#!/sbin/runscript
# Copyright (c) 2004-2006 Gentoo Foundation
# Distributed under the terms of the GNU General Public License v2
# Contributed by Roy Marples (uberlord@gentoo.org)
# Many thanks to Aron Griffis (agriffis@gentoo.org)
# for help, ideas and patches
#NB: Config is in /etc/conf.d/net
# For pcmcia users. note that pcmcia must be added to the same
# runlevel as the net.* script that needs it.
depend() {
need localmount
after bootmisc hostname
use isapnp isdn pcmcia usb wlan
# Load any custom depend functions for the given interface
# For example, br0 may need eth0 and eth1
local iface="${SVCNAME#*.}"
[[ $(type -t "depend_${iface}") == "function" ]] && depend_${iface}
if [[ ${iface} != "lo" && ${iface} != "lo0" ]] ; then
after net.lo net.lo0
# Support new style RC_NEED and RC_USE in one net file
local x="RC_NEED_${iface}"
[[ -n ${!x} ]] && need ${!x}
x="RC_USE_${iface}"
[[ -n ${!x} ]] && use ${!x}
fi
return 0
}
# Define where our modules are
MODULES_DIR="${svclib}/net"
# Make some wrappers to fudge after/before/need/use depend flags.
# These are callbacks so MODULE will be set.
after() {
eval "${MODULE}_after() { echo \"$*\"; }"
}
before() {
eval "${MODULE}_before() { echo \"$*\"; }"
}
need() {
eval "${MODULE}_need() { echo \"$*\"; }"
}
installed() {
# We deliberately misspell this as _installed will probably be used
# at some point
eval "${MODULE}_instlled() { echo \"$*\"; }"
}
provide() {
eval "${MODULE}_provide() { echo \"$*\"; }"
}
functions() {
eval "${MODULE}_functions() { echo \"$*\"; }"
}
variables() {
eval "${MODULE}_variables() { echo \"$*\"; }"
}
is_loopback() {
[[ $1 == "lo" || $1 == "lo0" ]]
}
# char* interface_device(char *iface)
#
# Gets the base device of the interface
# Can handle eth0:1 and eth0.1
# Which returns eth0 in this case
interface_device() {
local dev="${1%%.*}"
[[ ${dev} == "$1" ]] && dev="${1%%:*}"
echo "${dev}"
}
# char* interface_type(char* iface)
#
# Returns the base type of the interface
# eth, ippp, etc
interface_type() {
echo "${1%%[0-9]*}"
}
# int calculate_metric(char *interface, int base)
#
# Calculates the best metric for the interface
# We use this when we add routes so we can prefer interfaces over each other
calculate_metric() {
local iface="$1" metric="$2"
# Have we already got a metric?
local m=$(awk '$1=="'${iface}'" && $2=="00000000" { print $7 }' \
/proc/net/route)
if [[ -n ${m} ]] ; then
echo "${m}"
return 0
fi
local i= dest= gw= flags= ref= u= m= mtu= metrics=
while read i dest gw flags ref u m mtu ; do
# Ignore lo
is_loopback "${i}" && continue
# We work out metrics from default routes only
[[ ${dest} != "00000000" || ${gw} == "00000000" ]] && continue
metrics="${metrics}\n${m}"
done < /proc/net/route
# Now, sort our metrics
metrics=$(echo -e "${metrics}" | sort -n)
# Now, find the lowest we can use
local gotbase=false
for m in ${metrics} ; do
[[ ${m} -lt ${metric} ]] && continue
[[ ${m} == ${metric} ]] && ((metric++))
[[ ${m} -gt ${metric} ]] && break
done
echo "${metric}"
}
# int netmask2cidr(char *netmask)
#
# Returns the CIDR of a given netmask
netmask2cidr() {
local binary= i= bin=
for i in ${1//./ }; do
bin=""
while [[ ${i} != "0" ]] ; do
bin=$[${i}%2]${bin}
(( i=i>>1 ))
done
binary="${binary}${bin}"
done
binary="${binary%%0*}"
echo "${#binary}"
}
# bool is_function(char* name)
#
# Returns 0 if the given name is a shell function, otherwise 1
is_function() {
[[ -z $1 ]] && return 1
[[ $(type -t "$1") == "function" ]]
}
# void function_wrap(char* source, char* target)
#
# wraps function calls - for example function_wrap(this, that)
# maps function names this_* to that_*
function_wrap() {
local i=
is_function "${2}_depend" && return
for i in $(typeset -f | grep -o '^'"${1}"'_[^ ]*'); do
eval "${2}${i#${1}}() { ${i} \"\$@\"; }"
done
}
