;;
esac
}
#
# Disable IPV6
#
disable_ipv6() {
local foo="$(ip -f inet6 addr ls 2> /dev/null)"
if [ -n "$foo" ]; then
if qt which ip6tables; then
save_progress_message "Disabling IPV6..."
ip6tables -P FORWARD DROP && save_command ip6tables -P FORWARD DROP
ip6tables -P INPUT DROP && save_command ip6tables -P INPUT DROP
ip6tables -P OUTPUT DROP && save_command ip6tables -P OUTPUT DROP
else
error_message "WARNING: DISABLE_IPV6=Yes in shorewall.conf but this system does not appear to have ip6tables"
fi
fi
}
disable_ipv6_1() {
local foo=$(ip -f inet6 addr ls 2> /dev/null)
if [ -n "$foo" ]; then
if qt which ip6tables; then
progress_message "Disabling IPV6..."
ip6tables -P FORWARD DROP
ip6tables -P INPUT DROP
ip6tables -P OUTPUT DROP
else
error_message "WARNING: DISABLE_IPV6=Yes in shorewall.conf but this system does not appear to have ip6tables"
fi
fi
}
#
# Stop the Firewall
#
stop_firewall() {
#
# Turn off trace unless we were tracing "stop" or "clear"
#
[ -n "$RESTOREBASE" ] && rm -f $RESTOREBASE
case $COMMAND in
stop|clear)
;;
check)
kill $$
exit 2
;;
*)
set +x
[ -z "$RESTOREFILE" ] && RESTOREFILE=restore
RESTOREPATH=/var/lib/shorewall/$RESTOREFILE
if [ -x $RESTOREPATH ]; then
echo Restoring Shorewall...
$RESTOREPATH
echo "Shorewall restored from $RESTOREPATH"
my_mutex_off
kill $$
exit 2
fi
;;
esac
stopping="Yes"
terminator=
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 "$CLEAR_TC" ] && delete_tc1
[ -n "$DISABLE_IPV6" ] && disable_ipv6_1
if [ -z "$ADMINISABSENTMINDED" ]; then
for chain in INPUT OUTPUT FORWARD; do
setpolicy $chain DROP
done
deleteallchains
else
for chain in INPUT FORWARD; do
setpolicy $chain DROP
done
setpolicy OUTPUT ACCEPT
deleteallchains
for chain in INPUT FORWARD; do
setcontinue $chain
done
fi
hosts=
strip_file routestopped
while read interface host options; do
expandv interface host options
[ "x$host" = "x-" -o -z "$host" ] && host=0.0.0.0/0
for h in $(separate_list $host); do
hosts="$hosts $interface:$h"
done
routeback=
if [ -n "$options" ]; then
for option in $(separate_list $options); do
case $option in
routeback)
if [ -n "$routeback" ]; then
error_message "Warning: Duplicate option ignored: routeback"
else
routeback=Yes
for h in $(separate_list $host); do
iptables -A FORWARD -i $interface -o $interface $(both_ip_ranges $h $h) -j ACCEPT
done
fi
;;
*)
error_message "Warning: Unknown option ignored: $option"
;;
esac
done
fi
done < $TMP_DIR/routestopped
for host in $hosts; do
interface=${host%:*}
networks=${host#*:}
iptables -A INPUT -i $interface $(source_ip_range $networks) -j ACCEPT
[ -z "$ADMINISABSENTMINDED" ] && \
iptables -A OUTPUT -o $interface $(dest_ip_range $networks) -j ACCEPT
for host1 in $hosts; do
[ "$host" != "$host1" ] && iptables -A FORWARD -i $interface -o ${host1%:*} $(both_ip_ranges $networks ${host1#*:}) -j ACCEPT
done
done
iptables -A INPUT -i lo -j ACCEPT
[ -z "$ADMINISABSENTMINDED" ] && \
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
[ -z "$ADMINISABSENTMINDED" ] && \
iptables -A OUTPUT -p udp -o $interface --dport 67:68 -j ACCEPT
#
# This might be a bridge
#
iptables -A FORWARD -p udp -i $interface -o $interface --dport 67:68 -j ACCEPT
done
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
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
if qt which ip6tables; then
ip6tables -P INPUT ACCEPT 2> /dev/null
ip6tables -P OUTPUT ACCEPT 2> /dev/null
ip6tables -P FORWARD ACCEPT 2> /dev/null
fi
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 = Tunnel Kind $3 = gateway zones
{
local kind=$2 noah=
case $kind in
*:*)
noah=${kind#*:}
[ $noah = noah -o $noah = NOAH ] || fatal_error "Invalid IPSEC modifier $noah in tunnel \"$tunnel\""
kind=${kind%:*}
;;
esac
[ $kind = IPSEC ] && kind=ipsec
options="-m state --state NEW -j ACCEPT"
addrule2 $inchain -p 50 $(source_ip_range $1) -j ACCEPT
addrule2 $outchain -p 50 $(dest_ip_range $1) -j ACCEPT
if [ -z "$noah" ]; then
run_iptables -A $inchain -p 51 $(source_ip_range $1) -j ACCEPT
run_iptables -A $outchain -p 51 $(dest_ip_range $1) -j ACCEPT
fi
run_iptables -A $outchain -p udp $(dest_ip_range $1) --dport 500 $options
if [ $kind = ipsec ]; then
run_iptables -A $inchain -p udp $(source_ip_range $1) --dport 500 $options
else
run_iptables -A $inchain -p udp $(source_ip_range $1) --dport 500 $options
run_iptables -A $inchain -p udp $(source_ip_range $1) --dport 4500 $options
fi
for z in $(separate_list $3); do
if validate_zone $z; then
addrule ${FW}2${z} -p udp --dport 500 $options
if [ $kind = ipsec ]; then
addrule ${z}2${FW} -p udp --dport 500 $options
else
addrule ${z}2${FW} -p udp --dport 500 $options
addrule ${z}2${FW} -p udp --dport 4500 $options
fi
else
fatal_error "Invalid gateway zone ($z) -- Tunnel \"$tunnel\""
fi
done
progress_message " IPSEC tunnel to $gateway defined."
}
setup_one_other() # $1 = TYPE, $2 = gateway, $3 = protocol
{
addrule2 $inchain -p $3 $(source_ip_range $2) -j ACCEPT
addrule2 $outchain -p $3 $(dest_ip_range $2) -j ACCEPT
progress_message " $1 tunnel to $2 defined."
}
setup_pptp_client() # $1 = gateway
{
addrule2 $outchain -p 47 $(dest_ip_range $1) -j ACCEPT
addrule2 $inchain -p 47 $(source_ip_range $1) -j ACCEPT
addrule2 $outchain -p tcp --dport 1723 $(dest_ip_range $1) -j ACCEPT
progress_message " PPTP tunnel to $1 defined."
}
setup_pptp_server() # $1 = gateway
{
addrule2 $inchain -p 47 $(source_ip_range $1) -j ACCEPT
addrule2 $outchain -p 47 $(dest_ip_range $1) -j ACCEPT
addrule2 $inchain -p tcp --dport 1723 $(source_ip_range $1) -j ACCEPT
progress_message " PPTP server defined."
}
setup_one_openvpn() # $1 = gateway, $2 = kind[:port]
{
case $2 in
*:*)
p=${2#*:}
;;
*)
p=5000
;;
esac
addrule2 $inchain -p udp $(source_ip_range $1) --dport $p -j ACCEPT
addrule2 $outchain -p udp $(dest_ip_range $1) --dport $p -j ACCEPT
progress_message " OPENVPN tunnel to $1:$p defined."
}
setup_one_generic() # $1 = gateway, $2 = kind:protocol[:port], $3 = Gateway Zone
{
local protocol
local p=
case $2 in
*:*:*)
p=${2##*:}
protocol=${2%:*}
protocol=${protocol#*:}
;;
*:*)
protocol=${2#*:}
;;
*)
protocol=udp
p=5000
;;
esac
p=${p:+--dport $p}
addrule2 $inchain -p $protocol $(source_ip_range $1) $p -j ACCEPT
addrule2 $outchain -p $protocol $(dest_ip_range $1) $p -j ACCEPT
for z in $(separate_list $3); do
if validate_zone $z; then
addrule ${FW}2${z} -p $protocol $p -j ACCEPT
addrule ${z}2${FW} -p $protocol $p -j ACCEPT
else
error_message "Warning: Invalid gateway zone ($z)" \
" -- Tunnel \"$tunnel\" may encounter problems"
fi
done
progress_message " GENERIC tunnel to $1:$p 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${z}
gateway=${gateway:-0.0.0.0/0}
case $kind in
ipsec|IPSEC|ipsec:*|IPSEC:*)
setup_one_ipsec $gateway $kind $z1
;;
ipsecnat|IPSECNAT|ipsecnat:*|IPSECNAT:*)
setup_one_ipsec $gateway $kind $z1
;;
ipip|IPIP)
setup_one_other IPIP $gateway 4
;;
gre|GRE)
setup_one_other GRE $gateway 47
;;
6to4|6TO4)
setup_one_other 6to4 $gateway 41
;;
pptpclient|PPTPCLIENT)
setup_pptp_client $gateway
;;
pptpserver|PPTPSERVER)
setup_pptp_server $gateway
;;
openvpn|OPENVPN|openvpn:*|OPENVPN:*)
setup_one_openvpn $gateway $kind
;;
generic:*|GENERIC:*)
setup_one_generic $gateway $kind $z1
;;
*)
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_ipsec() {
do_options() # $1 = _in, _out or "" - $2 = option list
{
local option opts newoptions=
[ x${2} = x- ] && return
opts=$(separate_list $2)
for option in $opts; do
case $option in
strict) newoptions="$newoptions --strict" ;;
next) newoptions="$newoptions --next" ;;
reqid=*) newoptions="$newoptions --reqid ${option#*=}" ;;
spi=*) newoptions="$newoptions --spi ${option#*=}" ;;
proto=*) newoptions="$newoptions --proto ${option#*=}" ;;
mode=*) newoptions="$newoptions --mode ${option#*=}" ;;
tunnel-src=*) newoptions="$newoptions --tunnel-src ${option#*=}" ;;
tunnel-dst=*) newoptions="$newoptions --tunnel-dst ${option#*=}" ;;
reqid!=*) newoptions="$newoptions ! --reqid ${option#*=}" ;;
spi!=*) newoptions="$newoptions ! --spi ${option#*=}" ;;
proto!=*) newoptions="$newoptions ! --proto ${option#*=}" ;;
mode!=*) newoptions="$newoptions ! --mode ${option#*=}" ;;
tunnel-src!=*) newoptions="$newoptions ! --tunnel-src ${option#*=}" ;;
tunnel-dst!=*) newoptions="$newoptions ! --tunnel-dst ${option#*=}" ;;
*) fatal_error "Invalid option \"$option\" for zone $zone" ;;
esac
done
if [ -n "$newoptions" ]; then
eval ${zone}_is_complex=Yes
eval ${zone}_ipsec${1}_options=\"${newoptions# }\"
fi
}
strip_file ipsec $1
while read zone ipsec options in_options out_options; do
expandv zone ipsec options in_options out_options
[ -n "$POLICY_MATCH" ] || fatal_error "Your kernel and/or iptables does not support policy match"
validate_zone1 $zone || fatal_error "Unknown zone: $zone"
case $ipsec in
-|No|no)
;;
Yes|yes)
eval ${zone}_is_ipsec=Yes
eval ${zone}_is_complex=Yes
;;
*)
fatal_error "Invalid IPSEC column value: $ipsec"
;;
esac
do_options "" $options
do_options "_in" $in_options
do_options "_out" $out_options
done < $TMP_DIR/ipsec
}
#
# Setup Proxy ARP
#
setup_proxy_arp() {
local setlist= resetlist=
print_error() {
error_message "Invalid value for HAVEROUTE - ($haveroute)"
error_message "Entry \"$address $interface $external $haveroute\" ignored"
}
print_error1() {
error_message "Invalid value for PERSISTENT - ($persistent)"
error_message "Entry \"$address $interface $external $haveroute $persistent\" ignored"
}
print_warning() {
error_message "PERSISTENT setting ignored - ($persistent)"
error_message "Entry \"$address $interface $external $haveroute $persistent\""
}
setup_one_proxy_arp() {
case $haveroute in
[Nn][Oo])
haveroute=
;;
[Yy][Ee][Ss])
;;
*)
if [ -n "$haveroute" ]; then
print_error
return
fi
;;
esac
case $persistent in
[Nn][Oo])
persistent=
;;
[Yy][Ee][Ss])
[ -z "$haveroute" ] || print_warning
;;
*)
if [ -n "$persistent" ]; then
print_error1
return
fi
;;
esac
if [ -z "$haveroute" ]; then
ensure_and_save_command ip route replace $address dev $interface
[ -n "$persistent" ] && haveroute=yes
fi
ensure_and_save_command arp -i $external -Ds $address $external pub
echo $address $interface $external $haveroute >> ${STATEDIR}/proxyarp
progress_message " Host $address connected to $interface added to ARP on $external"
}
> ${STATEDIR}/proxyarp
save_progress_message "Restoring Proxy ARP..."
while read address interface external haveroute persistent; do
expandv address interface external haveroute persistent
list_search $interface $setlist || setlist="$setlist $interface"
list_search $external $resetlist || list_search $external $setlist || resetlist="$resetlist $external"
setup_one_proxy_arp
done < $TMP_DIR/proxyarp
for interface in $resetlist; do
list_search $interface $setlist || \
run_and_save_command "echo 0 > /proc/sys/net/ipv4/conf/$interface/proxy_arp"
done
for interface in $setlist; do
run_and_save_command "echo 1 > /proc/sys/net/ipv4/conf/$interface/proxy_arp"
done
interfaces=$(find_interfaces_by_option proxyarp)
for interface in $interfaces; do
if echo 1 > /proc/sys/net/ipv4/conf/$interface/proxy_arp 2> /dev/null; then
progress_message " Enabled proxy ARP on $interface"
save_command "echo 1 > /proc/sys/net/ipv4/conf/$interface/proxy_arp"
else
error_message "Warning: Unable to enable proxy ARP on $interface"
fi
done
}
#
# Set up MAC Verification
#
setup_mac_lists() {
local interface
local mac
local addresses
local address
local chain
local macpart
local blob
local hosts
local ipsec
local policy=
#
# Generate the list of interfaces having MAC verification
#
maclist_interfaces=
for hosts in $maclist_hosts; do
hosts=${hosts#*^}
interface=${hosts%%:*}
if ! list_search $interface $maclist_interfaces; then\
if [ -z "$maclist_interfaces" ]; then
maclist_interfaces=$interface
else
maclist_interfaces="$maclist_interfaces $interface"
fi
fi
done
progress_message "Setting up MAC Verification on $maclist_interfaces..."
#
# Be sure that they are all ethernet interfaces
#
for interface in $maclist_interfaces; do
createchain $(mac_chain $interface) no
done
#
# Process the maclist file producing the verification rules
#
while read interface mac addresses; do
expandv interface mac addresses
physdev_part=
if [ -n "$BRIDGING" ]; then
case $interface in
*:*)
physdev_part="-m physdev --physdev-in ${interface#*:}"
interface=${interface%:*}
;;
esac
fi
chain=$(mac_chain $interface)
if ! havechain $chain ; then
fatal_error "No hosts on $interface have the maclist option specified"
fi
macpart=$(mac_match $mac)
if [ -z "$addresses" ]; then
run_iptables -A $chain $macpart $physdev_part -j RETURN
else
for address in $(separate_list $addresses) ; do
run_iptables2 -A $chain $macpart -s $address $physdev_part -j RETURN
done
fi
done < $TMP_DIR/maclist
#
# Must take care of our own broadcasts and multicasts then terminate the verification
# chains
#
for interface in $maclist_interfaces; do
chain=$(mac_chain $interface)
blob=$(ip link show $interface 2> /dev/null)
[ -z "$blob" ] && \
fatal_error "Interface $interface must be up before Shorewall can start"
ip -f inet addr show $interface 2> /dev/null | grep 'inet.*brd' | sed 's/inet //; s/brd //; s/scope.*//;' | while read address broadcast; do
if [ -n "$broadcast" ]; then
run_iptables -A $chain -s ${address%/*} -d $broadcast -j RETURN
fi
run_iptables -A $chain -s $address -d 255.255.255.255 -j RETURN
run_iptables -A $chain -s $address -d 224.0.0.0/4 -j RETURN
done
if [ -n "$MACLIST_LOG_LEVEL" ]; then
log_rule $MACLIST_LOG_LEVEL $chain $MACLIST_DISPOSITION
fi
run_iptables -A $chain -j $maclist_target
done
#
# Generate jumps from the input and forward chains
#
for hosts in $maclist_hosts; do
ipsec=${hosts%^*}
hosts=${hosts#*^}
[ -n "$POLICY_MATCH" ] && policy="-m policy --pol $ipsec --dir in" || policy=
interface=${hosts%%:*}
hosts=${hosts#*:}
for chain in $(first_chains $interface) ; do
run_iptables -A $chain $(match_source_hosts $hosts) -m state --state NEW \
$policy -j $(mac_chain $interface)
done
done
}
#
# Set up SYN flood protection
#
setup_syn_flood_chain ()
# $1 = policy chain
# $2 = synparams
{
local chain=$1
local limit=$2
local limit_burst=
case $limit in
*:*)
limit_burst="--limit-burst ${limit#*:}"
limit=${limit%:*}
;;
esac
run_iptables -N @$chain
run_iptables -A @$chain -m limit --limit $limit $limit_burst -j RETURN
run_iptables -A @$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
progress_message " 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 /proc/sys/net/ipv4/conf/*; do
[ -f $f/proxy_arp ] && echo 0 > $f/proxy_arp
done
}
#
# Setup Static Network Address Translation (NAT)
#
setup_nat() {
local external= interface= internal= allints= localnat= policyin= policyout=
validate_one() #1 = Variable Name, $2 = Column name, $3 = value
{
case $3 in
Yes|yes)
;;
No|no)
eval ${1}=
;;
*)
[ -n "$3" ] && \
fatal_error "Invalid value ($3) for $2 in entry \"$external $interface $internal $allints $localnat\""
;;
esac
}
do_one_nat() {
local add_ip_aliases=$ADD_IP_ALIASES, iface=${interface%:*}
if [ -n "$add_ip_aliases" ]; then
case $interface in
*:)
interface=${interface%:}
add_ip_aliases=
;;
*)
[ -n "$RETAIN_ALIASES" ] || run_and_save_command qt ip addr del $external dev $iface
;;
esac
else
interface=${interface%:}
fi
validate_one allints "ALL INTERFACES" $allints
validate_one localnat "LOCAL" $localnat
if [ -n "$allints" ]; then
addnatrule nat_in -d $external $policyin -j DNAT --to-destination $internal
addnatrule nat_out -s $internal $policyout -j SNAT --to-source $external
else
addnatrule $(input_chain $iface) -d $external $policyin -j DNAT --to-destination $internal
addnatrule $(output_chain $iface) -s $internal $policyout -j SNAT --to-source $external
fi
[ -n "$localnat" ] && \
run_iptables2 -t nat -A OUTPUT -d $external $policyout -j DNAT --to-destination $internal
if [ -n "$add_ip_aliases" ]; then
list_search $external $aliases_to_add || \
aliases_to_add="$aliases_to_add $external $interface"
fi
}
#
# At this point, we're just interested in the network translation
#
> ${STATEDIR}/nat
if [ -n "$POLICY_MATCH" ]; then
policyin="-m policy --pol none --dir in"
policyout="-m policy --pol none --dir out"
fi
[ -n "$RETAIN_ALIASES" ] || save_progress_message "Restoring one-to-one NAT..."
