[firewall] / classify.m4

### -*-sh-*-
###
### Classify packets according to source and destination networks.
###
### (c) 2008 Mark Wooding
###

###----- Licensing notice ---------------------------------------------------
###
### This program is free software; you can redistribute it and/or modify
### it under the terms of the GNU General Public License as published by
### the Free Software Foundation; either version 2 of the License, or
### (at your option) any later version.
###
### 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., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.

m4_divert(40)m4_dnl
###--------------------------------------------------------------------------
### Address classification.
###
### The objective of address classification is to work out what kind of
### networks a packet is travelling between, in order to make filtering
### decisions easier.
###
### Address classification is done in the mangle table, by attaching
### appropriate marks to the packet.  We split the Internet into a number of
### address classes, and make forwarding decisions based on the classes of
### the source and destination addresses.
###
### The mark word is split into three fields: the FROM and TO fields simply
### record the source and destination classes numerically; the MASK field is
### used to determine whether forwarding should occur.  There is a mask bit
### for each address class.  Source classification sets mask bits according
### to the forwarding policy for the source address class.  Destination
### classification clears all of the mask bits except for the one
### corresponding to the actual destination class.  Therefore, forwarding is
### permitted if and only if the mask bits are not all zero.
###
### The mangle chains are arranged as follows.
###
### The INPUT and FORWARD hooks simply invoke in-classify and out-classify
### chains as subroutines.  These will tail-call appropriate classification
### chains.
###
### The in-classify chain is responsible for both source address
### classification and verifying that the packet arrived from the correct
### interface.  It does an initial dispatch on the source interface, to
### in-IFACE.  The in-IFACE chain dispatches to mark-from-CLASS when it
### recognizes an address belonging to the CLASS; if no matches succeed, it
### goes to bad-source-address, which logs a message and drops the packet.
### The default interface is special.  If no explicit matches are found, it
### dispatches to in-default which forbids a few obviously evil things and
### finally dispatches to mark-from-DEFAULT (usually `untrusted').
###
### The out-classify is simpler because it doesn't care about the interface.
### It simply checks each network range in turn, dispatching to mark-to-CLASS
### on a match or mark-to-DEFAULT (probably `untrusted') if there is no
### match.

clearchain mangle:in-classify mangle:in-default mangle:out-classify
clearchain mangle:local-source

## An unpleasant hack.  We can't reject packets from the mangle table, so
## we mark packets with a bad destination and then detect this in the
## filter table.
clearchain mangle:bad-destination-address
BAD_DEST=0xf6f377d2
run ip46tables -t mangle -A bad-destination-address \
  -j MARK --set-mark $BAD_DEST
run ip46tables -t mangle -A bad-destination-address -j ACCEPT
for i in $inchains; do
  run ip46tables -A $i -m mark --mark $BAD_DEST -g bad-destination-address
done

## Packets over the loopback interface are automatically trusted.  All manner
## of weird stuff happens on lo, and it's best not to second-guess it.
run ip46tables -t mangle -A in-classify -i lo -j ACCEPT

## Local broadcast and link-local multicast packets sometimes have bizarre
## addresses.  Don't block them just because of this.
run iptables -t mangle -A in-classify -j RETURN \
	-s 0.0.0.0 -d 255.255.255.255 \
	-p udp
run iptables -t mangle -A in-classify -j RETURN \
	-s 0.0.0.0 -d 224.0.0.0/24 \
	-p udp

## Since packets with source and destination addresses both local will go
## over the loopback interface, I shouldn't see a packet from me over any
## other interface.  Except that I will if I sent a broadcast or multicast.
## Allow the broadcasts, and remember not to trust them.  There are no
## broadcast addresses in IPv6 (only link-local multicast) so we don't have
## to worry about that.
run iptables -t mangle -A local-source -j RETURN \
	-m addrtype --dst-type BROADCAST
run iptables -t mangle -A local-source -j RETURN \
	-m addrtype --dst-type MULTICAST
run ip6tables -t mangle -A local-source -j RETURN \
	-d ff00::/8
run ip46tables -t mangle -A local-source -g bad-source-address
run iptables -t mangle -A in-classify -j local-source \
	-m addrtype --src-type LOCAL
for addr in $host_6addrs; do
  run ip6tables -t mangle -A in-classify -j local-source \
	  -s $addr
done

