#!/bin/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 2010 Sun Microsystems, Inc. All rights reserved. # Use is subject to license terms. # # Copyright (c) 1984, 1986, 1987, 1988, 1989 AT&T. # All rights reserved. # # Print warnings to console warn_failed_ifs() { echo "Failed to $1 interface(s):$2" >/dev/msglog } # # shcat file # Simulates cat in sh so it doesn't need to be on the root filesystem. # shcat() { while [ $# -ge 1 ]; do while read i; do echo "$i" done < $1 shift done } # # inet_list list of IPv4 interfaces. # inet6_list list of IPv6 interfaces. # ipmp_list list of IPMP IPv4 interfaces. # ipmp6_list list of IPMP IPv6 interfaces. # inet_plumbed list of plumbed IPv4 interfaces. # inet6_plumbed list of plumbed IPv6 interfaces. # ipmp_created list of created IPMP IPv4 interfaces. # ipmp6_created list of created IPMP IPv6 interfaces. # inet_failed list of IPv4 interfaces that failed to plumb. # inet6_failed list of IPv6 interfaces that failed to plumb. # ipmp_failed list of IPMP IPv4 interfaces that failed to be created. # ipmp6_failed list of IPMP IPv6 interfaces that failed to be created. # unset inet_list inet_plumbed inet_failed \ inet6_list inet6_plumbed inet6_failed \ ipmp_list ipmp_created ipmp_failed \ ipmp6_list ipmp6_created ipmp6_failed # # get_physical interface # # Return physical interface corresponding to the given interface. # get_physical() { ORIGIFS="$IFS" IFS="${IFS}:" set -- $1 IFS="$ORIGIFS" echo $1 } # # get_logical interface # # Return logical interface number. Zero will be returned # if there is no explicit logical number. # get_logical() { ORIGIFS="$IFS" IFS="${IFS}:" set -- $1 IFS="$ORIGIFS" if [ -z "$2" ]; then echo 0 else echo $2 fi } # # if_comp if1 if2 # # Compare interfaces. Do the physical interface names and logical interface # numbers match? # if_comp() { physical_comp $1 $2 && [ `get_logical $1` -eq `get_logical $2` ] } # # physical_comp if1 if2 # # Do the two interfaces share a physical interface? # physical_comp() { [ "`get_physical $1`" = "`get_physical $2`" ] } # # in_list op item list # # Is "item" in the given list? Use "op" to do the test, applying it to # "item" and each member of the list in turn until it returns success. # in_list() { op=$1 item=$2 shift 2 while [ $# -gt 0 ]; do $op $item $1 && return 0 shift done return 1 } # # get_groupifname groupname # # Return the IPMP meta-interface name for the group, if it exists. # get_groupifname() { /sbin/ipmpstat -gP -o groupname,group | while IFS=: read name ifname; do if [ "$name" = "$1" ]; then echo "$ifname" return fi done } # # create_ipmp ifname groupname type # # Helper function for create_groupifname() that returns zero if it's able # to create an IPMP interface of the specified type and place it in the # specified group, or non-zero otherwise. # create_ipmp() { /sbin/ifconfig $1 >/dev/null 2>&1 && return 1 /sbin/ifconfig $1 inet6 >/dev/null 2>&1 && return 1 /sbin/ifconfig $1 $3 ipmp group $2 2>/dev/null } # # create_groupifname groupname type # # Create an IPMP meta-interface name for the group. We only use this # function if all of the interfaces in the group failed at boot and there # were no /etc/hostname[6]. files for the IPMP meta-interface. # create_groupifname() { # # This is a horrible way to count from 0 to 999, but in sh and # without necessarily having /usr mounted, what else can we do? # for a in "" 1 2 3 4 5 6 7 8 9; do for b in 0 1 2 3 4 5 6 7 8 9; do for c in 0 1 2 3 4 5 6 7 8 9; do # strip leading zeroes [ "$a" = "" ] && [ "$b" = 0 ] && b="" if create_ipmp ipmp$a$b$c $1 $2; then echo ipmp$a$b$c return fi done done done } # # get_hostname_ipmpinfo interface type # # Return all requested IPMP keywords from hostname file for a given interface. # # Example: # get_hostname_ipmpinfo hme0 inet keyword [ keyword ... ] # get_hostname_ipmpinfo() { case "$2" in inet) file=/etc/hostname.