while read external interface internal allints localnat; do
expandv external interface internal allints localnat
do_one_nat
progress_message " 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
}
#
# Setup Network Mapping (NETMAP)
#
setup_netmap() {
while read type net1 interface net2 ; do
expandv type net1 interface net2
list_search $interface $ALL_INTERFACES || \
fatal_error "Unknown interface $interface in entry \"$type $net1 $interface $net2\""
case $type in
DNAT)
addnatrule $(input_chain $interface) -d $net1 -j NETMAP --to $net2
;;
SNAT)
addnatrule $(output_chain $interface) -s $net1 -j NETMAP --to $net2
;;
*)
fatal_error "Invalid type $type in entry \"$type $net1 $interface $net2\""
;;
esac
progress_message " Network $net1 on $interface mapped to $net2 ($type)"
done < $TMP_DIR/netmap
}
#
# Setup ECN disabling rules
#
setup_ecn() # $1 = file name
{
local interfaces=""
local hosts
local h
strip_file ecn $1
echo "Processing $1..."
while read interface host; do
expandv interface host
list_search $interface $ALL_INTERFACES || \
startup_error "Unknown interface $interface"
list_search $interface $interfaces || \
interfaces="$interfaces $interface"
[ "x$host" = "x-" ] && host=
for h in $(separate_list ${host:-0.0.0.0/0}); do
hosts="$hosts $interface:$h"
done
done < $TMP_DIR/ecn
if [ -n "$interfaces" ]; then
progress_message "Setting up ECN control on${interfaces}..."
for interface in $interfaces; do
chain=$(ecn_chain $interface)
if mangle_chain_exists $chain; then
flushmangle $chain
else
run_iptables -t mangle -N $chain
run_iptables -t mangle -A POSTROUTING -p tcp -o $interface -j $chain
run_iptables -t mangle -A OUTPUT -p tcp -o $interface -j $chain
fi
done
for host in $hosts; do
interface=${host%:*}
h=${host#*:}
run_iptables -t mangle -A $(ecn_chain $interface) -p tcp $(dest_ip_range $h) -j ECN --ecn-tcp-remove
progress_message " ECN Disabled to $h through $interface"
done
fi
}
#
# Process a TC Rule - $MARKING_CHAIN is assumed to contain the name of the
# default marking chain
#
process_tc_rule()
{
chain=$MARKING_CHAIN
verify_designator() {
[ "$chain" = tcout ] && \
fatal_error "Chain designator not allowed when source is \$FW; rule \"$rule\""
chain=$1
mark="${mark%:*}"
}
add_a_tc_rule() {
r=
if [ "x$source" != "x-" ]; then
case $source in
*.*.*)
r="-s $source "
;;
~*)
r="$(mac_match $source) "
;;
$FW)
chain=tcout
;;
*)
verify_interface $source || fatal_error "Unknown interface $source in rule \"$rule\""
r="$(match_source_dev) $source "
;;
esac
fi
if [ "x${user:--}" != "x-" ]; then
[ "$chain" != tcout ] && \
fatal_error "Invalid use of a user/group: rule \"$rule\""
case "$user" in
*:*)
r="$r-m owner"
temp="${user%:*}"
[ -n "$temp" ] && r="$r --uid-owner $temp "
temp="${user#*:}"
[ -n "$temp" ] && r="$r --gid-owner $temp "
;;
*)
r="$r-m owner --uid-owner $user "
;;
esac
fi
[ "x$dest" = "x-" ] || r="${r}$(dest_ip_range $dest) "
[ "x$proto" = "x-" ] && proto=all
[ "x$proto" = "x" ] && proto=all
[ "$proto" = "all" ] || r="${r}-p $proto "
[ "x$port" = "x-" ] || r="${r}--dport $port "
[ "x$sport" = "x-" ] || r="${r}--sport $sport "
case $chain in
tcpost)
run_iptables2 -t mangle -A tcpost $r -j CLASSIFY --set-class $mark
;;
*)
run_iptables2 -t mangle -A $chain $r -j MARK --set-mark $mark
;;
esac
}
if [ "$mark" != "${mark%:*}" ]; then
case "${mark#*:}" in
p|P)
verify_designator tcpre
;;
f|F)
verify_designator tcfor
;;
*)
chain=tcpost
;;
esac
fi
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 ${sports:=-}); do
add_a_tc_rule
done
done
done
done
progress_message " TC Rule \"$rule\" added"
}
#
# Setup queuing and classes
#
setup_tc1() {
#
# Create the TC mangle chains
#
run_iptables -t mangle -N tcpre
run_iptables -t mangle -N tcfor
run_iptables -t mangle -N tcout
run_iptables -t mangle -N tcpost
#
# Process the TC Rules File
#
strip_file tcrules
while read mark sources dests proto ports sports user; do
expandv mark sources dests proto ports sports user
rule=$(echo "$mark $sources $dests $proto $ports $sports $user")
process_tc_rule
done < $TMP_DIR/tcrules
#
# Link to the TC mangle chains from the main chains
#
run_iptables -t mangle -A FORWARD -j tcfor
run_iptables -t mangle -A PREROUTING -j tcpre
run_iptables -t mangle -A OUTPUT -j tcout
run_iptables -t mangle -A POSTROUTING -j tcpost
f=$(find_file tcstart)
if [ -f $f ]; then
run_user_exit tcstart
save_progress_message "Restoring Traffic Control..."
save_command . $(find_file tcstart)
fi
}
setup_tc() {
echo "Setting up Traffic Control Rules..."
setup_tc1
}
#
# Clear Traffic Shaping
#
delete_tc()
{
clear_one_tc() {
run_and_save_command "tc qdisc del dev $1 root 2> /dev/null"
run_and_save_command "tc qdisc del dev $1 ingress 2> /dev/null"
}
save_progress_message "Clearing Traffic Control/QOS"
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
}
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
}
#
# Process a record from the accounting file
#
process_accounting_rule() {
rule=
rule2=
jumpchain=
accounting_error() {
error_message "Warning: Invalid Accounting rule" $action $chain $source $dest $proto $port $sport $user
}
accounting_interface_error() {
error_message "Warning: Unknown interface $1 in " $action $chain $source $dest $proto $port $sport $user
}
accounting_interface_verify() {
verify_interface $1 || accounting_interface_error $1
}
jump_to_chain() {
if ! havechain $jumpchain; then
if ! createchain2 $jumpchain No; then
accounting_error
return 2
fi
fi
rule="$rule -j $jumpchain"
}
case $source in
*:*)
accounting_interface_verify ${source%:*}
rule="-s ${source#*:} $(match_source_dev ${source%:*})"
;;
*.*.*.*)
rule="-s $source"
;;
-|all|any)
;;
*)
if [ -n "$source" ]; then
accounting_interface_verify $source
rule="$(match_source_dev $source)"
fi
;;
esac
[ -n "$dest" ] && case $dest in
*:*)
accounting_interface_verify ${dest%:*}
rule="$rule $(dest_ip_range ${dest#*:}) $(match_dest_dev ${dest%:*})"
;;
*.*.*.*)
rule="$rule $(dest_ip_range $dest)"
;;
-|all|any)
;;
*)
accounting_interface_verify $dest
rule="$rule $(match_dest_dev $dest)"
;;
esac
[ -n "$proto" ] && case $proto in
-|any|all)
;;
*)
rule="$rule -p $proto"
;;
esac
[ -n "$port" ] && case $port in
-|any|all)
;;
*)
rule="$rule --dport $port"
;;
esac
[ -n "$sport" ] && case $sport in
-|any|all)
;;
*)
rule="$rule --sport $sport"
;;
esac
[ -n "$user" ] && case $user in
-|any|all)
;;
*:*)
[ "$chain" != OUTPUT ] && \
fatal_error "Invalid use of a user/group: chain is not OUTPUT but $chain"
rule="$rule -m owner"
temp="${user%:*}"
[ -n "$temp" ] && rule="$rule --uid-owner $temp "
temp="${user#*:}"
[ -n "$temp" ] && rule="$rule --gid-owner $temp "
;;
*)
[ "$chain" != OUTPUT ] && \
fatal_error "Invalid use of a user/group: chain is not OUTPUT but $chain"
rule="$rule -m owner --uid-owner $user "
;;
esac
case $action in
COUNT)
;;
DONE)
rule="$rule -j RETURN"
;;
*:COUNT)
rule2="$rule"
jumpchain=${action%:*}
jump_to_chain || return
;;
JUMP:*)
jumpchain=${action#*:}
jump_to_chain || return
;;
*)
jumpchain=$action
jump_to_chain || return
;;
esac
[ "x$chain" = "x-" ] && chain=accounting
[ -z "$chain" ] && chain=accounting
ensurechain1 $chain
if iptables -A $chain $(fix_bang $rule) ; then
[ -n "$rule2" ] && run_iptables2 -A $jumpchain $rule2
progress_message " Accounting rule" $action $chain $source $dest $proto $port $sport $user Added
else
accounting_error
fi
}
#
# Set up Accounting
#
setup_accounting() # $1 = Name of accounting file
{
echo "Setting up Accounting..."
strip_file accounting $1
while read action chain source dest proto port sport user ; do
expandv action chain source dest proto port sport user
process_accounting_rule
done < $TMP_DIR/accounting
if havechain accounting; then
for chain in INPUT FORWARD OUTPUT; do
run_iptables -A $chain -j accounting
done
fi
}
#
# Check the configuration
#
check_config() {
disclaimer() {
echo
echo "Notice: The 'check' command is unsupported and problem"
echo " reports complaining about errors that it didn't catch"
echo " will not be accepted"
echo
}
disclaimer
report_capabilities
echo "Verifying Configuration..."
verify_os_version
if [ -n "$BRIDGING" ]; then
[ -n "$PHYSDEV_MATCH" ] || startup_error "BRIDGING=Yes requires Physdev Match support in your Kernel and iptables"
fi
echo "Determining Zones..."
determine_zones
[ -z "$zones" ] && startup_error "ERROR: No Zones Defined"
display_list "Zones:" $zones
ipsecfile=$(find_file ipsec)
[ -f $ipsecfile ] && \
echo "Validating ipsec file..." && \
setup_ipsec $ipsecfile
echo "Validating interfaces file..."
validate_interfaces_file
echo "Validating hosts file..."
validate_hosts_file
echo "Determining Hosts in Zones..."
determine_interfaces
determine_hosts
echo "Validating policy file..."
validate_policy
echo "Pre-validating Actions..."
process_actions1
echo "Validating rules file..."
rules=$(find_file rules)
strip_file rules $rules
process_rules
echo "Validating Actions..."
process_actions2
process_actions3
rm -rf $TMP_DIR
[ -n "$RESTOREBASE" ] && rm -f $RESTOREBASE
echo "Configuration Validated"
disclaimer
}
#
# Refresh queuing and classes
#
refresh_tc() {
echo "Refreshing Traffic Control Rules..."
[ -n "$CLEAR_TC" ] && delete_tc1
[ -n "$MARK_IN_FORWARD_CHAIN" ] && chain=tcfor || chain=tcpre
if mangle_chain_exists $chain; then
#
# Flush the TC mangle chains
#
run_iptables -t mangle -F $chain
run_iptables -t mangle -F tcout
#
# Process the TC Rules File
#
strip_file tcrules
while read mark sources dests proto ports sports; do
expandv mark sources dests proto ports sports
rule=$(echo "$mark $sources $dests $proto $ports $sports")
process_tc_rule
done < $TMP_DIR/tcrules
run_user_exit tcstart
else
setup_tc1
fi
}
#
# Add one Filter Rule from an action -- Helper function for the action file processor
#
# The caller has established the following variables:
# COMMAND = current command. If 'check', we're executing a 'check'
# which only goes through the motions.
# client = SOURCE IP or MAC
# server = DESTINATION IP or interface
# protocol = Protocol
# address = Original Destination Address
# port = Destination Port
# cport = Source Port
# multioption = String to invoke multiport match if appropriate
# action = The chain for this rule
# ratelimit = Optional rate limiting clause
# userandgroup = owner match clause
# logtag = Log tag
#
add_an_action()
{
do_ports() {
if [ -n "$port" ]; then
dports="--dport"
if [ -n "$multioption" -a "$port" != "${port%,*}" ]; then
multiport="$multioption"
dports="--dports"
fi
dports="$dports $port"
fi
if [ -n "$cport" ]; then
sports="--sport"
if [ -n "$multioption" -a "$cport" != "${cport%,*}" ]; then
multiport="$multioption"
sports="--sports"
fi
sports="$sports $cport"
fi
}
interface_error()
{
fatal_error "Unknown interface $1 in rule: \"$rule\""
}
action_interface_verify()
{
verify_interface $1 || interface_error $1
}
# Set source variables. The 'cli' variable will hold the client match predicate(s).
cli=
case "$client" in
-)
;;
*:*)
action_interface_verify ${client%:*}
cli="$(match_source_dev ${client%:*}) $(source_ip_range ${client#*:})"
;;
*.*.*)
cli="-s $client"
;;
~*)
cli=$(mac_match $client)
;;
*)
if [ -n "$client" ]; then
action_interface_verify $client
cli="$(match_source_dev $client)"
fi
;;
esac
# Set destination variables - 'serv' and 'dest_interface' hold the server match predicate(s).
dest_interface=
serv=
case "$server" in
-)
;;
*.*.*)
serv=$server
;;
~*)
fatal_error "Rule \"$rule\" - Destination may not be specified by MAC Address"
;;
*)
if [ -n "$server" ]; then
action_interface_verify $server
dest_interface="$(match_dest_dev $server)"
fi
;;
esac
# Setup protocol and port variables
sports=
dports=
proto=$protocol
servport=$serverport
multiport=
[ x$port = x- ] && port=
[ x$cport = x- ] && cport=
case $proto in
tcp|TCP|6)
do_ports
[ "$target" = QUEUE ] && proto="$proto --syn"
;;
udp|UDP|17)
do_ports
;;
icmp|ICMP|1)
[ -n "$port" ] && dports="--icmp-type $port"
;;
*)
[ -n "$port" ] && \
fatal_error "Port number not allowed with protocol \"$proto\"; rule: \"$rule\""
;;
esac
proto="${proto:+-p $proto}"
# Some misc. setup
case "$logtarget" in
LOG)
[ -z "$loglevel" ] && fatal_error "LOG requires log level"
;;
esac
if [ $COMMAND != check ]; then
if [ -n "${serv}" ]; then
for serv1 in $(separate_list $serv); do
for srv in $(firewall_ip_range $serv1); do
if [ -n "$loglevel" ]; then
log_rule_limit $loglevel $chain $action $logtarget "$ratelimit" "$logtag" $userandgroup \
$(fix_bang $proto $sports $multiport $cli $(source_ip_range $srv) $dports)
fi
run_iptables2 -A $chain $proto $multiport $cli $sports \
$(dest_ip_range $srv) $dports $ratelimit $userandgroup -j $target
done
done
else
if [ -n "$loglevel" ]; then
log_rule_limit $loglevel $chain $action $logtarget "$ratelimit" "$logtag" $userandgroup \
$(fix_bang $proto $sports $multiport $cli $dest_interface $dports)
fi
run_iptables2 -A $chain $proto $multiport $cli $dest_interface $sports \
$dports $ratelimit $userandgroup -j $target
fi
fi
}
#
# Process a record from an action file for the 'start', 'restart' or 'check' commands
#
process_action() # $1 = chain (Chain to add the rules to)
# $2 = action (The action name for logging purposes)
# $3 = target (The (possibly modified) contents of the TARGET column)
# $4 = clients
# $5 = servers
# $6 = protocol
# $7 = ports
# $8 = cports
# $9 = ratelimit
# $10 = userspec
{
local chain="$1"
local action="$2"
local target="$3"
local clients="$4"
local servers="$5"
local protocol="$6"
local ports="$7"
local cports="$8"
local ratelimit="$9"
local userspec="${10}"
local userandgroup=
local logtag=
if [ -n "$ratelimit" ]; then
case $ratelimit in
-)
ratelimit=
;;
*:*)
ratelimit="-m limit --limit ${ratelimit%:*} --limit-burst ${ratelimit#*:}"
;;
*)
ratelimit="-m limit --limit $ratelimit"
;;
esac
fi
[ "x$userspec" = "x-" ] && userspec=
if [ -n "$userspec" ]; then
case "$userspec" in
!*:*)
if [ "$userspec" != "!:" ]; then
userandgroup="-m owner"
temp="${userspec#!}"
temp="${temp%:*}"
[ -n "$temp" ] && userandgroup="$userandgroup ! --uid-owner $temp"
temp="${userspec#*:}"
[ -n "$temp" ] && userandgroup="$userandgroup ! --gid-owner $temp"
fi
;;
*:*)
if [ "$userspec" != ":" ]; then
userandgroup="-m owner"
temp="${userspec%:*}"
[ -n "$temp" ] && userandgroup="$userandgroup --uid-owner $temp"
temp="${userspec#*:}"
[ -n "$temp" ] && userandgroup="$userandgroup --gid-owner $temp"
fi
;;
!*)
userandgroup="-m owner ! --uid-owner ${userspec#!}"
;;
*)
userandgroup="-m owner --uid-owner $userspec"
;;
esac
fi
# Isolate log level
if [ "$target" = "${target%:*}" ]; then
loglevel=
else
loglevel="${target#*:}"
target="${target%%:*}"
expandv loglevel
if [ "$loglevel" != "${loglevel%:*}" ]; then
logtag="${loglevel#*:}"
loglevel="${loglevel%:*}"
expandv logtag
fi
case $loglevel in
none*)
loglevel=
logtag=
[ $target = LOG ] && return
;;
esac
loglevel=${loglevel%\!}
fi
logtarget="$target"
case $target in
REJECT)
target=reject
;;
CONTINUE)
target=RETURN
;;
*)
;;
esac
# Generate Netfilter rule(s)
[ "x$protocol" = "x-" ] && protocol=all || protocol=${protocol:=all}
if [ -n "$MULTIPORT" ] && \
! list_search $protocol "icmp" "ICMP" "1" && \
[ "$ports" = "${ports%:*}" -a \
"$cports" = "${cports%:*}" -a \
$(list_count $ports) -le 15 -a \
$(list_count $cports) -le 15 ]