m4_divert(41)m4_dnl
## Define the important networks.
for pass in 1 2; do
  netclassindex=0
m4_divert(42)m4_dnl
done

m4_divert(46)m4_dnl
## Special IPv4 source addresses.  Forbid broadcast and multicast sources.
## Mark the special zero address and link-local addresses as such.  (This
## also matches class-E addresses, which are probably permanently invalid.)
for i in 0.0.0.0 169.254.0.0/16; do
  run iptables -t mangle -A in-classify -g mark-from-link -s $i
done
run iptables -t mangle -A in-classify -g bad-source-address \
	-s 224.0.0.0/3
run iptables -t mangle -A in-classify -g bad-source-address \
	-m addrtype --src-type BROADCAST \

## Special IPv6 addresses.  Forbid multicast sources, and mark zero and
## link local addresses.
for i in :: fe80::/10; do
  run ip6tables -t mangle -A in-classify -g mark-from-link -s $i
done
run ip6tables -t mangle -A in-classify -g bad-source-address \
	-s ff00::/8

## Special IPv4 destination addresses.  The zero address is invalid; mark
## link-local and recognized broadcast addresses as link-local.  We leave
## multicast for later.
for i in 0.0.0.0 240.0.0.0/4; do
  run iptables -t mangle -A out-classify -g bad-destination-address -d $i
done
run iptables -t mangle -A out-classify -g mark-to-link -d 169.254.0.0/16
run iptables -t mangle -A out-classify -g mark-to-link -d 255.255.255.255
run iptables -t mangle -A out-classify -g mark-to-link \
	-m addrtype --dst-type BROADCAST

## Special IPv6 destination addressses.  The zero address is again invalid;
## mark link local addresses.  We do multicast later.
run ip6tables -t mangle -A out-classify -g bad-destination-address \
	-d ::
run ip6tables -t mangle -A out-classify -g mark-to-link -d fe80::/10

## Now deal with multicast.  Link-local multicast is detected as being
## link-local, so that we can prevent it being forwarded correctly.
clearchain mangle:out-classify-mcast
run iptables -t mangle -A out-classify-mcast -g mark-to-link \
	-d 224.0.0.0/24
for i in 0 1 2 3 4 5 6 7 8 9 a b c d e f; do
  run ip6tables -t mangle -A out-classify-mcast -g mark-to-link \
	  -d ff${i}2::/16
done
run ip46tables -t mangle -A out-classify-mcast -g mark-to-mcast
run iptables -t mangle -A out-classify -g out-classify-mcast \
	-d 224.0.0.0/4
run ip6tables -t mangle -A out-classify -g out-classify-mcast \
	-d ff00::/8

## Build the input classification chains.  There's one chain `in-IFACE' for
## each local interface.  This chain does a further dispatch on the source
## address to the appropriate `mark-from-CLASS' chain for the source network
## class.  We also build a table mapping interface names to numbers (since
## the names are so unhelpful).
seen=:
ifq=0
ifmap=""
for iface in $host_ifaces_<::>FWHOST; do
  ifname=${iface%=*}
  case $seen in *:$ifname:*) continue ;; esac
  seen=$seen$ifname:
  addword ifmap $ifname=$ifq
  ifq=$(( $ifq + 1 ))
  clearchain mangle:in-$ifname
  run ip46tables -t mangle -A in-classify -i $ifname -g in-$ifname
done

## We do a first pass over nets first, and then the interfaces which those
## networks reach.  During this pass, we populate the `out-classify' chains,
## and we also build some lists so that we can do later passes over
## interfaces first and then reaching networks.  This is complicated by
## interface names being unhelpful.
##
## Here are the variables we maintain.
##
## ifmap		A list of entries IFACE=N mapping interface names to
##			numbers.
##
## ifnets_N		A space-separated list of networks reaching interface
##			number N.  This is used for building the matching
##			chains.
##
## ifaddrs_N		A bang-separated list of address ranges reaching
##			interface number N.  This is used for filtering out
##			known networks if the default network reaches the
##			interface.
for net in $allnets; do

