#!/bin/bash
#
# This will be universal firewalling script for Linux kernel (iptables) in near future
# Can be started by init or by hand.
#
# Developed by Lubomir Host 'rajo' <rajo AT platon.sk>
# Copyright (c) 2003-2009 Platon Group, http://platon.sk/
# Licensed under terms of GNU General Public License.
# All rights reserved.
#
# $Platon: scripts/shell/firewall/fw-universal.sh,v 2.72 2010-06-09 11:29:14 nepto Exp $
#
# Changelog:
# 2003-10-24 - created
#
umask 077 # security
DESC="firewall"
PATH=/usr/local/sbin:/usr/local/bin:/sbin:/bin:/usr/sbin:/usr/bin
DEFAULT_FIREWALL_CONFIG="${DEFAULT_FIREWALL_CONFIG:=/etc/default/firewall}"
DEFAULT_FIREWALL_CONFIG_DIR="${DEFAULT_FIREWALL_CONFIG_DIR:=/etc/default/firewall.d}"
DEFAULT_CACHE_DIR="${DEFAULT_CACHE_DIR:=/var/cache/firewall}"
# quiet output? {{{
if [ "x$1" = "xblock" ] || [ "x$QUIET" = "xyes" ]; then
print_info()
{
echo -n ""
}
else
print_info()
{
echo "$@"
}
fi
# }}}
if [ -f "$DEFAULT_FIREWALL_CONFIG" ]; then
print_info "Reading config file $DEFAULT_FIREWALL_CONFIG"
. $DEFAULT_FIREWALL_CONFIG
fi
#
# Default configuration values:
#
DEFAULT_POLICY="${DEFAULT_POLICY:=DROP}"
# which modules to load
MODULES="${MODULES:=}"
MODULES_LOADING="${MODULES_LOADING:=yes}"
MODULES_REMOVING="${MODULES_REMOVING:=no}"
LOG_LIMIT="${LOG_LIMIT:=-m limit --limit 12/h --limit-burst 10 -j LOG --log-level notice --log-prefix}"
# Paths:
#IPTABLES=":" # for testing only - does nothing
IPTABLES="${IPTABLES:=$DEBUG/sbin/iptables}"
IPTABLES_SAVE="${IPTABLES_SAVE:=$DEBUG/sbin/iptables-save}"
IPTABLES_RESTORE="${IPTABLES_RESTORE:=$DEBUG/sbin/iptables-restore}"
if [ "x$LOGGING" = "xoff" ]; then
IPTABLES_LOG=": log turned off"
else
IPTABLES_LOG="${IPTABLES_LOG:=$DEBUG/sbin/iptables}"
fi
IFCONFIG="${IFCONFIG:=/sbin/ifconfig}"
DEPMOD="${DEPMOD:=/sbin/depmod}"
MODPROBE="${MODPROBE:=/sbin/modprobe}"
RMMOD="${RMMOD:=/sbin/rmmod}"
AWK="${AWK:=/usr/bin/gawk}"
PERL="${PERL:=/usr/bin/perl}"
# shaping
TC="${TC:=/sbin/tc}"
# loopback interface
LO_IFACE="${LO_IFACE:=lo}"
# Hide NAT clients behind firewall
NAT_SET_TTL="${NAT_SET_TTL:=no}"
# reject config
ALL_REJECT_INPUT_TCP="${ALL_REJECT_INPUT_TCP:=113}" # by default reject connections to AUTH server
REJECT_WITH="${REJECT_WITH:=tcp-reset}"
#
# CONSTANTS - Do not edit
#
ANYWHERE="0.0.0.0/0" # Match any IP address
BROADCAST_SRC="0.0.0.0" # Broadcast Source Address
BROADCAST_DEST="255.255.255.255" # Broadcast Destination Address
CLASS_A="10.0.0.0/8" # Class-A Private (RFC-1918) Networks
CLASS_B="172.16.0.0/12" # Class-B Private (RFC-1918) Networks
CLASS_C="192.168.0.0/16" # Class-C Private (RFC-1918) Networks
CLASS_D_MULTICAST="224.0.0.0/4" # Class-D Multicast Addresses
CLASS_E_RESERVED_NET="240.0.0.0/5" # Class-E Reserved Addresses
PRIVPORTS="0:1023" # Well-Known, Privileged Port Range
UNPRIVPORTS="1024:65535" # Unprivileged Port Range
TRACEROUTE_SRC_PORTS="32769:65535" # Traceroute Source Ports
TRACEROUTE_DEST_PORTS="33434:33523" # Traceroute Destination Ports
# allow some ICMP packets - needed for ping etc.
ACCEPT_ICMP_PACKETS="${ACCEPT_ICMP_PACKETS:=echo-reply destination-unreachable echo-request time-exceeded}"
# check if all required tools are installed
check_tools()
{ # {{{
[ -x $AWK ] || (echo "AWK not found: please install gawk" && exit 1);
[ -x $PERL ] || (echo "PERL not found: please install perl" && exit 1);
[ -x $IPTABLES ] || (echo "IPTABLES not found: please install iptables" && exit 1);
[ -x $IPTABLES_SAVE ] || (echo "IPTABLES_SAVE not found: please install iptables" && exit 1);
[ -x $IPTABLES_RESTORE ] || (echo "IPTABLES_RESTORE not found: please install iptables" && exit 1);
} # }}}
print_first()
{ # {{{
echo $1
} # }}}
get_first_ip_addr()
{ # {{{
varname="$1"
print_first `echo ${!varname} | sort -g`
} # }}}
read_config_ips()
{ # {{{
PARSE_CONFIG=$1 $PERL -ne 'if (m/^\d{1,3}\.\d{1,3}\.\d{1,3}\.\d{1,3}\/(\d+)$/g) { print; } elsif ($_ !~ m/^\s*#/ && $_ !~ m/^\s*$/ ) { print STDERR "ERROR: $ENV{PARSE_CONFIG}:$.: ignored string $_\n"; }' $1
} # }}}
# load necessary modules from $MODULES variable
load_modules()
{ # {{{
if [ "e$MODULES_LOADING" = "eyes" ]; then
print_info "# Loading modules"
for mod in $MODULES; do
print_info " $MODPROBE $mod"
$MODPROBE $mod
done
fi
} # }}}
load_cache()
{ # {{{
if [ ! -d "$DEFAULT_CACHE_DIR" ]; then
mkdir -p "$DEFAULT_CACHE_DIR";
fi
config=`cat $DEFAULT_FIREWALL_CONFIG $0 $DEFAULT_FIREWALL_CONFIG_DIR/deploy-servers.list $DEFAULT_FIREWALL_CONFIG_DIR/BANNED_IP.conf `; # config file and firewalling script
md5key=`echo "config = '$config' parsed_interfaces ='$parsed_interfaces' parsed_routes='$parsed_routes'" | md5sum | $AWK '{ print $1; }'`;
CACHE_FILE="$DEFAULT_CACHE_DIR/$md5key"
#echo "CACHE_FILE=$CACHE_FILE"
if [ -f "$CACHE_FILE" ]; then
print_info "Loading rules from cache file $CACHE_FILE"
# this has nothing to do with IPtables rules, we need to run them explicitly
forward_on
shaping_on
# restore IPtables rules
$IPTABLES_RESTORE -c < $CACHE_FILE;
#echo "exit code $IPTABLES_RESTORE: $?"