$1 ;; inet6) file=/etc/hostname6.$1 ;; *) return ;; esac [ -r "$file" ] || return type=$2 shift 2 # # Read through the hostname file looking for the specified # keywords. Since there may be several keywords that cancel # each other out, the caller must post-process as appropriate. # while read line; do [ -z "$line" ] && continue /sbin/ifparse -s "$type" $line done < "$file" | while read one two; do for keyword in "$@"; do [ "$one" = "$keyword" ] && echo "$one $two" done done } # # get_group_for_type interface type list # # Look through the set of hostname files associated with the same physical # interface as "interface", and determine which group they would configure. # Only hostname files associated with the physical interface or logical # interface zero are allowed to set the group. # get_group_for_type() { physical=`get_physical $1` type=$2 group="" # # The last setting of the group is the one that counts, which is # the reason for the second while loop. # shift 2 for ifname in "$@"; do if if_comp "$physical" $ifname; then get_hostname_ipmpinfo $ifname $type group fi done | while :; do read keyword grname || { echo "$group" break } group="$grname" done } # # get_group interface # # If there is both an inet and inet6 version of an interface, the group # could be set in either set of hostname files. Since inet6 is configured # after inet, if there's a setting in both files, inet6 wins. # get_group() { group=`get_group_for_type $1 inet6 $inet6_list` [ -z "$group" ] && group=`get_group_for_type $1 inet $inet_list` echo $group } # # Given the interface name and the address family (inet or inet6), determine # whether this is a VRRP VNIC. # # This is used to determine whether to bring the interface up # not_vrrp_interface() { macaddrtype=`/sbin/dladm show-vnic $1 -o MACADDRTYPE -p 2>/dev/null` case "$macaddrtype" in 'vrrp'*''$2'') vrrp=1 ;; *) vrrp=0 ;; esac return $vrrp } # doDHCPhostname interface # Pass to this function the name of an interface. It will return # true if one should enable the use of DHCP client-side host name # requests on the interface, and false otherwise. # doDHCPhostname() { if [ -f /etc/dhcp.$1 ] && [ -f /etc/hostname.$1 ]; then set -- `shcat /etc/hostname.$1` [ $# -eq 2 -a "$1" = "inet" ] return $? fi return 1 } # # inet_process_hostname processor [ args ] # # Process an inet hostname file. The contents of the file # are taken from standard input. Each line is passed # on the command line to the "processor" command. # Command line arguments can be passed to the processor. # # Examples: # inet_process_hostname /sbin/ifconfig hme0 < /etc/hostname.hme0 # # inet_process_hostname /sbin/ifparse -f < /etc/hostname.hme0 # # If there is only line in an hostname file we assume it contains # the old style address which results in the interface being brought up # and the netmask and broadcast address being set ($inet_oneline_epilogue). # # Note that if the interface is a VRRP interface, do not bring the address # up ($inet_oneline_epilogue_no_up). # # If there are multiple lines we assume the file contains a list of # commands to the processor with neither the implied bringing up of the # interface nor the setting of the default netmask and broadcast address. # # Return non-zero if any command fails so that the caller may alert # users to errors in the configuration. # inet_oneline_epilogue_no_up="netmask + broadcast +" inet_oneline_epilogue="netmask + broadcast + up" inet_process_hostname() { if doDHCPhostname $2; then : else # # Redirecting input from a file results in a sub-shell being # used, hence this outer