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fwbuilder/test/ipt/firewall26.fw.orig
Vadim Kurland d0ae7bac01 * NATCompiler_ipt.cpp (processNext): see #2097 #133 "support for 
inbound and outbound interface columns in iptables NAT
rules". This also addresses SF feature requests 1954286 "DNAT with
interface as condition not possible" and 621023 "manipulating
interface in NAT rule".
2011-02-17 17:47:42 -08:00

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#!/bin/sh
#
# This is automatically generated file. DO NOT MODIFY !
#
# Firewall Builder fwb_ipt v4.2.0.3480
#
# Generated Thu Feb 17 17:34:29 2011 PST by vadim
#
# files: * firewall26.fw /etc/fw/firewall26.fw
#
# Compiled for iptables 1.4.0
#
# this firewall uses iptables-restore format
# One interface has dynamic address, script uses echo to generated iptables commands and then pipes them to iptables-restore
# firewall26::: warning: Can not add virtual address for object address
# firewall26::: warning: Can not add virtual address for object address
FWBDEBUG=""
PATH="/sbin:/usr/sbin:/bin:/usr/bin:${PATH}"
export PATH
LSMOD="/sbin/lsmod"
MODPROBE="/sbin/modprobe"
IPTABLES="/sbin/iptables"
IP6TABLES="/sbin/ip6tables"
IPTABLES_RESTORE="/sbin/iptables-restore"
IP6TABLES_RESTORE="/sbin/ip6tables-restore"
IP="/sbin/ip"
IFCONFIG="/sbin/ifconfig"
VCONFIG="/sbin/vconfig"
BRCTL="/sbin/brctl"
IFENSLAVE="/sbin/ifenslave"
IPSET="/usr/sbin/ipset"
LOGGER="/usr/bin/logger"
log() {
echo "$1"
command -v "$LOGGER" &>/dev/null && $LOGGER -p info "$1"
}
getInterfaceVarName() {
echo $1 | sed 's/\./_/'
}
getaddr_internal() {
dev=$1
name=$2
af=$3
L=$($IP $af addr show dev $dev | sed -n '/inet/{s!.*inet6* !!;s!/.*!!p}' | sed 's/peer.*//')
test -z "$L" && {
eval "$name=''"
return
}
eval "${name}_list=\"$L\""
}
getaddr() {
getaddr_internal $1 $2 "-4"
}
getaddr6() {
getaddr_internal $1 $2 "-6"
}
# function getinterfaces is used to process wildcard interfaces
getinterfaces() {
NAME=$1
$IP link show | grep ": $NAME" | while read L; do
OIFS=$IFS
IFS=" :"
set $L
IFS=$OIFS
echo $2
done
}
diff_intf() {
func=$1
list1=$2
list2=$3
cmd=$4
for intf in $list1
do
echo $list2 | grep -q $intf || {
# $vlan is absent in list 2
$func $intf $cmd
}
done
}
find_program() {
PGM=$1
command -v $PGM &>/dev/null || {
echo "$PGM not found"
exit 1
}
}
check_tools() {
find_program $IPTABLES
find_program $IPTABLES_RESTORE
find_program $IP
}
reset_iptables_v4() {
$IPTABLES -P OUTPUT DROP
$IPTABLES -P INPUT DROP
$IPTABLES -P FORWARD DROP
cat /proc/net/ip_tables_names | while read table; do
$IPTABLES -t $table -L -n | while read c chain rest; do
if test "X$c" = "XChain" ; then
$IPTABLES -t $table -F $chain
fi
done
$IPTABLES -t $table -X
done
}
reset_iptables_v6() {
$IP6TABLES -P OUTPUT DROP
$IP6TABLES -P INPUT DROP
$IP6TABLES -P FORWARD DROP
cat /proc/net/ip6_tables_names | while read table; do
$IP6TABLES -t $table -L -n | while read c chain rest; do
if test "X$c" = "XChain" ; then
