]>
git.ipfire.org Git - ipfire-2.x.git/blob - src/initscripts/system/firewall
6 eval $
(/usr
/local
/bin
/readhash
/var
/ipfire
/ppp
/settings
)
7 eval $
(/usr
/local
/bin
/readhash
/var
/ipfire
/ethernet
/settings
)
8 eval $
(/usr
/local
/bin
/readhash
/var
/ipfire
/optionsfw
/settings
)
9 IFACE
=`/bin/cat /var/ipfire/red/iface 2> /dev/null | /usr/bin/tr -d '\012'`
11 if [ -f /var
/ipfire
/red
/device
]; then
12 DEVICE
=`/bin/cat /var/ipfire/red/device 2> /dev/null | /usr/bin/tr -d '\012'`
16 /sbin
/iptables
--wait "$@"
20 # Flush all rules and delete all custom chains
31 iptables
-P INPUT DROP
32 iptables
-P FORWARD DROP
33 iptables
-P OUTPUT ACCEPT
35 # Empty LOG_DROP and LOG_REJECT chains
37 iptables
-A LOG_DROP
-m limit
--limit 10/minute
-j LOG
38 iptables
-A LOG_DROP
-j DROP
39 iptables
-N LOG_REJECT
40 iptables
-A LOG_REJECT
-m limit
--limit 10/minute
-j LOG
41 iptables
-A LOG_REJECT
-j REJECT
43 # This chain will log, then DROPs packets with certain bad combinations
44 # of flags might indicate a port-scan attempt (xmas, null, etc)
46 if [ "$DROPPORTSCAN" == "on" ]; then
47 iptables
-A PSCAN
-p tcp
-m limit
--limit 10/minute
-j LOG
--log-prefix "DROP_TCP Scan " -m comment
--comment "DROP_TCP PScan"
48 iptables
-A PSCAN
-p udp
-m limit
--limit 10/minute
-j LOG
--log-prefix "DROP_UDP Scan " -m comment
--comment "DROP_UDP PScan"
49 iptables
-A PSCAN
-p icmp
-m limit
--limit 10/minute
-j LOG
--log-prefix "DROP_ICMP Scan " -m comment
--comment "DROP_ICMP PScan"
50 iptables
-A PSCAN
-f -m limit
--limit 10/minute
-j LOG
--log-prefix "DROP_FRAG Scan " -m comment
--comment "DROP_FRAG PScan"
52 iptables
-A PSCAN
-j DROP
-m comment
--comment "DROP_PScan"
54 # New tcp packets without SYN set - could well be an obscure type of port scan
55 # that's not covered above, may just be a broken windows machine
57 if [ "$DROPNEWNOTSYN" == "on" ]; then
58 iptables
-A NEWNOTSYN
-m limit
--limit 10/minute
-j LOG
--log-prefix "DROP_NEWNOTSYN "
60 iptables
-A NEWNOTSYN
-j DROP
-m comment
--comment "DROP_NEWNOTSYN"
62 # Chain to contain all the rules relating to bad TCP flags
65 # Don't check loopback
66 iptables
-A BADTCP
-i lo
-j RETURN
68 # Disallow packets frequently used by port-scanners
69 # NMAP FIN/URG/PSH (XMAS scan)
70 iptables
-A BADTCP
-p tcp
--tcp-flags ALL FIN
,URG
,PSH
-j PSCAN
72 iptables
-A BADTCP
-p tcp
--tcp-flags ALL SYN
,RST
,ACK
,FIN
,URG
-j PSCAN
74 iptables
-A BADTCP
-p tcp
--tcp-flags ALL ALL
-j PSCAN
76 iptables
-A BADTCP
-p tcp
--tcp-flags ALL FIN
-j PSCAN
77 # SYN/RST (also catches xmas variants that set SYN+RST+...)