then
#
# MULTIPORT is enabled, there are no port ranges in the rule and less than
# 16 ports are listed - use multiport match.
#
multioption="-m multiport"
for client in $(separate_list ${clients:=-}); do
for server in $(separate_list ${servers:=-}); do
#
# add_an_action() modifies these so we must set their values each time
#
port=${ports:=-}
cport=${cports:=-}
add_an_action
done
done
else
#
# MULTIPORT is disabled or the rule isn't compatible with multiport match
#
multioption=
for client in $(separate_list ${clients:=-}); do
for server in $(separate_list ${servers:=-}); do
for port in $(separate_list ${ports:=-}); do
for cport in $(separate_list ${cports:=-}); do
add_an_action
done
done
done
done
fi
#
# Report Result
#
if [ $COMMAND = check ]; then
progress_message " Rule \"$rule\" checked."
else
progress_message " Rule \"$rule\" added."
fi
}
#
# Create and record a log action chain -- Log action chains have names
# that are formed from the action name by prepending a "%" and appending
# a 1- or 2-digit sequence number. In the functions that follow,
# the CHAIN, LEVEL and TAG variable serves as arguments to the user's
# exit. We call the exit corresponding to the name of the action but we
# set CHAIN to the name of the iptables chain where rules are to be added.
# Similarly, LEVEL and TAG contain the log level and log tag respectively.
#
# For each <action>, we maintain two variables:
#
# <action>_actchain - The action chain number.
# <action>_chains - List of ( level[:tag] , chainname ) pairs
#
# The maximum length of a chain name is 30 characters -- since the log
# action chain name is 2-3 characters longer than the base chain name,
# this function truncates the original chain name where necessary before
# it adds the leading "%" and trailing sequence number.
createlogactionchain() # $1 = Action Name, $2 = Log Level [: Log Tag ]
{
local actchain= action=$1 level=$2
eval actchain=\${${action}_actchain}
case ${#action} in
29|30)
CHAIN=$(echo $action | truncate 28) # %...n makes 30
;;
*)
CHAIN=${action}
;;
esac
[ "$COMMAND" != check ] && \
while havechain %${CHAIN}${actchain}; do
actchain=$(($actchain + 1))
[ $actchain -eq 10 -a ${#CHAIN} -eq 28 ] && CHAIN=$(echo $CHAIN | truncate 27) # %...nn makes 30
done
CHAIN=%${CHAIN}${actchain}
eval ${action}_actchain=$(($actchain + 1))
if [ $COMMAND != check ]; then
createchain $CHAIN No
LEVEL=${level%:*}
TAG=${level#*:}
run_user_exit $1
fi
eval ${action}_chains=\"\$${action}_chains $level $CHAIN\"
}
#
# Create an action chain and run it's associated user exit
#
createactionchain() # $1 = Action, including log level and tag if any
{
case $1 in
*:*:*)
set -- $(split $1)
createlogactionchain $1 $2:$3
;;
*:*)
set -- $(split $1)
createlogactionchain $1 $2
;;
*)
CHAIN=$1
if [ $COMMAND != check ]; then
LEVEL=
TAG=
createchain $CHAIN no
run_user_exit $CHAIN
fi
;;
esac
}
#
# Find the chain that handles the passed action. If the chain cannot be found,
# a fatal error is generated and the function does not return.
#
find_logactionchain() # $1 = Action, including log level and tag if any
{
local fullaction=$1 action=${1%%:*} level= chains=
case $fullaction in
*:*)
level=${fullaction#*:}
;;
*)
if [ $COMMAND != check ]; then
havechain $action || fatal_error "Fatal error in find_logactionchain"
fi
echo $action
return
;;
esac
eval chains="\$${action}_chains"
set -- $chains
while [ $# -gt 0 ]; do
[ "$1" = "$level" ] && { echo $2 ; return ; }
shift;shift
done
fatal_error "Fatal error in find_logactionchain"
}
#
# This function determines the logging for a subordinate action or a rule within a subordinate action
#
merge_levels() # $1=level at which superior action is called, $2=level at which the subordinate rule is called
{
local superior=$1 subordinate=$2
set -- $(split $1)
case $superior in
*:*:*)
case $2 in
'none!')
echo ${subordinate%%:*}:'none!'
return
;;
*'!')
echo ${subordinate%%:*}:$2:$3
return
;;
*)
case $subordinate in
*:*)
echo $subordinate
return
;;
*)
echo ${subordinate%%:*}:$2:$3
return
;;
esac
;;
esac
;;
*:*)
case $2 in
'none!')
echo ${subordinate%%:*}:'none!'
return
;;
*'!')
echo ${subordinate%%:*}:$2
return
;;
*)
case $subordinate in
*:*)
echo $subordinate
return
;;
*)
echo ${subordinate%%:*}:$2
return
;;
esac
;;
esac
;;
*)
echo $subordinate
;;
esac
}
#
# The next three functions implement the three phases of action processing.
#
# The first phase (process_actions1) occurs before the rules file is processed. /usr/share/shorewall/actions.std
# and /etc/shorewall/actions are scanned (in that order) and for each action:
#
# a) The related action definition file is located and scanned.
# b) Forward and unresolved action references are trapped as errors.
# c) A dependency graph is created. For each <action>, the variable 'requiredby_<action>' lists the
# action[:level[:tag]] of each action invoked by <action>.
# d) All actions are listed in the global variable ACTIONS.
# e) Common actions are recorded (in variables of the name <policy>_common) and are added to the global
# USEDACTIONS
#
# As the rules file is scanned, each action[:level[:tag]] is merged onto the USEDACTIONS list. When an <action>
# is merged onto this list, its action chain is created. Where logging is specified, a chain with the name
# %<action>n is used where the <action> name is truncated on the right where necessary to ensure that the total
# length of the chain name does not exceed 30 characters.
#
# The second phase (process_actions2) occurs after the rules file is scanned. The transitive closure of
# USEDACTIONS is generated; again, as new actions are merged onto this list, their action chains are created.
#
# The final phase (process_actions3) is to traverse the USEDACTIONS list populating each chain appropriately
# by reading the action definition files and creating rules. Note that a given action definition file is
# processed once for each unique [:level[:tag]] applied to an invocation of the action.
#
process_actions1() {
ACTIONS="dropBcast allowBcast dropNonSyn dropNotSyn rejNotSyn dropInvalid"
USEDACTIONS=
strip_file actions
strip_file actions.std /usr/share/shorewall/actions.std
for inputfile in actions.std actions; do
while read xaction rest; do
[ "x$rest" = x ] || fatal_error "Invalid Action: $xaction $rest"
case $xaction in
*:*)
temp=${xaction#*:}
[ ${#temp} -le 30 ] || fatal_error "Action Name Longer than 30 Characters: $temp"
xaction=${xaction%:*}
case $temp in
ACCEPT|REJECT|DROP)
eval ${temp}_common=$xaction
if [ -n "$xaction" ] && ! list_search $xaction $USEDACTIONS; then
USEDACTIONS="$USEDACTIONS $xaction"
fi
;;
*)
startup_error "Common Actions are only allowed for ACCEPT, DROP and REJECT"
;;
esac
esac
[ -z "$xaction" ] && continue
[ "$xaction" = "$(chain_base $xaction)" ] || startup_error "Invalid Action Name: $xaction"
if ! list_search $xaction $ACTIONS; then
f=action.$xaction
fn=$(find_file $f)
eval requiredby_${action}=
if [ -f $fn ]; then
echo " Pre-processing $fn..."
strip_file $f $fn
while read xtarget xclients xservers xprotocol xports xcports xratelimit $xuserspec; do
expandv xtarget
temp="${xtarget%%:*}"
case "$temp" in
ACCEPT|DROP|REJECT|LOG|QUEUE|CONTINUE)
;;
*)
if list_search $temp $ACTIONS; then
eval requiredby_${xaction}=\"\$requiredby_${xaction} $xtarget\"
else
rule="$(echo $xtarget $xclients $xservers $xprotocol $xports $xcports $xratelimit $xuserspec)"
startup_error "Invalid TARGET in rule \"$rule\""
fi
;;
esac
done < $TMP_DIR/$f
else
startup_error "Missing Action File: $f"
fi
ACTIONS="$ACTIONS $xaction"
fi
done < $TMP_DIR/$inputfile
done
}
process_actions2() {
progress_message " Generating Transitive Closure of Used-action List..."
changed=Yes
while [ -n "$changed" ]; do
changed=
for xaction in $USEDACTIONS; do
eval required=\"\$requiredby_${xaction%%:*}\"
for xaction1 in $required; do
#
# Generate the action that will be passed to process_action by merging the
# logging specified when the action was invoked with the logging in the
# invocation of the subordinate action (usually no logging)
#
xaction2=$(merge_levels $xaction $xaction1)
if ! list_search $xaction2 $USEDACTIONS; then
#
# We haven't seen this one before -- create and record a chain to handle it
#
USEDACTIONS="$USEDACTIONS $xaction2"
createactionchain $xaction2
changed=Yes
fi
done
done
done
}
process_actions3() {
for xaction in $USEDACTIONS; do
#
# Find the chain associated with this action:level:tag
#
xchain=$(find_logactionchain $xaction)
#
# Split the action:level:tag
#
set -- $(split $xaction)
xaction1=$1
xlevel=$2
xtag=$3
#
# Handle Builtin actions
#
case $xaction1 in
dropBcast)
if [ "$COMMAND" != check ]; then
if [ -n "$PKTTYPE" ]; then
case $xlevel in
none'!')
;;
*)
if [ -n "$xlevel" ]; then
log_rule_limit ${xlevel%\!} $xchain dropBcast $2 "" "$xtag" -m pkttype --pkt-type broadcast
log_rule_limit ${xlevel%\!} $xchain dropBcast $2 "" "$xtag" -m pkttype --pkt-type multicast
fi
;;
esac
run_iptables -A dropBcast -m pkttype --pkt-type broadcast -j DROP
run_iptables -A dropBcast -m pkttype --pkt-type multicast -j DROP
else
for address in $(find_broadcasts) 255.255.255.255 224.0.0.0/4 ; do
case $xlevel in
none*)
;;
*)
[ -n "$xlevel" ] && \
log_rule_limit ${xlevel%\!} $xchain dropBcast $2 "" "$xtag" -d $address
;;
esac
run_iptables -A $xchain -d $address -j DROP
done
fi
fi
;;
allowBcast)
if [ "$COMMAND" != check ]; then
if [ -n "$PKTTYPE" ]; then
case $xlevel in
none'!')
;;
*)
if [ -n "$xlevel" ]; then
log_rule_limit ${xlevel%\!} $xchain allowBcast $2 "" "$xtag" -m pkttype --pkt-type broadcast
log_rule_limit ${xlevel%\!} $xchain allowBcast $2 "" "$xtag" -m pkttype --pkt-type multicast
fi
;;
esac
run_iptables -A allowBcast -m pkttype --pkt-type broadcast -j ACCEPT
run_iptables -A allowBcast -m pkttype --pkt-type multicast -j ACCEPT
else
for address in $(find_broadcasts) 255.255.255.255 224.0.0.0/4 ; do
case $xlevel in
none*)
;;
*)
[ -n "$xlevel" ] && \
log_rule_limit ${xlevel%\!} $xchain allowBcast $2 "" "$xtag" -d $address
;;
esac
run_iptables -A $xchain -d $address -j ACCEPT
done
fi
fi
;;
dropNonSyn)
error_message "WARNING: \"dropNonSyn\" has been replaced by \"dropNotSyn\""
if [ "$COMMAND" != check ]; then
[ -n "$xlevel" ] && \
log_rule_limit ${xlevel%\!} $xchain dropNonSyn $2 "" "$xtag" -p tcp ! --syn
run_iptables -A $xchain -p tcp ! --syn -j DROP
fi
;;
dropNotSyn)
if [ "$COMMAND" != check ]; then
[ -n "$xlevel" ] && \
log_rule_limit ${xlevel%\!} $xchain dropNotSyn $2 "" "$xtag" -p tcp ! --syn
run_iptables -A $xchain -p tcp ! --syn -j DROP
fi
;;
rejNotSyn)
if [ "$COMMAND" != check ]; then
[ -n "$xlevel" ] && \
log_rule_limit ${xlevel%\!} $xchain rejNotSyn $2 "" "$xtag" -p tcp ! --syn
run_iptables -A $xchain -p tcp ! --syn -j REJECT --reject-with tcp-reset
fi
;;
dropInvalid)
if [ "$COMMAND" != check ]; then
[ -n "$xlevel" ] && \
log_rule_limit ${xlevel%\!} $xchain dropNotSyn $2 "" "$xtag" -m state --state INVALID
run_iptables -A $xchain -m state --state INVALID -j DROP
fi
;;
*)
#
# Not a builtin
#
f=action.$xaction1
echo "Processing $(find_file $f) for Chain $xchain..."
while read xtarget xclients xservers xprotocol xports xcports xratelimit xuserspec; do
expandv xtarget
#
# Generate the target:level:tag to pass to process_action()
#
xaction2=$(merge_levels $xaction $xtarget)
case ${xaction2%%:*} in
ACCEPT|DROP|REJECT|LOG|QUEUE|CONTINUE)
#
# Builtin target -- Nothing to do
#
;;
*)
#
# Not a builtin target -- Replace the target from the file
# -- with the one generated above
xtarget=$xaction2
#
# And locate the chain for that action:level:tag
#
xaction2=$(find_logactionchain $xtarget)
;;
esac
expandv xclients xservers xprotocol xports xcports xratelimit xuserspec
rule="$(echo $xtarget $xclients $xservers $xprotocol $xports $xcports $xratelimit $xuserspec)"
process_action $xchain $xaction1 $xaction2 $xclients $xservers $xprotocol $xports $xcports $xratelimit $xuserspec
done < $TMP_DIR/$f
;;