[ $? -eq 0 ] && exit 0; # exit if load succesfull
fi
} # }}}
# unload necessary modules from $MODULES variable
unload_modules()
{ # {{{
# reverse modules
if [ "e$MODULES_REMOVING" = "eyes" ]; then
print_info "# Removing modules"
R_MODULES=`echo "$MODULES" | tr ' ' '\012' | tac | tr '\012' ' '`
for mod in $R_MODULES; do
print_info " $RMMOD $mod"
$RMMOD $mod
done
fi
} # }}}
# print status of detected interfaces
print_iface_status()
{ # {{{
# Print interfaces:
print_info "$(pad7 "# iface") | $(pad15 "IP address") | $(pad15 "Gateway") | $(pad15 "Broadcast") | $(pad15 "Netmask") | HW address";
for iface in $interfaces; do
IPS="IP_$iface";
for IP in ${!IPS}; do
Gateway="Gateway_$iface";
Bcast="Bcast_$iface";
Mask="Mask_$iface";
HWaddr="HWaddr_$iface";
print_info "$(pad7 $iface) | $(pad15 ${IP}) | $(pad15 ${!Gateway}) | $(pad15 ${!Bcast}) | $(pad15 ${!Mask}) | ${!HWaddr}";
done
done
} # }}}
# set default policy (variable $DEFAULT_POLICY)
set_default_policy()
{ # {{{
# Set default policy
for chain in INPUT OUTPUT FORWARD; do
$IPTABLES -P $chain $DEFAULT_POLICY
done
} # }}}
antispoof_on()
{ # {{{
for interface in /proc/sys/net/ipv4/conf/*/rp_filter; do
echo "1" > ${interface}
done
} # }}}
# Turn on IP packets forwarding
forward_on()
{ # {{{
# NAT requires turn on IP forwarding
if [ ! -z "$NAT_LAN_IFACE" ]; then
print_info -en "NAT: Enabling packet forwarding..."
echo 1 > /proc/sys/net/ipv4/ip_forward
print_info " done."
fi
} # }}}
forward_off()
{ # {{{
print_info -en "NAT: Disabling packet forwarding..."
echo 0 > /proc/sys/net/ipv4/ip_forward
print_info " done."
} # }}}
# clear status of iptable chains
remove_chains()
{ # {{{
for table in filter nat mangle; do
$IPTABLES -t $table -F # clear all chains
$IPTABLES -t $table -X # remove all chains
$IPTABLES -t $table -Z # zero counts
done
} # }}}
# DROP packages from nmap(1)
nmap_scan_filter()
{ # {{{
print_info -en "Turning on nmap scan filter "
for chain in INPUT FORWARD; do
# Nie je nastaveny ziaden bit
$IPTABLES_LOG -A $chain -p TCP --tcp-flags ALL NONE $LOG_LIMIT "nmap scan $chain ALL NONE: "
print_info -en "."
$IPTABLES -A $chain -p TCP --tcp-flags ALL NONE -j DROP
print_info -en "."
# dva odporujuuce si flagy su nastavene:
for flags in SYN,FIN SYN,RST FIN,RST ; do
$IPTABLES_LOG -A $chain -p TCP --tcp-flags $flags $flags $LOG_LIMIT "nmap scan $chain $flags: "
print_info -en "."
$IPTABLES -A $chain -p TCP --tcp-flags $flags $flags -j DROP
print_info -en "."
done
# je nastavene len $flags bez predpokladaneho ACK
for flags in FIN PSH URG ; do
$IPTABLES_LOG -A $chain -p TCP --tcp-flags ACK,$flags $flags $LOG_LIMIT "nmap scan $chain ACK,$flags: "
print_info -en "."
$IPTABLES -A $chain -p TCP --tcp-flags ACK,$flags $flags -j DROP
print_info -en "."
done
done
print_info " done."
} # }}}
# drop packets in state INVALID
invalid_packet_filter()
{ # {{{
print_info -en "Turning on INVALID packet filter "
for chain in INPUT OUTPUT FORWARD; do
$IPTABLES_LOG -A $chain -m state --state INVALID $LOG_LIMIT "INVALID $chain: "
print_info -en "."
$IPTABLES -A $chain -m state --state INVALID -j DROP
print_info -en "."
done
print_info " done."
} # }}}
syn_flood()
{ # {{{
$IPTABLES -N syn-flood
$IPTABLES -A syn-flood -m limit --limit 1/s --limit-burst 4 -j RETURN
$IPTABLES -A syn-flood -j DROP
for riface in $REAL_INTERFACES; do
$IPTABLES -A INPUT -i $riface -p TCP --syn -j syn-flood
# packet is marked az NEW, but doesn't have SYN flag - drop it
$IPTABLES -A INPUT -i $riface -p TCP ! --syn -m state --state NEW -j DROP
done
} # }}}
anti_spoof_filter()
{ # {{{
# http://www.iana.com/assignments/ipv4-address-space
if [ ! -z "$ANTISPOOF_IFACE" ]; then
print_info -en "Turning on antispoof filter for interfaces: "
$IPTABLES -N spoof
# Ochrana proti Spoogingu zo spatnej slucky
$IPTABLES_LOG -A spoof -s 127.0.0.0/8 $LOG_LIMIT "RESERVED:127.0.0.0/8 src"
$IPTABLES -A spoof -s 127.0.0.0/8 -j DROP
$IPTABLES_LOG -A spoof -d 127.0.0.0/8 $LOG_LIMIT "RESERVED:127.0.0.0/8 dest"
$IPTABLES -A spoof -d 127.0.0.0/8 -j DROP
# Ochrana proti Spoofingu Internetu z adries urcenych pre lokalne siete
$IPTABLES_LOG -A spoof -s 192.168.0.0/16 $LOG_LIMIT "RESERVED:192.168.0.0/16 src"
$IPTABLES -A spoof -s 192.168.0.0/16 -j DROP # RFC1918
$IPTABLES_LOG -A spoof -s 172.16.0.0/12 $LOG_LIMIT "RESERVED:172.16.0.0/12 src"
$IPTABLES -A spoof -s 172.16.0.0/12 -j DROP # RFC1918
$IPTABLES_LOG -A spoof -s 10.0.0.0/8 $LOG_LIMIT "RESERVED:10.0.0.0/8 src"
$IPTABLES -A spoof -s 10.0.0.0/8 -j DROP # RFC1918 len pre sietovy interface do Internetu, kedze 10.0.0.0 je adresa LAN
# 2009-02-11 - Not reserver anymore: http://www.iana.org/assignments/ipv4-address-space/
# - it is a Comcast network now
#$IPTABLES_LOG -A spoof -s 96.0.0.0/4 $LOG_LIMIT "RESERVED:96.0.0.0/4 src"
#$IPTABLES -A spoof -s 96.0.0.0/4 -j DROP # IANA
for iface in $ANTISPOOF_IFACE; do
print_info -en " $iface"
$IPTABLES -A FORWARD -i $iface -j spoof
$IPTABLES -A INPUT -i $iface -j spoof
done
print_info " done."
fi
} # }}}
mangle_prerouting()
{ # {{{
print_info -en "Optimizing PREROUTING TOS: "
# TOS flagy slouzi k optimalizaci datovych cest. Pro ssh, ftp a telnet
# pozadujeme minimalni zpozdeni. Pro ftp-data zase maximalni propostnost
$IPTABLES -t mangle -A PREROUTING -p TCP --sport ssh -j TOS --set-tos Minimize-Delay
print_info -en "."
$IPTABLES -t mangle -A PREROUTING -p TCP --dport ssh -j TOS --set-tos Minimize-Delay
print_info -en "."
$IPTABLES -t mangle -A PREROUTING -p TCP --sport ftp -j TOS --set-tos Minimize-Delay
print_info -en "."
$IPTABLES -t mangle -A PREROUTING -p TCP --dport ftp -j TOS --set-tos Minimize-Delay
print_info -en "."
$IPTABLES -t mangle -A PREROUTING -p TCP --dport telnet -j TOS --set-tos Minimize-Delay
print_info -en "."