$IP6TABLES -t $table -F $chain
fi
done
$IP6TABLES -t $table -X
done
}
P2P_INTERFACE_WARNING=""
missing_address() {
address=$1
cmd=$2
oldIFS=$IFS
IFS="@"
set $address
addr=$1
interface=$2
IFS=$oldIFS
$IP addr show dev $interface | grep -q POINTOPOINT && {
test -z "$P2P_INTERFACE_WARNING" && echo "Warning: Can not update address of interface $interface. fwbuilder can not manage addresses of point-to-point interfaces yet"
P2P_INTERFACE_WARNING="yes"
return
}
test "$cmd" = "add" && {
echo "# Adding ip address: $interface $addr"
echo $addr | grep -q ':' && {
$FWBDEBUG $IP addr $cmd $addr dev $interface
} || {
$FWBDEBUG $IP addr $cmd $addr broadcast + dev $interface
}
}
test "$cmd" = "del" && {
echo "# Removing ip address: $interface $addr"
$FWBDEBUG $IP addr $cmd $addr dev $interface
}
$FWBDEBUG $IP link set $interface up
}
list_addresses_by_scope() {
interface=$1
scope=$2
ignore_list=$3
$IP addr ls dev $interface | \
awk -v IGNORED="$ignore_list" -v SCOPE="$scope" \
'BEGIN {
split(IGNORED,ignored_arr);
for (a in ignored_arr) {ignored_dict[ignored_arr[a]]=1;}
}
(/inet |inet6 / && $0 ~ SCOPE && !($2 in ignored_dict)) {print $2;}' | \
while read addr; do
echo "${addr}@$interface"
done | sort
}
update_addresses_of_interface() {
ignore_list=$2
set $1
interface=$1
shift
FWB_ADDRS=$(
for addr in $*; do
echo "${addr}@$interface"
done | sort
)
CURRENT_ADDRS_ALL_SCOPES=""
CURRENT_ADDRS_GLOBAL_SCOPE=""
$IP link show dev $interface >/dev/null 2>&1 && {
CURRENT_ADDRS_ALL_SCOPES=$(list_addresses_by_scope $interface 'scope .*' "$ignore_list")
CURRENT_ADDRS_GLOBAL_SCOPE=$(list_addresses_by_scope $interface 'scope global' "$ignore_list")
} || {
echo "# Interface $interface does not exist"
# Stop the script if we are not in test mode
test -z "$FWBDEBUG" && exit 1
}
diff_intf missing_address "$FWB_ADDRS" "$CURRENT_ADDRS_ALL_SCOPES" add
diff_intf missing_address "$CURRENT_ADDRS_GLOBAL_SCOPE" "$FWB_ADDRS" del
}
clear_addresses_except_known_interfaces() {
$IP link show | sed 's/://g' | awk -v IGNORED="$*" \
'BEGIN {
split(IGNORED,ignored_arr);
for (a in ignored_arr) {ignored_dict[ignored_arr[a]]=1;}
}
(/state/ && !($2 in ignored_dict)) {print $2;}' | \
while read intf; do
echo "# Removing addresses not configured in fwbuilder from interface $intf"
$FWBDEBUG $IP addr flush dev $intf scope global
$FWBDEBUG $IP link set $intf down
done
}
check_file() {
test -r "$2" || {
echo "Can not find file $2 referenced by address table object $1"
exit 1
}
}
check_run_time_address_table_files() {
:
}
load_modules() {
:
}
verify_interfaces() {
:
echo "Verifying interfaces: ppp eth0 eth2"
for i in ppp eth0 eth2 ; do
$IP link show "$i" > /dev/null 2>&1 || {
log "Interface $i does not exist"
exit 1
}
done
}
prolog_commands() {
echo "Running prolog script"
}
epilog_commands() {
echo "Running epilog script"
}
run_epilog_and_exit() {
epilog_commands
exit $1
}
configure_interfaces() {
:
