[firewall] / functions.m4

### -*-m4-*-
###
### Utility functions for firewall scripts
###
### (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(20)m4_dnl
###--------------------------------------------------------------------------
### Utility functions.

## doit COMMAND ARGS...
##
## If debugging, print the COMMAND and ARGS.  If serious, execute them.
run () {
  set -e
  if [ "$FW_DEBUG" ]; then echo "* $*"; fi
  if ! [ "$FW_NOACT" ]; then "$@"; fi
}

## trace MESSAGE...
##
## If debugging, print the MESSAGE.
trace () {
  set -e
  if [ "$FW_DEBUG" ]; then echo "$*"; fi
}

## defport NAME NUMBER
##
## Define $port_NAME to be NUMBER.
defport () {
  name=$1 number=$2
  eval port_$name=$number
}

m4_divert(22)m4_dnl
###--------------------------------------------------------------------------
### Basic chain constructions.

## ip46tables ARGS ...
##
## Do the same thing for `iptables' and `ip6tables'.
ip46tables () {
  set -e
  iptables "$@"
  ip6tables "$@"
}

## clearchain CHAIN CHAIN ...
##
## Ensure that the named chains exist and are empty.
clearchain () {
  set -e
  for chain; do
    case $chain in
      *:*) table=${chain%:*} chain=${chain#*:} ;;
      *) table=filter ;;
    esac
    run ip46tables -t $table -N $chain
  done
}

## errorchain CHAIN ACTION ARGS ...
##
## Make a chain which logs a message and then invokes some other action,
## typically REJECT.  Log messages are prefixed by `fw: CHAIN'.
errorchain () {
  set -e
  chain=$1; shift
  case $chain in
    *:*) table=${chain%:*} chain=${chain#*:} ;;
    *) table=filter ;;
  esac
  clearchain $table:$chain
  run ip46tables -t $table -A $chain -j LOG \
	  -m limit --limit 3/minute --limit-burst 10 \
	  --log-prefix "fw: $chain " --log-level notice
  run ip46tables -t $table -A $chain -j "$@"
}

m4_divert(24)m4_dnl
###--------------------------------------------------------------------------
### Basic option setting.

## setopt OPTION VALUE
##
## Set an IP sysctl.
setopt () {
  set -e
  opt=$1; shift; val=$*
  run sysctl -q net/ipv4/$opt="$val"
}

## setdevopt OPTION VALUE
##
## Set an IP interface-level sysctl.
setdevopt () {
  set -e
  opt=$1; shift; val=$*
  for i in /proc/sys/net/ipv4/conf/*; do
    [ -f $i/$opt ] &&
      run sysctl -q net/ipv4/conf/${i#/proc/sys/net/ipv4/conf/}/$opt="$val"
  done
}

m4_divert(26)m4_dnl
###--------------------------------------------------------------------------
### Packet filter construction.

## conntrack CHAIN
##
## Add connection tracking to CHAIN, and allow obvious stuff.
conntrack () {
  set -e
  chain=$1
  run ip46tables -A $chain -p tcp -m state \
	  --state ESTABLISHED,RELATED -j ACCEPT
  run ip46tables -A $chain -p tcp ! --syn -g bad-tcp
}

## commonrules CHAIN
##
## Add standard IP filtering rules to the CHAIN.
commonrules () {
  set -e
  chain=$1

  ## Pass fragments through, assuming that the eventual destination will sort
  ## things out properly.  Except for TCP, that is, which should never be
  ## fragmented.
  run iptables -A $chain -p tcp -f -g tcp-fragment
  run iptables -A $chain -f -j ACCEPT
  run ip6tables -A $chain -p tcp -g tcp-fragment \
	  -m ipv6header --soft --header frag
  run ip6tables -A $chain -j ACCEPT \
	  -m frag ! --fragfirst
}