# char[] * expand_parameters(char *cmd)
#
# Returns an array after expanding parameters. For example
# "192.168.{1..3}.{1..3}/24 brd +"
# will return
# "192.168.1.1/24 brd +"
# "192.168.1.2/24 brd +"
# "192.168.1.3/24 brd +"
# "192.168.2.1/24 brd +"
# "192.168.2.2/24 brd +"
# "192.168.2.3/24 brd +"
# "192.168.3.1/24 brd +"
# "192.168.3.2/24 brd +"
# "192.168.3.3/24 brd +"
expand_parameters() {
local x=$(eval echo ${@// /_})
local -a a=( ${x} )
a=( "${a[@]/#/\"}" )
a=( "${a[@]/%/\"}" )
echo "${a[*]//_/ }"
}
# void configure_variables(char *interface, char *option1, [char *option2])
#
# Maps configuration options from <variable>_<option> to <variable>_<iface>
# option2 takes precedence over option1
configure_variables() {
local iface="$1" option1="$2" option2="$3"
local mod= func= x= i=
local -a ivars=() ovars1=() ovars2=()
local ifvar=$(bash_variable "${iface}")
for mod in ${MODULES[@]}; do
is_function ${mod}_variables || continue
for v in $(${mod}_variables) ; do
x=
[[ -n ${option2} ]] && x="${v}_${option2}[@]"
[[ -z ${!x} ]] && x="${v}_${option1}[@]"
[[ -n ${!x} ]] && eval "${v}_${ifvar}=( \"\${!x}\" )"
done
done
return 0
}
# bool module_load_minimum(char *module)
#
# Does the minimum checking on a module - even when forcing
module_load_minimum() {
local f="$1.sh" MODULE="${1##*/}"
if [[ ! -f ${f} ]] ; then
eerror "${f} does not exist"
return 1
fi
if ! source "${f}" ; then
eerror "${MODULE} failed a sanity check"
return 1
fi
for f in depend; do
is_function "${MODULE}_${f}" && continue
eerror "${MODULE}.sh does not support the required function ${f}"
return 1
done
return 0
}
# bool modules_load_auto()
#
# Load and check each module for sanity
# If the module is not installed, the functions are to be removed
modules_load_auto() {
local i j inst
# Populate the MODULES array
# Basically we treat evey file in ${MODULES_DIR} as a module
MODULES=( $( cd "${MODULES_DIR}" ; ls *.sh ) )
j="${#MODULES[@]}"
for (( i=0; i<j; i++ )); do
MODULES[i]="${MODULES_DIR}/${MODULES[i]}"
[[ ! -f ${MODULES[i]} ]] && unset MODULES[i]
done
MODULES=( "${MODULES[@]}" )
# Each of these sources into the global namespace, so it's
# important that module functions and variables are prefixed with
# the module name, for example iproute2_
j="${#MODULES[@]}"
loaded_interface=false
for (( i=0; i<j; i++ )); do
MODULES[i]="${MODULES[i]%.sh*}"
if [[ ${MODULES[i]##*/} == "interface" ]] ; then
eerror "interface is a reserved name - cannot load a module called interface"
return 1
fi
(
u=0;
module_load_minimum "${MODULES[i]}" || u=1;
if [[ ${u} == 0 ]] ; then
inst="${MODULES[i]##*/}_check_installed";
if is_function "${inst}" ; then
${inst} false || u=1;
fi
fi
exit "${u}";
)
if [[ $? == 0 ]] ; then
source "${MODULES[i]}.sh"
MODULES[i]="${MODULES[i]##*/}"
else
unset MODULES[i]
fi
done
MODULES=( "${MODULES[@]}" )
return 0
}
# bool modules_check_installed(void)
#
# Ensure that all modules have the required modules loaded
# This enables us to remove modules from the MODULES array
# Whilst other modules can still explicitly call them
# One example of this is essidnet which configures network
# settings for the specific ESSID connected to as the user
# may be using a daemon to configure wireless instead of our
# iwconfig module
modules_check_installed() {
local i j missingdeps nmods="${#MODULES[@]}"
for (( i=0; i<nmods; i++ )); do
is_function "${MODULES[i]}_instlled" || continue
for j in $( ${MODULES[i]}_instlled ); do
missingdeps=true
if is_function "${j}_check_installed" ; then
${j}_check_installed && missingdeps=false
elif is_function "${j}_depend" ; then
missingdeps=false
fi
${missingdeps} && unset MODULES[i] && unset PROVIDES[i] && break
done
done
MODULES=( "${MODULES[@]}" )
PROVIDES=( "${PROVIDES[@]}" )
}
# bool modules_check_user(void)
modules_check_user() {
local iface="$1" ifvar=$(bash_variable "${IFACE}")
local i= j= k= l= nmods="${#MODULES[@]}"
local -a umods=()