$IPTABLES -t mangle -A PREROUTING -p TCP --sport ftp-data -j TOS --set-tos Maximize-Throughput
print_info -en "."
print_info " done."
} # }}}
mangle_output()
{ # {{{
print_info -en "Optimizing OUTPUT TOS:"
# TOS flagy slouzi k optimalizaci datovych cest. Pro ssh, ftp a telnet
# pozadujeme minimalni zpozdeni. Pro ftp-data zase maximalni propostnost
for riface in $REAL_INTERFACES; do
print_info -en " $riface";
$IPTABLES -t mangle -A OUTPUT -o $riface -p TCP --sport ssh -j TOS --set-tos Minimize-Delay
$IPTABLES -t mangle -A OUTPUT -o $riface -p TCP --dport ssh -j TOS --set-tos Minimize-Delay
$IPTABLES -t mangle -A OUTPUT -o $riface -p TCP --sport ftp -j TOS --set-tos Minimize-Delay
$IPTABLES -t mangle -A OUTPUT -o $riface -p TCP --dport ftp -j TOS --set-tos Minimize-Delay
$IPTABLES -t mangle -A OUTPUT -o $riface -p TCP --dport telnet -j TOS --set-tos Minimize-Delay
$IPTABLES -t mangle -A OUTPUT -o $riface -p TCP --sport ftp-data -j TOS --set-tos Maximize-Throughput
done
print_info " done."
} # }}}
# Masquerade local subnet
masquerade()
{ # {{{
if [ ! -z "$NAT_LAN_IFACE" ]; then
print_info -en "NAT: Enabling packet forwarding..."
echo 1 > /proc/sys/net/ipv4/ip_forward
print_info " done."
print_info -en "NAT: Masquerading local subnet: $NAT_SUBNET_IFACE --> $NAT_LAN_IFACE"
ip="`get_first_ip_addr IP_$NAT_SUBNET_IFACE`"
netmask="Mask_$NAT_SUBNET_IFACE"
localnet="$ip/${!netmask}"
lan_ip="`get_first_ip_addr IP_$NAT_LAN_IFACE`"
# alow packets from private subnet
$IPTABLES -A FORWARD -s ! $localnet -i $NAT_SUBNET_IFACE -j DROP
for client_ip in $NAT_CLIENT_DROP; do
print_info -en " !$client_ip";
$IPTABLES -A FORWARD -s $client_ip -i $NAT_SUBNET_IFACE -j DROP
done
for redirect in $NAT_TCP_PORT_REDIRECT; do
#eval `echo $redirect | $AWK -v FS=: '{ printf "remote_port=%s; local_port=%s;", $1, $2; }'`
eval `echo $redirect | \
$AWK -v FS=: ' (NF == 2) { remote_ip = "$lan_ip"; remote_port = $1; local_port = $2; } \
(NF == 3) { remote_ip = $2; remote_port = $1; local_port = $3; } \
END { printf "remote_ip=%s; remote_port=%s; local_port=%s;", remote_ip, remote_port, local_port; }'`
print_info -en " $remote_port>>$remote_ip:$local_port(tcp)"
$IPTABLES -t nat -A PREROUTING -p TCP \
-i ! $NAT_LAN_IFACE -d ! $lan_ip \
--dport $remote_port -j REDIRECT --to-port $local_port
done
for redirect in $NAT_UDP_PORT_REDIRECT; do
#eval `echo $redirect | $AWK -v FS=: '{ printf "remote_port=%s; local_port=%s;", $1, $2; }'`
eval `echo $redirect | \
$AWK -v FS=: ' (NF == 2) { dnat = "no" ; remote_ip = "X"; remote_port = $1; local_port = $2; } \
(NF == 3) { dnat = "yes" ; remote_ip = $2; remote_port = $1; local_port = $3; } \
END { printf "dnat=%s; remote_ip=%s; remote_port=%s; local_port=%s;", dnat, remote_ip, remote_port, local_port; }'`
print_info -en " $remote_port>>$remote_ip:$local_port(udp)"
if [ "x$dnat" = "xyes" ]; then
$IPTABLES -t nat -A PREROUTING -p UDP -i $NAT_SUBNET_IFACE -d ! $ip \
--dport $local_port -j DNAT --to $remote_ip:$remote_port
$IPTABLES -A FORWARD -p UDP -i $NAT_SUBNET_IFACE -d ! $ip --dport $local_port -j ACCEPT
else
$IPTABLES -t nat -A PREROUTING -p UDP \
-i ! $NAT_LAN_IFACE -d ! $lan_ip \
--dport $remote_port -j REDIRECT --to-port $local_port
fi
done
#$IPTABLES -t nat -A POSTROUTING -s $localnet -o $NAT_LAN_IFACE -j MASQUERADE
$IPTABLES -t nat -A POSTROUTING -o $NAT_LAN_IFACE -j MASQUERADE
print_info " done."
# don't forward Miscrosoft protocols - NOT RFC compliant packets
if [ ! -z "$NAT_FORWARD_MICROSOFT" ]; then
if [ "x$NAT_FORWARD_MICROSOFT" = "xno" ]; then
$IPTABLES -A FORWARD -p TCP ! --syn -m state --state NEW -j DROP
for port in 69 135 445 1434 6667; do
$IPTABLES -A FORWARD -p TCP --dport $port -j DROP
$IPTABLES -A FORWARD -p UDP --dport $port -j DROP
done
fi
fi
if [ ! -z "$NAT_FORWARD_TCP_PORTS" ]; then
print_info -en "\tAccepting FORWARD TCP ports:"
for port in $NAT_FORWARD_TCP_PORTS; do
print_info -en " $port"
$IPTABLES -A FORWARD -p TCP --dport $port -m state --state NEW -j ACCEPT
done
print_info " done."
fi
if [ ! -z "$NAT_FORWARD_UDP_PORTS" ]; then
print_info -en "\tAccepting FORWARD UDP ports:"
for port in $NAT_FORWARD_UDP_PORTS; do
print_info -en " $port"
$IPTABLES -A FORWARD -p UDP --dport $port -m state --state NEW -j ACCEPT
done
print_info " done."
fi
print_info -en "\tAccepting ICMP packets:"
for type in $ACCEPT_ICMP_PACKETS; do
print_info -en " $type"
$IPTABLES -A FORWARD -p ICMP --icmp-type $type -j ACCEPT
done
#$IPTABLES_LOG -A FORWARD -p ICMP -j LOG --log-prefix "FWD ICMP: "
print_info " done."
# Port forwarding to local machines
if [ ! -z "$NAT_TCP_PORT_FORWARD" ]; then
print_info -en "\tForwarding TCP ports to local machines:"
for redirect in $NAT_TCP_PORT_FORWARD; do
#eval `echo $redirect | $AWK -v FS=: '{ printf "src_port=%s; local_machine=%s; dest_port=%s;", $1, $2, $3; }'`
eval `echo $redirect | \
$AWK -v FS=: ' (NF == 3) { src_ip = "$lan_ip" ; src_port = $1; local_machine = $2; dest_port = $3; } \
(NF == 4) { src_ip = $1 ; src_port = $2; local_machine = $3; dest_port = $4; } \
END { printf "src_ip=%s; src_port=%s; local_machine=%s; dest_port=%s;", src_ip, src_port, local_machine, dest_port; }'`
print_info -en " $src_ip:$src_port -> $local_machine:$dest_port"
$IPTABLES -t nat -A PREROUTING -p TCP -i $NAT_LAN_IFACE -d $src_ip \
--dport $src_port -j DNAT --to $local_machine:$dest_port
$IPTABLES -A FORWARD -p TCP -i $NAT_LAN_IFACE -d $local_machine --dport $dest_port -j ACCEPT
done
print_info " done."