## allowservices CHAIN PROTO SERVICE ...
##
## Add rules to allow the SERVICES on the CHAIN.
allowservices () {
  set -e
  chain=$1 proto=$2; shift 2
  count=0
  list=
  for svc; do
    case $svc in
      *:*)
	n=2
	left=${svc%:*} right=${svc#*:}
	case $left in *[!0-9]*) eval left=\$port_$left ;; esac
	case $right in *[!0-9]*) eval right=\$port_$right ;; esac
	svc=$left:$right
	;;
      *)
	n=1
	case $svc in *[!0-9]*) eval svc=\$port_$svc ;; esac
	;;
    esac
    case $svc in
      *: | :* | "" | *[!0-9:]*)
	echo >&2 "Bad service name"
	exit 1
	;;
    esac
    count=$(( $count + $n ))
    if [ $count -gt 15 ]; then
      run ip46tables -A $chain -p $proto -m multiport -j ACCEPT \
	     --destination-ports ${list#,}
      list= count=$n
    fi
    list=$list,$svc
  done
  case $list in
    "")
      ;;
    ,*,*)
      run ip46tables -A $chain -p $proto -m multiport -j ACCEPT \
	      --destination-ports ${list#,}
      ;;
    *)
      run ip46tables -A $chain -p $proto -j ACCEPT \
	      --destination-port ${list#,}
      ;;
  esac
}

## ntpclient CHAIN NTPSERVER ...
##
## Add rules to CHAIN to allow NTP with NTPSERVERs.
ntpclient () {
  set -e
  chain=$1; shift
  for ntp; do
    run iptables -A $chain -s $ntp -j ACCEPT \
	    -p udp --source-port 123 --destination-port 123
  done
}

## dnsresolver CHAIN
##
## Add rules to allow CHAIN to be a DNS resolver.
dnsresolver () {
  set -e
  chain=$1
  for p in tcp udp; do
    run ip46tables -A $chain -j ACCEPT \
	     -m state --state ESTABLISHED \
	     -p $p --source-port 53
  done
}

## openports CHAIN [MIN MAX]
##
## Add rules to CHAIN to allow the open ports.
openports () {
  set -e
  chain=$1; shift
  [ $# -eq 0 ] && set -- $open_port_min $open_port_max
  run ip46tables -A $chain -p tcp -g interesting --destination-port $1:$2
  run ip46tables -A $chain -p udp -g interesting --destination-port $1:$2
}

m4_divert(28)m4_dnl
###--------------------------------------------------------------------------
### Packet classification.

## defbitfield NAME WIDTH
##
## Defines MASK_NAME and BIT_NAME symbolic constants for dealing with
## bitfields: x << BIT_NAME yields the value x in the correct position, and
## ff & MASK_NAME extracts the corresponding value.
defbitfield () {
  set -e
  name=$1 width=$2
  eval MASK_$name=$(( (1 << $width) - 1 << $bitindex ))
  eval BIT_$name=$bitindex
  bitindex=$(( $bitindex + $width ))
}

## Define the layout of the bitfield.
bitindex=0
defbitfield MASK 16
defbitfield FROM 4
defbitfield TO 4

## defnetclass NAME FORWARD-TO...
##
## Defines a netclass called NAME, which is allowed to forward to the
## FORWARD-TO netclasses.
##
## For each netclass, constants from_NAME and to_NAME are defined as the
## appropriate values in the FROM and TO fields (i.e., not including any mask
## bits).
##
## This function also establishes mangle chains mark-from-NAME and
## mark-to-NAME for applying the appropriate mark bits to the packet.
##
## Because it needs to resolve forward references, netclasses must be defined
## in a two-pass manner, using a loop of the form
##
##   for pass in 1 2; do netclassindex=0; ...; done
netclassess=
defnetclass () {
  set -e
  name=$1; shift
  case $pass in
    1)

      ## Pass 1.  Establish the from_NAME and to_NAME constants, and the
      ## netclass's mask bit.
      eval from_$name=$(( $netclassindex << $BIT_FROM ))
      eval to_$name=$(( $netclassindex << $BIT_TO ))
      eval _mask_$name=$(( 1 << ($netclassindex + $BIT_MASK) ))
      nets="$nets $name"
      ;;
    2)

      ## Pass 2.  Compute the actual from and to values.  We're a little bit
      ## clever during source classification, and set the TO field to
      ## all-bits-one, so that destination classification needs only a single
      ## AND operation.
      from=$(( ($netclassindex << $BIT_FROM) + (0xf << $BIT_TO) ))
      for net; do
	eval bit=\$_mask_$net
	from=$(( $from + $bit ))
      done
      to=$(( ($netclassindex << $BIT_TO) + \
	     (0xf << $BIT_FROM) + \
	     (1 << ($netclassindex + $BIT_MASK)) ))
      trace "from $name --> set $(printf %x $from)"
      trace "  to $name --> and $(printf %x $from)"