# Has the interface got any specific modules?
umods="modules_${ifvar}[@]"
umods=( "${!umods}" )
# Global setting follows interface-specific setting
umods=( "${umods[@]}" "${modules[@]}" )
# Add our preferred modules
local -a pmods=( "iproute2" "dhcpcd" "iwconfig" "netplugd" )
umods=( "${umods[@]}" "${pmods[@]}" )
# First we strip any modules that conflict from user settings
# So if the user specifies pump then we don't use dhcpcd
for (( i=0; i<${#umods[@]}; i++ )); do
# Some users will inevitably put "dhcp" in their modules
# list. To keep users from screwing up their system this
# way, ignore this setting so that the default dhcp
# module will be used.
[[ ${umods[i]} == "dhcp" ]] && continue
# We remove any modules we explicitly don't want
if [[ ${umods[i]} == "!"* ]] ; then
for (( j=0; j<nmods; j++ )); do
[[ -z ${MODULES[j]} ]] && continue
if [[ ${umods[i]:1} == "${MODULES[j]}" \
|| ${umods[i]:1} == "${PROVIDES[j]}" ]] ; then
# We may need to setup a class wrapper for it even though
# we don't use it directly
# However, we put it into an array and wrap later as
# another module may provide the same thing
${MODULES[j]}_check_installed \
&& WRAP_MODULES=(
"${WRAP_MODULES[@]}"
"${MODULES[j]} ${PROVIDES[j]}"
)
unset MODULES[j]
unset PROVIDES[j]
fi
done
continue
fi
if ! is_function "${umods[i]}_depend" ; then
# If the module is one of our preferred modules, then
# ignore this error; whatever is available will be
# used instead.
(( i < ${#umods[@]} - ${#pmods[@]} )) || continue
# The function may not exist because the modules software is
# not installed. Load the module and report its error
if [[ -e "${MODULES_DIR}/${umods[i]}.sh" ]] ; then
source "${MODULES_DIR}/${umods[i]}.sh"
is_function "${umods[i]}_check_installed" \
&& ${umods[i]}_check_installed true
else
eerror "The module \"${umods[i]}\" does not exist"
fi
return 1
fi
if is_function "${umods[i]}_provide" ; then
mod=$(${umods[i]}_provide)
else
mod="${umods[i]}"
fi
for (( j=0; j<nmods; j++ )); do
[[ -z ${MODULES[j]} ]] && continue
if [[ ${PROVIDES[j]} == "${mod}" && ${umods[i]} != "${MODULES[j]}" ]] ; then
# We don't have a match - now ensure that we still provide an
# alternative. This is to handle our preferred modules.
for (( l=0; l<nmods; l++ )); do
[[ ${l} == "${j}" || -z ${MODULES[l]} ]] && continue
if [[ ${PROVIDES[l]} == "${mod}" ]] ; then
unset MODULES[j]
unset PROVIDES[j]