esac
done
}
#
# Add a NAT rule - Helper function for the rules file processor
#
# The caller has established the following variables:
# COMMAND = The current command -- if 'check', we just go through
# the motions.
# 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
# ratelimit = Optional rate limiting clause
# userandgroup = -m owner match to limit the rule to a particular user and/or group
# logtag = Log tag
#
add_nat_rule() {
local chain
local excludedests=
# Be sure we can NAT
if [ -z "$NAT_ENABLED" ]; then
fatal_error "Rule \"$rule\" requires NAT which is disabled"
fi
# Parse SNAT address if any
if [ "$addr" != "${addr%:*}" ]; then
fatal_error "SNAT may no longer be specified in a DNAT rule; use /etc/shorewall/masq instead"
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 $interfaces; do
addr=${addr:+$addr,}$(find_first_interface_address $interface)
done
fi
;;
!*)
if [ $(list_count $addr) -gt 1 ]; then
excludedests="$(separate_list ${addr#\!})"
addr=
fi
;;
esac
addr=${addr:-0.0.0.0/0}
# Select target
if [ -n "$serv" ]; then
servport="${servport:+:$servport}"
serv1=
for srv in $(separate_list $serv); do
serv1="$serv1 --to-destination ${srv}${servport}"
done
target1="DNAT $serv1"
else
target1="REDIRECT --to-port $servport"
fi
if [ $source = $FW ]; then
[ -n "$excludezones" ] && fatal_error "Invalid Source in rule \"$rule\""
fi
# Generate nat table rules
if [ $COMMAND != check ]; then
if [ "$source" = "$FW" ]; then
if [ -n "$excludedests" ]; then
chain=nonat${nonat_seq}
nonat_seq=$(($nonat_seq + 1))
createnatchain $chain
for adr in $(separate_list $addr); do
run_iptables2 -t nat -A OUTPUT $cli $proto $userandgroup $multiport $sports $dports $(dest_ip_range $adr) -j $chain
done
for adr in $excludedests; do
addnatrule $chain $(dest_ip_range $adr) -j RETURN
done
if [ -n "$loglevel" ]; then
log_rule $loglevel $chain $logtarget -t nat
fi
addnatrule $chain $ratelimit $proto -j $target1 # Protocol is necessary for port redirection
else
for adr in $(separate_list $addr); do
if [ -n "$loglevel" ]; then
log_rule_limit $loglevel OUTPUT OUTPUT $logtarget "$ratelimit" "$logtag" -t nat \
$(fix_bang $proto $cli $sports $userandgroup $(dest_ip_range $adr) $multiport $dports)
fi
run_iptables2 -t nat -A OUTPUT $ratelimit $proto $sports $userandgroup $(dest_ip_range $adr) $multiport $dports -j $target1
done
fi
else
chain=$(dnat_chain $source)
if [ -n "${excludezones}${excludedests}" ]; then
chain=nonat${nonat_seq}
nonat_seq=$(($nonat_seq + 1))
createnatchain $chain
for adr in $(separate_list $addr); do
addnatrule $(dnat_chain $source) $cli $proto $multiport $sports $dports $(dest_ip_range $adr) -j $chain
done
for z in $(separate_list $excludezones); do
eval hosts=\$${z}_hosts
for host in $hosts; do
addnatrule $chain $(match_source_hosts ${host#*:}) -j RETURN
done
done
for adr in $excludedests; do
addnatrule $chain $(dest_ip_range $adr) -j RETURN
done
if [ -n "$loglevel" ]; then
log_rule_limit $loglevel $chain $chain $logtarget "$ratelimit" "$logtag" -t nat
fi
addnatrule $chain $ratelimit $proto -j $target1 # Protocol is necessary for port redirection
else
for adr in $(separate_list $addr); do
if [ -n "$loglevel" ]; then
ensurenatchain $chain
log_rule_limit $loglevel $chain $chain $logtarget "$ratelimit" "$logtag" -t nat \
$(fix_bang $proto $cli $sports $(dest_ip_range $adr) $multiport $dports)
fi
addnatrule $chain $proto $ratelimit $cli $sports \
-d $adr $multiport $dports -j $target1
done
fi
fi
fi
# Replace destination port by the new destination port
if [ -n "$servport" ]; then
if [ -z "$multiport" ]; then
dports="--dport ${servport#*:}"
else
dports="--dports ${servport#*:}"
fi
fi
[ "x$addr" = "x0.0.0.0/0" ] && addr=
ratelimit=
}
#
# Add one Filter Rule -- Helper function for the rules file processor
#
# The caller has established the following variables:
# COMMAND = current command. If 'check', we're executing a 'check'
# which only goes through the motions.
# 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
# ratelimit = Optional rate limiting clause
# userandgroup= -m owner clause
# userspec = User name
# logtag = Log tag
#
add_a_rule()
{
local natrule=
do_ports() {
if [ -n "$port" ]; then
dports="--dport"
if [ -n "$multioption" -a "$port" != "${port%,*}" ]; then
multiport="$multioption"
dports="--dports"
fi
dports="$dports $port"
fi
if [ -n "$cport" ]; then
sports="--sport"
if [ -n "$multioption" -a "$cport" != "${cport%,*}" ]; then
multiport="$multioption"
sports="--sports"
fi
sports="$sports $cport"
fi
}
interface_error()
{
fatal_error "Unknown interface $1 in rule: \"$rule\""
}
rule_interface_verify()
{
verify_interface $1 || interface_error $1
}
# Set source variables. The 'cli' variable will hold the client match predicate(s).
cli=
case "$client" in
-)
;;
*:*)
rule_interface_verify ${client%:*}
cli="$(match_source_dev ${client%:*}) $(source_ip_range ${client#*:})"
;;
*.*.*)
cli="$(source_ip_range $client)"
;;
~*)
cli=$(mac_match $client)
;;
*)
if [ -n "$client" ]; then
rule_interface_verify $client
cli="$(match_source_dev $client)"
fi
;;
esac
# Set destination variables - 'serv' and 'dest_interface' hold the server match predicate(s).
dest_interface=
serv=
case "$server" in
-)
;;
*.*.*)
serv=$server
;;
~*)
fatal_error "Rule \"$rule\" - Destination may not be specified by MAC Address"
;;
*)
if [ -n "$server" ]; then
[ -n "$nonat" ] && fatal_error "Destination interface not allowed with $logtarget"
rule_interface_verify $server
dest_interface="$(match_dest_dev $server)"
fi
;;
esac
# Setup protocol and port variables
sports=
dports=
proto=$protocol
addr=$address
servport=$serverport
multiport=
[ x$port = x- ] && port=
[ x$cport = x- ] && cport=
case $proto in
tcp|TCP|6)
do_ports
[ "$target" = QUEUE ] && proto="$proto --syn"
;;
udp|UDP|17)
do_ports
;;
icmp|ICMP|1)
[ -n "$port" ] && dports="--icmp-type $port"
;;
all|ALL)
[ -n "$port" ] && \
fatal_error "Port number not allowed with protocol \"all\"; rule: \"$rule\""
proto=
;;
*)
[ -n "$port" ] && \
fatal_error "Port number not allowed with protocol \"$proto\"; rule: \"$rule\""
;;
esac
proto="${proto:+-p $proto}"
# Some misc. setup
case "$logtarget" in
ACCEPT|DROP|REJECT|CONTINUE)
if [ -z "$proto" -a -z "$cli" -a -z "$serv" -a -z "$servport" -a -z "$userspec" ] ; then
error_message "Warning -- Rule \"$rule\" is a POLICY"
error_message " -- and should be moved to the policy file"
fi
;;
REDIRECT)
[ -n "$serv" ] && \
fatal_error "REDIRECT rules cannot specify a server IP; rule: \"$rule\""
servport=${servport:=$port}
natrule=Yes
;;
DNAT)
[ -n "$serv" ] || \
fatal_error "DNAT rules require a server address; rule: \"$rule\""
natrule=Yes
;;
LOG)
[ -z "$loglevel" ] && \
fatal_error "LOG requires log level"
;;
esac
if [ -n "${serv}${servport}" ]; then
if [ $COMMAND != check ]; then
# A specific server or server port given
if [ -n "$natrule" ]; then
add_nat_rule
elif [ -n "$addr" -a "$addr" != "$serv" ] || [ -n "$servport" -a "$servport" != "$port" ]; then
fatal_error "Only DNAT and REDIRECT rules may specify destination mapping; rule \"$rule\""
fi
if [ -z "$dnat_only" ]; then
if [ -n "$serv" ]; then
for serv1 in $(separate_list $serv); do
for srv in $(firewall_ip_range $serv1); do
if [ -n "$addr" -a -n "$CONNTRACK_MATCH" ]; then
for adr in $(separate_list $addr); do
if [ -n "$loglevel" -a -z "$natrule" ]; then
log_rule_limit $loglevel $chain $chain $logtarget "$ratelimit" "$logtag" -m conntrack --ctorigdst $adr \
$userandgroup $(fix_bang $proto $sports $multiport $cli $(dest_ip_range $srv) $dports)
fi
run_iptables2 -A $chain $proto $ratelimit $multiport $cli $sports \
$(dest_ip_range $srv) $dports -m conntrack --ctorigdst $adr $userandgroup -j $target
done
else
if [ -n "$loglevel" -a -z "$natrule" ]; then
log_rule_limit $loglevel $chain $chain $logtarget "$ratelimit" "$logtag" $userandgroup \
$(fix_bang $proto $sports $multiport $cli $(dest_ip_range $srv) $dports)
fi
[ -n "$nonat" ] && \
addnatrule $(dnat_chain $source) $proto $multiport \
$cli $sports $(dest_ip_range $srv) $dports $ratelimit $userandgroup -j RETURN
[ "$logtarget" != NONAT ] && \
run_iptables2 -A $chain $proto $multiport $cli $sports \
$(dest_ip_range $srv) $dports $ratelimit $userandgroup -j $target
fi
done
done
else
if [ -n "$loglevel" -a -z "$natrule" ]; then
log_rule_limit $loglevel $chain $chain $logtarget "$ratelimit" "$logtag" $userandgroup \
$(fix_bang $proto $sports $multiport $cli $dports)
fi
[ -n "$nonat" ] && \
addnatrule $(dnat_chain $source) $proto $multiport \
$cli $sports $dports $ratelimit $userandgroup -j RETURN
[ "$logtarget" != NONAT ] && \
run_iptables2 -A $chain $proto $multiport $cli $sports \
$dports $ratelimit $userandgroup -j $target
fi
fi
fi
else
# Destination is a simple zone
[ -n "$addr" ] && fatal_error \
"An ORIGINAL DESTINATION ($addr) is only allowed in" \
" a DNAT or REDIRECT: \"$rule\""
if [ $COMMAND != check ]; then
if [ -n "$loglevel" ]; then
log_rule_limit $loglevel $chain $chain $logtarget "$ratelimit" "$logtag" $userandgroup \
$(fix_bang $proto $multiport $cli $dest_interface $sports $dports)
fi
if [ "$logtarget" != LOG ]; then
[ -n "$nonat" ] && \
addnatrule $(dnat_chain $source) $proto $multiport \
$cli $sports $dports $ratelimit $userandgroup -j RETURN
[ "$logtarget" != NONAT ] && \
run_iptables2 -A $chain $proto $multiport $cli $dest_interface \
$sports $dports $ratelimit $userandgroup -j $target
fi
fi
fi
}
#
# Process a record from the rules file for the 'start', 'restart' or 'check' commands
#
process_rule() # $1 = target
# $2 = clients
# $3 = servers
# $4 = protocol
# $5 = ports
# $6 = cports
# $7 = address
# $8 = ratelimit
# $9 = userspec
{
local target="$1"
local clients="$2"
local servers="$3"
local protocol="$4"
local ports="$5"
local cports="$6"
local address="$7"
local ratelimit="$8"
local userspec="$9"
local userandgroup=
local logtag=
local nonat=
# Function Body - isolate rate limit
[ "x$ratelimit" = "x-" ] && ratelimit=
if [ -n "$ratelimit" ]; then
case $ratelimit in
*:*)
ratelimit="-m limit --limit ${ratelimit%:*} --limit-burst ${ratelimit#*:}"
;;
*)
ratelimit="-m limit --limit $ratelimit"
;;
esac
fi
# Isolate log level
if [ "$target" = "${target%:*}" ]; then
loglevel=
else
loglevel="${target#*:}"
target="${target%%:*}"
expandv loglevel
if [ "$loglevel" != "${loglevel%:*}" ]; then
logtag="${loglevel#*:}"
loglevel="${loglevel%:*}"
expandv logtag
fi
if [ "$loglevel" = none ]; then
[ "$target" = LOG ] && return
loglevel=
logtag=
fi
loglevel=${loglevel%\!}
fi
#
# Save the original target in 'logtarget' for logging rules
#
logtarget=${target%-}
#
# Targets ending in "-" only apply to the nat table
#
[ $target = $logtarget ] && dnat_only= || dnat_only=Yes
# Tranform the rule:
#
# - parse the user specification
# - set 'target' to the filter table target.
# - make $FW the destination for REDIRECT
# - remove '-' suffix from logtargets while setting 'dnat_only'
# - clear 'address' if it has been set to '-'
[ "x$userspec" = x- ] && userspec=
[ "x$address" = "x-" ] && address=
if [ -n "$userspec" ]; then
case "$userspec" in
!*:*)
if [ "$userspec" != "!:" ]; then
userandgroup="-m owner"
temp="${userspec#!}"
temp="${temp%:*}"
[ -n "$temp" ] && userandgroup="$userandgroup ! --uid-owner $temp"
temp="${userspec#*:}"
[ -n "$temp" ] && userandgroup="$userandgroup ! --gid-owner $temp"
fi
;;
*:*)
if [ "$userspec" != ":" ]; then
userandgroup="-m owner"
temp="${userspec%:*}"
[ -n "$temp" ] && userandgroup="$userandgroup --uid-owner $temp"
temp="${userspec#*:}"
[ -n "$temp" ] && userandgroup="$userandgroup --gid-owner $temp"
fi
;;
!*)
userandgroup="-m owner ! --uid-owner ${userspec#!}"
;;
*)
userandgroup="-m owner --uid-owner $userspec"
;;
esac
fi
case $target in
ACCEPT+|NONAT)
nonat=Yes
target=ACCEPT
;;
ACCEPT|LOG)
;;
DROP)
[ -n "$ratelimit" ] && fatal_error "Rate Limiting not available with DROP"
;;
REJECT)
target=reject
;;
CONTINUE)
target=RETURN
;;
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 "$clients" ] && \
fatal_error "Empty source zone or qualifier: rule \"$rule\""
fi
if [ "$clientzone" = "${clientzone%!*}" ]; then
excludezones=
else
excludezones="${clientzone#*!}"
clientzone="${clientzone%!*}"
[ "$logtarget" = DNAT ] || [ "$logtarget" = REDIRECT ] ||\
fatal_error "Exclude list only allowed with DNAT or REDIRECT"
fi
validate_zone $clientzone || fatal_error "Undefined Client Zone in rule \"$rule\""
# Parse and validate destination
source=$clientzone
if [ $source = $FW ]; then
source_hosts=
elif [ -n "$userspec" ]; then
fatal_error "Invalid use of a user-qualification: rule \"$rule\""
else
eval source_hosts=\"\$${source}_hosts\"
fi
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 "$serverport" ] && \
fatal_error "Empty destination zone or server port: rule \"$rule\""
else
serverport=
[ -z "$serverzone" -o -z "$servers" ] && \
fatal_error "Empty destination zone or qualifier: rule \"$rule\""
fi
fi
if ! validate_zone $serverzone; then
fatal_error "Undefined Server Zone in rule \"$rule\""
fi
dest=$serverzone
# Ensure that this rule doesn't apply to a NONE policy pair of zones
chain=${source}2${dest}
eval policy=\$${chain}_policy
[ -z "$policy" ] && \
fatal_error "No policy defined from zone $source to zone $dest"
[ $policy = NONE ] && \
fatal_error "Rules may not override a NONE policy: rule \"$rule\""
# Create the canonical chain if it doesn't already exist
[ $COMMAND = check ] || ensurechain $chain
# Generate Netfilter rule(s)
protocol=${protocol:=all}
case $logtarget in
DNAT*)
if [ -n "$MULTIPORT" ] && \
! list_search $protocol "icmp" "ICMP" "1" && \
[ "$ports" = "${ports%:*}" -a \
"$cports" = "${cports%:*}" -a \
$(list_count $ports) -le 15 -a \
$(list_count $cports) -le 15 ]
then
#
# MULTIPORT is enabled, there are no port ranges in the rule and less than
# 16 ports are listed - use multiport match.
#
multioption="-m multiport"
for client in $(separate_list ${clients:=-}); do
#
# add_a_rule() modifies these so we must set their values each time
#
server=${servers:=-}
port=${ports:=-}
cport=${cports:=-}
add_a_rule
done
else
#
# MULTIPORT is disabled or the rule isn't compatible with multiport match
#
multioption=
for client in $(separate_list ${clients:=-}); do
for port in $(separate_list ${ports:=-}); do
for cport in $(separate_list ${cports:=-}); do
server=${servers:=-}
add_a_rule
done
done
done
fi
;;
*)
if [ -n "$MULTIPORT" ] && \
! list_search $protocol "icmp" "ICMP" "1" && \
[ "$ports" = "${ports%:*}" -a \
"$cports" = "${cports%:*}" -a \
$(list_count $ports) -le 15 -a \
$(list_count $cports) -le 15 ]
then
#
# MULTIPORT is enabled, there are no port ranges in the rule and less than
# 16 ports are listed - use multiport match.
#
multioption="-m multiport"
for client in $(separate_list ${clients:=-}); do
for server in $(separate_list ${servers:=-}); do
#
# add_a_rule() modifies these so we must set their values each time
#
port=${ports:=-}
cport=${cports:=-}
add_a_rule
done
done
else
#
# MULTIPORT is disabled or the rule isn't compatible with multiport match
#
multioption=
for client in $(separate_list ${clients:=-}); do
for server in $(separate_list ${servers:=-}); do
for port in $(separate_list ${ports:=-}); do
for cport in $(separate_list ${cports:=-}); do
add_a_rule
done
done
done
done
fi
;;
esac
#
# Report Result
#
if [ $COMMAND = check ]; then
progress_message " Rule \"$rule\" checked."
else
progress_message " Rule \"$rule\" added."