78 iptables
-A BADTCP
-p tcp
--tcp-flags SYN
,RST SYN
,RST
-j PSCAN
79 # SYN/FIN (QueSO or nmap OS probe)
80 iptables
-A BADTCP
-p tcp
--tcp-flags SYN
,FIN SYN
,FIN
-j PSCAN
82 iptables
-A BADTCP
-p tcp
--tcp-flags ALL NONE
-j PSCAN
84 iptables
-A BADTCP
-p tcp
! --syn -m conntrack
--ctstate NEW
-j NEWNOTSYN
86 iptables
-A INPUT
-p tcp
-j BADTCP
87 iptables
-A FORWARD
-p tcp
-j BADTCP
89 # Connection tracking chains
91 iptables
-A CONNTRACK
-m conntrack
--ctstate ESTABLISHED
-j ACCEPT
92 iptables
-A CONNTRACK
-m conntrack
--ctstate INVALID
-j DROP
93 iptables
-A CONNTRACK
-p icmp
-m conntrack
--ctstate RELATED
-j ACCEPT
94 iptables
-t raw
-N CONNTRACK
95 iptables
-t raw
-A PREROUTING
-j CONNTRACK
97 # Conntrack helpers (https://home.regit.org/netfilter-en/secure-use-of-helpers/)
100 if [ "${CONNTRACK_SIP}" = "on" ]; then
102 iptables
-A CONNTRACK
-m conntrack
--ctstate RELATED \
103 -m helper
--helper sip
-j ACCEPT
104 for proto
in udp tcp
; do
105 iptables
-t raw
-A CONNTRACK
-p "${proto}" --dport 5060 -j CT
--helper sip
110 if [ "${CONNTRACK_H323}" = "on" ]; then
112 iptables
-A CONNTRACK
-m conntrack
--ctstate RELATED \
113 -m helper
--helper h323
-j ACCEPT
116 iptables
-t raw
-A CONNTRACK
-p udp
--dport 1719 -j CT
--helper RAS
119 iptables
-t raw
-A CONNTRACK
-p tcp
--dport 1720 -j CT
--helper Q
.931
123 if [ "${CONNTRACK_FTP}" = "on" ]; then
125 iptables
-A CONNTRACK
-m conntrack
--ctstate RELATED \
126 -m helper
--helper ftp -p tcp
--dport 1024: -j ACCEPT
127 iptables
-t raw
-A CONNTRACK
-p tcp
--dport 21 -j CT
--helper ftp
131 if [ "${CONNTRACK_PPTP}" = "on" ]; then
133 iptables
-A CONNTRACK
-m conntrack
--ctstate RELATED \
134 -m helper
--helper pptp
-j ACCEPT
135 iptables
-t raw
-A CONNTRACK
-p tcp
--dport 1723 -j CT
--helper pptp
139 if [ "${CONNTRACK_TFTP}" = "on" ]; then
141 iptables
-A CONNTRACK
-m conntrack
--ctstate RELATED \
142 -m helper
--helper tftp
-j ACCEPT
143 iptables
-t raw
-A CONNTRACK
-p udp
--dport 69 -j CT
--helper tftp
147 if [ "${CONNTRACK_IRC}" = "on" ]; then
149 iptables
-A CONNTRACK
-m conntrack
--ctstate RELATED \
150 -m helper
--helper irc
-j ACCEPT
151 iptables
-t raw
-A CONNTRACK
-p tcp
--dport 6667 -j CT
--helper irc
155 if [ "${CONNTRACK_AMANDA}" = "on" ]; then
156 modprobe nf_nat_amanda
157 iptables
-A CONNTRACK
-m conntrack
--ctstate RELATED \
158 -m helper
--helper amanda
-j ACCEPT
159 iptables
-t raw
-A CONNTRACK
-p tcp
-j CT
--helper amanda
162 # Fix for braindead ISP's
163 iptables
-A FORWARD
-p tcp
--tcp-flags SYN
,RST SYN
-j TCPMSS
--clamp-mss-to-pmtu
165 # CUSTOM chains, can be used by the users themselves
166 iptables
-N CUSTOMINPUT
167 iptables
-A INPUT
-j CUSTOMINPUT
168 iptables
-N CUSTOMFORWARD
169 iptables
-A FORWARD
-j CUSTOMFORWARD
170 iptables
-N CUSTOMOUTPUT
171 iptables
-A OUTPUT
-j CUSTOMOUTPUT
172 iptables
-t nat
-N CUSTOMPREROUTING
173 iptables
-t nat
-A PREROUTING
-j CUSTOMPREROUTING
174 iptables
-t nat
-N CUSTOMPOSTROUTING
175 iptables
-t nat
-A POSTROUTING
-j CUSTOMPOSTROUTING
179 iptables
-A INPUT
-j P2PBLOCK
180 iptables
-A FORWARD
-j P2PBLOCK
181 iptables
-A OUTPUT
-j P2PBLOCK
183 # Guardian (IPS) chains
185 iptables
-A INPUT
-j GUARDIAN
186 iptables
-A FORWARD
-j GUARDIAN
188 # IPS (suricata) chains
190 iptables
-A INPUT
-j IPS
191 iptables
-A FORWARD
-j IPS
193 # Block non-established IPsec networks
194 iptables
-N IPSECBLOCK
195 iptables
-A FORWARD
-m policy
--dir out
--pol none
-j IPSECBLOCK
196 iptables
-A OUTPUT
-m policy
--dir out
--pol none
-j IPSECBLOCK
198 # Block OpenVPN transfer networks
199 iptables
-N OVPNBLOCK
200 iptables
-A INPUT
-i tun
+ -j OVPNBLOCK
201 iptables
-A FORWARD
-i tun
+ -j OVPNBLOCK
202 iptables
-A FORWARD
-o tun
+ -j OVPNBLOCK
204 # OpenVPN transfer network translation
205 iptables
-t nat
-N OVPNNAT
206 iptables
-t nat
-A POSTROUTING
-j OVPNNAT
208 # IPTV chains for IGMPPROXY
209 iptables
-N IPTVINPUT
210 iptables
-A INPUT
-j IPTVINPUT
211 iptables
-N IPTVFORWARD
212 iptables
-A FORWARD
-j IPTVFORWARD
214 # Allow to ping the firewall.