break
fi
done
fi
done
done
# Then we strip conflicting modules.
# We only need to do this for 3rd party modules that conflict with
# our own modules and the preferred list AND the user modules
# list doesn't specify a preference.
for (( i=0; i<nmods-1; i++ )); do
[[ -z ${MODULES[i]} ]] && continue
for (( j=i+1; j<nmods; j++)); do
[[ -z ${MODULES[j]} ]] && continue
[[ ${PROVIDES[i]} == "${PROVIDES[j]}" ]] \
&& unset MODULES[j] && unset PROVIDES[j]
done
done
MODULES=( "${MODULES[@]}" )
PROVIDES=( "${PROVIDES[@]}" )
return 0
}
# void modules_sort(void)
#
# Sort our modules
modules_sort() {
local i= j= nmods=${#MODULES[@]} m=
local -a provide=() provide_list=() after=() dead=() sorted=() sortedp=()
# Make our provide list
for ((i=0; i<nmods; i++)); do
dead[i]="false"
if [[ ${MODULES[i]} != "${PROVIDES[i]}" ]] ; then
local provided=false
for ((j=0; j<${#provide[@]}; j++)); do
if [[ ${provide[j]} == "${PROVIDES[i]}" ]] ; then
provide_list[j]="${provide_list[j]} ${MODULES[i]}"
provided=true
fi
done
if ! ${provided}; then
provide[j]="${PROVIDES[i]}"
provide_list[j]="${MODULES[i]}"
fi
fi
done
# Create an after array, which holds which modules the module at
# index i must be after
for ((i=0; i<nmods; i++)); do
if is_function "${MODULES[i]}_after" ; then
after[i]=" ${after[i]} $(${MODULES[i]}_after) "
fi
if is_function "${MODULES[i]}_before" ; then
for m in $(${MODULES[i]}_before); do
for ((j=0; j<nmods; j++)) ; do
if [[ ${PROVIDES[j]} == "${m}" ]] ; then
after[j]=" ${after[j]} ${MODULES[i]} "
break
fi
done
done
fi
done
# Replace the after list modules with real modules
for ((i=0; i<nmods; i++)); do
if [[ -n ${after[i]} ]] ; then
for ((j=0; j<${#provide[@]}; j++)); do
after[i]="${after[i]// ${provide[j]} / ${provide_list[j]} }"
done
fi
done
# We then use the below code to provide a topologial sort
module_after_visit() {
local name="$1" i= x=
for ((i=0; i<nmods; i++)); do
[[ ${MODULES[i]} == "$1" ]] && break
done
${dead[i]} && return
dead[i]="true"
for x in ${after[i]} ; do
module_after_visit "${x}"
done
sorted=( "${sorted[@]}" "${MODULES[i]}" )
sortedp=( "${sortedp[@]}" "${PROVIDES[i]}" )
}
for x in ${MODULES[@]}; do
module_after_visit "${x}"
done
MODULES=( "${sorted[@]}" )
PROVIDES=( "${sortedp[@]}" )
}
# bool modules_check_depends(bool showprovides)
modules_check_depends() {
local showprovides="${1:-false}" nmods="${#MODULES[@]}" i= j= needmod=
local missingdeps= p= interface=false
for (( i=0; i<nmods; i++ )); do
if is_function "${MODULES[i]}_need" ; then
for needmod in $(${MODULES[i]}_need); do
missingdeps=true
for (( j=0; j<nmods; j++ )); do
if [[ ${needmod} == "${MODULES[j]}" \
|| ${needmod} == "${PROVIDES[j]}" ]] ; then
missingdeps=false
break
fi
done
if ${missingdeps} ; then
eerror "${MODULES[i]} needs ${needmod} (dependency failure)"
return 1
fi
done
fi
if is_function "${MODULES[i]}_functions" ; then
for f in $(${MODULES[i]}_functions); do
if ! is_function "${f}" ; then
eerror "${MODULES[i]}: missing required function \"${f}\""
return 1
fi
done
fi
[[ ${PROVIDES[i]} == "interface" ]] && interface=true
if ${showprovides} ; then
[[ ${PROVIDES[i]} != "${MODULES[i]}" ]] \
&& veinfo "${MODULES[i]} provides ${PROVIDES[i]}"
fi
done
if ! ${interface} ; then
eerror "no interface module has been loaded"
return 1
fi
return 0
}
# bool modules_load(char *iface, bool starting)
#
# Loads the defined handler and modules for the interface
# Returns 0 on success, otherwise 1
modules_load() {
local iface="$1" starting="${2:-true}" MODULE= p=false i= j= k=
local -a x=()
local RC_INDENTATION="${RC_INDENTATION}"
local -a PROVIDES=() WRAP_MODULES=()
if ! is_loopback "${iface}" ; then
x="modules_force_${iface}[@]"
[[ -n ${!x} ]] && modules_force=( "${!x}" )
if [[ -n ${modules_force} ]] ; then
ewarn "WARNING: You are forcing modules!"