# Configure interfaces
update_addresses_of_interface "eth0 192.168.1.1/24" ""
update_addresses_of_interface "eth2 192.168.2.1/24" ""
getaddr ppp i_ppp
getaddr6 ppp i_ppp_v6
}
script_body() {
echo 30 > /proc/sys/net/ipv4/tcp_fin_timeout
echo 1800 > /proc/sys/net/ipv4/tcp_keepalive_intvl
# ================ IPv4
(
echo '*filter'
# ================ Table 'filter', automatic rules
echo :INPUT DROP [0:0]
echo :FORWARD DROP [0:0]
echo :OUTPUT DROP [0:0]
# accept established sessions
echo "-A INPUT -m state --state ESTABLISHED,RELATED -j ACCEPT "
echo "-A OUTPUT -m state --state ESTABLISHED,RELATED -j ACCEPT "
echo "-A FORWARD -m state --state ESTABLISHED,RELATED -j ACCEPT "
# backup ssh access
echo "-A INPUT -p tcp -m tcp -s 192.168.1.1/255.255.255.255 --dport 22 -m state --state NEW,ESTABLISHED -j ACCEPT "
echo "-A OUTPUT -p tcp -m tcp -d 192.168.1.1/255.255.255.255 --sport 22 -m state --state ESTABLISHED,RELATED -j ACCEPT "
# drop TCP sessions opened prior firewall restart
echo "-A INPUT -p tcp -m tcp ! --tcp-flags SYN,RST,ACK SYN -m state --state NEW -j DROP "
echo "-A OUTPUT -p tcp -m tcp ! --tcp-flags SYN,RST,ACK SYN -m state --state NEW -j DROP "
echo "-A FORWARD -p tcp -m tcp ! --tcp-flags SYN,RST,ACK SYN -m state --state NEW -j DROP "
# drop packets that do not match any valid state
echo "-A OUTPUT -m state --state INVALID -j DROP "
echo "-A INPUT -m state --state INVALID -j DROP "
echo "-A FORWARD -m state --state INVALID -j DROP "
# ================ Table 'filter', rule set Policy
#
# Rule 0 (ppp)
# ppp clients get addresses on 10.1.1.0
echo ":In_RULE_0 - [0:0]"
echo "-A INPUT -i ppp -s ! 10.1.1.0/24 -j In_RULE_0 "
echo "-A FORWARD -i ppp -s ! 10.1.1.0/24 -j In_RULE_0 "
echo "-A In_RULE_0 -j LOG "
echo "-A In_RULE_0 -j DROP "
#
# Rule 1 (ppp)
# ppp clients can not connect to the firewall
echo ":In_RULE_1 - [0:0]"
for i_ppp in $i_ppp_list
do
test -n "$i_ppp" && echo "-A INPUT -i ppp -d $i_ppp -j In_RULE_1 "
done
echo "-A In_RULE_1 -j LOG "
echo "-A In_RULE_1 -j DROP "
#
# Rule 2 (ppp)
echo ":In_RULE_2 - [0:0]"
echo "-A INPUT -i ppp -j In_RULE_2 "
echo "-A In_RULE_2 -j LOG "
echo "-A In_RULE_2 -j DROP "
#
# Rule 3 (ppp)
# ppp clients can only connect to the mail
# server and web proxy on DMZ
echo "-A FORWARD -i ppp -p tcp -m tcp -m multiport -d 192.168.2.10 --dports 25,3128 -m state --state NEW -j ACCEPT "
#
# Rule 4 (ppp)
# ppp clients can not connect to
# anything else on DMZ and
# internal net
echo ":In_RULE_4 - [0:0]"
echo "-A INPUT -i ppp -d 192.168.1.0/24 -j In_RULE_4 "
echo "-A INPUT -i ppp -d 192.168.2.0/24 -j In_RULE_4 "
echo "-A FORWARD -i ppp -d 192.168.1.0/24 -j In_RULE_4 "
echo "-A FORWARD -i ppp -d 192.168.2.0/24 -j In_RULE_4 "
echo "-A In_RULE_4 -j LOG "
echo "-A In_RULE_4 -j DROP "
#
# Rule 5 (eth2)
echo ":In_RULE_5 - [0:0]"
echo "-A INPUT -i eth2 -s ! 192.168.2.0/24 -j In_RULE_5 "
echo "-A FORWARD -i eth2 -s ! 192.168.2.0/24 -j In_RULE_5 "
echo "-A In_RULE_5 -j LOG "
echo "-A In_RULE_5 -j DROP "