      ## Now establish the mark-from-NAME and mark-to-NAME chains.
      clearchain mangle:mark-from-$name mangle:mark-to-$name
      run ip46tables -t mangle -A mark-from-$name -j MARK --set-mark $from
      run ip46tables -t mangle -A mark-to-$name -j MARK --and-mark $to
      ;;
  esac
  netclassindex=$(( $netclassindex + 1 ))
}

## defiface NAME NETCLASS:NETWORK/MASK...
##
## Declares a network interface NAME and associates with it a number of
## reachable networks.  During source classification, a packet arriving on
## interface NAME from an address in NETWORK/MASK is classified as coming
## from to NETCLASS.  During destination classification, all packets going to
## NETWORK/MASK are classified as going to NETCLASS, regardless of interface
## (which is good, because the outgoing interface hasn't been determined
## yet).
##
## As a special case, the NETWORK/MASK can be the string `default', which
## indicates that all addresses not matched elsewhere should be considered.
ifaces=:
defaultiface=none
allnets= allnets6=
defiface () {
  set -e
  name=$1; shift
  case $ifaces in
    *:"$name":*) ;;
    *)
      clearchain mangle:in-$name
      run ip46tables -t mangle -A in-classify -i $name -g in-$name
      ;;
  esac
  ifaces=$ifaces$name:
  for item; do
    netclass=${item%:*} addr=${item#*:}
    case $addr in
      default)
	defaultiface=$name
	defaultclass=$netclass
	run ip46tables -t mangle -A out-classify -g mark-to-$netclass
	;;
      *:*)
	run ip6tables -t mangle -A in-$name -s $addr -g mark-from-$netclass
	run ip6tables -t mangle -A out-classify -d $addr -g mark-to-$netclass
	allnets6="$allnets6 $name:$addr"
	;;
      *)
	run iptables -t mangle -A in-$name -s $addr -g mark-from-$netclass
	run iptables -t mangle -A out-classify -d $addr -g mark-to-$netclass
	allnets="$allnets $name:$addr"
	;;
    esac
  done
}

## defvpn IFACE CLASS NET HOST:ADDR ...
##
## Defines a VPN interface.  If the interface has the form `ROOT+' (i.e., a
## netfilter wildcard) then define a separate interface ROOTHOST routing to
## ADDR; otherwise just write a blanket rule allowing the whole NET.  All
## addresses concerned are put in the named CLASS.
defvpn () {
  set -e
  iface=$1 class=$2 net=$3; shift 3
  case $iface in
    *-+)
      root=${iface%+}
      for host; do
	name=${host%%:*} addr=${host#*:}
	defiface $root$name $class:$addr
      done
      ;;
    *)
      defiface $iface $class:$net
      ;;
  esac
}