fi
if [ ! -z "$NAT_UDP_PORT_FORWARD" ]; then
print_info -en "\tForwarding UDP ports to local machines:"
for redirect in $NAT_UDP_PORT_FORWARD; do
#eval `echo $redirect | $AWK -v FS=: '{ printf "src_port=%s; local_machine=%s; dest_port=%s;", $1, $2, $3; }'`
eval `echo $redirect | \
$AWK -v FS=: ' (NF == 3) { src_ip = "$lan_ip" ; src_port = $1; local_machine = $2; dest_port = $3; } \
(NF == 4) { src_ip = $1 ; src_port = $2; local_machine = $3; dest_port = $4; } \
END { printf "src_ip=%s; src_port=%s; local_machine=%s; dest_port=%s;", src_ip, src_port, local_machine, dest_port; }'`
print_info -en " $src_port -> $local_machine:$dest_port"
$IPTABLES -t nat -A PREROUTING -p UDP -i $NAT_LAN_IFACE -d $lan_ip \
--dport $src_port -j DNAT --to $local_machine:$dest_port
$IPTABLES -A FORWARD -p UDP -i $NAT_LAN_IFACE -d $local_machine --dport $dest_port -j ACCEPT
done
print_info " done."
fi
# Keep state of connections from private subnets
$IPTABLES -A OUTPUT -m state --state NEW -o $NAT_LAN_IFACE -j ACCEPT
#$IPTABLES -A FORWARD -m state --state NEW -o $NAT_LAN_IFACE -j ACCEPT
$IPTABLES -A FORWARD -m state --state ESTABLISHED,RELATED -j ACCEPT
# hide NAT clients behind firewall: - set TTL
# XXX: warning: this breaks traceroute !!!
if [ ! "a$NAT_SET_TTL" = "ano" ]; then
print_info "NAT: clients hidden behind firewall - setting TTL to $NAT_SET_TTL"
$IPTABLES -t mangle -A POSTROUTING -o $NAT_LAN_IFACE -j TTL --ttl-set $NAT_SET_TTL
fi
fi
} # }}}
log_new_connections()
{ # {{{
if [ ! -z "$NAT_LOG_NEW_CONNECTIONS" ]; then
if [ "x$NAT_LOG_NEW_CONNECTIONS" = "xyes" ]; then
if [ "x$NAT_LOG_NEW_CONNECTIONS" = "xyes" ]; then
NAT_LOG_NEW_CONNECTIONS="TCP UDP"
fi
print_info -en "Logging new connections $NAT_LOG_NEW_CONNECTIONS:"
for proto in $NAT_LOG_NEW_CONNECTIONS; do
$IPTABLES_LOG -A INPUT -m state --state NEW -p $proto -j LOG --log-prefix "IN connection: "
$IPTABLES_LOG -A OUTPUT -m state --state NEW -p $proto -j LOG --log-prefix "OUT connection: "
$IPTABLES_LOG -A FORWARD -m state --state NEW -p $proto -j LOG --log-prefix "FWD connection: "
done
print_info " done."
fi
fi
} # }}}
drop_output()
{ # {{{
for riface in $REAL_INTERFACES; do
drop_output_tcp="${riface}_DROP_OUTPUT_TCP"
DROP_OUTPUT_TCP="${!drop_output_tcp}"
drop_output_udp="${riface}_DROP_OUTPUT_UDP"
DROP_OUTPUT_UDP="${!drop_output_udp}"
if [ ! -z "$DROP_OUTPUT_TCP" ]; then
print_info -en "$riface: Dropping outgoing packets from ports:"
for port in $DROP_OUTPUT_TCP; do
print_info -en " $port"
$IPTABLES -A FORWARD -p TCP --sport $port -o $riface -j DROP
$IPTABLES -A OUTPUT -p TCP --sport $port -o $riface -j DROP
done
print_info " done."
fi
if [ ! -z "$DROP_OUTPUT_UDP" ]; then
print_info -en "$riface: Dropping outgoing packets from ports:"
for port in $DROP_OUTPUT_UDP; do
print_info -en " $port"
$IPTABLES -A FORWARD -p UDP --sport $port -o $riface -j DROP
$IPTABLES -A OUTPUT -p UDP --sport $port -o $riface -j DROP
done
print_info " done."
fi
done
} # }}}
bann_ip_adresses()
{ # {{{
#
# This feature has been developed for following reason:
# UbiCrawler spam our website with many requests (they are duplicit requests of the same page!)
# And this web robot doesn't accept HTTP META tags (http://www.robotstxt.org/wc/faq.html#extension)
#
# Bann them too!
#
#IP address is: 146.48.97.11 146.48.97.13
# User Agent: "UbiCrawler/v0.4beta (http://ubi.iit.cnr.it/projects/ubicrawler/)"
#
cf="$DEFAULT_FIREWALL_CONFIG_DIR/BANNED_IP.conf"
if [ -f $cf ]; then
BANNED_IP="$BANNED_IP `read_config_ips $cf`"
fi
if [ ! -z "$BANNED_IP" ]; then
print_info -en "Dropping ALL packets from IP:"
for banned_ip in $BANNED_IP; do
print_info -en " $banned_ip"
$IPTABLES -A INPUT -s $banned_ip -j DROP
$IPTABLES -A FORWARD -s $banned_ip -j DROP
done
print_info " done."
fi
} # }}}
allow_accept_all()
{ # {{{
if [ ! -z "$IFACE_ACCEPT_ALL" ]; then
print_info -en "Accepting ALL packets on interfaces:"
for iface in $IFACE_ACCEPT_ALL; do
print_info -en " $iface"
$IPTABLES -A INPUT -i $iface -j ACCEPT
$IPTABLES -A FORWARD -i $iface -j ACCEPT
$IPTABLES -A OUTPUT -o $iface -j ACCEPT
done
print_info " done."
fi
} # }}}
drop_input()
{ # {{{
if [ ! -z "$NAT_LAN_IFACE" ]; then
for client_ip in $NAT_CLIENT_DROP; do
print_info -en " !$client_ip";
$IPTABLES -A INPUT -s $client_ip -i $NAT_SUBNET_IFACE -j DROP
done
fi
if [ ! -z "$ALL_DROP_INPUT_TCP" ]; then
print_info -en "Drop ALL INPUT TCP connections on ports:"
for port in $ALL_DROP_INPUT_TCP; do
for riface in $REAL_INTERFACES; do
print_info -en " $port($riface)"
$IPTABLES -A INPUT -i $riface -p TCP --dport $port -j DROP
done
done
print_info " done."
fi
if [ ! -z "$ALL_DROP_INPUT_UDP" ]; then
print_info -en "Drop ALL INPUT UDP connections on ports:"
for port in $ALL_DROP_INPUT_UDP; do
for riface in $REAL_INTERFACES; do
print_info -en " $port($riface)"
$IPTABLES -A INPUT -i $riface -p UDP --dport $port -j DROP
done
done
print_info " done."
fi
if [ ! -z "$REAL_DROP_INPUT_TCP" ]; then
print_info -en "Drop REAL all INPUT TCP connections for ALL interfaces on ports:"
for port in $REAL_DROP_INPUT_TCP; do
print_info -en " $port(ALL)"
$IPTABLES -A INPUT -p TCP --dport $port -j DROP
done
print_info " done."
fi
if [ ! -z "$REAL_DROP_INPUT_UDP" ]; then
print_info -en "Drop REAL all INPUT UDP connections for ALL interfaces on ports:"
for port in $REAL_DROP_INPUT_UDP; do
print_info -en " $port(ALL)"
$IPTABLES -A INPUT -p UDP --dport $port -j DROP
done
print_info " done."