  ## Work through the interfaces that this network reaches.
  for iface in $(net_interfaces FWHOST $net); do
    case $iface in -) break ;; esac

    ## Find a sequence number for this interface.
    q=nil
    for i in $ifmap; do
      case "$i" in "$iface"=*) q=${i##*=}; break ;; esac
    done
    case $q in
      nil)
	echo >&2 "$0 INTERNAL ERROR: missing interface \`$iface'!"
	exit 1
	;;
    esac

    ## Remember the reachability information.
    addword ifnets_$q $net
  done
done

## Build the `ifaddr_N' map and an `all-addresses' list.
alladdrs=!
trace "ifmap = $ifmap"
for entry in $ifmap; do
  iface=${entry%=*} q=${entry##*=}
  eval nets=\$ifnets_$q
  aa=!
  for n in $nets; do
    eval "addrs=\"\$net_inet_$n \$net_inet6_$n\""
    trace "$iface $n addrs = $addrs"
    for a in $addrs; do
      case $aa in *!$a!*) ;; *) aa=$aa$a! ;; esac
      case $alladdrs in *!$a!*) ;; *) alladdrs=$alladdrs$a! ;; esac
    done
  done
  eval ifaddrs_$q=\$aa
  trace "iface $q = $iface; nets = $nets; addrs = $aa"
done
trace "alladdrs = $alladdrs"

## Populate the `out-classify' chain, matching networks.
prepare_to () { mode=goto fail=mark-to-$net_class_default; }
matchnets -d mark-to : prepare_to out-classify "" 0 $allnets

## A `finish' hook for rejecting known address ranges arriving on a
## default-reachable interface.
finish_from_default () {
  q=$1 chain=$2
  eval addrs=\$ifaddrs_$q

  for n in $allnets; do
    eval addr=\$net_inet_$n addr6=\$net_inet6_$n
    for a in $addr; do
      case $a in !*) continue ;; esac
      case $addrs in *"!$a!"*) continue ;; esac
      run iptables -t mangle -A $chain -s $a -g bad-source-address
    done
    for a in $addr6; do
      case $a in !*) continue ;; esac
      case $addrs in *"!$a!"*) continue ;; esac
      run ip6tables -t mangle -A $chain -s $a -g bad-source-address
    done
  done
  run ip46tables -t mangle -A $chain -g in-default
}

## A `prepare' hook for input classification.  If the interface is
## default-reachable, then we need to reject known address ranges before
## dispatching to the default chain; otherwise just reject the packet.
prepare_from () {
  q=$1 flags=$2
  case $flags in
    *:default:*) mode=call finish="finish_from_default $q" ;;
    *) mode=goto fail=bad-source-address ;;
  esac
}

## Populate the `in-IFACE' chains.
for entry in $ifmap; do
  iface=${entry%=*} q=${entry##*=}
  eval nets=\$ifnets_$q

  case $iface in
    *-+)
      ## A special marker indicating a collection of point-to-point
      ## interfaces.  We should match an address to a particular interface.
      chains=""
      for net in $nets; do
	eval hosts=\$net_hosts_$net class=\$net_class_$net
	for host in $hosts; do
	  eval ha=\$host_inet_$host ha6=\$host_inet6_$host
	  trace "$host : $class -> $iface"
	  for a in $ha; do
	    run iptables -t mangle -A in-$iface \
		    -i ${iface%+}$host -s $a -g mark-from-$class
	  done
	  for a in $ha6; do
	    run ip6tables -t mangle -A in-$iface \
		    -i ${iface%+}$host -s $a -g mark-from-$class
	  done
	done
      done
      run ip46tables -t mangle -A in-$iface -g bad-source-address
      ;;
    *)
      matchnets -s mark-from : "prepare_from $q" in-$iface "" 0 $nets
      ;;
  esac
done

