#!/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 2009 Sun Microsystems, Inc. All rights reserved. # Use is subject to license terms. # smf_present () { [ -r /etc/svc/volatile/repository_door ] && \ [ ! -f /etc/svc/volatile/repository_door ] } smf_clear_env () { unset \ SMF_FMRI \ SMF_METHOD \ SMF_RESTARTER \ SMF_ZONENAME } # smf_console # # Use as "echo message 2>&1 | smf_console". If SMF_MSGLOG_REDIRECT is # unset, message will be displayed to console. SMF_MSGLOG_REDIRECT is # reserved for future use. # smf_console () { /usr/bin/tee ${SMF_MSGLOG_REDIRECT:-/dev/msglog} } # smf_zonename # # Prints the name of this zone. smf_zonename() { echo "${SMF_ZONENAME:=`/sbin/zonename`}" } # smf_is_globalzone # # Returns zero (success) if this is the global zone. 1 otherwise. # smf_is_globalzone() { [ "${SMF_ZONENAME:=`/sbin/zonename`}" = "global" ] && return 0 return 1 } # smf_is_nonglobalzone # # Returns zero (success) if this is not the global zone. 1 otherwise. # smf_is_nonglobalzone() { [ "${SMF_ZONENAME:=`/sbin/zonename`}" != "global" ] && return 0 return 1 } # smf_configure_ip # # Returns zero (success) if this zone needs IP to be configured i.e. # the global zone or has an exclusive stack. 1 otherwise. # smf_configure_ip() { [ "${SMF_ZONENAME:=`/sbin/zonename`}" = "global" -o \ `/sbin/zonename -t` = exclusive ] && return 0 return 1 } # smf_dont_configure_ip # # Inverse of smf_configure_ip # smf_dont_configure_ip() { [ "${SMF_ZONENAME:=`/sbin/zonename`}" != "global" -a \ `/sbin/zonename -t` = shared ] && return 0 return 1 } # smf_dont_configure_vt # # Returns zero (success) if vt functionality is not to be configured, # 1 otherwise. # smf_dont_configure_vt() { [ "${SMF_ZONENAME:=`/sbin/zonename`}" != "global" ] && return 0 /usr/lib/vtinfo > /dev/null 2>&1 return $? } # smf_is_system_labeled # # Returns zero (success) if system is labeled (aka Trusted Extensions). # 1 otherwise. # smf_is_system_labeled() { [ ! -x /bin/plabel ] && return 1 /bin/plabel > /dev/null 2>&1 return $? } # smf_netstrategy # -> (_INIT_NET_IF, _INIT_NET_STRATEGY) # # Sets _INIT_NET_IF to the name for the network-booted # interface if we are booting from the network. _INIT_NET_STRATEGY is # assigned the value of the current network configuration strategy. # Valid values for _INIT_NET_STRATEGY are "none", "dhcp", and "rarp". # # The network boot strategy for a zone is always "none". # smf_netstrategy () { if smf_is_nonglobalzone; then _INIT_NET_STRATEGY="none" export _INIT_NET_STRATEGY return 0 fi set -- `/sbin/netstrategy` if [ $? -eq 0 ]; then [ "$1" = "nfs" -o "$1" = "cachefs" ] && \ _INIT_NET_IF="$2" export _INIT_NET_IF _INIT_NET_STRATEGY="$3" export _INIT_NET_STRATEGY else return 1 fi } # # smf_kill_contract CONTRACT SIGNAL WAIT TIMEOUT # # To be called from stop methods of non-transient services. # Sends SIGNAL to the service contract CONTRACT. If the # WAIT argument is non-zero, smf_kill_contract will wait # until the contract is empty before returning, or until # TIMEOUT expires. # # Example, send SIGTERM to contract 200: # # smf_kill_contract 200 TERM # # Since killing a contract with pkill(1) is not atomic, # smf_kill_contract will continue to send SIGNAL to CONTRACT # every second until the contract is empty. This will catch # races between fork(2) and pkill(1). # # Note that time in this routine is tracked (after being input # via TIMEOUT) in 10ths of a second. This is because we want # to sleep for short periods of time, and expr(1) is too dumb # to do non-integer math. # # Returns 1 if the contract is invalid. # Returns 2 if WAIT is "1", TIMEOUT is > 0, and TIMEOUT expires. # Returns 0 on success. # smf_kill_contract() { time_waited=0 time_to_wait=$4 [ -z "$time_to_wait" ] && time_to_wait=0 # convert to 10ths. time_to_wait=`expr $time_to_wait * 10` # Verify contract id is valid using pgrep /usr/bin/pgrep -c $1 > /dev/null 2>&1 ret=$? if [ $ret -gt 1 ] ; then echo "Error, invalid contract \"$1\"" >&2 return 1 fi # Return if contract is already empty. [ $ret -eq 1 ] && return 0 # Kill contract. /usr/bin/pkill -$2 -c $1 if [ $? -gt 1 ] ; then echo "Error, could not kill contract \"$1\"" >&2 return 1 fi # Return if WAIT is not set or is "0" [ -z "$3" ] && return 0 [ "$3" -eq 0 ] && return 0 # If contract does not empty, keep killing the contract to catch # any child processes missed because they were forking /usr/bin/pgrep -c $1 > /dev/null 2>&1 while [ $? -eq 0 ] ; do # Return 2 if TIMEOUT was passed, and it has expired [ "$time_to_wait" -gt 0 -a $time_waited -ge $time_to_wait ] && \ return 2 # # At five second intervals, issue the kill again. Note that # the sleep time constant (in tenths) must be a factor of 50 # for the remainder trick to work. i.e. sleeping 2 tenths is # fine, but 27 tenths is not. # remainder=`/usr/bin/expr $time_waited % 50` if [ $time_waited -gt 0 -a $remainder -eq 0 ]; then /usr/bin/pkill -$2 -c $1 fi # Wait two tenths, and go again. /usr/bin/sleep 0.2 time_waited=`/usr/bin/expr $time_waited + 2` /usr/bin/pgrep -c $1 > /dev/null 2>&1 done return 0 } # # smf(5) method and monitor exit status definitions # SMF_EXIT_ERR_OTHER, although not defined, encompasses all non-zero # exit status values. # SMF_EXIT_OK=0 SMF_EXIT_ERR_FATAL=95 SMF_EXIT_ERR_CONFIG=96 SMF_EXIT_MON_DEGRADE=97 SMF_EXIT_MON_OFFLINE=98 SMF_EXIT_ERR_NOSMF=99 SMF_EXIT_ERR_PERM=100