fi
} # }}}
reject_input()
{ # {{{
if [ ! -z "$ALL_REJECT_INPUT_TCP" ]; then
print_info -en "Reject ALL INPUT TCP connections on ports:"
for port in $ALL_REJECT_INPUT_TCP; do
for riface in $REAL_INTERFACES; do
print_info -en " $port($riface)"
$IPTABLES -A INPUT -i $riface -p TCP --dport $port -j REJECT --reject-with $REJECT_WITH
done
done
print_info " done."
fi
if [ ! -z "$ALL_REJECT_INPUT_UDP" ]; then
print_info -en "Reject ALL INPUT UDP connections on ports:"
for port in $ALL_REJECT_INPUT_UDP; do
for riface in $REAL_INTERFACES; do
print_info -en " $port($riface)"
$IPTABLES -A INPUT -i $riface -p UDP --dport $port -j REJECT --reject-with $REJECT_WITH
done
done
print_info " done."
fi
if [ ! -z "$REAL_REJECT_INPUT_TCP" ]; then
print_info -en "Reject REAL all INPUT TCP connections for ALL interfaces on ports:"
for port in $REAL_REJECT_INPUT_TCP; do
print_info -en " $port(ALL)"
$IPTABLES -A INPUT -p TCP --dport $port -j REJECT --reject-with $REJECT_WITH
done
print_info " done."
fi
if [ ! -z "$REAL_REJECT_INPUT_UDP" ]; then
print_info -en "Reject REAL all INPUT UDP connections for ALL interfaces on ports:"
for port in $REAL_REJECT_INPUT_UDP; do
for riface in $REAL_INTERFACES; do
print_info -en " $port(ALL)"
$IPTABLES -A INPUT -p UDP --dport $port -j REJECT --reject-with $REJECT_WITH
done
done
print_info " done."
fi
} # }}}
allow_input()
{ # {{{
if [ ! -z "$ALL_ACCEPT_INPUT_TCP" ]; then
print_info -en "Accepting ALL INPUT TCP connections on ports:"
for port in $ALL_ACCEPT_INPUT_TCP; do
src_ip=""
eval `echo $port | awk -v FS=: '/:/ { printf "src_ip=\"%s\"; port=\"%s\";", $1, $2; }'`
for iface in $INTERFACES; do
riface="IFname_$iface";
print_info -en " $port($iface)"`[ ! -z $src_ip ] && echo "[$src_ip]"`
IPS="IP_$iface";
for ip in ${!IPS}; do
if [ -z "$src_ip" ]; then
$IPTABLES -A INPUT -i ${!riface} -d $ip -p TCP --dport $port -j ACCEPT
else
$IPTABLES -A INPUT -i ${!riface} -s $src_ip -d $ip -p TCP --dport $port -j ACCEPT
fi
done
done
done
print_info " done."
fi
if [ ! -z "$ALL_ACCEPT_INPUT_UDP" ]; then
print_info -en "Accepting ALL INPUT UDP connections on ports:"
for port in $ALL_ACCEPT_INPUT_UDP; do
src_ip=""
eval `echo $port | awk -v FS=: '/:/ { printf "src_ip=\"%s\"; port=\"%s\";", $1, $2; }'`
for iface in $INTERFACES; do
riface="IFname_$iface";
print_info -en " $port($iface)"`[ ! -z $src_ip ] && echo "[$src_ip]"`
IPS="IP_$iface";
for ip in ${!IPS}; do
if [ -z "$src_ip" ]; then
$IPTABLES -A INPUT -i ${!riface} -d $ip -p UDP --dport $port -j ACCEPT
else
$IPTABLES -A INPUT -i ${!riface} -s $src_ip -d $ip -p UDP --dport $port -j ACCEPT
fi
done
done
done
print_info " done."
fi
if [ ! -z "$REAL_ACCEPT_INPUT_TCP" ]; then
print_info -en "Accepting REAL all INPUT TCP connections for ALL interfaces on ports:"
for port in $REAL_ACCEPT_INPUT_TCP; do
src_ip=""
eval `echo $port | awk -v FS=: '/:/ { printf "src_ip=\"%s\"; port=\"%s\";", $1, $2; }'`
print_info -en " $port(ALL)"`[ ! -z $src_ip ] && echo "[$src_ip]"`
if [ -z "$src_ip" ]; then
$IPTABLES -A INPUT -p TCP --dport $port -j ACCEPT
else
$IPTABLES -A INPUT -s $src_ip -p TCP --dport $port -j ACCEPT
fi
done
print_info " done."
fi
if [ ! -z "$REAL_ACCEPT_INPUT_UDP" ]; then
print_info -en "Accepting REAL all INPUT UDP connections for ALL interfaces on ports:"
for port in $REAL_ACCEPT_INPUT_UDP; do
src_ip=""
eval `echo $port | awk -v FS=: '/:/ { printf "src_ip=\"%s\"; port=\"%s\";", $1, $2; }'`
print_info -en " $port(ALL)"`[ ! -z $src_ip ] && echo "[$src_ip]"`
if [ -z "$src_ip" ]; then
$IPTABLES -A INPUT -p UDP --dport $port -j ACCEPT
else
$IPTABLES -A INPUT -s $src_ip -p UDP --dport $port -j ACCEPT
fi
done
print_info " done."
fi
for iface in $INTERFACES; do
riface="IFname_$iface";
IPS="IP_$iface";
redirect_tcp="${iface}_REDIRECT_TCP"
REDIRECT_TCP="${!redirect_tcp}"
redirect_udp="${iface}_REDIRECT_UDP"
REDIRECT_UDP="${!redirect_udp}"
reject_input_tcp="${iface}_REJECT_INPUT_TCP"
REJECT_INPUT_TCP="${!reject_input_tcp}"
reject_input_udp="${iface}_REJECT_INPUT_UDP"
REJECT_INPUT_UDP="${!reject_input_udp}"
accept_input_tcp="${iface}_ACCEPT_INPUT_TCP"
ACCEPT_INPUT_TCP="${!accept_input_tcp}"
accept_input_udp="${iface}_ACCEPT_INPUT_UDP"
ACCEPT_INPUT_UDP="${!accept_input_udp}"
if [ ! -z "$REDIRECT_TCP" ]; then
print_info -en "$iface: redirecting TCP connections:"
ip="`get_first_ip_addr IP_$iface`";
for redirect in $REDIRECT_TCP; do
eval `echo $redirect | \
$AWK -v FS=: ' (NF == 2) { remote_ip = "0.0.0.0/0"; from_port = $1; to_port = $2; } \
(NF == 3) { remote_ip = $1; from_port = $2; to_port = $3; } \
END { printf "remote_ip=%s; from_port=%s; to_port=%s;", remote_ip, from_port, to_port; }'`
print_info -en " $remote_ip:$from_port->$to_port"
$IPTABLES -t nat -A PREROUTING -p TCP -i ${!riface} -s $remote_ip -d $ip --dport $from_port -j REDIRECT --to-port $to_port
done
print_info " done."
fi
if [ ! -z "$REDIRECT_UDP" ]; then
print_info -en "$iface: redirecting UDP connections:"
ip="`get_first_ip_addr IP_$iface`";
for redirect in $REDIRECT_UDP; do
eval `echo $redirect | \
$AWK -v FS=: ' (NF == 2) { remote_ip = "0.0.0.0/0"; from_port = $1; to_port = $2; } \
(NF == 3) { remote_ip = $1; from_port = $2; to_port = $3; } \
END { printf "remote_ip=%s; from_port=%s; to_port=%s;", remote_ip, from_port, to_port; }'`
print_info -en " $remote_ip:$from_port->$to_port"
$IPTABLES -t nat -A PREROUTING -p UDP -i ${!riface} -s $remote_ip -d $ip --dport $from_port -j REDIRECT --to-port $to_port
done
print_info " done."