## Fill in the black holes in the network.  Some of these might actually be
## known networks, so don't fill those in again.  See RFC5735 and RFC4291,
## and their successors.
for addr in \
	10.0.0.0/8 172.16.0.0/12 192.168.0.0/16 \
	127.0.0.0/8 \
	192.0.2.0/24 198.51.100.0/24 203.0.113.0/24
do
  case $alladdrs in *!$addr!*) continue ;; esac
  run iptables -t mangle -A in-default -s $addr -g bad-source-address
done
for addr in \
	fc00::/7 fec0::/10 \
	::0:0/96 ::ffff:0:0/96 \
	2001:db8::/32
do
  case $alladdrs in *!$addr!*) continue ;; esac
  run ip6tables -t mangle -A in-default -s $addr -g bad-source-address
done
run ip46tables -t mangle -A in-default -g mark-from-$net_class_default

m4_divert(92)m4_dnl
## Put the final default decision on the in-default chain, and attach the
## classification chains to the INPUT and (maybe) FORWARD hooks.
for iface in $defaultifaces; do
  run ip46tables -t mangle -A in-$iface -g in-default
done
chains="INPUT"
case $forward in 1) chains="$chains FORWARD" ;; esac
for c in $chains; do
  run ip46tables -t mangle -A $c -j in-classify
  run ip46tables -t mangle -A $c -j out-classify
done

## Incoming stuff to or from a link-local address is OK.
run ip46tables -t mangle -A INPUT \
	-m mark --mark $to_link/$MASK_TO \
	-j MARK --or-mark $fwd_link
run ip46tables -t mangle -A INPUT \
	-m mark --mark $from_link/$MASK_FROM \
	-j MARK --or-mark $fwd_link

## Now it's safe to let stuff through.
for i in PREROUTING INPUT FORWARD OUTPUT POSTROUTING; do
  run ip46tables -t mangle -P $i ACCEPT
done

