#!/sbin/sh # # CDDL HEADER START # # The contents of this file are subject to the terms of the # Common Development and Distribution License (the "License"). # You may not use this file except in compliance with the License. # # You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE # or http://www.opensolaris.org/os/licensing. # See the License for the specific language governing permissions # and limitations under the License. # # When distributing Covered Code, include this CDDL HEADER in each # file and include the License file at usr/src/OPENSOLARIS.LICENSE. # If applicable, add the following below this CDDL HEADER, with the # fields enclosed by brackets "[]" replaced with your own identifying # information: Portions Copyright [yyyy] [name of copyright owner] # # CDDL HEADER END # # # Copyright 2007 Sun Microsystems, Inc. All rights reserved. # Use is subject to license terms. # # ident "%Z%%M% %I% %E% SMI" # This script configures IP routing. . /lib/svc/share/smf_include.sh # # In a shared-IP zone we need this service to be up, but all of the work # it tries to do is irrelevant (and will actually lead to the service # failing if we try to do it), so just bail out. # In the global zone and exclusive-IP zones we proceed. # smf_configure_ip || exit $SMF_EXIT_OK # # If routing.conf file is in place, and has not already been read in # by previous invokation of routeadm, legacy configuration is upgraded # by this call to "routeadm -u". This call is also needed when # a /var/svc/profile/upgrade file is found, as it may contain routeadm commands # which need to be applied. Finally, routeadm starts in.ndpd by # enabling the ndp service (in.ndpd), which is required for IPv6 address # autoconfiguration. It would be nice if we could do this in # network/loopback, but since the SMF backend is read-only at that # point in boot, we cannot. # /sbin/routeadm -u # # Are we routing dynamically? routeadm(1M) reports this in the # "current" values of ipv4/6-routing - if either are true, we are running # routing daemons (or at least they are enabled to run). # dynamic_routing_test=`/sbin/routeadm -p | \ nawk '/^ipv[46]-routing [.]*/ { print $2 }' | /usr/bin/grep "current=enabled"` if [ -n "$dynamic_routing_test" ]; then dynamic_routing="true" fi /usr/sbin/ifconfig -a6u >/etc/svc/volatile/ifconfig.$$ numv6ifs=`/usr/bin/grep -c inet6 /etc/svc/volatile/ifconfig.$$` if [ $numv6ifs -gt 1 ]; then # # Add a static route for multicast packets out of a link-local # interface, although would like to specify multicast interface using # an interface name! # set -- `/usr/bin/awk ' /inet6 fe80:/ { print substr($2, 1, index($2, "/") - 1) }' /etc/svc/volatile/ifconfig.$$` if [ -n "$1" ]; then echo "Setting default IPv6 interface for multicast:" \ "add net ff00::/8: gateway $1" /usr/sbin/route -n add -interface -inet6 "ff00::/8" "$1" \ >/dev/null fi fi /usr/bin/rm -f /etc/svc/volatile/ifconfig.$$ # # Configure default IPv4 routers using the local "/etc/defaultrouter" # configuration file. The file can contain the hostnames or IP # addresses of one or more default routers. If hostnames are used, # each hostname must also be listed in the local "/etc/hosts" file # because NIS and NIS+ are not running at the time that this script is # run. Each router name or address is listed on a single line by # itself in the file. Anything else on that line after the router's # name or address is ignored. Lines that begin with "#" are # considered comments and ignored. # # The default routes listed in the "/etc/defaultrouter" file will # replace those added by the kernel during diskless booting. An # empty "/etc/defaultrouter" file will cause the default route # added by the kernel to be deleted. # # Note that the default router file is ignored if we received routes # from a DHCP server. Our policy is to always trust DHCP over local # administration. # smf_netstrategy if [ "$_INIT_NET_STRATEGY" = "dhcp" ] && \ [ -n "`/sbin/dhcpinfo Router`" ]; then defrouters=`/sbin/dhcpinfo Router` elif [ -f /etc/defaultrouter ]; then defrouters=`/usr/bin/grep -v \^\# /etc/defaultrouter | \ /usr/bin/awk '{print $1}'` if [ -n "$defrouters" ]; then # # We want the default router(s) listed in # /etc/defaultrouter to replace the one added from the # BOOTPARAMS WHOAMI response but we must avoid flushing # the last route between the running system and its # /usr file system. # # First, remember the original route. shift $# set -- `/usr/bin/netstat -rn -f inet | \ /usr/bin/grep '^default'` route_IP="$2" # # Next, add those from /etc/defaultrouter. While doing # this, if one of the routes we add is for the route # previously added as a result of the BOOTPARAMS # response, we will see a message of the form: # "add net default: gateway a.b.c.d: entry exists" # do_delete=yes for router in $defrouters; do set -- `/usr/sbin/route -n add default \ -gateway $router` [ $? -ne 0 -a "x$5" = "x$route_IP:" ] \ && do_delete=no done # # Finally, delete the original default route unless it # was also listed in the defaultrouter file. # if [ -n "$route_IP" -a $do_delete = yes ]; then /usr/sbin/route -n delete default \ -gateway $route_IP >/dev/null fi else /usr/sbin/route -fn > /dev/null fi else defrouters= fi # # Use routeadm(1M) to configure forwarding and launch routing daemons # for IPv4 and IPv6 based on preset values. These settings only apply # to the global zone. For IPv4 dynamic routing, the system will default # to disabled if a default route was previously added via BOOTP, DHCP, # or the /etc/defaultrouter file. routeadm also starts in.ndpd. # if [ "$dynamic_routing" != "true" ] && [ -z "$defrouters" ]; then # # No default routes were setup by "route" command above. # Check the kernel routing table for any other default # routes. # /usr/bin/netstat -rn -f inet | \ /usr/bin/grep default >/dev/null 2>&1 && defrouters=yes fi # # The routeadm/ipv4-routing-set property is true if the administrator # has run "routeadm -e/-d ipv4-routing". If not, we revert to the # appropriate defaults. We no longer run "routeadm -u" on every boot # however, as persistent daemon state is now controlled by SMF. # ipv4_routing_set=`/usr/bin/svcprop -p routeadm/ipv4-routing-set $SMF_FMRI` if [ -z "$defrouters" ]; then # # Set default value for ipv4-routing to enabled. If routeadm -e/-d # has not yet been run by the administrator, we apply this default. # The -b option is project-private and informs routeadm not # to treat the enable as administrator-driven. # /usr/sbin/svccfg -s $SMF_FMRI \ setprop routeadm/default-ipv4-routing = true if [ "$ipv4_routing_set" = "false" ]; then /sbin/routeadm -b -e ipv4-routing -u fi else # # Default router(s) have been found, so ipv4-routing default value # should be disabled. If routaedm -e/d has not yet been run by # the administrator, we apply this default. The -b option is # project-private and informs routeadm not to treat the disable as # administrator-driven. # /usr/sbin/svccfg -s $SMF_FMRI \ setprop routeadm/default-ipv4-routing = false if [ "$ipv4_routing_set" = "false" ]; then /sbin/routeadm -b -d ipv4-routing -u fi fi # # Set 6to4 Relay Router communication support policy and, if applicable, # the destination Relay Router IPv4 address. See /etc/default/inetinit for # setting and further info on ACCEPT6TO4RELAY and RELAY6TO4ADDR. # If ACCEPT6TO4RELAY=NO, the default value in the kernel will # be used. # ACCEPT6TO4RELAY=`echo "$ACCEPT6TO4RELAY" | /usr/bin/tr '[A-Z]' '[a-z]'` if [ "$ACCEPT6TO4RELAY" = yes ]; then if [ "$RELAY6TO4ADDR" ]; then /usr/sbin/6to4relay -e -a $RELAY6TO4ADDR else /usr/sbin/6to4relay -e fi fi # # Read /etc/inet/static_routes and add each route. # if [ -f /etc/inet/static_routes ]; then echo "Adding persistent routes:" /usr/bin/egrep -v "^(#|$)" /etc/inet/static_routes | while read line; do /usr/sbin/route add $line done fi # Clear exit status. exit $SMF_EXIT_OK