fi
# REJECT {{{
if [ ! -z "$REJECT_INPUT_TCP" ]; then
print_info -en "$iface: Rejecting INPUT TCP connections on ports:"
for port in $REJECT_INPUT_TCP; do
src_ip=""
eval `echo $port | awk -v FS=: '/:/ { printf "src_ip=\"%s\"; port=\"%s\";", $1, $2; }'`
print_info -en " $port"`[ ! -z $src_ip ] && echo "[$src_ip]"`
for ip in ${!IPS}; do
if [ -z $src_ip ]; then
$IPTABLES -A INPUT -i ${!riface} -d $ip -p TCP --dport $port -j REJECT --reject-with $REJECT_WITH
else
$IPTABLES -A INPUT -i ${!riface} -s $src_ip -d $ip -p TCP --dport $port -j REJECT --reject-with $REJECT_WITH
fi
done
done
print_info " done."
fi
if [ ! -z "$REJECT_INPUT_UDP" ]; then
print_info -en "$iface: Rejecting INPUT UDP connections on ports:"
for port in $REJECT_INPUT_UDP; do
src_ip=""
eval `echo $port | awk -v FS=: '/:/ { printf "src_ip=\"%s\"; port=\"%s\";", $1, $2; }'`
print_info -en " $port"`[ ! -z $src_ip ] && echo "[$src_ip]"`
for ip in ${!IPS}; do
if [ -z $src_ip ]; then
$IPTABLES -A INPUT -i ${!riface} -d $ip -p UDP --dport $port -j REJECT --reject-with $REJECT_WITH
else
$IPTABLES -A INPUT -i ${!riface} -s $src_ip -d $ip -p UDP --dport $port -j REJECT --reject-with $REJECT_WITH
fi
done
done
print_info " done."
fi
# }}}
# ACCEPT {{{
if [ ! -z "$ACCEPT_INPUT_TCP" ]; then
print_info -en "$iface: Accepting INPUT TCP connections on ports:"
for port in $ACCEPT_INPUT_TCP; do
src_ip=""
eval `echo $port | awk -v FS=: '/:/ { printf "src_ip=\"%s\"; port=\"%s\";", $1, $2; }'`
if [ -n "$src_ip" -a "$port" = "0" ]; then
port="ALL";
fi
print_info -en " $port"`[ ! -z $src_ip ] && echo "[$src_ip]"`
for ip in ${!IPS}; do
if [ -z $src_ip ]; then
$IPTABLES -A INPUT -i ${!riface} -d $ip -p TCP --dport $port -j ACCEPT
else
if [ "$port" = "ALL" ]; then
$IPTABLES -A INPUT -i ${!riface} -s $src_ip -d $ip -p TCP -j ACCEPT
else
$IPTABLES -A INPUT -i ${!riface} -s $src_ip -d $ip -p TCP --dport $port -j ACCEPT
fi
fi
done
done
print_info " done."
fi
if [ ! -z "$ACCEPT_INPUT_UDP" ]; then
print_info -en "$iface: Accepting INPUT UDP connections on ports:"
for port in $ACCEPT_INPUT_UDP; do
src_ip=""
eval `echo $port | awk -v FS=: '/:/ { printf "src_ip=\"%s\"; port=\"%s\";", $1, $2; }'`
if [ -n "$src_ip" -a "$port" = "0" ]; then
port="ALL";
fi
print_info -en " $port"`[ ! -z $src_ip ] && echo "[$src_ip]"`
#$IPTABLES -A INPUT -i $iface -d ${!INET_IP} -p UDP --dport $port -j ACCEPT
#$IPTABLES -A INPUT -i $iface --source 192.168.1.0/16 -p UDP --dport $port -j ACCEPT
for ip in ${!IPS}; do
if [ -z $src_ip ]; then
$IPTABLES -A INPUT -i ${!riface} -d $ip -p UDP --dport $port -j ACCEPT
else
if [ "$port" = "ALL" ]; then
$IPTABLES -A INPUT -i ${!riface} -s $src_ip -d $ip -p UDP -j ACCEPT
else
$IPTABLES -A INPUT -i ${!riface} -s $src_ip -d $ip -p UDP --dport $port -j ACCEPT
fi
fi
done
done
print_info " done."
fi
# }}}
done
# Enable outgoing TRACEROUTE requests (required e.g. by Skype, http://www.skype.com)
if [ ! -z "$TRACEROUTE_IFACE" ]; then
ip="`get_first_ip_addr IP_$ANTISPOOF_IFACE`";
print_info -en "Accepting traceroute:"
$IPTABLES -A OUTPUT -o $ANTISPOOF_IFACE -p UDP \
--sport $TRACEROUTE_SRC_PORTS --dport $TRACEROUTE_DEST_PORTS \
-s $ip -d $ANYWHERE -j ACCEPT
for iface in $TRACEROUTE_IFACE; do
$IPTABLES -A FORWARD -p UDP -i $iface --sport $TRACEROUTE_SRC_PORTS \
--dport $TRACEROUTE_DEST_PORTS -j ACCEPT
done
print_info " done."
fi
} # }}}
# ACCEPT all packets from our IP address
allow_output()
{ # {{{
# Povolíme odchozí pakety, které mají naše IP adresy
print_info -en "Accepting OUTPUT packets from"
for iface in $INTERFACES; do
riface="IFname_$iface";
IPS="IP_$iface";
for ip in ${!IPS}; do
print_info -en " $ip($iface)"
$IPTABLES -A OUTPUT -o ${!riface} -s $ip -j ACCEPT
done
done;
print_info " done.";
} # }}}
allow_icmp()
{ # {{{
print_info -en "Accepting ICMP packets:"
# accept only allowed ICMP packets
for type in $ACCEPT_ICMP_PACKETS; do
print_info -en " $type"
for iface in $INTERFACES; do
riface="IFname_$iface";
IPS="IP_$iface";
for ip in ${!IPS}; do
$IPTABLES -A INPUT -i ${!riface} -d $ip -p ICMP --icmp-type $type -j ACCEPT
done
done
done
#$IPTABLES_LOG -A INPUT -p ICMP -j LOG --log-prefix "IN ICMP: "
#$IPTABLES_LOG -A OUTPUT -p ICMP -j LOG --log-prefix "OUT ICMP: "
print_info " done."