ewarn "Do not complain or file bugs if things start breaking"
report=true
fi
fi
veinfo "Loading networking modules for ${iface}"
eindent
if [[ -z ${modules_force} ]] ; then
modules_load_auto || return 1
else
j="${#modules_force[@]}"
for (( i=0; i<j; i++ )); do
module_load_minimum "${MODULES_DIR}/${modules_force[i]}" || return 1
if is_function "${modules_force[i]}_check_installed" ; then
${modules_force[i]}_check_installed || unset modules_force[i]
fi
done
MODULES=( "${modules_force[@]}" )
fi
j="${#MODULES[@]}"
for (( i=0; i<j; i++ )); do
# Now load our dependencies - we need to use the MODULE variable
# here as the after/before/need functions use it
MODULE="${MODULES[i]}"
${MODULE}_depend
# expose does exactly the same thing as depend
# However it is more "correct" as it exposes things to other modules
# instead of depending on them ;)
is_function "${MODULES[i]}_expose" && ${MODULES[i]}_expose
# If no provide is given, assume module name
if is_function "${MODULES[i]}_provide" ; then
PROVIDES[i]=$(${MODULES[i]}_provide)
else
PROVIDES[i]="${MODULES[i]}"
fi
done
if [[ -n ${modules_force[@]} ]] ; then
# Strip any duplicate modules providing the same thing
j="${#MODULES[@]}"
for (( i=0; i<j-1; i++ )); do
[[ -z ${MODULES[i]} ]] && continue
for (( k=i+1; k<j; k++ )); do
if [[ ${PROVIDES[i]} == ${PROVIDES[k]} ]] ; then
unset MODULES[k]
unset PROVIDES[k]
fi
done
done
MODULES=( "${MODULES[@]}" )
PROVIDES=( "${PROVIDES[@]}" )
else
if ${starting}; then
modules_check_user "${iface}" || return 1
else
# Always prefer iproute2 for taking down interfaces
if is_function iproute2_provide ; then
function_wrap iproute2 "$(iproute2_provide)"
fi
fi
fi
# Wrap our modules
j="${#MODULES[@]}"
for (( i=0; i<j; i++ )); do
function_wrap "${MODULES[i]}" "${PROVIDES[i]}"
done
j="${#WRAP_MODULES[@]}"
for (( i=0; i<j; i++ )); do
function_wrap ${WRAP_MODULES[i]}
done
if [[ -z ${modules_force[@]} ]] ; then
modules_check_installed || return 1
modules_sort || return 1
fi
veinfo "modules: ${MODULES[@]}"
eindent
${starting} && p=true
modules_check_depends "${p}" || return 1
return 0
}
# bool iface_start(char *interface)
#
# iface_start is called from start. It's expected to start the base
# interface (for example "eth0"), aliases (for example "eth0:1") and to start
# VLAN interfaces (for example eth0.0, eth0.1). VLAN setup is accomplished by
# calling itself recursively.
iface_start() {
local iface="$1" mod config_counter="-1" x config_worked=false
local RC_INDENTATION="${RC_INDENTATION}"
local -a config=() fallback=() fallback_route=() conf=() a=() b=()
local ifvar=$(bash_variable "$1") i= j= metric=0
# pre Start any modules with
for mod in ${MODULES[@]}; do
if is_function "${mod}_pre_start" ; then
${mod}_pre_start "${iface}" || { eend 1; return 1; }
fi
done
x="metric_${ifvar}"
# If we don't have a metric then calculate one
# Our modules will set the metric variable to a suitable base
# in their pre starts.
if [[ -z ${!x} ]] ; then
eval "metric_${ifvar}=\"$(calculate_metric "${iface}" "${metric}")\""
