DEVICE=`/bin/cat /var/ipfire/red/device 2> /dev/null | /usr/bin/tr -d '\012'`
fi
+NAT_MASK="0x0f000000"
+
+IPS_REPEAT_MARK="0x80000000"
+IPS_REPEAT_MASK="0x80000000"
+IPS_BYPASS_MARK="0x40000000"
+IPS_BYPASS_MASK="0x40000000"
+
function iptables() {
/sbin/iptables --wait "$@"
}
modprobe nf_log_ipv4
sysctl -q -w net.netfilter.nf_log.2=nf_log_ipv4
+ # IPS Bypass Chain which stores the BYPASS bit in connection tracking
+ iptables -N IPSBYPASS
+ iptables -A IPSBYPASS -j CONNMARK --save-mark --mask "$(( ~IPS_REPEAT_MASK & 0xffffffff ))"
+
+ # Jump into bypass chain when the BYPASS bit is set
+ for chain in INPUT FORWARD OUTPUT; do
+ iptables -A "${chain}" -m mark \
+ --mark "$(( IPS_REPEAT_MARK | IPS_BYPASS_MARK ))/$(( IPS_REPEAT_MASK | IPS_BYPASS_MASK ))" -j IPSBYPASS
+ done
+
# Empty LOG_DROP and LOG_REJECT chains
iptables -N LOG_DROP
iptables -A LOG_DROP -m limit --limit 10/second -j LOG
# Connection tracking chains
iptables -N CONNTRACK
iptables -A CONNTRACK -m conntrack --ctstate ESTABLISHED -j ACCEPT
- iptables -A CONNTRACK -m conntrack --ctstate INVALID -j DROP
+ iptables -A CONNTRACK -m conntrack --ctstate INVALID -j LOG_DROP
iptables -A CONNTRACK -p icmp -m conntrack --ctstate RELATED -j ACCEPT
- iptables -t raw -N CONNTRACK
- iptables -t raw -A PREROUTING -j CONNTRACK
+
+ # Restore any connection marks
+ iptables -t mangle -A PREROUTING -j CONNMARK --restore-mark
# Fix for braindead ISPs
iptables -A FORWARD -p tcp --tcp-flags SYN,RST SYN -j TCPMSS --clamp-mss-to-pmtu
iptables -A INPUT -j P2PBLOCK
iptables -A FORWARD -j P2PBLOCK
iptables -A OUTPUT -j P2PBLOCK
-
+
# IPS (Guardian) chains
iptables -N GUARDIAN
iptables -A INPUT -j GUARDIAN
iptables -N IPS_INPUT
iptables -N IPS_FORWARD
iptables -N IPS_OUTPUT
- iptables -A INPUT -j IPS_INPUT
- iptables -A FORWARD -j IPS_FORWARD
- iptables -A OUTPUT -j IPS_OUTPUT
+
+ for chain in INPUT FORWARD OUTPUT; do
+ iptables -A "${chain}" -m mark --mark "0x0/$(( IPS_REPEAT_MASK | IPS_BYPASS_MASK ))" -j "IPS_${chain}"
+ done
# OpenVPN transfer network translation
iptables -t nat -N OVPNNAT
iptables -A INPUT -j TOR_INPUT
iptables -N TOR_OUTPUT
iptables -A OUTPUT -j TOR_OUTPUT
-
+
# Jump into the actual firewall ruleset.
iptables -N INPUTFW
iptables -A INPUT -j INPUTFW
if [ -n "${GREEN_ADDRESS}" ]; then
iptables -t nat -A NAT_DESTINATION_FIX \
- -m mark --mark 1 -j SNAT --to-source "${GREEN_ADDRESS}"
+ -m mark --mark "0x01000000/${NAT_MASK}" -j SNAT --to-source "${GREEN_ADDRESS}"
fi
if [ -n "${BLUE_ADDRESS}" ]; then
iptables -t nat -A NAT_DESTINATION_FIX \
- -m mark --mark 2 -j SNAT --to-source "${BLUE_ADDRESS}"
+ -m mark --mark "0x02000000/${NAT_MASK}" -j SNAT --to-source "${BLUE_ADDRESS}"
fi
if [ -n "${ORANGE_ADDRESS}" ]; then
iptables -t nat -A NAT_DESTINATION_FIX \
- -m mark --mark 3 -j SNAT --to-source "${ORANGE_ADDRESS}"
+ -m mark --mark "0x04000000/${NAT_MASK}" -j SNAT --to-source "${ORANGE_ADDRESS}"
fi
# RED chain, used for the red interface
iptables -A REDINPUT -p udp --source-port 67 --destination-port 68 -i $IFACE -j ACCEPT
fi
- # Outgoing masquerading (don't masqerade IPsec (mark 50))
- iptables -t nat -A REDNAT -m mark --mark 50 -o $IFACE -j RETURN
+ # Outgoing masquerading (don't masqerade IPsec)
+ iptables -t nat -A REDNAT -m policy --pol ipsec --dir=out -o "${IFACE}" -j RETURN
if [ "${IFACE}" = "${GREEN_DEV}" ]; then
iptables -t nat -A REDNAT -i "${GREEN_DEV}" -o "${IFACE}" -j RETURN