} # }}}
log_input_drop()
{ # {{{
if [ ! "x$LOGGING" = "xoff" ]; then
prefix="input drop: "
print_info "Input drop is logged with prefix '$prefix'"
$IPTABLES_LOG -A INPUT $LOG_LIMIT "$prefix"
fi
} # }}}
log_output_drop()
{ # {{{
if [ ! "x$LOGGING" = "xoff" ]; then
prefix="output drop: "
print_info "Output drop is logged with prefix '$prefix'"
$IPTABLES_LOG -A OUTPUT $LOG_LIMIT "$prefix"
fi
} # }}}
log_forward_drop()
{ # {{{
if [ ! "x$LOGGING" = "xoff" ]; then
prefix="forward drop: "
print_info "Forward drop is logged with prefix '$prefix'"
$IPTABLES_LOG -A FORWARD $LOG_LIMIT "$prefix"
fi
} # }}}
configure_special_rules()
{ # {{{
print_info -en "Loading special rules: "
##
## for DSL from Slovanet (Slovak DSL provider) and DSL modem DLINK DSL-360T you must add following rule for proper ssh connect to your machine
##
# print_info -en "slovanet "
# $IPTABLES -t mangle -A OUTPUT -s 0/0 -j DSCP --set-dscp 0
print_info " done.";
} # }}}
do_ip_accounting()
{ # {{{
if [ ! "x$DO_LOCAL_IP_ACCOUNTING" = "xno" ]; then
if [ ! -z "$NAT_LAN_IFACE" ]; then
IPACCT_NAME="ZORBCOUNT"
IPACCT_IN_NAME="ZORBCOUNTIN"
IPACCT_OUT_NAME="ZORBCOUNTOUT"
$IPTABLES -N $IPACCT_NAME # whole network
$IPTABLES -N $IPACCT_IN_NAME # download: from server to client
$IPTABLES -A $IPACCT_IN_NAME
$IPTABLES -N $IPACCT_OUT_NAME # upload: from client to server
$IPTABLES -A $IPACCT_OUT_NAME
ip="`get_first_ip_addr IP_$NAT_SUBNET_IFACE`";
netmask="Mask_$NAT_SUBNET_IFACE"
localnet="$ip/${!netmask}"
$IPTABLES -I INPUT -i $NAT_LAN_IFACE -j $IPACCT_IN_NAME
$IPTABLES -I OUTPUT -o $NAT_LAN_IFACE -j $IPACCT_OUT_NAME
$IPTABLES -I FORWARD -s $localnet -o $NAT_LAN_IFACE -j $IPACCT_NAME
$IPTABLES -I FORWARD -d $localnet -i $NAT_LAN_IFACE -j $IPACCT_NAME
for client_ip in $IP_ACCT_CLIENTS; do
$IPTABLES -A $IPACCT_NAME -s $client_ip
$IPTABLES -A $IPACCT_NAME -d $client_ip
done
if [ ! "x$DO_LOCAL_IP_ACCOUNTING" = "xno" ]; then
accountig_ports=`echo "$NAT_TCP_PORT_REDIRECT " | $AWK -v RS=' ' -v FS=: '{ print $2; }' | sort -u -r -g `
for port in $accountig_ports; do
$IPTABLES -I INPUT -i $NAT_SUBNET_IFACE -p TCP --dport $port -j $IPACCT_NAME
$IPTABLES -I INPUT -i $NAT_SUBNET_IFACE -p UDP --dport $port -j $IPACCT_NAME
$IPTABLES -I OUTPUT -o $NAT_SUBNET_IFACE -p TCP --sport $port -j $IPACCT_NAME
$IPTABLES -I OUTPUT -o $NAT_SUBNET_IFACE -p UDP --sport $port -j $IPACCT_NAME
done
fi
$IPTABLES -A $IPACCT_NAME -s $localnet
$IPTABLES -A $IPACCT_NAME -d $localnet
fi
fi
} # }}}
accept_related()
{ # {{{
print_info -en "Accepting ESTABLISHED, RELATED packets ..."
$IPTABLES -A INPUT -m state --state ESTABLISHED,RELATED -j ACCEPT
$IPTABLES -A OUTPUT -m state --state ESTABLISHED,RELATED -j ACCEPT
print_info " done."
} # }}}
accept_loopback()
{ # {{{
# Loopback není radno omezovat
print_info -en "Accepting loopback:"
$IPTABLES -A INPUT -i $LO_IFACE -j ACCEPT
$IPTABLES -A OUTPUT -o $LO_IFACE -j ACCEPT
print_info " done."
} # }}}
#
# Shaping support {{{
#
# http://koti.welho.com/ntoivol2/shaping/
#
shaping_on()
{ # {{{
mark_idx=1
if [ ! -z $SHAPING_IFACE ]; then
for iface in $SHAPING_IFACE; do
echo "Shaping for interface $iface"
shaping_classes="${iface}_SHAPING_CLASSES"
# root qdisc: 2-band prio with everything defaulting to band 0
$TC qdisc add dev $iface root handle 1: prio bands 2 priomap 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
for class in ${!shaping_classes}; do
rate="${iface}_SHAPING_RATE_${class}"
latency="${iface}_SHAPING_LATENCY_${class}"
burst="${iface}_SHAPING_BURST_${class}"
netmask="${iface}_SHAPING_NETMASK_${class}"
echo -e "\tshaping \"$class\" traffic: rate=${!rate} burst=${!burst} netmask=${!netmask}"
if [ -z ${!netmask} ]; then
$IPTABLES -t mangle -A OUTPUT -j MARK --set-mark 0x$mark_idx
else
$IPTABLES -t mangle -A OUTPUT -d ${!netmask} -j MARK --set-mark 0x$mark_idx
fi
if [ -z ${!rate} ]; then
# SFQ for local traffic
$TC qdisc add dev $iface parent 1:$mark_idx handle $((10 + $mark_idx)): sfq perturb 10
else
# TBF shaping and SFQ for internet traffic
$TC qdisc add dev $iface parent 1:$mark_idx handle $((10 + $mark_idx)): tbf rate ${!rate} burst ${!burst} latency ${!latency}
$TC qdisc add dev $iface parent $((10 + $mark_idx)): handle $((10 * $mark_idx)): sfq perturb 10
fi
mark_idx=$(($mark_idx + 1))
done
done
fi
} # }}}
shaping_off()
{ # {{{
if [ ! -z $SHAPING_IFACE ]; then
echo -en "Shaping turned off for interface"
for iface in $SHAPING_IFACE; do
echo -en " $iface"
$TC qdisc del dev $iface root 2>/dev/null
done
echo ". done"
fi
} # }}}
shaping_status()
{ # {{{
if [ ! -z $SHAPING_IFACE ]; then
echo "# Shaping status: "
$TC qdisc list
else
echo "# Shaping turned off"
fi
} # }}}
# }}}
add_banned_ip()
{ # {{{
echo "# `date '+%Y-%m-%d %X' ` - ${SSH_CLIENT:=local}" >> $DEFAULT_FIREWALL_CONFIG_DIR/BANNED_IP.conf
TMPFILE=`mktemp -t fw-universal.sh-XXXXXX` || exit 1
trap 'rm -f $TMPFILE' 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15
if [ -z "$*" ]; then
print_info "Reading banned IP's from STDIN:"
cat >> $TMPFILE
else
for IP in $*; do
echo $IP >> $TMPFILE;
done
fi
read_config_ips $TMPFILE >> $DEFAULT_FIREWALL_CONFIG_DIR/BANNED_IP.conf
rm -f $TMPFILE
} # }}}
deploy_block()
{ # {{{
if [ -z "$*" ]; then
echo "Usage: $0 deploy-block IP1/netmask1 IP2/netmask2 ..."
exit 1;
fi
print_info "Deploying to local rules ..."