m4_divert(-1)
###----- That's all, folks --------------------------------------------------
Commit	Line	Data
bfdc045d MW	1	### --m4--
	2	###
	3	### Utility functions for firewall scripts
	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(20)m4_dnl
	25	###--------------------------------------------------------------------------
	26	### Utility functions.
	27
	28	## doit COMMAND ARGS...
	29	##
	30	## If debugging, print the COMMAND and ARGS. If serious, execute them.
	31	run () {
	32	set -e
	33	if [ "$FW_DEBUG" ]; then echo "* $*"; fi
	34	if ! [ "$FW_NOACT" ]; then "$@"; fi
	35	}
	36
	37	## trace MESSAGE...
	38	##
	39	## If debugging, print the MESSAGE.
	40	trace () {
	41	set -e
	42	if [ "$FW_DEBUG" ]; then echo "$*"; fi
	43	}
	44
	45	## defport NAME NUMBER
	46	##
	47	## Define $port_NAME to be NUMBER.
	48	defport () {
	49	name=$1 number=$2
	50	eval port_$name=$number
	51	}
	52
	53	m4_divert(22)m4_dnl
	54	###--------------------------------------------------------------------------
	55	### Basic chain constructions.
	56
0291d6d5 MW	57	## ip46tables ARGS ...
	58	##
	59	## Do the same thing for `iptables' and `ip6tables'.
	60	ip46tables () {
	61	set -e
	62	iptables "$@"
	63	ip6tables "$@"
	64	}
	65
bfdc045d MW	66	## clearchain CHAIN CHAIN ...
	67	##
	68	## Ensure that the named chains exist and are empty.
	69	clearchain () {
	70	set -e
	71	for chain; do
	72	case $chain in
	73	:) table=${chain%:} chain=${chain#:} ;;
	74	*) table=filter ;;
	75	esac
0291d6d5	76	run ip46tables -t $table -N $chain
bfdc045d MW	77	done
	78	}
	79
	80	## errorchain CHAIN ACTION ARGS ...
	81	##
	82	## Make a chain which logs a message and then invokes some other action,
	83	## typically REJECT. Log messages are prefixed by `fw: CHAIN'.
	84	errorchain () {
	85	set -e
	86	chain=$1; shift
	87	case $chain in
	88	:) table=${chain%:} chain=${chain#:} ;;
	89	*) table=filter ;;
	90	esac
	91	clearchain $table:$chain
0291d6d5	92	run ip46tables -t $table -A $chain -j LOG \
bfdc045d	93	-m limit --limit 3/minute --limit-burst 10 \
fc10e52b	94	--log-prefix "fw: $chain " --log-level notice
0291d6d5	95	run ip46tables -t $table -A $chain -j "$@"
bfdc045d MW	96	}
	97
	98	m4_divert(24)m4_dnl
	99	###--------------------------------------------------------------------------
	100	### Basic option setting.
	101
	102	## setopt OPTION VALUE
	103	##
	104	## Set an IP sysctl.
	105	setopt () {
	106	set -e
	107	opt=$1; shift; val=$*
	108	run sysctl -q net/ipv4/$opt="$val"
	109	}
	110
	111	## setdevopt OPTION VALUE
	112	##
	113	## Set an IP interface-level sysctl.
	114	setdevopt () {
	115	set -e
	116	opt=$1; shift; val=$*
	117	for i in /proc/sys/net/ipv4/conf/*; do
	118	[ -f $i/$opt ] &&
	119	run sysctl -q net/ipv4/conf/${i#/proc/sys/net/ipv4/conf/}/$opt="$val"
	120	done
	121	}
	122
	123	m4_divert(26)m4_dnl
	124	###--------------------------------------------------------------------------
	125	### Packet filter construction.
	126
	127	## conntrack CHAIN
	128	##
	129	## Add connection tracking to CHAIN, and allow obvious stuff.
	130	conntrack () {
	131	set -e
	132	chain=$1
0291d6d5	133	run ip46tables -A $chain -p tcp -m state \
bfdc045d	134	--state ESTABLISHED,RELATED -j ACCEPT
0291d6d5	135	run ip46tables -A $chain -p tcp ! --syn -g bad-tcp
bfdc045d MW	136	}
bfdc045d MW	137
ecdca131 MW	138	## commonrules CHAIN
	139	##
	140	## Add standard IP filtering rules to the CHAIN.
	141	commonrules () {
	142	set -e
	143	chain=$1
	144
	145	## Pass fragments through, assuming that the eventual destination will sort
	146	## things out properly. Except for TCP, that is, which should never be
	147	## fragmented.
	148	run iptables -A $chain -p tcp -f -g tcp-fragment
	149	run iptables -A $chain -f -j ACCEPT
0291d6d5 MW	150	run ip6tables -A $chain -p tcp -g tcp-fragment \
	151	-m ipv6header --soft --header frag
	152	run ip6tables -A $chain -j ACCEPT \
