#!/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 2009 Sun Microsystems, Inc. All rights reserved. # Use is subject to license terms. # # Copyright (c) 1984, 1986, 1987, 1988, 1989 AT&T. # All rights reserved. # . /lib/svc/share/smf_include.sh . /lib/svc/share/net_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 # Make sure that the libraries essential to this stage of booting can be found. LD_LIBRARY_PATH=/lib; export LD_LIBRARY_PATH smf_netstrategy if smf_is_globalzone; then net_reconfigure || exit $SMF_EXIT_ERR_CONFIG # # Upgrade handling. The upgrade file consists of a series of dladm(1M) # commands. Note that after we are done, we cannot rename the upgrade # script file as the file system is still read-only at this point. # Defer this to the manifest-import service. # upgrade_script=/var/svc/profile/upgrade_datalink if [ -f "${upgrade_script}" ]; then . "${upgrade_script}" fi # # Bring up link aggregations and initialize security objects. # Note that link property initialization is deferred until after # IP interfaces are plumbed to ensure that the links will not # be unloaded (and the property settings lost). # /sbin/dladm up-aggr /sbin/dladm up-vlan /sbin/dladm init-secobj # # Bring up VNICs # /sbin/dladm up-vnic # # Create flows via flowadm. # /sbin/flowadm init-flow fi # # If the system was net booted by DHCP, hand DHCP management off to the # DHCP agent (ifconfig communicates to the DHCP agent through the # loopback interface). # if [ -n "$_INIT_NET_IF" -a "$_INIT_NET_STRATEGY" = "dhcp" ]; then /sbin/dhcpagent -a fi # # The network initialization is done early to support diskless and # dataless configurations. For IPv4 interfaces that were configured by # the kernel (e.g. those on diskless machines) and not configured by # DHCP, reset the netmask using the local "/etc/netmasks" file if one # exists, and then reset the broadcast address based on the netmask. # /sbin/ifconfig -auD4 netmask + broadcast + # # All the IPv4 and IPv6 interfaces are plumbed before doing any # interface configuration. This prevents errors from plumb failures # getting mixed in with the configured interface lists that the script # outputs. # # # Get the list of IPv4 interfaces to configure by breaking # /etc/hostname.* into separate args by using "." as a shell separator # character. # interface_names="`echo /etc/hostname.*[0-9] 2>/dev/null`" if [ "$interface_names" != "/etc/hostname.*[0-9]" ]; then ORIGIFS="$IFS" IFS="$IFS." set -- $interface_names IFS="$ORIGIFS" while [ $# -ge 2 ]; do shift intf_name=$1 while [ $# -gt 1 -a "$2" != "/etc/hostname" ]; do intf_name="$intf_name.$2" shift done shift read one rest < /etc/hostname.$intf_name if [ "$one" = ipmp ]; then ipmp_list="$ipmp_list $intf_name" else inet_list="$inet_list $intf_name" fi done fi # # Get the list of IPv6 interfaces to configure by breaking # /etc/hostname6.* into separate args by using "." as a shell separator # character. # interface_names="`echo /etc/hostname6.*[0-9] 2>/dev/null`" if [ "$interface_names" != "/etc/hostname6.*[0-9]" ]; then ORIGIFS="$IFS" IFS="$IFS." set -- $interface_names IFS="$ORIGIFS" while [ $# -ge 2 ]; do shift intf_name=$1 while [ $# -gt 1 -a "$2" != "/etc/hostname6" ]; do intf_name="$intf_name.$2" shift done shift read one rest < /etc/hostname6.