m4_divert(-1)
###----- That's all, folks --------------------------------------------------
Commit	Line	Data
775bd287	1	### --sh--
bfdc045d	2	###
20106bbb	3	### Classify packets according to source and destination networks.
bfdc045d MW	4	###
	5	### (c) 2008 Mark Wooding
	6	###
	7
	8	###----- Licensing notice ---------------------------------------------------
	9	###
	10	### This program is free software; you can redistribute it and/or modify
	11	### it under the terms of the GNU General Public License as published by
	12	### the Free Software Foundation; either version 2 of the License, or
	13	### (at your option) any later version.
	14	###
	15	### This program is distributed in the hope that it will be useful,
	16	### but WITHOUT ANY WARRANTY; without even the implied warranty of
	17	### MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
	18	### GNU General Public License for more details.
	19	###
	20	### You should have received a copy of the GNU General Public License
	21	### along with this program; if not, write to the Free Software Foundation,
	22	### Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
	23
	24	m4_divert(40)m4_dnl
	25	###--------------------------------------------------------------------------
	26	### Address classification.
	27	###
	28	### The objective of address classification is to work out what kind of
	29	### networks a packet is travelling between, in order to make filtering
	30	### decisions easier.
	31	###
	32	### Address classification is done in the mangle table, by attaching
	33	### appropriate marks to the packet. We split the Internet into a number of
	34	### address classes, and make forwarding decisions based on the classes of
	35	### the source and destination addresses.
	36	###
	37	### The mark word is split into three fields: the FROM and TO fields simply
	38	### record the source and destination classes numerically; the MASK field is
	39	### used to determine whether forwarding should occur. There is a mask bit
	40	### for each address class. Source classification sets mask bits according
	41	### to the forwarding policy for the source address class. Destination
	42	### classification clears all of the mask bits except for the one
	43	### corresponding to the actual destination class. Therefore, forwarding is
	44	### permitted if and only if the mask bits are not all zero.
	45	###
	46	### The mangle chains are arranged as follows.
	47	###
4aa2b49c	48	### The INPUT and FORWARD hooks simply invoke in-classify and out-classify
5860d5a3 MW	49	### chains as subroutines. These will tail-call appropriate classification
5860d5a3 MW	50	### chains.
bfdc045d MW	51	###
	52	### The in-classify chain is responsible for both source address
	53	### classification and verifying that the packet arrived from the correct
	54	### interface. It does an initial dispatch on the source interface, to
	55	### in-IFACE. The in-IFACE chain dispatches to mark-from-CLASS when it
	56	### recognizes an address belonging to the CLASS; if no matches succeed, it
	57	### goes to bad-source-address, which logs a message and drops the packet.
	58	### The default interface is special. If no explicit matches are found, it
	59	### dispatches to in-default which forbids a few obviously evil things and
4aa2b49c	60	### finally dispatches to mark-from-DEFAULT (usually `untrusted').
bfdc045d MW	61	###
	62	### The out-classify is simpler because it doesn't care about the interface.
	63	### It simply checks each network range in turn, dispatching to mark-to-CLASS
4aa2b49c MW	64	### on a match or mark-to-DEFAULT (probably `untrusted') if there is no
4aa2b49c MW	65	### match.
bfdc045d MW	66
	67	clearchain mangle:in-classify mangle:in-default mangle:out-classify
	68	clearchain mangle:local-source
	69
44f95827 MW	70	## An unpleasant hack. We can't reject packets from the mangle table, so
	71	## we mark packets with a bad destination and then detect this in the
	72	## filter table.
	73	clearchain mangle:bad-destination-address
	74	BAD_DEST=0xf6f377d2
fb7845a8 MW	75	run ip46tables -t mangle -A bad-destination-address \