215 iptables
-N ICMPINPUT
216 iptables
-A INPUT
-j ICMPINPUT
217 iptables
-A ICMPINPUT
-p icmp
--icmp-type 8 -j ACCEPT
219 # Accept everything on loopback
221 iptables
-A LOOPBACK
-i lo
-j ACCEPT
222 iptables
-A LOOPBACK
-o lo
-j ACCEPT
224 # Filter all packets with loopback addresses on non-loopback interfaces.
225 iptables
-A LOOPBACK
-s 127.0.0.0/8 -j DROP
226 iptables
-A LOOPBACK
-d 127.0.0.0/8 -j DROP
228 for i
in INPUT FORWARD OUTPUT
; do
229 iptables
-A ${i} -j LOOPBACK
233 iptables
-N CAPTIVE_PORTAL
234 iptables
-N CAPTIVE_PORTAL_CLIENTS
235 for i
in INPUT FORWARD
; do
236 iptables
-A ${i} -j CAPTIVE_PORTAL
239 # Accept everything connected
240 for i
in INPUT FORWARD OUTPUT
; do
241 iptables
-A ${i} -j CONNTRACK
245 iptables
-N DHCPINPUT
246 iptables
-A DHCPINPUT
-p udp
--sport 68 --dport 67 -j ACCEPT
247 iptables
-A DHCPINPUT
-p tcp
--sport 68 --dport 67 -j ACCEPT
249 iptables
-N DHCPOUTPUT
250 iptables
-A DHCPOUTPUT
-p udp
--sport 67 --dport 68 -j ACCEPT
251 iptables
-A DHCPOUTPUT
-p tcp
--sport 67 --dport 68 -j ACCEPT
253 # Allow DHCP on GREEN
254 iptables
-N DHCPGREENINPUT
255 iptables
-N DHCPGREENOUTPUT
256 if [ -n "${GREEN_DEV}" ]; then
257 iptables
-A INPUT
-i "${GREEN_DEV}" -j DHCPGREENINPUT
258 iptables
-A OUTPUT
-o "${GREEN_DEV}" -j DHCPGREENOUTPUT
261 # allow DHCP on BLUE to be turned on/off
262 iptables
-N DHCPBLUEINPUT
263 iptables
-N DHCPBLUEOUTPUT
264 if [ -n "${BLUE_DEV}" ]; then
265 iptables
-A INPUT
-i "${BLUE_DEV}" -j DHCPBLUEINPUT
266 iptables
-A OUTPUT
-o "${BLUE_DEV}" -j DHCPBLUEOUTPUT
270 iptables
-N GEOIPBLOCK
271 iptables
-A INPUT
-j GEOIPBLOCK
272 iptables
-A FORWARD
-j GEOIPBLOCK
274 # trafic from ipsecX/TUN/TAP interfaces, before "-i GREEN_DEV" accept everything
275 iptables
-N IPSECINPUT
276 iptables
-N IPSECFORWARD
277 iptables
-N IPSECOUTPUT
278 iptables
-A INPUT
-j IPSECINPUT
279 iptables
-A FORWARD
-j IPSECFORWARD
280 iptables
-A OUTPUT
-j IPSECOUTPUT
281 iptables
-t nat
-N IPSECNAT
282 iptables
-t nat
-A POSTROUTING
-j IPSECNAT
284 # localhost and ethernet.