fi
}
#
# Process the rules file for the 'start', 'restart' or 'check' command.
#
process_rules()
{
#
# Process a rule where the source or destination is "all"
#
process_wildcard_rule() {
local yclients yservers ysourcezone ydestzone ypolicy
for yclients in $xclients; do
for yservers in $xservers; do
ysourcezone=${yclients%%:*}
ydestzone=${yservers%%:*}
if [ "${ysourcezone}" != "${ydestzone}" ] ; then
eval ypolicy=\$${ysourcezone}2${ydestzone}_policy
if [ "$ypolicy" != NONE ] ; then
process_rule $xtarget $yclients $yservers $xprotocol $xports $xcports $xaddress $xratelimit $xuserspec
fi
fi
done
done
}
do_it() {
expandv xclients xservers xprotocol xports xcports xaddress xratelimit xuserspec
if [ "x$xclients" = xall ]; then
xclients="$zones $FW"
if [ "x$xservers" = xall ]; then
xservers="$zones $FW"
fi
process_wildcard_rule
continue
fi
if [ "x$xservers" = xall ]; then
xservers="$zones $FW"
process_wildcard_rule
continue
fi
process_rule $xtarget $xclients $xservers $xprotocol $xports $xcports $xaddress $xratelimit $xuserspec
}
while read xtarget xclients xservers xprotocol xports xcports xaddress xratelimit xuserspec; do
rule="$(echo $xtarget $xclients $xservers $xprotocol $xports $xcports $xaddress $xratelimit $xuserspec)"
expandv xtarget
case "${xtarget%%:*}" in
ACCEPT|ACCEPT+|NONAT|DROP|REJECT|DNAT|DNAT-|REDIRECT|REDIRECT-|LOG|CONTINUE|QUEUE)
do_it
;;
*)
if list_search ${xtarget%%:*} $ACTIONS; then
if ! list_search $xtarget $USEDACTIONS; then
createactionchain $xtarget
USEDACTIONS="$USEDACTIONS $xtarget"
fi
xtarget=$(find_logactionchain $xtarget)
do_it
else
fatal_error "Invalid Action in rule \"$rule\""
fi
;;
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
*.*.*)
#
# IP Address or networks
#
src="$(source_ip_range $src)"
;;
~*)
src=$(mac_match $src)
;;
*)
#
# Assume that this is a device name
#
if ! verify_interface $src ; then
error_message "Warning: Unknown Interface in rule \"$rule\" ignored"
return
fi
src="$(match_source_dev $src)"
;;
esac
#
# Parse the contents of the 'dst' variable
#
if [ "$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
*.*.*)
#
# IP Address or networks
#
;;
*)
#
# 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 $dst; do
dest="$(dest_ip_range $dest)"
case $srczone in
$FW)
run_iptables2 -t mangle -A outtos \
$protocol $dest $dports $sports $tos
;;
all|ALL)
run_iptables2 -t mangle -A outtos \
$protocol $dest $dports $sports $tos
run_iptables2 -t mangle -A pretos \
$protocol $dest $dports $sports $tos
;;
*)
if [ -n "$src" ]; then
run_iptables2 -t mangle -A pretos $src \
$protocol $dest $dports $sports $tos
else
eval interfaces=\$${srczone}_interfaces
for interface in $interfaces; do
run_iptables2 -t mangle -A pretos -i $interface \
$protocol $dest $dports $sports $tos
done
fi
;;
esac
done
progress_message " Rule \"$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
}
#
# Display elements of a list with leading white space
#
display_list() # $1 = List Title, rest of $* = list to display
{
[ $# -gt 1 ] && echo " $*"
}
#
# 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)
[ -n "$ACCEPT_common" ] && run_iptables -A $1 -j $ACCEPT_common
;;
DROP)
[ -n "$DROP_common" ] && run_iptables -A $1 -j $DROP_common
;;
REJECT)
[ -n "$REJECT_common" ] && run_iptables -A $1 -j $REJECT_common
target=reject
;;
CONTINUE)
target=
;;
*)
fatal_error "Invalid policy ($policy) for $1"
;;
esac
if [ $# -eq 3 -a "x${3}" != "x-" ]; then
log_rule $3 $1 $2
fi
[ -n "$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()
{
#
# Generate policy file column values from the policy chain
#
eval policy=\$${chain1}_policy
eval loglevel=\$${chain1}_loglevel
eval synparams=\$${chain1}_synparams
#
# Add the appropriate rules to the canonical chain ($chain) to enforce
# the specified policy
if [ "$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
progress_message " Policy $policy for $1 to $2 using chain $chain"
}
eval chain1=\$${1}2${2}_policychain
if [ -n "$chain1" ]; then
apply_default $1 $2
else
fatal_error "No default policy for zone $1 to zone $2"
fi
}
#
# 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=
local policychain=
run_user_exit $1
eval policychain=\$${2}2${3}_policychain
if [ -n "$policychain" ]; then
eval policy=\$${policychain}_policy
eval loglevel=\$${policychain}_loglevel
policy_rules $1 $policy $loglevel
else
policy_rules $1 DROP INFO
fi
}
#
# 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; }
[ "$1" = "$2" ] && { echo ACCEPT; return; }
eval chain=\$${chain}_policychain
[ -n "$chain" ] && { echo $chain; return; }
fatal_error "No appropriate chain for zone $1 to zone $2"
}
#
# echo the list of networks routed out of a given interface
#
get_routed_networks() # $1 = interface name
{
local address
local rest
ip route show dev $1 2> /dev/null |
while read address rest; do
if [ "x$address" = xdefault ]; then
error_message "Warning: default route ignored on interface $1"
else
[ "$address" = "${address%/*}" ] && address="${address}/32"
echo $address
fi
done
}
#
# Set up Source NAT (including masquerading)
#
setup_masq()
{
do_ipsec_options() {
local options=$(separate_list $ipsec) option
policy ="-m policy --pol ipsec --dir out"
options=$(separate_list $options)
for option in $options; do
case $option in
strict) policy="$policy --strict" ;;
next) policy="$policy --next" ;;
reqid=*) policy="$policy --reqid ${option#*=}" ;;
spi=*) policy="$policy --spi ${option#*=}" ;;
proto=*) policy="$policy --proto ${option#*=}" ;;
mode=*) policy="$policy --mode ${option#*=}" ;;
tunnel-src=*) policy="$policy --tunnel-src ${option#*=}" ;;
tunnel-dst=*) policy="$policy --tunnel-dst ${option#*=}" ;;
reqid!=*) policy="$policy ! --reqid ${option#*=}" ;;
spi!=*) policy="$policy ! --spi ${option#*=}" ;;
proto!=*) policy="$policy ! --proto ${option#*=}" ;;
mode!=*) policy="$policy ! --mode ${option#*=}" ;;
tunnel-src!=*) policy="$policy ! --tunnel-src ${option#*=}" ;;
tunnel-dst!=*) policy="$policy ! --tunnel-dst ${option#*=}" ;;
*) fatal_error "Invalid IPSEC option \"$option\"" ;;
esac
done
}
setup_one() {
local add_snat_aliases=$ADD_SNAT_ALIASES, pre_nat= policy=
[ "x$ipsec" = x- ] && ipsec=
case $ipsec in
Yes|yes)
[ -n "$POLICY_MATCH" ] || \
fatal_error "IPSEC=Yes requires policy match support in your kernel and iptables"
policy="-m policy --pol ipsec --dir out"
;;
No|no)
[ -n "$POLICY_MATCH" ] || \
fatal_error "IPSEC=No requires policy match support in your kernel and iptables"
policy="-m policy --pol none --dir out"
;;
*)
[ -n "$ipsec" ] && do_ipsec_options || [ -n "$POLICY_MATCH" ] && policy="-m policy --pol none --dir out"
;;
esac
case $fullinterface in
+*)
pre_nat=Yes
fullinterface=${fullinterface#+}
;;
esac
case $fullinterface in
*::*)
add_snat_aliases=
destnets="${fullinterface##*:}"
fullinterface="${fullinterface%:*}"
;;
*:*:*)
# Both alias name and networks
destnets="${fullinterface##*:}"
fullinterface="${fullinterface%:*}"
;;
*:)
add_snat_aliases=
fullinterface=${fullinterface%:}
destnets="0.0.0.0/0"
;;
*:*)
# Alias name OR networks
case ${fullinterface#*:} in
*.*)
# It's a networks
destnets="${fullinterface#*:}"
fullinterface="${fullinterface%:*}"
;;
*)
#it's an alias name
destnets="0.0.0.0/0"
;;
esac
;;
*)
destnets="0.0.0.0/0"
;;
esac
interface=${fullinterface%:*}
if ! list_search $interface $ALL_INTERFACES; then
fatal_error "Unknown interface $interface"
fi
if [ "$networks" = "${networks%!*}" ]; then
nomasq=
else
nomasq="${networks#*!}"
networks="${networks%!*}"
fi
source="$networks"
case $networks in
*.*.*)
;;
*)
networks=$(get_routed_networks $networks)
[ -z "$networks" ] && fatal_error "Unable to determine the routes through interface $networks"
networks="$networks"
;;
esac
[ "x$addresses" = x- ] && addresses=
if [ -n "$addresses" -a -n "$add_snat_aliases" ]; then
for address in $(separate_list $addresses); do
address=${address%:)}
if [ -n "$address" ]; then
for addr in $(ip_range_explicit ${address%:*}) ; do
if ! list_search $addr $aliases_to_add; then
[ -n "$RETAIN_ALIASES" ] || save_command qt ip addr del $addr dev $interface
aliases_to_add="$aliases_to_add $addr $fullinterface"
case $fullinterface in
*:*)
fullinterface=${fullinterface%:*}:$((${fullinterface#*:} + 1 ))
;;
esac
fi
done
fi
done
fi
[ "x$proto" = x- ] && proto=
[ "x$ports" = x- ] && ports=
if [ -n "$proto" ]; then
displayproto="($proto)"
case $proto in
tcp|TCP|udp|UDP|6|17)
if [ -n "$ports" ]; then
displayproto="($proto $ports)"
listcount=$(list_count $ports)
if [ $listcount -gt 1 ]; then
case $ports in
*:*)
fatal_error "Port Range not allowed in list ($ports)"
;;
*)
if [ -n "$MULTIPORT" ]; then
[ $listcount -le 15 ] || fatal_error "More than 15 entries in port list ($ports)"
ports="-m multiport --dports $ports"
else
fatal_error "Port Ranges require multiport match support in your kernel ($ports)"
fi
;;
esac
else
ports="--dport $ports"
fi
fi
;;
*)
[ -n "$ports" ] && fatal_error "Ports only allowed with UDP or TCP ($ports)"
;;
esac
proto="-p $proto"
else
displayproto="(all)"
[ -n "$ports" ] && fatal_error "Ports only allowed with UDP or TCP ($ports)"
fi
destination=$destnets
[ -z "$pre_nat" ] && chain=$(masq_chain $interface) || chain=$(snat_chain $interface)
case $destnets in
!*)
newchain=masq${masq_seq}
createnatchain $newchain
destnets=${destnets#!}
for destnet in $(separate_list $destnets); do
addnatrule $newchain $(dest_ip_range $destnet) -j RETURN
done
if [ -n "$networks" ]; then
for s in $networks; do
addnatrule $chain $(source_ip_range $s) $proto $ports $policy -j $newchain
done
networks=
else
addnatrule $chain -j $newchain
fi
masq_seq=$(($masq_seq + 1))
chain=$newchain
destnets=0.0.0.0/0
proto=
ports=
policy=
if [ -n "$nomasq" ]; then
for addr in $(separate_list $nomasq); do
addnatrule $chain $(source_ip_range $addr) -j RETURN
done
source="$source except $nomasq"
fi
;;
*)
if [ -n "$nomasq" ]; then
newchain=masq${masq_seq}
createnatchain $newchain
if [ -n "$networks" ]; then
for s in $networks; do
for destnet in $(separate_list $destnets); do
addnatrule $chain $(both_ip_ranges $s $destnet) $proto $ports -j $newchain
done
done
else
for destnet in $(separate_list $destnets); do
addnatrule $chain $(dest_ip_range $destnet) $proto $ports $policy -j $newchain
done
fi
masq_seq=$(($masq_seq + 1))
chain=$newchain
networks=
destnets=0.0.0.0/0
proto=
ports=
policy=
for addr in $(separate_list $nomasq); do
addnatrule $chain $(source_ip_range $addr) -j RETURN
done
source="$source except $nomasq"
fi
;;
esac
addrlist=
target=MASQUERADE
if [ -n "$addresses" ]; then
for address in $(separate_list $addresses); do
case $address in
*.*.*.*)
target=SNAT
addrlist="$addrlist --to-source $address"
;;
*)
addrlist="$addrlist --to-ports ${address#:}"
;;
esac
done
fi
if [ -n "$networks" ]; then
for network in $networks; do
for destnet in $(separate_list $destnets); do
addnatrule $chain $(both_ip_ranges $network $destnet) $proto $ports $policy -j $target $addrlist
done
if [ -n "$addresses" ]; then
progress_message " To $destination $displayproto from $network through ${interface} using $addresses"
else
progress_message " To $destination $displayproto from $network through ${interface}"
fi
done
else
for destnet in $(separate_list $destnets); do
addnatrule $chain $(dest_ip_range $destnet) $proto $ports $policy -j $target $addrlist
done
if [ -n "$addresses" ]; then
progress_message " To $destination $displayproto from $source through ${interface} using $addresses"
else
progress_message " To $destination $displayproto from $source through ${interface}"
fi
fi
}
strip_file masq $1
if [ -n "$NAT_ENABLED" ]; then
echo "Masqueraded Networks and Hosts:"
[ -n "$RETAIN_ALIASES" ] || save_progress_message "Restoring Masquerading/SNAT..."
fi
while read fullinterface networks addresses proto ports ipsec; do
expandv fullinterface networks addresses proto ports ipsec
[ -n "$NAT_ENABLED" ] && setup_one || \
error_message "Warning: NAT disabled; masq rule ignored"
done < $TMP_DIR/masq
}
#
# Add a record to the blacklst chain
#
# $source = address match
# $proto = protocol selector
# $dport = destination port selector
#
add_blacklist_rule() {
if [ -n "$BLACKLIST_LOGLEVEL" ]; then
log_rule $BLACKLIST_LOGLEVEL blacklst $BLACKLIST_DISPOSITION $(fix_bang $source $proto $dport)
fi
run_iptables2 -A blacklst $source $proto $dport -j $disposition
}
#
# Process a record from the blacklist file
#
# $networks = address/networks
# $protocol = Protocol Number/Name
# $port = Port Number/Name
#
process_blacklist_rec() {
local source
local addr
local proto
local dport
for addr in $(separate_list $networks); do
case $addr in
~*)
addr=$(echo $addr | sed 's/~//;s/-/:/g')
source="--match mac --mac-source $addr"
;;
*)
source="$(source_ip_range $addr)"
;;
esac
if [ -n "$protocol" ]; then
proto=" -p $protocol "
case $protocol in
tcp|TCP|6|udp|UDP|17)
if [ -n "$ports" ]; then
if [ -n "$MULTIPORT" -a \
"$ports" != "${ports%,*}" -a \
"$ports" = "${ports%:*}" -a \
$(list_count $ports) -le 15 ]
then
dport="-m multiport --dports $ports"
add_blacklist_rule
else
for dport in $(separate_list $ports); do
dport="--dport $dport"
add_blacklist_rule
done
fi
else
add_blacklist_rule
fi
;;
icmp|ICMP|0)
if [ -n "$ports" ]; then
for dport in $(separate_list $ports); do
dport="--icmp-type $dport"
add_blacklist_rule
done
else
add_blacklist_rule
fi
;;
*)
add_blacklist_rule
;;
esac
else
add_blacklist_rule
fi
if [ -n "$ports" ]; then
addr="$addr $protocol $ports"
elif [ -n "$protocol" ]; then
addr="$addr $protocol"
fi
progress_message " $addr added to Black List"
done
}
#
# Setup the Black List
#
setup_blacklist() {
local hosts="$(find_hosts_by_option blacklist)"
local f=$(find_file blacklist)
local disposition=$BLACKLIST_DISPOSITION
local ipsec policy
if [ -n "$hosts" -a -f $f ]; then
echo "Setting up Blacklisting..."
strip_file blacklist $f
createchain blacklst no
[ -n "$BLACKLISTNEWONLY" ] && state="-m state --state NEW,INVALID" || state=
for host in $hosts; do
ipsec=${host%^*}
host=${host#*^}
[ -n "$POLICY_MATCH" ] && policy="-m policy --pol $ipsec --dir in" || policy=
interface=${host%%:*}
network=${host#*:}
for chain in $(first_chains $interface); do
run_iptables -A $chain $state $(match_source_hosts $network) $policy -j blacklst
done
[ $network = 0/0.0.0.0 ] && network= || network=":$network"
progress_message " Blacklisting enabled on ${interface}${network}"
done
[ "$disposition" = REJECT ] && disposition=reject
if [ -z "$DELAYBLACKLISTLOAD" ]; then
while read networks protocol ports; do
expandv networks protocol ports
process_blacklist_rec
done < $TMP_DIR/blacklist
fi
fi
}
#
# Refresh the Black List
#
refresh_blacklist() {
local f=$(find_file blacklist)
local disposition=$BLACKLIST_DISPOSITION
if qt iptables -L blacklst -n ; then
echo "Loading Black List..."
strip_file blacklist $f
[ "$disposition" = REJECT ] && disposition=reject
run_iptables -F blacklst
while read networks protocol ports; do
expandv networks protocol ports
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.*|2.6.*)
;;
*)
startup_error "Shorewall version $version does not work with kernel version $osversion"
;;
esac
[ $COMMAND = start -a -n "$(lsmod 2> /dev/null | grep '^ipchains')" ] && \
startup_error "Shorewall can't start with the ipchains kernel module loaded - see FAQ #8"
}
#
# Add IP Aliases
#
add_ip_aliases()
{
local addresses external interface inet cidr rest val
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)
if [ -n "$RETAIN_ALIASES" ]; then
run_ip addr add ${external}${val} dev $interface $label
save_command qt ip addr add ${external}${val} dev $interface $label
else
ensure_and_save_command ip addr add ${external}${val} dev $interface $label
fi
echo "$external $interface" >> ${STATEDIR}/nat
[ -n "$label" ] && label="with $label"
progress_message " IP Address $external added to interface $interface $label"
}
set -- $aliases_to_add
save_progress_message "Restoring 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;shift
list_search $external $(find_interface_addresses $interface) || do_one
done
}
#
# Load kernel modules required for Shorewall
#
load_kernel_modules()
{
save_modules_dir=$MODULESDIR
[ -z "$MODULESDIR" ] && \
MODULESDIR=/lib/modules/$(uname -r)/kernel/net/ipv4/netfilter
modules=$(find_file modules)
if [ -f $modules -a -d $MODULESDIR ]; then
progress_message "Loading Modules..."