	76	-j MARK --set-mark $BAD_DEST
	77	run ip46tables -t mangle -A bad-destination-address -j ACCEPT
44f95827	78	for i in $inchains; do
fb7845a8	79	run ip46tables -A $i -m mark --mark $BAD_DEST -g bad-destination-address
44f95827 MW	80	done
44f95827 MW	81
bfdc045d MW	82	## Packets over the loopback interface are automatically trusted. All manner
bfdc045d MW	83	## of weird stuff happens on lo, and it's best not to second-guess it.
0291d6d5	84	run ip46tables -t mangle -A in-classify -i lo -j ACCEPT
bfdc045d	85
429f4314 MW	86	## Local broadcast and link-local multicast packets sometimes have bizarre
429f4314 MW	87	## addresses. Don't block them just because of this.
bfdc045d MW	88	run iptables -t mangle -A in-classify -j RETURN \
bfdc045d MW	89	-s 0.0.0.0 -d 255.255.255.255 \
429f4314 MW	90	-p udp
	91	run iptables -t mangle -A in-classify -j RETURN \
	92	-s 0.0.0.0 -d 224.0.0.0/24 \
	93	-p udp
bfdc045d MW	94
	95	## Since packets with source and destination addresses both local will go
	96	## over the loopback interface, I shouldn't see a packet from me over any
	97	## other interface. Except that I will if I sent a broadcast or multicast.
d5214471	98	## Allow the broadcasts, and remember not to trust them. There are no
4aa2b49c	99	## broadcast addresses in IPv6 (only link-local multicast) so we don't have
d5214471	100	## to worry about that.
bfdc045d MW	101	run iptables -t mangle -A local-source -j RETURN \
	102	-m addrtype --dst-type BROADCAST
	103	run iptables -t mangle -A local-source -j RETURN \
	104	-m addrtype --dst-type MULTICAST
0291d6d5 MW	105	run ip6tables -t mangle -A local-source -j RETURN \
	106	-d ff00::/8
	107	run ip46tables -t mangle -A local-source -g bad-source-address
bfdc045d MW	108	run iptables -t mangle -A in-classify -j local-source \
bfdc045d MW	109	-m addrtype --src-type LOCAL
0291d6d5 MW	110	for addr in $host_6addrs; do
	111	run ip6tables -t mangle -A in-classify -j local-source \
	112	-s $addr
	113	done
bfdc045d MW	114
	115	m4_divert(41)m4_dnl
	116	## Define the important networks.
	117	for pass in 1 2; do
	118	netclassindex=0
	119	m4_divert(42)m4_dnl
	120	done
	121
	122	m4_divert(46)m4_dnl
44f95827 MW	123	## Special IPv4 source addresses. Forbid broadcast and multicast sources.
	124	## Mark the special zero address and link-local addresses as such. (This
	125	## also matches class-E addresses, which are probably permanently invalid.)
	126	for i in 0.0.0.0 169.254.0.0/16; do
	127	run iptables -t mangle -A in-classify -g mark-from-link -s $i
	128	done
	129	run iptables -t mangle -A in-classify -g bad-source-address \
	130	-s 224.0.0.0/3
	131	run iptables -t mangle -A in-classify -g bad-source-address \
	132	-m addrtype --src-type BROADCAST \
	133
7c2cd88b	134	## Special IPv6 addresses. Forbid multicast sources, and mark zero and
44f95827 MW	135	## link local addresses.
	136	for i in :: fe80::/10; do
	137	run ip6tables -t mangle -A in-classify -g mark-from-link -s $i
	138	done
	139	run ip6tables -t mangle -A in-classify -g bad-source-address \
	140	-s ff00::/8
	141
	142	## Special IPv4 destination addresses. The zero address is invalid; mark
	143	## link-local and recognized broadcast addresses as link-local. We leave
	144	## multicast for later.
	145	for i in 0.0.0.0 240.0.0.0/4; do
	146	run iptables -t mangle -A out-classify -g bad-destination-address -d $i
	147	done
	148	run iptables -t mangle -A out-classify -g mark-to-link -d 169.254.0.0/16
d359f4f7	149	run iptables -t mangle -A out-classify -g mark-to-link -d 255.255.255.255
44f95827 MW	150	run iptables -t mangle -A out-classify -g mark-to-link \
	151	-m addrtype --dst-type BROADCAST
	152
	153	## Special IPv6 destination addressses. The zero address is again invalid;
	154	## mark link local addresses. We do multicast later.
	155	run ip6tables -t mangle -A out-classify -g bad-destination-address \
	156	-d ::
	157	run ip6tables -t mangle -A out-classify -g mark-to-link -d fe80::/10
	158
	159	## Now deal with multicast. Link-local multicast is detected as being
	160	## link-local, so that we can prevent it being forwarded correctly.