#
# Rule 6 (global)
# hostF has the same IP address as firewal.
echo ":RULE_6 - [0:0]"
echo "-A OUTPUT -p icmp -m icmp -d 192.168.1.1 --icmp-type 8/0 -m state --state NEW -j RULE_6 "
echo "-A INPUT -p icmp -m icmp -d 192.168.1.1 --icmp-type 8/0 -m state --state NEW -j RULE_6 "
echo "-A RULE_6 -j LOG "
echo "-A RULE_6 -j ACCEPT "
#
# Rule 7 (global)
echo ":Cid418C4619.0 - [0:0]"
echo "-A OUTPUT -p tcp -m tcp --dport 22 -m state --state NEW -j Cid418C4619.0 "
for i_ppp in $i_ppp_list
do
test -n "$i_ppp" && echo "-A Cid418C4619.0 -d $i_ppp -j ACCEPT "
done
echo "-A Cid418C4619.0 -d 192.168.1.1 -j ACCEPT "
echo "-A Cid418C4619.0 -d 192.168.2.1 -j ACCEPT "
echo "-A INPUT -p tcp -m tcp --dport 22 -m state --state NEW -j ACCEPT "
#
# Rule 8 (global)
for i_ppp in $i_ppp_list
do
test -n "$i_ppp" && echo "-A OUTPUT -p tcp -m tcp -d $i_ppp --dport 22 -m state --state NEW -j ACCEPT "
done
for i_ppp in $i_ppp_list
do
test -n "$i_ppp" && echo "-A INPUT -p tcp -m tcp -d $i_ppp --dport 22 -m state --state NEW -j ACCEPT "
done
#
# Rule 9 (global)
echo "-A OUTPUT -p tcp -m tcp -d 192.168.1.1 --dport 22 -m state --state NEW -j ACCEPT "
echo "-A INPUT -p tcp -m tcp -d 192.168.1.1 --dport 22 -m state --state NEW -j ACCEPT "
#
# Rule 10 (global)
echo "-A OUTPUT -p tcp -m tcp -m multiport -d 192.168.1.1 --dports 22,23 -m state --state NEW -j ACCEPT "
echo "-A INPUT -p tcp -m tcp -m multiport -d 192.168.1.1 --dports 22,23 -m state --state NEW -j ACCEPT "
#
# Rule 11 (global)
echo ":Cid418C4642.0 - [0:0]"
echo "-A OUTPUT -p tcp -m tcp -m multiport --dports 22,23 -m state --state NEW -j Cid418C4642.0 "
echo "-A Cid418C4642.0 -d 192.168.1.1 -j ACCEPT "
echo "-A Cid418C4642.0 -d 192.168.2.1 -j ACCEPT "
echo ":Cid418C4642.1 - [0:0]"
echo "-A INPUT -p tcp -m tcp -m multiport --dports 22,23 -m state --state NEW -j Cid418C4642.1 "
echo "-A Cid418C4642.1 -d 192.168.1.1 -j ACCEPT "
echo "-A Cid418C4642.1 -d 192.168.2.1 -j ACCEPT "
#
# Rule 12 (global)
echo ":Cid418C464D.0 - [0:0]"
echo "-A OUTPUT -p tcp -m tcp -m multiport --dports 22,23 -m state --state NEW -j Cid418C464D.0 "
echo ":RULE_12 - [0:0]"
echo "-A Cid418C464D.0 -d 192.168.1.1 -j RULE_12 "
echo "-A Cid418C464D.0 -d 192.168.2.1 -j RULE_12 "
echo ":Cid418C464D.1 - [0:0]"
echo "-A INPUT -p tcp -m tcp -m multiport --dports 22,23 -m state --state NEW -j Cid418C464D.1 "
echo "-A Cid418C464D.1 -d 192.168.1.1 -j RULE_12 "
echo "-A Cid418C464D.1 -d 192.168.2.1 -j RULE_12 "
echo "-A RULE_12 -j LOG "
echo "-A RULE_12 -j ACCEPT "
#
# Rule 13 (global)
# firewall is part of Any, so compiler should
# generate code in both FORWARD and
# OUTPUT chains
echo "-A OUTPUT -d 200.200.200.200 -m state --state NEW -j ACCEPT "
echo "-A FORWARD -d 200.200.200.200 -m state --state NEW -j ACCEPT "
#
# Rule 14 (global)
# firewall is part of Any, compiler should
# generate code for both FORWARD and
# INPUT chains
echo "-A INPUT -s 200.200.200.200 -m state --state NEW -j ACCEPT "
echo "-A FORWARD -s 200.200.200.200 -m state --state NEW -j ACCEPT "
#
# Rule 15 (global)
# because firewall has interface on network
# internal_net, compiler should generate code
# for both FORWARD and INPUT chains
echo "-A INPUT -s 192.168.1.10 -d 192.168.1.0/24 -m state --state NEW -j ACCEPT "
echo "-A FORWARD -s 192.168.1.10 -d 192.168.1.0/24 -m state --state NEW -j ACCEPT "
#
# Rule 16 (global)
echo ":Cid418C4676.0 - [0:0]"
echo "-A OUTPUT -d 200.200.200.200 -m state --state NEW -j Cid418C4676.0 "