fi
# We now expand the configuration parameters and pray that the
# fallbacks expand to the same number as config or there will be
# trouble!
a="config_${ifvar}[@]"
a=( "${!a}" )
for (( i=0; i<${#a[@]}; i++ )); do
eval b=( $(expand_parameters "${a[i]}") )
config=( "${config[@]}" "${b[@]}" )
done
a="fallback_${ifvar}[@]"
a=( "${!a}" )
for (( i=0; i<${#a[@]}; i++ )); do
eval b=( $(expand_parameters "${a[i]}") )
fallback=( "${fallback[@]}" "${b[@]}" )
done
# We don't expand routes
fallback_route="fallback_route_${ifvar}[@]"
fallback_route=( "${!fallback_route}" )
# We must support old configs
if [[ -z ${config} ]] ; then
interface_get_old_config "${iface}" || return 1
if [[ -n ${config} ]] ; then
ewarn "You are using a deprecated configuration syntax for ${iface}"
ewarn "You are advised to read /etc/conf.d/net.example and upgrade it accordingly"
fi
fi
# Handle "noop" correctly
if [[ ${config[0]} == "noop" ]] ; then
if interface_is_up "${iface}" true ; then
einfo "Keeping current configuration for ${iface}"
eend 0
return 0
fi
# Remove noop from the config var
config=( "${config[@]:1}" )
fi
# Provide a default of DHCP if no configuration is set and we're auto
# Otherwise a default of NULL
if [[ -z ${config} ]] ; then
ewarn "Configuration not set for ${iface} - assuming DHCP"
if is_function "dhcp_start" ; then
config=( "dhcp" )
else
eerror "No DHCP client installed"
return 1
fi
fi
einfo "Bringing up ${iface}"
eindent
for (( config_counter=0; config_counter<${#config[@]}; config_counter++ )); do
# Handle null and noop correctly
if [[ ${config[config_counter]} == "null" \
|| ${config[config_counter]} == "noop" ]] ; then
eend 0
config_worked=true
continue
fi
# We convert it to an array - this has the added
# bonus of trimming spaces!
conf=( ${config[config_counter]} )
einfo "${conf[0]}"
# Do we have a function for our config?
if is_function "${conf[0]}_start" ; then
eindent
${conf[0]}_start "${iface}" ; x=$?
eoutdent
[[ ${x} == 0 ]] && config_worked=true && continue
# We need to test to see if it's an IP address or a function
# We do this by testing if the 1st character is a digit
elif [[ ${conf[0]:0:1} == [[:digit:]] || ${conf[0]} == *:* ]] ; then
x="0"
if ! is_loopback "${iface}" ; then
if [[ " ${MODULES[@]} " == *" arping "* ]] ; then
if arping_address_exists "${iface}" "${conf[0]}" ; then
eerror "${conf[0]%%/*} already taken on ${iface}"
x="1"
fi
fi
fi
[[ ${x} == "0" ]] && interface_add_address "${iface}" ${conf[@]}; x="$?"
eend "${x}" && config_worked=true && continue
else
if [[ ${conf[0]} == "dhcp" ]] ; then
eerror "No DHCP client installed"
else
eerror "No loaded modules provide \"${conf[0]}\" (${conf[0]}_start)"
fi
fi
if [[ -n ${fallback[config_counter]} ]] ; then
einfo "Trying fallback configuration"
config[config_counter]="${fallback[config_counter]}"
fallback[config_counter]=""
# Do we have a fallback route?
if [[ -n ${fallback_route[config_counter]} ]] ; then
x="fallback_route[config_counter]"
eval "routes_${ifvar}=( \"\${!x}\" )"
fallback_route[config_counter]=""
fi
(( config_counter-- )) # since the loop will increment it
continue
fi
done
eoutdent
# We return failure if no configuration parameters worked
${config_worked} || return 1
# Start any modules with _post_start
for mod in ${MODULES[@]}; do
if is_function "${mod}_post_start" ; then
${mod}_post_start "${iface}" || return 1
fi
done
return 0
}
# bool iface_stop(char *interface)
#
# iface_stop: bring down an interface. Don't trust information in
# /etc/conf.d/net since the configuration might have changed since
# iface_start ran. Instead query for current configuration and bring
# down the interface.
iface_stop() {
local iface="$1" i= aliases= need_begin=false mod=
local RC_INDENTATION="${RC_INDENTATION}"
# pre Stop any modules
for mod in ${MODULES[@]}; do
if is_function "${mod}_pre_stop" ; then
${mod}_pre_stop "${iface}" || return 1
fi
done
einfo "Bringing down ${iface}"
eindent
# Collect list of aliases for this interface.
# List will be in reverse order.
if interface_exists "${iface}" ; then
aliases=$(interface_get_aliases_rev "${iface}")