	153	-m frag ! --fragfirst
ecdca131 MW	154	}
ecdca131 MW	155
bfdc045d MW	156	## allowservices CHAIN PROTO SERVICE ...
	157	##
	158	## Add rules to allow the SERVICES on the CHAIN.
	159	allowservices () {
	160	set -e
	161	chain=$1 proto=$2; shift 2
	162	count=0
	163	list=
	164	for svc; do
	165	case $svc in
	166	:)
12ac65a1	167	n=2
bfdc045d MW	168	left=${svc%:} right=${svc#:}
	169	case $left in [!0-9]) eval left=\$port_$left ;; esac
	170	case $right in [!0-9]) eval right=\$port_$right ;; esac
	171	svc=$left:$right
	172	;;
	173	*)
12ac65a1	174	n=1
bfdc045d MW	175	case $svc in [!0-9]) eval svc=\$port_$svc ;; esac
	176	;;
	177	esac
	178	case $svc in
	179	: \| : \| "" \| [!0-9:])
12ac65a1	180	echo >&2 "Bad service name"
bfdc045d MW	181	exit 1
	182	;;
	183	esac
	184	count=$(( $count + $n ))
	185	if [ $count -gt 15 ]; then
0291d6d5	186	run ip46tables -A $chain -p $proto -m multiport -j ACCEPT \
bfdc045d MW	187	--destination-ports ${list#,}
	188	list= count=$n
	189	fi
	190	list=$list,$svc
	191	done
	192	case $list in
	193	"")
	194	;;
	195	,,)
0291d6d5	196	run ip46tables -A $chain -p $proto -m multiport -j ACCEPT \
bfdc045d MW	197	--destination-ports ${list#,}
bfdc045d MW	198	;;
12ac65a1	199	*)
0291d6d5	200	run ip46tables -A $chain -p $proto -j ACCEPT \
bfdc045d MW	201	--destination-port ${list#,}
	202	;;
	203	esac
	204	}
	205
	206	## ntpclient CHAIN NTPSERVER ...
	207	##
	208	## Add rules to CHAIN to allow NTP with NTPSERVERs.
	209	ntpclient () {
	210	set -e
	211	chain=$1; shift
	212	for ntp; do
	213	run iptables -A $chain -s $ntp -j ACCEPT \
	214	-p udp --source-port 123 --destination-port 123
	215	done
	216	}
	217
	218	## dnsresolver CHAIN
	219	##
	220	## Add rules to allow CHAIN to be a DNS resolver.
	221	dnsresolver () {
	222	set -e
	223	chain=$1
	224	for p in tcp udp; do
0291d6d5	225	run ip46tables -A $chain -j ACCEPT \
bfdc045d MW	226	-m state --state ESTABLISHED \
	227	-p $p --source-port 53
	228	done
	229	}
	230
	231	## openports CHAIN [MIN MAX]
	232	##
	233	## Add rules to CHAIN to allow the open ports.
	234	openports () {
	235	set -e
	236	chain=$1; shift
	237	[ $# -eq 0 ] && set -- $open_port_min $open_port_max
0291d6d5 MW	238	run ip46tables -A $chain -p tcp -g interesting --destination-port $1:$2
0291d6d5 MW	239	run ip46tables -A $chain -p udp -g interesting --destination-port $1:$2
bfdc045d MW	240	}
	241
	242	m4_divert(28)m4_dnl
	243	###--------------------------------------------------------------------------
	244	### Packet classification.
	245
	246	## defbitfield NAME WIDTH
	247	##
	248	## Defines MASK_NAME and BIT_NAME symbolic constants for dealing with
	249	## bitfields: x << BIT_NAME yields the value x in the correct position, and
	250	## ff & MASK_NAME extracts the corresponding value.
	251	defbitfield () {
	252	set -e
	253	name=$1 width=$2
	254	eval MASK_$name=$(( (1 << $width) - 1 << $bitindex ))
	255	eval BIT_$name=$bitindex
	256	bitindex=$(( $bitindex + $width ))
	257	}
	258
	259	## Define the layout of the bitfield.
	260	bitindex=0
	261	defbitfield MASK 16
	262	defbitfield FROM 4
	263	defbitfield TO 4
	264
	265	## defnetclass NAME FORWARD-TO...
	266	##
	267	## Defines a netclass called NAME, which is allowed to forward to the
	268	## FORWARD-TO netclasses.
	269	##
	270	## For each netclass, constants from_NAME and to_NAME are defined as the
	271	## appropriate values in the FROM and TO fields (i.e., not including any mask
	272	## bits).
	273	##
	274	## This function also establishes mangle chains mark-from-NAME and
	275	## mark-to-NAME for applying the appropriate mark bits to the packet.
	276	##
	277	## Because it needs to resolve forward references, netclasses must be defined
	278	## in a two-pass manner, using a loop of the form
	279	##
	280	## for pass in 1 2; do netclassindex=0; ...; done
	281	netclassess=
	282	defnetclass () {
	283	set -e
	284	name=$1; shift