285 # Always allow accessing the web GUI from GREEN.
287 iptables
-A INPUT
-j GUIINPUT
288 if [ -n "${GREEN_DEV}" ]; then
289 iptables
-A GUIINPUT
-i "${GREEN_DEV}" -p tcp
--dport 444 -j ACCEPT
293 iptables
-N WIRELESSINPUT
294 iptables
-A INPUT
-m conntrack
--ctstate NEW
-j WIRELESSINPUT
295 iptables
-N WIRELESSFORWARD
296 iptables
-A FORWARD
-m conntrack
--ctstate NEW
-j WIRELESSFORWARD
299 iptables
-N OVPNINPUT
300 iptables
-A INPUT
-j OVPNINPUT
303 iptables
-N TOR_INPUT
304 iptables
-A INPUT
-j TOR_INPUT
306 # Jump into the actual firewall ruleset.
308 iptables
-A INPUT
-j INPUTFW
310 iptables
-N OUTGOINGFW
311 iptables
-A OUTPUT
-j OUTGOINGFW
313 iptables
-N FORWARDFW
314 iptables
-A FORWARD
-j FORWARDFW
317 iptables
-t nat
-N NAT_SOURCE
318 iptables
-t nat
-A POSTROUTING
-j NAT_SOURCE
321 iptables
-t nat
-N CAPTIVE_PORTAL
322 iptables
-t nat
-A PREROUTING
-j CAPTIVE_PORTAL
324 # Custom prerouting chains (for transparent proxy)
325 iptables
-t nat
-N SQUID
326 iptables
-t nat
-A PREROUTING
-j SQUID
329 iptables
-t nat
-N NAT_DESTINATION
330 iptables
-t nat
-A PREROUTING
-j NAT_DESTINATION
331 iptables
-t nat
-A OUTPUT
-j NAT_DESTINATION
333 iptables
-t mangle
-N NAT_DESTINATION
334 iptables
-t mangle
-A PREROUTING
-j NAT_DESTINATION
336 iptables
-t nat
-N NAT_DESTINATION_FIX
337 iptables
-t nat
-A POSTROUTING
-j NAT_DESTINATION_FIX
339 if [ -n "${GREEN_ADDRESS}" ]; then
340 iptables
-t nat
-A NAT_DESTINATION_FIX \
341 -m mark
--mark 1 -j SNAT
--to-source "${GREEN_ADDRESS}"
344 if [ -n "${BLUE_ADDRESS}" ]; then
345 iptables
-t nat
-A NAT_DESTINATION_FIX \
346 -m mark
--mark 2 -j SNAT
--to-source "${BLUE_ADDRESS}"
349 if [ -n "${ORANGE_ADDRESS}" ]; then
350 iptables
-t nat
-A NAT_DESTINATION_FIX \
351 -m mark
--mark 3 -j SNAT
--to-source "${ORANGE_ADDRESS}"
354 # upnp chain for our upnp daemon
355 iptables
-t nat
-N UPNPFW
356 iptables
-t nat
-A PREROUTING
-j UPNPFW
358 iptables
-A FORWARD
-m conntrack
--ctstate NEW
-j UPNPFW
360 # RED chain, used for the red interface
362 iptables
-A INPUT
-j REDINPUT
363 iptables
-N REDFORWARD
364 iptables
-A FORWARD
-j REDFORWARD
365 iptables
-t nat
-N REDNAT
366 iptables
-t nat
-A POSTROUTING
-j REDNAT
368 # Populate IPsec block chain
369 /usr
/lib
/firewall
/ipsec-block
371 # Apply OpenVPN firewall rules
372 /usr
/local
/bin
/openvpnctrl
--firewall-rules
375 /usr
/local
/bin
/wirelessctrl
379 iptables
-A INPUT
-j POLICYIN
380 iptables
-N POLICYFWD
381 iptables
-A FORWARD
-j POLICYFWD
382 iptables
-N POLICYOUT
383 iptables
-A OUTPUT
-j POLICYOUT
385 # Initialize firewall policies.
386 /usr
/sbin
/firewall-policy
388 # Install firewall rules for the red interface.