fi
# Stop aliases before primary interface.
# Note this must be done in reverse order, since ifconfig eth0:1
# will remove eth0:2, etc. It might be sufficient to simply remove
# the base interface but we're being safe here.
for i in ${aliases} ${iface}; do
# Stop all our modules
for mod in ${MODULES[@]}; do
if is_function "${mod}_stop" ; then
${mod}_stop "${i}" || return 1
fi
done
# A module may have removed the interface
if ! interface_exists "${iface}" ; then
eend 0
continue
fi
# We don't delete ppp assigned addresses
if ! is_function pppd_exists || ! pppd_exists "${i}" ; then
# Delete all the addresses for this alias
interface_del_addresses "${i}"
fi
# Do final shut down of this alias
if [[ ${IN_BACKGROUND} != "true" \
&& ${RC_DOWN_INTERFACE} == "yes" ]] ; then
ebegin "Shutting down ${i}"
interface_iface_stop "${i}"
eend "$?"
fi
done
# post Stop any modules
for mod in ${MODULES[@]}; do
# We have already taken down the interface, so no need to error
is_function "${mod}_post_stop" && ${mod}_post_stop "${iface}"
done
return 0
}
# bool run_start(char *iface)
#
# Brings up ${IFACE}. Calls preup, iface_start, then postup.
# Returns 0 (success) unless preup or iface_start returns 1 (failure).
# Ignores the return value from postup.
# We cannot check that the device exists ourselves as modules like
# tuntap make create it.
run_start() {
local iface="$1" IFVAR=$(bash_variable "$1")
# We do this so users can specify additional addresses for lo if they
# need too - additional routes too
# However, no extra modules are loaded as they are just not needed
if [[ ${iface} == "lo" ]] ; then
metric_lo="0"
config_lo=( "127.0.0.1/8 brd 127.255.255.255" "${config_lo[@]}" )
routes_lo=( "127.0.0.0/8" "${routes_lo[@]}" )
elif [[ ${iface} == "lo0" ]] ; then
metric_lo0="0"
config_lo0=( "127.0.0.1/8 brd 127.255.255.255" "${config_lo[@]}" )
routes_lo0=( "127.0.0.0/8" "${routes_lo[@]}" )
fi
# We may not have a loaded module for ${iface}
# Some users may have "alias natsemi eth0" in /etc/modules.d/foo
# so we can work with this
# However, if they do the same with eth1 and try to start it
# but eth0 has not been loaded then the module gets loaded as
# eth0.
# Not much we can do about this :(
# Also, we cannot error here as some modules - such as bridge
# create interfaces
if ! interface_exists "${iface}" ; then
/sbin/modprobe "${iface}" &>/dev/null
fi
# Call user-defined preup function if it exists
if is_function preup ; then
einfo "Running preup function"
eindent
( preup "${iface}" )
eend "$?" "preup ${iface} failed" || return 1
eoutdent
fi
# If config is set to noop and the interface is up with an address
# then we don't start it
local config=
config="config_${IFVAR}[@]"
config=( "${!config}" )
if [[ ${config[0]} == "noop" ]] && interface_is_up "${iface}" true ; then
einfo "Keeping current configuration for ${iface}"
eend 0
else
# Remove noop from the config var
[[ ${config[0]} == "noop" ]] \
&& eval "config_${IFVAR}=( "\"\$\{config\[@\]:1\}\"" )"
# There may be existing ip address info - so we strip it
if [[ ${RC_INTERFACE_KEEP_CONFIG} != "yes" \
&& ${IN_BACKGROUND} != "true" ]] ; then
interface_del_addresses "${iface}"
fi
# Start the interface
if ! iface_start "${iface}" ; then
if [[ ${IN_BACKGROUND} != "true" ]] ; then
interface_exists "${iface}" && interface_down "${iface}"
fi
eend 1
return 1
fi
fi
# Call user-defined postup function if it exists
if is_function postup ; then
# We need to mark the service as started incase a
# postdown function wants to restart services that depend on us
mark_service_started "net.${iface}"
end_service "net.${iface}" 0
einfo "Running postup function"
eindent
( postup "${iface}" )