. $modules
fi
MODULESDIR=$save_modules_dir
}
save_load_kernel_modules()
{
modules=$(find_file modules)
save_progress_message "Loading kernel modules..."
save_command "reload_kernel_modules <<__EOF__"
while read command; do
case "$command" in
loadmodule*)
save_command $command
;;
esac
done < $modules
save_command __EOF__
}
# Verify that the 'ip' program is installed
verify_ip() {
qt ip link ls ||\
startup_error "Shorewall $version requires the iproute package ('ip' utility)"
}
#
# Determine which optional facilities are supported by iptables/netfilter
#
determine_capabilities() {
qt iptables -t nat -L -n && NAT_ENABLED=Yes || NAT_ENABLED=
qt iptables -t mangle -L -n && MANGLE_ENABLED=Yes || MANGLE_ENABLED=
CONNTRACK_MATCH=
MULTIPORT=
POLICY_MATCH=
PHYSDEV_MATCH=
IPRANGE_MATCH=
if qt iptables -N fooX1234 ; then
qt iptables -A fooX1234 -m conntrack --ctorigdst 192.168.1.1 -j ACCEPT && CONNTRACK_MATCH=Yes
qt iptables -A fooX1234 -p tcp -m multiport --dports 21,22 -j ACCEPT && MULTIPORT=Yes
qt iptables -A fooX1234 -m policy --pol ipsec --dir in -j ACCEPT && POLICY_MATCH=Yes
qt iptables -A fooX1234 -m physdev --physdev-in eth0 -j ACCEPT && PHYSDEV_MATCH=Yes
qt iptables -A fooX1234 -m iprange --src-range 192.168.1.5-192.168.1.124 -j ACCEPT && IPRANGE_MATCH=Yes
if [ -n "$PKTTYPE" ]; then
qt iptables -A fooX1234 -m pkttype --pkt-type broadcast -j ACCEPT || PKTTYPE=
fi
qt iptables -F fooX1234
qt iptables -X fooX1234
fi
}
report_capability() # $1 = Capability Name, $2 Capability Setting (if any)
{
local setting=
[ "x$1" = "xYes" ] && { setting="Available"; shift; } || setting="Not available"
echo " " $@: $setting
}
report_capabilities() {
echo "Shorewall has detected the following iptables/netfilter capabilities:"
report_capability $NAT_ENABLED "NAT"
report_capability $MANGLE_ENABLED "Packet Mangling"
report_capability $MULTIPORT "Multi-port Match"
report_capability $CONNTRACK_MATCH "Connection Tracking Match"
report_capability $PKTTYPE "Packet Type Match"
report_capability $POLICY_MATCH "Policy Match"
report_capability $PHYSDEV_MATCH "Physdev Match"
report_capability $IPRANGE_MATCH "IP range Match"
}
#
# Perform Initialization
# - Delete all old rules
# - Delete all user chains
# - Set the POLICY on all standard chains and add a rule to allow packets
# that are part of established connections
# - Determine the zones
#
initialize_netfilter () {
report_capabilities
if [ -n "$BRIDGING" ]; then
[ -n "$PHYSDEV_MATCH" ] || startup_error "BRIDGING=Yes requires Physdev Match support in your Kernel and iptables"
fi
echo "Determining Zones..."
determine_zones
[ -z "$zones" ] && startup_error "No Zones Defined"
display_list "Zones:" $zones
echo "Validating interfaces file..."
validate_interfaces_file
echo "Validating hosts file..."
validate_hosts_file
echo "Validating Policy file..."
validate_policy
echo "Determining Hosts in Zones..."
determine_interfaces
determine_hosts
run_user_exit init
#
# The some files might be large so strip them while the firewall is still running
# (restart command). This reduces the length of time that the firewall isn't
# accepting new connections.
#
strip_file rules
strip_file proxyarp
strip_file maclist
strip_file nat
strip_file netmap
echo "Pre-processing Actions..."
process_actions1
terminator=fatal_error
deletechain shorewall
[ -n "$NAT_ENABLED" ] && delete_nat
delete_proxy_arp
[ -n "$MANGLE_ENABLED" ] && \
run_iptables -t mangle -F && \
run_iptables -t mangle -X
[ -n "$CLEAR_TC" ] && delete_tc
echo "Deleting user chains..."
exists_INPUT=Yes
exists_OUTPUT=Yes
exists_FORWARD=Yes
setpolicy INPUT DROP
setpolicy OUTPUT DROP
setpolicy FORWARD DROP
deleteallchains
setcontinue FORWARD
setcontinue INPUT
setcontinue OUTPUT
[ -n "$DISABLE_IPV6" ] && disable_ipv6
#
# Enable the Loopback interface for now
#
run_iptables -A INPUT -i lo -j ACCEPT
run_iptables -A OUTPUT -o lo -j ACCEPT
accounting_file=$(find_file accounting)
[ -f $accounting_file ] && setup_accounting $accounting_file
#
# Allow DNS lookups during startup for FQDNs and deep-six INVALID packets
#
for chain in INPUT OUTPUT FORWARD; do
run_iptables -A $chain -p udp --dport 53 -j ACCEPT
run_iptables -A $chain -p ! icmp -m state --state INVALID -j DROP
done
if [ -n "$CLAMPMSS" ]; then
case $CLAMPMSS in
Yes)
option="--clamp-mss-to-pmtu"
;;
*)
option="--set-mss $CLAMPMSS"
;;
esac
run_iptables -A FORWARD -p tcp --tcp-flags SYN,RST SYN -j TCPMSS $option
fi
if [ -z "$NEWNOTSYN" ]; then
createchain newnotsyn no
for host in $(find_hosts_by_option newnotsyn); do
ipsec=${host%^*}
host=${host#*^}
[ -n "$POLICY_MATCH" ] && policy="-m policy --pol $ipsec --dir in" || policy=
interface=${host%%:*}
network=${host#*:}
run_iptables -A newnotsyn -i $interface $(match_source_hosts $network) $policy -p tcp --tcp-flags ACK ACK -j ACCEPT
run_iptables -A newnotsyn -i $interface $(match_source_hosts $network) $policy -p tcp --tcp-flags RST RST -j ACCEPT
run_iptables -A newnotsyn -i $interface $(match_source_hosts $network) $policy -p tcp --tcp-flags FIN FIN -j ACCEPT
run_iptables -A newnotsyn -i $interface $(match_source_hosts $network) $policy -j RETURN
done
run_user_exit newnotsyn
if [ -n "$LOGNEWNOTSYN" ]; then
log_rule $LOGNEWNOTSYN newnotsyn DROP
fi
run_iptables -A newnotsyn -j DROP
fi
createchain icmpdef no
createchain reject no
createchain dynamic no
createchain smurfs no
if [ -f /var/lib/shorewall/save ]; then
echo "Restoring dynamic rules..."
if [ -f /var/lib/shorewall/save ]; then
while read target ignore1 ignore2 address rest; do
case $target in
DROP|reject)
run_iptables2 -A dynamic $(source_ip_range $address) -j $target
;;
*)
;;
esac
done < /var/lib/shorewall/save
fi
fi
[ -n "$BLACKLISTNEWONLY" ] && state="-m state --state NEW,INVALID" || state=
echo "Creating Interface Chains..."
for interface in $ALL_INTERFACES; do
createchain $(forward_chain $interface) no
run_iptables -A $(forward_chain $interface) $state -j dynamic
createchain $(input_chain $interface) no
run_iptables -A $(input_chain $interface) $state -j dynamic
done
}
#
# Construct zone-independent rules
#
add_common_rules() {
local savelogparms="$LOGPARMS"
local broadcasts="$(find_broadcasts) 255.255.255.255 224.0.0.0/4"
drop_broadcasts() {
for address in $broadcasts ; do
run_iptables -A reject -d $address -j DROP
done
}
#
# Populate the smurf chain
#
for address in $broadcasts ; do
[ -n "$SMURF_LOG_LEVEL" ] && log_rule $SMURF_LOG_LEVEL smurfs DROP -s $address
run_iptables -A smurfs $(source_ip_range $address) -j DROP
done
#
# Reject Rules -- Don't respond to broadcasts with an ICMP
#
if [ -n "$PKTTYPE" ]; then
qt iptables -A reject -m pkttype --pkt-type broadcast -j DROP
if ! qt iptables -A reject -m pkttype --pkt-type multicast -j DROP; then
#
# No pkttype support -- do it the hard way
#
drop_broadcasts
fi
else
drop_broadcasts
fi
#
# Don't feed the smurfs
#
for address in $broadcasts ; do
run_iptables -A reject -s $address -j DROP
done
run_iptables -A reject -p tcp -j REJECT --reject-with tcp-reset
run_iptables -A reject -p udp -j REJECT
#
# Not all versions of iptables support these so don't complain if they don't work
#
qt iptables -A reject -p icmp -j REJECT --reject-with icmp-host-unreachable
if ! qt iptables -A reject -j REJECT --reject-with icmp-host-prohibited; then
#
# In case the above doesn't work
#
run_iptables -A reject -j REJECT
fi
#
# Create common action chains
#
for action in $USEDACTIONS; do
createactionchain $action
done
run_user_exit initdone
#
# Process Black List
#
setup_blacklist
#
# SMURFS
#
hosts=$(find_hosts_by_option nosmurfs)
if [ -n "$hosts" ]; then
echo "Adding Anti-smurf Rules"
for host in $hosts; do
ipsec=${host%^*}
host=${host#*^}
[ -n "$POLICY_MATCH" ] && policy="-m policy --pol $ipsec --dir in" || policy=
interface=${host%%:*}
network=${host#*:}
for chain in $(first_chains $interface); do
run_iptables -A $chain -m state --state NEW $(match_source_hosts $network) $policy -j smurfs
done
done
fi
#
# DHCP
#
interfaces=$(find_interfaces_by_option dhcp)
if [ -n "$interfaces" ]; then
echo "Adding rules for DHCP"
if [ -n "$POLICY_MATCH" ]; then
policyin="-m policy --dir in --pol none"
policyout="-m policy --dir out --pol none"
else
policyin=
policyout=
fi
for interface in $interfaces; do
if [ -n "$BRIDGING" ]; then
eval is_bridge=\$$(chain_base $interface)_ports
[ -n "$is_bridge" ] && \
iptables -A $(forward_chain $interface) -p udp -o $interface --dport 67:68 $policyin -j ACCEPT
fi
run_iptables -A $(input_chain $interface) -p udp --dport 67:68 $policyin -j ACCEPT
run_iptables -A OUTPUT -o $interface -p udp --dport 67:68 $policyout -j ACCEPT
done
fi
#
# RFC 1918
#
hosts="$(find_hosts_by_option norfc1918)"
if [ -n "$hosts" ]; then
echo "Enabling RFC1918 Filtering"
strip_file rfc1918
createchain norfc1918 no
createchain rfc1918 no
log_rule $RFC1918_LOG_LEVEL rfc1918 DROP
run_iptables -A rfc1918 -j DROP
if [ -n "$MANGLE_ENABLED" -a -z "$CONNTRACK_MATCH" ]; then
#
# Mangling is enabled but conntrack match isn't available --
# 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 rfc1918
log_rule $RFC1918_LOG_LEVEL rfc1918 DROP -t mangle
run_iptables -t mangle -A rfc1918 -j DROP
fi
while read networks target; do
case $target in
logdrop)
target=rfc1918
;;
DROP|RETURN)
;;
*)
fatal_error "Invalid target ($target) for $networks"
;;
esac
run_iptables2 -A norfc1918 $(source_ip_range $networks) -j $target
if [ -n "$CONNTRACK_MATCH" ]; then
#
# We have connection tracking match -- match on the original destination
#
run_iptables2 -A norfc1918 -m conntrack --ctorigdst $networks -j $target
elif [ -n "$MANGLE_ENABLED" ]; then
#
# No connection tracking match but we have mangling -- add a rule to
# the mangle table
#
run_iptables2 -t mangle -A man1918 $(dest_ip_range $networks) -j $target
fi
done < $TMP_DIR/rfc1918
for host in $hosts; do
ipsec=${host%^*}
host=${host#*^}
[ -n "$POLICY_MATCH" ] && policy="-m policy --pol $ipsec --dir in" || policy=
interface=${host%%:*}
networks=${host#*:}
for chain in $(first_chains $interface); do
run_iptables -A $chain -m state --state NEW $(match_source_hosts $networks) $policy -j norfc1918
done
[ -n "$MANGLE_ENABLED" -a -z "$CONNTRACK_MATCH" ] && \
run_iptables -t mangle -A PREROUTING -m state --state NEW -i $interface $(match_source_hosts $networks) -j man1918
done
fi
#
# Bogons
#
hosts="$(find_hosts_by_option nobogons)"
if [ -n "$hosts" ]; then
echo "Enabling Bogon Filtering"
strip_file bogons
createchain nobogons no
createchain bogons no
log_rule $BOGON_LOG_LEVEL bogons DROP
run_iptables -A bogons -j DROP
while read networks target; do
case $target in
logdrop)
target=bogons
;;
DROP|RETURN)
;;
*)
fatal_error "Invalid target ($target) for $networks"
;;
esac
run_iptables2 -A nobogons $(source_ip_range $networks) -j $target
done < $TMP_DIR/bogons
for host in $hosts; do
ipsec=${host%^*}
host=${host#*^}
[ -n "$POLICY_MATCH" ] && policy="-m policy --pol $ipsec --dir in" || policy=
interface=${host%%:*}
network=${host#*:}
for chain in $(first_chains $interface); do
run_iptables -A $chain -m state --state NEW $(match_source_hosts $network) -j nobogons
done
done
fi
hosts=$(find_hosts_by_option tcpflags)
if [ -n "$hosts" ]; then
echo "Setting up TCP Flags checking..."
createchain tcpflags no
if [ -n "$TCP_FLAGS_LOG_LEVEL" ]; then
createchain logflags no
savelogparms="$LOGPARMS"
LOGPARMS="$LOGPARMS --log-ip-options"
log_rule $TCP_FLAGS_LOG_LEVEL logflags $TCP_FLAGS_DISPOSITION
LOGPARMS="$savelogparms"
case $TCP_FLAGS_DISPOSITION in
REJECT)
run_iptables -A logflags -j REJECT --reject-with tcp-reset
;;
*)
run_iptables -A logflags -j $TCP_FLAGS_DISPOSITION
;;
esac
disposition="-j logflags"
else
disposition="-j $TCP_FLAGS_DISPOSITION"
fi
run_iptables -A tcpflags -p tcp --tcp-flags ALL FIN,URG,PSH $disposition
run_iptables -A tcpflags -p tcp --tcp-flags ALL NONE $disposition
run_iptables -A tcpflags -p tcp --tcp-flags SYN,RST SYN,RST $disposition
run_iptables -A tcpflags -p tcp --tcp-flags SYN,FIN SYN,FIN $disposition
#
# There are a lot of probes to ports 80, 3128 and 8080 that use a source
# port of 0. This catches them even if they are directed at an IP that
# hosts a web server.
#
run_iptables -A tcpflags -p tcp --syn --sport 0 $disposition
for host in $hosts; do
ipsec=${host%^*}
host=${host#*^}
[ -n "$POLICY_MATCH" ] && policy="-m policy --pol $ipsec --dir in" || policy=
interface=${host%%:*}
network=${host#*:}
for chain in $(first_chains $interface); do
run_iptables -A $chain -p tcp $(match_source_hosts $network) $policy -j tcpflags
done
done
fi
#
# ARP Filtering
#
save_progress_message "Restoring ARP filtering..."
for f in /proc/sys/net/ipv4/conf/*; do
run_and_save_command "[ -f $f/arp_filter ] && echo 0 > $f/arp_filter"
done
interfaces=$(find_interfaces_by_option arp_filter)
if [ -n "$interfaces" ]; then
echo "Setting up ARP Filtering..."
for interface in $interfaces; do
file=/proc/sys/net/ipv4/conf/$interface/arp_filter
if [ -f $file ]; then
run_and_save_command "echo 1 > $file"
else
error_message \
"Warning: Cannot set ARP filtering on $interface"
fi
done
fi
#
# Route Filtering
#
interfaces="$(find_interfaces_by_option routefilter)"
if [ -n "$interfaces" -o -n "$ROUTE_FILTER" ]; then
echo "Setting up Kernel Route Filtering..."
save_progress_message "Restoring Route Filtering..."
for f in /proc/sys/net/ipv4/conf/*; do
run_and_save_command "[ -f $f/rp_filter ] && echo 0 > $f/rp_filter"
done
for interface in $interfaces; do
file=/proc/sys/net/ipv4/conf/$interface/rp_filter
if [ -f $file ]; then
run_and_save_command "echo 1 > $file"
else
error_message \
"Warning: Cannot set route filtering on $interface"
fi
done
run_and_save_command "echo 1 > /proc/sys/net/ipv4/conf/all/rp_filter"
if [ -n "$ROUTE_FILTER" ]; then
run_and_save_command "echo 1 > /proc/sys/net/ipv4/conf/default/rp_filter"
run_and_save_command "echo 1 > /proc/sys/net/ipv4/conf/all/rp_filter"
fi
run_and_save_command ip route flush cache
fi
#
# Martian Logging
#
interfaces="$(find_interfaces_by_option logmartians)"
if [ -n "$interfaces" -o -n "$LOG_MARTIANS" ]; then
echo "Setting up Martian Logging..."
save_progress_message "Restoring Martian Logging..."
for f in /proc/sys/net/ipv4/conf/*; do
run_and_save_command "[ -f $f/log_martians ] && echo 0 > $f/log_martians"
done
for interface in $interfaces; do
file=/proc/sys/net/ipv4/conf/$interface/log_martians
if [ -f $file ]; then
run_and_save_command "echo 1 > $file"
else
error_message \
"Warning: Cannot set Martian logging on $interface"
fi
done
if [ -n "$LOG_MARTIANS" ]; then
run_and_save_command "echo 1 > /proc/sys/net/ipv4/conf/default/log_martians"
run_and_save_command "echo 1 > /proc/sys/net/ipv4/conf/all/log_martians"
fi
fi
#
# Source Routing
#
save_progress_message "Restoring Accept Source Routing..."