$intf_name if [ "$one" = ipmp ]; then ipmp6_list="$ipmp6_list $intf_name" else inet6_list="$inet6_list $intf_name" fi done fi # # Create all of the IPv4 IPMP interfaces. # if [ -n "$ipmp_list" ]; then set -- $ipmp_list while [ $# -gt 0 ]; do if /sbin/ifconfig $1 ipmp; then ipmp_created="$ipmp_created $1" else ipmp_failed="$ipmp_failed $1" fi shift done [ -n "$ipmp_failed" ] && warn_failed_ifs "create IPv4 IPMP" \ "$ipmp_failed" fi # # Step through the IPv4 interface list and try to plumb every interface. # Generate list of plumbed and failed IPv4 interfaces. # if [ -n "$inet_list" ]; then set -- $inet_list while [ $# -gt 0 ]; do /sbin/ifconfig $1 plumb if /sbin/ifconfig $1 inet >/dev/null 2>&1; then inet_plumbed="$inet_plumbed $1" else inet_failed="$inet_failed $1" fi shift done [ -n "$inet_failed" ] && warn_failed_ifs "plumb IPv4" "$inet_failed" fi # Run autoconf to connect to a WLAN if the interface is a wireless one if [ -x /sbin/wificonfig -a -n "$inet_plumbed" ]; then set -- $inet_plumbed while [ $# -gt 0 ]; do if [ -r /dev/wifi/$1 ]; then /sbin/wificonfig -i $1 startconf >/dev/null fi shift done fi # # Step through the IPv6 interface list and plumb every interface. # Generate list of plumbed and failed IPv6 interfaces. Each plumbed # interface will be brought up later, after processing any contents of # the /etc/hostname6.* file. # if [ -n "$inet6_list" ]; then set -- $inet6_list while [ $# -gt 0 ]; do /sbin/ifconfig $1 inet6 plumb if /sbin/ifconfig $1 inet6 >/dev/null 2>&1; then inet6_plumbed="$inet6_plumbed $1" else inet6_failed="$inet6_failed $1" fi shift done [ -n "$inet6_failed" ] && warn_failed_ifs "plumb IPv6" "$inet6_failed" fi # # Create all of the IPv6 IPMP interfaces. # if [ -n "$ipmp6_list" ]; then set -- $ipmp6_list while [ $# -gt 0 ]; do if /sbin/ifconfig $1 inet6 ipmp; then ipmp6_created="$ipmp6_created $1" else ipmp6_failed="$ipmp6_failed $1" fi shift done [ -n "$ipmp6_failed" ] && warn_failed_ifs "create IPv6 IPMP" \ "$ipmp6_failed" fi if smf_is_globalzone; then # # Wifi drivers use special property interfaces that are not supported # by the existing property persistence mechanism, so if a wifi driver # unloads and then is subsequently reloaded, associated links' properties # will not be restored. For now, wait until after interfaces have been # plumbed (above) to initialize link properties. # /sbin/dladm init-linkprop -w fi # # Process the /etc/hostname[6].* files for IPMP interfaces. Processing these # before non-IPMP interfaces avoids accidental implicit IPMP group creation. # [ -n "$ipmp_created" ] && if_configure inet "IPMP" $ipmp_created [ -n "$ipmp6_created" ] && if_configure inet6 "IPMP" $ipmp6_created # # Process the /etc/hostname[6].* files for non-IPMP interfaces. # [ -n "$inet_plumbed" ] && if_configure inet "" $inet_plumbed [ -n "$inet6_plumbed" ] && if_configure inet6 "" $inet6_plumbed # # For the IPv4 and IPv6 interfaces that failed to plumb, find (or create) # IPMP meta-interfaces to host their data addresses. # [ -n "$inet_failed" ] && move_addresses inet [ -n "$inet6_failed" ] && move_addresses inet6 # Run DHCP if requested. Skip boot-configured interface. interface_names="`echo /etc/dhcp.*[0-9] 2>/dev/null`" if [ "$interface_names" != '/etc/dhcp.*[0-9]' ]; then # # First find the primary interface. Default to the first # interface if not specified. First primary interface found # "wins". Use care not to "reconfigure" a net-booted interface # configured using DHCP. Run through the list of interfaces # again, this time trying DHCP. # i4d_fail= firstif= primary= ORIGIFS="$IFS" IFS="${IFS}." set -- $interface_names while [ $# -ge 2 ]; do shift [ -z "$firstif" ] && firstif=$1 for i in `shcat /etc/dhcp\.$1`; do if [ "$i" = primary ]; then primary=$1 break fi done [ -n "$primary" ] && break shift done [ -z "$primary" ] && primary="$firstif" cmdline=`shcat /etc/dhcp\.