391 # If red has not been brought up yet, we will
392 # add the blocking rules for MASQUERADE
393 if [ ! -e "/var/ipfire/red/active" ]; then
400 iptables
-F REDFORWARD
401 iptables
-t nat
-F REDNAT
403 # PPPoE / PPTP Device
404 if [ "$IFACE" != "" ]; then
406 if [ "$DEVICE" != "" ]; then
407 iptables
-A REDINPUT
-i $DEVICE -j ACCEPT
409 if [ "$RED_TYPE" == "PPTP" -o "$RED_TYPE" == "PPPOE" ]; then
410 if [ "$RED_DEV" != "" ]; then
411 iptables
-A REDINPUT
-i $RED_DEV -j ACCEPT
417 if [ "$DEVICE" != "" -a "$TYPE" == "PPTP" -a "$METHOD" == "DHCP" ]; then
418 iptables
-A REDINPUT
-p tcp
--source-port 67 --destination-port 68 -i $DEVICE -j ACCEPT
419 iptables
-A REDINPUT
-p udp
--source-port 67 --destination-port 68 -i $DEVICE -j ACCEPT
423 if [ "$ORANGE_DEV" != "" ]; then
424 # This rule enables a host on ORANGE network to connect to the outside
425 # (only if we have a red connection)
426 if [ "$IFACE" != "" ]; then
427 iptables
-A REDFORWARD
-i $ORANGE_DEV -o $IFACE -j ACCEPT
431 if [ "$IFACE" != "" -a -f /var
/ipfire
/red
/active
]; then
433 if [ "$RED_DEV" != "" -a "$RED_TYPE" == "DHCP" ]; then
434 iptables
-A REDINPUT
-p tcp
--source-port 67 --destination-port 68 -i $IFACE -j ACCEPT
435 iptables
-A REDINPUT
-p udp
--source-port 67 --destination-port 68 -i $IFACE -j ACCEPT
437 if [ "$METHOD" == "DHCP" -a "$PROTOCOL" == "RFC1483" ]; then
438 iptables
-A REDINPUT
-p tcp
--source-port 67 --destination-port 68 -i $IFACE -j ACCEPT
439 iptables
-A REDINPUT
-p udp
--source-port 67 --destination-port 68 -i $IFACE -j ACCEPT
442 # Outgoing masquerading (don't masqerade IPSEC (mark 50))
443 iptables
-t nat
-A REDNAT
-m mark
--mark 50 -o $IFACE -j RETURN
445 if [ "${IFACE}" = "${GREEN_DEV}" ]; then
446 iptables
-t nat
-A REDNAT
-i "${GREEN_DEV}" -o "${IFACE}" -j RETURN
449 local NO_MASQ_NETWORKS
451 if [ "${MASQUERADE_GREEN}" = "off" ]; then
452 NO_MASQ_NETWORKS
="${NO_MASQ_NETWORKS} ${GREEN_NETADDRESS}/${GREEN_NETMASK}"
455 if [ "${MASQUERADE_BLUE}" = "off" ]; then
456 NO_MASQ_NETWORKS
="${NO_MASQ_NETWORKS} ${BLUE_NETADDRESS}/${BLUE_NETMASK}"
459 if [ "${MASQUERADE_ORANGE}" = "off" ]; then
460 NO_MASQ_NETWORKS
="${NO_MASQ_NETWORKS} ${ORANGE_NETADDRESS}/${ORANGE_NETMASK}"
464 for network
in ${NO_MASQ_NETWORKS}; do
465 iptables
-t nat
-A REDNAT
-s "${network}" -o "${IFACE}" -j RETURN
468 # Masquerade everything else
469 iptables
-t nat
-A REDNAT
-o $IFACE -j MASQUERADE
473 /usr
/local
/bin
/firewallctrl
476 iptables_red_down
() {
477 # Prohibit packets to reach the masquerading rule
478 # while the wan interface is down - this is required to
479 # circumvent udp related NAT issues
480 # http://forum.ipfire.org/index.php?topic=11127.0
481 if [ -n "${IFACE}" ]; then
482 iptables
-F REDFORWARD
483 iptables
-A REDFORWARD
-o "${IFACE}" -j DROP
487 /usr
/local
/bin
/firewallctrl
490 # See how we were called.
493 boot_mesg
"Setting up firewall"
498 boot_mesg
"Reloading firewall"
503 boot_mesg
"Disabling firewall access to RED"
511 echo "Usage: $0 {start|reload|restart}"