loop surrounding the "multiple_lines" # and "ifcmds" variables. # while :; do multiple_lines=false ifcmds="" retval=0 while read one rest; do if [ -n "$ifcmds" ]; then # # This handles the first N-1 # lines of a N-line hostname file. # $* $ifcmds || retval=$? multiple_lines=true fi # # Strip out the "ipmp" keyword if it's the # first token, since it's used to control # interface creation, not configuration. # [ "$one" = ipmp ] && one= ifcmds="$one $rest" done # # If the hostname file is empty or consists of only # blank lines, break out of the outer loop without # configuring the newly plumbed interface. # [ -z "$ifcmds" ] && return $retval if [ $multiple_lines = false ]; then # # The traditional one-line hostname file. # Note that we only bring it up if the # interface is not a VRRP VNIC. # if not_vrrp_interface $2 $3; then estr="$inet_oneline_epilogue" else estr="$inet_oneline_epilogue_no_up" fi ifcmds="$ifcmds $estr" fi # # This handles either the single-line case or # the last line of the N-line case. # $* $ifcmds || return $? return $retval done fi } # # inet6_process_hostname processor [ args ] # # Process an inet6 hostname file. The contents of the file # are taken from standard input. Each line is passed # on the command line to the "processor" command. # Command line arguments can be passed to the processor. # # Examples: # inet6_process_hostname /sbin/ifconfig hme0 inet6 < /etc/hostname6.hme0 # # inet6_process_hostname /sbin/ifparse -f inet6 < /etc/hostname6.hme0 # # Return non-zero if any of the commands fail so that the caller may alert # users to errors in the configuration. # inet6_process_hostname() { retval=0 while read one rest; do # # See comment in inet_process_hostname for details. # [ "$one" = ipmp ] && one= ifcmds="$one $rest" if [ -n "$ifcmds" ]; then $* $ifcmds || retval=$? fi done return $retval } # # Process interfaces that failed to plumb. Find the IPMP meta-interface # that should host the addresses. For IPv6, only static addresses defined # in hostname6 files are moved, autoconfigured addresses are not moved. # # Example: # move_addresses inet6 # move_addresses() { type="$1" eval "failed=\"\$${type}_failed\"" eval "list=\"\$${type}_list\"" process_func="${type}_process_hostname" processed="" if [ "$type" = inet ]; then typedesc="IPv4" zaddr="0.0.0.0" hostpfx="/etc/hostname" else typedesc="IPv6" zaddr="::" hostpfx="/etc/hostname6" fi echo "Moving addresses from missing ${typedesc} interface(s):\c" \ >/dev/msglog for ifname in $failed; do in_list if_comp $ifname $processed && continue group=`get_group $ifname` if [ -z "$group" ]; then in_list physical_comp $ifname $processed || { echo " $ifname (not moved -- not" \ "in an IPMP group)\c" >/dev/msglog processed="$processed $ifname" } continue fi # # Lookup the IPMP meta-interface name. If one doesn't exist, # create it. # grifname=`get_groupifname $group` [ -z "$grifname" ] && grifname=`create_groupifname $group $type` # # The hostname files are processed twice. In the first # pass, we are looking for all commands that apply to the # non-additional interface address. These may be # scattered over several files. We won't know whether the # address represents a failover address or not until we've # read all the files associated with the interface. # # In the first pass through the hostname files, all # additional logical interface commands are removed. The # remaining commands are concatenated together and passed # to ifparse to determine whether the non-additional # logical interface address is a failover address. If it # as a failover address, the address may not be the first # item on the line, so we can't just substitute "addif" # for "set". We prepend an "addif $zaddr" command, and # let the embedded "set" command set the address later. # /sbin/ifparse -f $type ` for item in $list; do if_comp $ifname $item && $process_func \ /sbin/ifparse $type < $hostpfx.