${primary}` if [ "$_INIT_NET_IF" != "$primary" ]; then echo "starting DHCP on primary interface $primary" /sbin/ifconfig $primary auto-dhcp primary $cmdline # Exit code 4 means ifconfig timed out waiting for dhcpagent [ $? != 0 ] && [ $? != 4 ] && i4d_fail="$i4d_fail $primary" fi set -- $interface_names while [ $# -ge 2 ]; do shift cmdline=`shcat /etc/dhcp\.$1` if [ "$1" != "$primary" -a \ "$1" != "$_INIT_NET_IF" ]; then echo "starting DHCP on interface $1" /sbin/ifconfig $1 dhcp start wait 0 $cmdline # Exit code can't be timeout when wait is 0 [ $? != 0 ] && i4d_fail="$i4d_fail $1" fi shift done IFS="$ORIGIFS" unset ORIGIFS [ -n "$i4d_fail" ] && warn_failed_ifs "configure IPv4 DHCP" "$i4d_fail" fi # In order to avoid bringing up the interfaces that have # intentionally been left down, perform RARP only if the system # has no configured hostname in /etc/nodename hostname="`shcat /etc/nodename 2>/dev/null`" if [ "$_INIT_NET_STRATEGY" = "rarp" -o -z "$hostname" ]; then /sbin/ifconfig -adD4 auto-revarp netmask + broadcast + up fi # # If the /etc/defaultrouter file exists, process it now so that the next # stage of booting will have access to NFS. # if [ -f /etc/defaultrouter ]; then while read router rubbish; do case "$router" in '#'* | '') ;; # Ignore comments, empty lines *) /sbin/route -n add default -gateway $router ;; esac done /dev/null [ -n "`/sbin/ifconfig $nic 2>/dev/null`" ] && ( # The interface is successfully plumbed, so # modify "inet_list" to force the exit code # checks to work. inet_list=$nic; # Given that this is the only IPv4 interface, # we assert that it is primary. echo "starting DHCP on primary interface $primary"; /sbin/ifconfig $nic auto-dhcp primary; # Exit code 4 means ifconfig timed out waiting # for dhcpagent [ $? != 0 ] && [ $? != 4 ] && \ i4d_fail="$i4d_fail $nic"; ) ;; "off"|"") /sbin/devprop host-ip subnet-mask router-ip | ( read ip; read mask; read router; [ -n "$ip" ] && [ -n "$mask" ] && \ /sbin/ifconfig $nic plumb 2>/dev/null [ -n "`/sbin/ifconfig $nic 2>/dev/null`" ] && ( # The interface is successfully # plumbed, so modify "inet_list" to # force the exit code checks to work. inet_list=$nic; /sbin/ifconfig $nic inet $ip \ netmask $mask broadcast + up 2>/dev/null; [ -n "$router" ] && route add \ default $router 2>/dev/null; ) ) ;; esac fi # # We tell smf this service is online if any of the following is true: # - no interfaces were configured for plumbing and no DHCP failures # - any non-loopback IPv4 interfaces are up and have a non-zero address # - there are any DHCP interfaces started # - any non-loopback IPv6 interfaces are up # # If we weren't asked to configure any interfaces, exit if [ -z "$inet_list" ] && [ -z "$inet6_list" ]; then # Config error if DHCP was attempted without plumbed interfaces [ -n "$i4d_fail" ] && exit $SMF_EXIT_ERR_CONFIG exit $SMF_EXIT_OK fi # Any non-loopback IPv4 interfaces with usable addresses up? if [ -n "`/sbin/ifconfig -a4u`" ]; then /sbin/ifconfig -a4u | while read intf addr rest; do [ $intf = inet ] && [ $addr != 127.0.0.1 ] && [ $addr != 0.0.0.0 ] && exit $SMF_EXIT_OK done && exit $SMF_EXIT_OK fi # Any DHCP interfaces started? [ -n "`/sbin/ifconfig -a4 dhcp status 2>/dev/null`" ] && exit $SMF_EXIT_OK # Any non-loopback IPv6 interfaces up? if [ -n "`/sbin/ifconfig -au6`" ]; then /sbin/ifconfig -au6 | while read intf addr rest; do [ $intf = inet6 ] && [ $addr != ::1/128 ] && exit $SMF_EXIT_OK done && exit $SMF_EXIT_OK fi # This service was supposed to configure something yet didn't. Exit # with config error. exit $SMF_EXIT_ERR_CONFIG