echo "-A Cid418C4676.0 -s 192.168.1.0/24 -j ACCEPT "
echo "-A Cid418C4676.0 -s 192.168.2.0/24 -j ACCEPT "
echo ":Cid418C4676.1 - [0:0]"
echo "-A FORWARD -d 200.200.200.200 -m state --state NEW -j Cid418C4676.1 "
echo "-A Cid418C4676.1 -s 192.168.1.0/24 -j ACCEPT "
echo "-A Cid418C4676.1 -s 192.168.2.0/24 -j ACCEPT "
#
# Rule 17 (global)
# Automatically generated 'catch all' rule
echo ":RULE_17 - [0:0]"
echo "-A OUTPUT -j RULE_17 "
echo "-A INPUT -j RULE_17 "
echo "-A FORWARD -j RULE_17 "
echo "-A RULE_17 -j LOG "
echo "-A RULE_17 -j DROP "
#
echo COMMIT
echo '*mangle'
# ================ Table 'mangle', automatic rules
echo "-A FORWARD -p tcp -m tcp --tcp-flags SYN,RST SYN -j TCPMSS --clamp-mss-to-pmtu"
echo COMMIT
echo '*nat'
# ================ Table 'nat', rule set NAT
echo :PREROUTING ACCEPT [0:0]
echo :POSTROUTING ACCEPT [0:0]
echo :OUTPUT ACCEPT [0:0]
#
# Rule 0 (NAT)
echo "-A POSTROUTING -o ppp -s 192.168.1.0/24 -j MASQUERADE "
echo "-A POSTROUTING -o eth2 -s 192.168.1.0/24 -j SNAT --to-source 192.168.2.1 "
#
# Rule 1 (NAT)
echo "-A POSTROUTING -o eth+ -s 192.168.1.0/24 -j SNAT --to-source 22.22.22.23 "
echo "-A POSTROUTING -o ppp -s 192.168.1.0/24 -j SNAT --to-source 22.22.22.23 "
#
# Rule 2 (NAT)
for i_ppp in $i_ppp_list
do
test -n "$i_ppp" && echo "-A PREROUTING -p tcp -m tcp -d $i_ppp --dport 22 -j DNAT --to-destination 192.168.1.10:22 "
done
echo "-A PREROUTING -p tcp -m tcp -d 192.168.1.1 --dport 22 -j DNAT --to-destination 192.168.1.10:22 "
echo "-A PREROUTING -p tcp -m tcp -d 192.168.2.1 --dport 22 -j DNAT --to-destination 192.168.1.10:22 "
#
# Rule 3 (NAT)
echo "-A PREROUTING -s 192.168.1.0/24 -d ! 200.200.200.200 -j DNAT --to-destination 192.168.2.10 "
echo "-A POSTROUTING -o eth2 -s 192.168.1.0/24 -d 192.168.2.10 -j SNAT --to-source 192.168.2.1 "
#
echo COMMIT
) | $IPTABLES_RESTORE; IPTABLES_RESTORE_RES=$?
test $IPTABLES_RESTORE_RES != 0 && run_epilog_and_exit $IPTABLES_RESTORE_RES
}
ip_forward() {
:
}
reset_all() {
:
reset_iptables_v4
}
block_action() {
reset_all
}
stop_action() {
reset_all
$IPTABLES -P OUTPUT ACCEPT
$IPTABLES -P INPUT ACCEPT
$IPTABLES -P FORWARD ACCEPT
}
check_iptables() {
IP_TABLES="$1"
[ ! -e $IP_TABLES ] && return 151
NF_TABLES=$(cat $IP_TABLES 2>/dev/null)
[ -z "$NF_TABLES" ] && return 152
return 0
}
status_action() {
check_iptables "/proc/net/ip_tables_names"
ret_ipv4=$?
check_iptables "/proc/net/ip6_tables_names"
ret_ipv6=$?
[ $ret_ipv4 -eq 0 -o $ret_ipv6 -eq 0 ] && return 0
[ $ret_ipv4 -eq 151 -o $ret_ipv6 -eq 151 ] && {
echo "iptables modules are not loaded"
}
[ $ret_ipv4 -eq 152 -o $ret_ipv6 -eq 152 ] && {
echo "Firewall is not configured"
}
exit 3
}
# See how we were called.
# For backwards compatibility missing argument is equivalent to 'start'
cmd=$1
test -z "$cmd" && {
cmd="start"
}
case "$cmd" in
start)
log "Activating firewall script generated Thu Feb 17 17:34:29 2011 by vadim"
check_tools
prolog_commands
check_run_time_address_table_files
load_modules "nat "
configure_interfaces
verify_interfaces
script_body
ip_forward
epilog_commands
RETVAL=$?
;;
stop)
stop_action
RETVAL=$?
;;
status)
status_action
RETVAL=$?
;;
block)
block_action
RETVAL=$?
;;
reload)
$0 stop
$0 start
RETVAL=$?
;;
interfaces)
configure_interfaces
RETVAL=$?
;;
test_interfaces)
FWBDEBUG="echo"
configure_interfaces
RETVAL=$?
;;
*)
echo "Usage $0 [start|stop|status|block|reload|interfaces|test_interfaces]"
;;
esac
exit $RETVAL
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