for f in /proc/sys/net/ipv4/conf/*; do
run_and_save_command "[ -f $f/accept_source_route ] && echo 0 > $f/accept_source_route"
done
interfaces=$(find_interfaces_by_option sourceroute)
if [ -n "$interfaces" ]; then
echo "Setting up Accept Source Routing..."
for interface in $interfaces; do
file=/proc/sys/net/ipv4/conf/$interface/accept_source_route
if [ -f $file ]; then
run_and_save_command "echo 1 > $file"
else
error_message \
"Warning: Cannot set Accept Source Routing on $interface"
fi
done
fi
if [ -n "$DYNAMIC_ZONES" ]; then
echo "Setting up Dynamic Zone Chains..."
for interface in $ALL_INTERFACES; do
for chain in $(dynamic_chains $interface); do
createchain $chain no
done
chain=$(dynamic_in $interface)
createnatchain $chain
run_iptables -A $(input_chain $interface) -j $chain
run_iptables -A $(forward_chain $interface) -j $(dynamic_fwd $interface)
run_iptables -A OUTPUT -j $(dynamic_out $interface)
done
fi
setup_forwarding
}
#
# 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
#
for chain in $all_policy_chains; do
eval policy=\$${chain}_policy
eval loglevel=\$${chain}_loglevel
eval synparams=\$${chain}_synparams
[ -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
#
# The chain doesn't exist. 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 yes
#
# If either client or server is 'all' then this MUST be
# a policy chain and we must apply the appropriate policy rules
#
# Otherwise, this is a canonical chain which will be handled in
# the for loop below
#
case $chain in
all2*|*2all)
policy_rules $chain $policy $loglevel
;;
esac
[ -n "$synparams" ] && \
[ $policy = ACCEPT -o $policy = CONTINUE ] && \
run_iptables -I $chain 2 -p tcp --syn -j @$chain
fi
done
#
# Add policy rules to canonical chains
#
for zone in $FW $zones; do
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
if havenatchain $destchain ; then
run_iptables -t nat -A $sourcechain $@ -j $destchain
else
[ -n "$BRIDGING" -a -f $TMP_DIR/physdev ] && -rm -f $TMP_DIR/physdev
[ -n "$IPRANGE_MATCH" -a -f $TMP_DIR/iprange ] && rm -f $TMP_DIR/iprange
fi
}
#
# Jump to a RULES chain from one of the builtin nat chains. These jumps are
# are inserted before jumps to one-to-one NAT chains.
#
addrulejump() # $1 = BUILTIN chain, $2 = user chain, $3 - * other arguments
{
local sourcechain=$1 destchain=$2
shift
shift
if havenatchain $destchain; then
eval run_iptables -t nat -I $sourcechain \
\$${sourcechain}_rule $@ -j $destchain
eval ${sourcechain}_rule=\$\(\(\$${sourcechain}_rule + 1\)\)
else
[ -n "$BRIDGING" -a -f $TMP_DIR/physdev ] && rm -f $TMP_DIR/physdev
[ -n "$IPRANGE_MATCH" -a -f $TMP_DIR/iprange ] && rm -f $TMP_DIR/iprange
fi
}
#
# Add jumps to early SNAT chains
#
for interface in $ALL_INTERFACES; do
addnatjump POSTROUTING $(snat_chain $interface) -o $interface
done
#
# Add jumps for dynamic nat chains
#
[ -n "$DYNAMIC_ZONES" ] && for interface in $ALL_INTERFACES ; do
addrulejump PREROUTING $(dynamic_in $interface) -i $interface
done
#
# 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
> ${STATEDIR}/chains
> ${STATEDIR}/zones
#
# Create forwarding chains for complex zones and generate jumps for IPSEC source hosts to that chain.
#
for zone in $zones; do
if eval test -n \$${zone}_is_complex ; then
frwd_chain=${zone}_frwd
createchain $frwd_chain No
if [ -n "$POLICY_MATCH" ]; then
eval source_hosts=\$${zone}_hosts
for host in $source_hosts; do
interface=${host%%:*}
networks=${host#*:}
is_ipsec_host $zone $host && \
run_iptables -A $(forward_chain $interface) $(match_source_hosts $networks) $(match_ipsec_in $zone $host) -j $frwd_chain
done
fi
fi
done
for zone in $zones; do
eval source_hosts=\$${zone}_hosts
chain1=$(rules_chain $FW $zone)
chain2=$(rules_chain $zone $FW)
eval complex=\$${zone}_is_complex
if [ -n "$DYNAMIC_ZONES" ]; then
echo $zone $source_hosts >> ${STATEDIR}/zones
echo "$FW $zone $chain1" >> ${STATEDIR}/chains
echo "$zone $FW $chain2" >> ${STATEDIR}/chains
fi
need_broadcast=
for host in $source_hosts; do
interface=${host%%:*}
networks=${host#*:}
run_iptables -A OUTPUT -o $interface $(match_dest_hosts $networks) $(match_ipsec_out $zone $host) -j $chain1
#
# Add jumps from the builtin chains for DNAT and SNAT rules
#
addrulejump PREROUTING $(dnat_chain $zone) -i $interface $(match_source_hosts $networks) $(match_ipsec_in $zone $host)
addrulejump POSTROUTING $(snat_chain $zone) -o $interface $(match_dest_hosts $networks) $(match_ipsec_out $zone $host)
run_iptables -A $(input_chain $interface) $(match_source_hosts $networks) $(match_ipsec_in $zone $host) -j $chain2
if [ -n "$complex" ] && ! is_ipsec_host $zone $host ; then
run_iptables -A $(forward_chain $interface) $(match_source_hosts $networks) $(match_ipsec_in $zone $host) -j $frwd_chain
fi
case $networks in
*.*.*.*)
if [ "$networks" != 0.0.0.0/0 ]; then
if ! list_search $interface $need_broadcast ; then
interface_has_option $interface detectnets && need_broadcast="$need_broadcast $interface"
fi
fi
;;
esac
done
for interface in $need_broadcast ; do
run_iptables -A OUTPUT -o $interface -d 255.255.255.255 -j $chain1
run_iptables -A OUTPUT -o $interface -d 224.0.0.0/4 -j $chain1
done
for zone1 in $zones; do
eval policy=\$${zone}2${zone1}_policy
[ "$policy" = NONE ] && continue
eval dest_hosts=\$${zone1}_hosts
chain="$(rules_chain $zone $zone1)"
[ -n "$DYNAMIC_ZONES" ] && echo "$zone $zone1 $chain" >> ${STATEDIR}/chains
if [ $zone = $zone1 ]; then
#
# Try not to generate superfluous intra-zone rules
#
eval routeback=\"\$${zone}_routeback\"
eval interfaces=\"\$${zone}_interfaces\"
eval ports="\$${zone}_ports"
num_ifaces=$(list_count1 $interfaces)
#
# If the zone has a single interface then what matters is how many ports it has
#
[ $num_ifaces -eq 1 -a -n "$ports" ] && num_ifaces=$(list_count1 $ports)
#
# If we don't need to route back and if we have only one interface or one port to
# the zone then assume that hosts in the zone can communicate directly.
#
if [ $num_ifaces -lt 2 -a -z "$routeback" ] ; then
continue
fi
else
routeback=
num_ifaces=0
fi
if [ -n "$complex" ]; then
for host1 in $dest_hosts; do
interface1=${host1%%:*}
networks1=${host1#*:}
#
# Only generate an intrazone rule if the zone has more than one interface (port) or if
# routeback was specified for this host group
#
if [ $zone != $zone1 -o $num_ifaces -gt 1 ] || list_search $host1 $routeback ; then
run_iptables -A $frwd_chain -o $interface1 $(match_dest_hosts $networks1) $(match_ipsec_out $zone1 $host1) -j $chain
fi
done
else
for host in $source_hosts; do
interface=${host%%:*}
networks=${host#*:}
chain1=$(forward_chain $interface)
for host1 in $dest_hosts; do
interface1=${host1%%:*}
networks1=${host1#*:}
if [ "$host" != "$host1" ] || list_search $host $routeback; then
run_iptables -A $chain1 $(match_source_hosts $networks) -o $interface1 $(match_dest_hosts $networks1) $(match_ipsec_out $zone1 $host1) -j $chain
fi
done
done
fi
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 $interface
#
# Bridges under the 2.4 kernel have the wierd property that REJECTS have the physdev-in and physdev-out set to the input physdev.
# To accomodate this feature/bug, we effectively set 'routeback' on bridge ports.
#
eval ports=\$$(chain_base $interface)_ports
for port in $ports; do
run_iptables -A $(forward_chain $interface) -o $interface -m physdev --physdev-in $port --physdev-out $port -j ACCEPT
done
done
chain=${FW}2${FW}
if havechain $chain; then
#
# There is a fw->fw chain. Send loopback output through that chain
#
run_ip link ls | grep LOOPBACK | while read ordinal interface rest ; do
run_iptables -A OUTPUT -o ${interface%:*} -j $chain
done
#
# And delete the unconditional ACCEPT rule
#
run_iptables -D OUTPUT -o lo -j ACCEPT
fi
complete_standard_chain INPUT all $FW
complete_standard_chain OUTPUT $FW all
complete_standard_chain FORWARD all all
#
# Remove rules added to keep the firewall alive during [re]start"
#
for chain in INPUT OUTPUT FORWARD; do
run_iptables -D $chain -m state --state ESTABLISHED,RELATED -j ACCEPT
run_iptables -D $chain -p udp --dport 53 -j ACCEPT
done
}
#
# Check for disabled startup
#
check_disabled_startup() {
if [ -z "$STARTUP_ENABLED" ]; then
echo " Shorewall Startup is disabled -- to enable startup"
echo " after you have completed Shorewall configuration,"
echo " change the setting of STARTUP_ENABLED to Yes in"
echo " /etc/shorewall/shorewall.conf"
[ -n "$TMP_DIR" ] && rm -rf $TMP_DIR
my_mutex_off
exit 2
fi
}
#
# Start/Restart the Firewall
#
define_firewall() # $1 = Command (Start or Restart)
{
check_disabled_startup
echo "${1}ing Shorewall..."
verify_os_version
verify_ip
[ -d /var/lib/shorewall ] || { mkdir -p /var/lib/shorewall ; chmod 700 /var/lib/shorewall; }
RESTOREBASE=$(mktempfile /var/lib/shorewall)
[ -n "$RESTOREBASE" ] || startup_error "Cannot create temporary file in /var/lib/shorewall"
echo '#bin/sh' >> $RESTOREBASE
save_command "#"
save_command "# Restore base file generated by Shorewall $version - $(date)"
save_command "#"
save_command ". /usr/share/shorewall/functions"
f=$(find_file params)
[ -f $f ] && \
save_command ". $f"
save_command "#"
save_command "MODULESDIR=\"$MODULESDIR\""
save_command "MODULE_SUFFIX=\"$MODULE_SUFFIX\""
save_load_kernel_modules
echo "Initializing..."; initialize_netfilter
echo "Configuring Proxy ARP"; setup_proxy_arp
echo "Setting up NAT..."; setup_nat
echo "Setting up NETMAP..."; setup_netmap
echo "Adding Common Rules"; add_common_rules
tunnels=$(find_file tunnels)
[ -f $tunnels ] && \
echo "Processing $tunnels..." && setup_tunnels $tunnels
ipsecfile=$(find_file ipsec)
[ -f $ipsecfile ] && \
echo "Processing $ipsecfile..." && setup_ipsec $ipsecfile
maclist_hosts=$(find_hosts_by_option maclist)
[ -n "$maclist_hosts" ] && setup_mac_lists
echo "Processing $(find_file rules)..."; process_rules
echo "Processing Actions..."; process_actions2
process_actions3
echo "Processing $(find_file policy)..."; apply_policy_rules
masq=$(find_file masq)
[ -f $masq ] && setup_masq $masq
tos=$(find_file tos)
[ -f $tos ] && [ -n "$MANGLE_ENABLED" ] && process_tos $tos
ecn=$(find_file ecn)
[ -f $ecn ] && [ -n "$MANGLE_ENABLED" ] && setup_ecn $ecn
[ -n "$TC_ENABLED" ] && setup_tc
echo "Activating Rules..."; activate_rules
[ -n "$aliases_to_add" ] && \
echo "Adding IP Addresses..." && add_ip_aliases
run_user_exit start
[ -n "$DELAYBLACKLISTLOAD" ] && refresh_blacklist
createchain shorewall no
date > $STATEDIR/restarted
report "Shorewall ${1}ed"
rm -rf $TMP_DIR
for file in chains nat proxyarp zones; do
append_file $file
done
save_command "date > $STATEDIR/restarted"
save_progress_message "Restoring Netfilter Configuration..."
save_command 'iptables-restore << __EOF__'
# 'shorewall save' appends the iptables-save output and '__EOF__'
mv -f $RESTOREBASE /var/lib/shorewall/restore-base
}
#
# Refresh the firewall
#
refresh_firewall()
{
echo "Refreshing Shorewall..."
echo "Determining Zones and Interfaces..."
determine_zones
validate_interfaces_file
[ -z "$zones" ] && startup_error "No Zones Defined"
determine_interfaces
run_user_exit refresh
#
# Blacklist
#
refresh_blacklist
ecn=$(find_file ecn)
[ -f $ecn ] && [ -n "$MANGLE_ENABLED" ] && setup_ecn $ecn
#
# Refresh Traffic Control
#
[ -n "$TC_ENABLED" ] && refresh_tc
report "Shorewall Refreshed"
rm -rf $TMP_DIR
}
#
# Add a host or networks to a zone
#
add_to_zone() # $1 = <interface>[:<hosts>] $2 = zone
{
local base interface host newhost zone z h z1 z2 chain terminator
local dhcp_interfaces blacklist_interfaces maclist_interfaces tcpflags_interfaces
local rulenum source_chain dest_hosts iface hosts is_ipsec policyin= policyout=
nat_chain_exists() # $1 = chain name
{
qt iptables -t nat -L $1 -n
}
do_iptables() # $@ = command
{
if ! iptables $@ ; then
startup_error "Can't add $1 to zone $2"
fi
}
#
# Isolate interface and host parts
#
interface=${1%:*}
host=${1#*:}
[ -z "$host" ] && host="0.0.0.0/0"
#
# Load $zones
#
determine_zones
#
# Validate Interfaces File
#
validate_interfaces_file
#
# Validate Zone
#
zone=$2
validate_zone $zone || startup_error "Unknown zone: $zone"
f=$(find_file ipsec)
if [ -f $f ]; then
progress_message "Processing $f..."
setup_ipsec $f
fi
[ "$zone" = $FW ] && startup_error "Can't add $1 to firewall zone"
eval is_ipsec=\$${zone}_is_ipsec
eval options=\"\$${zone}_ipsec_options\"
eval in_options=\"\$${zone}_ipsec_in_options\"
eval out_options=\"\$${zone}_ipsec_out_options\"
if [ -n "$is_ipsec" ]; then
[ -n "$POLICY_MATCH" ] || startup_error "Your kernel and/or iptables lacks policy match support"
policyin="-m policy --pol ipsec --dir in $options $in_options"
policyout="-m policy --pol ipsec --dir out $options $out_options"
elif [ -n "$POLICY_MATCH" ]; then
policyin="-m policy --pol none --dir in"
policyout="-m policy --pol none --dir out"
fi
#
# Be sure that Shorewall has been restarted using a DZ-aware version of the code
#
[ -f ${STATEDIR}/chains ] || startup_error "${STATEDIR}/chains -- file not found"
[ -f ${STATEDIR}/zones ] || startup_error "${STATEDIR}/zones -- file not found"
#
# Be sure that the interface was dynamic at last [re]start
#
if ! chain_exists $(input_chain $interface) ; then
startup_error "Unknown interface $interface"
fi
if ! chain_exists $(dynamic_in $interface) ; then
startup_error "At last Shorewall [re]start, DYNAMIC_ZONES=No in shorewall.conf"
fi
#
# Normalize the first argument to this function
#
newhost="$interface:$host"
terminator=fatal_error
#
# Create a new Zone state file
#
> ${STATEDIR}/zones_$$
#
# Add $1 to the Zone state file
#
while read z hosts; do
if [ "$z" = "$zone" ]; then
for h in $hosts; do
if [ "$h" = "$newhost" ]; then
rm -f ${STATEDIR}/zones_$$
startup_error "$1 already in zone $zone"
fi
done
[ -z "$hosts" ] && hosts=$newhost || hosts="$hosts $newhost"
fi
eval ${z}_hosts=\"$hosts\"
echo "$z $hosts" >> ${STATEDIR}/zones_$$
done < ${STATEDIR}/zones
mv -f ${STATEDIR}/zones_$$ ${STATEDIR}/zones
#
# If the zone passed in the command has a dnat chain then insert a rule in
# the nat table PREROUTING chain to jump to that chain when the source
# matches the new host(s)#
#
chain=${zone}_dnat
if nat_chain_exists $chain; then
do_iptables -t nat -A $(dynamic_in $interface) $(source_ip_range $host) $policyin -j $chain
fi
#
# Insert new rules into the filter table for the passed interface
#
while read z1 z2 chain; do
if [ "$z1" = "$zone" ]; then
if [ "$z2" = "$FW" ]; then
do_iptables -A $(dynamic_in $interface) $(source_ip_range $host) $policyin -j $chain
else
source_chain=$(dynamic_fwd $interface)
eval dest_hosts=\"\$${z2}_hosts\"
for h in $dest_hosts; do
iface=${h%%:*}
hosts=${h#*:}
if [ "$iface" != "$interface" -o "$hosts" != "$host" ]; then
do_iptables -A $source_chain $(source_ip_range $host) -o $iface $(match_dest_hosts $hosts) $policyout -j $chain
fi
done
fi
elif [ "$z2" = "$zone" ]; then
if [ "$z1" = "$FW" ]; then
#
# Add a rule to the dynamic out chain for the interface
#
do_iptables -A $(dynamic_out $interface) $(dest_ip_range $host) $policyout -j $chain
else
eval source_hosts=\"\$${z1}_hosts\"
for h in $source_hosts; do
iface=${h%%:*}
hosts=${h#*:}
if [ "$iface" != "$interface" -o "$hosts" != "$host" ]; then
do_iptables -A $(dynamic_fwd $iface) $rulenum $(match_source_hosts $hosts) -o $interface $(dest_ip_range $host) $policyout -j $chain
fi
done
fi
fi
done < ${STATEDIR}/chains
rm -rf $TMP_DIR
progress_message "$1 added to zone $2"
}
#
# Delete a host or networks from a zone
#
delete_from_zone() # $1 = <interface>[:<hosts>] $2 = zone
{
#
# Delete the subject host(s) from the zone state file
#
delete_from_zones_file()
{
> ${STATEDIR}/zones_$$
while read z hosts; do
if [ "$z" = "$zone" ]; then
temp=$hosts
hosts=
for h in $temp; do
if [ "$h" = "$delhost" ]; then
echo Yes
else
hosts="$hosts $h"
fi
done
fi
echo "$z $hosts" >> ${STATEDIR}/zones_$$
done < ${STATEDIR}/zones
mv -f ${STATEDIR}/zones_$$ ${STATEDIR}/zones
}
#
# Isolate interface and host parts
#
interface=${1%:*}
host=${1#*:}
[ -z "$host" ] && host="0.0.0.0/0"
#
# Load $zones
#
determine_zones
f=$(find_file ipsec)
if [ -f $f ]; then
progress_message "Processing $f..."