add_banned_ip $*
# start the some script twice to refresh rules (new blocked IP's)
QUIET=yes $0 start
TMPFILE=`mktemp -t fw-universal.sh-XXXXXX` || exit 1
trap 'rm -f $TMPFILE' 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15
for i in $*; do
echo $i >> $TMPFILE;
done
while read conn keyfile
do
case "$conn" in
""|\#*)
continue
;;
esac
print_info "Deploying to $conn ...";
cat $TMPFILE | ssh -i $keyfile $conn $0 block
done < $DEFAULT_FIREWALL_CONFIG_DIR/deploy-servers.list
rm -f $TMPFILE
} # }}}
# Parse output from ifconfig: - tested on Linux and FreeBSD
# http://platon.sk/cvs/cvs.php/scripts/shell/firewall/ifconfig-parse.sh
parse_ifconfig()
{ # {{{
# Parse output from ifconfig:
parsed_interfaces=`$IFCONFIG | \
$PERL -e '
my $iface_count = 0;
my $iface;
my (%ip, %ifname, %ip6, %scope6, %bcast, %mask, %hwaddr, %ipcount);
while (my $line = <STDIN>) {
chomp $line;
if ($line =~ m/^([a-z0-9:]+)\s+.*?([a-z0-9:]+)\s*$/i) { # Linux interface
$iface = $1;
my $iface_hwaddr = $2;
my $x_iface = $iface;
$iface =~ s/:/_/; # convert "eth0:0" --> "eth0_0"
$x_iface = [ $x_iface =~ m/^([a-z0-9]+)/i ]->[0]; # convert "eth0:0" --> "eth0"
$ifname{$iface} = $x_iface;
$ipcount{$iface}++;
$hwaddr{$iface} = $iface_hwaddr;
$iface_count++;
}
elsif ($line =~ m/^[ \t]+inet addr:/) { # Linux IP address
die unless defined $iface;
my @fields = split(/[\s:]+/, $line);
push @{$ip{$iface}}, $fields[3];
$bcast{$iface} = $fields[5] || ""; # invalid for loopback interface lo, but we don t need this
$mask{$iface} = $fields[7] || $fields[5]; # for loopback interface lo
}
elsif($line =~ m/^[ \t]+inet6 addr:/) { # Linux IPv6 address
die unless defined $iface;
my @fields = split(/\s+/, $line);
push @{$ip6{$iface}}, $fields[3];
$scope6{$iface} = [ $fields[4] =~ m/Scope:(.*)$/i ]->[0];
}
}
map { printf "IP_%s=\"%s\"; export IP_%s;\n", $_, join(" ", @{$ip{$_}}), $_; } keys %ip;
map { printf "IFACE_6_%s=\"%s\"; export IFACE_6_%s;\n", $_, join(" ", @{$ip6{$_}}), $_; } keys %ip6;
map { printf "SCOPE_6_%s=\"%s\"; export SCOPE_6_%s;\n", $_, $scope6{$_}, $_; } keys %scope6;
map { printf "Bcast_%s=\"%s\"; export Bcast_%s;\n", $_, $bcast{$_}, $_; } keys %bcast;
map { printf "Mask_%s=\"%s\"; export Mask_%s;\n", $_, $mask{$_}, $_; } keys %mask;
map { printf "HWaddr_%s=\"%s\"; export HWaddr_%s;\n", $_, $hwaddr{$_}, $_; } keys %hwaddr;
map { printf "IPcount_%s=\"%s\"; export IPcount_%s;\n", $_, $ipcount{$_}, $_; } keys %ipcount;
map { printf "IFname_%s=\"%s\"; export IFname_%s;\n", $_, $ifname{$_}, $_; } keys %ifname;
printf "interfaces=\"%s\"; export interfaces;\n", join(" ", sort keys %ip);
'`
eval "$parsed_interfaces";
#echo "$parsed_interfaces";
parsed_routes=`$PERL -e '
$\ = "\n";
open(FILE, "/proc/net/route") or die "Can not open /proc/net/route: $!";
my @columns = split(/\s+/, <FILE>);
while (my $line = <FILE>) {
my $iface;
my @vals = split(/\s+/, $line);
foreach my $key (@columns) {
$iface->{$key} = shift @vals;
}
foreach my $key (qw( Gateway Destination )) {
print "${key}_$iface->{Iface}=",
qw("), hex2ip($iface->{$key}), qw("),
"; export ${key}_$iface->{Iface};";
}
foreach my $key (qw( Flags MTU Metric Window IRTT )) {
print "${key}_$iface->{Iface}=",
qw("), $iface->{$key}, qw("),
"; export ${key}_$iface->{Iface};";
}
}
close(FILE);
sub hex2ip
{ # {{{
my ($str) = @_;
my @block;
my $hex = uc($str);
while (length($hex)) {
my $x = ord(substr($hex, 0, 1));
my $y = ord(substr($hex, 1, 1));
$x = $x > 64 ? $x - 55 : $x - 48;
$y = $y > 64 ? $y - 55 : $y - 48;
push @block, 16 * $x + $y;
$hex = substr($hex, 2);
}
return join(".", reverse @block);
} # }}}
'`
eval "$parsed_routes";
# Now we have defined variables like this:
# IFACE_eth0 HWaddr_eth0 IP_eth0 Bcast_eth0 Mask_eth0
# IFACE_lo HWaddr_lo IP_lo Bcast_lo Mask_lo
# interfaces
} # }}}
# helper function for string padding
str_pad_right()
{ # {{{
num="$1";
string="$2";
count=$(echo -n "$string" | wc -c);
count=$((count + 0))
while [ $count -lt $num ]; do
string="$string ";
count=$((count + 1));
done
echo -n "$string"
return;
} # }}}
pad7() { str_pad_right 7 "$1"; }
pad15() { str_pad_right 15 "$1"; }
check_tools
parse_ifconfig
print_iface_status
#
# Split interfaces into 2 groups:
#
# $INTERFACES_ACCEPT_ALL - interfaces withouth restrictions
#
# $INTERFACES - all interfaces withouth loopback
# and devices without restrictions (e.g. tun0 tun1 tap0 eth0_0 eth0_1 ...)
#
# $REAL_INTERFACES - aliases like eth0:0, eth1:0 are transformed to eth0, eth1, ...
#
# list of all interfaces is in $interfaces variable
#
INTERFACES=""
INTERFACES_ACCEPT_ALL=""
x_REAL_INTERFACES=""
regexp='^\('`echo $IFACE_ACCEPT_ALL | sed 's/ /\\\|/g; s/+/.*/g;'`'\)$'
for iface in $interfaces; do
riface="IFname_$iface";
x_REAL_INTERFACES="$x_REAL_INTERFACES ${!riface}"
#if [ "o$iface" = "olo" ]; then continue; fi
echo $iface | grep -q -e "$regexp"
if [ $? = 0 ] || [ "o$iface" = "olo" ]; then # lo interface is always here
INTERFACES_ACCEPT_ALL="$INTERFACES_ACCEPT_ALL $iface";
else
INTERFACES="$INTERFACES $iface";
fi
done
REAL_INTERFACES="`echo $x_REAL_INTERFACES | awk -v RS=' ' '{ print; }' | sort -u`"
INTERFACES_ACCEPT_ALL="$IFACE_ACCEPT_ALL"
case "$1" in
start)
print_info -n "Starting $DESC: "
# Inicialize modules
#$DEPMOD -a
load_modules
load_cache
set_default_policy
remove_chains
#
# (un)commnet next lines as needed
#
bann_ip_adresses
allow_accept_all
nmap_scan_filter
invalid_packet_filter
anti_spoof_filter
#syn_flood
mangle_prerouting
mangle_output
accept_related
log_new_connections
drop_output
drop_input
reject_input
allow_input
allow_output
allow_icmp
accept_loopback
masquerade
log_input_drop
log_output_drop
log_forward_drop
forward_on
do_ip_accounting
shaping_off
shaping_on
configure_special_rules
$IPTABLES_SAVE -c > $CACHE_FILE
;;
stop)
print_info -n "Stopping $DESC: "
shaping_off
set_default_policy
remove_chains
unload_modules
forward_off
accept_related
;;
really-off)
print_info -n "Stopping $DESC: removing ALL rules, all packets are dropped !!"
set_default_policy
remove_chains
unload_modules
forward_off
;;
status)
print_iface_status; echo
$IPTABLES -L -nv
shaping_status
;;
purge)
find $DEFAULT_CACHE_DIR -type f -ls -exec rm -f {} \;
;;
block)
shift;
add_banned_ip $*;
# start the some script twice to refresh rules (new blocked IP's)
QUIET=yes $0 start;
;;
deploy-block)
shift;
deploy_block $*;
;;
*)
echo "Usage: $0 {start|stop|really-off|status|purge|block|deploy-block}" >&2
exit 1
;;
esac
exit 0
# vim600: fdm=marker fdl=0 fdc=3
Platon Group <platon@platon.sk> http://platon.sk/
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