$item done | while read three four; do [ "$three" != addif ] && echo "$three $four \c" done` | while read one two; do [ -z "$one" ] && continue [ "$one $two" = "$inet_oneline_epilogue" ] && \ continue line="addif $zaddr $one $two" /sbin/ifconfig $grifname $type $line >/dev/null done # # In the second pass, look for the the "addif" commands # that configure additional failover addresses. Addif # commands are not valid in logical interface hostname # files. # if [ "$ifname" = "`get_physical $ifname`" ]; then $process_func /sbin/ifparse -f $type < $hostpfx.$ifname \ | while read one two; do [ "$one" = addif ] && \ /sbin/ifconfig $grifname $type \ addif $two >/dev/null done fi in_list physical_comp $ifname $processed || { processed="$processed $ifname" echo " $ifname (moved to $grifname)\c" > /dev/msglog } done echo "." >/dev/msglog } # # if_configure type class interface_list # # Configure all of the interfaces of type `type' (e.g., "inet6") in # `interface_list' according to their /etc/hostname[6].* files. `class' # describes the class of interface (e.g., "IPMP"), as a diagnostic aid. # For inet6 interfaces, the interface is also brought up. # if_configure() { fail= type=$1 class=$2 process_func=${type}_process_hostname shift 2 if [ "$type" = inet ]; then desc="IPv4" hostpfx="/etc/hostname" else desc="IPv6" hostpfx="/etc/hostname6" fi [ -n "$class" ] && desc="$class $desc" echo "configuring $desc interfaces:\c" while [ $# -gt 0 ]; do $process_func /sbin/ifconfig $1 $type < $hostpfx.$1 >/dev/null if [ $? != 0 ]; then fail="$fail $1" elif [ "$type" = inet6 ]; then # # only bring the interface up if it is not a # VRRP VNIC # if not_vrrp_interface $1 $type; then /sbin/ifconfig $1 inet6 up || fail="$fail $1" fi fi echo " $1\c" shift done echo "." [ -n "$fail" ] && warn_failed_ifs "configure $desc" "$fail" } # # net_reconfigure is called from the network/physical service (by the # net-physical and net-nwam method scripts) to perform tasks that only # need to be done during a reconfigure boot. This needs to be # isolated in a function since network/physical has two instances # (default and nwam) that have distinct method scripts that each need # to do these things. # net_reconfigure () { # # Is this a reconfigure boot? If not, then there's nothing # for us to do. # reconfig=`svcprop -c -p system/reconfigure \ system/svc/restarter:default 2>/dev/null` if [ $? -ne 0 -o "$reconfig" = false ]; then return 0 fi # # Ensure that the datalink-management service is running since # manifest-import has not yet run for a first boot after # upgrade. We wouldn't need to do that if manifest-import ran # earlier in boot, since there is an explicit dependency # between datalink-management and network/physical. # svcadm enable -ts network/datalink-management:default # # There is a bug in SMF which causes the svcadm command above # to exit prematurely (with an error code of 3) before having # waited for the service to come online after having enabled # it. Until that bug is fixed, we need to have the following # loop to explicitly wait for the service to come online. # i=0 while [ $i -lt 30 ]; do i=`expr $i + 1` sleep 1 state=`svcprop -p restarter/state \ network/datalink-management:default 2>/dev/null` if [ $? -ne 0 ]; then continue elif [ "$state" = "online" ]; then break fi done if [ "$state" != "online" ]; then echo "The network/datalink-management service \c" echo "did not come online." return 1 fi # # Initialize the set of physical links, and validate and # remove all the physical links which were removed during the # system shutdown. # /sbin/dladm init-phys return 0 } # # Check for use of the default "Port VLAN Identifier" (PVID) -- VLAN 1. # If there is one for a given interface, then warn the user and force the # PVID to zero (if it's not already set). We do this by generating a list # of interfaces with VLAN 1 in use first, and then parsing out the # corresponding base datalink entries to check for ones without a # "default_tag" property. # update_pvid() { datalink=/etc/dladm/datalink.conf ( # Find datalinks using VLAN 1 explicitly # configured by dladm /usr/bin/nawk ' /^#/ || NF < 2 { next } { linkdata[$1]=$2; } /;vid=int,1;/ { sub(/.*;linkover=int,/, "", $2); sub(/;.*/, "", $2); link=linkdata[$2]; sub(/name=string,/, "", link); sub(/;.*/, "", link); print link; }' $datalink ) | ( /usr/bin/sort -u; echo END; cat $datalink ) | /usr/bin/nawk ' /^END$/ { state=1; } state == 0 { usingpvid[++nusingpvid]=$1; next; } /^#/ || NF < 2 { next; } { # If it is already present and has a tag set, # then believe it. if (!match($2, /;default_tag=/)) next; sub(/name=string,/, "", $2); sub(/;.*/, "", $2); for (i = 1; i <= nusingpvid; i++) { if (usingpvid[i] == $2) usingpvid[i]=""; } } END { for (i = 1; i <= nusingpvid; i++) { if (usingpvid[i] != "") { printf("Warning: default VLAN tag set to 0" \ " on %s\n", usingpvid[i]); cmd=sprintf("dladm set-linkprop -p " \ "default_tag=0 %s\n", usingpvid[i]); system(cmd); } } }' } # # service_exists fmri # # returns success (0) if the service exists, 1 otherwise. # service_exists() { /usr/sbin/svccfg -s $1 listpg > /dev/null 2>&1 if [ $? -eq 0 ]; then return 0; fi return 1; } # # service_is_enabled fmri # # returns success (0) if the service is enabled (permanently or # temporarily), 1 otherwise. # service_is_enabled() { # # The -c option must be specified to use the composed view # because the general/enabled property takes immediate effect. # See Example 2 in svcprop(1). # # Look at the general_ovr/enabled (if it is present) first to # determine the temporarily enabled state. # tstate=`/usr/bin/svcprop -c -p general_ovr/enabled $1 2>/dev/null` if [ $? -eq 0 ]; then [ "$tstate" = "true" ] && return 0 return 1 fi state=`/usr/bin/svcprop -c -p general/enabled $1 2>/dev/null` [ "$state" = "true" ] && return 0 return 1 } # # is_valid_v4addr addr # # Returns 0 if a valid IPv4 address is given, 1 otherwise. # is_valid_v4addr() { echo $1 | /usr/xpg4/bin/awk 'NF != 1 { exit 1 } \ $1 !~ /^((25[0-5]|2[0-4][0-9]|[01]?[0-9]?[0-9])\.){3}\ (25[0-5]|2[0-4][0-9]|[01]?[0-9]?[0-9])$/ \ { exit 1 }' return $? } # # is_valid_v6addr addr # # Returns 0 if a valid IPv6 address is given, 1 otherwise. # is_valid_v6addr() { echo $1 | /usr/xpg4/bin/awk 'NF != 1 { exit 1 } \ # 1:2:3:4:5:6:7:8 $1 !~ /^([a-fA-F0-9]{1,4}:){7}[a-fA-F0-9]{1,4}$/ && # 1:2:3::6:7:8 $1 !~ /^([a-fA-F0-9]{1,4}:){0,6}:([a-fA-F0-9]{1,4}:){0,6}\ [a-fA-F0-9]{1,4}$/ && # 1:2:3:: $1 !~ /^([a-fA-F0-9]{1,4}:){0,7}:$/ && # ::7:8 $1 !~ /^:(:[a-fA-F0-9]{1,4}){0,6}:[a-fA-F0-9]{1,4}$/ && # ::f:1.2.3.4 $1 !~ /^:(:[a-fA-F0-9]{1,4}){0,5}:\ ((25[0-5]|2[0-4][0-9]|[01]?[0-9]?[0-9])\.){3}\ (25[0-5]|2[0-4][0-9]|[01]?[0-9]?[0-9])$/ && # a:b:c:d:e:f:1.2.3.4 $1 !~ /^([a-fA-F0-9]{1,4}:){6}\ ((25[0-5]|2[0-4][0-9]|[01]?[0-9]?[0-9])\.){3}\ (25[0-5]|2[0-4][0-9]|[01]?[0-9]?[0-9])$/ \ { exit 1 }' return $? } # # is_valid_addr addr # # Returns 0 if a valid IPv4 or IPv6 address is given, 1 otherwise. # is_valid_addr() { is_valid_v4addr $1 || is_valid_v6addr $1 } # # nwam_get_loc_prop location property # # echoes the value of the property for the given location # return: # 0 => property is set # 1 => property is not set # nwam_get_loc_prop() { value=`/usr/sbin/nwamcfg "select loc $1; get -V $2" 2>/dev/null` rtn=$? echo $value return $rtn }