	161	clearchain mangle:out-classify-mcast
	162	run iptables -t mangle -A out-classify-mcast -g mark-to-link \
	163	-d 224.0.0.0/24
	164	for i in 0 1 2 3 4 5 6 7 8 9 a b c d e f; do
	165	run ip6tables -t mangle -A out-classify-mcast -g mark-to-link \
	166	-d ff${i}2::/16
	167	done
	168	run ip46tables -t mangle -A out-classify-mcast -g mark-to-mcast
	169	run iptables -t mangle -A out-classify -g out-classify-mcast \
	170	-d 224.0.0.0/4
	171	run ip6tables -t mangle -A out-classify -g out-classify-mcast \
	172	-d ff00::/8
	173
beb4f0ee MW	174	## Build the input classification chains. There's one chain `in-IFACE' for
	175	## each local interface. This chain does a further dispatch on the source
	176	## address to the appropriate `mark-from-CLASS' chain for the source network
1264e917 MW	177	## class. We also build a table mapping interface names to numbers (since
1264e917 MW	178	## the names are so unhelpful).
beb4f0ee	179	seen=:
1264e917 MW	180	ifq=0
1264e917 MW	181	ifmap=""
beb4f0ee MW	182	for iface in $host_ifaces_<::>FWHOST; do
	183	ifname=${iface%=*}
	184	case $seen in :$ifname:) continue ;; esac
	185	seen=$seen$ifname:
1264e917 MW	186	addword ifmap $ifname=$ifq
1264e917 MW	187	ifq=$(( $ifq + 1 ))
beb4f0ee MW	188	clearchain mangle:in-$ifname
	189	run ip46tables -t mangle -A in-classify -i $ifname -g in-$ifname
	190	done
	191
1264e917 MW	192	## We do a first pass over nets first, and then the interfaces which those
	193	## networks reach. During this pass, we populate the `out-classify' chains,
	194	## and we also build some lists so that we can do later passes over
	195	## interfaces first and then reaching networks. This is complicated by
	196	## interface names being unhelpful.
	197	##
	198	## Here are the variables we maintain.
	199	##
	200	## ifmap A list of entries IFACE=N mapping interface names to
	201	## numbers.
	202	##
	203	## ifnets_N A space-separated list of networks reaching interface
	204	## number N. This is used for building the matching
	205	## chains.
	206	##
	207	## ifaddrs_N A bang-separated list of address ranges reaching
	208	## interface number N. This is used for filtering out
	209	## known networks if the default network reaches the
	210	## interface.
bfdc045d	211	for net in $allnets; do
beb4f0ee	212
1264e917 MW	213	## Work through the interfaces that this network reaches.
	214	for iface in $(net_interfaces FWHOST $net); do
	215	case $iface in -) break ;; esac
	216
	217	## Find a sequence number for this interface.
	218	q=nil
	219	for i in $ifmap; do
	220	case "$i" in "$iface"=) q=${i##=}; break ;; esac
	221	done
	222	case $q in
	223	nil)
	224	echo >&2 "$0 INTERNAL ERROR: missing interface \`$iface'!"
	225	exit 1
	226	;;
	227	esac
	228
	229	## Remember the reachability information.
	230	addword ifnets_$q $net
3a68f688	231	done
1264e917 MW	232	done
	233
	234	## Build the `ifaddr_N' map and an `all-addresses' list.
	235	alladdrs=!
	236	trace "ifmap = $ifmap"
	237	for entry in $ifmap; do
	238	iface=${entry%=} q=${entry##=}
	239	eval nets=\$ifnets_$q
1264e917 MW	240	aa=!
	241	for n in $nets; do
	242	eval "addrs=\"\$net_inet_$n \$net_inet6_$n\""
	243	trace "$iface $n addrs = $addrs"
	244	for a in $addrs; do
	245	case $aa in !$a!) ;; *) aa=$aa$a! ;; esac
	246	case $alladdrs in !$a!) ;; *) alladdrs=$alladdrs$a! ;; esac
	247	done
3a68f688	248	done
1264e917 MW	249	eval ifaddrs_$q=\$aa
1264e917 MW	250	trace "iface $q = $iface; nets = $nets; addrs = $aa"
1264e917	251	done
78aaac07	252	trace "alladdrs = $alladdrs"
beb4f0ee	253
1264e917 MW	254	## Populate the `out-classify' chain, matching networks.
1264e917 MW	255	prepare_to () { mode=goto fail=mark-to-$net_class_default; }
e34a93c1	256	matchnets -d mark-to : prepare_to out-classify "" 0 $allnets
beb4f0ee	257
1264e917 MW	258	## A `finish' hook for rejecting known address ranges arriving on a
	259	## default-reachable interface.
	260	finish_from_default () {
	261	q=$1 chain=$2
	262	eval addrs=\$ifaddrs_$q
	263
	264	for n in $allnets; do
	265	eval addr=\$net_inet_$n addr6=\$net_inet6_$n
	266	for a in $addr; do
