#!/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 is third phase of TCP/IP startup/configuration. This script # runs after the NIS/NIS+ startup script. We run things here that may # depend on NIS/NIS+ maps. # . /lib/svc/share/smf_include.sh . /lib/svc/share/net_include.sh case "$1" in 'start') # # 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 0 ;; # Fall through -- rest of script is the initialization code 'stop') exit 0 ;; *) echo "Usage: $0 { start | stop }" exit 1 ;; esac interface=$2 # If boot variables are not set, set variables we use [ -z "$_INIT_UTS_NODENAME" ] && _INIT_UTS_NODENAME=`/usr/bin/uname -n` # # wait_nis # Wait up to 5 seconds for ypbind to obtain a binding. # wait_nis () { for i in 1 2 3 4 5; do server=`/usr/bin/ypwhich 2>/dev/null` [ $? -eq 0 -a -n "$server" ] && return 0 || sleep 1 done return 1 } # # This function takes two file names and the file mode as input. The two # files are compared for differences (using cmp(1)) and if different, the # second file is over written with the first. A chmod is done with the file # mode passed in. If the files are equal, the first file passed # in (the /tmp file) is deleted. # mv_file () { /usr/bin/cmp -s $1 $2 if [ $? -eq 1 ]; then /usr/bin/mv $1 $2 # # The umask during boot is configurable, which requires # explicit setting of file permission modes when we # create files. # /usr/bin/chmod $3 $2 else /usr/bin/rm $1 fi } # # update_nss # This routine takes as a parameter, the name of the respective policy # to change in the nsswitch.conf (hosts or ipnodes) to update with dns. # update_nss () { policy=$1; # Add dns to the nsswitch file, if it isn't already there. /usr/bin/awk ' $1 ~ /^'${policy}':/ { n = split($0, a); newl = a[1]; if ($0 !~ /dns/) { printf("#%s # Commented out by DHCP\n", $0); updated = 0; for (i = 2; i <= n; i++) { if (updated == 0 && index(a[i], "[") == 1) { newl = newl" dns"; updated++; } newl = newl" "a[i]; } if (updated == 0) { newl = newl" dns"; updated++; } if (updated != 0) newl = newl" # Added by DHCP"; else newl = $0; printf("%s\n", newl); } else printf("%s\n", $0); } $1 !~ /^'${policy}':/ { printf("%s\n", $0); }' /etc/nsswitch.conf \ >/tmp/nsswitch.conf.$$ mv_file /tmp/nsswitch.conf.$$ /etc/nsswitch.conf 644 } # # We now need to reset the netmask and broadcast address for our network # interfaces. Since this may result in a name service lookup, we want to # now wait for NIS to come up if we previously started it. # domain=`/usr/bin/domainname 2>/dev/null` [ -z "$domain" ] || [ ! -d /var/yp/binding/$domain ] || wait_nis || \ echo "WARNING: Timed out waiting for NIS to come up" >& 2 # # Re-set the netmask and broadcast addr for all IP interfaces. This ifconfig # is run here, after waiting for name services, so that "netmask +" will find # the netmask if it lives in a NIS map. The 'D' in -auD tells ifconfig NOT to # mess with the interface if it is under DHCP control # /usr/sbin/ifconfig -auD4 netmask + broadcast + # Uncomment these lines to print complete network interface configuration # echo "network interface configuration:" # /usr/sbin/ifconfig -a smf_netstrategy if [ "$_INIT_NET_STRATEGY" = "dhcp" ]; then if [ -n "$interface" ]; then dnsservers=`/sbin/dhcpinfo -i $interface DNSserv` else dnsservers=`/sbin/dhcpinfo DNSserv` fi else dnsservers="" fi if [ -n "$dnsservers" ]; then # # Go through /etc/resolv.conf and replace any existing # domain or nameserver entries with new ones derived # from DHCP. Note that it is important to preserve # order of domain entries vs. search entries; the search # entries are reserved for administrator customization # and if placed after the domain entry will override it. # See resolv.conf(4). # if [ ! -f /etc/resolv.conf ]; then /usr/bin/touch /etc/resolv.conf fi if [ -n "$interface" ]; then dnsdomain=`/sbin/dhcpinfo -i $interface DNSdmain` else dnsdomain=`/sbin/dhcpinfo DNSdmain` fi export dnsservers dnsdomain /usr/bin/nawk /tmp/resolv.conf.$$ ' function writedomain() { if (updated == 0) { # Use only first domain, not a search list split(ENVIRON["dnsdomain"], d) if(length(d[1]) != 0) printf("domain %s\n", d[1]) } ++updated } $1 == "domain" { writedomain(); next } $1 != "nameserver" { print $0 } END { writedomain() n = split(ENVIRON["dnsservers"], s) for (i = 1; i <= n; ++i) printf("nameserver %s\n", s[i]) }' unset dnsservers dnsdomain mv_file /tmp/resolv.conf.$$ /etc/resolv.conf 644 # # Add dns to the nsswitch file, if it isn't already there. # update_nss hosts update_nss ipnodes elif /usr/bin/grep '# Added by DHCP$' /etc/nsswitch.conf >/dev/null 2>&1; then # If we added DNS to the hosts and ipnodes policy in the nsswitch, # remove it. /usr/bin/sed \ -e '/# Added by DHCP$/d' \ -e 's/^\(#hosts:\)\(.*[^#]\)\(#.*\)$/hosts: \2/' \ -e 's/^\(#ipnodes:\)\(.*[^#]\)\(#.*\)$/ipnodes: \2/' \ /etc/nsswitch.conf >/tmp/nsswitch.conf.$$ mv_file /tmp/nsswitch.conf.$$ /etc/nsswitch.conf 644 fi # Clean up any old DHCP-added entries (except loopback) in the hosts file. if /usr/bin/grep '# Added by DHCP$' /etc/inet/hosts >/dev/null 2>&1; then /usr/bin/nawk '{ if (index($0, "# Added by DHCP") == 0 || $1 == "127.0.0.1" || $1 == "::1") { print $0 } }' /etc/inet/hosts > /tmp/hosts.$$ mv_file /tmp/hosts.$$ /etc/inet/hosts 444 fi # # Add a static route for multicast packets out our default interface. # The default interface is the interface that corresponds to the node name. # Run in background subshell to avoid waiting for name service. # ( if [ "$_INIT_NET_STRATEGY" = "dhcp" ]; then mcastif=`/sbin/dhcpinfo Yiaddr` || mcastif=$_INIT_UTS_NODENAME else mcastif=$_INIT_UTS_NODENAME fi echo "Setting default IPv4 interface for multicast:" \ "add net 224.0/4: gateway $mcastif" /usr/sbin/route -n add -interface 224.0/4 -gateway "$mcastif" >/dev/null ) & # # NWAM-triggered interface changes may necessitate updating IPv6 multicast # route. # update_v6_multicast_route if [ -z "$SMF_FMRI" ] || [ "$SMF_FMRI" = "svc:/network/physical:nwam" ]; then exit 0 fi # # Load the IPQoS configuration. # This is backgrounded so that any remote hostname lookups it performs # don't unduely delay startup. Any messages go via syslog. # if [ -f /usr/sbin/ipqosconf -a -f /etc/inet/ipqosinit.conf ]; then /usr/sbin/ipqosconf -s -a /etc/inet/ipqosinit.conf & fi