setup_ipsec $f
fi
zone=$2
validate_zone $zone || startup_error "Unknown zone: $zone"
[ "$zone" = $FW ] && startup_error "Can't remove $1 from firewall zone"
eval is_ipsec=\$${zone}_is_ipsec
eval options=\"\$${zone}_ipsec_options\"
eval in_options=\"\$${zone}_ipsec_in_options\"
eval out_options=\"\$${zone}_ipsec_out_options\"
if [ -n "$is_ipsec" ]; then
[ -n "$POLICY_MATCH" ] || startup_error "Your kernel and/or iptables lacks policy match support"
policyin="-m policy --pol ipsec --dir in $options $in_options"
policyout="-m policy --pol ipsec --dir out $options $out_options"
elif [ -n "$POLICY_MATCH" ]; then
policyin="-m policy --pol none --dir in"
policyout="-m policy --pol none --dir out"
fi
#
# Be sure that Shorewall has been restarted using a DZ-aware version of the code
#
[ -f ${STATEDIR}/chains ] || startup_error "${STATEDIR}/chains -- file not found"
[ -f ${STATEDIR}/zones ] || startup_error "${STATEDIR}/zones -- file not found"
#
# Be sure that the interface was present at last [re]start
#
if ! chain_exists $(input_chain $interface) ; then
startup_error "Unknown interface $interface"
fi
if ! chain_exists $(dynamic_in $interface) ; then
startup_error "Interface $interface is not dynamic"
fi
#
# Normalize the first argument to this function
#
delhost="$interface:$host"
#
# Delete the passed hosts from the zone state file
#
[ -z "$(delete_from_zones_file)" ] && \
error_message "Warning: $1 does not appear to be in zone $2"
#
# Construct the zone host maps
#
while read z hosts; do
eval ${z}_hosts=\"$hosts\"
done < ${STATEDIR}/zones
terminator=fatal_error
#
# Delete any nat table entries for the host(s)
#
qt iptables -t nat -D $(dynamic_in $interface) $(source_ip_range $host) $policyin -j ${zone}_dnat
#
# Delete rules rules the input chains for the passed interface
#
while read z1 z2 chain; do
if [ "$z1" = "$zone" ]; then
if [ "$z2" = "$FW" ]; then
qt iptables -D $(dynamic_in $interface) $(source_ip_range $host) $policyin -j $chain
else
source_chain=$(dynamic_fwd $interface)
eval dest_hosts=\"\$${z2}_hosts\"
for h in $dest_hosts $delhost; do
iface=${h%%:*}
hosts=${h#*:}
if [ "$iface" != "$interface" -o "$hosts" != "$host" ]; then
qt iptables -D $source_chain $(source_ip_range $host) -o $iface $(match_dest_hosts $hosts) $policyout -j $chain
fi
done
fi
elif [ "$z2" = "$zone" ]; then
if [ "$z1" = "$FW" ]; then
qt iptables -D $(dynamic_out $interface) $(dest_ip_range $host) $policyout -j $chain
else
eval source_hosts=\"\$${z1}_hosts\"
for h in $source_hosts; do
iface=${h%%:*}
hosts=${h#*:}
if [ "$iface" != "$interface" -o "$hosts" != "$host" ]; then
qt iptables -D $(dynamic_fwd $iface) $(match_source_hosts $hosts) -o $interface $(dest_ip_range $host) $policyout -j $chain
fi
done
fi
fi
done < ${STATEDIR}/chains
rm -rf $TMP_DIR
progress_message "$1 removed from zone $2"
}
#
# 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 $1"
;;
esac
fi
}
#
# Initialize this program
#
do_initialize() {
# Run all utility programs using the C locale
#
# Thanks to Vincent Planchenault for this tip #
export LC_ALL=C
PATH=/sbin:/bin:/usr/sbin:/usr/bin:/usr/local/sbin:/usr/local/bin
#
# Establish termination function
#
terminator=startup_error
#
# Clear all configuration variables
#
version=
FW=
SUBSYSLOCK=
STATEDIR=
ALLOWRELATED=Yes
LOGRATE=
LOGBURST=
LOGPARMS=
LOGLIMIT=
ADD_IP_ALIASES=
ADD_SNAT_ALIASES=
TC_ENABLED=
BLACKLIST_DISPOSITION=
BLACKLIST_LOGLEVEL=
CLAMPMSS=
ROUTE_FILTER=
LOG_MARTIANS=
DETECT_DNAT_IPADDRS=
MUTEX_TIMEOUT=
NEWNOTSYN=
LOGNEWNOTSYN=
FORWARDPING=
MACLIST_DISPOSITION=
MACLIST_LOG_LEVEL=
TCP_FLAGS_DISPOSITION=
TCP_FLAGS_LOG_LEVEL=
RFC1918_LOG_LEVEL=
BOGON_LOG_LEVEL=
MARK_IN_FORWARD_CHAIN=
SHARED_DIR=/usr/share/shorewall
FUNCTIONS=
VERSION_FILE=
LOGFORMAT=
LOGRULENUMBERS=
ADMINISABSENTMINDED=
BLACKLISTNEWONLY=
MODULE_SUFFIX=
ACTIONS=
USEDACTIONS=
SMURF_LOG_LEVEL=
DISABLE_IPV6=
BRIDGING=
DYNAMIC_ZONES=
PKTTYPE=
RETAIN_ALIASES=
DELAYBLACKLISTLOAD=
LOGTAGONLY=
RESTOREBASE=
TMP_DIR=
ALL_INTERFACES=
stopping=
have_mutex=
masq_seq=1
nonat_seq=1
aliases_to_add=
FUNCTIONS=$SHARED_DIR/functions
if [ -f $FUNCTIONS ]; then
[ -n "$QUIET" ] || echo "Loading $FUNCTIONS..."
. $FUNCTIONS
else
startup_error "$FUNCTIONS does not exist!"
fi
TMP_DIR=$(mktempdir)
[ -n "$TMP_DIR" ] && chmod 700 $TMP_DIR || \
startup_error "Can't create a temporary directory"
trap "rm -rf $TMP_DIR; my_mutex_off; exit 2" 1 2 3 4 5 6 9
ensure_config_path
VERSION_FILE=$SHARED_DIR/version
[ -f $VERSION_FILE ] && version=$(cat $VERSION_FILE)
run_user_exit params
config=$(find_file shorewall.conf)
if [ -f $config ]; then
if [ -r $config ]; then
[ -n "$QUIET" ] || echo "Processing $config..."
. $config
else
echo " ERROR: Cannot read $config (Hint: Are you root?)"
exit 2
fi
else
echo "$config does not exist!" >&2
exit 2
fi
#
# Restore CONFIG_PATH if the shorewall.conf file cleared it
#
ensure_config_path
#
# Determine the capabilities of the installed iptables/netfilter
# We load the kernel modules here to acurately determine
# capabilities when module autoloading isn't enabled.
#
[ -n "$MODULE_SUFFIX" ] || MODULE_SUFFIX="o gz ko o.gz ko.gz"
load_kernel_modules
determine_capabilities
[ -z "${STATEDIR}" ] && STATEDIR=/var/state/shorewall
[ -d $STATEDIR ] || mkdir -p $STATEDIR
[ -z "$FW" ] && FW=fw
ALLOWRELATED="$(added_param_value_yes ALLOWRELATED $ALLOWRELATED)"
[ -n "$ALLOWRELATED" ] || \
startup_error "ALLOWRELATED=No is not supported"
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}${LOGBURST}" ]; then
LOGLIMIT="--match limit"
[ -n "$LOGRATE" ] && LOGLIMIT="$LOGLIMIT --limit $LOGRATE"
[ -n "$LOGBURST" ] && LOGLIMIT="$LOGLIMIT --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 "$BLACKLIST_DISPOSITION" ] && BLACKLIST_DISPOSITION=DROP
case "$CLAMPMSS" in
[0-9]*)
;;
*)
CLAMPMSS=$(added_param_value_no CLAMPMSS $CLAMPMSS)
;;
esac
ADD_SNAT_ALIASES=$(added_param_value_no ADD_SNAT_ALIASES $ADD_SNAT_ALIASES)
ROUTE_FILTER=$(added_param_value_no ROUTE_FILTER $ROUTE_FILTER)
LOG_MARTIANS=$(added_param_value_no LOG_MARTIANS $LOG_MARTIANS)
DETECT_DNAT_IPADDRS=$(added_param_value_no DETECT_DNAT_IPADDRS $DETECT_DNAT_IPADDRS)
FORWARDPING=$(added_param_value_no FORWARDPING $FORWARDPING)
[ -n "$FORWARDPING" ] && \
startup_error "FORWARDPING=Yes is no longer supported"
NEWNOTSYN=$(added_param_value_yes NEWNOTSYN $NEWNOTSYN)
maclist_target=reject
if [ -n "$MACLIST_DISPOSITION" ] ; then
case $MACLIST_DISPOSITION in
REJECT)
;;
ACCEPT|DROP)
maclist_target=$MACLIST_DISPOSITION
;;
*)
startup_error "Invalid value ($MACLIST_DISPOSITION) for MACLIST_DISPOSITION"
;;
esac
else
MACLIST_DISPOSITION=REJECT
fi
if [ -n "$TCP_FLAGS_DISPOSITION" ] ; then
case $TCP_FLAGS_DISPOSITION in
REJECT|ACCEPT|DROP)
;;
*)
startup_error "Invalid value ($TCP_FLAGS_DISPOSITION) for TCP_FLAGS_DISPOSITION"
;;
esac
else
TCP_FLAGS_DISPOSITION=DROP
fi
[ -z "$RFC1918_LOG_LEVEL" ] && RFC1918_LOG_LEVEL=info
[ -z "$BOGON_LOG_LEVEL" ] && BOGON_LOG_LEVEL=info
MARK_IN_FORWARD_CHAIN=$(added_param_value_no MARK_IN_FORWARD_CHAIN $MARK_IN_FORWARD_CHAIN)
[ -n "$MARK_IN_FORWARD_CHAIN" ] && MARKING_CHAIN=tcfor || MARKING_CHAIN=tcpre
if [ -n "$TC_ENABLED" ]; then
CLEAR_TC=$(added_param_value_yes CLEAR_TC $CLEAR_TC)
else
CLEAR_TC=
fi
if [ -n "$LOGFORMAT" ]; then
if [ -n "$(echo $LOGFORMAT | grep '%d')" ]; then
LOGRULENUMBERS=Yes
temp=$(printf "$LOGFORMAT" fooxx 1 barxx 2> /dev/null)
if [ $? -ne 0 ]; then
startup_error "Invalid LOGFORMAT string: \"$LOGFORMAT\""
fi
else
temp=$(printf "$LOGFORMAT" fooxx barxx 2> /dev/null)
if [ $? -ne 0 ]; then
startup_error "Invalid LOGFORMAT string: \"$LOGFORMAT\""
fi
fi
[ ${#temp} -le 29 ] || startup_error "LOGFORMAT string is longer than 29 characters: \"$LOGFORMAT\""
else
LOGFORMAT="Shorewall:%s:%s:"
fi
ADMINISABSENTMINDED=$(added_param_value_no ADMINISABSENTMINDED $ADMINISABSENTMINDED)
BLACKLISTNEWONLY=$(added_param_value_no BLACKLISTNEWONLY $BLACKLISTNEWONLY)
DISABLE_IPV6=$(added_param_value_no DISABLE_IPV6 $DISABLE_IPV6)
BRIDGING=$(added_param_value_no BRIDGING $BRIDGING)
DYNAMIC_ZONES=$(added_param_value_no DYNAMIC_ZONES $DYNAMIC_ZONES)
PKTTYPE=$(added_param_value_no PKTTYPE $PKTTYPE)
STARTUP_ENABLED=$(added_param_value_yes STARTUP_ENABLED $STARTUP_ENABLED)
RETAIN_ALIASES=$(added_param_value_no RETAIN_ALIASES $RETAIN_ALIASES)
DELAYBLACKLISTLOAD=$(added_param_value_no DELAYBLACKLISTLOAD $DELAYBLACKLISTLOAD)
LOGTAGONLY=$(added_param_value_no LOGTAGONLY $LOGTAGONLY)
#
# Strip the files that we use often
#
strip_file interfaces
strip_file hosts
#
# Check out the user's shell
#
[ -n "$SHOREWALL_SHELL" ] || SHOREWALL_SHELL=/bin/sh
temp=$(decodeaddr 192.168.1.1)
if [ $(encodeaddr $temp) != 192.168.1.1 ]; then
startup_error "Shell $SHOREWALL_SHELL is broken and may not be used with Shorewall"
fi
rm -f $TMP_DIR/physdev
rm -f $TMP_DIR/iprange
}
#
# Give Usage Information
#
usage() {
echo "Usage: $0 [debug] {start|stop|reset|restart|status|refresh|clear|{add|delete} <interface>[:hosts] zone}}"
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 ; }
trap "my_mutex_off; exit 2" 1 2 3 4 5 6 9
COMMAND="$1"
case "$COMMAND" in
stop)
[ $# -ne 1 ] && usage
do_initialize
my_mutex_on
#
# Don't want to do a 'stop' when startup is disabled
#
check_disabled_startup
echo -n "Stopping Shorewall..."
stop_firewall
[ -n "$SUBSYSLOCK" ] && rm -f $SUBSYSLOCK
echo "done."
my_mutex_off
;;
start)
[ $# -ne 1 ] && usage
do_initialize
my_mutex_on
if qt iptables -L shorewall -n ; then
[ -n "$SUBSYSLOCK" ] && touch $SUBSYSLOCK
echo "Shorewall Already Started"
[ -n "$TMP_DIR" ] && rm -rf $TMP_DIR
my_mutex_off
exit 0;
fi
define_firewall "Start" && [ -n "$SUBSYSLOCK" ] && touch $SUBSYSLOCK
my_mutex_off
;;
restart)
[ $# -ne 1 ] && usage
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)
[ $# -ne 1 ] && usage
echo "Shorewall-$version Status at $HOSTNAME - $(date)"
echo
iptables -L -n -v
;;
reset)
[ $# -ne 1 ] && usage
do_initialize
my_mutex_on
if ! qt iptables -L shorewall -n ; then
echo "Shorewall Not Started"
[ -n "$TMP_DIR" ] && rm -rf $TMP_DIR
my_mutex_off
exit 2;
fi
iptables -Z
iptables -t nat -Z
iptables -t mangle -Z
report "Shorewall Counters Reset"
date > $STATEDIR/restarted
my_mutex_off
;;
refresh)
[ $# -ne 1 ] && usage
do_initialize
my_mutex_on
if ! qt iptables -L shorewall -n ; then
echo "Shorewall Not Started"
[ -n "$TMP_DIR" ] && rm -rf $TMP_DIR
my_mutex_off
exit 2;
fi
refresh_firewall;
my_mutex_off
;;
clear)
[ $# -ne 1 ] && usage
do_initialize
my_mutex_on
echo -n "Clearing Shorewall..."
clear_firewall
[ -n "$SUBSYSLOCK" ] && rm -f $SUBSYSLOCK
echo "done."
my_mutex_off
;;
check)
[ $# -ne 1 ] && usage
do_initialize
check_config
;;
add)
[ $# -ne 3 ] && usage
do_initialize
my_mutex_on
if ! qt iptables -L shorewall -n ; then
echo "Shorewall Not Started"
[ -n "$TMP_DIR" ] && rm -rf $TMP_DIR
my_mutex_off
exit 2;
fi
add_to_zone $2 $3
my_mutex_off
;;
delete)
[ $# -ne 3 ] && usage
do_initialize
my_mutex_on
if ! qt iptables -L shorewall -n ; then
echo "Shorewall Not Started"
[ -n "$TMP_DIR" ] && rm -rf $TMP_DIR
my_mutex_off
exit 2;
fi
delete_from_zone $2 $3
my_mutex_off
;;
call)
#
# Undocumented way to call functions in /usr/share/shorewall/firewall directly
#
shift;
do_initialize
EMPTY=
$@
;;
*)
usage
;;
esac