	267	case $a in !*) continue ;; esac
	268	case $addrs in "!$a!") continue ;; esac
	269	run iptables -t mangle -A $chain -s $a -g bad-source-address
	270	done
	271	for a in $addr6; do
	272	case $a in !*) continue ;; esac
	273	case $addrs in "!$a!") continue ;; esac
	274	run ip6tables -t mangle -A $chain -s $a -g bad-source-address
	275	done
	276	done
	277	run ip46tables -t mangle -A $chain -g in-default
	278	}
	279
	280	## A `prepare' hook for input classification. If the interface is
	281	## default-reachable, then we need to reject known address ranges before
	282	## dispatching to the default chain; otherwise just reject the packet.
	283	prepare_from () {
	284	q=$1 flags=$2
	285	case $flags in
	286	:default:) mode=call finish="finish_from_default $q" ;;
	287	*) mode=goto fail=bad-source-address ;;
	288	esac
	289	}
beb4f0ee	290
1264e917 MW	291	## Populate the `in-IFACE' chains.
	292	for entry in $ifmap; do
	293	iface=${entry%=} q=${entry##=}
	294	eval nets=\$ifnets_$q
	295
	296	case $iface in
	297	*-+)
	298	## A special marker indicating a collection of point-to-point
	299	## interfaces. We should match an address to a particular interface.
	300	chains=""
	301	for net in $nets; do
78061632	302	eval hosts=\$net_hosts_$net class=\$net_class_$net
beb4f0ee MW	303	for host in $hosts; do
	304	eval ha=\$host_inet_$host ha6=\$host_inet6_$host
	305	trace "$host : $class -> $iface"
	306	for a in $ha; do
	307	run iptables -t mangle -A in-$iface \
	308	-i ${iface%+}$host -s $a -g mark-from-$class
beb4f0ee MW	309	done
	310	for a in $ha6; do
	311	run ip6tables -t mangle -A in-$iface \
	312	-i ${iface%+}$host -s $a -g mark-from-$class
beb4f0ee MW	313	done
beb4f0ee MW	314	done
3a68f688	315	done
1264e917	316	run ip46tables -t mangle -A in-$iface -g bad-source-address
beb4f0ee MW	317	;;
beb4f0ee MW	318	*)
1264e917	319	matchnets -s mark-from : "prepare_from $q" in-$iface "" 0 $nets
0291d6d5 MW	320	;;
	321	esac
	322	done
bfdc045d	323
1264e917	324	## Fill in the black holes in the network. Some of these might actually be
6b6b6714 MW	325	## known networks, so don't fill those in again. See RFC5735 and RFC4291,
6b6b6714 MW	326	## and their successors.
bfdc045d MW	327	for addr in \
bfdc045d MW	328	10.0.0.0/8 172.16.0.0/12 192.168.0.0/16 \
677ef44e MW	329	127.0.0.0/8 \
677ef44e MW	330	192.0.2.0/24 198.51.100.0/24 203.0.113.0/24
bfdc045d	331	do
1264e917	332	case $alladdrs in !$addr!) continue ;; esac
bfdc045d MW	333	run iptables -t mangle -A in-default -s $addr -g bad-source-address
bfdc045d MW	334	done
0291d6d5	335	for addr in \
5ac28292	336	fc00::/7 fec0::/10 \
6b6b6714	337	::0:0/96 ::ffff:0:0/96 \
2f863436	338	2001:db8::/32
0291d6d5	339	do
1264e917	340	case $alladdrs in !$addr!) continue ;; esac
0291d6d5 MW	341	run ip6tables -t mangle -A in-default -s $addr -g bad-source-address
0291d6d5 MW	342	done
beb4f0ee	343	run ip46tables -t mangle -A in-default -g mark-from-$net_class_default
bfdc045d MW	344
	345	m4_divert(92)m4_dnl
	346	## Put the final default decision on the in-default chain, and attach the
5860d5a3	347	## classification chains to the INPUT and (maybe) FORWARD hooks.
3a68f688	348	for iface in $defaultifaces; do
beb4f0ee	349	run ip46tables -t mangle -A in-$iface -g in-default
3a68f688	350	done
5860d5a3 MW	351	chains="INPUT"
	352	case $forward in 1) chains="$chains FORWARD" ;; esac
	353	for c in $chains; do
	354	run ip46tables -t mangle -A $c -j in-classify
	355	run ip46tables -t mangle -A $c -j out-classify
	356	done
bfdc045d	357
44f95827 MW	358	## Incoming stuff to or from a link-local address is OK.
	359	run ip46tables -t mangle -A INPUT \
	360	-m mark --mark $to_link/$MASK_TO \
	361	-j MARK --or-mark $fwd_link
	362	run ip46tables -t mangle -A INPUT \
	363	-m mark --mark $from_link/$MASK_FROM \
	364	-j MARK --or-mark $fwd_link
	365
bfdc045d MW	366	## Now it's safe to let stuff through.
bfdc045d MW	367	for i in PREROUTING INPUT FORWARD OUTPUT POSTROUTING; do
0291d6d5	368	run ip46tables -t mangle -P $i ACCEPT
bfdc045d MW	369	done
	370
	371	m4_divert(-1)
	372	###----- That's all, folks --------------------------------------------------