	285	case $pass in
	286	1)
	287
	288	## Pass 1. Establish the from_NAME and to_NAME constants, and the
	289	## netclass's mask bit.
	290	eval from_$name=$(( $netclassindex << $BIT_FROM ))
	291	eval to_$name=$(( $netclassindex << $BIT_TO ))
	292	eval _mask_$name=$(( 1 << ($netclassindex + $BIT_MASK) ))
	293	nets="$nets $name"
	294	;;
	295	2)
	296
	297	## Pass 2. Compute the actual from and to values. We're a little bit
	298	## clever during source classification, and set the TO field to
	299	## all-bits-one, so that destination classification needs only a single
	300	## AND operation.
	301	from=$(( ($netclassindex << $BIT_FROM) + (0xf << $BIT_TO) ))
	302	for net; do
	303	eval bit=\$_mask_$net
304	from=$(( $from + $bit ))
305	done
306	to=$(( ($netclassindex << $BIT_TO) + \
12ac65a1	307	(0xf << $BIT_FROM) + \
bfdc045d MW	308	(1 << ($netclassindex + $BIT_MASK)) ))
	309	trace "from $name --> set $(printf %x $from)"
	310	trace " to $name --> and $(printf %x $from)"
	311
	312	## Now establish the mark-from-NAME and mark-to-NAME chains.
	313	clearchain mangle:mark-from-$name mangle:mark-to-$name
0291d6d5 MW	314	run ip46tables -t mangle -A mark-from-$name -j MARK --set-mark $from
0291d6d5 MW	315	run ip46tables -t mangle -A mark-to-$name -j MARK --and-mark $to
bfdc045d MW	316	;;
	317	esac
	318	netclassindex=$(( $netclassindex + 1 ))
	319	}
	320
	321	## defiface NAME NETCLASS:NETWORK/MASK...
	322	##
	323	## Declares a network interface NAME and associates with it a number of
	324	## reachable networks. During source classification, a packet arriving on
	325	## interface NAME from an address in NETWORK/MASK is classified as coming
	326	## from to NETCLASS. During destination classification, all packets going to
	327	## NETWORK/MASK are classified as going to NETCLASS, regardless of interface
	328	## (which is good, because the outgoing interface hasn't been determined
	329	## yet).
	330	##
	331	## As a special case, the NETWORK/MASK can be the string `default', which
	332	## indicates that all addresses not matched elsewhere should be considered.
	333	ifaces=:
	334	defaultiface=none
0291d6d5	335	allnets= allnets6=
bfdc045d MW	336	defiface () {
	337	set -e
	338	name=$1; shift
	339	case $ifaces in
	340	:"$name":) ;;
	341	*)
	342	clearchain mangle:in-$name
0291d6d5	343	run ip46tables -t mangle -A in-classify -i $name -g in-$name
bfdc045d MW	344	;;
	345	esac
	346	ifaces=$ifaces$name:
	347	for item; do
	348	netclass=${item%:} addr=${item#:}
	349	case $addr in
	350	default)
	351	defaultiface=$name
	352	defaultclass=$netclass
0291d6d5 MW	353	run ip46tables -t mangle -A out-classify -g mark-to-$netclass
	354	;;
	355	:)
	356	run ip6tables -t mangle -A in-$name -s $addr -g mark-from-$netclass
	357	run ip6tables -t mangle -A out-classify -d $addr -g mark-to-$netclass
	358	allnets6="$allnets6 $name:$addr"
bfdc045d MW	359	;;
	360	*)
	361	run iptables -t mangle -A in-$name -s $addr -g mark-from-$netclass
	362	run iptables -t mangle -A out-classify -d $addr -g mark-to-$netclass
	363	allnets="$allnets $name:$addr"
	364	;;
	365	esac
	366	done
	367	}
	368
	369	## defvpn IFACE CLASS NET HOST:ADDR ...
	370	##
	371	## Defines a VPN interface. If the interface has the form `ROOT+' (i.e., a
	372	## netfilter wildcard) then define a separate interface ROOTHOST routing to
	373	## ADDR; otherwise just write a blanket rule allowing the whole NET. All
	374	## addresses concerned are put in the named CLASS.
	375	defvpn () {
	376	set -e
	377	iface=$1 class=$2 net=$3; shift 3
	378	case $iface in
	379	*-+)
	380	root=${iface%+}
	381	for host; do
0291d6d5	382	name=${host%%:} addr=${host#:}
bfdc045d MW	383	defiface $root$name $class:$addr
	384	done
	385	;;
	386	*)
	387	defiface $iface $class:$net
	388	;;
	389	esac
	390	}
	391
	392	m4_divert(-1)
	393	###----- That's all, folks --------------------------------------------------