eoutdent
fi
return 0
}
# bool run_stop(char *iface) {
#
# Brings down ${iface}. If predown call returns non-zero, then
# stop returns non-zero to indicate failure bringing down device.
# In all other cases stop returns 0 to indicate success.
run_stop() {
local iface="$1" IFVAR=$(bash_variable "$1") x
# Load our ESSID variable so users can use it in predown() instead
# of having to write code.
local ESSID=$(get_options ESSID) ESSIDVAR=
[[ -n ${ESSID} ]] && ESSIDVAR=$(bash_variable "${ESSID}")
# Call user-defined predown function if it exists
if is_function predown ; then
einfo "Running predown function"
eindent
( predown "${iface}" )
eend $? "predown ${iface} failed" || return 1
eoutdent
elif is_net_fs / ; then
eerror "root filesystem is network mounted -- can't stop ${iface}"
return 1
elif is_union_fs / ; then
for x in $(unionctl "${dir}" --list \
| sed -e 's/^\(.*\) .*/\1/') ; do
if is_net_fs "${x}" ; then
eerror "Part of the root filesystem is network mounted - cannot stop ${iface}"
return 1
fi
done
fi
iface_stop "${iface}" || return 1 # always succeeds, btw
# Release resolv.conf information.
[[ -x /sbin/resolvconf ]] && resolvconf -d "${iface}"
# Mark us as inactive if called from the background
[[ ${IN_BACKGROUND} == "true" ]] && mark_service_inactive "net.${iface}"
# Call user-defined postdown function if it exists
if is_function postdown ; then
# We need to mark the service as stopped incase a
# postdown function wants to restart services that depend on us
[[ ${IN_BACKGROUND} != "true" ]] && mark_service_stopped "net.${iface}"
end_service "net.${iface}" 0
einfo "Running postdown function"
eindent
( postdown "${iface}" )
eoutdent
fi
return 0
}
# bool run(char *iface, char *cmd)
#
# Main start/stop entry point
# We load modules here and remove any functions that they
# added as we may be called inside the same shell scope for another interface
run() {
local iface="$1" cmd="$2" r=1 RC_INDENTATION="${RC_INDENTATION}"
local starting=true
local -a MODULES=() mods=()
local IN_BACKGROUND="${IN_BACKGROUND}"
if [[ ${IN_BACKGROUND} == "true" || ${IN_BACKGROUND} == "1" ]] ; then
IN_BACKGROUND=true
else
IN_BACKGROUND=false
fi
# We need to override the exit function as runscript.sh now checks
# for it. We need it so we can mark the service as inactive ourselves.
unset -f exit
eindent
[[ ${cmd} == "stop" ]] && starting=false
# We force lo to only use these modules for a major speed boost
if is_loopback "${iface}" ; then
modules_force=( "iproute2" "ifconfig" "system" )
fi
if modules_load "${iface}" "${starting}" ; then
if [[ ${cmd} == "stop" ]] ; then
# Reverse the module list for stopping
mods=( "${MODULES[@]}" )
for ((i = 0; i < ${#mods[@]}; i++)); do
MODULES[i]=${mods[((${#mods[@]} - i - 1))]}
done
run_stop "${iface}" && r=0
else
# Only hotplug on ethernet interfaces
if [[ ${IN_HOTPLUG} == 1 ]] ; then
if ! interface_is_ethernet "${iface}" ; then
eerror "We only hotplug for ethernet interfaces"
return 1
fi
fi
run_start "${iface}" && r=0
fi
fi
if [[ ${r} != "0" ]] ; then
if [[ ${cmd} == "start" ]] ; then
# Call user-defined failup if it exists
if is_function failup ; then
einfo "Running failup function"
eindent
( failup "${iface}" )
eoutdent
fi
else
# Call user-defined faildown if it exists
if is_function faildown ; then
einfo "Running faildown function"
eindent
( faildown "${iface}" )
eoutdent
fi
fi
[[ ${IN_BACKGROUND} == "true" ]] \
&& mark_service_inactive "net.${iface}"
fi
return "${r}"
}
# bool start(void)
#
# Start entry point so that we only have one function
# which localises variables and unsets functions
start() {
declare -r IFACE="${SVCNAME#*.}"
einfo "Starting ${IFACE}"
run "${IFACE}" start
}
# bool stop(void)
#
# Stop entry point so that we only have one function
# which localises variables and unsets functions
stop() {
declare -r IFACE="${SVCNAME#*.}"
einfo "Stopping ${IFACE}"
run "${IFACE}" stop
}
# vim:ts=4